National General Service Manual [PDF]

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General Service Manual National Model Drawworks 55 80-B & 80-UE 110-M & 110-UE 1320-M & 1320-UE 1625-M & 1625-DE

REFERENCE

RIG/PLANT ADDITIONAL CODE

SDRL CODE

DISCIPLINE

CLIENT PO NUMBER CLIENT DOCUMENT NUMBER

Client Document Number

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REFERENCE DESCRIPTION

This document contains proprietary and confidential information which is the property of National Oilwell Varco, L.P., its affiliates or subsidiaries (all collectively referred to hereinafter as “NOV”). It is loaned for limited purposes only and remains the property of NOV. Reproduction, in whole or in part, or use of this design or distribution of this information to others is not permitted without the written consent of NOV. This document is to be returned to NOV upon request or upon completion of the use for which it was loaned. This document and the information contained and represented herein is the copyrighted property of NOV.

National-Oilwell, L.P. 1530 W Sam Houston Pkwy. N Houston, TX 77043 Phone 713-935-8000 Fax 713-935-8382

DOCUMENT NUMBER

REV

EPL-1439

03

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REVISION HISTORY

03

24.03.2005

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21.02.2005

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Date (dd.mm.yyyy)

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FORWARD This manual is published as a general guide for the normal care and operation of your NATIONAL-OILWELL Drawworks. Because of the many factors which normally contribute to the proper function or malfunction of this machinery, and not having complete knowledge of each factor or combination of factors, we cannot detail all facets of this subject. We, therefore, confine the scope of this presentation; and when situations encountered are not fully encompassed by complete understandable instructions – these situations must be referred to NATIONAL-OILWELL. When other than routine maintenance or servicing is necessary, it can be most efficiently performed if the unit or primary component is removed from service to an area of adequate space where an over-head crane, hydraulic lift, bearing pullers, impact tools, shelter, etc., are available and readily accessible. The dimensions and tolerances specified in this publication are those desirable for the most efficient operation of the Drawworks. When components become worn or when new parts are introduced into a worn unit, it may not be possible or economically feasible to reestablish such strict alignment and correct all dimensional deviations. Improvements in design, engineering, materials, production methods, etc., may necessitate changes in the Drawworks resulting in inconsistencies between the contents of this publication and the physical equipment. NATIONAL-OILWELL reserves the right to make these changes without incurring any liability or obligation beyond that stipulated in the purchase contract. The pictures, photographs, charts, diagrams, drawings, written contents and specifications contained herein are not to be construed as giving rise to any warranty on the part of NATIONAL-OILWELL. NATIONAL-OILWELL make no warranty, either expressed or implied, beyond that stipulated in the purchase contract.

CAUTION Exercise safety in all performances, do not ignore any cautions, notes of warnings; use only approved methods, materials and tools. Do not permit any function of questionable safety because accidents are caused by unsafe acts and unsafe conditions. SAFETY IS YOUR BUSINESS AND YOU ARE INVOLVED!

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! ATTENTION ! Before performing any service function, be certain that the unit is separated from the power source or that the power source is locked-out to prevent any form of energy from entering the equipment. This would include electrical or mechanical energy, into or from the prime/mover(s); pneumatic energy from the compressor/air system, etc. The traveling equipment should be suspended from the hanging line and the mechanical brake released to insure there is no load on the drum that may cause unintended rotation. The sub-assemblies of the unit represent massive weights and must also be suspended being released form operating. WARNING Failure to observe the WARNINGS, CAUTIONS and NOTES in this publication or various industry publications can result in property damage, serious bodily injury or even death! INTRODUCTION A serial number is assigned to each drawworks and any inquiries concerning the drawworks in your possession must include reference to this serial number. The serial number is stamped on the drawworks identification plate; on the frame near the spinning cathead, and again on the corner of the skid at the drillers end. A separate illustrated parts list is provided for ordering replacement parts. It contains any modifications which may have been incorporated after this manual was written. NATIONAL-OILWELL reserves the right to change specifications of subsequent production units of this equipment without incurring liability for such change on previously built equipment. Copies of this manual are furnished with each new drawworks at time of shipment on a “no charge” basis. Additional or replacement copies may be purchased.

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TABLE OF CONTENTS FORWARD .................................................................................................................................. 3 INTRODUCTION ......................................................................................................................... 4 1

2

3

INSTALLATION ................................................................................................................ 9 1.1

Installation .............................................................................................................. 9

1.2

Factory Testing ....................................................................................................... 9

1.3

Material Check........................................................................................................ 9

1.4

Foundation Drawing................................................................................................ 9

1.5

Assembly and Alignment – Drawworks................................................................. 10

1.6

Alignment – Rotary Table ..................................................................................... 11

1.7

Assembly and Alignment – Rig Drive.................................................................... 11

1.8

Wireline Spooling.................................................................................................. 12

1.9

Lubrication ............................................................................................................ 12

1.10

First Running ........................................................................................................ 12

1.11

General Inspection................................................................................................ 13

LUBRICATION ............................................................................................................... 15 2.1

General................................................................................................................. 15

2.2

Oil Types .............................................................................................................. 15

2.3

Chain Lubrication.................................................................................................. 16

2.4

Cascade System................................................................................................... 16

2.5

Grease.................................................................................................................. 17

2.6

Miscellaneous Lubrication .................................................................................... 17

2.7

Special Lubricants ................................................................................................ 18

2.8

Lubrication Summary............................................................................................ 20

CONTROLS AND AIR SYSTEM .................................................................................... 21 3.1

Controls - General ................................................................................................ 21

3.2

Miscellaneous Controls All Drawworks ................................................................. 21

3.3

Air System ............................................................................................................ 22

3.4

Westinghouse “H” Control air Valves.................................................................... 22

3.5

Westinghouse “H” Relay Valve ............................................................................. 23

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3.6

Westinghouse Quick Release Valves: .................................................................. 24

3.7

Westinghouse Shuttle Valve: ................................................................................ 24

3.8

Bellows-Valvair Valve: .......................................................................................... 25

3.10

H-2 Type Control Air Valve ................................................................................... 26

3.11

H-3 Type Control Air Valve ................................................................................... 27

3.12

H-4 Type Control Air Valve ................................................................................... 30

3.13

H-5 Type Relay Air Valve ..................................................................................... 32

3.14

2-Ha-1 Pilot Air Valve Cam Housing..................................................................... 34

3.15

Quick Release Valve ............................................................................................ 37

3.16

Air Control Valve Applications .............................................................................. 38

3.17

Air Valve Applications ........................................................................................... 39

MAINTENANCE.............................................................................................................. 40 4.1

Air Clutches .......................................................................................................... 40

4.2

Drum Clutches ...................................................................................................... 40

4.3

Inspection ............................................................................................................. 40

4.4

Lining/Diaphragm Replacement............................................................................ 40

4.5

Plate Clutches....................................................................................................... 42

4.6

Lining Wear .......................................................................................................... 43

4.7

Drain Nipple Movement ........................................................................................ 44

4.8

Fawick Clutches.................................................................................................... 44

4.9

Inspection ............................................................................................................. 45

4.10

Friction Shoe Replacement .................................................................................. 45

4.11

To Change Shoes................................................................................................. 45

4.12

Overrunning Clutches – Types “A”, “C”, “C-2” (types C, C-2-55 Drawworks only).46

4.13

Lining Wear Chart For Air Clutches ...................................................................... 46

4.14

Drawworks – Clutch Application Chart.................................................................. 47

4.15

Brakes .................................................................................................................. 48

4.16

Water Requirements For Auxiliary Brakes............................................................ 50

4.17

Adjustment – Main Drum Brakes .......................................................................... 50

4.18

Drum Brake Rims ................................................................................................. 53

4.19

Coring Reel Brakes............................................................................................... 54

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4.20

Brake Bands and Lining........................................................................................ 54

4.21

Catheads .............................................................................................................. 55

4.22

Parts Fit ................................................................................................................ 65

PRESERVATION OF MACHINERY ............................................................................... 69 5.1

Outdoor Storage of Rigs ....................................................................................... 69

5.2

Storage Of Parts And Subassemblies .................................................................. 72

6

RECOMMENDED SPARES............................................................................................ 75

7

55 DRAWWORKS .......................................................................................................... 76

8

9

7.1

Mechanical Controls ............................................................................................. 77

7.2

Specifications ....................................................................................................... 79

7.3

Dimensional Specifications – 55 Drawworks ........................................................ 81

7.4

Type 55 Drawworks .............................................................................................. 83

80-B/UE DRAWWORKS................................................................................................. 87 8.1

Controls – Operation – Mechanical Drawworks .................................................... 87

8.2

Mechanical Controls ............................................................................................. 88

8.3

Specifications ....................................................................................................... 89

8.4

Dimensional Specifications – 80-B Drawworks..................................................... 90

8.5

Controls-Operation-Electric Drawworks ( 80-Ue )................................................. 92

8.6

Mechanical Controls ............................................................................................. 93

8.7

Specifications ....................................................................................................... 93

8.8

Dimensional Specifications – 80-UE Drawworks .................................................. 94

8.9

Parts Fit – 80-B, 80-UE Drawworks ...................................................................... 96

110-M/UE DRAWWORKS ............................................................................................ 102 9.1

Controls – Operations – Mechanical Drawworks ................................................ 102

9.2

Mechanical Controls ........................................................................................... 104

9.3

Specifications ..................................................................................................... 104

9.4

Controls – Operation – Electric Drawworks (110-Ue) ......................................... 108

9.5

Mechanical Controls ........................................................................................... 109

9.6

Specifications ..................................................................................................... 110

9.7

Parts Fit – 110-M, 110-UE Drawworks ............................................................... 111

9.8

Type 110-M/Ue Drawworks ................................................................................ 114

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1320-M/UE DRAWWORKS .......................................................................................... 119 10.1

Controls – Operation – Mechanical Drawworks (1320-M) .................................. 119

10.2

Mechanical Controls ........................................................................................... 120

10.3

Specifications ..................................................................................................... 121

10.4

Dimensional Specifications – 1320-M Drawworks .............................................. 122

10.5

Controls – Operation – Electric Drawworks (1320-UE)....................................... 124

10.6

Mechanical Controls ........................................................................................... 125

10.7

Specifications ..................................................................................................... 125

10.8

Dimensional Specifications – 1320-UE Drawworks ............................................ 127

10.9

Parts Fit – 1320-M, 1320-UE Drawworks ........................................................... 128

10.10

Type 1320-M/UE Drawworks ............................................................................ 130

1625-M/DE DRAWWORKS .......................................................................................... 135 11.1

Controls – Operations – Mechanical Drawworks ................................................ 135

11.2

Mechanical Controls ........................................................................................... 137

11.3

Specifications ..................................................................................................... 138

11.4

Dimensional Specifications 1625-M Drawworks ................................................. 139

11.5

1625-DE – Controls-Operation-Electric Drawworks............................................ 140

11.6

Mechanical Controls ........................................................................................... 142

11.7

Specifications ..................................................................................................... 142

11.8

Dimensional Specifications 1625-DE Drawworks ............................................... 144

11.9

Parts Fit – 1625-M, 1625-DE Drawworks ........................................................... 145

11.10

Type 1625-M/DE Drawworks ............................................................................ 148

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INSTALLATION

1.1

Installation Recommendations for rig-up, operation and maintenance of NATIONAL drilling rigs are based on the knowledge and experiences of NATIONAL field engineers and a number of drillers and tool pushers. Following these recommendations will result in better overall rig performance and increased equipment operating life.

1.2

Factory Testing At the factory the complete drawworks is carefully leveled and aligned, the joint plates and dowel pins welded in place, the joint bolts inserted and the drawworks test run. All mechanical and air control systems, the lubrication system, and all brakes and clutches are test operated and checked. Each drawworks functions perfectly before it is released for delivery to user. Guards cover all moving parts. These guards serve several purposes; for example, they serve as enclosures for the oil lubrication system, provide safety for personnel, and prevent foreign material from getting into the working parts. Keep guards bolted in place when the drawworks is in operation. Keep inspection doors closed except when lubricating or inspecting.

1.3

Material Check A general check of all materials shipped to the rig-up site should be made as soon as possible to determine if any damage has occurred during shipment. Visual inspection should be made of all skids, guards and other equipment that is unprotected and which could receive a blow during shipment. Damage should be inspected in the light of what might have been damaged but not immediately apparent form outside inspection. Any damage should be immediately corrected. It is much easier to correct damage to piping, skids, etc., while the individual units are on the ground than after the unit has been set on the substructure. Any damage to the main skids would undoubtedly cause errors I alignment if they are rigged up without correction. Small items that are boxed separately for shipment should be examined for rough handling to make sure the parts are not damaged or lost.

1.4

Foundation Drawing A foundation drawing is furnished for every rig to coordinate installation of various components. All dimensions, clearances, positions, etc., of the equipment are shown on this drawing. It is used by the substructure manufacturer to build his substructure. If the rig is enclosed this same drawing is used by the house manufacturer to design the house. This drawing is the key to a rig up.

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The main dimensions on a foundation plan are the well centrelines. All pertinent dimensions used at rig up are shown on the foundation plan and are dimensioned relative to the centrelines of the well. As an example, after the substructure is erected the first thing needed is the distance form the centreline of the well to the drum shaft. This is given on the foundation plan. It also shows the distance of the drawworks either side of the center line of the well (to the driller’s side, to the rotary side). All dimensions needed to locate any given piece of equipment will appear on the foundation plan. 1.5

Assembly and Alignment – Drawworks Most NATIONAL drawworks are sectionalized to facilitate transporting. Each section should be handled separately. Do not attempt to lift sections dowelled together. When sections are assembled on substructure, place dowel pins all the way into their mating plates and draw up tight, with the large bolts provided for this purpose. The assembled drawworks should be skidded using jacks during final positioning operations. Align the assembled drawworks with the centerline of the well to dimensions shown on the foundation drawing. The front and rear base beams of drawworks frame are marked with arrows to show the centerline of well. Do not confuse the two marks on the front of the drawworks. One of these marks the centerline of the well and the other marks the centerline of the drum. Both centerlines appear on the foundation drawing and care should be taken that the centerline of the well is used. Secure the drawworks to the substructure. If rods and turnbuckles are used, place one at each end of the drawworks, under the drum shaft bearing supports. Use1½” turnbuckles or larger. Most installations will require that these turnbuckles be cut and a1½” rod welded in to make them long enough to reach into the drum section and down to the substructure. This allows the drum section to be held tightly against the substructure to prevent vibration during hoisting operations. The drawworks skid beams should be tied to the substructure beams with clamp plates, as bolts require drilled holes in the beams. NOTE: On permanent installations (offshore rigs) the drawworks beams can be welded to the substructure. If substructure steel is not flat and true, shimming should be used between contact areas of the drawworks skid beams and the substructure beams. Precaution should be taken so as not to distort the drawworks frame when tying down, since factory alignment was made on a level true plane surface. Particular attention should be given to good, even support under the auxiliary brake zone of the drawworks frame. Install all inter-connecting, pre-aligned, air, oil, and water lines; mechanical linkage and roller chains. Avoid pockets or bends in air lines which may accumulate moisture. Control devices will compensate for moderate pipe leakage but loss of air causes unnecessary demand on the air supply. NOTE: When rigging down, all inter-connecting lines should be re-plugged, capped, or taped, to keep free of dirt and other foreign matter.

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Alignment – Rotary Table The rotary table should be installed with the center of the table opening aligned with the centerline markings on the substructure. This can usually be done by inserting a board in the square of the table and laying out the accurate center of the opening. This line can be extended until it intersects the centerline of well arrows on the substructure. Securing the rotary table to the substructure can be accomplished by several methods. On the most common mounting the table is located by stops and tied down to the substructure with turnbuckles. Usually four 1½” turnbuckles are used. Another method is one in which the table is free to move upward. For this installation tall stops that allow about six inches are used without tie downs. The rotary drive chain length is not always specified on the foundation plan. Therefore, install only the number of links of chain that will fit the drive. It is not necessarily a tight chain as on the other drives throughout the drawworks and rig drive units. The guard, which is normally an oil bath guard type, should be installed before the rotary table is set in place.

1.7

Assembly and Alignment – Rig Drive The approximate location of the No. 1 engine section can be determined from the foundation plan. However, due to manufacturing tolerances in the welded steel substructure, it is impossible to locate No. 1 engine sections by dimension only. Therefore, it is recommended that the No. 1 engine section be located an inch or two closer to the drawworks than the dimensions on the foundation plan indicates. The drawworks drive sprockets should then be aligned accurately with a then copper wire or a straight edge. After the No. 1 section is aligned to the sprockets, stops should be tacked to the outside substructure beams tight to the front engine from skid. Also stops should be tacked underneath the engine skids to act as guides against the substructure so that the No. 1 section can be jacked back in a straight line. After this is accomplished the drawworks drive chain should be installed, and by measuring from the stops on the substructure to the front of the No. 1 skid the engine frame can be jacked evenly until the drawworks drive chain is tight. This procedure will maintain the sprocket alignment, which is extremely important as any misalignment leads to excessive chain, sprocket and bearing wear and materially adds to maintenance costs. Chain manufacturers have provided a measuring guide to proper chain tension, which may be used where, not established by factory alignment. As a general rule, when all chain slack is measured on one side of the sprocket, the vertical sag should not exceed two percent of the distance between shafts or sprocket centers.

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Due to the design of our section drive group, after the No. 1 section is aligned with the drawworks it is only necessary to remove the shipping covers from the compound guards and the necessary floor plate to get at the joint block bolts. After this the remaining sections can be pulled into place and the bolting of the sections together automatically brings them to the same alignment as when they were manufactured at the factory. If time has not been taken to dowel the No. 1 section to the substructure it is a good idea to tack the No.1 section to the substructure so it is not pulled out of alignment when the remaining sections of the rig drive are installed. As in the case of the drawworks, clamp plates rather than bolts are recommended for securing the engine frames to the substructure. Control air lines are connected between engine frames by short jumper hoses. These hoses are located between the engine skids under the removable floor plate. The lubrication oil line for the oil spray pipes is connected by short jumper hoses located at the breaks in the compound guards above the floor plate. On rig drives equipped with National hydraulic couplings it is necessary to connect the cooling water lines from the heat exchangers. This is done with a 3” Dresser sleeve coupling between each engine frame. 1.8

Wireline Spooling NATIONAL drawworks feature large main drums with two-step spiraled grooving. Assuming 8 lines strung and 90’ stands, less than three full layers of line will be spooled on the drum when the traveling or hook block is in its uppermost position. When stringing the blocks for the first time we recommend seven anchor coils be spooled on the drum when the elevators are in position to hoist pipe.

1.9

Lubrication As soon as the drawworks has been completely assembled and ready for initial running, the following steps should be taken: 1.9.1 Lubricate all grease fitting per instructions outlined in Lubrication Section. 1.9.2 Make sure the oil sump is clean, then fill with oil – see Lubrication Section for oil specification. A bayonet type filler gauge is located in the sump for measuring the oil level. When the drawworks is running there should be sufficient oil in the reservoir to cover the strainers. 1.9.3 Check the chain lubrication by opening the doors on the back of the drawworks. The spray system should deliver a stream of oil to all chains, mechanical clutches, and gears.

1.10

First Running

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Operation of the drawworks is dependent on an adequate air supply for operation of the catheads and all air clutches. With air compressor operating properly, blow-out all air lines supplying control cabinet, clutches and catheads. Following this check to see that all air lines are open and gauges are active. The pressure gauge in the drawworks control cabinet marked air supply should read approximately 110 psi. Open and close the control valves for the high and low drum clutches, the rotary drive clutch, inertia brake, coring reel clutch, and both catheads. Listen for the exhaust of air from each clutch through the quick release valve when the control valve is closed. Do not operate the drawworks unless these quick release valves work properly. All air clutches on the drawworks are controlled by pressure graduating type air valves. Engage air clutches with an even motion of the control valve lever to the “ON” position. Abrupt engagement of air clutches causes excessive loading on shafts and chains. Too slow engagement will over-heat clutch elements due to excessive slippage. Hand operated clutches should be actuated with the same smooth engagement and feel as the foot operated clutch of an automobile. To be sure air gets in and out of the clutch quickly, keep the regulating valve and release valve in good condition. Air clutches should be inspected periodically for lining wear. Refer to Maintenance Section for allowable lining wear on NATIONAL clutches. 1.11

General Inspection When the drawworks is moved from one location to another, or taken from storage into the field, every precaution should be taken to insure the equipment is in first class operating condition. These suggestions will be helpful and may suggest others to the crew. Check alignment of sprockets, bearings, and shafts. See that all bolts are tight, particularly those already made up and therefore not installed during rigging up. Inspect all chains for wear or damage, replace entire length rather then attempting to make repairs or replacing broken links. Check all air connections and hoses for leaks. Replace any broken or damaged air hoses and fittings. Check operation of air valves – clean, replace, or rebuild as required. Engage and disengage air clutches to see they will operate smoothly without slippage or overheating. Check shifter control rods and linkage to insure proper operation of the drawworks transmission clutches.

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Clean oil sump in drawworks and clean the suction screens to insure free oil flow Check installation of chain guards so the oil will have unrestricted flow back to the sump. Replace any fittings that will not take grease. Replace broken or pinched grease tubing. Clean and replace plastic bowl on main air line filter. If drawworks is equipped with air line lubricator, remove plastic bowl, clean and refill with oil. Inspect pump in the lube system. Adjust distributors for flow of oil. Be sure nozzles are not clogged on spray system. With the drawworks running, check the main bearings on all shafts, see that they are well lubricated and securely bolted down. Check the water supply system to make sure it is delivering sufficient water to the brake rims and the auxiliary brake. Check spear connections to the drum shaft and auxiliary brake to see that the packing is in good condition and not leaking. If any part is worn beyond operating safety or efficiency, the time to find and replace it is during rigging-up operations. Thorough inspection for worn or broken parts and prompt replacement are good insurance against major repairs.

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LUBRICATION

2.1

General NATIONAL equipment is designed to use oils and greases which are generally available from most oil companies and their distributors. The benefits from certain special or premium type lubricants may not justify their extra cost. In general the most important factor in lubrication is the systematic application of recommended lubricants at regular intervals to assure trouble free operation. Particular care should be exercised in following the lubrication instructions issued by manufacturers of engines, pumps, power takeoffs, air compressors, couplings and similar units which are operating components of the rig. The large number of suitable oils and greases makes it impractical to list them by their brand names. We therefore give general specifications. Most oil company salemen and distributors will have no trouble in supplying products to meet these specifications.

2.2

Oil Types The SAE viscosity numbers perhaps need some explanation. They were established to give a slight measure of standardization to the specification of automotive crankcase and transmission oils. These numbers have since been proven to be a convenient way designating oils for general use. Each number covers a certain viscosity range at a specified temperature. The number tells nothing about the type of base stock (naphthenic or paraffine) and nothing about the presence or absence of additives. Oils having SAE numbers 5W through 50 are classed as motor or crankcase oils and the numbers 75 through 250 are classed as gear oils or transmission and axle lubricants. Oils in either classification may be furnished with no additives of any kind. When additives are used however, those in motor oils will generally be different from those in gear oils. Gear oils carry higher numbers than motor oils but the viscosities are not necessarily higher than for motor oils. SAE 50 motor oils, for example is within viscosity range of SAE 90 gear oil. In addition to SAE numbered oils, most oil companies make a number of oils which may be designated by their prime usage. This category includes turbine oils, certain gear oils, etc. The viscosity for these is generally given in Saybolt Universal Seconds (abbreviated SUS) at a stated temperature.

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Chain Lubrication A straight mineral oil is generally satisfactory, but rust and oxidation inhibitors may be beneficial additives. Detergent oils may cause trouble by forming an emulsion in the presence of water and should therefore be avoided. The proper viscosity to use will depend primarily upon the operating temperature of the oil. An unenclosed rig running in cold weather requires lighter oil than one that is better protected. The following table may be helpful in selecting the proper oil viscosity. Note that there is some overlap in the temperature range. Between 80°F and 100°F (27°C - 38°C) for example SAE 30 and SAE 40 oils are equally satisfactory. Oil Viscosity SAE 40 SAE 30 SAE 20 % 20W SAE 10W

2.4

Ambient Temp. Range 80° F (27°C) or higher 50°F - 100°F (10°C-38°C) 30°F - 60°F (0°C-16°C) 30°F (0°C) or lower

Cascade System A pressure spray system delivers a stream of oil to each chain and gear tooth clutch located in the chain housings. A positive displacement oil pump, chain driven from the main drive shaft, delivers the pressure controlled oil. This system is completely enclosed, with the oil constantly returning to a large volume sump for recirculation. Each distributor valve is set to provide adequate flow during run-in testing at the factory. The rate of flow should be re-checked in the field with the rig running at idling speed. A pressure gauge located at the driller’s position monitors oil system pressure. If high pressure results from reducing the flow at distributor points, relieve pressure by adjusting the relief valve on the pump, permitting excessive oil to drain back into the sump. Good balance between pressure and quantity delivered to the distributors’ results in higher pump efficiency and minimum of wear on pump working parts. Should the pump become worn, or the pump shaft break, it is more economical to replace the pump than to repair it. The oil sump should be checked daily to see that the oil level is sufficiently above the strainer for safe operating margin. Drain the sump each thirty (30) days and refill with new oil, or change whenever oil becomes contaminated, whichever occurs first. Clean suction strainer at each oil change. CAUTION: Oil in the cascade system may in time become emulsified and lose its lubricity. Observe oil flow out of the distributor valves and if these streams appear yellow or foamy, drain and refill with new oil immediately.

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2.5

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Grease Greases are classed according to the kind of thickener which is added to convert oil into grease. Greases thickened with sodium soap are known as sodium base greases and those thickened with calcium soap are known as calcium base greases. Sodium base greases have long been the standard for anti-friction bearing in which the temperatures run over 200°F. Most sodium base greases have poor water resistance so that past practice has been to use a water stabilized calcium base grease (which breaks down at high temperature) in applications exposed to water as on the hydromatic brakes. There are several varieties of multi-purpose grease which combine the temperature resistance of sodium base grease with the water resistance of calcium base grease. Some of these are mixed sodium and calcium base, some are lithium based and some use solid or synthetic thickeners. These multi-purpose greases cost more than a standard grade of sodium or calcium base grease, but they make it possible to have just one kind of grease on the rig. Grease consistency standards have been established by the National Lubricating Grease Institute. For rig use, the No. 2 grade should be used in moderate to warm weather and the No. 1 in cold weather. All bearings, control mechanisms, and external gear tooth clutches are greased lubricated through plainly marked and easily accessible fittings.

2.6

Miscellaneous Lubrication Alemite System – Generally speaking, any good sodium base roller bearing grease or multi-purpose grease is suitable for use in all alemite fittings on the drawworks. The grade may be either No.1 (light) or No.2 (medium) depending upon the type of grease gun employed and the climatic conditions under which the rig operates. It is recommended, however, that the grease used have a flow point of 120°-140° F, and a melt point of 300°340°F. Unless otherwise indicated, every alemite lubrication point should be greased once every tour during rig operation and following the first and all subsequent rigging-up jobs. All alemite fittings have been made as easily accessible to the crew as possible so that no lubrication point need be overlooked. Please refer to the lubrication chart for further details. Catheads – Alemite fittings are provided for lubrication of the catheads bearings. Grease fittings once every week – no more than two shots from the gun. Excessive grease migrates to the friction clutches and impairs operation of the catheads.

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EPL-1439 03 18

Rotorseals – The rotorseal is a positive seal for introducing air under pressure to a rotating shaft. Air is transmitted through the shaft to the air operated clutch. Rotorseals are sealed and lubricated for life by the manufacturer. Control Cabinets – Air and manual operating linkage located in the main and auxiliary control cabinets require lubrication at least every week and much more frequently in damp climates. The levers are accessible from the front of the cabinet, while removal of the bank panel is necessary to make the linkage accessible for lubrication. Using a hand oiler filled with SAE #20 motor oil, apply oil at all pivot points. Over-Running Clutch – The best lubricant is a straight mineral oil, either SAE #50 or SAE #90. No compound oils of any kind are recommended, although rust and oxidation inhibitors would be acceptable. The over-running clutch depends on friction for its action, and compounds increasing the lubricity of the oil tend to interfere with its proper operation. Refer to the over-running clutch service manual for detailed information. Hydromatic Brake – When a hydromatic brake is furnished with the drawworks, a #2 (medium) calcium base (water resistant) grease should be used for lubrication. Special button head alemite fittings on the hydromatic brake require the use of a special gun furnished with the brake. Elmagco Brake – Lubrication of the electric brake, when furnished on the drawworks, is accomplished through two alemite fittings using the same good grade of grease as is used on the rest of the drawworks. This will lubricate the roller bearings upon which the stub shaft and drum rotate. NOTE: With this equipment, as with other components manufactured by others than The Machinery and Equipment Division, refer to the applicable operating and maintenance manual for more detailed lubrication information. 2.7

Special Lubricants There are times when a special type of lubricant is justified. Some of the super premium greases have excellent low temperature properties. In extremely cold weather it may be well to use one of these for the weight indicator and possibly the blocks. Rusting and corrosion of the bearings, chains, sprockets, etc., generally presents no problem when a rig is running, but it may become very serious when a rig is stored for a long time in a damp environment. Ordinary oils and greases give only moderate protection so that special compounds may be well worth while.

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EPL-1439 03 19

Some of the super premium greases give very high corrosion protection. Applying one of these to every fitting in quantities sufficient to flush out most of the old grease will go a long way toward protecting the equipment during storage. For protection of chains, sprockets, chain casings, etc., against rust during prolonged storage, it is best not to rely for protection on the oil that was clinging to the parts when the rig was shut down. Use a compound designed for this purpose and apply it according to the manufacturer’s recommendation. In selecting a material it is best to use one that does not require any special cleaning before the rig is run again. There are compounds that will be flushed away by normal lubricating oil and mix with it harmlessly For additional lubrication information please refer to the lubrication chart in the illustrated parts list.

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2.8

EPL-1439 03 20

Lubrication Summary

Lubrication Point Or System

Lubricant

Period of Lubrication

Remarks

Alemite System

No. 1 light or No.2 Medium sodium base grease

Every tour except as noted

Through alemite hydraulic fittings

Cathead Alemite

No. 1 light or No.2 medium sodium base grease

Every two weeks

No more than two shots of grease from gun

Cascade System

SAE #30 or #40 motor oil depending on climatic temperatures

Daily, Check level in sump

Sump capacity: 55, 80 Dwks. – 35gal. 110, 1320, 1625 Dwks.40gal

Hydromatic Brake

Medium calcium base

Daily

Special grease

Elmagco Brake

No. 1 light or No.2 medium sodium base grease

Daily

Through alemite

Control cabinet levers and linkage

SAE #20 motor oil

Weekly or oftener in damp climate

Apply with hand oiler

Over-running clutch (when installed)

SAE #50 motor oil

Maintain oil level

Fill through oil hole “A” until level reaches hole “B”

Link and lever pins and all moving parts not otherwise mentioned

SAE #20 motor oil

Daily

Apply with hand oiler

NOTE: Do not use detergent oil.

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EPL-1439 03 21

3

CONTROLS AND AIR SYSTEM

3.1

Controls - General Drillers consoles on all National mechanical drawworks are basically the same with a main control cabinet located at the drillers position. This cabinet houses air controls for drum clutches, rotary clutch, catheads, master clutch and inertia brake as well as air controls for engine throttle groupings. Manually operated controls for the drawworks transmission are located in a convenient position on the front of the main control cabinet. An auxiliary control cabinet, located adjacent to the main control cabinet, provides air controls for core reel clutch, drive group engine clutches of hydraulic scoop controls, pump clutch, and hydromatic brake water level control units (if required). Air pressure gauges are provided for all important control functions. The auxiliary cabinet also houses control valves for cooling water to the brake rims and auxiliary brake. Consoles for electric driven drawworks contain air controls for drum clutches, rotary clutch, catheads, and rotary inertia brake (1320-UE, 1625-DEonly). Necessary support is provided for the electric control cabinet for rig motor and generator assignments. Manually operated controls for the drawworks transmission are located in a convenient position on the front of the main control cabinet. Auxiliary control cabinets for electric rigs include various control options for engine throttles, independent pump drives, independent rotary drive, etc., as required by particular rig specification in addition to the cooling water control and hydromatic water level control unit. A load rating plate tabulating maximum recommended hook load for each drawworks speed ration is attached on the front face of the auxiliary control cabinet of all drawworks, thus providing the driller with a convenient guide to proper clutch selection for the most effective rig operation. The foot throttle, emergency low jaw clutch foot pedal, main brake, and core reel brake levers are positioned for maximum convenience.

3.2

Miscellaneous Controls All Drawworks

3.2.1 Water Supply Valves – Two water inlet connections supplying cooling water for brake rims and auxiliary brake are located in the channel face on the drillers side of the drawworks. A 2” inlet is provided for the auxiliary brake and a 1½” inlet for cooling the brake rims. The flow of cooling water circulating through the brake rims and auxiliary brake is obtained by variable opening of the proper gate valve located at the drillers position.

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EPL-1439 03 22

3.2.2 Main Drum Brake Lever – Actuates the main drum brakes. To set the brake the operator pulls the lever down. Normally the brake lever should be at an angle of 35° with the horizontal when the brake bands are fully engaged on the brake rims under load. 3.2.3 Coring Reel Brake Lever – This brake is set by pulling the lever toward the operator. A ratchet provides means for setting the brake. 3.2.4 Engine Control Foot Pedal – Depress the pedal to accelerate the engines during hoisting operations. This mechanism is spring loaded and the engines will automatically return to idling when the foot is removed. 3.2.5 Auxiliary Low Jaw Clutch Foot Control – (1320-UE/M, 1625-DE/M only). This foot pedal engages the emergency low jaw clutch. Use it in the event of failure of the “low” drum clutch. To make the pedal operative, raise the access door in the floor adjacent to the pedal and connect the pedal arm to the shaft lever with the ¾” cap screw provided. Depress the pedal to engage the jaw clutch within the low drum clutch. For electric drawworks – stop motors before engaging this clutch. For mechanical drawworks – master clutch must be disengaged before engaging jaw clutch. 3.3

Air System

3.3.1 General The air control system is completely adjusted before the drawworks leaves the factory. Plugs are placed in the open ends of all air lines to prevent dirt or foreign material from entering during shipment. In any system where air is compressed there will be a certain amount of condensation. This condensate will cause no trouble if it is discharged from the air system at frequent intervals. This surplus moisture should be discharged at least once every 24 hours by opening the bleeder valve located directly beneath the air reservoir. Air and moisture should be discharged until very little moisture can be detected escaping with the air. Close the valve and allow the pressure to again build up in the system. Care should be taken to keep all parts of the air system in proper adjustment. Many difficulties can be traced to maladjustment of these components. Some of the elements may cease to function properly due to long wear, disassembly of parts, or other conditions. General description, application, and maintenance for these parts will be found on the following pages. 3.4

Westinghouse “H” Control air Valves

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EPL-1439 03 23

The H-2-FX Control air valve is a self holding hand lever operated, three-way normally closed valve for one pressure regulated circuit. It is equipped with an adjustable friction brake that will hold the handle in any position in which it is placed. The H-2-LX Control air valve is a self returning hand lever operated, three-way normally closed valve for one pressure regulated circuit. The lever automatically returns to the valves “neutral” or “off” position from all positions except the extreme travel position when the operating force is removed. The H-3 Control air valve is a self regulating three-way pressure control valve designed for accurate control of air pressure by mechanical operation. A cam actuates the valve to increase, decrease, or maintain delivery pressure in graduated increments. The H-4 Control air valve is a self regulating three-way, pressure control valve. The control knob is manually operated to increase, sustain, or decrease air pressure and is self holding in all positions. Application: See Chart 3.4.1 Maintenance (H-2, H-3, H-4) – Maintenance periods should be scheduled in accordance with frequency of use and working environment of the Control air valves. One complete Control air valve should be kept in stock for each four valves in service. During the maintenance period change out the complete valve with the “stand-by” unit. This will reduce production loss and afford inspection and replacement of worn parts at a more opportune time in a favourable location The operating portion of the valve can be removed without disturbing the pipe connections by loosening studs and lifting the valve free. No special tools are required to maintain the Control air valves. Completely disassemble the Control air valve. Wash all metal parts in a non-flammable solvent and all rubber parts with soap and water. Rinse each part thoroughly and blow dry with a low pressure air jet. Arrange the part on a clean white surface. Examine each part carefully. Flex the diaphragm and packing rings, if cracked or worn replace them. Replace all parts that may not provide satisfactory service until the next scheduled maintenance period. Reassemble the valve, lubricating each part before it is put into place. Use No. 107 Lubriplate on all metal to metal surfaces and Cosmo lube on all rubber parts. Equivalent greases to those recommended can be used. Store the reconditioned Control air valve in a moisture proof bag. 3.5

Westinghouse “H” Relay Valve

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EPL-1439 03 24

The H-5 Relay air valve is a three-way valve which functions as a non-graduated relay to provide a large flow of air from a separate source when piloted by a small amount of control media and to stop this flow and exhaust the air to atmosphere when the control pressure is vented. The valve also acts as an interlock to govern the flow in one circuit by placing its control in another independent circuit. Application: See Chart 3.5.1 Maintenance: Every six months (more often if conditions warrant) remove the valve portions from the pipe bracket and disassemble for cleaning, inspection and lubrication. One complete valve should be kept in stock as a “stand by” for change out during this maintenance period. After disassembly, clean all metal parts with a non-flammable solvent and wash all rubber parts with soap and water. Rinse thoroughly and blow dry with a low pressure air jet. Replace those parts which hare damaged or worn, giving particular attention to the diaphragm and “O” ring. Reassemble the valve, lubricating each part before it is put into place. Use No. 107 lubriplate metal to metal surfaces and Cosmolube on all rubber parts. Equivalent greases to those recommended can be used. Store the reconditioned valve in a moisture proof bag. 3.6

Westinghouse Quick Release Valves: The Quick Release Valve shortens the time required to vent air pressure from a cylinder or other pneumatic devices after an application. This is accomplished by exhausting the air pressure direct to the atmosphere at the quick release valve instead of back through the controlling device. Application: See Chart.

3.6.1 Maintenance: One complete quick release valve should be kept in stock for each four in service. During the scheduled maintenance period, replace the valve in service with the “stand by” unit. Disassemble the valve for inspection, cleaning, and lubrication. Clean all metal parts with a non-flammable solvent and wash all rubber parts with soap and water. Rinse thoroughly and blow dry with a low pressure air jet. No lubrication is necessary, and no special tools are required.

3.7

Westinghouse Shuttle Valve:

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EPL-1439 03 25

The Shuttle Valve automatically selects and directs the flow of air form one or the other of two controlling devices to a common outlet. It services to connect two independent lines to a common line without destroying the segregation. Application: See Chart 3.7.1 Maintenance: One complete shuttle valve should be kept in stock. During the scheduled maintenance period, replace the valve in service with the “stand by” unit. Disassembly, inspection, cleaning, and lubrication should be in accordance with the instructions covering the quick release valve. 3.8

Bellows-Valvair Valve: The Bellows Valvair valve is a panel mounted three-way normally closed valve with a spring ball detent arrangement which prevents the stem from drifting when subjected to severe vibration. Application: See Chart

3.9

H-2 TYPE CONTROL AIR VALVE

Ref.

Qty.

1 2 3* 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19* 20 21 22 22

2 1 2 2 1 1 1 1 2 2 2 2 2 2 1 1 1 1 1 1 1 1 1

Description Screw, 3/8-16 x 1-1/8 Bracket, Pipe Gasket Strainer Nut, ¼-28 Yoke, Handle Shaft, Handle Ball, Handle Nut, 5/16-18 Hex Washer, 5/16 Stud, 5/16-18 x 1-5/16 Stud, 5/16-18 x 1-1/8 Screw, 5/16-18 x 1-1/8 Hex Nut, 5/16-18 Screw, Set CAM Nut, Hex Washer, No. 10 Spring, Brake Shoe & Holder, Brake Nut, Cap Drum, Brake Sleeve

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H-2-FX P-50494-1 P-50494-2

P-50800 P-49901-16 501831 850537 850730 850181

All Models Piece Number 502415 534497 558515 P-55382 519787 534476 534776 517026 96500 506602 P-49906-14 P-49906-16 P-49842 96500 540187

H-2-LX P-50499-3

P-50800-2

P-55465 850400

Document number Revision Page 23 23 23A 24 25 25

26 27 28 29 30* 31* 32 33 34 35* 35* 35* 36 37 38* 39 40* 41* 42 43 44

1 1 1 1 1 1

2 1 1 1 1 2 1 1 1 1 1 1 1 1 1 1 1 1 2 1 1

Key, Woodruff Spring, Handle Return Arbor, Return Spring Shaft CAM Housing, CAM (incl. 22) Housing, CAM (incl. 12, 42, 43, 44) Control Portion, Complete Less Control Spring 35 (incl. Ref. 1, 2, 3, 4, 9, 11, 13, 14 & 26 thru 41) Pin, Cotter Pin, Dog Dog, Cam Body Inlet & Exhaust Valve (incl. 2 of 31) Ring, ¾” O.D. “O” Screw, Spline Adjusting Housing, Spring Seat, Spring Spring, Control (0-65#) Spring, Control (0-100#) Spring, Control (0-125#) Nut, 9/16-18 Hex Follower, Diaphragm Diaphragm Seat, Exhaust Ring, ¾” O.D. “O” Spring, Exhaust Valve Rivet, 3/22 x ¾ Spring, Latch Latch

EPL-1439 03 26

120840

534496

534488

P-55510

P-55442 526749

93256 P-50686-9 P-52835 534499 545536 531868 536005 545616 526347 (P-50494-1) (P-50494-2) 526489 526345 526346 P-55484 P-49708-16 P-54653

850256 850254

536795

540577

549395 539961 536723

*Recommended spare parts to be retained in stock at all times.

3.10

H-2 Type Control Air Valve

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3.11

EPL-1439 03 27

H-3 Type Control Air Valve P-50382-2 P-50382-4

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Document number Revision Page Ref. 1 2 3 4* 5 6 7 8+ 9+ 10* 11 12 13 14* 15* 16* 17 18 19 20 20 21 22 23 24* 25* 26

Qty. 2 2 1 2 2 4 2 1 1 1 4 2 2 1 1 1 1 1 1 1 1 1 1 1 1 2 1

Description Nut, 3/8-16 Rex Stud, 3/8-16 x 2-1/8 Bracket, Pipe (incl. Ref. Nos. 1 & 2) Gasket, Port Strainer Pin, Cotter Pin, Lever and Cam Roller Roller, Cam Lever Protector, Dirt Nut, 5/16-18 Screw, 5/16-18 x 1-3/8 Hex Stud, 5/16-18 x 1-5/16 Spring, Exhaust Valve Ring, ¾” O.D. “O” Seat, Exhaust Valve Diaphragm Follower, Diaphragm Nut, 9/16-18 Hex Spring, Control (0-100#) Spring, Control (0-150#) Seat, Spring Screw, Hex Adj. Housing, Spring Valve, Inlet & Exhaust (incl. Ref No. 25) Ring, ¾” O.D. “O” Body, (incl. Ref. No. 13)

EPL-1439 03 28

Piece Number P-49876-1 P-49906-15 527767 558515 P-55382 P-49913-1 P-50686-8 P-55496 528059 526344 P-49901-20 850557 P-49906-14 P-54653 P-49708-16 P-55484 526346 526345 526489 526749 (P-50382-2) P-55441 (P-50382-4) 526347 526352 545616 545536 P-49708-113 526874

*Recommended spare parts to be retained in stock at all times. These parts may be ordered in kit form by ordering repair kit piece No. P-59028. +Other recommended spare parts to be retained in stock.

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Replacement Part P-51125-2 (0-100#) (Less Item 3). Replacement Part P-51125-4 (0-150#) (Less Item 3).

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3.12

EPL-1439 03 30

H-4 Type Control Air Valve

Ref. 1 2 3 4 5* 6 6a 7 8 9 10 11 12 13 14 15 16 17 18 19 20* 20* 20* 21 22 23* 24 25* 26* 27 28* 29 30* 31* 32* 33 34 35

Qty. 2 1 1 1 1 1 1 1 1 1 2 1 1 1 4 2 2 1 1 1 1 1 1 1 1 1 1 1 1 1 2 2 1 1 2 2 1 1

Description Screw, 3/8 x 1-3/4 Hex Bracket, Pipe Screw, ¼ x ¾ Seat, Cam Spring Spring, Cam Cam (Clockwise) Cam (Counter-Clockwise) Brake, Cam Screw, ¼ x ½ Set Stop Key, Woodruff Shaft, Cam Screw, 5/16 x 3/8 Set Knob, Control Nut, Spring Housing Screw, 5/16 x1-3/8 Hex Stud, 5/16 x 1-5/16 Screw, Hex Adjusting Housing, Spring Seat, Control Spring Spring, Control (0-65#) Spring, Control (0-100#) Spring, Control (0-100#) Nut, 9/16-18 Hex Follower, Diaphragm Diaphragm Seat, Exhaust Valve Ring, ¾ O.D. “O” Spring, Exhaust Valve Body, Control Portion (incl. 16) Gasket, Port Strainer Protector, Dirt Inlet, Exhaust Valve (incl. 32) Ring, ¾ O.D. “O” Pin, Cotter Pin, Cam Dog Dog, Cam

P-50967-1 P-50967-2 P-51173-2 Piece Number 562463 529251 93329 527165 901677 529250 539406 P-52513 P-50283-2 529249 119988 P-55407 P-50283-3 529246 96500 107187 P-49906-14 526352 545616 526347 P-55442 (P-50967-1) 526749 (P-50967-2) 526749 (P-51173-2) (Reverse Cam) 526489 526345 526346 P-55484 P-49708-16 P-54653 526874 558515 P-55382 526344 545536 531868 93256 P-50686-9 526468

*Recommended spare parts to be retained in stock at all times.

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3.13

EPL-1439 03 32

H-5 Type Relay Air Valve Ref. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 25 27 29 30 31 35 36 37 38 39

Qty. 3 1 1 3 3 2 1 1 1 1 1 1 1 1 4 4 1 1 1 1 1 1 1 1 1 1 1

Description

Nut, 3/8 Hex Bracket, Pipe – W/Studs Gasket, Port Gasket Strainer Nut, 3/8 Hex Cover, Check Valve Body Spring, Supply Valve – 200psi Valve, Supply Ring, ½ O.D. “O” Gasket, Check Valve Body Cover Body, Check Valve Gasket, Check Valve Body Valve, Exhaust Bolt, 3/8 x 1-1/8 Nut, 3/8 Hex Cover, Diaphragm Gasket, Port Diaphragm Follower, Diaphragm Ring, 3/8 O.D. “O” Spring, Outer Diaphragm (0-10#) Seat, Spring Retainer, Spring Seat Body – W/Studs, (incl. Ref. Nos. 38 and 39 Strip, Brushing Plug, Breather

P-59155-0010 Piece Number P-49876-0001 P-54359-0001 550992 93840 P-58974 P-49876-0001 P-58634 P-58633 P-58642 P-49708-0012 527582 P-58643 527581 P-58640 P-50275 P-49876-0001 P-58648-0001 523619 522980 P-58637 P-49708-0010 P-58817 P-58636 P-58672 P-58963 P-58967 P-49594

*Recommended spare parts to be retained in stock at all times.

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3.14

EPL-1439 03 34

2-Ha-1 Pilot Air Valve Cam Housing Ref. 1 2 3 4 5 5A 5B 6 7 8, 12 9 10 11 13 14 15 16

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Qty. 1 1 1 1 1 1 1 1 1 2 1 1 1 1 1 1 1

Description Screw, #10-24 x 3/8 Washer, #10 Nameplate Knob, Handle Handle Latch, Handle (Latching Models Only) Spring, Handle Latch (Latching Models Only) Plug Hub, Handle Washer Cam Spacer Shaft, Handle Ring, Retaining Pin, Cam Follower Follower, Cam Housing, Cam

P-59331 Piece Number P-49526-0003 P-49898-0007 P-49408 P-57662 P-59312 P-59310 P-59309 P-49958-0008 P-59311 P-49804-0039 P-59080 P-49410-0001 P-59313 P-49857-0007 P-49877-0032 P-59370 P-59299-0001

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EPL-1439 03 35

2-Ha-1 Pilot Air Valve – Valve Portion Ref. 1 2 3 *4 *5 6 *7 *8 *9 *10 *11 11A 11B 11C 11D 12 13 14A 15 16 17

Qty. 2 2 1 1 1 1 1 1 1 1 1 1 1 1 1 2 2 1 1 1 1

Description Screw, #6-32 x 3/8” Washer, #6 Flange, Valve Retaining Guide, Plunger O-Ring, 15/16” O.D. Plunger, Valve O-Ring, 7/16” O.D. Spring, Exhaust Valve Seat, Inlet Valve O-Ring, 7/8” O.D. Assembly, Supply Valve Spacer, Valve Valve, Inlet Spring Valve Ring, Retaining Screw, #10-24 x 7/8” Washer, #10 Lock Body Plug, Valve Cavity Ring, Retaining Plug, ¼” Pipe

Piece Number P-49861-0003 P-49898-0005 P-54463 P-54147 P-49708-0116 P-54146-0001 P-49708-0011 P-54144 P-54145 P-49708-0115 P-55429-0001 P-59369 P-5125 539125 P-49628-0002 P-49835-0022 P-49866-0007 P-59298-0001 P-60028 P-49438 P-49685-0002

*Recommended spare parts to be retained in stock at all times. These parts may be ordered in kit form as follows: P-55474-0001, Minor Repair Kit (Ref. Nos. 5, 7, 8, 9, 10, 11). P-55474, Major Repair Kit (Ref. Nos. 4, 5, 6, 7, 8, 9, 10, 11).

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3.15

EPL-1439 03 37

Quick Release Valve

Ref. 1 2 3 4 4a 5* 5a 6* 7

Qty. 6 6 1 1 1 1 1 1 1

Description

Screw Washer Bracket, Mounting Cover Cover, W/Integral Bracket Gasket Washer (Not Shown) Diaphragm Body

) )

P-52935-3 (3/8”) P-52935-4 (1/2”) Piece Number P-49835-14 P-49502 P-49898-9 P-53067 P-52967 P-54983 P-5111-6 P-5111-4 P-55652 P-5112 P-5112-4 P-52966 P-54982

*Recommended spare parts to be maintained in stock at all times.

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3.16

EPL-1439 03 38

Air Control Valve Applications

Description

Drillers Main Control Column Standard Controls

Westinghouse Air Brake Company Control Valves

XX X XX X XX X X X XX X X X XX X X X

Master Clutch Inertia Brake Make Up Cathead Breakout Cathead Rotary Clutch Rotary Inertia Brake High Drum Clutch Low Drum Clutch Core Reel (Optional)

H-3 Controlair Valve Part No. P-51125-4 150 psi Spring

Group 1 Throttle Group 2 Throttle Group 3 Throttle

H-3 Controlair Valve Part No. P-51125-2 100 psi Spring

X X X X X X X X X X X XX X X X X X XX XX XX

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Location and Function

55 80-B 80-UE 110-M 110-UE 1320-M 1320-UE 1625-M 1625-DE

Drawworks

X X X

X X X

X X X X X X

X X X X X X X X X X X

X X X X X X

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3.17

EPL-1439 03 39

Air Valve Applications

Westinghouse Air Brake Company Controlair Valves H-2-FX H-2-FX H-2-FX H-4 H-4 H-4 H-5 Relay Valve 2-HA-1 Pilotair Quick Release Valve Quick Release Valve Shuttle Valve

Part Number and Pressure Range P-50494-1 (65 PSI Spring) P-50494-2 (100 PSI Spring) P-50499-3 (125 PSI Spring) P-50967-1 (656 PSI Spring) P-50967-2 (100 PSI Spring) P-51173-2 (100 PSI Spring) Reversed Cam P-59155-0010 P-59331 P-52935-3 ” P-52935-4 ½” P-54350-2 ¼”

Valve

Part Number

“Bellow-Valvair” ¼” 3-Way Normally Closed “Imperial” 3-Way Shut-Off Cock “Imperial” 4-Way Shut-Off Cock

MO58-214-51 (Formerly 92-023-4-23)

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108-HD 114-HD

Valves Used In Various Drawworks As Optional Auxiliary Controls Throttles; Fluid Couplings (Old Style) Auxiliary Brake; Fluid Couplings (New Style) Core Reel; Inertia Brake Throttles; Fluid Couplings (Old Style) Fluid Couplings (New Style) Auxiliary Brake; (Water Level Control) Inertia Brake Control Engine Clutches; Pump Clutches Cathead Air Release; Core Reel Clutch Air Release Drawworks Main Drum Clutch Air Release Optional Throttle Control; Valve Transfer Control

Valves Used In Various Drawworks As Optional Auxiliary Controls Emergency Engine Shut-Off; Engine Clutches; Pump Clutches Engine Group Throttle Selector Cock (2 Groups) Engine Group Throttle Selector Cock (3 Groups)

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4

MAINTENANCE

4.1

Air Clutches

EPL-1439 03 40

The key to long life in an air clutch is getting air into and out of it as fast as possible. If air pressure is too slow in building up, the clutch will slip too much before it is engaged fully. If air pressure is too slow in releasing, the clutch will drag before it is completely disengaged. Either of these conditions will result in glazed friction surfaces and overheating. If it continues long enough, the clutch will lose its efficiency, the rubber diaphragms will break down, and on plate clutches, the plates will warp. To be sure air gets into and out of the clutch quickly, keep the regulating valve and release valve in good condition. 4.2

Drum Clutches National Dy-A-Flex air clutches are featured as standard equipment on all drawworks. They are completely self-adjusting and automatically compensate for lining and friction drum wear. Normal operating pressure is 100 to 110 psi. Their design makes possible the replacement of any wearing part except the diaphragm by removing one of the side plates. Replacing the diaphragm requires the removal of both side plates.

4.3

Inspection 1. Repair leaks in air lines or rotorseal immediately, since condition reduces efficiency and life. 2. Oil on the friction surface or on the diaphragm reduces efficiency. Solvents may be used to clean oily clutch parts. 3. Periodically check condition of friction shoe assemblies, diaphragm, and clutch drum. 4. Friction lining should be replaced after the friction material has worn to thickness shown on chart. Add ional wear may cause the lining to break in two at the notch for the lining bolts.

4.4

Lining/Diaphragm Replacement 1. 2. 3. 4.

Remove necessary guards. Disconnect air lines to clutch Unbolt clutch from its spider. Move clutch outward clear of shaft and lay on its side. Unbolt side plate. Remove clutch shoes, one at a time. Loosen lining bolts. Slide old lining off. Slide new lining on. Tighten bolts. Re-insert shoe. At this time also inspect and replace any pats which show excessive wear e.g., torque bars, shoes, etc.

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5. To replace diaphragm remove all clutch shoes. Turn clutch over and remove other side plate and old diaphragm. Install new diaphragm. Replace side plat. Reassemble clutch, reversing steps outlined above. 6. Upon completion of reassembly, check for air leaks.

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4.5

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Plate Clutches The National 36-C and 42-B multiple plate or disc type air clutch is standard equipment on the 1320 and 1625 series drawworks low drum drive. This clutch employs a diaphragm to apply axial pressure directly against the four friction surfaces. The outside diameter of the clutch housing is small enough to permit removal of the drum brake rims without disassembling any part of the clutch itself. In addition, the clutch is mounted outside the drum shaft maing bearings, permitting complete accessibility and simplifying air connections. Maintenance is seldom necessary on this clutch. Normal friction plate wear is automatically adjusted by increased piston travel and there are no levers, toggles, pins, or control linkage to get out of adjustment. On release of clutch, the friction plates are separated and spaced by means of heavy return springs. Instruction for Disassembly and Repair 1. Remove necessary guards. 2. Disconnect air connection hose (1) and water connection hose (2). 3. Remove cap screws (3) which secure the air and water connection assembly to the clutch housing cover. 4. Remove air and water connection assembly (4) 5. Remove hexagon nuts (5 and 6) so that housing cover (7) can be taken off and set aside. Replace the “O” ring (8) before assembly. 6. Unscrew the hexagon nuts (9) so that diaphragm ring (10) can be removed. 7. Pull diaphragm (11) and diaphragm retainer out and check condition of the diaphragm. If it is badly worn or cracked, it must be replaced. 8. Unscrew hexagon nuts (13) so that the diaphragm retainer (14) and diaphragm (15) may be removed. If the diaphragm is badly worn or worn or cracked it must be replaced. 9. Remove cap screws (16) and housing ring (17). 10. Slide the clutch pressure plate assemble (18) out and lay it aside. 11. Remove springs (19). These must be checked and replaced if they are broken or have lost their tension. 12. Slide friction plate (20) and 23), center plate (21) and back plate (24) out of the housing. Check the springs (22) and replace if they are broken or have lost their tension. Reline or replace air clutch disc assemblies and replace any other parts which show signs of excessive wear or breakage.

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4.6

Lining Wear

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EPL-1439 03 43

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Lining wear can be checked by measuring the movement of drain nipple part No. 622856-A in the clutch housing (part No. 622856-A for the 36-C and part No. 619258-A for the 42-B). When the clutch is new the drain nipple moves 3/16” from disengagement to engagement. When the drain nipple movement is 9/16” from disengagement to engagement we suggest relining the clutch plates as soon as possible. 4.7

Drain Nipple Movement New Clutch – 3/16” disengagement to engagement. Replace Lining – 9-16” disengagement to engagement.

4.8

Fawick Clutches A Fawick 20-CB-500 single element air clutch is used on the 55 drawworks rotary drive. This clutch requires no adjustment and should be operated with air pressure of 100 to 110 psi. Lubrication is not required.

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4.9

Inspection 1. 2. 3. 4. 5. 6.

4.10

EPL-1439 03 45

Check alignment. Leaks in air lines or rotorseal. Condition of the friction surface of the drum. Condition of the friction shoe assemblies. Condition of the rubber tube. Oil on the friction surface or on the tube. Solvents may be used to clean oily clutch parts.

Friction Shoe Replacement Friction shoes should be replaced after the friction material has worn down more than twothirds of its original thickness*, or when their condition is such that a small amount of addition wear could cause friction shoe metal backing plates to score the clutch friction drum. Any air-operated clutch with worn friction shoes requires an additional amount of air on cyclic duty. *Refer to chart.

4.11

To Change Shoes 1. Remove friction shoe pin lockwires, and withdraw shoe pins. 2. Old friction shoe assemblies can then be removed from the clutch element. Necessary clearance may be obtained by first separating actuating element and mating friction drum. 3. Place new friction shoe assemblies in position; insert shoe pins so holes in the ends are in position to take lockwires. 4. Slide lockwires through holes so that scallop of bend in wire points outward from shaft on which clutch is mounted. Bend each end of wire inward toward clutch shaft. Use only top grade wire of proper gauge to fit shoe pin holes. In detaching clutch element, do not lose rubber washer which seals the air passage between the clutch element and mating part.

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4.12

EPL-1439 03 46

Overrunning Clutches – Types “A”, “C”, “C-2” (types C, C-2-55 Drawworks only). The overrunning clutch requires very little maintenance care other than lubrication. Should an oil leak develop, make replacements of oil seals and rings as necessary. The overrunning clutch must be removed from the shaft to replace rear oil seal. For additional information please refer to Section “B” Lubrication, or the Overrunning Clutch Service Manual.

4.13

Lining Wear Chart For Air Clutches Clutch

New Lining Thickness

Replace When Thickness Is

Allowable Lining Wear

DY-A-FLEX 46 x 10

5/8”

7/16”

3/16”

40 x 10

5/8”

7/16”

3/16”

32 x 10

5/8”

7/16”

3/16”

28 x 5 ¼

11/32”

1/8”

7/32”

24 x 5 ¼

7/16”

5/16”

1/8”

NATIONAL 42-B

3/8”

9/32”

3/32”

36C

3/8”

9/32”

3/32”

FAWICK 14-CB-400

7/32”

3/32”

1/8”

20-CB-500

9/32”

3/32”

3/16”

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4.14

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Drawworks – Clutch Application Chart 46 x 10

40 x 10

55

LOW DRUM DRIVE

80-B

32 x 10

28 x 5 ¼

LOW DRUM DRIVE

CORE REEL DRIVE

HIGH DRUM DRIVE

ROTARY DRIVE (opt.) CORE REEL DRIVE

80-UE 110-M

LOW DRUM DRIVE

HIGH DRUM DRIVE

ROTARY DRIVE (OPT)

110-UE HIGH DRUM DRIVE

1320-M 1320-UE 1625-M 1625-DE

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HIGH DRUM DRIVE

24 x 5 ¼

CORE REEL DRIVE ROTARY DRIVE CORE REEL DRIVE ROTARY DRIVE

42-B

36-C

14-CB400

ROTARY DRIVE CORE REEL DRIVE ROTARY DRIVE

LOW DRUM DRIVE

LOW DRUM DRIVE

INERTIA BRAKE

20-CB500 ROTARY DRIVE

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4.15

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Brakes Main Drum Brakes – All band type brakes function by transforming the energy of moving loads into heat by the frictional resistance developed between the brake rim and lining. Water to the brake rims is introduced to the drum shaft by means of an “Air and Water Connection Assembly” attached to the drillers end of the drum shaft. Air to the “low” clutch passes through the center of the connection body and the brake rim water enters a stationary bronze housing – then into the water passage of the rotating body. Ball bearings are used to pilot the housing on the body and lip-type seals are used to keep water out of the bearings. Weep holes are provided in the housing between the seals to allow water to run out if the seals begin to leak. The seals should be lubricated daily and should be replaced as soon as any leakage is noted. The cooling water inlet connections are located in the channel face on the drillers side of the drawworks. Two inlets are provided; a 2” inlet for the auxiliary brake, and a 1 ½” inlet for cooling the brake rims. A globe valve is provided in each line to control the water flow rate. On the 1320-M/UE and 1625-M/DE drawworks, which have plate type low clutches, a short, tubular, inlet water spear connects the water passage in the connection body to the water passage in the drum shaft. Good maintenance of the spear tube seals and packer should be established to prevent water from getting into the plate clutch. A weep hole provided in the body flange will drain off minor water leakage through the spear seals. However, the seals should be replaced as soon as possible after any evidence of leakage is observed. On the 55, 80-B/UE, and 110-M/UE drawworks the water connection body attaches directly to the drum shaft and there is no chance of water leakage into the “low” Dy-A-Flex clutch. The brake rim water is discharged from the off-driller’s end of the drum shaft through a special spear, which first passes through the bore of the auxiliary brake shaft before it engages the rubber packer in the end of the drum shaft. The packer should be maintained in good leak proof condition in order to protect the auxiliary brake disconnect clutch from being rusted by leakage. The bronze water inlet housing mounted on the spear uses the same seals as used on the driller’s end connection. Under normal conditions the brake rims will have ample cooling with 15 to 30 gallons of water per minute circulating through them.

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Separate discharge lines from the brake rims and auxiliary brake are recommended and the water flow from these lines be visible to the driller. With this arrangement the discharge from one system cannot cause a build up of backpressure in the other, and the driller will always have a positive indication of the water flow in both systems. For specific details and part numbers, see the drawworks illustrated parts list pages covering air and water connections and auxiliary brake installation. Auxiliary Brakes – A separate cooling water inlet connection adjacent to the brake rim inlet connection is provided for the auxiliary brake. The source of water is usually the same as for the drum brake rims and a valve is provided at the drillers position to adjust the water flow. Water enters the brake through the inlets on each side of the brake at the bottom or sides and circulates out the top, returning to the supply tank for re-circulation. The braking power and speed of hydromatic brakes is dependent on the level of water in the brake when it starts up, and the rate of flow (gpm) supplied to the brake inlet connection. A water line directly connected to the hydromatic is the simplest system but it cannot be used to control the water level when the brake is at a standstill. However, adjustments to the main supply valve give a reasonably good control of the water flow rate. The best control of hydromatic braking can be obtained by use of a National water level control tank, which permits an infinitely variable level of water to be maintained inside the hydromatic brake when it is not running. A float inside the tank, attached to the foot valve, controls the tank drain-off and thus the tank water level. At maximum water level the float is naturally buoyant and will rise to allow water to discharge to the drain line. At any lower level the float will sink and close the foot valve. The loss of buoyancy at any other than maximum filling can be counteracted by an uplift force applied by an air cylinder operated lever system at the top of the tank. The uplift force is proportional to the cylinder air pressure, which is controlled by the driller by means of a WABCO H-4 Controlair valve located in the Auxiliary Air Control Cabinet. Thus, the tank water filling level can be varied from maximum filling at zero air pressure, all the way to empty at maximum air pressure. Since a hydromatic brake uses the water as a cooling medium as well as a working medium it is essential that an adequate volume of cool water be supplied to the level tank. As a general guide, it is suggested that a water supply of at least 20 gpm be available for each 100,000 lbs. of drill string weight to be handled with a hydromatic brake equipped with the National Water Level Control. If the temperature of the cool water supply exceeds 80º F the rate of flow should be increased by a factor of 100/(180-T1) where T1 is the water supply temperature. The discharge temperature of water from the brake should not be allowed to exceed 180º F so as not to cause steaming and loss of braking. If a water level tank is not used, a water supply 2 to 3 times as great may be required.

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In any event, the minimum water pressure at the inlets to the hydromatic brake should bot be less than 3 to 5 psi for maximum brake capacity, and should never exceed 15 psi. Electric brakes require water for cooling purposes only. The direct connected water supply should be capable of delivering enough water to cool the brake during its heaviest load cycle. The maximum flow requirement will vary with the size of the brake and the load to be handled. Inlet temperature should not exceed 100º F and discharge temperature should not exceed 165º F. Please refer to tabulation below of water requirements for auxiliary brakes on National drawworks. For detailed information regarding water circulation rates together with maintenance and repair instruction manuals contact the nearest auxiliary brake representative. 4.16

Water Requirements For Auxiliary Brakes

Drawworks 55 80-B, 80-UE 110-M, 110-UE 1320-M, 1320-UE 1625-M, 1625-DE NOTE:

4.17

Hydromatic Brake With water level Without water level control tank control tank (gals. per min.) (gals. per min.) 40 50 60 80 90

110 120 165 185 205

Electric Brake (gals. per min.)

45 60 70 120

These values are based on maximum drawworks loads and a maximum water inlet temperature of 100º F.

Adjustment – Main Drum Brakes The “K” brake mechanisms on National drawworks require little inspection; however, a common mistake is to adjust the brake bands so that the equalizer bar is down solid on one end. This prevents it from performing its function properly. Check the K-brake equalizer mechanism during rigging-up periods, and occasionally, during operation to be sure the equalizer bar is free to equalize.

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All of the link connections and shaft bearings are grease lubricated from two central lubrication terminals located inside the brake adjustment access door. Adjustment of the brakes can be accomplished quickly and easily. Brake adjusting wrenches for each band are held in place on the adjusting nuts by lugs on the equalizer beam for immediate use. The following illustration shows the brake adjusting eyebolt connection to the equalizer beam. The spherical shoulder on the adjusting nut is held against a spherical seat on the equalizer beam by a coil spring. (Ref. Fig 1). The spherical seat connection allows the eyebolt to align with the brake band pull as the brake lining wears and as the equalizer beam actuates. This arrangement prevents application of bending stresses to the adjusting eyebolt. The spring keeps the spherical surfaces in contact to eliminate slack and prevent impact loads when the brake is applied. Correct brake adjustment procedure is as follows: (ref. Fig 2). 1. Loosen eye-bolt lock nuts “C” and “D” with wrench “E” and adjust eyebolts to set drawworks brake lever at an angle of 35 degrees, approximately, with the floor when the brake is applied. This will place the brake lever hand pad approximately 32” above the floor level. 2. Be sure eyebolt adjustments are made so that the equalizer beam remains level when brakes are applied. There should be equal clearance (approximately ¼”) between the bottom of the equalizer beam and the brake shaft bracket at each end of the beam “A” and “B”. 3. Be sure the eyebolts are not bent, and after adjustment, retighten the eyebolt lock nuts “C” and “D”. 4. Check the position of the support roller assembly at the rear of each brake band. The roller should be set to ¼” maximum clearance with the band, with brakes “on”. This should prevent the brake lining from dragging on the rims at the top and front when brakes are released. Dragging can cause unnecessary heating and, possibly, brake lever kickback. 5. Check brake bands for roundness and uneven lining clearance when brakes are released. If bands are bent to an unsymmetrical curvature or have flattened areas, which cause dragging, they can be reshaped by a beating treatment with a heavy lead hammer. 6. Check nuts on brake lining bolts to be sure they are tight. 7. Lubricate brake mechanism at regular periods. Use oil for brake band rollers and eyebolt hinge pins.

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EPL-1439 03 52

8. Do not allow band wear to cause very low operating positions of the brake lever. Keep bands adjusted so the lever hand pad is approximately 32” above the floor. Very low lever position will give a spring-like or spongy feel. Also, extreme low positions may allow the brake mechanism to come against its end stops. Further, with new brake lining, low lever positions may allow the heads of the eyebolts to drag on the brake rims.

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4.18

EPL-1439 03 53

Drum Brake Rims Periodic inspection of drum brake rims is necessary to determine indications of uneven or excessive wear. In general, brake rim failures other than regular wear are caused by brake linings being to soft or too hard. Soft woven lining usually causes deep circumferential grooving. Very hard brake blocks cause the rims first to turn blue in spots and then crack. Frequent inspection of the brake rims and a complete change of lining might save a costly brake rim change. Two practiced methods for determining the amount of ear are: 1. The circumference of the worn rim may be measured with a steel tape. In using this method, care should be taken to wrap the tape around the rim at the point of maximum wear. 2. A gauge made of wood or metal may be laid across the rim from flange to flange and the amount of wear determined by measuring. Occasionally brake rim failure occurs when the driller neglects to turn on the brake rim cooling water before using the brakes. This can cause rim cracking if excessive heat is generated. If water is introduced after the rims become hot, steam may be generated causing water jacket damage and/or brake rim cracking due to thermal shock. When replacing lining, the rims should be checked and if there is evidence of scoring they should be turned or ground smooth. If brake rims are replaced, they should be checked for concentric mounting. When the new rims are installed, rotate the drum assembly on its main bearings. The run out of the rims on the outside surface should be limited to .015” as shown by a dial indicator. Allowable wear of National Drawworks Brake Rims

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Coring Reel Brake Rim

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Drawworks 55 80-B, 80-UE 110-M, 110-UE 1320-M, 1320-UE 1625-M, 1625-DE

4.19

A 42” 46” 50” 54” 62”

B 7/16” 7/16” 1/2" 1/2" 1/2"

C 41 1/8” 45 1/8” 49” 53” 61”

EPL-1439 03 54

A 38” 38” 38” 42” 42”

B 5/16” 5/16” 5/16” 3/8” 3/8”

C 37 3/8” 37 3/8” 37 3/8” 41 1/4" 41 1/4"

Coring Reel Brakes The loads on coring reel brakes are usually light enough that the heat developed can be dissipated to the surrounding air without causing excessive temperature rise in the brake elements. The brake rims are not water cooled. Air cooling has proved satisfactory under all normal operating conditions.

4.20

Brake Bands and Lining Each lining block on the main drum is secured with six bolts. Each lining block on the coring reel brake band is secured with four bolts, which engage with dovetail keepers. The lining bolts will loosen as the lining seats itself. They should be checked after putting new lining into service and retightened as required. Penning the end of the bolts will keep the nuts from coming off but it will not guarantee that the bolts will stay tight. They should be checked regularly. These bolts are made of brass and care should be taken not to break them by over-torquing. The lining blocks are curved to the proper radius in manufacture, but in storage this radius may change slightly. Heat and pressure in service will eventually seat the lining against the band. Good practice prescribes a breaking-in period before handling heavy loads at high speeds. Under load, the lining is kept in place on the band primarily by friction with the band. Therefore, the contact area between the lining and band should be free from oil, grease, mud, or soft paint so the block retainer bolts won’t be sheared off as a result of reduced friction. The inside of the band should not have over one coat of protective paint. In fact, no paint at all is preferable. When replacing brake lining blocks the bands should be inspected for damage caused by corrosion, loose blocks, and rough handling. The band curvature should be a relatively true radius and free from kinks. New lining may never seat properly against a kinked band. The band should be checked for accuracy of curvature, straightened if necessary and handled carefully. The clevis eyes should be kept tied together when the bands are not on the drawworks.

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EPL-1439 03 55

The repetitive application of the main brake on a drawworks subjects the dead end (eyebolts end) of the band to a stress – no stress condition. The magnitude of this stress range can lead to eventual metal fatigue. Therefore, whenever the bands are removed for relining, they should be magnafluxed to guard against fatigue cracks in the band and clevis on the dead end. The complete band should be replaced if there is any question at all about its quality. WEAR CHART FOR BRAKE LININGS

4.21

Catheads

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EPL-1439 03 56

General – National Type “A” Catheads are furnished on the 1625 series Drawworks while the Type “B-1” Catheads are provided on the 55, 80, 110, and 1320 Series Drawworks. All National catheads use air pressure applied behind a flexible diaphragm to supply the actuating force to a piston through a thrust bearing, tong line drum, and against a driving friction surface of the spool which is keyed to the catshaft. The pull on the tong line will be proportional to the applied air pressure. When the air pressure is released, return springs force the piston and diaphragm back, and a return ring pulls the drum away from the driving friction surface. The tong line drum rides on a sleeve, which is part of a stationary housing. When the cathead is disengaged, there is not tendency for the drum to creep or drag because it has no contact with rotating shaft elements. There is no intermediate mechanical linkage requiring periodic adjustment. The diaphragm automatically compensates for lining wear. The Type “A” and “B-1” breakout catheads have three clutch friction surfaces while the make-up catheads have one friction surface. Therefore the breakout units have nearly three times the torque potential of the Make-up. National catheads are equipped with a rope safety guide to separate the first two coils of soft line and keep them from overlapping when the line is around the spool. The working area of the spool is flame hardened to minimize wear. Catheading operations should not be carried on without the line passing through the guide. The guide should be inspected frequently for damage and to insure that it is in proper orientation. To assist the driller maintain a sensitive control in low piston pressure ranges (low torque ranges), where most spinning and make-up operations are performed, carefully designed control levers and air valve operating cams are featured on all National drawworks. The control levers travel in a notched slot in the control console cover. The cam is designed to give the greatest amount of lever movement in the lower pressure range. When the cathead control lever is moved from “off” to the intermediate stop notch in the lever slot the cam turns through 50 degrees and the valve delivers 0-40 psi air pressure to the cathead. In the remaining 25 degrees of the slot, 40 to 110 psi is supplied. By proper manipulation of the lever, any line pull from zero to the maximum can be applied to the tongs. All parts of the Type “A” Breakout and Make-up Catheads are interchangeable except the drum, clutch elements, rope spool, rope guard, and bracket. The same applies for the Type “B-1” Catheads. The wearing parts of the catheads are the piston diaphragm, clutch linings, bearings, and return springs. www.nov.com

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EPL-1439 03 57

Each Type “A” Cathead has four grease fittings while the Type “B-1” Catheads have one grease fitting each to lubricate all bearings and bushings. At rig start up, the catheads should be greased liberally but not excessively, as the overflow may migrate to the clutch friction lining, which can cause contamination and impair cathead operation. After each trip the catheads should be given two or three shots from a hand grease gun. Caution: Excessive greasing or the use of grease of too-firm consistency may resist the return of the tong line drum to a neutral position after clutch engagement. Always allow the catshaft to rotate a few minutes after greasing before actuating the catheads. Type “A” Catheads – (Type 1625-DE/M Drawworks only) Each cathead has four grease fittings; one in Item (5), one in Item (38), one each in (17) and (25) which are accessible through a window in the front of Item (23). Ref. Fig. 1, page 45. Catheads with new clutch linings should have the following piston movement when air pressure is applied: Type A Breakout: 3/16” Type A Make-up: 1/16” When the piston movement becomes 3/8” and 1/8” respectively on breakout and make-up catheads the clutch linings should be replaced. The following instructions cover disassembly of the breakout cathead. Disassembly of the make-up cathead should follow the same procedure except for Items 3, 7, 10, 11, 12 and 41, illustrated in Fig. 1, page 45, as the make-up cathead has only one friction surface. Disassembly: 1. Remove cap screws (1) and (3) and rope guard (2). 2. Back-off retainer bolt (4) two or three turns and apply air to the cathead. Tap the spool (6) until it breaks loose from the tapered shaft extension. Turn off the air, being sure the piston is vented; remove the retainer bolt, end plate (5) and spool. 3. Remove cap screws (8) and clutch plate retainer (9). Clutch plates (10) and (11) may now be removed for repair or replacement. 4. Check clutch plate springs (7) and (12) and replace if broken or weak. 5. Remove cap screws (13), bearing retainer (14) and shim set (16). Check oil seal (15) and replace if worn or deteriorated.

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EPL-1439 03 58

6. Withdraw drum assembly (17) from the piston to inspect bearings (18) and (19). Retainer (20) must be removed before the cup of bearing (19) can be pulled from the drum. Friction linings (21) should be replaced if worn close to the rivet heads. New linings are ¼” thick. 7. Remove housing retaining nuts (22), housing (23), and piston assembly (25). Check piston return springs (24) and replace if broken or weak. Check bronze bushings (26) and (30) for wear and replace if over .020” loose on sleeve. 8. Remove slotted nut (27) and diaphragm retainer (28); diaphragm (29) may now be removed for replacement. 9. If the main body (38) exhibits excessive side play (over .008”) at the same end of the sleeve, the shaft bearings should be checked. This requires complete removal of the catshaft assembly from the drawworks, since bearing (39) and the spherical radiused trunnion of the sleeve comprise the shaft support in the drawworks frame. 10. After removal of the catshaft assembly from the drawworks, remove cap screws (31). The cathead sleeve (38) can now be pulled from the shaft. (Note: If the shaft assembly is removed from the drawworks, the cathead assembly can be removed from the shaft as a unite after completing instruction (2) above, and after removal of cap screws (31). 11. Pilot bearing (36) and main bearing (39) can be pulled after removing lock nut (33). 12. Refer to Illustrated parts List of drawworks for specific part numbers of required replacement parts. Always give drawworks serial number when ordering parts. 13. Refer to specific drawworks section of this manual for listing of bearing fits in the cathead assemblies. Reassembly: Type “A” catheads have two sets of adjustment shims. Shim set (16), Fig. 1, page 45, should be selected to establish .003 to .005” end play of the drum (17) after reassembly. These shims are available in thickness of .005”, .007”, and .020”. Shim set (40) Fig. 1, establishes the location of main bearing (39) on the shaft and thus the distance of the face of clutch lining (21) from the friction surface of the spool (6). This distance should be 1/16” on make-up catheads and 3/16” plus the combined thickness of clutch plates 910) and (11) on breakout catheads.

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EPL-1439 03 59

On breakout catheads, the clutch plate retainer (41) allows 1/8” total released running clearance for a new friction disc (10), and proper selection of shim set (40) thickness establishes the additional 1/16” released running clearance between new friction lining (21) and plate (11). Shims (40) are available in thickness of 1/64, 1/32, and 1/16”. (Note: Normally, shim set (40) will need no adjustment, if cathead repairs consist only of replacing friction linings, diaphragms, or roller bearings). Because of variations resulting from accumulation of manufacturing tolerances the shim set (40) should be re-established whenever a complete new cathead is installed or whenever replacing the spool (6), drum (17), or sleeve (38). A convenient method for determining the required thickness of shim set (4) is as follows: 1. Install spool (6) on shaft and measure dimension “A” from friction surface to face of bearing spacer (42) as illustrated in Fig 2, page 45. 2. With sleeve of cathead completely assembled, including main bearing (39) (and plates (10) and (11) on breakout catheads), assemble all parts that mount on sleeve (38), including items (41), (12), (11), (10), (9), but less items (2) and (32). Install cup and outer cone assembly of main bearing (39). Set this assembly on a surface plate as shown in Fig. 3, page 45. With springs (12) forcing clutch plate (10) against retainer (9), measure dimension “B” from surface plate to top of plate (10). 3. The required thickness of shim set (4) is the difference between dimension A and B minus 1/16”. (i.e., shim thickness = A – (B + 1/16). 4. Reassemble cathead on the catshaft in proper parts sequence, tighten bolt (4) and check forward movement of drum (17) when air pressure is applied. Nominal piston and drum assembly movement is to be 1/16” for breakout cathead with new clutch linings. A small negative tolerance is allowable for this movement if no clutch drag is evident.

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EPL-1439 03 60

TYPE “B-1” CATHEADS – (Type 55, 80-B/UE, 110-M/UE, and 1320-M/DE Drawworks only) www.nov.com

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Each cathead has only one grease fitting; Ref. Fig. 4 (Item 55), page 47. Catheads with new clutch linings should have the following piston movement when air pressure is applied: Type “B-1” Breakout: Type “B-1” Make-up:

3/16” 1/16”

When the piston movement becomes 3/8” and 1/8” respectively on breakout and make-up catheads the clutch linings should be replaced. The following instructions cover disassembly of the breakout cathead. (Ref. Fig. 4, page 47). Disassembly of the make-up cathead should follow the same procedure except for steps 2 and 4 below as the make-up cathead has only one friction surface. Disassembly: To replace friction lining: 1. 2. 3.

4.

Remove rope hanger and guards (10, 11, and 35). Remove the three friction plate retainers (45). Loosen retaining bolt (34) a turn or two and apply air to the cathead to force the spool (3) loose. It may be necessary to tap the spool with a hammer to break the taper fit. Turn off the air, making sure the piston is vented; removed retainer bolt, and end plate (42). The spool can then be removed and the friction lining replaced. Remove friction plate retainer (36) to gain access to the inner plates (12) carried on the drum (1). Examine centering springs (52) and replace if broken or damaged. When reassembling, make sure capscrews (67 and 69) are securely tightened.

To replace air diaphragm or bearings: 5.

6. 7.

Remove spool as instructed above. The remaining cathead assembly including all bearings can now be moved forward and off the shaft. If only the diaphragm is to be inspected or replaced the cathead needs to be moved forward only enough to gain access to diaphragm retainer screws (16 and 62). Remove spring retainer (7) and slide the drum and piston (26) off the sleeve as a unit. The diaphragm (24) and diaphragm retainer (5) can now be removed. Check ring to element washer (17) for deterioration. Check end play between drum and drum return ring. (2). On new catheads this is set to approximately .010”. If clearance checks over .015” remove .005” shim (32).

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8. 9.

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Check fit of bushed drum assembly A(1) on sleeve. When new this runs from .007” to .013” loose. If worn fit is over .020” loose bushing replacement should be considered. Check anti-friction bearings (8) for damage or excessive war including inspection of bore of sleeve. Replace oil seal (48) if it shows evidence of leakage.

Refer to drawworks illustrated parts list for part numbers of replacement items required. When ordering spare parts, always give model and serial number of drawworks. Reassembly: 1. 2.

3. 4.

Use original shim set (19, 20, 21, 22) and reinstalls cathead on the shaft. Install spool firmly but do not tighten retainer bolt (34). Check clearance between friction lining (30) and adjacent face. This should be 1/16” minimum, and can be observed through slots in the rim of the spool. If clearance correction is necessary, remove spool and main body assembly as a unit. Then add or remove shims to obtain proper clearance. Reassemble cathead on shaft and tighten retainer bolt. Reconnect air supply line and grease cathead. Be sure anchor bracket (9) is not jammed and anchor spring (43) is installed. Apply air to the cathead. Upon released of air pressure, the quick release valve in the supply line should pop-off and the drum should retract instantly. There should be no dragging action in the clutch elements when the shaft is running.

ELECTRIC MOTOR INSTALLATIONS For installation, alignment, and lubrication procedures on National Electric Drawworks please refer to the following illustrated part lists: EPL-534 EPL-425 EPL-462

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Type 80-UE Drawworks – Page 52, 53, 54 Type 110-UE Drawworks – Page 62, 63, 64, 65. Type 1320-UE Drawworks – Page 46, 47, 48, 50, 51, 52, 53. Type 1625-DE Drawworks – Refer to Page 48 (this manual).

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4.22

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Parts Fit General – Economic features enter into the normal overhaul job; no one wants to spend money needlessly; however, at the time the equipment is in the shop for repairs new parts may be installed at far less expense than when the equipment is in service. For example, it has become customary in our own shops, when making a major overhaul, to replace many roller bearings throughout the drawworks. Some of the bearings replaced may still have some life left in them, but should the repair shop fail to replace a bearing at the tie of overhaul, and should this old bearing fail within the first few months of new service, the resultant costs from down time and emergency repairs will amount to many times the cost of replacement at regular overhaul time. When replacing parts on a shaft assembly, be sure that the new part fits within the tolerance shown. For assembly or removal of parts which fit from .000” to .004” tight, heat to approximately 400º F; for parts which fit from .005” to .010” tight, heat to approximately 650º F. Shafts – Wherever possible, all shafting should be checked by magnaflux or other means to detect any cracks. Cracks are most likely to appear in the bottom of keyways. A cracked shaft should be discarded and replaced, as a crack is a danger signal for a bad failure. Shafts should also be checked for straightness. This is accomplished by supporting it by any anti-friction means placed at the position of the main bearings, and turning it. Straightness is then checked by means of a dial indicator placed at the extreme ends of the shaft. The total reading of the dial indicator should not exceed .010”. If a shaft shows a greater run out then .010” a replacement should be considered. The lack of straightness in drawworks shafting causes vibration, whipping of chains and a generally poor runner rig. Bearings – Roller bearings should always be discarded if they show pitting, rust or corrosion, chipping or spalling off of small particles, excessive internal looseness which indicates extreme wear, or cracks in rollers or races. In most cases it will be necessary to heat the bearing inner race, in order to remove it from the shaft. It will be necessary to heat the inner race and cool the shaft for reassembly. To pull the bearing and/or the inner race, place a “U” puller behind bearing or inner race. Arrange balance of the pulling mechanism and tighten sufficiently to remove all slack. Apply heat evenly to the bearing or inner race, while at the same time increasing tension on the pulling mechanism. DO NOT OVERHEAT.

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Fits of the outer races to the bearing housing range from .005” tight to .004” loose. If the outer race is tight fit it will be necessary to heat the housing in order to remove it. The bearing must be cool before it can be reassembled. When outer race is a tight fit, arrange the puller mechanism to apply pressure toward the open end of the housing. Apply heat to the housing and increase pressure on the puller mechanism at the same time. DO NOT OVERHEAT. Spacers – Spacers used between bearings to maintain centerlines of bearings, or between bearings and other parts, are usually .002” to .006” loose. Spacers, which are used to hold a bearing in position, which is not adjacent to anther part securely fixed to the shaft, are usually .001” to .003” tight. To remove a spacer, which is shrunk on a shaft, proceed in accordance with instructions for removing a bearing. To replace, heat the spacer, and make sure the shaft is cool, and proceed the same as for bearing replacement. Sprockets and Clutch Hubs – The teeth of almost all sprockets are surface hardened. This hardening is effective to a depth of approximately 1/8”. After several years usage the chain may wear into the sprocket teeth. When the sprocket teeth become worn to a depth near 1/8”, the rate of war will accelerate. The amount of war may be ascertained by visual inspection. If inspection shows the amount of wear to be near 1/8”, the sprocket should be replaced at the time of overhaul. Four methods are used for mounting clutch hubs, bearing inner races and sprockets on shaft assemblies. (1) Press fit without key. (2) Press fit with key. (3) Shrink fit without key. (4) Tapered shaft with key.

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When removing and replacing parts mounted according to arrangement (1) above, refer to instructions for removing bearings. Sprockets mounted according to arrangement (2) above may have a straight key, which has a tapped hole in the end of it. Screw puller in this tapped hole and remove the key. The sprocket may then be removed, usually with applying heat. If a tapped hole is not provided in the key, it will be necessary to pull the sprocket without first removing the key. Insert puller studs through openings between sprocket spokes 180 degrees apart. Place steel plates and nuts on stud ends extending through the openings. Arrange balance of pulling mechanism and tighten only enough to remove any slack. Apply heat evenly and as near to the hub as possible while increasing tension with the puller at the same time. DO NOT OVERHEAT. In some cases the hubs will have two tapped holes in the end so that puller studs may be screwed in. In other cases where neither spokes nor tapped holes are available for utilization of puller studs it will be necessary to use a “strongback” or “U” plate behind the sprocket and secure the puller studs to it. Proceed to remove the sprocket as described in the foregoing paragraph. To replace the sprocket, first be sure that the shaft is cool. Heat the sprocket to approximately 400º F. Be sure that the keyways in the shaft and sprocket are aligned before the sprocket tightens on the shaft. Insert key after sprocket has been installed. Caution – Express heat at the hub and attempting to pull the sprocket with a chain attached to the outer rim, powered by a jack on the end of the shaft will bend the sprocket. Sprockets with shrink fits are very difficult to remove. This should only be attempted in a shop where a hydraulic press is available. If the sprocket is being removed for salvaging and installing on a new shaft, cut the shaft near the sprocket and machine part of the metal from the shaft under the sprocket. Heat the sprocket and press out “Dutchman.” If purpose of removal is to replace the sprocket with a new one it is advisable to machine or torch cut the old sprocket to remove it. Let the shaft cool, heat the new sprocket to 650º F and assemble on the shaft. Important – When a shaft assembly is disassembled for any reason, be sure that passages for admission of air or grease are thoroughly cleaned. Hub and Shaft Fits – The temperature required to expand a hub enough to be assembled easily over an interference fit can be determined by the following equation: T = E/(.0000061 x B) + Tr Where T = Heated Temperature, ºF E = Expansion of Bore Diameter Required B = Bore Diameter (inches) Tr = Room Temperature, ºF .0000061 = Approximate Coefficient of Expansion of steel per degree Fahrenheit per inch of length (or diameter) www.nov.com

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For example, if we have a 8.500” diameter bore hub which has an .008” interference fit whith the shaft and we wish to have .010” clearance while assembling the hub over the shaft – the total bore expansion needed will be .018”, therefore, E = .018 B = 8.5 let Tr = 70º F then T = .018/(.0000061 x 8.5) + 70 = 420º F Caution: Hardened parts such as bearing races should not be heated to over 400-450º F, since their hardness might be affected. Heat should be applied carefully and evenly to prevent distortion. The general rule for the average interference used in cylindrical fits is as follows: Press fit: - .0005 x shaft diameter Shrink fit: - .001 x shaft diameter The actual fit will have a plus or minus tolerance depending on the shaft and bore tolerances used in manufacture. Overhung sprockets, clutch hubs, etc., are often made with tapered shaft fits for convenience of assembly and disassembly. The tapers used on National drawworks are normally made to 1.2500 inches on diameter per foot of length of engagement. In many cased the hub must be shimmed against an adjacent bearing spacer. Care must be taken to be certain that the shims do not interfere with drawing the hub up tight on the taper. A recommended method of assembling hubs requiring shimming is to assemble the hub firmly on the shaft without shims and without heat. Measure the shim gap behind the hub. The thickness of the shim pack required will be this measurement minus the draw allowance to be provided for tightening the hub up on the shaft. For each .001” of diametral interference on a 1.250 per ft. taper the hub will advance approximately .010”. Therefore, for example, if a .003” interference is desired in the taper fit, the shim gap must allow for a .030” advance o the hub on the shaft. The hub may be lightly heated to facilitate the draw.

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5

PRESERVATION OF MACHINERY

5.1

Outdoor Storage of Rigs

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Stacking – Enough beams should be provided to give normal support to the rig and be high enough to avoid having accumulated or run off water reach the equipment. A drained location is preferable so that water will not remain under the rig and cause abnormal dampness. Cleaning – Mud, adhering dirt, and other foreign matter of a type that will hold moisture should be removed. Contaminated sumps should be drained. If cleaning is done with steam or with gasoline, car should be taken to avoid washing lubricating oil or grease from unpainted surfaces unless it is to be replaced or a preservative compound applied. If, in cleaning, the lubricant is removed from close fittings elements, they should be rotated after new lubricant or a preservative has been applied so that it will work into the fits. In case it is necessary to run contaminated liquid through a circulation pump, in the draining of an oil sump, clean oil should be run through the pump afterward. Minimizing Condensation – if an air tight package could be made around the rig, bags of desiccant could be hung in appropriate locations to reduce the humidity of the inside air to a point where there would be no interior condensation and therefore no rusting. This appears to be impractical for the rig as a whole, but it could be approached in transmission cased which are sealed except for a singe vent, if the bags of desiccant were replaced periodically. In the remaining discussion it will be assumed that a desiccant is not used. Condensation occurs when warmed air which has absorbed moisture becomes cooled and loses moisture. Within a transmission case, condensation occurs in the evening when the still warm inside air circulates against the cooling walls of the structure, and in the morning when the warming inside air circulates against the still cool machinery. Transmission cases and the like should be sealed except for the bottom drain hole. This opening will allow accumulated condensate (or any leakage) to escape and the cooler air drawn in at night will tend to have lower moisture content. Theses two actions will tend to reduce the condensation in the case. If the case does not drain well, a little lubricating oil placed on the bottom will float on any water that does not run off and prevent its being reabsorbed by the air in the case.

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Protective Oil and Grease – The run-in oil used at the factory contains a rust preventive additive. It is recommended that the use of such an oil be continued in service. In any case, unless it is necessary because of contamination, the oil should not be removed from between close fitting machine elements. When applying a preservative, it may be necessary to wipe the surface oil away so that the preservative will adhere, but this should not effect the oil in the fits. The grease used at the factory was of the all-purpose type, resistant to heat, cold, water wash, and corrosion, and it was compatible with other greases. If such a grease was used while the rig was in service, it will provide excellent storage protection. In any case, clean grease need not be removed from the bearings. The more grease there is in a bearing, the smaller the volume of air will be, and therefore the least chance for condensation of moisture. By hand packing the exposed areas of bearings with an all-purpose grease, protection will be provided which will neither soften and run with heat nor become rigid with cold, and will not wash away. If a bearing is particularly exposed, waterproof tape may be useful in protecting it. The surface upon which the tape is to stick should be made clean and the tape applied in a manner which assures that it will shed rather than collect water. Applying Preservatives – Detail information on the various protective materials referred to will be found at the end of this section. Grease type rust preventive is recommended for general use where its greasiness is not objectionable. It is usually brushed on and provides a relatively thick coating which retains its effectiveness. It can be worked into fits and is compatible with lubricating oil. It can be thinned or removed with gasoline or kerosene. The grease type rust preventive is particularly valuable when worked into the pivot bearings of chain, control linkages, and the like. All-purpose lubricating grease is also useful in this way. Even when it is desirable to use a film type preventive on the external surfaces of machine elements, the grease type is best on close or sliding fits, in small holes, and on threads. Dry film type rust preventive is recommended on the external surfaces of shafts, drums, and other machine elements where the grease type would be a nuisance during handling, when rubbed against, or upon return to service. It also makes a good coating on unpainted structural surfaces such as the interiors of guards or oil chambers. It is compatible with lubricating oil. It can be brushed or sprayed on and can be thinned or removed with gasoline. While the dry film type preventive does not have the self-healing property of the softer grease type, it has good scuff resistance. Both types provide protection through chemical affinity for metal, as well as the physical barrier. Sealing Opening – If a rig is not be covered by a weather tight tarpaulin, access covers and door and joints in the structure which do not close tightly enough to prevent water from blowing in should be caulked or otherwise packed with greased or white leaded soft rope, or other packing material, or sealed with two or three inch wide adhesive waterproof tape. Waterproof tape is convenient to use and effective. It should be applied over a cleaned surface. When it is used, some touch-up painting may have to be done at the time of the return of the rig to service as the tape tends to lift the top paint coat when removed.

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Small openings can be covered by tape alone, or by tape and plastic sheet, unsupported. Large openings, such as those above the cable and sand line drums and at guard junctures, should be boarded up and covered with plastic or other waterproof material to make a weather tight seal. The wood should be wired or otherwise held in place securely so that it will not move from position when it shrinks with drying. Waterproof tape, two or three inches wide, is convenient and effective for use in sealing between the plastic and the structure. If roofing nails or staples are used to hold the plastic close to the boarding, a covering piece of tape will seal and strengthen at that point. An equivalent seal, to that of the plastic sheet with adhesive waterproof tape, could be provided by laying plastic screen over the seams, covers, doors, openings, and spraying on a cocooning compound which would adhere to the structure and bridge the screen openings to from a continuous material. The tape and sheet material appear to be more convenient for use in the field. Touch-up Painting – It is best to do major touch-up painting before a rig is stored. Loose paint and rust should be wire brushed away, the surface cleaned with white gasoline, or other non-oily cleaner and primer applied again to a dry surface. Do not paint when the atmosphere or the surface is damp. If attachments have been added or modifications made to the rig in the field, to assure a lasting paint job; blunt sharp corners, edges, and projections; top scabs and laps; trim ragged torch cuts or broken tack welds; scrape or wire brush away weld slag and spatter, mill scale, or rust; and as above, make sure that the surface is clean and dry. Touch-up painting can be done conveniently with a brush or with an electrical spray gun. Hooding Control Cabinets – If a rig is not to be covered by a weather tight tarpaulin, it is desirable to place a hood of plastic or other waterproof material over the control cabinets or similar structures having openings around handles, or the like, which are difficult to seal. Before hooding is applied, lubricating or rust preventive oil should be worked into the pivots and rollers to prevent corrosion access. A pressurized spray can of rust preventive is handy for protecting the valves. The pivot points of the heavy mechanical control linkages located below the floor should be protected by grease type rust preventive or all purpose lubricating grease, worked into the fits. The hooding should be tied or taped snugly in place. It should cover all openings above the floor.

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Covering with a Tarpaulin – If a plastic tarpaulin is used to cover the rig it should be no less than six-thousandths of an inch in thickness. Black plastic stands the sunlight better than clear. A tarpaulin material should be used which will not become wet through, as this would tend to cause accelerated corrosion wherever it touched. Before applying the tarpaulin, all points, ridges, or other abrupt contour changes, with which the covering will come into contact, should be rounded by padding with folding cloth or paper, tied or taped in place. Large openings, such as those above the cable and sand line drums and at guard junctures, should be boarded up sufficiently to give support to the tarpaulin. The wood should be wired or otherwise held in place securely so that it will not move from position when it shrinks with drying. If it is desirable to hold in the tarpaulin at a point where it is supported by wood framing, a strip of wood may be placed over the tarpaulin and nails driven through into the framing. Or, the tarpaulin may be reinforced with waterproof tape and roofing nails or staples driven through into the wood. The tarpaulin may be held at other desirable points by running a strip of wood though door handles, or by wiring the wood in place elsewhere, and fastening to it as above. Where the supporting wood is not flush with the structure surface, the ends should be padded. The tarpaulin should be carefully draped so that there will be no folds or depressions which will catch water, especially if freezing may occur, as such points of weight would destroy a tarpaulin in the wind. Plenty of light rope or cord should be used to keep the tarpaulin draped as desired, provide support, and prevent billowing and fluttering. A strong attachment point can be made by reinforcing across the direction of the pull with two-inch wide waterproof tape, six inches long, stitching a four-inch nail through the tape and tarpaulin for times and attaching the line to the center of the nail. An additional piece of tape, laid over the joint, makes it secure. Excess material can be held in controlled folds by stitching longitudinally with a nail at tape reinforced pints, though the multiple thicknesses, again taking care not to form a pocket which will collect water. Tape may also be used across the line to keep it in place at points where it would tend to slip form position as it slackens in the wind. 5.2

Storage Of Parts And Subassemblies Absorbent Materials a Hazard – Parts shipped in closed vehicles, or given weather tight packaging, may be received with cushioning material around them, such as shredded wood or paper, burlap sacks, or cotton or paper bags, which will absorb and hold moisture if exposed to rain or condensation. Such material should not be used in storing machinery parts if there is any likelihood of dampness, as there would tend to be accelerated corrosion wherever the damp material touched the part.

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Support Points Critical – The areas where a part contacts the material it rests upon are the most likely places for corrosion to occur because of collection of moisture there. If possible, parts with finely finished surfaces should be positioned so that these surfaces will be in the clear. For example: polished bearing rollers and pump rods should be stored on end. If a finely finished piece must be stored horizontally, either in a box or on a shelf, blocks should be placed under it to provide clearance for drainage. If wood blocks are used, a nonabsorbent material, such as a piece of plastic or waterproof tape, should be placed over the contacting surface of the wood to prevent its acting as a wick to draw away the preservative or bring in acid-laden moisture, as the wood becomes alternately dry or damp. Care should be taken that the plastic or tape is positioned so that it sheds rather than collects moisture. Damage Prevention – When it is desirable to protect external threads of smooth surfaces against the possibility of physical damage, care must be taken or the effort to provide protection against being struck which may result in a condition which traps moisture and invites corrosion. In using metal or molded screw type thread protectors, ample grease type rust preventive, or suitable thread lubricant, should be used so that it will completely fill the space between the eternal and internal threads and squeeze out at the ends to form a barrier to moisture. If the thread protector comes up against or near a shoulder, particular care should be taken to provide enough preservative to completely fill the space between and squeeze out to form a barrier. Waterproof tape or plastic sheet can be used to protect external threads if applied over an ample layer of grease type rust preventive, or thread lubricant. Here again, the preservative should squeeze out at the ends of the wrap to provide a barrier. Care must be taken at the ends of the wrap to avoid having it form a catch basin for moisture. The tape will stay in place by sticking to itself along the overlap. Tape can also be used to hold in place and seal plastic sheet used for damage prevention. Absorbent materials should not be used in this way. Heavy weight aluminum foil should make a good protective wrap over preservatives. It can be sealed and held in place with waterproof tape, using care so that it will not trap moisture. Waxed paper will provide an economical indoor covering if used over an ample coating of film type or grease type rust preventive. It should not be used over bare metal, or even that covered with oil, because it may contain residual acid from its processing which would be apt to have an effect unless there is a heavy preservative barrier. Ordinary tape may be used in place of waterproof tape in indoor applications, except in cases of unusual dampness. Plain kraft paper should not be used as a wrapping as it is both absorbent and apt to contain residual acid. Tape should not be used on finished bare metal. Even if the adhesive is known to be noncorrosive, there is a tendency for corrosion to occur along the step of the overlap. This can be avoided by first coating the surface with dry film, grease, or oil type rust preventive.

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Applying Preservatives – The recommendations of the section so titled under Outdoor Storage of Rigs also apply here. Subassemblies should be given particular attention, especially if the metal is heavy enough to change temperature slowly and thus accent the tendency for condensation to occur. Oil type rust preventive may be conveniently sprayed into recesses of interiors with an electrical spray gun or from a pressurized spray can. Rust Preventive Wrappings and Envelops – The factory has used volatile corrosion inhibitor paper for about 15 years. When old stock is unwrapped it is always found to be perfectly protected. Up to the present, that used has been creped, double thickness paper with an asphaltic barrier between sheets. One side is coated with an adhering white powder called VPI, vapor phase inhibitor, which gives off the vapor that forms a chemical barrier at the contact between the metal and moisture to prevent rusting. When condensation has occurred during storage, there may be found a fine powder at condensation points where the vapor has gone into solution in the moisture, to provide chemical protection, and later has been precipitated upon the surface when the moisture evaporated. The white powder easily wipes away with an oily cloth and leaves no residue. A recently developed inhibitor paper, that is gaining acceptance by bearing manufacturers, has the vapor producing constituent impregnated in the paper and a wax-like barrier coating on the surface that is to be outside. Also recently developed is a transparent, very tear resistant, heat sealable plastic sheet which has a vapor producing coating on one side. The can be procured in the form of bags or can be made into bags or other forms as needed through the use of an electric heat sealing iron, or through the use of adhesive tape. An advantage of the transparent type is that the item and its identification marking can be seen clearly through it. But, if desirable, the part number can be written on the plastic with a pen. While some VPI vapors are effective through light oil, none can be dependable through heavy oil or grease, so most items are packaged dry in VPI wrapping. For this reason, the item should be kept wrapped until ready for use, be re-wrapped if opened and not used soon, or coated with oil or grease type rust preventive after opening. Vapor protective paper is of special value in protecting large bearings, such as swivel thrust bearings, which are heavy enough to be subject to fretting if the races and rollers can move upon each other during shipment, due to vibration. This fretting is eliminated by placing VPI paper between the rollers and races and wrapping the assembly tightly together.

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RECOMMENDED SPARES The following is a suggested list of recommended spare parts for the first year of normal rig operation covering all National drawworks. Column (1) lists recommended spare parts which should be carried in stock at all times for each rig. Column (2) lists minimum amount of spares for each rig that may possibly be required after one year of normal rig operation. The recommended spares shown here do not attempt to cover the eventuality of unexpected breakdown of major parts. The customer should study the illustrated parts list for the drawworks and select any additional spares that the may consider practical to have in stock. A proper maintenance program and periodic inspection of the drawworks will discover incipient wear or deterioration of parts soon enough to allow time for delivery of replacement from National factory stock. For those sections covering both mechanical and electric rigs, the lists specify spare parts for either drawworks except where noted.

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55 DRAWWORKS Controls – Operation – Mechanical Drawworks The following are the functions and operations of various controls located in the main control cabinet for the 55 drawworks.

Master Clutch and Inertia Brake Control – Regulates flow of the air to both master clutch and inertia brake. Move lever away from operator and into left leg of “U” shaped slot to engage the master clutch and away from operator and into right leg of “U” shaped slot to engage the inertia brake. Engine Throttle Control Levers – These engine throttle control levers for group 1, 2, and 3 engines remotely control actuators on the engines to accelerate or retard engine R.P.M. Push lever away from operator to accelerate engines. These controls are friction loaded and will remain in position to maintain desired operating speed. The throttle group selector valves are mainfolded together and controlled by the engine throttle levers to establish various combinations of engine selections. Main Water Supply Pressure Gauge – Indicates pressure of main water supply to the drawworks. For detailed information regarding pressure and water flow rates, please refer to pages 38 and 39. Cascade Lubrication System Oil Pressure Gauge – Indicates discharge pressure of the cascade lubrication system pump. Working pressure varies with distributor valve setting and viscosity of the oil. The gauge should be used to indicate to the operator whether or not oil is being circulated through the cascade system. Main Air Supply Pressure Gauge – This indicates pressure of main air supply to the drawworks. Minimum pressure should be 110 psi.

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Drum Clutch – Indicates pressure of the air to either high or low drum clutch. Working pressure should be approximately 110 psi. Make-up, Breakout Cathead Controls – Regulates flow of air to catheads. Push lever away from operator to engage cathead friction clutch. This lever is spring loaded and will return to the OFF position when the hand is removed. The slot in which the lever travels is offset to permit application of less than full air pressure when required for certain operations. The knurled knob at the right of the slot is a safety lock for the lever. Use this lock to prevent accidental engagement of cathead and possible serious injuries to personnel. Rotary Drive Clutch – This lever engages the rotary clutch when moved away from the operator. Use the safety lock at the right side of the slot to prevent accidental engagement of rotary clutch. Drum Clutch Control – Regulates flow of air to the drum clutch. Move lever away from the operator to engage clutch. 7.1

Mechanical Controls Transmission selection is achieved by manually raising or lowering shifter handles located on the front of the main control cabinet. The center position of the lever slot is neutral. At least one of the levers must be in neutral before any transmission selection can be engaged. Reverse-High Transmission Shifter – Lift the lever into its upper position to shift transmission into reverse. Placing the lever in its lower position shifts the transmission to high speed ratio. The center position of the lever slot is neutral. The lever must be in the neutral position before the second-low clutch can be engaged. Second-Low Transmission Shifter – Lift the lever into its upper position to shift transmission to second speed ratio. Placing the lever in its lower position shifts the transmission into low speed ratio. The center position is neutral. This lever must be in neutral position before the reverse-high clutch can be engaged. Low Drum-Catshaft Drive Shifter – The low drum drive and catshaft is engaged by placing this lever in its lower position, and disengaged by placing it in the upper position.

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Part Name

Parts Fit – 55 Drawwoks Location

Fit

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ZS-3933 624845 624805 624844-A YS-5250 ZS-4720 YS-4505 624821-A YS-7250 624832 624819 624820 624806 624803 624818 624824 ZS-5901 624988 624827-A 624790 623730 ZS-5501 ZS-5900 YS-6501 626779-A 623686-A 626233 624792 ZS-5110 624794 624759 620105 624954 624751 624772 624787-A 624795 624774

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Rotary Countershaft Assembly Bearing On Shaft Spacer On Shaft Sprocket On Shaft Spacer On Shaft Oil Seal In Housing Bearing On Shaft Oil Seal In Housing Drum Shaft Assembly Bearing Assy. On Shaft Oil Seal In Housing Retainer In Housing Inner Race On Shaft Outer Race In Sprocket Retainer In Sprocket Spacer On Shaft Retainer In Sprocket Spacer On Shaft Bearing On Shaft Spacer On Shaft Spacer On Shaft Coring Reel Shaft Assembly Sprocket On Shaft Spacer On Shaft Bearing On Shaft Bearing On Shaft Oil Seal In Housing Spacer On Shaft Spider On Shaft Spacer On Shaft Main Drive Shaft Assembly Spacer On Shaft Bearing On Shaft Spacer On Shaft Retainer On Shaft Inner Race On Shaft Retainer In Sprocket Clutch Hub On Shaft Sprocket On Shaft Sprocket On Shaft Spacer On Shaft Outer Race In Sprocket Jack Shaft Assembly

EPL-1439 03 78

.000” to .0018” Tight .003” Loose to .009” Loose .006” Tight to .005” Tight .001” Tight to .003” Tight .004” Tight to .008” Tight .0006” Tight to .0024” Tight .003” Tight to .006” Tight .001” Tight to .003” Tight .003” Tight to .011” Tight .003” Loose to .007” Loose .001” Tight to .003” Tight .001” Tight to .003” Tight .001” Tight to .003” Tight .001” Loose to .005” Loose .001” Tight to .003” Tight .000” to .003” Loose .001” Tight to .0028” Tight .0015” Tight to .0035” Tight .001” Loose to .005” Loose .002” Tight to .005” Tight .000” to .003” Loose .0012” Tight to .003” Tight .0015” Tight to .0033” Tight .003” Tight to .011” Tight .005” Loose to .008” Loose .002” Tight to .005” Tight .001” Loose to .006” Loose .002” Loose to .008” Loose .0009” Tight to .0027” Tight .001” Tight to .003” Tight .001” Tight to .003” Tight .001” Tight to .003” Tight .001” Tight to .003” Tight .003” Tight to .005” Tight .004” Tight to .006” Tight .004” Tight to .006” Tight .002” Loose to .008” Loose .001” Tight to .003” Tight

Document number Revision Page

624990-A 624766 YS-4752 ZT-4122 624767 624769 ZS-5110 624771 624772 624748 624773 624759 620105 624954 624776-A 624775 624774 624777 ZS-5500 624779 624780 620044 624782 625439 YS-4752 624093 625443 624090 624091 ZS-6695 625444 625440 ZS-4920

7.2

Spider On Shaft .001” Tight to .002” Tight Spacer On Shaft .002” Loose to .008” Loose Oil Seal In Housing .003” Tight to .009” Tight Bearing On Shaft .001” Tight to .003” Tight Spacer On Shaft .002” Loose to .008” Loose Spacer On Shaft .002” Loose to .008” Loose Bearing On Shaft .0009” Tight to .0027” Tight Spacer On Shaft .002” Loose to .008” Loose Sprocket On Shaft .004” Tight to .006” Tight Reverse Gear On Shaft .004” Tight to .006” Tight Thrust Ring On Shaft .004” Tight to .006” Tight Retainer In Sprocket .001” Tight to .003” Tight Inner Race On Shaft .001” Tight to .003” Tight Retainer In Sprocket .001” Tight to .003” Tight Hub On Shaft .001” Tight to .003” Tight Retainer In Sprocket .001” Tight to .003” Tight Outer Race In Sprocket .001” Tight to .003” Tight Spacer On Shaft .001” Tight to .003” Tight Bearing On Shaft .0012” Tight to .0030” Tight Spacer On Shaft .001” Tight to .003” Tight Retainer In Sprocket .001” Tight to .003” Tight Inner Race On Shaft .001” Tight to .003” Tight Clutch Hub On Shaft .001” Tight to .003” Tight Type “B-1” Make-Up & Break-Out Cathead Spacer On Shaft .001” Tight to .003” Tight Oil Seal In Sleeve .004” Tight to .006” Tight Spacer In Sleeve .001” Loose to .002” Tight Inner Race On Shaft .001” Tight to .003” Tight Spacer On Shaft .002” Loose to .005” Loose Spacer In Sleeve .001” Loose to .004” Loose Bearing In Drum .0004” Tight to .0016” Tight Spacer On Shaft .002” Loose to .005” Loose Spacer In Sleeve .001” Loose to .004” Loose Bearing On Shaft .0007” Tight to .0027” Tight

Specifications

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EPL-1439 03 79

Document number Revision Page

EPL-1439 03 80

The Type 55 Drawworks is rated for 700 combined engine horsepower. Within the designed capacity of the drawworks, the maximum loads that should be handled are shown in the table below: Low

2nd

High

6 lines

245

155

80

8 lines

320

205

105

10 lines

390

250

125

Transmission Total Load In Thousand Pounds

Nominal Drilling depth range Wireline size

6,000 to 9,000 ft. 1-1/8”

Chain 1-3/4” Double Chain (ASA-140-2) Transmission Low Speed Transmission Second Speed Transmission High Speed Rotary Countershaft Drive

58 Pitches 50 Pitches 50 Pitches 86 Pitches

1-3/4” Quadruple Chain (ASA-140-4) Drum Drive

84 Pitches

2” Single Chain (ASA-160) Catshaft Drive

82 Pitches

Weights (Estimated) Drawworks Main Frame Assembly (less optional equipment

31,500#

Coring Reel

2,800#

40” Hydromatic Brake with Cradle, and Type “C-2” Over-running Clutch

5,070#

www.nov.com

Document number Revision Page

EPL-1439 03 81

Drawworks Complete as Above

39,370#

Drillers Platform

122#

Dimensions Width, Main Section Width, Drillers Platform Length, Overall Height, with Core Reel Height, less Core Reel

7.3

Dimensional Specifications – 55 Drawworks Drum Shaft

www.nov.com

8’-0” 1’-4” 19’-0” 7’-11” 7’-5-11/16”

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Shaft Diameter at Drum Support Shaft Diameter at Center Section Shaft Diameter at Main Bearings Bearing Center Distance Low Drum Friction Clutch Jack Shaft Maximum Shaft Diameter Shaft Diameter at Bearings (Drillers End) (Rotary End) Bearing Center Distance Main Drive Shaft Maximum Shaft Diameter Shaft Diameter at Bearings Bearing Center Distance CAT Shaft Maximum Shaft Diameter Shaft Diameter at Bearings Bearing Center Distance Shaft Diameter at Coring Reel Bearings Coring Reel Bearing Center Distance Coring Reel Friction Clutch Rotary Drive Countershaft Maximum Shaft Diameter Shaft Diameter at Bearings (Drillers End) (Rotary End) Bearing Center Distance Rotary Drive Friction Clutch Hoisting Drum Spool Size Flange Diameter Hoisting Drum Brakes Brake Rims (Water Cooled) Lining (Each Band) 9 Pcs. Brake Band Effective Area (2 Bands) Coring Reel Drum Spool Size Flange Diameter Spooling Capacity (9/16” Wire Line) Spooling Capacity (5/8” Wire Line) Coring Reel Brakes Brake Rims Lining (Each Band) 8 Pcs. Brake Band Effective Area (2 Bands) www.nov.com

EPL-1439 03 82

15” 8” 5.9075” 70.500” 32” x 10” Dy-A-Flex 6.253” 5.514” 5.120” 70.500” 6.253”” 5.120” 70.3125” 6.375” 5.514” 75” 5.908” 45-13/64” 24” x 5-1/4” Dy-A-Flex 4.726” 3.938” 4.726” 15-7/32” 20-CB-500 Fawick 22” Dia. x 49” Long 43.250” 42” O.D. x 8-3/8” wide 1-1/8” x 8” x 11-1/2” 1585 Sq. In. 14” Dia. x 43” Long 40” 12,500 ft. 10,000 ft. 38” O.D. x 7-5/8” wide 3/4” x 7-1/2” x 11-1/2” 1384” Sq. In.

Document number Revision Page

7.4

EPL-1439 03 83

Type 55 Drawworks

Part No. 624815-A 622205 28960-X1A YS-7250 624819 624820 613427-A 624821-A ZS-5901 AN-6227-34 617552 AN-6227-23 ZS-2364 ZS-2751 ZS-2150 619501 621660-G 9112 AN-6227-12 622124 621622-A -609539-A 618766 627924-G 624898-3 YS-7619 AN-6227-77 ZT-7750 www.nov.com

Description Col. 1 Drum Shaft Assembly Brake Rim Water Pipe Assembly 2 Drum Shaft Water Connection Washer 4 Brake Rim Assembly Oil Seal Inner Race Outer Race Roller Bearing Assembly Ball Bearing Assembly Bearing Air & Water Connection Rotary & Drillers End “O” Ring 1 Water and Oil Seal 10 “O” Ring 3 Bearing Bearing Bearing 32” x 10” DY-A-Flex Clutch (Low) Diaphragm Friction Shoe Lining with (24) 621661 ) Keepers, Bolts, and Shakeproof Light ) Keps ) 1/2” Fawick Quick Release Valve 2 “O” Ring 2 Flat Spring Shoe Assembly 5/8” OD x .065” Wall x 4-11/16” Lg. ) 2 Steel Tubing (Spec. T-425) ) K-42 Brake Installation Brake Band Assembly Titeflex Hose 2 Friction Shoe Lining with (54) Lining ) Screws and Shakeproof Keps ) Type “C” Overrunning Clutch Shim Oil Seal “O” Ring Bearing

Col. 2 2 2 2 2 2 2 1 2

1 1 1 1 12 (1 set)

12 12

2 18 (1 set) 3 2 2 2

Document number Revision Page

641242 -AN-6227-48 222227 619819 624075 625450 627685 YS-4752 AN-6227-15 D-2 D-33 627687-A 625438 627688 -ZS-4920 ZS-6695 625441-A YS-6501 ZS-5501 ZS-5900 620960 620963 A-380-100 3/8” 625293 625290-G AN-6227-10 625387 -10785 625286 623805 www.nov.com

Water Level Control Unit

EPL-1439 03 84

Gasket 1/2” ID x 1-1/8” OD x 3/16” Thick ) Neoprene Washer ) “O” Ring Type 9, Bendix-Westinghouse Rotochamber “B-1” Make-Up and Break-Out Catheads Ring to Element Washer Diaphragm Anchor Spring Clutch Lining (Break-out) Oil Seal “O” Ring California Spring California Spring Clutch Friction Plate Assembly (Break-out) Bronze Bushing Clutch Lining (Make-up) 1/4-28NF x 3/4" F.H. Brass Cap Screws Bearing Bearing Roller Cage Assembly Core Reel Shaft Assembly Oil Seal Bearing Bearing Core Reel Brake Band Assembly Lining Keeper Lining Raybestos-Manhattan Bolt Shakeproof N.C. Light Kep 24” x 5-1/4” Dy-A-Flex Clutch Assembly Clutch Spring Friction Shoe Lining with (20) 625299 ) Keepers, 40 Bolts, and Shakeproof Keps ) “O” Ring Diaphragm 1/2” OD x .032” Wall x 2-1/16” Lg. ) Steel Tubing (Spec. T-425) ) 3/8” Fawick Quick Release Valve Shoe Rope Roller Bracket Assemblies Rope Rollers

1 1 1

2 1

1 2 2 2 4 6 6 1 1 4 24 1 1 2 1 2 2 32 16 64 64

1 1 1

10 10 1 (set) 1

10 3

Document number Revision Page

620116 ZS-1570

EPL-1439 03 85

46-S-8 605615

Rope Rollers – Long Bearing Jackshaft and Main Drive Shaft Assemblies Shifter Ring Assembly Oil Seal Fawick Clutch Element Jackshaft and Main Drive Shaft Roller Bearing Assembly Inner Race Bearing Outer Race Roller Bearing Assembly Inner Race Bearing Bearing Rotary Countershaft Assembly Oil Seal Oil Seal Bearing Bearing Water and Air System Piping Installation W.A.B. Co. 3/8” Quick Release Valve Fawick Rotorseal Fawick Rotorseal 1/2” Norgren Filter (30-AE-4) Lubrication System #3-S Right Hand Brown & Sharpe Oil Pump 3/4” Brown & Sharpe Relief Valve w/75# Spring 1” Pipe Size Pioneer Strainer Oil Pump Sprocket, (22-T, 5/8” P. Single)

48 P-51125-2

Foot Pedal Assembly California Spring, 3/4” OD x 2-1/2” Long W.A.B. Co. H-3 Air Valve w/100 psi Spring

1 1

620252 620447 P-51125-4 P-52935-4 P-54350-2 --

Control Column Installation Spring, Throttle Control Spring, Cathead Air Valve H-3 control air Valve, W.A.B. Co. 1/2" Quick Release Valve, W.A.B. Co. 1/4" Double Check Valve, W.A.B. Co. 2-1/2” 0-160# Marsh Gauge, Spec. T-1711

2 2 2 1 1 1

612744-A YS-4752 20-CB-500 619752-A 620105 ZS-5110 624774 619752-A 620044 ZS-5500 ZT-4122 YS-4505 YS-5250 ZS-3933 ZS-4720 P-52935-3 C-2 B-2 12-002-017 713-30-3 713-9001-23

www.nov.com

2 14 1 1 1 2 3 3 3 4 1 1 2 1 1 1 1 1 1 1

1 1 1 2 1

Document number Revision Page

P-59028 P-51125-2 ASA-50 ASA-140-2 ASA-140-2 ASA-140-4 ASA-160 ASA-50 ASA-140-2 ASA-140-4 ASA-160 223-10 223-6 434-10-10 442-6-6 48 49 48 49

www.nov.com

H-3 Control air Valve Repair Kit H-3 Control air Valve, W.A.B. Co. Chain 94 Pitches, 5/8” Pitch, Single 86 Pitches, 1-3/4” Pitch, Double 58 Pitches, 1-3/4” Pitch, Double 84 Pitches, 1-3/4” Pitch, Quadruple 82 Pitches, 2” Pitch, Single Connecting Link Connecting Link Connecting Link Connecting Link Bulk Hose and Fittings Stratoflex Hose 25’0” Long Stratoflex Hose 25’0” Long Stratoflex Swivel Stratoflex Swivel 5/8” OD to 1/2" N.P.T. Half Coupling 5/8” OD to 1/2" N.P.T. Elbow 3/8” OD to 1/4" N.P.T. Half Coupling 3/8” OD to 1/4" N.P.T. Elbow

EPL-1439 03 86

3

1 1 pc. 1 pc. 1 pc. 1 pc. 1 pc. 1 1 1 1 1 pc. 1 pc. 8 8 4 4 4 4

Document number Revision Page

8

80-B/UE DRAWWORKS

8.1

Controls – Operation – Mechanical Drawworks

EPL-1439 03 87

The following are the functions and operations of various controls located in the main control cabinet for the 80-B drawworks:

Master Clutch and Inertia Brake Control – Regulates flow of air to both master clutch and inertia brake. Move the lever away from the operator and into left leg of “U” shaped slot to engage the master clutch and away from operator and into right leg of “U” shaped slot to engage the inertia brake. Engine Throttle Control Levers – These engine throttle control levers for group 1, 2 and 3 engines remotely control actuators on the engines to accelerate or retard engine R.P.M. Push lever away from operator to accelerate engines. These controls are friction loaded and will remain in position to maintain desired operating speed. The throttle group selector valves are manifolded together and controlled by the engine throttle levers to establish various combinations of engine selections. Main Water Supply Pressure Gauge - Indicates pressure of main water supply to the drawworks. For detailed information regarding pressure and water flow rates, please refer to pages 38 and 39. Cascade Lubrication System Oil Pressure Gauge – Indicates discharge pressure of the cascade lubrication system pump. Working pressure varies with distributor valve setting and viscosity of the oil. The gauge should be used to indicate to the operator whether or not oil is being circulated through the cascade system. Main Air Supply Pressure Gauge – This indicates pressure of main air supply to the drawworks. Minimum pressure should be 110 psi.

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Document number Revision Page

EPL-1439 03 88

Drum Clutch – Indicates pressure of the air to either high or low drum clutch. Working pressure should be approximately 110 psi. Make-up, Breakout Cathead Controls – Regulates flow of air to catheads. Push lever away from operator to engage cathead friction clutch. This lever is spring loaded and will return to the OFF position when the hand is removed. The slot in which the lever travels is offset to permit application of less than full air pressure when required for certain operations. The knurled knob at the right of the slot is a safety lock for the lever. Use this lock to prevent accidental engagement of cathead and possible serious injuries to personnel. Rotary Drive Clutch – This lever engages the rotary clutch when moved away from the operator. Use the safety lock at the right side of the slot to prevent accidental engagement of rotary clutch. Low and High Drum Clutch Control – Regulates flow of air to both the low and high drum clutches. Move lever into the left leg of “U” shaped slot to engage the low drum clutch and into the right leg of the “U” to engage the high drum clutch. 8.2

Mechanical Controls Transmission selection is achieved by manually raising or lowering shifter handles located on the front of the main control cabinet. The center position of the lever slot is neutral. At least one of the levers must be in neutral before any transmission selection can be engaged. High-Reverse Transmission Shifter – Lift the lever into its upper position to shift transmission to high speed ratio. Placing the lever in its lower position shifts the transmission into reverse. The center position of the lever slot is neutral. This lever must be in the neutral position before the low-second clutch can be engaged. Low-Second Transmission Shifter – Lift the lever into its upper position to shift transmission to low speed ratio. Placing the lever in its lower position shifts the transmission into second speed ratio. The center position is neutral. This lever must be in neutral position before the high or reverse clutch can be engaged. Low Drum-Catshaft Drive Shifter – The low drum drive and catshaft is engaged by placing this lever in its lower position, and disengaged by placing it in the upper position.

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Document number Revision Page

8.3

EPL-1439 03 89

Specifications The Type 80-B Drawworks is rated for 1000 combined engine horsepower. Within the designed capacity of the drawworks, the maximum loads that should be handled are shown in the table below:

Drum Clutch Transmission Total Load in 6 lines Thousands 8 lines Pounds 10 lines

Low 340 445 540

nd

Low

2 300 390 475

Nominal Drilling dept range Wireline size

High 195 255 310

Low 115 150 180

High

nd

2 80 105 130

8,000 to 12,000 ft. 1-1/4”

Chain Specifications 2” Double Chain (ASA-160-2) Transmission Low Speed Transmission Second Speed Transmission High Speed Low Drum Drive High Drum Drive Rotary Countershaft Drive

54 Pitches 48 Pitches 48 Pitches 96 Pitches 78 Pitches 88 Pitches

2” Single Chain (ASA-160) Catshaft Drive

78 Pitches

Weights (Estimated) Drawworks Main Frame Assembly (less optional equipment)

39,278#

Core Reel

2,800#

46” Hydromatic Brake with Cradle, and Type “A” Over-running Clutch

6,335#

Drawworks Complete as Above

48,413#

www.nov.com

High 55 70 85

Document number Revision Page

Rotary Countershaft Unit

EPL-1439 03 90

5,000#

Dimensions Width, Main Section Width, Front Section Width, Overall Length, Overall Height, with Core Reel Height, less Core Reel

8.4

8’-0” 2’-11-5/8” 10’-11-5/8” 22’-6” 8’-5-1/2” 7’-5”

Dimensional Specifications – 80-B Drawworks Drum Shaft Shaft Diameter at Drum Support Shaft Diameter at Drum Support (Driller End) Shaft Diameter at Drum Support (Rotary End) Shaft Diameter at Center Section Shaft Diameter at Center Section Shaft Diameter at Main Bearings Bearing Center Distance High Drum Friction Clutch Low Drum Friction Clutch Jack Shaft Maximum Shaft Diameter Shaft Diameter at Bearings Bearing Center Distance Main Drive Shaft Maximum Shaft Diameter Shaft Diameter at Bearings Bearing Center Distance CAT Shaft Maximum Shaft Diameter Shaft Diameter at Bearings Bearing Center Distance Shaft Diameter at Coring Reel Bearings Coring Reel Bearing Center Distance Coring Reel Friction Clutch Rotary Drive Countershaft

www.nov.com

15” 9.133” (Serial 9.070” No. T-2518 9.095” and up) 8.250” 7.088” 75” 32” x 10” Dy-A-Flex 40” x 10” 7.003” 5.907” 75.1875” 7.003” 5.907” 75” 6.375” 5.514” 75” 5.908” 45-13/64” 24” x 5-1/4” Dy-A-Flex

Document number Revision Page

Maximum Shaft Diameter Shaft Diameter at Bearings (Clutch End) Shaft Diameter at Bearings (Sprocket End) Bearing Center Distance Rotary Drive Friction Clutch Hoisting Drum Spool Size Flange Diameter Hoisting Drum Brakes Brake Rims (Water Cooled) Lining (Each Band) 9 pcs. Brake Band Effective Area (2 Bands) Coring Reel Drum Spool Size Flange Diameter Spooling Capacity (9/16” Wire Line) Spooling Capacity (5/8” Wire Line) Coring Reel Brakes Brake Rims Lining (Each Band) 8 pcs. Brake Band Effective Area (2 Bands)

www.nov.com

EPL-1439 03 91

4.726” 3.938” 4.726” 23.750” 24” x 5-1/4” Dy-A-Flex 25” Dia. x 49” Long 47.250” 46” O.D. x 10-3/8” Wide 1-1/4” x 9-3/4” x 12-1/16” 2117 Sq. In. 14” Dia. x 43” Long 40” 12,500 ft. 10,000 ft. 38” O.D. x 7-5/8” Wide 3/4” x 7-1/2” x 11-1/2” 1384 Sq. In.

Document number Revision Page

8.5

EPL-1439 03 92

Controls-Operation-Electric Drawworks ( 80-Ue ) The following are the functions and operations of various controls located in the main control cabinet for the 80-UE drawworks:

Main Water Supply Pressure Gauge - Indicates pressure of main water supply to the drawworks. For detailed information regarding pressure and water flow rates, please refer to pages 38 and 39. Cascade Lubrication System Oil Pressure Gauge – Indicates discharge pressure of the cascade lubrication system pump. Working pressure varies with distributor valve setting and viscosity of the oil. The gauge should be used to indicate to the operator whether or not oil is being circulated through the cascade system. Main Air Supply Pressure Gauge – This indicates pressure of main air supply to the drawworks. Minimum pressure should be 110 psi. Drum Clutch – Indicates pressure of the air to either high or low drum clutch. Working pressure should be approximately 110 psi. Make-up, Breakout Cathead Controls – Regulates flow of air to catheads. Push lever away from operator to engage cathead friction clutch. This lever is spring loaded and will return to the OFF position when the hand is removed. The slot in which the lever travels is offset to permit application of less than full air pressure when required for certain operations. The knurled knob at the right of the slot is a safety lock for the lever. Use this lock to prevent accidental engagement of cathead and possible serious injuries to personnel. Low and High Drum Clutch Control – Regulates flow of air to both the low and high drum clutches. Move lever into the left leg of “U” shaped slot to engage the low drum clutch and into the right leg of the “U” to engage the high drum clutch.

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Document number Revision Page

EPL-1439 03 93

Rotary Drive Clutch – This lever engages the rotary clutch when moved away from the operator. Use the safety lock at the right side of the slot to prevent accidental engagement of rotary clutch. 8.6

Mechanical Controls Transmission selection is achieved by manually raising or lowering shifter handles located on the front of the main control cabinet. The center position of the lever slot is neutral. STOP MOTORS BEFORE ENGAGING CLUTCHES. High-Low Transmission Shifter – Lift the lever into its upper position to shift transmission to high speed ratio. Placing lever in its lower position shifts transmission into low speed ratio. The center position of the lever is neutral. STOP MOTORS BEFORE ENGAGING THE CLUTCH. Low Drum Drive-Catshaft Drive Cut-Off Clutch – The low drum drive and catshaft drive is engaged by placing lever in its lower position. STOP MOTORS BEFORE ENGAGING THIS CLUTCH.

8.7

Specifications The Type 80-UE Drawworks is rated for 1000 combined engine horsepower. Within the designed capacity of the drawworks, the maximum loads that should be handled are shown in the table below:

Drum Clutch Transmission Total Load in 6 lines Thousand 8 lines Pounds 10 lines

Low 320 415 500

Nominal drilling depth range Wireline Size

Low High 205 265 320

Low 100 130 160

High High 65 85 100 8,000 to 12,000 ft. 1-1/4”

Chain Specifications 2” Double Chain (ASA-160-2) Low Drum Drive High Drum Drive Rotary Countershaft Drive

www.nov.com

96 Pitches 76 Pitches 88 Pitches

Document number Revision Page

EPL-1439 03 94

1-1/2” Quadruple Chain (ASA-120-4) Transmission Low Speed Transmission High Speed

78 Pitches 66 Ptiches

2” Single Chain (ASA-160) Catshaft Drive

78 Pitches

Weights (Estimated) Drawworks Main Frame Assembly (less optional equipment)

39,850#

Coring Reel

2,800#

46” Hydromatic Brake with Cradle, and Type “A” Over-running Clutch

6,335#

Drawworks Complete as Above Rotary Countershaft Unit

48,985# 5,500#

Drawworks Dimensions Width, Main Section Width, Front Section Width, Overall

8.8

8’-9” 2’-11-5/8 11’-8-5/8”

Length, Overall Height, with Core Reel Height, less Core Reel

22’-11” 8’-5-1/2” 7’-5”

Dimensional Specifications – 80-UE Drawworks Drum Shaft Shaft Diameter at Drum Support Shaft Diameter at Drum Support (Drillers End) Shaft Diameter at Drum Support (Rotary End) Shaft Diameter at Center Section Shaft Diameter at Center Section Shaft Diameter at Main Bearings Bearing Center Distance High Drum Friction Clutch Low Drum Friction Clutch Jack Shaft Maximum Shaft Diameter

www.nov.com

15” 9.133” (Serial 9.070” No. T-2505 9.095” and up) 8.250” 7.088” 75” 32” x 10” Dy-A-Flex 40” x 10” Dy-A-Flex 7.003”

Document number Revision Page

Shaft Diameter at Bearings Bearing Center Distance Main Drive Shaft Maximum Shaft Diameter Shaft Diameter at Bearings Bearing Center Distance CAT Shaft Maximum Shaft Diameter Shaft Diameter at Bearings Bearing Center Distance Shaft Diameter at Coring Reel Bearings Coring Reel Bearing Center Distance Coring Reel Bearing Friction Clutch Rotary Drive Countershaft Maximum Shaft Diameter Shaft Diameter at Bearings (Clutch End) Shaft Diameter at Bearings (Sprocket End) Bearing Center Distance Rotary Drive Friction Clutch Hoisting Drum Spool Size Flange Diameter Hoisting Drum Brakes Brake Rims (Water Cooled) Lining (Each Band) 9 pcs. Brake Band Effective Area (2 Bands) Coring Reel Drum Spool Size Flange Diameter Spooling Capacity (9/16” Wire Line) Spooling Capacity (5/8” Wire Line) Coring Reel Brakes Brake Rims Lining (Each Band) 8 pcs. Brake Band Effective Area (2 Bands)

www.nov.com

EPL-1439 03 95

5.907” 75.1875” 7.003” 5.907” 75” 6.375” 5.514” 75” 5.905” 45-13/64” 24” x 5-1/4” Dy-A-Flex 4.726” 3.938” 4.726” 23.750” 24” x 5-1/4” Dy-A-Flex 25” Dia. x 49” Long 47.250” 46” O.D. x 10-3/8” Wide 1-1/4” x 9-3/4” x 12-1/16” 2117 Sq. In. 14” Dia. x 43” Long 40” 12,500 ft. 10,000 ft. 38” O.D. x 7-5/8” Wide 3/4" x 7-1/2” x 11-1/2” 1384 Sq. In.

Document number Revision Page

8.9

EPL-1439 03 96

Parts Fit – 80-B, 80-UE Drawworks

Part No. YS-4505 ZS-4720 YS-5250 ZS-3933 YS-4503 623078 626245-A 626350-A 626348 622924 622926 622923 622925-X 623765 YS-3753 YS-7620 626352-A 626355 621484 618368 618369 624649 623708 YS-8500 626145 ZS-7080 626359 ZS-5501 623686-A 623731-A YS-6501 ZS-5900 626139 623730 623732

www.nov.com

Part Name

Location Rotary Countershaft Assembly Oil Seal In Housing Bearing On Shaft Oil Seal In Housing Bearing On Shaft Oil Seal In Housing Spacer On Shaft Hub On Shaft Bearing Assy. On Shaft Retainer In Sprocket Outer Race In Sprocket Spacer In Sprocket Inner Race On Shaft Spacer On Shaft Spacer On Shaft Oil Seal In Housing Drum Shaft Assembly Oil Seal In Housing Bearing Assy. On Shaft Retainer In Sprocket Outer Race In Sprocket Inner Race On Shaft Spacer On Shaft Spacer On Shaft Spacer On Shaft Oil Seal In Housing Spacer On Shaft Bearing On Shaft Spacer On Shaft Coring Reel Shaft Assembly Bearing On Shaft Spider On Shaft Spacer On Shaft Oil Seal In Housing Bearing On Shaft Sprocket On Shaft Spacer On Shaft Spacer On Shaft 80-B Main Drive Shaft Assembly

Fit .003” Tight to .006” Tight .0006” Tight to .0024” Tight .004” Tight to .008” Tight .0005” Tight to .0023” Tight .003” Tight to .007” Tight .002” Loose to .004” Loose .002” Tight to .004” Tight .002” Loose to .004” Loose .001” Loose to .007” Loose .001” Tight to .003” Tight .002” Loose to .006” Loose .001” Tight to .003” Tight .002” Loose to .006” Loose .001” Tight to .003” Tight .004” Tight to .006” Tight .004” Tight to .012 Tight .003” Loose to .006” Loose .001” Loose to .008” Loose .001” Tight to .004” Tight .002” Tight to .003” Tight .004” Loose to .008” Loose .003” Loose to .007” Loose .003” Loose to .007” Loose .004” Tight to .012 Tight .0015” Tight to .0035 Tight .0009” Tight to .0029” Tight .003” Loose to .006” Loose .0012” Tight to .0032” Tight .002” Tight to .005” Tight .000” to .003” Loose .003” Tight to .009” Tight .0015” Tight to .0033” Tight .002” Tight to .005” Tight .000” to .003” Loose .000” to .003” Loose

Document number Revision Page

ZS-5901 626089 626095 626079 626077 623745 623801 644138 623777 650124 ZS-5901 647413 650120-A 646217-1 650122 644138 626072 623776 ZS-5901 626088 626081 626068 626076 623777 623745 626073 626070 626074-A 626069 623801 623782 623778 623783 623785 650109 623776 ZS-5901 647408 650111 626215 www.nov.com

Bearing Spacer Sprocket Sprocket Hub Inner Race Spacer Spacer Retainer

On Shaft On Shaft On Shaft On Shaft On Shaft On Shaft On Shaft On Shaft In Housing 80-UE Main Drive Shaft Assembly Spacer On Shaft Bearing On Shaft Spacer On Shaft Sprocket On Shaft Sprocket On Shaft Spacer On Shaft Spacer On Shaft 80-B Jack Shaft Assembly Sprocket On Shaft Spacer On Shaft Bearing On Shaft Spacer On Shaft Sprocket On Shaft Reverse Gear On Shaft Thrust Ring On Shaft Retainer In Sprocket Inner Race On Shaft Retainer In Sprocket Retainer In Sprocket Hub On Shaft Retainer In Sprocket Spacer On Shaft Spacer On Shaft Retainer In Sprocket Inner Race On Shaft Hub On Shaft 80-UE Jack Shaft Assembly Sprocket On Shaft Spacer On Shaft Bearing On Shaft Spacer On Shaft Thrust Ring On Shaft Retainer In Sprocket

EPL-1439 03 97

.0005” Tight to .0023” Tight .002” Loose to .006” Loose .006” Tight to .008” Tight .005” Tight to .007” Tight .006” Tight to .008” Tight .001” Tight to .003” Tight .001” Tight to .003” Tight .002” Loose to .006” Loose .001” Tight to .003” Tight .002” Tight to .004” Tight .0005” Tight to .0023” Tight .002” Loose to .006” Loose .005” Tight to .007” Tight .006” Tight to .008” Tight .002” Loose to .006” Loose .002” Loose to .006” Loose .001” Tight to .003” Tight .003” Loose to .009” Loose .0005” Tight to .0023” Tight .001” Loose to .007” Loose .006” Tight to .008” Tight .005” Tight to .008” Tight .002” Tight to .004” Tight .001” Tight to .003” Tight .001” Tight to .003” Tight .001” Tight to .003” Tight .001” Tight to .003” Tight .001” Tight to .003” Tight .001” Tight to .003” Tight .001” Tight to .003” Tight .001” Tight to .003” Tight .001” Tight to .003” Tight .003” Tight to .005” Tight .002” Tight to .004” Tight .001” Tight to .003” Tight .003” Loose to .009” Loose 0005” Tight to .0023” Tight .001” Loose to .007” Loose .004” Tight to .006” Tight .001” Tight to .003” Tight

Document number Revision Page

650112 646220 650113-A 650127 623782 623778 623783 623785 625439 YS-4752 624093 625443 624090 624091 ZS-6695 625444 625440 ZS-4920

EPL-1439 03 98

Inner Race On Shaft .001” Tight to .003” Tight Retainer In Sprocket .001” Tight to .004” Tight Hub On Shaft .001” Tight to .003” Tight Spacer On Shaft .001” Tight to .003” Tight Spacer On Shaft .001” Tight to .003” Tight Retainer In Sprocket .001” Tight to .003” Tight Inner Race On Shaft .003” Tight to .005” Tight Hub On Shaft .002” Tight to .004” Tight Type “B-1” Make-up and Break-Out Cathead Spacer On Shaft .001” Tight to .003” Tight Oil Seal In Sleeve .004” Tight to .006” Tight Spacer In Sleeve .001” Loose to .002” Tight Inner Race On Shaft .001” Tight to .003” Tight Spacer On Shaft .002” Loose to .005” Loose Spacer In Sleeve .001” Loose to .004” Loose Bearing In Drum .0004” Tight to .0016” Tight Spacer On Shaft .002” Loose to .005” Loose Spacer In Sleeve .001” Loose to .004” Loose Bearing On Shaft .0007” Tight to .0027” Tight

Type 80-B/UE Drawworks Part No.

Col. Drum Shaft Assembly 28652-XA Brake Rim Assembly 610238 Outlet Connection Packer 1 YS7620 Oil Seal YS-8500 Oil Seal 617107-A Roller Bearing Assembly 618368 Inner Race 621484 Outer Race 626352-A Ball Bearing Assembly ZS-7080 Bearing *622949 Brake Rim Pipe Packing 4 *622950 Elbow Gasket 2 *624630 Brake Rim Water Pipe 2 **650086-A Hose Assembly **650087-A Hose Assembly **SF-1002-16-16 Stratoflex Bulkhead Adapter 90° Degree Elbow **SF-1284-16 Stratoflex Bulkhead Nut *Used on Drawworks up to and including S/N T-2487 **Used on Drawworks S/N T-2505 and up Air and Water Connection Rotary and Drillers End www.nov.com

Description

Col. 2 2 2 2 2 2 2 1 2 4 2 2 1 4 2 2

Document number Revision Page

617552 AN-6227-36 618351 618350 610617 618412 618364-1 YS-2620 ZS-2364 ZS-2751 ZT-2810 619501 621660-G 9112 AN-6227-12 622124 621622-A -622835 622836-G 9112 AN-6227-12 622837 622124 -39364-A 618766 627925-G 624660-3 YS-10003 AN-6227-82 625092 625226 ZT-10370 www.nov.com

Water and Oil Seal “O” Ring Packing Nut Flange Elbow Washer Housing Clamp Ring Connecting Nipple Sleeve Connecting Nipple Oil Seal Bearing Bearing Bearing 32” X 10” DY-A-Flex Clutch (High) Diaphragm Friction Shoe Lining with (24) 621661 ) Keepers, Bolts, & Shakeproof Light Keps ) 1/2" Fawick Quick Release Valve “O” Ring Flat Spring Shoe Assembly 5/8” OD x .065” Wall x 4-11/16” Lg. ) Steel Tubing (Spec. T-425) ) 40” x 10” DY-A-Flex Clutch (Low) Diaphragm Friction Shoe Lining with (28) 621661 ) Keepers, Bolts, & Shakeproof Light Keps ) 1/2" Fawick Quick Release Valve “O” Ring Shoe Flat Spring 5/8” OD x .065” Wall x 4-11/16” Lg. ) Steel Tubing (Spec. T-425) ) K-46 Brake Installation Brake Band Assembly Titeflex Hose Friction Shoe Lining with (54) Lining ) Screws and Shakeproof Keps ) Type “A” Overrunning Clutch Shim (.005”) Oil Seal “O” Ring Spring Roller Shoe Bearing

EPL-1439 03 99

10 1 2 1 2 2 1 1 1 1 2

2 2 2

2 2 2

2

1 12 (1 set) 12 12

1 14 (1 set) 14 14

2 18 (1set) 3 2 2 20 20 2

Document number Revision Page

641242 -AN-6227-48 222227 619819 624075 625450 627685 YS-4752 AN-6227-15 D-2 D-33 627687-A 627688 -ZS-4920 ZS-6695 625438 625441-A YS-6501 ZS-5501 ZS-5901 620960 620963 A-380-100 3/8” 625293 625290-G AN-6227-10 625387 -10785 625286 620116 www.nov.com

Water Level Control Unit

Gasket 1/2” ID x 1-1/8” OD x 3/16” Thick ) Neoprene Washer “O” Ring Type 9, Bendix-Westinghouse Rotochamber “B-1” Make-up and Break-Out Catheads Ring to Element Washer Diaphragm Anchor Spring Clutch Lining (Break-out) Oil Seal “O” Ring California Spring California Spring Clutch Friction Plate Assembly (Break-out) Clutch Lining (Make-up) 1/4”-28NF x 3/4" F.H. Brass Cap Screw Bearing Bearing Bronze Bushing Roller Cage Assembly Coring Reel Shaft Assembly Oil Seal Bearing Bearing Coring Reel Brake Band Assembly Lining Keeper Lining Raybestos-Manhattan Bolt Shakeproof N.C. Light Kep 24” x 5-1/4” DY-A- Flex Clutch Assembly Clutch Spring Friction Shoe Lining with (20) 625299 ) Keepers, Bolts, & Shakeproof Light Keps ) “O” Ring Diaphragm 1/2” OD x .032” Wall x 2-1/16” Lg. ) Steel Tubing (Spec. T-425) ) 3/8” Fawick Quick Release Valve Shoe Rope Rollers Bracket Assemblies Rope Rollers – Long

EPL-1439 03 100

1 1 1

2 1

1 2 2 2 4 6 6 1 4 24 1 1 1 2 1 2 2 32 16 64 64

1 1 1

10 10 (1 set) 1

10 1

Document number Revision Page

623805 ZS-1570 626769 614060-A 619320-A 612819-A ZS-5091 623783 617107-A 623745 626067 626216 650112 YS-4505 YS-5250 YS-4503 YS-3753 621313-A 622923 622924 626350-A ZS-3933 ZS-4730 P-52935-4 P-52935-3 P-52935-2 B-2 C-2 12-002-017

713-30-2 46-S-8 605615 1800283 713-9001-23 49 www.nov.com

Rope Rollers Bearing Rope Roller - Long Jackshaft and Main Drive Shaft Assemblies Clutch Shifter Ring Assembly Clutch Shifter Ring Assembly (80-UE Only) Roller Cage Assembly Bearing Inner Race Roller Cage Assembly Inner Race Outer Race Outer Race Inner Race Rotary Countershaft Assembly Oil Seal Oil Seal Oil Seal Oil Seal Roller Bearing Assembly Inner Race Outer Race Ball Bearing Assembly Bearing Bearing Water and Air System Piping WABCO 1/2” Quick Release Valve WABCO 3/8” Quick Release Valve WABCO 1/4" Quick Release Valve Fawick Rotor Seal Fawick Rotor Seal 1/2” Norgren Air Filter (30-AE-4) Lubrication System #3-S Right Hand Brown and Sharpe Oil Pump 1” Pipe Size Pioneer Strainer Oil Pump Sprocket (22-T 5/8” P) (80-B Only) Oil Pump Sprocket (48-T 5/8” P) (80-UE Only) 3/4" Brown and Sharpe Relief Valve w/75# Spring Foot Pedal Assembly California Spring, 7/8” OD x 2-1/2” Long

EPL-1439 03 101

3 8 1 1 1 2 2 1 2 1 1 1 1 1 2 1 1

1 1 1 1 1

2 2 2 1 1 1

1

1 2 1 1 1 1

Document number Revision Page

P-51125-2 620252 625447 P-51125-2 P-51125-4 P-52935-3 P-54350-2 023-725 023-718 P-59028 618736 AN-6227-77 ASA-50 ASA-50 ASA-120-4 ASA-160-2 ASA-160-2 ASA-60 ASA-50 ASA-120-4 ASA-160-2 ASA-60 223-10 223-6 434-10-10 442-6-6 48 49 48 49 9

EPL-1439 03 102

WABCO H-3 Air Valve w/100 psi Spring Control Column Installation Spring, Throttle Control (80-B Only) Spring, Cathead Air Valve H-3 Control air Valve, WABCO (80-B Only) H-3 Control air Valve, WABCO 3/8” Quick Release Valve, WABCO 1/4" Double Check Valve, WABCO 2-1/2” 0-200# Marsh Rigmaster Gauge 2-1/2” 0-100# Marsh Rigmaster Gauge H-3 Control air Valve Repair Kit 3 EMD OR GE-752 Motor Drive Installation (80-UE Only) Coupling Gasket “O” Ring Chain 118 Pitches, 5/8” Pitch, Single (80-B Only) 120 Pitches, 5/8” Pitch, Single (80-UE Only) 78 Pitches, 1-1/2” Pitch, Quadruple (80-UE Only) 96 Pitches, 2” Pitch, Double 88 Pitches, 2” Pitch, Double 78 Pitches, 2” Pitch, Single Connecting Link Connecting Link Connecting Link Connecting Link Bulk Hose and Fittings Stratoflex Hose 25’0” Long Stratoflex Hose 25’0” Long Stratoflex Swivel Stratoflex Swivel 5/8” OD to 1/2” N.P.T. Half Coupling 5/8” OD to 1/2" N.P.T. Elbow 3/8” OD to 1/4" N.P.T. Half Coupling 3/8” OD to 1/4" N.P.T. Elbow

1 2 2 1 2 1 1 1 1 2 2 1 pc. 1 pc. 1 pc. 1 pc. 1 pc. 1 pc. 1 1 1 1 1 pc. 1 pc. 8 8 4 4 4 4

110-M/UE DRAWWORKS

9.1

Controls – Operations – Mechanical Drawworks The following are the functions and operations of various controls located in the main control cabinet for the 110-M drawworks:

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Document number Revision Page

EPL-1439 03 103

Master Clutch and Inertia Brake Control – Regulates the flow of air to both master clutch and inertia brake. Move lever away from operator and into left leg of “U” shaped slot to engage the master clutch and away from operator and into right leg of “U” shaped slot to engage the inertia brake. Engine Throttle Control Levers – These engine throttle control levers for group 1, 2 and 3 engines remotely control actuators on the engines to accelerate or retard engine R.P.M. Push lever away from operator to accelerate engines. These controls are friction loaded and will remain in position to maintain desired operating speed. The throttle group selector valves are manifolded together and controlled by the engine throttle levers to establish various combinations of engine selections. Main Water Supply Pressure Gauge - Indicates pressure of main water supply to the drawworks. For detailed information regarding pressure and water flow rates, please refer to pages 38 and 39. Cascade Lubrication System Oil Pressure Gauge – Indicates discharge pressure of the cascade lubrication system pump. Working pressure varies with distributor valve setting and viscosity of the oil. The gauge should be used to indicate to the operator whether or not oil is being circulated through the cascade system. Main Air Supply Pressure Gauge – This indicates pressure of main air supply to the drawworks. Minimum pressure should be 110 psi. www.nov.com

Document number Revision Page

EPL-1439 03 104

Drum Clutch – Indicates pressure of the air to either high or low drum clutch. Working pressure should be approximately 110 psi. Make-up, Breakout Cathead Controls – Regulates flow of air to catheads. Push lever away from operator to engage cathead friction clutch. This lever is spring loaded and will return to the OFF position when the hand is removed. The slot in which the lever travels is offset to permit application of less than full air pressure when required for certain operations. The knurled knob at the right of the slot is a safety lock for the lever. Use this lock to prevent accidental engagement of cathead and possible serious injuries to personnel. Rotary Drive Clutch – This lever engages the rotary clutch when moved away from the operator. Use the safety lock at the right side of the slot to prevent accidental engagement of rotary clutch. Low and High Drum Clutch Control – Regulates flow of air to both the low and high drum clutches. Move lever into the left leg of “U” shaped slot to engage the low drum clutch and into the right leg of the “U” to engage the high drum clutch. 9.2

Mechanical Controls Transmission selection is achieved by manually raising or lowering shifter handles located on the front of the main control cabinet. The center position of the lever slot is neutral. At least one of the levers must be in neutral before any transmission selection can be engaged. High-Reverse Transmission Shifter – Lift the lever into its upper position to shift transmission to high speed ratio. Placing the lever in its lower position shifts the transmission into reverse. The center position of the lever slot is neutral. This lever must be in the neutral position before the low-second clutch can be engaged. Low-Second Transmission Shifter – Lift the lever into its upper position to shift transmission to low speed ratio. Placing the lever in its lower position shifts the transmission into second speed ratio. The center position is neutral. This lever must be in neutral position before the high or reverse clutch can be engaged. Low Drum-Catshaft Drive Shifter – The low drum drive and catshaft is engaged by placing this lever in its lower position, and disengaged by placing it in the upper position.

9.3

Specifications

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EPL-1439 03 105

The Type 110-M Drawworks is rated for 1500 combined engine horsepower. Within the designed capacity of the drawworks, the maximum loads that should be handled are shown in the table below: Drum Clutch Transmission Total Load in 8 lines Thousand Pounds 10 lines 12 lines

Low 550 670 780

Low 2nd 450 545 640

High 320 390 455

Low 220 270 315

High 2nd 125 150 175

High 85 105 125

Nominal drilling depth range

11,000 to 16,000 ft.

Wireline size

1-1/4” to 1-3/8”

Chain Specificaions 2” Double Chain (ASA-160-3) Transmission Low Speed Transmission Second Speed Transmission High Speed Low Drum Drive High Drum Drive

54 Pitches 48 Pitches 48 Pitches 96 Pitches 82 Pitches

2” Double Chain (ASA-160-2) Rotary Countershaft Drive 2” Single Chain (ASA-160)

90 Pitches

Catshaft Drive

80 Pitches

Weights (Estimated) Drawworks Main Frame Assembly (less optional equipment)

46,150#

Core Reel

3,300#

60” Hydromatic Brake with Cradle and Type “A” Over-running Clutch

11,727#

Drawworks Complete as Above

61,177#

Rotary Drive Countershaft Unit

6,000#

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Document number Revision Page

EPL-1439 03 106

Drawworks Dimensions Width, Main Section Width, Front Section Width, Overall Length, Overall Height, with Core Reel Height, less Core Reel

8’0” 3’2” 11’2” 23’8” 8’-11-3/16” 8’-3/4”

Dimensional Specifications 110-M and 110-UE Drawworks Drum Shaft Shaft Diameter at Drum Support Shaft Diameter at Center Section Shaft Diameter at Main Bearings Bearing Center Distance High Drum Friction Clutch Low Drum Friction Clutch Jack Shaft Maximum Shaft Diameter Shaft Diameter at Bearings Bearing Center Distance Main Drive Shaft Maximum Shaft Diameter Shaft Diameter at Bearings Bearing Center Distance CAT Shaft Maximum Shaft Diameter Shaft Diameter at Bearings Bearing Center Distance Shaft Diameter at Coring Reel Bearings Coring Reel Bearing Center Distance Coring Reel Friction Clutch Rotary Drive Countershaft Maximum Shaft Diameter Shaft Diameter at Bearings (Clutch End) Shaft Diameter at Bearings (Sprocket End) Bearing Center Distance Rotary Drive Friction Clutch Rotary Drive Friction Clutch (optional) Hoisting Drum www.nov.com

15.497” 8.750” 7.876” 75” 40” x 10” Dy-A-Flex 46” x 10” Dy-A-Flex 7.503” 6.301” 75” 7.503” 6.301” 75” 6.375” 5.514” 76” 5.908” 51-13/64” 24” x 5-1/4” Dy-A-Flex 4.726” 3.938” 4.726” 23.750” 24” x 5-1/4” Dy-A-Flex 28” x 5-1/4” Dy-A-Flex

Document number Revision Page

Spool Size Flange Diameter Hoisting Drum Brakes Brake Rims (Water Cooled) Lining (Each Band) 10pcs. Brake Band Effective Area (2 Bands) Coring Reel Drum Spool Size Flange Diameter Spooling Capacity (1/2” Wire Line) Spooling Capacity (9/16” Wire Line) Spooling Capacity (5/8” Wire Line) Coring Reel Brakes Brake Rims Lining (Each Band) 8 pcs. Brake Band Effective Area (2 Bands)

www.nov.com

EPL-1439 03 107

27” Dia. x 49” Long 51.250” 50” O.D. x 10-3/8” Wide 1-1/4” x 9-3/4” x 11-7/8” 2315 Sq. In. 14” Dia. x 49” Long 42.500” 20,000 ft. 16,000 ft. 13,000 ft. 38” O.D. x 7-5/8” Wide 3/4" x 7-1/2” x 11-1/2” 1384 Sq. In.

Document number Revision Page

9.4

EPL-1439 03 108

Controls – Operation – Electric Drawworks (110-Ue) The following are the functions and operations of various controls located in the main control cabinet for the 110-UE drawworks:

Main Water Supply Pressure Gauge - Indicates pressure of main water supply to the drawworks. For detailed information regarding pressure and water flow rates, please refer to pages 38 and 39. Cascade Lubrication System Oil Pressure Gauge – Indicates discharge pressure of the cascade lubrication system pump. Working pressure varies with distributor valve setting and viscosity of the oil. The gauge should be used to indicate to the operator whether or not oil is being circulated through the cascade system. Main Air Supply Pressure Gauge – This indicates pressure of main air supply to the drawworks. Minimum pressure should be 110 psi.

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Document number Revision Page

EPL-1439 03 109

Drum Clutch – Indicates pressure of the air to either high or low drum clutch. Working pressure should be approximately 110 psi. Make-up, Breakout Cathead Controls – Regulates flow of air to catheads. Push lever away from operator to engage cathead friction clutch. This lever is spring loaded and will return to the OFF position when the hand is removed. The slot in which the lever travels is offset to permit application of less than full air pressure when required for certain operations. The knurled knob at the right of the slot is a safety lock for the lever. Use this lock to prevent accidental engagement of cathead and possible serious injuries to personnel. Low and High Drum Clutch Control – Regulates flow of air to both the low and high drum clutches. Move lever into the left leg of “U” shaped slot to engage the low drum clutch and into the right leg of the “U” to engage the high drum clutch. Rotary Drive Clutch – This lever engages the rotary clutch when moved away from the operator. Use the safety lock at the right side of the slot to prevent accidental engagement of rotary clutch. 9.5

Mechanical Controls Transmission selection is achieved by manually raising or lowering shifter handles located on the front of the main control cabinet. The center position of the lever slot is neutral. STOP MOTORS BEFORE ENGAGING CLUTCHES. High-Low Transmission Shifter – Lift the lever into its upper position to shift transmission to high speed ratio. Placing lever in its lower position shifts transmission into low speed ratio. The center position of the lever is neutral. STOP MOTORS BEFORE ENGAGING THE CLUTCH. Low Drum Drive-Catshaft Drive Cut-Off Clutch – The low drum drive and catshaft drive is engaged by placing lever in its lower position. STOP MOTORS BEFORE ENGAGING THIS CLUTCH.

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Document number Revision Page

9.6

EPL-1439 03 110

Specifications The Type 110-UE Drawworks is rated for 1500 combined engine horsepower. Within the designed capacity of the drawworks, the maximum loads that should be handled are shown in the table below:

Drum Clutch Transmission Total Load in 8 lines Thousand 10 lines Pounds 12 lines

Low Low 500 605 710

High 320 390 455

High Low 180 215 250

High 115 140 160

Nominal drilling depth range

11,000 to 16,000 ft.

Wireline Size

1-1/4” to 1-3/8”

Chain Specificaions 2” Double Chain (ASA-160-3) Low Drum Drive High Drum Drive

96 Pitches 78 Pitches

1-1/2” Quadruple Chain (ASA-120-4) Transmission Low Speed Transmission High Speed

78 Pitches 66 Pitches

2” Double Chain (ASA-160-2) Rotary Countershaft Drive

90 Pitches

2” Single Chain (ASA-160) Catshaft Drive

80 Pitches

Weights (Estimated) Drawworks Main Frame Assembly (less optional equipment)

45,765#

Core Reel

3,300#

www.nov.com

Document number Revision Page

EPL-1439 03 111

60” Hydromatic Brake with Cradle and Type “A” Over-running Clutch

11,727#

Drawworks Complete as Above

60,792#

Rotary Drive Countershaft Unit

6,000#

Drawworks Dimensions Width, Main Section Width, Front Section Width, Overall Length, Overall Height, with Core Reel Height, less Core Reel 9.7

8’-9-1/2” 3’2” 11’-11-1/2” 23’8” 8’-11-3/16” 8’-3/4”

Parts Fit – 110-M, 110-UE Drawworks

Part No. YS-4505 ZS-4720 YS-5250 ZS-3933 YS-4503 623078 626245-A 626350-A 626348 622924 622926 622923 622925-X 623765 YS-3753 626360-A 626364 618947 612372 ZS-7871 YS-8500

www.nov.com

Part Name

Location Rotary Countershaft Assembly Oil Seal In Housing Bearing On Shaft Oil Seal In Housing Bearing On Shaft Oil Seal In Housing Spacer On Shaft Clutch Hub On Shaft Bearing Assy. On Shaft Retainer In Sprocket Outer Race In Sprocket Spacer In Sprocket Inner Race On Shaft Spacer On Shaft Spacer On Shaft Oil Seal In Housing Drum Shaft Assembly Bearing Assy. On Shaft Retainer In Sprocket Outer Race In Sprocket Inner Race On Shaft Bearing On Shaft Oil Seal In Housing

Fit .003” Tight to .006” Tight .0006” Tight to .0024” Tight .004” Tight to .008” Tight .0005” Tight to .0023” Tight .003” Tight to .007” Tight .002” Loose to .004” Loose .002” Tight to .004” Tight .002” Loose to .004” Loose .001” Loose to .007” Loose .001” Tight to .003” Tight .002” Tight to .006” Tight .001” Tight to .003” Tight .002” Loose to .006” Loose .001” Tight to .003” Tight .004” Tight to .006” Tight .003” .005” .002” .002” .001” .006”

Loose to .005” Loose Loose to .012” Loose Tight to .005” Tight Tight to .004” Tight Tight to .0032” Tight Tight to .010” Tight

Document number Revision Page

626237 626239 YS-9000 ZS-5501 623686-A 623731-A YS-6501 ZS-5900 626139 645140 626230 626231 626232 ZS-6291 626206 626204 626205 626193 626208 626211 626209 644403 646224-A ZS-6291 626206 646217 646221-A 646223-A 626199 ZS-6291 626221 626215 626211 626209 626210 623778 623783 626195 626186 www.nov.com

Spacer Spacer Oil Seal

EPL-1439 03 112

On Shaft .002” Loose to .008” Loose On Shaft .001” Tight to .003” Tight In Housing .006” Tight to .010” Tight Coring Reel Shaft Assembly Bearing On Shaft .0012” Tight to .0032” Tight Spider On Shaft .002” Tight to .005” Tight Spacer On Shaft .000” to .003” Loose Oil Seal In Housing .005” Tight to .009” Tight Bearing On Shaft .0015” Tight to .0035” Tight Sprocket On Shaft .002” Tight to .005” Tight Spacer On Shaft .001” Loose to .006” Loose Spacer On Shaft .001” Loose to .006” Loose Spacer On Shaft .001” Loose to .006” Loose Spacer On Shaft .001” Loose to .006” Loose 110-M Main Drive Shaft Assembly Bearing On Shaft .0008” Tight to .0028” Tight Spacer On Shaft .002” Loose to .008” Loose Sprocket On Shaft .006” Tight to .008” Tight Sprocket On Shaft .004” Tight to .006” Tight Hub On Shaft .004” Tight to .006” Tight Retainer In Sprocket .001” Tight to .003” Tight Inner Race On Shaft .001” Tight to .003” Tight Spacer On Shaft .001” Tight to .003” Tight Spacer On Shaft .002” Loose to .006” Loose 110-UE Main Drive Shaft Assembly Spacer On Shaft .002” Loose to .006” Loose Bearing On Shaft .0008” Tight to .0028” Tight Spacer On Shaft .002” Loose to .008” Loose Sprocket On Shaft .006” Tight to .008” Tight Sprocket On Shaft .006” Tight to .008” Tight Spacer On Shaft .001” Tight to .003” Tight 110-M Jack Shaft Assembly Spacer On Shaft .002” Loose to .006” Loose Bearing On Shaft .0008” Tight to .0028” Tight Thrust Ring On Shaft .004” Tight to .006” Tight Retainer In Sprocket .001” Tight to .004” Tight Inner Race On Shaft .001” Tight to .003” Tight Spacer On Shaft .001” Tight to .003” Tight Spacer On Shaft .001” Tight to .003” Tight Retainer In Sprocket .001” Tight to .003” Tight Inner Race On Shaft .003” Tight to .005” Tight Hub On Shaft .002” Tight to .004” Tight Sprocket On Shaft .001” Tight to .004” Tight

Document number Revision Page

626198 626200 626068 626208 626214 626190-A 626199 ZS-6291 626221 626215 626211 626209 626210 623778 623783 626195 646215 646220 646219-A 641388 625439 YS-4752 624093 625443 624090 624091 ZS-6695 625444 625440 ZS-4920

www.nov.com

Spacer Sprocket Reverse Gear Retainer Retainer Clutch Hub

EPL-1439 03 113

On Shaft .002” Loose to .006” Loose On Shaft .007” Tight to .009” Tight On Shaft .005” Tight to .008” Tight In Sprocket .001” Tight to .003” Tight In Sprocket .001” Tight to .003” Tight On Shaft .001” Tight to .003” Tight 110-UE Jack Shaft Assembly Spacer On Shaft .002” Loose to .006” Loose Bearing On Shaft .0008” Tight to .0028” Tight Thrust Ring On Shaft .004” Tight to .006” Tight Retainer In Sprocket .001” Tight to .004” Tight Inner Race On Shaft .001” Tight to .003” Tight Spacer On Shaft .001” Tight to .003” Tight Spacer On Shaft .001” Tight to .003” Tight Retainer In Sprocket .001” Tight to .003” Tight Inner Race On Shaft .003” Tight to .005” Tight Hub On Shaft .002” Tight to .004” Tight Sprocket On Shaft .001” Tight to .004” Tight Retainer In Sprocket .001” Tight to .004” Tight Hub On Shaft .001” Tight to .003” Tight Spacer On Shaft .001” Loose to .004” Loose Type “B-1” Make-Up and Break-Out Cathead Spacer On Shaft .001” Tight to .003” Tight Oil Seal In Sleeve .004” Tight to .006” Tight Spacer In Sleeve .001” Loose to .002” Tight Inner Race On Shaft .001” Tight to .003” Tight Spacer On Shaft .002” Loose to .005” Loose Spacer In Sleeve .001” Loose to .004” Loose Bearing In Drum .0004” Tight to .0016” Tight Spacer On Shaft .002” Loose to .005” Loose Spacer In Sleeve .001” Loose to .004” Loose Bearing On Shaft .0007” Tight to .0027” Loose

Document number Revision Page

9.8

EPL-1439 03 114

Type 110-M/Ue Drawworks

Part No.

Description

Drum Shaft Assembly 626158-S Brake Rim Assembly 610238 Outlet Connection Packer YS-8500 Oil Seal YS-9000 Oil Seal 612361-A Roller Bearing Assembly 612372 Inner Race 618947 Outer Race 626360-A Ball Bearing Assembly ZS-7871 Bearing *622949 Brake Rim Pipe Packing *622950 Elbow Gasket *624630-3 Brake Rim Water Pipe **650086-A Hose Assembly **650087-A Hose Assembly **SF-1002-16-16 Stratoflex Bulkhead Adapter 90° Degree Elbow **SF-1284-16 Stratoflex Bulkhead Nut *Used on Drawworks up to and including S/N T-2527 **Used on Drawworks S/N T-2539 and up Air & Water Connection Rotary & Drillers End 617552 Water and Oil Seal AN-6227-36 “O” Ring 618351 Packing Nut 618350 Flange Elbow Washer 618412 Connecting Nipple Sleeve 610617 Housing Clamp Ring 618364-1 Connecting Nipple YS-2620 Oil Seal ZS-2364 Bearing ZS-2751 Bearing ZT-2810 Bearing 40” x 10” Dy-A-Flex Clutch (High) 622835 Diaphragm 622836-G Friction Shoe Lining with (28) 621661 ) Keepers, Bolts, & Shakeproof Light Keps ) 9112 1/2" Fawick Quick Release Valve AN-6227-12 “O” Ring 622837 Shoe Assembly 622124 Flat Spring www.nov.com

Col. 1 1

4 2 2

Col. 2 2 2 2 2 2 2 1 2 4 2 2 1 4 2 2

10 1 2 1 2 2 1 1 1 1 2

2 2

1 14 (1 set) 14 14

Document number Revision Page

-626165 626163-G 626164 9112 AN-6227-12 622124 -626160-A 618766 627715-G 624660-3 YS-10003 AN-6227-82 625092 625226 ZT-10370 641242 -AN-6227-48 222227 619819 624075 625450 627685 YS-4752 AN-6227-15 D-2 D-33 627687-A 627688 -ZS-4920 www.nov.com

EPL-1439 03 115

5/8” OD x .065” Wall x 4-11/16” Lg. ) Steel Tubing (Spec. T-425) ) 46” x 10” Dy-A-Flex Clutch (Low) Diaphragm Friction Shoe Lining with (32) 621661 ) Keepers, Bolts, & Shakeproof Light Keps ) Shoe Assembly 1/2" Fawick Quick Release Valve ) (See above “O” Ring ) sufficient material Flat Spring ) for both clutches) 5/8” OD x .065” Wall x 4-11/16” Lg. ) Steel Tubing (Spec. T-425) ) K-50 Brake Installation Brake Band Assembly Titeflex Hose Friction Shoe Linine with (60) Lining ) Screws & Shakeproof Keps ) Type “A” Overrunning Clutch Shim (.005”) Oil Seal “O” Ring Spring Roller Shoe Bearing Water Level Control Unit Gasket 1/2” ID x 1-1/8” OD x 3/16” Thick ) Neoprene Washer “O” Ring Type 9, Bendix-Westinghouse Rotochamber “B-1” Make-Up and Break-Out Catheads Ring to Element Washer Diaphragm Anchor Spring Clutch Lining (Break-out) Oil Seal “O” Ring California Spring California Spring Clutch Friction Plate Assembly (Break-out) Clutch Lining (Make-up) 1/4”-28NF x 3/4" F.H. Brass Cap Screw Bearing

2 1 16 (1 set) 16

2

2 20 (1 set) 3 2 2 20 20 2 1 1 1 1 2 2 2 4 2 1 6 6 1 4 24 1

Document number Revision Page

ZS-6695 625438 625441-A YS-6501 ZS-5501 ZS-5901 620960 620963 A-380-100 3/8” 625293 625290-G AN-6227-10 625387 -10785 625286 620116 626769 623805 ZS-1570 614060-A 619320-A 612819-A ZS-6291 626216 626211 613427-A 623783 YS-4505 YS-3753 YS-5250 YS-4503 621313-A 622923 www.nov.com

EPL-1439 03 116

Bearing Bronze Bushing Roller Cage Assembly Core Reel Shaft Assembly Oil Seal Bearing Bearing Core Reel Brake Band Assembly Lining Keeper Lining Raybestos-Manhattan Bolt Shakeproof N.C. Light Kep 24” x 5-1/4” Dy-A-Flex Clutch Assembly Clutch Spring Friction Shoe Lining with (20) 625299 ) Keepers, Bolts, & Shakeproof Light Keps ) “O” Ring Diaphragm 1/2" O.D. x 032” Wall x 2-1/16” Lg.) Steel Tubing (Spec. T-425) 3/8” Fawaick Quick Release Valve Shoe Rope Roller Bracket Assemblies Rope Roller – Long Rope Roller – Long Rope Roller Bearing Jack Shaft & Main Drive Shaft Assemblies Clutch Shifter Ring Assembly Clutch Shifter Ring Assembly Roller Cage Assembly Bearing Outer Race Inner Race Roller Cage Assembly Inner Race Rotary Countershaft Assembly Oil Seal Oil Seal Oil Seal Oil Seal Roller Bearing Assembly Inner Race

1 1 2 1 2 2 32 16 64 64 10 10 1(set) 1 1 1 1

10 1 1 3 8 1 1 2 2 2 2 2 1 1 1 2 1 2 2

Document number Revision Page

622924 626350-A ZS-3933 ZS-4720 625298-G 625392 10785 AN-6227-10 625293 625294 -P-52935-3 C-2 B-2 12-002-017 713-30-2 713-9001-23 46-S-8 605615 1800283 49 P-51125-2 620252 620447 P-51125-2 P-51125-4 P-52935-3 P-54350-2 023-725 023-718 P-59028 618736 www.nov.com

EPL-1439 03 117

Outer Race Bearing Bearing Bearing 28” x 5-1/4” Dy-A-Flex Clutch Assembly Friction Shoe Lining with (24) 625299 ) Keepers, 48 Bolts, & Shakeproof Light Keps ) Diaphragm 3/8” Fawaick Quick Release Valve “O” Ring Clutch Spring Shoe 1/2" O.D. x 032” Wall x 2-1/16” Lg.) Steel Tubing (Spec. T-425) Water & Air System Piping Installation WABCO 3/8” Quick Release Valve Fawick Rotorseal Fawick Rotorseal 1/2" Norgren filter (30-AE-4) Lubrication System #3-S Right Hand Brown & Sharpe Oil Pump 3/4" Brown & Sharpe Relief Valve ) w/75# Spring ) 1” Pipe Size Pioneer Strainer Oil Pump Sprocket, (22-T, 5/8” P. Single) ) (110-M Only) ) Oil Pump Sprocket, (48-T, 5/8” P. Single) ) (110-UE Only) ) Foot Pedal Assembly (110-M Only) California Spring, 7/8” O.D. x 2-1/2” Long WABCO H-3 Air Valve w/100 psi Spring Control Column Installation Spring, Throttle Control (110-M Only) Spring, Cathead Air Valve H-3 Control Air Valve, WABCO (110-M Only) H-3 Control Air Valve, WABCO 3/8” Quick Release Valve, WABCO 1/4" Double Check Valve, WABCO 2-1/2” 0-200# Marsh Rigmaster Gauge 2-1/2” 0-100# Marsh Rigmaster Gauge H-3 Controlair Valve Repair Kit EMD OR GE-752 Motor Drive Installation (110-UE Only) Coupling Gasket

2 1 1 1

1

1 1 1

12 1(set) 1 1 12 12 1

1 1 1 2 1 1 1 1

3

2 2 1 2 1 1 1 1 2

Document number Revision Page

ASA-50 ASA-50 ASA-160-3 ASA-160-2 ASA-160 ASA-120-4 ASA-50 ASA-160-3 ASA-160-2 ASA-160 ASA-120-4 223-10 223-6 434-10-10 442-6-6 48 49 48 49

www.nov.com

Chain 114 Pitches, 5/8” Pitch, Single (110-M Only) 118 Pitches, 5/8” Pitch, Single (110-UE Only) 96 Pitches, 2” Pitch, Triple 90 Pitches, 2” Pitch, Double 80 Pitches, 2” Pitch, Single 78 Pitches, 1-1/2” Pitch, Quadruple ) (110-UE Only) ) Connecting Link Connecting Link Connecting Link Connecting Link Connecting Link (110-UE Only) Bulk Hose & Fittings Stratoflex Hose 25’0” Long Stratoflex Hose 25’0” Long Stratoflex Swivel Stratoflex Swivel 5/8” OD to 1/2” N.P.T. Half Coupling 5/8” OD to 1/2" N.P.T. Elbow 3/8” OD to 1/4" N.P.T. Half Coupling 3/8” OD to 1/4" N.P.T. Elbow

EPL-1439 03 118

1 pc. 1 pc. 1 pc. 1 pc. 1 pc. 1 pc. 1 1 1 1 1 1 pc. 1 pc. 8 8 4 4 4 4

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10 10.1

EPL-1439 03 119

1320-M/UE DRAWWORKS Controls – Operation – Mechanical Drawworks (1320-M) The following are the functions and operations of various controls located in the main control cabinet for the 1320-M drawworks:

Master Clutch and Inertia Brake Control – Regulates the flow of air to both master clutch and inertia brake. Move lever away from operator and into left leg of “U” shaped slot to engage the master clutch and away from operator and into right leg of “U” shaped slot to engage the inertia brake. Engine Throttle Control Levers – These engine throttle control levers for group 1, 2 and 3 engines remotely control actuators on the engines to accelerate or retard engine R.P.M. Push lever away from operator to accelerate engines. These controls are friction loaded and will remain in position to maintain desired operating speed. The throttle group selector valves are manifolded together and controlled by the engine throttle levers to establish various combinations of engine selections. Main Water Supply Pressure Gauge - Indicates pressure of main water supply to the drawworks. For detailed information regarding pressure and water flow rates, please refer to pages 38 and 39. Cascade Lubrication System Oil Pressure Gauge – Indicates discharge pressure of the cascade lubrication system pump. Working pressure varies with distributor valve setting and viscosity of the oil. The gauge should be used to indicate to the operator whether or not oil is being circulated through the cascade system. Main Air Supply Pressure Gauge – This indicates pressure of main air supply to the drawworks. Minimum pressure should be 110 psi. www.nov.com

Document number Revision Page

EPL-1439 03 120

Drum Clutch – Indicates pressure of the air to either high or low drum clutch. Working pressure should be approximately 110 psi. Make-up, Breakout Cathead Controls – Regulates flow of air to catheads. Push lever away from operator to engage cathead friction clutch. This lever is spring loaded and will return to the OFF position when the hand is removed. The slot in which the lever travels is offset to permit application of less than full air pressure when required for certain operations. The knurled knob at the right of the slot is a safety lock for the lever. Use this lock to prevent accidental engagement of cathead and possible serious injuries to personnel. Rotary Drive Clutch and Inertia Brake – This lever engages the rotary clutch when moved away from the operator. Move lever toward operator to engage the inertia brake. The operator should pause momentarily between disengagement of the clutch and engagement of the brake. Use the safety lock at the right side of the slot to prevent accidental engagement of cathead. Low and High Drum Clutch Control – Regulates flow of air to both the low and high drum clutches. Move lever into the left leg of “U” shaped slot to engage the low drum clutch and into the right leg of the “U” to engage the high drum clutch. 10.2

Mechanical Controls Transmission selection is achieved by manually raising or lowering shifter handles located on the front of the main control cabinet. The center position of the lever slot is neutral. At least one of the levers must be in neutral before any transmission selection can be engaged. High-Reverse Transmission Shifter – Lift the lever into its upper position to shift transmission to high speed ratio. Placing the lever in its lower position shifts the transmission into reverse. The center position of the lever slot is neutral. This lever must be in the neutral position before the low-second clutch can be engaged. Low-Second Transmission Shifter – Lift the lever into its upper position to shift transmission to low speed ratio. Placing the lever in its lower position shifts the transmission into second speed ratio. The center position is neutral. This lever must be in neutral position before the high or reverse clutch can be engaged. Low Drum-Catshaft Drive Shifter – The low drum drive and catshaft is engaged by placing this lever in its upper position, and disengaged by placing it in the upper position, disengaged by placing it in the lower position.

www.nov.com

Document number Revision Page

EPL-1439 03 121

Caution: Before shifting any manually operated clutches, master clutch should be released and inertia brake used to stop drawworks shaft rotation. 10.3

Specifications The Type 1320-M Drawworks is rated for 2000 combined engine horsepower. Within the designed capacity of the drawworks, the maximum loads that should be handled are shown in the table below:

Drum Clutch Transmission Total Load in 8 lines Thousand Pounds 10 lines 12 lines

Low 775 920 1070

Nominal Drilling dept range Wireline size

Low 2nd 640 780 910

High 410 500 580

Low 255 310 350

High 2nd 155 190 220

13,000 to 20,000 ft. 1-3/8”

Chain Specifications 2” Quadruple Chain (ASA-160-4) Transmission Low Speed Transmission Second Speed Transmission High Speed Low Drum Drive High Drum Drive

56 Pitches 50 Pitches 50 Pitches 122 Pitches 110 Pitches

2” Double Chain (ASA-120-2) Rotary Countershaft Drive Catshaft Drive

82 Pitches 88 Pitches

Weights (Estimated) Drawworks Front Section (less optional equipment)

42,310#

Core Reel

4,300#

60” Hydromatic Brake with Cradle, and Type “A” Over-running Clutch

10,890#

www.nov.com

High 100 120 140

Document number Revision Page

EPL-1439 03 122

Drawworks Rear Section

32,990#

Drawworks Complete as Above

90,490#

Dimensions Width, Front Section Width, Rear Section Width, Overall Length, Overall Height, with Core Reel Height, less Core Reel

10.4

7’-9-3/8” 6’-2-13/16” 13’-11-9/16” 25’-0” 9’-6” 9’-4”

Dimensional Specifications – 1320-M Drawworks

Drum Shaft Shaft Diameter at Drum Support Shaft Diameter at Center Section Shaft Diameter at Main Bearings Bearing Center Distance High Drum Friction Clutch Low Drum Friction Clutch Jack Shaft Maximum Shaft Diameter Shaft Diameter at Bearings Bearing Center Distance Jack Shaft Extension Maximum Shaft Diameter Shaft Diameter at Bearings Bearing Center Distance Main Drive Shaft Maximum Shaft Diameter Shaft Diameter at Bearings Bearing Center Distance CAT Shaft Maximum Shaft Diameter Shaft Diameter at Bearings Bearing Center Distance Shaft Diameter at Coring Reel Bearings

www.nov.com

10.500” 10.437” 7.876” 90.500” 40” x 10” Dy-A-Flex 36-C National Air Clutch 8.503” 7.089” 60.500” 7.758” 7.089” 16.500” 8.503” 7.089” 60.6875” 6.750” 5.514” 93” 6.301”

Document number Revision Page

Coring Reel Bearing Center Distance Coring Reel Friction Clutch Rotary Drive Countershaft Maximum Shaft Diameter Shaft Diameter at Bearings (Clutch End) Shaft Diameter at Bearings (Sprocket End) Bearing Center Distance Rotary Drive Friction Rotary Inertia Brake (optional) Hoisting Drum Spool Size Flange Diameter Hoisting Drum Brakes Brake Rims (Water Cooled) Lining (Each Band) 10pcs. Brake Band Effective Area (2 Bands) Coring Reel Drum Spool Size Flange Diameter Spooling Capacity (5/8” Wire Line) Spooling Capacity (9/16” Wire Line) Coring Reel Brakes Brake Rims Lining (Each Band) 9 pcs. Brake Band Effective Area (2 Bands)

www.nov.com

EPL-1439 03 123

57.750” 28” x 5-1/4” Dy-A-Flex 4.726” 3.939” 4.726” 24.750” 28” x 5-1/4” Dy-A-Flex 14-CB-400 Fawick 30” Dia. x 56-1/4” Long 55.500” 54” O.D. x 10-3/8” Wide 1-1/4” x 9-3/4” x 13-3/16” 2535 Sq. In. 14” Dia. x 57” Long 44” 16,600 ft. 20,500 ft. 42” O.D. x 8-5/8” Wide 3/4" x 8” x 11-1/2” 1656 Sq. In.

Document number Revision Page

10.5

EPL-1439 03 124

Controls – Operation – Electric Drawworks (1320-UE) The following are the functions and operations of various controls located in the main control cabinet for the 1320-UE drawworks:

Main Water Supply Pressure Gauge - Indicates pressure of main water supply to the drawworks. For detailed information regarding pressure and water flow rates, please refer to pages 38 and 39. Cascade Lubrication System Oil Pressure Gauge – Indicates discharge pressure of the cascade lubrication system pump. Working pressure varies with distributor valve setting and viscosity of the oil. The gauge should be used to indicate to the operator whether or not oil is being circulated through the cascade system. Main Air Supply Pressure Gauge – This indicates pressure of main air supply to the drawworks. Minimum pressure should be 110 psi. Drum Clutch – Indicates pressure of the air to either high or low drum clutch. Working pressure should be approximately 110 psi. Make-up, Breakout Cathead Controls – Regulates flow of air to catheads. Push lever away from operator to engage cathead friction clutch. This lever is spring loaded and will return to the OFF position when the hand is removed. The slot in which the lever travels is offset to permit application of less than full air pressure when required for certain operations. The knurled knob at the right of the slot is a safety lock for the lever. Use this lock to prevent accidental engagement of cathead and possible serious injuries to personnel. Low and High Drum Clutch Control – Regulates flow of air to both the low and high drum clutches. Move lever into the left leg of “U” shaped slot to engage the low drum clutch and into the right leg of the “U” to engage the high drum clutch.

www.nov.com

Document number Revision Page

EPL-1439 03 125

Rotary Drive Clutch and Inertia Brake – This lever engages the rotary clutch when moved away from the operator. Move lever toward operator to engage the inertia brake. The operator should pause momentarily between disengagement of the clutch and engagement of the brake. Use the safety lock at the right side of the slot to prevent accidental engagement of cathead 10.6

Mechanical Controls Transmission selection is achieved by manually raising or lowering shifter handles located on the front of the main control cabinet. The center position of the lever slot is neutral. STOP MOTORS BEFORE ENGAGING CLUTCHES. Low-High Transmission Shifter – Lift the lever into its upper position to shift transmission to low speed ratio. Placing lever in its lower position shifts transmission into high speed ratio. The center position of the lever is neutral. STOP MOTORS BEFORE ENGAGING THE CLUTCH. Low Drum Drive-Catshaft Drive Cut-Off Clutch – The low drum drive and catshaft drive is engaged by placing lever in its upper position, and disengaged by placing it in the lower postion. STOP MOTORS BEFORE ENGAGING THIS CLUTCH.

10.7

Specifications The Type 1320-UE Drawworks is rated for 2000 combined engine horsepower. Within the designed capacity of the drawworks, the maximum loads that should be handled are shown in the table below:

Drum Clutch Transmission Total Load in 8 lines Thousand 10 lines Pounds 12 lines

Low Low 660 805 940

High 415 505 590

High Low 270 330 380

High 170 205 240

Nominal drilling depth range

13,000 to 20,000 ft.

Wireline Size

1-3/8”

www.nov.com

Document number Revision Page

EPL-1439 03 126

Chain Specificaions 1-1/2” Sextuple Chain (ASA-120-6) Transmission Low Speed Transmission High Speed

78 Pitches 68 Pitches

2” Quadruple Chain (ASA-160-4) Low Drum Drive High Drum Drive

122 Pitches 102 Pitches

2” Double Chain (ASA-120-2) Rotary Countershaft Drive Catshaft Drive

82 Pitches 88 Pitches

Weights (Estimated) Drawworks Front Section (less optional equipment)

41,660#

Core Reel

4,300#

60” Hydromatic Brake with Cradle and Type “A” Over-running Clutch

10,890#

Drawworks Rear Section

31,700#

Drawworks Complete as Above

88,550#

Drawworks Dimensions Width, Front Section Width, Rear Section Width, Overall Length, Overall Height, with Core Reel Height, less Core Reel

www.nov.com

7’-9-3/8” 6’-2-13/16” 13’-11-9/16” 25’-0” 9’-6” 9’-4”

Document number Revision Page

10.8

EPL-1439 03 127

Dimensional Specifications – 1320-UE Drawworks

Drum Shaft Shaft Diameter at Drum Support Shaft Diameter at Center Section Shaft Diameter at Main Bearings Bearing Center Distance High Drum Friction Clutch Low Drum Friction Clutch Jack Shaft Maximum Shaft Diameter Shaft Diameter at Bearings Bearing Center Distance Jack Shaft Extension Maximum Shaft Diameter Shaft Diameter at Bearings Bearing Center Distance Main Drive Shaft Maximum Shaft Diameter Shaft Diameter at Bearings Bearing Center Distance CAT Shaft Maximum Shaft Diameter Shaft Diameter at Bearings Bearing Center Distance Shaft Diameter at Coring Reel Bearings Coring Reel Bearing Center Distance Coring Reel Friction Clutch Rotary Drive Countershaft Maximum Shaft Diameter Shaft Diameter at Bearings (Clutch End) Shaft Diameter at Bearings (Sprocket End) Bearing Center Distance Rotary Drive Friction Rotary Inertia Brake (optional) Hoisting Drum Spool Size Flange Diameter Hoisting Drum Brakes Brake Rims (Water Cooled) Lining (Each Band) 10pcs. Brake Band Effective Area (2 Bands) Coring Reel Drum www.nov.com

10.500” 10.437” 7.876” 90.500” 40” x 10” Dy-A-Flex 36-C National Air Clutch 8.503” 7.089” 60.500” 7.758” 7.089” 16.500” 8.503” 7.089” 60.6875” 6.750” 5.514” 93” 6.301” 57.750” 28” x 5-1/4” Dy-A-Flex 4.726” 3.939” 4.726” 24.750” 28” x 5-1/4” Dy-A-Flex 14-CB-400 Fawick 30” Dia. x 56-1/4” Long 55.500” 54” O.D. x 10-3/8” Wide 1-1/4” x 9-3/4” x 13-3/16” 2535 Sq. In.

Document number Revision Page

Spool Size Flange Diameter Spooling Capacity (5/8” Wire Line) Spooling Capacity (9/16” Wire Line) Coring Reel Brakes Brake Rims Lining (Each Band) 9 pcs. Brake Band Effective Area (2 Bands) 10.9

EPL-1439 03 128

14” Dia. x 57” Long 44” 16,600 ft. 20,500 ft. 42” O.D. x 8-5/8” Wide 3/4" x 8” x 11-1/2” 1656 Sq. In.

Parts Fit – 1320-M, 1320-UE Drawworks

Part No. YS-4505 ZS-4720 YS-5250 ZS-3933 YS-4503 623078 626245-A 626350-A 626348 622924 622926 622923 622925-X 623765 *645899 **623077-A **641174 *w/o Inertia Brake **w/Inertia Brake 626360-A 626364 618947 612372 ZS-7871 YS-8500 622958 628407 YS-9750 www.nov.com

Part Name

Location Rotary Countershaft Assembly Oil Seal In Housing Bearing On Shaft Oil Seal In Housing Bearing On Shaft Oil Seal In Housing Spacer On Shaft Clutch Hub On Shaft Bearing Assy. On Shaft Retainer In Sprocket Outer Race In Sprocket Spacer In Sprocket Inner Race On Shaft Spacer On Shaft Spacer On Shaft Spacer On Shaft Spacer On Shaft Spacer On Shaft

Bearing Assy. Retainer Outer Race Inner Race Bearing Oil Seal Spacer Spacer Oil Seal

Drum Shaft Assembly On Shaft In Sprocket In Sprocket On Shaft On Shaft In Housing On Shaft On Shaft In Housing

Fit .003” Tight to .006” Tight .0006” Tight to .0024” Tight .004” Tight to .008” Tight .0005” Tight to .0023” Tight .003” Tight to .007” Tight .002” Loose to .004” Loose .002” Tight to .004” Tight .002” Loose to .004” Loose .001” Loose to .007” Loose .001” Tight to .003” Tight .002” Loose to .006” Loose .001” Tight to .003” Tight .002” Loose to .006” Loose .001” Tight to .003” Tight .001” Loose to .004” Loose .002” Loose to .003” Loose .002” Loose to .012” Loose

.003” .005” .002” .002” .001” .006” .002” .001” .006”

Loose to .005” Loose Loose to .012” Loose Tight to .005” Tight Tight to .004” Tight Tight to .0032” Tight Tight to .010” Tight Loose to .008” Loose Tight to .003” Tight Tight to .010” Tight

Document number Revision Page

626927 626929 YS-6750 ZS-6290 647199 ZS-5501 YS-6120 645841 626371-A1 645840 629491 645862-A ZS-7080 645882 645852 645869 628418 628431 645871 ZS-7080 645859 645886 645885 645862-A 645891 645854 645855 ZS-7080 645856 628423 645848 645873 628431 628422 628418 645864 645852 645871 645842 www.nov.com

EPL-1439 03 129

Coring Reel Shaft Assembly Spider On Shaft .002” Tight to .004” Tight Spacer On Shaft .001” Loose to .008” Loose Oil Seal In Housing .005” Tight to .009” Tight Bearing On Shaft .0008” Tight to .0028” Tight Spacer On Shaft .001” Tight to .004” Tight Bearing On Shaft .0012” Tight to .0032” Tight Oil Seal In Housing .002” Tight to .010” Tight Spacer On Shaft .003” Loose to .009” Loose Sprocket On Shaft .001” Tight to .003” Tight Spacer On Shaft .002” Loose to .007” Loose 1320-M Main Drive Shaft Assembly Spacer On Shaft .001” Loose to .005” Loose Sprocket On Shaft .001” Loose to .003” Loose Bearing On Shaft .0014” Tight to .0034” Tight Sprocket On Shaft .007” Tight to .009” Tight Sprocket On Shaft .007” Tight to .009” Tight Clutch Hub On Shaft .007” Tight to .009” Tight Retainer In Housing .001” Tight to .003” Tight Inner Race On Shaft .001” Tight to .003” Tight Spacer On Shaft .001” Tight to .003” Tight 1320-UE Main Drive Shaft Assembly Bearing On Shaft .0014” Tight to .0034” Tight Spacer On Shaft .003” Loose to .011” Loose Sprocket On Shaft .007” Tight to .009” Tight Sprocket On Shaft .007” Tight to .009” Tight Sprocket On Shaft .001” Loose to .003” Loose Coupling On Shaft .001” Tight to .005” Tight 1320-M Jack Shaft Assembly Hub On Shaft .002” Tight to .004” Tight Spacer On Shaft .001” Loose to .005” Loose Bearing On Shaft .0014” Tight to .0034” Tight Spacer On Shaft .001” Tight to .003” Tight Retainer In Sprocket .001” Tight to .004” Tight Hub On Shaft .002” Tight to .004” Tight Spacer On Shaft .001” Loose to .005” Loose Inner Race On Shaft .001” Tight to .003” Tight Outer Race In Sprocket .001” Tight to .004” Tight Retainer In Sprocket .001” Tight to .003” Tight Reverse Gear On Shaft .007” Tight to .009” Tight Sprocket On Shaft .007” Tight to .009” Tight Spacer On Shaft .001” Tight to .003” Tight Sprocket On Shaft .002” Tight to .004” Tight

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645854 645855 ZS-7080 645856 628423 645484 645873 641157 641016 641013 614022 614019 645859 645860 ZS-7080 645851 645873 645879 625439 YS-4752 624093 625443 624090 624091 ZS-6695 625444 625440 ZS-4920

EPL-1439 03 130

1320-UE Jack Shaft Assembly Hub On Shaft .002” Tight to .004” Tight Spacer On Shaft .001” Loose to .005” Loose Bearing On Shaft .0014” Tight to .0034” Tight Spacer On Shaft .001” Tight to .003” Tight Retainer In Sprocket .001” Tight to .004” Tight Hub On Shaft .002” Tight to .004” Tight Spacer On Shaft .001” Loose to .005” Loose Inner Race On Shaft .001” Tight to .003” Tight Spacer On Shaft .002” Loose to .006” Loose Outer Race In Sprocket .001” Tight to .004” Tight Spacer In Sprocket .002” Loose to .008” Loose Thrust Ring On Shaft .005” Tight to .007” Tight Spacer On Shaft .003” Loose to .009” Loose Sprocket On Shaft .002” Tight to .004” Tight Low Jack Shaft Assembly Bearing On Shaft .0014” Tight to .0034” Tight Sprocket On Shaft .009” Tight to .011” Tight Spacer On Shaft .001” Loose to .005” Loose Sprocket On Shaft .002” Tight to .004” Tight Type “B-1” Make-Up and Break-Out Cathead Spacer On Shaft .001” Tight to .003” Tight Oil Seal In Sleeve .004” Tight to .006” Tight Spacer In Sleeve .001” Loose to .002” Tight Inner Race On Shaft .001” Tight to .003” Tight Spacer On Shaft .002” Loose to .005” Loose Spacer In Sleeve .001” Loose to .004” Loose Bearing In Drum .0004” Tight to .0016” Tight Spacer On Shaft .002” Loose to .005” Loose Spacer In Sleeve .001” Loose to .004” Loose Bearing On Shaft .0007” Tight to .0027” Loose

10.10 Type 1320-M/UE Drawworks Part No. www.nov.com

Description

Col. 1

Col. 2

Document number Revision Page

610238 618352-A 39783-S YS-8500 645908-A 645909-A SF-1002-16-16 SF-1284-16 622949 622950 YS-9750 612361-A 626360-A 612372 618947 ZS-7871 617553 617552 610617 612385 YS-2620 618351 618350 618412 618364-1 ZS-2364 ZS-2751 ZT-2810 622835 622836-G 9112 AN-6227-12 622837 622124 -626769 623805 www.nov.com

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Drum Shaft Assembly Outlet Connection Packer Connection Packing Follower Brake Rim Assembly Oil Seal Hose Assembly Hose Assembly Stratoflex Bulkhead Adapter 90° Degree Elbow Stratoflex Bulkhead Nut Brake Rim Pipe Packing Elbow Gasket Oil Seal Roller Bearing Assembly Ball Bearing Assembly Inner Race Outer Race Bearing Air and Water Connection Rotary and Drillers End Water and Oil Seal Water and Oil Seal Housing Clamp Ring Body Gasket Oil Seal Packing Nut Flange Elbow Washer Connecting Nipple Sleeve Connecting Nipple Bearing Bearing Bearing 40” x 10” Dy-A-Flex Clutch (High) Diaphragm Friction Shoe Lining with (28) 621661 ) Keepers, Bolts, & Shakeproof Light Keps ) 1/2" Fawick Quick Release Valve “O” Ring Shoe Flat Spring 5/8” OD x .065” Wall x 4-11/16” Lg. ) Steel Tubing (Spec. T-425) ) Rope Roller Bracket Assemblies Rope Roller – Long Rope Roller - Short

1

2 10 1 2 1 2 1

2

1 2 2 1 4 2 2 8 4 2 2 1 2 2 2

2 1

1 1 2 1 14 (1 set) 2 14 14 2 2 4

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ZS-1576 49 P-51125-2 617546 617547 622845 619279 612362-A 622857 618870-C 622858 AN-6227-59 YS-8500 YS-1500 612361-A 612372 618947 ZS-7481 500152-A 618768-A 618764-A 618766-A 627926-G 624660-3 YS-10003 AN-6227-82 625092 625226 ZT-10370 641242 -AN-6227-48 222227 YS-6120 YS-6750 www.nov.com

Bearing Foot Pedal Assembly (1320-M Only) California Spring, 7/8” O.D. x 2-1/2” Long WABCO H-3 Air Valve w/100 psi Spring 36-C Air Clutch (Low) Connection Compression Packer Water Inlet Spear Diaphragm Spring Clutch Lining Disc Assemblies Grease Seal Sleeve Diaphragm Bearing Retainer Gasket “O” Ring Oil Seal Oil Seal Roller Bearing Assembly Inner Race Outer Race Bearing K-54 Brake Installation Brake Band Assembly Titeflex Hose Titeflex Hose Titeflex Hose Friction Shoe Lining with (60) Lining ) Screws and Shakeproof Keps ) Type “A” Overrunning Clutch Shim (.005”) Oil Seal “O” Ring Spring Roller Shoe Bearing Water Level Control Unit Gasket 1/2” ID x 1-1/8” OD x 3/16” Thick ) Neoprene Washer “O” Ring Type 9, Bendix-Westinghouse Rotochamber Core Reel Shaft Assembly Oil Seal Oil Seal

EPL-1439 03 132

12 1 1 1 1

1 1

1 2 2

1 40 2 1 1 1 4 1 1 1 1 2

20 (1 set) 3 2 2 20 20 2 1 1 1 1 2 1

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YS-6290 ZS-5501 620786 620962 A-380-100 3/8” 619819 624075 625450 627685 YS-4752 AN-6227-15 D-2 D-33 627687-A 627688 -ZS-4920 ZS-6695 625438 625441-A 625298-G 625392 10785 AN-6227-10 625293 625294 -619319-A 628418 628423 641157 641013 612738-A 628422 612738-A

www.nov.com

EPL-1439 03 133

Bearing Bearing Core Reel Brake Band Assembly Lining Keeper Lining Raybestos-Manhattan Bolt Shakeproof N.C. Light Kep “B-1” Make-Up & Break-Out Catheads Ring to Element Washer Diaphragm Anchor Spring Clutch Lining (Break-out) Oil Seal “O” Ring California Spring California Spring Clutch Friction Plate Assembly (Break-out) Clutch Lining (Make-up) 1/4”-28NF x 3/4" F.H. Brass Cap Screw Bearing Bearing Bronze Bushing Roller Cage Assembly 28” x 5-1/4” Dy-A-Flex Clutch Assembly Friction Shoe Lining with (24) 625299 ) Keepers, 48 Bolts, & Shakeproof Light Keps ) Diaphragm Fawick Quick Release Valve “O” Ring Clutch Spring Clutch Shoe 1/2" O.D. x 032” Wall x 2-1/16” Lg.) Steel Tubing (Spec. T-425) Jack Shaft & Main Drive Shaft Assemblies Clutch Shifter Ring Bearing Retainer Ring Bearing Retainer Ring Inner Race ) Outer Race ) 1320-UE JackRoller Bearing Assembly ) shaft Only Outer Race 1320-M Jackshaft Only Roller Bearing Assembly) 1320-M Main Drive, ) Jackshaft Only

2 2 36 18 72 72 2 2 2 4 2 1 6 6 1 4 24 1 1 1 2 12 (1set) 1 1 1 12 12 1 2 2 2 4 4 4 1 6

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628431 ZS-7080 YS-4503 YS-5250 YS-4505 626350-A 622924-A 621313-A ZS-4720 ZS-3933 P-52935-3 P-52935-4 C-2 B-2 12-002-017 713-53-3 713-9001-23 46-S-8 -611041 614925 620252 620447 P-51125-2 P-51125-4 P-52935-3 P-54350-2 023-725 023-718 P-59028 618736 AN-6227-77 619077-3 -www.nov.com

EPL-1439 03 134

Inner Race Bearing Rotary Countershaft Assembly Oil Seal Oil Seal Oil Seal Ball Bearing Assembly Outer Race Roller Bearing Assembly Bearing Bearing Water & Air System Piping Installation WABCO 3/8” Quick Release Valve WABCO 1/2" Quick Release Valve Fawick Rotorseal Fawick Rotorseal 1/2" Norgren filter (30-AE-4) Lubrication System #53 Left Hand Brown & Sharpe Oil Pump 3/4" Brown & Sharpe Relief Valve ) w/75# Spring ) 1” Pipe Size Pioneer Strainer S.L.A. 1-1/2” -30 Marvel Synclinal Filter – 50 Mesh Oil Pump Sprocket, (17T, 5/8” P. Single) ) (1320-M only) ) Oil Pump Sprocket, (38-T, 5/8” P. Single) ) (1320-UE Only) ) Control Column Installation Spring, Throttle Control Spring, Cathead Air Valve H-3 Control Air Valve, WABCO H-3 Control Air Valve, WABCO 3/8” Quick Release Valve, WABCO 1/4" Double Check Valve, WABCO 2-1/2” 0-200# Marsh Rigmaster Gauge 2-1/2” 0-100# Marsh Rigmaster Gauge H-3 Controlair Valve Repair Kit EMD OR GE-752 Motor Drive Installation (1320-UE Only) Coupling Gasket “O” Ring Brake Lining ) 3/8”-16 x 1” Brass Flat Head Machine ) For

3 4 2 1 1 1 2 2 1 1 1 1 1 1

1 1 1 2 1 1 1

3

2 2 1 2 1 1 1 1 2 2 1 24

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-236529 ASA-50 ASA-50 ASA-160-4 ASA-160-4 ASA-160-2 ASA-120-6 ASA-50 ASA-160-4 ASA-160-2 ASA-120-6 223-10 223-6 434-10-10 442-6-6 48 49 48 49

11 11.1

EPL-1439 03 135

Screws ) Inertia 3/8”-16 Iron Square Nuts ) Brake Diaphragm ) Chain 110 Pitches, 5/8” Pitch, Single (1320-M Only) 104 Pitches, 5/8” Pitch, Single (1320-UE Only) 122 Pitches, 2” Pitch, Quadruple 50 Pitches, 2” Pitch, Quadruple (1320-M Only) 88 Pitches, 2” Pitch, Double 78 Pitches, 1-1/2” Pitch, Sextuple (1320-UE Only) Connecting Link Connecting Link Connecting Link Connecting Link (1320-UE Only) Bulk Hose & Fittings Stratoflex Hose 25’0” Long Stratoflex Hose 25’0” Long Stratoflex Swivel Stratoflex Swivel 5/8” OD to 1/2” N.P.T. Half Coupling 5/8” OD to 1/2" N.P.T. Elbow 3/8” OD to 1/4" N.P.T. Half Coupling 3/8” OD to 1/4" N.P.T. Elbow

1625-M/DE DRAWWORKS Controls – Operations – Mechanical Drawworks The following are the functions and operations of various controls located in the main control cabinet for the 1625-M drawworks:

www.nov.com

24 1 1 pc. 1 pc. 1 pc. 2 pcs. 1 pc. 1 pc. 1 2 1 1 1 pc. 1 pc. 8 8 4 4 4 4

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EPL-1439 03 136

Master Clutch and Inertia Brake Control – Regulates the flow of air to both master clutch and inertia brake. Move lever away from operator and into left leg of “U” shaped slot to engage the master clutch and away from operator and into right leg of “U” shaped slot to engage the inertia brake. Engine Throttle Control Levers – These engine throttle control levers for group 1, 2 and 3 engines remotely control actuators on the engines to accelerate or retard engine R.P.M. Push lever away from operator to accelerate engines. These controls are friction loaded and will remain in position to maintain desired operating speed. The throttle group selector valves are manifolded together and controlled by the engine throttle levers to establish various combinations of engine selections. Main Water Supply Pressure Gauge - Indicates pressure of main water supply to the drawworks. For detailed information regarding pressure and water flow rates, please refer to pages 38 and 39. Cascade Lubrication System Oil Pressure Gauge – Indicates discharge pressure of the cascade lubrication system pump. Working pressure varies with distributor valve setting and viscosity of the oil. The gauge should be used to indicate to the operator whether or not oil is being circulated through the cascade system. Main Air Supply Pressure Gauge – This indicates pressure of main air supply to the drawworks. Minimum pressure should be 110 psi. Drum Clutch – Indicates pressure of the air to either high or low drum clutch. Working pressure should be approximately 110 psi.

www.nov.com

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EPL-1439 03 137

Make-up, Breakout Cathead Controls – Regulates flow of air to catheads. Push lever away from operator to engage cathead friction clutch. This lever is spring loaded and will return to the OFF position when the hand is removed. The slot in which the lever travels is offset to permit application of less than full air pressure when required for certain operations. The knurled knob at the right of the slot is a safety lock for the lever. Use this lock to prevent accidental engagement of cathead and possible serious injuries to personnel. Rotary Drive Clutch and Inertia Brake – This lever engages the rotary clutch when moved away from the operator. Move lever toward operator to engage the inertia brake. The operator should pause momentarily between disengagement of the clutch and engagement of the brake. Use the safety lock at the right side of the slot to prevent accidental engagement of cathead. Low and High Drum Clutch Control – Regulates flow of air to both the low and high drum clutches. Move lever into the left leg of “U” shaped slot to engage the low drum clutch and into the right leg of the “U” to engage the high drum clutch. 11.2

Mechanical Controls Transmission selection is achieved by manually raising or lowering shifter handles located on the front of the main control cabinet. The center position of the lever slot is neutral. At least one of the levers must be in neutral before any transmission selection can be engaged. Reverse-High Transmission Shifter – Lift the lever into its upper position to shift transmission to reverse. Placing the lever in its lower position shifts the transmission into high speed ratio. The center position of the lever slot is neutral. This lever must be in the neutral position before the second-low clutch can be engaged. Second-Low Transmission Shifter – Lift the lever into its upper position to shift transmission to second speed ratio. Placing the lever in its lower position shifts the transmission into low speed ratio. The center position is neutral. This lever must be in neutral position before the reverse-high clutch can be engaged. Low Drum-Catshaft Drive Shifter – The low drum drive and catshaft is engaged by placing this lever in its lower position, and disengaged by placing it in the upper position. Caution: Before shifting any manually operated clutches, master clutch should be released and inertia brake used to stop drawworks shaft rotation. Before engaging emergency low drive jaw clutch with the foot pedal, master clutch must be released.

www.nov.com

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11.3

EPL-1439 03 138

Specifications The Type 1625-M Drawworks is rated for 3000 combined engine horsepower. Within the designed capacity of the drawworks, the maximum loads that should be handled are shown in the table below:

Drum Clutch Transmission

8 lines Total Load in 10 lines Thousand Pounds 12 lines 14 lines

Low 1065 1300 1520 1725

Low

nd

2 750 910 1060 1210

Nominal Drilling dept range Wireline size

High 490 600 700 790

Low 325 395 460 525

High

nd

2 230 280 320 370

16,000 to 25,000 ft. 1-1/2”

Chain Specifications 2-1/2” Triple Chain (Heavy (RC-250-S-3) Transmission Low Speed Transmission Second Speed Transmission High Speed Low Drum Drive High Drum Drive

56 Pitches 50 Pitches 50 Pitches 106 Pitches 90 Pitches

2-1/2” Single Chain (Heavy) (RC-250-S) Rotary Countershaft Drive Catshaft Drive

70 Pitches 74 Pitches

Weights (Estimated) Drawworks Front Section (less optional equipment)

47,700#

Drawworks Rear Section

36,000#

Core Reel

4,300#

www.nov.com

High 150 180 210 240

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60” Hydromatic Brake with Cradle, and Type “A” Over-running Clutch

11,895#

Drawworks Complete as Above

99,895#

Drawworks Dimensions Width, Front Section Width, Rear Section Width, Overall Length, Overall Height, with Core Reel Height, less Core Reel

11.4

Dimensional Specifications 1625-M Drawworks

Drum Shaft Shaft Diameter at Drum Support 18.14 Shaft Diameter at Drum Support (Drillers end) 11.500” (Serial Shaft Diameter at Drum Support (Rotary end) 11.437” No. T-2506 Shaft Diameter at Center Section 11.462” and up) Shaft Diameter at Center Section 11.25” Shaft Diameter at Main Bearings 9.4505” Bearing Center Distance 94.500” High Drum Friction Clutch 46” x 10” Dy-A-Flex Low Drum Friction Clutch 42-C National Air Clutch CAT Shaft Maximum Shaft Diameter 6.750” Shaft Diameter at Bearings 6.003” Bearing Center Distance 95.500” Shaft Diameter at Coring Reel Bearings 6.301” Coring Reel Bearing Center Distance 57.750” Coring Reel Friction Clutch 28” x 5-1/4” Dy-A-Flex Rotary Drive Countershaft Maximum Shaft Diameter 4.726” Shaft Diameter at Bearings (Clutch End) 3.939” Shaft Diameter at Bearings (Sprocket End) 4.726” Bearing Center Distance 23.750” Rotary Drive Friction Clutch 28” x 5-1/4” Dy-A-Flex

www.nov.com

8’-0” 6’-9” 14’-9” 26’-8” 9’-6-3/4” 9’-6-3/4”

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EPL-1439 03 140

Rotary Inertia Brake

14-CB-400 Fawick Hoisting Drum Spool Size 36” Dia. x 61-1/4” Long Flange Diameter 63.250” Hoisting Drum Brakes Brake Rims (Water Cooled) 62” O.D. x 10-3/8” Wide Lining (Each Band) 12pcs. 1-1/4” x 10” x 13” Brake Band Effective Area (2 Bands) 3120 Sq. In. Coring Reel Drum Spool Size 14” Dia. x 57” Long Flange Diameter 44” Spooling Capacity (1/2” Wire Line) 26,600 ft. Spooling Capacity (9/16” Wire Line) 20,500 ft. Spooling Capacity (5/8” Wire Line) 16,600 ft. Coring Reel Brakes Brake Rims 42” x O.D. x 8-5/8” Wide Lining (Each Band) 9 pcs. 3/4" x 8” x 11-1/2” Brake Band Effective Area (2 Bands) 1656 Sq. in. Main Drive Shaft Maximum Shaft Diameter 9.760” Shaft Diameter at Bearings 8.664” Bearing Center Distance 81.750” Jack Shaft Maximum Shaft Diameter 9.760” Shaft Diameter at Bearings 8.664” Bearing Center Distance 81.750” Low Jack Shaft Maximum Shaft Diameter 8.010” Shaft Diameter at Bearings 7.088” Bearing Center Distance 18”

11.5

1625-DE – Controls-Operation-Electric Drawworks The following are the functions and operations of various controls located in the main control cabinet for the 1625-DE drawworks:

www.nov.com

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EPL-1439 03 141

Main Water Supply Pressure Gauge - Indicates pressure of main water supply to the drawworks. For detailed information regarding pressure and water flow rates, please refer to pages 38 and 39. Cascade Lubrication System Oil Pressure Gauge – Indicates discharge pressure of the cascade lubrication system pump. Working pressure varies with distributor valve setting and viscosity of the oil. The gauge should be used to indicate to the operator whether or not oil is being circulated through the cascade system. Main Air Supply Pressure Gauge – This indicates pressure of main air supply to the drawworks. Minimum pressure should be 110 psi. Drum Clutch – Indicates pressure of the air to either high or low drum clutch. Working pressure should be approximately 110 psi. Make-up, Breakout Cathead Controls – Regulates flow of air to catheads. Push lever away from operator to engage cathead friction clutch. This lever is spring loaded and will return to the OFF position when the hand is removed. The slot in which the lever travels is offset to permit application of less than full air pressure when required for certain operations. The knurled knob at the right of the slot is a safety lock for the lever. Use this lock to prevent accidental engagement of cathead and possible serious injuries to personnel. Low and High Drum Clutch Control – Regulates flow of air to both the low and high drum clutches. Move lever into the left leg of “U” shaped slot to engage the low drum clutch and into the right leg of the “U” to engage the high drum clutch. Rotary Drive Clutch and Inertia Brake – This lever engages the rotary clutch when moved away from the operator. Move lever toward operator to engage the inertia brake. The operator should pause momentarily between disengagement of the clutch and engagement of the brake. Use the safety lock at the right side of the slot to prevent accidental engagement of cathead www.nov.com

Document number Revision Page

11.6

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Mechanical Controls Transmission selection is achieved by manually raising or lowering shifter handles located on the front of the main control cabinet. The center position of the lever slot is neutral. STOP MOTORS BEFORE ENGAGING CLUTCHES. High-Low Transmission Shifter – Lift the lever into its upper position to shift transmission to high speed ratio. Placing lever in its lower position shifts transmission into low speed ratio. The center position of the lever is neutral. STOP MOTORS BEFORE ENGAGING THE CLUTCH. Low Drum Drive Cut-Off Clutch – The low drum drive and catshaft drive is engaged by placing lever in its lower position, and disengaged by placing it in the upper position. STOP MOTORS BEFORE ENGAGING THIS CLUTCH. Catshaft Drive Cut-Off Clutch – Lower this lever to engage gear tooth clutch drive to catshaft. Lift the lever to disengage drive. STOP MOTORS BEFORE ENGAGING THIS CLUTCH.

11.7

Specifications The Type 1625-DE Drawworks is rated for 3000 combined engine horsepower. Within the designed capacity of the drawworks, the maximum loads that should be handled are shown in the table below:

Drum Clutch Transmission

Low Low 8 lines 880 Total Load in 10 lines 1075 Thousand 12 lines 1250 Pounds 14 lines 1420 Nominal drilling depth range Wireline Size

High 550 670 785 890

High Low 350 425 500 565

High 215 265 310 350 16,000 to 25,000 ft. 1-1/2”

Chain Specificaions 2-1/2” Triple Chain (Heavy) (RC-250-S-3) Low Drum Drive High Drum Drive

www.nov.com

104 Pitches 84 Pitches

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EPL-1439 03 143

2-1/2” Single Chain (Heavy) (RC-250-S) Rotary Countershaft Drive Catshaft Drive

82 Pitches 76 Pitches

1-3/4” Sextuple Chain (ASA-140-6) *Transmission Low Speed (Sprocket ratio 25/52) *Transmission High Speed (Sprocket ration 25/83)

112 Pitches 94 Pitches

Weights (Estimated) Drawworks Front Section (less optional equipment)

67,130#

Core Reel

4,300#

Rotary Countershaft Unit Main Drive Frame

7,125# 8,530#

60” Hydromatic Brake with Cradle and Type “A” Over-running Clutch

11,895#

Drawworks Complete as Above

98,980#

*1625-DE transmission chain shown is for standard GE-752 or EMD D-79 motor installation only.

www.nov.com

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EPL-1439 03 144

Drawworks Dimensions Width, Main Section Width, Front Section Width, Rear Drawworks (Motor Drive Frame) Width, Overall Length, Overall Height, with Core Reel Height, less Core Reel 11.8

Dimensional Specifications 1625-DE Drawworks

Drum Shaft Shaft Diameter at Drum Support 18.14 Shaft Diameter at Drum Support (Drillers end) 11.500” (Serial Shaft Diameter at Drum Support (Rotary end) 11.437” No. T-2481 Shaft Diameter at Center Section 11.462” and up) Shaft Diameter at Center Section 11.25” Shaft Diameter at Main Bearings 9.4505” Bearing Center Distance 94.500” High Drum Friction Clutch 46” x 10” Dy-A-Flex Low Drum Friction Clutch 42-C National Air Clutch CAT Shaft Maximum Shaft Diameter 6.750” Shaft Diameter at Bearings 6.003” Bearing Center Distance 95.500” Shaft Diameter at Coring Reel Bearings 6.301” Coring Reel Bearing Center Distance 57.750” Coring Reel Friction Clutch 28” x 5-1/4” Dy-A-Flex Rotary Drive Countershaft Maximum Shaft Diameter 4.726” Shaft Diameter at Bearings (Clutch End) 3.939” Shaft Diameter at Bearings (Sprocket End) 4.726” Bearing Center Distance 23.750” Rotary Drive Friction Clutch 28” x 5-1/4” Dy-A-Flex Rotary Inertia Brake 14-CB-400 Fawick Hoisting Drum Spool Size 36” Dia. x 61-1/4” Long Flange Diameter 63.250” Hoisting Drum Brakes Brake Rims (Water Cooled) 62” O.D. x 10-3/8” Wide Lining (Each Band) 12pcs. 1-1/4” x 10” x 13” www.nov.com

9’-11” 3’-2-1/2” 4’-11” 18’-1/2” 25’10” 9’-9-5/16” 9’-9-5/16”

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Brake Band Effective Area (2 Bands)

3120 Sq. In. Coring Reel Drum Spool Size 14” Dia. x 57” Long Flange Diameter 44” Spooling Capacity (1/2” Wire Line) 26,600 ft. Spooling Capacity (9/16” Wire Line) 20,500 ft. Spooling Capacity (5/8” Wire Line) 16,600 ft. Coring Reel Brakes Brake Rims 42” x O.D. x 8-5/8” Wide Lining (Each Band) 9 pcs. 3/4" x 8” x 11-1/2” Brake Band Effective Area (2 Bands) 1656 Sq. in. Jack Shaft Maximum Shaft Diameter 9.760” Shaft Diameter at Bearings (Drillers End) 8.664” Shaft Diameter at Bearings (Rotary End) 7.876” Bearing Center Distance 98” Main Drive Shaft Maximum Shaft Diameter 5.507” Shaft Diameter at Bearings 5.119” Bearing Center Distance 53.500” 11.9

Parts Fit – 1625-M, 1625-DE Drawworks

Part No. YS-4505 ZS-4720 ZS-3933 YS-4503 623078 626245-A YS-5250 626350-A 626348 622924 622926 622923 622925-X 623765 623077-A 641174

www.nov.com

Part Name

Location Rotary Countershaft Assembly Oil Seal In Housing Bearing On Shaft Bearing On Shaft Oil Seal In Housing Spacer On Shaft Clutch Hub On Shaft Oil Seal In Housing Bearing Assy. On Shaft Retainer In Sprocket Outer Race In Sprocket Spacer In Sprocket Inner Race On Shaft Spacer On Shaft Spacer On Shaft Spacer On Shaft Spacer On Shaft Drum Shaft Assembly

Fit .003” Tight to .006” Tight .0006” Tight to .0024” Tight .0005” Tight to .0015” Tight .003” Tight to .007” Tight .002” Loose to .004” Loose .002” Tight to .004” Tight .004” Tight to .008” Tight .002” Loose to .004” Loose .001” Loose to .007” Loose .001” Tight to .003” Tight .002” Loose to .006” Loose .001” Tight to .003” Tight .002” Loose to .006” Loose .001” Tight to .003” Tight .002” Loose to .003” Loose .002” Loose to .012” Loose

Document number Revision Page

YS-9750 629705 ZS-8663 619274 619275 ZS-9441 YS-11000 629730 629703

In Housing .006” Tight to .010” Tight On Shaft .001” Loose to .004” Loose On Shaft .0006” Tight to .0028” Tight In Sprocket .002” Tight to .005” Tight On Shaft .003” Tight to .005” Tight On Shaft .0007” Tight to .0029” Tight In Housing .006” Tight to .010” Tight On Shaft .001” Tight to .004” Tight On Shaft .005” Loose to .013” Loose Coring Reel Shaft Assembly 626927 Spider On Shaft .002” Tight to .004” Tight 626929 Spacer On Shaft .001” Loose to .008” Loose YS-6750 Oil Seal In Housing .005” Tight to .009” Tight ZS-6290 Bearing On Shaft .0008” Tight to .0028” Tight 622899 Spacer On Shaft .002” Loose to .006” Loose 641137-A Sprocket On Shaft .001” Tight to .003” Tight 641136 Spacer On Shaft .003” Loose to .009” Loose 626931 Spacer On Shaft .002” Loose to .008” Loose 1625-M Main Drive Shaft Assembly 645220 Reverse Gear On Shaft .005” Loose to .008” Loose ZS-8664 Bearing On Shaft .0016” Tight to .0038” Tight 645244 Spacer On Shaft .001” Loose to .004” Loose 645221 Sprocket On Shaft .010” Tight to .012” Tight 645225 Sprocket On Shaft .010” Tight to .012” Tight 629690 Washer In Housing .001” Tight to .004” Tight 629689 Inner Race In Housing .001” Tight to .003” Tight 629691 Washer In Housing .001” Tight to .004” Tight 645266-A Spacer On Shaft .004” Tight to .006” Tight 645249 Spacer On Shaft .001” Loose to .004” Loose 645247 Spacer On Shaft .001” Loose to .004” Loose 1625-DE Motor Drive Shaft Part No. 646514 ZS-5116 Bearing On Shaft .0004” Tight to .0024” Tight 620643 Spacer On Shaft .0005” Tight to .0015” Tight 629107 Spacer On Shaft .001” Loose to .004” Loose ALL SPROCKETS On Shaft .005” Tight to .007” Tight 1625-DE Motor Drive Shaft Part No. 641135 619027 Spacer On Shaft .001” Loose to .004” Loose ZS-5116 Bearing On Shaft .0004” Tight to .0024” Tight 620643 Spacer On Shaft .0005” Tight to .0025” Tight 629107 Spacer On Shaft .001” Loose to .004” Loose 641153-A Spacer On Shaft .0005” Tight to .0025” Tight ALL SPROCKETS On Shaft .005” Tight to .007” Tight 1625-M Jack Shaft Assembly www.nov.com

Oil Seal Seal Ring Bearing Outer Race Inner Race Bearing Oil Seal Spacer Spacer

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Document number Revision Page

645223 645272 ZS-8664 645246 629707 629682 645236 629690 645228 645271 645221 645219 645245 645273 YS-10000

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641176 641159 641157 641162 641169 SKF-22244 ZS-7871 641170 641158 629707 641155 641154 641161 641167 629690 641138 641172

Reverse Gear On Shaft .0035” Tight to .005” Tight Spacer On Shaft .0005” Loose to .0035” Loose Bearing On Shaft .0016” Tight to .0038” Tight Spacer On Shaft .001” Loose to .004” Loose Retainer In Sprocket .001” Tight to .004” Tight Outer Race In Sprocket .001” Tight to .004” Tight Inner Race On Shaft .001” Tight to .003” Tight Retainer On Shaft .001” Tight to .004” Tight Hub On Shaft .004” Tight to .006” Tight Spacer On Shaft .010” Tight to .012” Tight Sprocket On Shaft .010” Tight to .012” Tight Sprocket On Shaft .010” Tight to .012” Tight Spacer On Shaft .001” Loose to .004” Loose Spacer On Shaft .001” Loose to .004” Loose Oil Seal In Housing .006” Tight to .008” Tight 1625-M Low Jack Shaft Assembly Bearing On Shaft .0009” Tight to .0029” Tight Sprocket On Shaft .008” Tight to .010” Tight Spacer On Shaft .005” Loose to .0025” Tight Sprocket On Shaft .0035” Tight to .0055” Tight 1625-DE Jack Shaft Assembly Hub On Shaft .003” Tight to .005” Tight Retainer In Sprocket .001” Tight to .003” Tight Inner Race On Shaft .001” Tight to .003” Tight Spacer On Shaft .002” Loose to .006” Loose Spacer On Shaft .000” to .003” Tight Bearing On Shaft .0016” Tight to .0038” Tight Bearing On Shaft .001” Tight to .0032” Tight Spacer On Shaft .000” to .003” Tight Thrust Ring On Shaft .008” Tight to .010” Tight Retainer In Sprocket .001” Tight to .004” Tight Inner Race On Shaft .001” Tight to .003” Tight Outer Race In Sprocket .001” Tight to .004” Tight Spacer On Shaft .002” Loose to .006” Loose Spacer On Shaft .002” Loose to .006” Loose Retainer In Sprocket .001” Tight to .004” Tight Hub On Shaft .010” Tight to .012” Tight Spacer On Shaft .000” to .001” Tight

YS-4180 ZT-7503 ZA-4503

Type “A” Make-Up and Break-Out Cathead Oil Seal In Housing .004” Tight to .006” Tight Bearing In Drum .002” Tight to .005” Tight Bearing On Shaft .001” Tight to .003” Tight

ZS-7080 645226 645234 645227

www.nov.com

Document number Revision Page

ZT-9250 618811 ZT-6003

Bearing Spacer Bearing

In Drum On Shaft On Shaft

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.003” Tight to .007” Tight .005” Loose to .020” Loose .001” Tight to .003” Tight

11.10 Type 1625-M/DE Drawworks Part No.

Description

Drum Shaft Assembly YS-11000 Oil Seal YS-9750 Oil Seal 619397-S Brake Rims 619289 Bearing Retainer Gasket 610238 Outlet Connection Packer 619268-A Roller Bearing Assembly 619274 Outer Race 619275 Inner Race ZS-8663 Bearing ZS-9441 Bearing *619403 Brake Rim Water Packing *619405 Elbow Gasket *619406 Brake Rim Water Pipe **650226-A Hose Assembly **650227-A Hose Assembly **SF-1002-20-20 Stratoflex Bulkhead Adapter 90° Degree Elbow **SF-1284-20 Stratoflex Bulkhead Nut *Used on Drawworks up to and including S/N T-2478 **Used on Drawworks S/N T-2481 and up Air and Water Connection Rotary and Drillers End 617553 Water and Oil Seal 617552 Water and Oil Seal 610617 Housing Clamp Ring 612385 Body Gasket YS-2620 Oil Seal 618351 Packing Nut 618350 Flanged Elbow Washer 618412 Connecting Nipple Sleeve 618364-1 Connecting Nipple ZS-2364 Bearing ZS-2751 Bearing ZT-2810 Bearing 46” x 10” Dy-A-Flex Clutch (High) 626165 Diaphragm www.nov.com

Col. 1

1

2 10 1 2 1 2 1

Col. 2 2 1 2 1 1 1 1 1 2 4 2 2 1 4 2 2

2 1

1 1 2 1

Document number Revision Page

626163-G 9112 AN-6227-12 626164 622124 -624660-3 YS-10003 AN-6227-82 625092 625226 ZT-10370 619458-2A 619458-3A 627927-G 618763 618768 NCS-486024 NC-263520 618869-C 617546 617547 622845 619269-A 619279 619289 YS-9750 YS-1500 AN-6227-59 619268-A 619274 619275 ZS-8663 641242 --

www.nov.com

Friction Shoe Lining with (28) 621661 ) Keepers, Bolts, & Shakeproof Light Keps ) 1/2" Fawick Quick Release Valve “O” Ring Shoe Flat Spring 5/8” OD x .065” Wall x 4-11/16” Lg. ) Steel Tubing (Spec. T-425) ) Type “A” Over-running Clutch Shim (.005”) Oil Seal “O” Ring Spring Roller Shoe Bearing K-62 Brake Installation Brake Band Assembly (1625-DE Only) Brake Band Assembly (1625-M Only) Friction Shoe lining with (144) lining ) Screws and Shakeproof Nuts ) Titeflex Hose Titeflex Hose Torrington Bearing Torrington Bearing 42-B Air Clutch (low) Diaphragm Connection Compression Packer Water Outlet Spear Air Clutch Diaphragm Lining Disc Assembly Springs Bearing Retainer Gasket Oil Retainer Oil Retainer “O” Ring Roller Bearing Assembly Outer Race Inner Race Bearing Water Level Control Unit Gasket 1/2” ID x 1-1/8” OD x 3/16” Thick ) Neoprene Gasket

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2

16 (1 set) 2 16 16 2 3 2 2 20 20 2

2 2

1 1 1 1

1

2 2 24 (1 set) 2 4

2 48 1 1 4 1 1 1 1 1 1

Document number Revision Page

AN-6227-48 222227 618819 618808-A 618796 618818 618795 AN-6227-19 YS-4180 -ZT-6003 ZT-7503 ZT-9250 ZA-4503 YS-6750 ZS-6290 620786 620962 A-380-100 3/8” 625392 625298-G 10785 AN-6227-10 625293 625294 -620116 623805 ZS-1570 629694-A 629707 629690 641159 619319-A www.nov.com

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“O” Ring Type 9, Bendix-Westinghouse Rotochamber Type “A” Make-Up and Break-Out Catheads Clutch Plate Spring Clutch Friction Plate Assembly (Break-out) Clutch Lining Piston Spring Diaphragm “O” Ring Oil Seal #7-12 x 3/16” Semi-Tubular Brass Rivets Bearing Bearing Bearing Bearing Core Reel Shaft Assembly Oil Seal Bearing Core Reel Brake Band Assembly Lining Keeper Lining Raybestos-Manhattan Bolt Shakeproof N.C. Light Kep 28” x 5-1/4” Dy-A-Flex Clutch Assembly Diaphragm Friction Shoe Lining with (24) 625299 ) Keepers, 48 Bolts, & Shakeproof Light Keps ) Fawick Quick Release Valve “O” Ring Clutch Spring Clutch Shoe 1/2" O.D. x .032” Wall x 2-1/16” Lg.) Steel Tubing (Spec. T-425) Rope Roller Bracket Assemblies Rope Roller – Long Rope Roller - Short Bearing Jack Shaft Assembly Shifter Ring Assembly Bearing Retainer Ring Bearing Retainer Ring Bearing Retainer Ring (1625-DE Only) Shifter Ring Assembly )

1 1 14 1 12 16 2 1 2 96 1 1 1 1 1 2 36 18 72 72 1 12 1(set) 1 1 12 12 1 1 3 8 3 3 5 2 1

Document number Revision Page

AN-6227-17 YS-10000 629687-A 645236 629682 ZS-8664 ZS-7080 612738-A 641157 641155 641154 ZS-7871 14-CB-400 YS-4503 YS-5250 YS-4505 ZS-3933 ZS-4720 621331-A 622923 622924 49 P-51125-2 P-52935-3 P-52935-4 B-2 C-2 12-002-017 12-002-010 713-4-7 713-9001-23 46-S-8 614925 623004 SLA-1.5-30

www.nov.com

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“O” Ring ) (1625-M Only) Oil Seal ) Roller Bearing Assembly Inner Race ) Outer Race ) (1625-M Only) Bearing ) Bearing (Low Jack Shaft Only) ) Roller Bearing Assembly Inner Race ) Inner Race ) (1625-DE Only) Outer Race ) Bearing ) Rotary Countershaft Assembly Fawick Element Oil Seal Oil Seal Oil Seal Bearing Bearing Roller Bearing Assembly Inner Race Outer Race Foot Pedal Assembly (1625-M Only) California Spring, 7/8” O.D. x 2-1/2” Long WABCO H-3 Air Valve w/100 psi Spring Water & Air System Piping Installation WABCO 3/8” Quick Release Valve WABCO 1/2” Quick Release Valve Fawick Rotorseal Fawick Rotorseal 1/2" Norgren filter (30-AE-4) 1/2" Norgren Lubricator (Q-41-4) Lubrication System #4 Brown & Sharpe Oil Pump 3/4" Brown & Sharpe Relief Valve ) w/75# Spring ) 1” Pipe Size Pioneer Strainer Oil Pump Sprocket, (38-T, 5/8” P. Single) ) (1625-DE Only) ) Oil Pump Sprocket, (22-T, 5/8” P. Single) ) (1625-M Only) ) Synclinal Filter (50 Mesh) (1625-M Only) EMD OR GE-752 Motor Drive Installation (1625-DE Only)

2 1 2 2 1 2 2 4 2 2 2 1 1 2 2 1 1 1 2 2 2 1 1 1 1 1 1

1 1 1 1 2 1 1 1

Document number Revision Page

618736 619077-3 --236529 ZS-5116 612744-A 645243 629694-A 629690 629691 629687-A 629689 ZS-8664 620252 620447 P-51125-2 P-51125-4 P-52935-3 P-54350-2 023-725 023-718 P-59028 ASA-50 RC-250-S RC-250-S3 ASA-50 RC-250-S RC-250-S3 ASA-140-6 ASA-50 RC-250-S RC-250-S3 ASA-140-6 223-10 223-6 434-10-10 442-6-6 www.nov.com

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Coupling Gasket Brake Lining 3/8”-16 x 1” Brass Flat Head Machine Screws ) For 3/8”-16 Iron Square Nuts ) Inertia Diaphragm ) Brake Bearing Main Drive Shaft Assembly (1625-M Only) Shifter Ring Assembly Oil Pump Sprocket (51-T, 5/8” P. Single) Shifter Ring Assembly Thrust Washer Thrust Washer Roller Bearing Assembly Inner Race Bearing Control Column Installation Spring, Throttle Control Spring, Cathead Air Valve H-3 Control Air Valve, WABCO H-3 Control Air Valve, WABCO 3/8” Quick Release Valve, WABCO 1/4" Double Check Valve, WABCO 2-1/2” 0-200# Marsh Rigmaster Gauge 2-1/2” 0-100# Marsh Rigmaster Gauge H-3 Controlair Valve Repair Kit Chain 76 Pitches, 5/8” Pitch, Single (1625-M Only) 74 Pitches, 2-1/2” Pitch, Single (Heavy) (1625-M Only) 106 Pitches, 2-1/2” Pitch, Triple (Heavy) (1625-M Only) 130 Pitches, 5/8” Pitch, Single (1625-DE Only) 82 Pitches, 2-1/2” Pitch, Single (Heavy) (1625-DE Only) 104 Pitches, 2-1/2” Pitch, Triple (Heavy) (1625-DE Only) 112 Pitches, 1-3/4” Pitch, Sextuple (1625-DE Only) Connecting Link Connecting Link Connecting Link Connecting Link (1625-DE Only) Bulk Hose & Fittings Stratoflex Hose 25’0” Long Stratoflex Hose 25’0” Long Stratoflex Swivel Stratoflex Swivel

2 1 24 24 1 2 1 1 1 1 1 2 1 2

3

2 2 1 2 1 1 1 1 1 pc. 1 pc. 1 pc. 1 pc. 1 pc. 1 pc. 1 pc. 1 1 1 1 1 pc. 1 pc. 8 8

Document number Revision Page

48 49 48 49

www.nov.com

5/8” OD to 1/2” N.P.T. Half Coupling 5/8” OD to 1/2" N.P.T. Elbow 3/8” OD to 1/4" N.P.T. Half Coupling 3/8” OD to 1/4" N.P.T. Elbow

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4 4 4 4