46 3 4MB
User Guide
Elevator Destination Group Control System User Guide
A00 Data code 19010967
Preface
Preface
Thank you for purchasing the integrated elevator destination group control system developed by Suzhou Monarch.
This product can work with the NICE series integrated elevator controllers to implement intelligent dispatch of elevator groups in buildings. The guide provides users with instructions on model selection, installation, parameter setting, on-site commissioning, and maintenance. In order to correctly use this product, read this guide carefully before use, and keep the guide carefully for future reference. Notes
◆◆ For illustration purpose, the drawings in this guide are sometimes shown without covers or protective guards. Remember to install the covers or protective guards as specified before using the product, and perform operations in accordance with the instructions. ◆◆ The drawings in this guide are for illustration only. Actual products may vary.
◆◆ The instructions are subject to change, without notice, due to product upgrade, specification modification as well as efforts to increase the accuracy and convenience of the user guide.
◆◆ Contact the regional agents or customer service center of Inovance if you have problems during use. ◆◆ E-mail: [email protected].
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Contents
Contents
Preface..................................................................................................................................... 1 Introduction............................................................................................................................. 4 Revision History...................................................................................................................... 7 Safety Instructions.................................................................................................................. 8 Safety Precautions.............................................................................................................8 Safety Levels and Definitions............................................................................................8 Safety Instructions.............................................................................................................8 Safety Signs.......................................................................................................................12
Chapter 1 Product Information............................................................................................ 13 1.1 System Components................................................................................................ 13 1.2 System Principle....................................................................................................... 14 1.3 Model Number.......................................................................................................... 15 1.3.1 Group Control Board...............................................................................................15 1.3.2 Floor Selector...........................................................................................................15 1.3.3 Touchscreen-Type Floor Selector Bracket...........................................................15 1.3.4 IC Card Options........................................................................................................15 1.3.5 Car Display................................................................................................................16
1.4 Technical Data........................................................................................................... 16 1.4.1 Group Control Board...............................................................................................16 1.4.2 Car Display................................................................................................................16
1.4.3 Floor Selector...........................................................................................................17
Chapter 2 Mechanical and Electrical Installation............................................................... 18 2.1 Installation Environment Requirements................................................................. 18 2.2 Group Control Board................................................................................................ 18
2.2.1 Dimensions...............................................................................................................18
2.2.2 Terminal Description...............................................................................................19
2.3 Floor Selector............................................................................................................ 21 2.3.1 Function Description..............................................................................................21 2.3.2 Installing the 10.4-Inch Wall-Mounted Touchscreen...........................................21
2.3.3 Installing the 10.4-Inch Vertical Touchscreen......................................................23 2.3.4 Installing the 15-Inch Wall-Mounted Touchscreen..............................................25 2.3.5 Installing the 15-Inch Vertical Touchscreen.........................................................27 2.3.6 Installing the Keypad-Type Floor Selector...........................................................28
2.3.7 Terminal Description...............................................................................................30
2.4 Car Display ............................................................................................................... 31
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2.4.1 Dimensions...............................................................................................................31
Contents
2.4.2 Terminal Description...............................................................................................31 2.4.3 Function Description...............................................................................................31
2.5 Wiring of the Elevator Destination Group Control System.................................... 33
Chapter 3 System Commissioning....................................................................................... 34 3.1 LED Operating Panel................................................................................................. 34 3.2 Operations of the MCTC-DDS-T Series Floor Selector............................................ 37 3.2.1 Interface Description..............................................................................................37 3.2.2 Key Description........................................................................................................37 3.2.3 Parameter Settings.................................................................................................37 3.2.4 Elevator Calls...........................................................................................................38
3.3 Operations of the MCTC-DDS-K1 Series Floor Selector......................................... 39 3.3.1 Introduction to the Floor Selector ........................................................................39
3.3.2 Description of Keys..................................................................................................40 3.3.3 Parameter Settings.................................................................................................41 3.3.4 Elevator Calls...........................................................................................................42 3.3.5 Selecting a Destination Floor by the Disabled.....................................................43
3.4 Quick System Commissioning................................................................................. 44
Chapter 4 Parameters........................................................................................................... 46 4.1 Parameters of the Group Control Board................................................................. 46 4.2 Parameters of the Floor Selector ............................................................................ 60
Chapter 5 Parameter Description........................................................................................ 64 5.1 Description of Group Control Board Parameters................................................... 64 Group F0: Basic Parameters........................................................................................... 64
Group F1: Terminal Parameters......................................................................................67
Group F2: Zoning Parameters.........................................................................................68
Group F3: Traffic Time Setting Parameters...................................................................70 Group FU: System Monitoring Parameters....................................................................76
Group FP: User Parameters.............................................................................................89
5.2 Description of Floor Selector Parameters............................................................... 89
Group F0: Display Parameters.........................................................................................89 Group F1: Basic Parameters............................................................................................90
Group F2: Floor Display Parameters...............................................................................92
Group FP: Protection Parameters...................................................................................93
Chapter 6 Maintenance......................................................................................................... 95 6.1 Daily Maintenance.................................................................................................... 95 6.2 Periodic Inspection................................................................................................... 95 6.3 Storage...................................................................................................................... 95
Warranty Agreement............................................................................................................. 96
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Introduction
1) Product introduction
Introduction
The elevator destination group control system with an integration of the intelligent chip and intelligent group control algorithm works with the NICE series integrated elevator controller to implement intelligent dispatch of elevator groups in buildings. 2) Features
■■ Group control for all destination floors
A destination floor selector is installed on each floor. ■■ Group control of multiple elevators
Group control can be implemented for up to eight elevators.
■■ Highly-efficient and safe group control system developed based on the CAN bus. The group control system is safe and stable, and can respond to calls more quickly. ■■ Reduced elevator system cost of a building
Zoned elevator control effectively reduces the waiting and travel time of passengers as well as the total number of elevators required in a building. ■■ Energy-saving
Highly-efficient elevator dispatch reduces the number of operation times of elevators in a building, thereby saving electric energy. ■■ Flexible
This system is equipped with multiple transportation modes, and with the functions of traffic mode time setting and intelligent traffic mode learning. These flexible configurations can meet the requirements of various application scenarios in buildings. ■■ User-friendly
This system is equipped with real-time guidance function. The floor selector can quickly display the ID and direction of the assigned elevator upon receiving a valid elevator call. ■■ Intelligent
This system is equipped with automatic traffic mode learning function. Based on the historical traffic data, the system forecasts the traffic mode appropriate for the following moment. ■■ Performance evaluation
The performance evaluation function allows you to accurately evaluate the performance of the group control system.
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3) Function list Function
Dispersed elevator waiting
VIP function Operation limit with backup power supply
Introduction
Description
When the group control system detects that the waiting time of an elevator has reached the specified value, it instructs the elevator to return to the main floor. Elevator waiting modes: ◆◆ Main floor elevator waiting: Users can specify three main floors and set the number of waiting elevators for each of the floors. ◆◆ Zoned elevator waiting: If users set the zones by themselves, the system instructs the elevators that have reached the maximum idle time to wait in these zones. Otherwise, the system automatically calculates the number and length of zones based on the number of elevators and the height of a building, and instructs the elevators that have reached the maximum idle time to wait in these zones.
If a call from a VIP floor is received and the VIP switch is active, the VIP input is valid and the related elevator runs in VIP mode. The group control system does not send other calls to the elevator, ensuring that the elevator serves only for VIP personnel. When the main power supply of a building fails and the system is powered by the backup power supply, the number of operational elevators is limited. Users can set the number of operational elevators by themselves.
Traffic mode time setting
The traffic mode within a specified period of time can be set in two methods: ◆◆ Set by users.
User-defined traffic mode
Users can set the traffic mode for each of the 10 periods per day. For a week, they can set the mode for 70 periods in total.
Automatic traffic mode learning
◆◆ Set through automatic traffic mode learning.
The system is equipped with automatic traffic mode learning. Based on the parameters of each period in each day of each week stored in SD card as well as the historical data, the system forecasts the traffic mode for the next moment. The large amount of historical data makes the forecast more intelligent and accurate.
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Introduction
Function
Description
Energy-saving mode Up peak mode
Multiple traffic modes
Down peak mode Normal traffic mode Sudden peak hour mode
After the system enters the up peak mode, if an elevator has no call to respond, it returns to the peak service floor to ease the up traffic jam on this floor. This mode is available if zones are defined, so as to better ease the down traffic jam. When an elevator is idle, it returns to the terminal floor that is away from the down peak floor in that zone. If zones are not defined, the software automatically sets the zones.
When the traffic is normal and elevator calls do not differ greatly across floors, the system works in this mode.
You can set the floors for the sudden peak hour service and the number of elevators for these floors. If more than three calls are received from a peak floor and no elevator is available on the floor, the system sends the preset number of elevators to that floor to better provide services for the floor.
Disability service
This function enables the system to assign an accessible elevator when there is a call. In addition, a voice prompt is given when keys are pressed.
Group control output
Parameters can be used to view some indicators of the group control system in a certain period of time, including the average waiting time, average travel time, full-load rate, and long-time waiting rate.
Real-time guidance
Zoned service Grouping
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When the traffic is light, the system enters the energysaving mode. Based on the group control rule, fewer elevators are running to save energy within the allowable range of waiting time.
After a call from a floor is received, the floor selector displays the ID of the assigned elevator in real time.
Service zones are defined for elevators based on the building height and number of floors. Zones can be defined automatically or manually.
When multiple passengers need to take elevators at the same time to the same floor, enter the number of passengers and the destination floor. The system then automatically sets the number of elevators that provide services for the passengers.
Date
April 2019
Revision History
Version A00
First release.
Revision History
Change Description
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Safety Instructions
Safety Precautions
Safety Instructions
1) Before installing, using, and maintaining this equipment, read the safety information and precautions thoroughly, and comply with them during operations. 2) To ensure the safety of humans and equipment, follow the signs on the equipment and all the safety instructions in this user guide.
3) "CAUTION", "WARNING", and "DANGER" items in the manual do not indicate all safety precautions that need to be followed; instead, they just supplement the safety precautions. 4) Use this equipment according to the designated environment requirements. Damage caused by improper usage is not covered by warranty.
5) Inovance shall take no responsibility for any personal injuries or property damage caused by improper usage.
Safety Levels and Definitions DANGER
indicates that failure to comply with the notice will result in severe personal injuries or even death.
indicates that failure to comply with the notice may result in severe
WARNING personal injuries or even death.
indicates that failure to comply with the notice may result in minor
CAUTION personal injuries or damage to the equipment.
Safety Instructions
Unpacking
CAUTION
◆◆ Check whether the packing is intact and whether there is damage, water seepage, damp, and deformation. ◆◆ Unpack the package by following the package sequence. Do not hit the package with force. ◆◆ Check whether there are damage, rust, or injuries on the surface of the equipment or equipment accessories. ◆◆ Check whether the number of packing materials is consistent with the packing list.
WARNING
◆◆ Do not install the equipment if you find damage, rust, or indications of use on the equipment or accessories. ◆◆ Do not install the equipment if you find water seepage, component missing or damage upon unpacking. ◆◆ Do not install the equipment if you find the packing list does not conform to the equipment you received.
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Safety Instructions
Storage and Transportation
CAUTION
◆◆ Store and transport this equipment based on the storage and transportation requirements for humidity and temperature. ◆◆ Avoid transporting the equipment in environments such as water splashing, rain, direct sunlight, strong electric field, strong magnetic field, and strong vibration. ◆◆ Avoid storing this equipment for more than three months. Long-term storage requires stricter protection and necessary inspections. ◆◆ Pack the equipment strictly before transportation. Use a sealed box for long-distance transportation. ◆◆ Never transport this equipment with other equipment or materials that may harm or have negative impacts on this equipment.
WARNING
◆◆ Use professional loading and unloading equipment to carry large-scale or heavy equipment. ◆◆ When carrying this equipment with bare hands, hold the equipment casing firmly with care to prevent parts falling. Failure to comply may result in personal injuries. ◆◆ Handle the equipment with care during transportation and mind your step to prevent personal injuries or equipment damage. ◆◆ Never stand or stay below the equipment when the equipment is lifted by hoisting equipment.
Installation
WARNING
◆◆ Thoroughly read the safety instructions and user guide before installation. ◆◆ Do not modify this equipment. ◆◆ Do not rotate the equipment components or loosen fixed bolts (especially those marked in red) on equipment components. ◆◆ Do not install this equipment in places with strong electric or magnetic fields. ◆◆ When this equipment is installed in a cabinet or final equipment, protection measures such as a fireproof enclosure, electrical enclosure, or mechanical enclosure must be provided. The IP rating must meet IEC standards and local laws and regulations.
DANGER
◆◆ Equipment installation, wiring, maintenance, inspection, or parts replacement must be performed by only professionals. ◆◆ Installation, wiring, maintenance, inspection, or parts replacement must be performed by only experienced personnel who have been trained with necessary electrical information. ◆◆ Installation personnel must be familiar with equipment installation requirements and relevant technical materials. ◆◆ Before installing equipment with strong electromagnetic interference, such as a transformer, install an electromagnetic shielding device for this equipment to prevent malfunctions.
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Safety Instructions
Wiring
DANGER
◆◆ Equipment installation, wiring, maintenance, inspection, or parts replacement must be performed by only professionals. ◆◆ Never perform wiring at power-on. Failure to comply will result in an electric shock. ◆◆ Before wiring, cut off all equipment power supplies. Wait at least 10 minutes before further operations because residual voltage exists after power-off. ◆◆ Make sure that the equipment is well grounded. Failure to comply will result in an electric shock. ◆◆ During wiring, follow the proper electrostatic discharge (ESD) procedures, and wear an antistatic wrist strap. Failure to comply will result in damage to internal equipment circuits.
WARNING
◆◆ Never connect the power cable to output terminals of the equipment. Failure to comply may cause equipment damage or even a fire. ◆◆ When connecting a drive with the motor, make sure that the phase sequences of the drive and motor terminals are consistent to prevent reverse motor rotation. ◆◆ Wiring cables must meet diameter and shielding requirements. The shielding layer of the shielded cable must be reliably grounded at one end. ◆◆ After wiring, make sure that no screws are fallen and cables are exposed in the equipment.
Power-on
DANGER
◆◆ Before power-on, make sure that the equipment is installed properly with reliable wiring and the motor can be restarted. ◆◆ Before power-on, make sure that the power supply meets equipment requirements to prevent equipment damage or even a fire. ◆◆ At power-on, unexpected operations may be triggered on the equipment. Therefore, stay away from the equipment. ◆◆ After power-on, do not open the cabinet door and protective cover of the equipment. Failure to comply will result in an electric shock. ◆◆ Do not touch any wiring terminals at power-on. Failure to comply will result in an electric shock. ◆◆ Do not remove any part of the equipment at power-on. Failure to comply will result in an electric shock.
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Safety Instructions
Operation
DANGER
◆◆ Do not touch any wiring terminals during operation. Failure to comply will result in an electric shock. ◆◆ Do not remove any part of the equipment during operation. Failure to comply will result in an electric shock. ◆◆ Do not touch the equipment shell, fan, or resistor for temperature detection. Failure to comply will result in heat injuries. ◆◆ Signal detection must be performed by only professionals during operation. Failure to comply will result in personal injuries or equipment damage.
WARNING
◆◆ Prevent metal or other objects from falling into the device during operation. Failure to comply may result in equipment damage. ◆◆ Do not start or stop the equipment using the contactor. Failure to comply may result in equipment damage.
Maintenance
DANGER
◆◆ Equipment installation, wiring, maintenance, inspection, or parts replacement must be performed by only professionals. ◆◆ Do not maintain the equipment at power-on. Failure to comply will result in an electric shock. ◆◆ Before maintenance, cut off all equipment power supplies and wait at least 10 minutes.
WARNING
◆◆ Perform daily and periodic inspection and maintenance for the equipment according to maintenance requirements and keep a maintenance record.
Repair
DANGER
◆◆ Equipment installation, wiring, maintenance, inspection, or parts replacement must be performed by only professionals. ◆◆ Do not repair the equipment at power-on. Failure to comply will result in an electric shock. ◆◆ Before inspection and repair, cut off all equipment power supplies and wait at least 10 minutes.
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Safety Instructions
WARNING
◆◆ Require for repair services according to the product warranty agreement. ◆◆ When the equipment is faulty or damaged, require professionals to perform troubleshooting and repair by following repair instructions and keep a repair record. ◆◆ Replace quick-wear parts of the equipment according to the replacement guide. ◆◆ Do not operate damaged equipment. Failure to comply may result in worse damage. ◆◆ After the equipment is replaced, perform wiring inspection and parameter settings again.
Disposal
WARNING
◆◆ Dispose of retired equipment by following local regulations or standards. Failure to comply may result in property damage, personal injuries, or even death. ◆◆ Recycle retired equipment by following industry waste disposal standards to avoid environmental pollution.
Safety Signs
For safe equipment operation and maintenance, comply with safety signs on the equipment, and do not damage or remove the safety labels. The following table describes the safety signs. Safety Sign
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Description
◆◆ Read the user guide before installation and operation. Failure to comply will result in an electric shock. ◆◆ Do not remove the cover at power-on or within 10 minutes after power-off. ◆◆ Before maintenance, inspection, and wiring, cut off input and output power, and wait at least 10 minutes until the power indicator is off.
Chapter 1 Product Information
Chapter 1 Product Information 1.1 System Components
The destination group control system groups multiple elevators (up to eight elevators). After a passenger enters the destination floor number using the floor selector, the system assigns one of the elevators to the passenger based on the current operating status of the elevators. The system is composed of a group control board (GCB), floor selectors, and a multielevator control system. The following figure shows the system components. 485 Independent power supply
Power port
CAN1 CANbus
2 3
3
1
2
3
7
8
9
4
5 0
3
6
?
CANbus 1 4 7
2
3
8
9
5 0
1
2
7
8
4
?
MODbus
CTB
3
5 0
...
6 9 ?
-
CCB
CAN8
...
… Arrival indicator for floor 2 Arrival indicator for floor 1
4
232
CAN...
CAN2
6 -
IO
1 MCTC-GCB-B1
Arrival indicator for floor N
-
... 3
Elevator A
RJ45
RUN
LOCAL/REMOT
Hz
RPM
A
PRG
FED/ REV
%
TUNE/TC
V
ENTER
QUICK
RUN
MF.K
STOP RES
Elevator H
CANbus
3
3
1 4 7
2
6 9 -
?
CANbus 1 4 7
2
3
8
9
5 0
1 4 7
?
2
-
MODbus
CTB
3
5
6
8
0
…
6
... 3
Arrival indicator for floor N
3
5 8
0
9 ?
-
CCB
Arrival indicator for floor 2 Arrival indicator for floor 1
Figure 1-1 System components
◆◆ The preceding figure shows a group control example of eight elevators (elevators A, B, C, D, E, F, G, and H).
NOTE
SN
Table 1-1 Name and models of system components
Name
①
GCB
②
Floor selector
Model
MCTC-GCB-B1 MCTC-DDS-T1 MCTD-DDS-T2 MCTC-DDS-K1
Standard
Description
Standard (select at least one from the three models)
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Chapter 1 Product Information
SN
③
Name
Car display Integrated elevator controller
Elevator Car top control board (CTB) system
Car call board (CCB) Hall arrival indicator
④
LED operating panel
1.2 System Principle
Model
MCTC-HCB-T3-DDS NICE series MCTC-CTB MCTC-CCB-A MCTC-HCB-B and related options MDKE
Description
Standard (dedicated to destination group control) For details, see the user guides of NICE series integrated elevator controllers. Optional (See the user guides of NICE series integrated elevator controllers) Optional (For details, consult Inovance).
Optional External LED operating panel, connected to RJ45 port.
The GCB is the core computing unit. The floor selector is the collection unit of registered destination floor information. The integrated elevator controller is the transportation control unit that implements all control and operation functions of an elevator. The car display is the unit that displays the next stop floor, current floor, and elevator running direction. The GCB communicates with the floor selector through the CAN bus to collect passengers’ calls entered using the floor selector. In addition, the GCB exchanges data with the NICE series integrated elevator controllers through the CAN bus. The GCB performs computation and comparison to identify the optimum elevator for a passenger's call. Then, it drives the elevator to take the passenger and sends the ID of the elevator to corresponding floor selector accordingly. The floor selector displays the ID of the elevator to take and makes a corresponding voice prompt.
After receiving the elevator dispatch command sent by the GCB, the integrated elevator controller immediately performs the operation logic control and drives an elevator to take the passenger. After the elevator arrives at the floor where the passenger waits and the passenger enters the car, the controller records the destination floor number automatically and takes the passenger to the destination floor. In addition, the next stop floor, current floor, and elevator running direction are displayed on the car display board. Based on this logic, the destination group control system controls the coordinated operation of each component to complete the transportation task.
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Chapter 1 Product Information
1.3 Model Number
1.3.1 Group Control Board Mark
MCTC – GCB – B1
Product Series
Mark
Option for integrated elevator controllers
MCTC Mark
Destination Floor
Destination floors of eight elevators
B1
Type
GCB
Group control board
1.3.2 Floor Selector Mark
Product Series
MCTC
Option for integrated elevator controllers
Mark
Type
DDS
Figure 1-2 Model number of the GCB
MCTC - DDS -T1-IC
Mark
IC Card Function
IC
Yes
Blank
No
Mark
Floor selector
Size
T1
10.4-inch touchscreen
T2
15-inch touchscreen
K1
4.3-inch keypad
Figure 1-3 Model number of the floor selector
1.3.3 Touchscreen-Type Floor Selector Bracket Mark
MCTC Mark DDS
Mark T1 T2
Product Series
Option for integrated elevator controllers Floor selector
MCTC Mark DCS
Mark
IC Card Function
Blank
No
IC
Type
Mark B1
Size of Compatible Touchscreen
B2
10.4-inch
Yes
Mounting Method
Vertical bracket
Wall-mounted bracket
15-inch
Figure 1-4 Model number of the touchscreen-type floor selector bracket
1.3.4 IC Card Options Mark
MCTC - DDS -T1- B1-IC
Product Series
MCTC - DCB -IC-A
Option for integrated elevator controllers Type
IC card options for elevator destination group control system
Figure 1-5 Model number of IC card options
Mark
Option
A
Controller
C
Card
W
Card writer
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Chapter 1 Product Information
1.3.5 Car Display Mark
MCTC Mark
HCB-T3
MCTC – HCB - T3 - DDS
Product Series
DDS
Type
Standard display board
1.4 Technical Data
Item
Table 1-2 System technical data
Input voltage
Communication mode
Basic Number of elevators supported performance parameters Number of floor selectors supported
1.4.2 Car Display
Communication distance
Specifications
24 VDC (-10% to +10%) CAN communication
Maximum: eight elevators
Each CAN communication port supports 56 floor selectors. The maximum total number of floor selectors is 56 × 8. Above 1000 m
Table 1-3 Technical data of the MCTC-HCB-T3-DDS car display
Item
Specifications
Power supply
24 VDC (-10% to +10%)
Physical dimensions
250 x 194 x 32 (unit: mm)
Display mode
Valid display range Basic performance parameters
Applicable System
Destination group control system
Figure 1-6 Model number of the car display
1.4.1 Group Control Board
Resolution
Communication mode Power consumption
Operating ambient temperature Operating ambient humidity Function
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Mark
Option for integrated elevator controllers
True-color display
197 x 148 (unit: mm) 1024 x 768
485 communication ≤6W
-20℃ to +70℃
Less than 95%RH, non-condensing
Horizontal display, elevator running status display, and destination floor number display
Chapter 1 Product Information
1.4.3 Floor Selector
The floor selector is a key interface for information exchange between users and the control system. It can receive user calls at a hall. The following table shows the main technical data. Table 1-4 Parameters of the floor selector
Model
MCTC-DDS-T1
MCTC-DDS-T2
MCTC-DDS-K1
Size of the display screen
10.4-inch
15-inch
4.3-inch
Equipment power consumption
≤ 7.5 W
≤ 15 W
≤ 12 W
Power supply voltage Valid display range (W x H) Type of LCD
Display resolution (W x H)
Horizontal viewing angle
18–36 VDC
18–36 VDC
159.5 mm × 212.5 mm 305 mm × 229 mm
95 mm × 54 mm
800 × 600 dot
480 × 272 dot
a-Si, LED backlit
a-Si, LED backlit
-70º to +70º
-70º to +70º
-70º to +70º
-10℃ to +60℃
-10℃ to +60℃
-20℃ to 70℃
Vertical viewing angle -70º to +40º Operating ambient temperature Operating ambient humidity
18–36 VDC
10%RH to 90%RH, non-condensing
1024 × 768 dot
-70º to +70º
10%RH to 90%RH, non-condensing
TFT VGA color display
-70º to +40º
10%RH to 90%RH, non-condensing
The models of the touchscreen-type floor selector bracket are shown in the following table. Model
MCTC-DDS-T1-B1 MCTC-DDS-T1-B2 MCTC-DDS-T2-B1 MCTC-DDS-T2-B2
Table 1-5 Parameters of the floor selector bracket
Description
Max. Dimensions (unit: mm)
10.4-inch touchscreen-type floor selector (vertical)
260.5 × 239 × 1020.6
15-inch touchscreen-type floor selector (vertical)
343.4 × 230.28 × 1075.26
10.4-inch touchscreen-type floor selector (wall-mounted) 15-inch touchscreen-type floor selector (wall-mounted)
260.5 × 171.32 × 254.67
343.4 × 224.52 × 436.55
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Chapter 2 Mechanical and Electrical Installation
Chapter 2 Mechanical and Electrical Installation 2.1 Installation Environment Requirements ■■ Ambient temperature: -20℃ to +70℃
■■ Install it in a place free from vibration.
■■ Install it in a place free from direct sunlight, high humidity and condensation. ■■ Install it in a place free from corrosive, flammable, or explosive gas.
■■ Install it in a place free from oil dirt, heavy dust and heavy metal powder.
High temperature and humidity Operating temperature: -20°C to +70°C
Flammable, explosive, or corrosive gas
2.2 Group Control Board
Strong vibration
Combustible material
Do not install the product on the surface of a flammable object.
Sunlight
Oil dirt, heavy dust or heavy metal powder
2.2.1 Dimensions
The MCTC-GCB-B1 is the core component of the group control system. It has eight digital input (DI) terminals and four digital output (DO) terminals. The following figure shows the appearance and dimensions of the MCTC-GCB-B1.
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Chapter 2 Mechanical and Electrical Installation CN15
160
CN14
5
9
4
8
3
7
2
J9
6
1
CN1
MCTC-GCB-BI
148
D78 D71 D65 D60 D55 D51 D46 D41 D94 D85 D86 D81 D80 D79
4-M4
CN2
D17 D15 D13 D12
CN5
D8 D7 D6 D5 D4 D3 D2
CN3
CN4
CN6
CN7
CN8
CN9
CN10
CN11
D1
CN12 CN13
268 280
Figure 2-1 Appearance and dimensions of the MCTC-GCB-B1 (unit: mm)
2.2.2 Terminal Description
24V/COM
Isolated CAN communication power supply
J9 CN1
24V/GND
485+/485DB9 port
RJ45 port
1234
Isolated CAN communication port
Isolated 485 communication power supply
1234
Isolated 485 communication port
232 host controller communication port
GND
24 V power input of the GCB
Remarks +24V
24V/GND
CN3-CN4 CN6-CN13 CANH/CANL CN14
Functions Description
+24V CANH CANL COM
CN15
Mark
+24V 485+ 458GND
Type
Table 2-1 Description of GCB terminals
1234 5
2
3
4 9
8
7
1 6
Connected to the LED operating panel to set and view the parameters of the GCB.
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Chapter 2 Mechanical and Electrical Installation
Type
CN5
Mark
X1-X8/GND
Functions Description
Used for DI: 1. Photocoupler input 2. Input impedance: 4.7 kΩ 3. Voltage range upon level input: 10–30 VDC 4. Max. input current: 5 mA 4.7K
GND
(DI terminals) CN2
Y1-Y4, M1, M2
Relay output Y1 to Y4 Normally open (NO) contact output of the relay: 5 A, 250 VAC/28 VDC
D1 to D8
DI indicators
These indicators becomes ON (green) when the external input signal is active.
Relay output D12 to D17 indicators
D78, D71, D65, D60, D55, D51, D46, and D41
D85, D86, D81 and D80
These indicators indicate the CAN communication status of elevators 1 to 8. Flashing: Indicating that the elevator is in the automatic running state, with normal CAN CAN communication. communication Steady ON: Indicating that the elevator is not indicators in the automatic running state, but the CAN communication is normal. Steady OFF: Indicating that CAN communication of the elevator is interrupted. Reserved
-
D79
24 V power indicator
This indicator becomes ON after the GCB is powered up.
D94
Fault indicator
NOTE
- 20 -
These indicators becomes ON (green) when there is a system output.
This indicator becomes ON if an elevator runs out of the group control or there is a communication error.
Remarks
GND
10
9 8 7 6 5 4 3 2 1
GND
6 5 4 3 2 1
M2 Y4 M1 Y3 Y2 Y1
X8 X7 X6 X5 X4 X3 X2 X1
D1 D2 D3 D4 D5 D6 D7 D8
D12 D13 D15 D17
D78 D71 D65 D60
D55 D51 D46 D41
D79
D94
◆◆ To prevent external communication interference, use the shielded twisted pair (STP) as communication cables and avoid laying them in parallel. ◆◆ The GCB must be powered by an independent 24 V power supply, and cannot share the 24 V power supply with the elevator system.
Chapter 2 Mechanical and Electrical Installation
2.3 Floor Selector
2.3.1 Function Description Function
Table 2-2 Function description of the floor selector
Parameter setting
Disability function
Description
It can be used to set the floor selector parameters. It collects the calls from disabled passengers.
Destination floor information It collects the destination floor information entered by collection passengers using buttons. LCD display
It displays the entered destination floor.
IC card function
It supports the call registration by swiping IC card.
Buzzer prompt
Elevator indication
Voice announcement
It tweets when keys are pressed.
It notifies passengers of the ID of the elevator to wait.
It supports the voice announcement function (applicable only to the touchscreen-type floor selectors).
Floor selection touch button: Passengers can select their destination floor by touching the floor buttons, and then the selected buttons light up.
Available elevator indication: After a passenger selects the destination floor, the floor selector display the ID of the assigned elevator for the passenger to take, reducing waiting time. Soft and clear female voice announcement: After a passenger selects the destination floor, a soft and clear female voice prompts the passenger to take the available elevator, enhancing the riding comfort. Date and week displays: The current date and week are displayed in real time, and you can calibrate them using the touchscreen. Customization: After entering the correct password, the administrator can set various floor selector parameters, such as the floor selector display and function parameters, floor display parameters, and system parameters.
2.3.2 Installing the 10.4-Inch Wall-Mounted Touchscreen 1) Product appearance
Notes: 1) The floor selector consists of a touchscreen (MCTC-DDS-T1-IC) and a wall-mounted bracket (MCTC-DDS-T2-B2-IC). 2) If no IC card reader is equipped, install a black acrylic plate in the position reserved for the card reader. 3) Errors in the physical dimensions or differences in the surface textures of different batches of products may exist. The physical dimensions and surface textures are subject to the actual product.
- 21 -
Chapter 2 Mechanical and Electrical Installation
2) Dimensions
260.5
167.91
43
20
Flange Self-clinching nuts
Round head screws
2 9.
200
Side view
260.5 212.5
160
199.5
130 R5
60
40
5
130
112.4 72.8
.5
88.2
Ø5
77
54.5
Touchscreen dimensions
Dimensions of a black acrylic plate
Dimensions of an IC card
3) Installation procedure
4-Φ8
50
130
50
35
40
40 130
Height above ground: 807 mm
- 22 -
0
72.5
R1
Rear view
54.8
65
20
90
61
57
Ø
Ø1 0
93 .2
40 º 183.92
R1
72.6
185
Front view
Four M3x8 countersunk head screws and four M3 hexagon nuts with flange
0
14 5º
251.1
37.75 56.25
14
Hole dimensions
Step
Chapter 2 Mechanical and Electrical Installation
Step 1: Punch holes in the wall, and install the horn. Options: four M3x8 countersunk head screws and four M3 hexagon nuts with flange
①
Diagram
Step 2: Install the IC card reader (optional). A black acrylic plate has been installed in the position reserved for the card reader before delivery. Options: four M3 hexagon nuts with flange
Step 3: Install the bracket. Method 1: Install the bracket on the solid slab wall (by default). Options: four M8 bolts (standard) Method 2: Install the bracket on the metal slab wall. Options: four M8x16 bolts, four M8 washers, and four M8 nuts (prepared by users)
②
③
④
Step 4: Install the floor selector. Options: six M3 hexagon nuts with flange
2.3.3 Installing the 10.4-Inch Vertical Touchscreen 1) Product appearance
Notes: 1) The floor selector consists of a touchscreen (MCTC-DDS-T1-IC) and a vertical bracket (MCTC-DDS-T1-B1-IC). 2) If no IC card reader is equipped, install a black acrylic plate in the position reserved for the card reader. 3) Errors in the physical dimensions or differences in the surface textures of different batches of products may exist. The physical dimensions and surface textures are subject to the actual product.
- 23 -
Chapter 2 Mechanical and Electrical Installation
2) Dimensions 200
54.5
20 50 º 40
160
105
72.5
61
212.5
0
4.
135
14
11
199.5
Four M3x6 round head screws and four M3 plain washers 260.5 0 Four M3 R1 selfclinching nuts
115
Screen size
899.91
782.5
101 Dimensions of an IC card
752.5
54.8
72.8 112.4 Dimensions of a black
77
54.5
72.5
1019.5
Four M3x6 countersunk head screws
145
88.2
Four M3x8 countersunk head screws and four M3 hexagon nuts with flange
acrylic plate
30
150
Front view
3) Installation procedure 150
90
Ø6.5
30
36
6
Holes punched in the base
- 24 -
15
30
190
Holes punched in the base
90
120
40
6
30
º
5 6.
36
Ø
90
6
Four M4x12
44
6
Cable outlet hole
200
Right view
countersunk head screws
Step
Step 1: Punch holes in the base, and install the horn. Options: four M3x8 countersunk head screws and four M3 hexagon nuts with flange
Chapter 2 Mechanical and Electrical Installation
Diagram ①
②
Step 2: Install the IC card reader (optional). A black acrylic plate has been installed in the position reserved for the card reader before delivery. Options: four M3 hexagon nuts with flange Step 3: Install the floor selector. Options: four M3x8 cross recessed screws, four M3 washers, and four M3x8 countersunk head screws.
③
Step 4: Install the bracket. Options: four M4x12 countersunk head screws
④
2.3.4 Installing the 15-Inch Wall-Mounted Touchscreen
Notes: 1) The floor selector consists of a touchscreen (MCTC-DDS-T2-IC) and a vertical bracket (MCTC-DDS-T2-B2-IC). 2) If no IC card reader is equipped, install a black acrylic plate in the position reserved for the card reader. 3) Errors in the physical dimensions or differences in the surface textures of different batches of products may exist. The physical dimensions and surface textures are subject to the actual product.
- 25 -
Chapter 2 Mechanical and Electrical Installation
1) Dimensions
Countersunk head screws
15
343.4
50
101
6º
270
Front view 343.4
4
Self-clinching screws
40 º
Hexagon nuts with flange
253.5
11
0
369.17
72.8
112.4
162.32
54.8
98.75
88.2
182
437
Dimensions of an IC card
72.5
7.
65
15
77
54.5
Ø 5. 5
72.5
98.75
26
80
65
39.79
223.36
Dimensions of a black acrylic plate
Side view
Countersunk head screws
314
Hexagon nuts with flange .5
R3
4
R5
200
0
100
130
267.4
200
Ø8
35 146
200 304
Screen view
Rear view
2) Installation procedure
200
60
200 100
60
70
4-
Ø1
0
200
782
Height above ground
Size of holes punched in the sheet metal wall
For details, see the installation of MCTC-DDS-T1 in section "2.3.2 Installing the 10.4-Inch Wall-Mounted Touchscreen".
- 26 -
Chapter 2 Mechanical and Electrical Installation
2.3.5 Installing the 15-Inch Vertical Touchscreen 1) Product appearance
Notes: 1) The floor selector consists of a touchscreen (MCTC-DDS-T2-IC) and a vertical bracket (MCTC-DDS-T2-B1-IC). 2) If no IC card reader is equipped, install a black acrylic plate in the position reserved for the card reader. 3) Errors in the physical dimensions or differences in the surface textures of different batches of products may exist. The physical dimensions and surface textures are subject to the actual product.
2) Dimensions 15 Four M3x6 countersunk head screws
40
35
R
Six M3x6 selfclinching screws and six M3 hexagon nuts with flange
80
343.4 304
65
229 267.4
54.5
30
Ø6
8
19.2
30
40
20
38
90 40.4
Ø6
112.4
901.85
Dimensions of an IC card
54.5
88.2
Ø5 .5
72.8
54.5
80
782.5
4
4.
Screen view
150
Front view
23
104 72.5
250
65
72.5
1073.73
343.4
Base dimensions
32.2
120 200
Top view
- 27 -
Chapter 2 Mechanical and Electrical Installation
3) Installation procedure
47.8
150
90
65.2
Φ6
38
Dimensions of holes punched in the base
For details, see the installation of MCTC-DDS-T1 in section"2.3.3 Installing the 10.4-Inch Vertical Touchscreen".
2.3.6 Installing the Keypad-Type Floor Selector
■■ MCTC-DDS-K1 (the keypad-type floor selector, without IC card function) 1) Product appearance
A 1
2
3
4
5
6
7
8
9
★
0
—
Notes: 1) There are floor buttons and a button specialized for disabled passengers. 2) The elevator direction display indicates the location of the assigned car. 3) Braille numbers are embossed on the buttons of the keypad. 4) Errors in the physical dimensions or differences in the surface textures of different batches of products may exist. The physical dimensions and surface textures are subject to the actual product.
2) Dimensions 16
121.6
128
Φ4.5 mounting hole
- 28 -
94
Backplate
15
95
3-Φ4.5*10 mounting hole Φ40 cable outlet hole
293.5 266
125 30
54
A 1
2
3
8
9
4
5
★
0
7
6
297
—
Keypad Front view
Keypad Side view
3) Installation procedure
Chapter 2 Mechanical and Electrical Installation
Step
Diagram ①
Step 1: Install the backplate. Options: four M4.5x10 countersunk head screws
① ②
Step 2: Punch holes in the upper part of the floor selector back and insert the upper hooks of the backplate into these holes.
Step 3: Punch holes in the lower part of the floor selector back and insert the lower supports of the backplate into these holes.
③
■■ MCTC-DDS-K1-IC (the keypad-type floor selector, with IC card function) 1) Product appearance
A 读卡区 Read Area
1
2
3
4
5
6
7
8
9
★
0
—
Notes: 1) There are floor buttons and a button specialized for disabled passengers. 2) The elevator direction display indicates the location of the assigned car. 3) Braille numbers are embossed on the buttons of the keypad. 4) Errors in the physical dimensions or differences in the surface textures of different batches of products may exist. The physical dimensions and surface textures are subject to the actual product.
- 29 -
Chapter 2 Mechanical and Electrical Installation
2) Dimensions
ď NPVOUJOHIPMF
"
ďDBCMF PVUMFUIPMF
䈫४ 5HDG$UHD
ďNPVOUJOHIPMF
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Nj
LFZQBE 4JEFWJFX
LFZQBE 'SPOUWJFX
#BDLQMBUF
3) Installation procedure
For details, see the installation procedure in section"MCTC-DDS-K1 (the keypad-type floor selector, without IC card function)".
2.3.7 Terminal Description
The floor selector uses CAN communication, and VH3.96-4P terminals are used for wiring. The type and function of these terminals are shown as follows.
1
Function Description
2
CANH
4
GND
3
Terminal Mark +24V/GND CANH/CANL
- 30 -
Remarks
24 V
CANL
Table 2-4 Description of floor selector terminals
Function Description
Keypad-type floor selector
Power interface
CAN communication port used for communication with the GCB
Remarks +24V CANH CANL COM
Terminal Mark
Table 2-3 Description of VH3.96-4P terminals
1234
Chapter 2 Mechanical and Electrical Installation
Terminal Mark
Remarks
Touchscreen-type floor selector
Power interface
+24V CANH CANL COM
+24V/GND
Function Description
CAN communication port used for communication with the GCB
CANH/CANL
1234
2.4 Car Display
2.4.1 Dimensions
The following figure shows the dimensions of the car display. Fix the car display with four M4 nuts.
193.6 144±0.2
148.1±0.2
197.2±0.2
Car display
Backplate
240±0.2 250.3
32
Figure 2-2 Mounting diagram of the car display (unit: mm)
2.4.2 Terminal Description
CN1
Function
Modbus communication and power supply terminals; Pins 2 and 3 are for Modbus communication, and pins 1 and 4 are for power supply.
Wiring
+24V MOD+ MODGND
Terminal Name
Table 2-5 Description of the car display input/output terminals
1234
2.4.3 Function Description
The functions of the car display are described as follows:
1) It displays all status information of an elevator, including the running direction, current floor, and overload/full-load information.
2) It displays the destination floors of an elevator to arrive in real time. A maximum of eight nearest stops can be displayed.
- 31 -
Chapter 2 Mechanical and Electrical Installation
NOTE
◆◆ A maximum of eight destination floors can be displayed. If there are more than eight destination floors, the first destination floor display is removed upon arrival, and then the ninth destination floor is displayed.
The following figure shows the car display interface.
3VOOJOHEJSFDUJPO
8JOEPXJNBHF
$VSSFOU珞PPS %FTUJOBUJPO珞PPST %JTQMBZUIFPWFSMPBE GBVMUJOGPSNBUJPOJO PWFSMPBEGBVMUTUBUF
Destination floors:
Suzhou Inovance Technology Co., Ltd.
5JNF %BZPGXFFL %BUF
8FMDPNFT
Figure 2-3 Car display interface diagram
NOTE
◆◆ The window image, time, day of week, and date can be modified. For details, consult Inovance.
The following figure shows the car display information in overload or fault state.
Destination floors:
Prompt
Warning: overload
Normal
Overload
Prompt
Warning: fault
Fault
Figure 2-4 Examples of the car display interface
- 32 -
Chapter 2 Mechanical and Electrical Installation
7 (/%
2.5 Wiring of the Elevator Destination Group Control System
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5IJT珝HVSFTIPXTUIFTUBOEBSEFMFWBUPS HSPVQDPOUSPMTZTUFNXJSJOH*GZPVIBWF TQFDJBMSFRVJSFNFOUT DPOUBDU*OPWBODF 'PSUIFXJSJOHPGDPOUSPMMFSTBOE$$#T TFFUIFVTFSHVJEFTPGSFMBUFEDPOUSPMMFST
Figure 2-5 Wiring diagram of the elevator destination group control system
- 33 -
Chapter 3 System Commissioning
Chapter 3 System Commissioning 3.1 LED Operating Panel
The LED operating panel can be used to modify parameters, monitor the status and perform other operations to the GCB.
1 Panel introduction
The following figure shows the appearance and function zones of the LED operating panel. Reserved
Reserved
Reserved
RUN
LOCAL/REMOT
FWD/REV
Reserved
TUNE/TC
Data display zone Hz
Programming key
RPM
A
PRG
Reserved
%
Unit indicator
V
Increment key Confirm key
ENTER
Shift key Decrement key Reserved
QUICK
Reserved
RUN
MF.K
STOP RES
Reserved
Figure 3-1 LED operating panel
1) Description of function indicators ■■ RUN: reserved
■■ LOCAL/REMOT: reserved ■■ FWD/REV: reserved ■■ TUNE/TC: reserved
2) Description of unit indicators ( V Hz A % RPM
indicates on;
indicates off)
%: percentage
These indicators are used to display the unit of the value in the LED display zone. If an indicator is on, the corresponding unit is used. If two indicators are on, the unit between them is used. 3) Description of the LED display zone
It is a five-digit LED display, which can display various monitoring data and parameters.
- 34 -
Parameter group
4) Description of keys Key PRG
Chapter 3 System Commissioning
Parameter No.
Table 3-1 Functions of keys
Key Name
Programming Enter or exit Level I menu
Function
Confirm
Enter the menu interfaces level by level, and confirm the parameter settings.
Increment
Increase data or parameter.
Decrement
Decrease data or parameter.
Shift
Select the digit to be modified when modifying a parameter value.
Reserved
-
Reserved
-
MF.K
Reserved
-
QUICK
Reserved
-
ENTER
RUN
STOP RES
2 Viewing and Modifying Parameters
The operating panel of the GCB adopts a three-level menu to perform parameter setting and other operations. The three-level menu consists of parameter group (Level I), parameter (Level II), and parameter setting value (Level III). Figure 3-2 shows the operation procedure.
- 35 -
Chapter 3 System Commissioning
Level I menu (Select the parameter group)
Level II menu (Select the parameter No.)
PRG
Return
F0
If there is a blinking digit, press or to modify the digit. ENTER
PRG
Enter
F0-00
Return ENTER
Abort
F0-02
Enter
1
PRG
Level III menu (Set the parameter value)
,
ENTER
Save
ENTER
Enter Next parameter No.
Figure 3-2 Operation flowchart of the three-level menu
Note:
You can return to Level II menu from Level III menu by pressing
PRG
The difference between the two is as follows:
or
ENTER
.
After you press , the system saves the parameter setting, goes back to Level II menu and automatically shifts to the next parameter. ENTER
After you press , the system does not save the parameter setting, but directly goes back to Level II menu and remains at the current parameter. PRG
Example: Change the value of F2-00 from 0 to100.
F0 F2
PRG
F1
F2
ENTER
F2-00 ENTER
F2-01
ENTER
100
000
000
In Level III menu, if a parameter has no blinking digit, it indicates that the parameter cannot be modified. This may be because such a parameter is only readable, such as an actually-detected parameter or version display parameter.
3 Password Setting
The GCB provides a password protection function. When FP-00 (User password) is set to a non-zero value, it is a user password. The password takes effect after you exit the parameter editing state. After you press
PRG
correct user password to enter level I menu.
, "-----" is displayed. You must enter the
To cancel the password protection function, enter the menu with correct password and then set FP-00 (User password) to 0. If FP-00 (User password) is a non-zero value upon power-on, the parameters are protected by a password.
- 36 -
Chapter 3 System Commissioning
3.2 Operations of the MCTC-DDS-T Series Floor Selector 3.2.1 Interface Description
The display zone of the touchscreen-type floor selector can display the destination floor number, ID and location of a system-assigned elevator, and parameters.
A
ID of a systemassigned elevator