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GMV-140WL/A-X
Service Manual
106 pgs8.97 Mb0

Gree GMV-160WL/A-T, GMV-140WL/A-T, GMV-120WL/A-T, GMV-120WL/A-X, GMV-160WL/A-X Service Manual

...
DC INVERTER MULTI VRF SYSTEM II SERVICE MANUAL
R410A(GC201504-
III
)
Contents
PRODUCT ................................................................................................................................................................ 1
1 PRODUCT LIST ............................................................................................................................................................ 1
2 NOMENCLATURE ......................................................................................................................................................... 1
2.1 Nomenclature of outdoor units ................................................................................................................... 1
3 PRODUCT FEATURES .................................................................................................................................................. 2
3.1 General introduction ...................................................................................................................................... 2
3.2 Features ............................................................................................................................................................. 2
4 SPECIFICATIONS .......................................................................................................................................................... 3
4.1 Specifications .................................................................................................................................................. 3
4.2 Operation range .............................................................................................................................................. 3
5 PRODUCT CAPACITY CORRECTION ............................................................................................................................ 4
5.1Correction factor of indoor and outdoor temperature ........................................................................... 4
5.2 Correction factor of pipe length and height difference ......................................................................... 4
6 PRINCIPAL OF OPERATION .......................................................................................................................................... 6
CONTROL ................................................................................................................................................................ 8
1 UNITS CONTROL ....................................................................................................................................................... 8
1.1 Schematic diagram of units’ control .......................................................................................................... 8
1.2 Interpretation on the schematic diagram ................................................................................................. 8
2 REMOTE MONITORING SYSTEM ................................................................................................................................. 8
2.1 General introduction ...................................................................................................................................... 8
3 MONITORING SOFTWARE ........................................................................................................................................... 9
3.1 Function introduction .................................................................................................................................... 9
3.2 Connection of computer and units............................................................................................................. 9
3.3 Parts introduction ......................................................................................................................................... 10
3.4 Software introduction .................................................................................................................................. 13
INSTALLATION .......................................................................................................................................................55
1 ENGINEERING INSTALLATION PREPARATION AND NOTICE ....................................................................................... 55
1.1 Installation notice ......................................................................................................................................... 55
1.2 Installation key points and importance ................................................................................................... 55
2 INSTALLATION MATERIALS SELECTION .................................................................................................................... 56
2.1 Refrigerant piping ......................................................................................................................................... 56
2.2 Condensate water pipe ................................................................................................................................ 57
2.3 Insulation material ........................................................................................................................................ 57
2.4 Communication cable and control cable ................................................................................................ 57
2.5 Power cable .................................................................................................................................................... 57
2.6 Hanger rod and support .............................................................................................................................. 57
3 INSTALLATION OF OUTDOOR UNIT ............................................................................................................................. 58
3.1 Check before installation ............................................................................................................................ 58
3.2 Selection of installation site ....................................................................................................................... 58
3.3 Carrying and installing outdoor unit ........................................................................................................ 58
3.4 Installation notices ....................................................................................................................................... 58
3.5 Fixing and damping of unit ........................................................................................................................ 58
3.6 Outline dimension and position of installation hole ............................................................................ 59
3.7 Installation space requirement .................................................................................................................. 59
DEBUGGING &MAINTENANCE ...........................................................................................................................61
1 DEBUGGING OF UNIT ................................................................................................................................................ 61
1.1 Preparation for debugging ......................................................................................................................... 61
1.2 Debugging of unit ......................................................................................................................................... 61
1.3 Parameters reference value for the normal operation of unit ........................................................... 65
2 MALFUNCTION LIST ................................................................................................................................................... 67
2.1 Malfunction list for the wired controller .................................................................................................. 67
2.2 Status display table for indicators on main board of outdoor unit .................................................. 68
3 TROUBLESHOOTING .................................................................................................................................................. 70
4 POWER DISTRIBUTION OF UNIT ................................................................................................................................ 78
4.1 Power distribution of unit ........................................................................................................................... 78
4.2 Main electric parts ........................................................................................................................................ 79
4.3 Circuit diagram .............................................................................................................................................. 79
5 REMOVAL OF PARTS ................................................................................................................................................. 81
5.1 Key parts ......................................................................................................................................................... 81
5.2 Removal of key parts ................................................................................................................................... 83
6 COMMON MAINTENANCE .......................................................................................................................................... 93
6.1 Vacuum drying for the system .................................................................................................................. 93
6.2 Fill and charge refrigerant .......................................................................................................................... 94
6.3 Airtightness test ............................................................................................................................................ 96
7 EXPLODED VIEW OF UNIT AND PARTS LIST ............................................................................................................ 97
7.1 Exploed view for outdoor unit and parts’ list ........................................................................................ 97
PRODUCT
1
PRODUCT
1 Product List
Model
Product Code
Cooling
Capacity
Heating
Capacity
Power Supply
Refrigerant
Appearance
kW
kW
GMV-120WL/A-T
CN850W0180
12.1
14
220-240V~50Hz 208-230V~60Hz
R410a
GMV-140WL/A-T
CN850W0170
14
16.5
GMV-160WL/A-T
CN850W0160
16
18.5
GMV-120WL/A-X
CN850W0260
12.1
14
380-415V
3N~50Hz
380-415V
3N~60Hz
R410a
GMV-140WL/A-X
CN850W0250
14
16.5
GMV-160WL/A-X
CN850W0240
16
18.5
2 Nomenclature
2.1 Nomenclature of outdoor units
GMV
- □ W □ / □ 1 2 3 4 5 6 7 8 9
10
11
No.
Description
Options
1
Product code
GMV-Gree Multi VRF Units
2
Suitable climate
Blank-T1 condition; T2-low temperature climate;
T3-high temperature climate
3
Unit type
DC Inverter (omit)
4
Function code
QHeat Recovery; SWater Heater; WWater-cooled
Unit; XFresh Air Unit
Leave blank if above functions are unavailable.
5
Code of cooling capacity
Nominal capacity/100(W)
6
Code of outdoor unit
7
Unit structure
MModular (top discharge); LNon-modular (side
discharge); blankNon-modular (top discharge)
8
Refrigerant
R410a (omit)
9
Design No.
Named in order of A, B, C, or combined with 1, 2, 3…
10
Power supply
7000~18000W, 1 phaseomit; 3 phaseS
2
3 Product Features
3.1 General introduction
Gree DC Inverter Multi VRF System II is the latest generation of DC inverter units. One set of air-cooled outdoor unit can be connected with multiple direct evaporation indoor units that are of the same or different forms and capacity. This refrigerating system can directly provide air conditioning for one or more areas, and is applicable for residential and light commercial uses. It features high energy efficiency, strong anti-interference capability, long connectable pipe, wide operation range, good sound quality, intelligent capacity regulation, complete protection, etc.
3.2 Features
(1) Super high energy efficiency
The 2nd generation of DC Inverter Multi VRF System adopts DC motor to realize complete direct current and upgrade the energy efficiency. EER is up to 3.97 and COP can reach 4.28.
(2) New generation CAN bus communication
Due to the latest communication methodCAN Bus Communication, system’s anti-interference capability is stronger and the control on indoor units is more accurate, with higher reliability. Specialized shield wire is no more needed and ordinary communication wire can be applied in the construction, which has increased the installation flexibility.
(3) Long connection pipe
The maximum length of connection pipe is 300m (in total) and the farthest connection pipe between indoor and outdoor units can be 120m’s long, which has extended the installation condition and reduced the limit of installation distance.
(4) Wide operation range
Units can operate reliably in a wide temperature range (cooling: -5~52, heating: -20~27).
(5) Fine sound quality
Through a series of optimized measures, system has reduced the throttle noise and oil return noise of indoor units, gas bypass noise, etc. so that units are more comfortable regarding sound quality.
(6) Intelligent PID capacity regulation
With the independently developed PID capacity regulation technology, units are able to control the indoor ambient temperature more quickly and reduce the fluctuation of room temperature.
(7) Complete protection
Units are equipped with a series of protection to accurately identify errors and protect the units, which has ensured reliable and safe operation.
3
4 Specifications
4.1 Specifications
Model
GMV-120WL/A
-T
GMV-140WL/A
-T
GMV-160WL/A
-T
GMV-120WL/A
-X
GMV-140WL/A
-X
GMV-160WL/A
-X
Cooling capacity
kW
12.1
14
16
12.1
14
16
Heating capacity
kW
14
16.5
18.5
14
16.5
18.5
Circulating air
volume
m3/h
6000
6300
6600
6000
6300
6600
Noise
dB(A
)
55
56
58
55
56
58
Refrigerant charge
volume
kg 5 5 5 5 5 5
Energy efficiency
level
Leve
l
1 1 1 1 1
1
Power supply
220-240V
50Hz
208-230V
60Hz
220-240V
50Hz
208-230V
60Hz
220-240V
50Hz
208-230V
60Hz
380-415V
3N~50Hz
380-415V
3N~60Hz
380-415V
3N~50Hz
380-415V
3N~60Hz
380-415V
3N~50Hz
380-415V
3N~60Hz
Rated power
input
Coolin
g
kW
3.05
3.98
4.85
3.05
3.98
4.85
Heatin
g
kW
3.27
3.99
4.67
3.27
3.99
4.67
Unit Dimensions
(mm)(WxDxH)
900×340×1345
Package Dimensions
(mm)(WxDxH)
998×458×1515
998×458×1515
Compressor
QXAS-F428zX050A
QXAS-F428zX050C
Water-proof level
IPX4
IPX4
IPX4
IPX4
IPX4
IPX4
Suitable climite
T1
T1
T1
T1
T1
T1
Connectio
n pipe
Gas
mm
φ15.9
φ15.9
φ19.05
φ15.9
φ15.9
φ19.05
Liquid
mm
φ9.52
φ9.52
φ9.52
φ9.52
φ9.52
φ9.52
Connection
Method
Bell mouth
connection
Bell mouth
connection
Bell mouth
connection
Bell mouth
connection
Bell mouth
connection
Bell mouth
connection
Net weight
kg
110
110
110
120
120
120
Note:
Units conform to design standard: GB/T 18837-2002. Specifications may be changed due to product improvement. Please refer to nameplates of the units. Noise data are collected from a semi-anechoic room. Decibels may be slightly higher in actual
operation due to environmental change.
Refrigerant charge volume listed in the table is based on the condition where indoor and outdoor
units are at a same level and with no connection pipe. Supplementary refrigerant needs to be charged according to actual circumstance.
The sectional area of conducting wire is only applicable when the length is within 15m. If it’s over
15m’s long, sectional area must be increased accordingly, otherwise, over-current may burn the
wires.
4.2 Operation range
Cooling
Outdoor temperature: -552
Heating
Outdoor temperature: -20℃~27
4
5 Product Capacity Correction
5.1Correction factor of indoor and outdoor temperature
1Correction factor of cooling capacity
2Correction factor of heating capacity
5.2 Correction factor of pipe length and height difference
Symbol description: Hp: Height difference in case indoor unit is below outdoor unit (m); Hm: Height difference in case indoor unit is above outdoor unit (m); L: Length of one-way equivalent pipe
Below table shows the capacity variance ratio for 100% full load in standard working condition
(thermostat setting is 16℃ for cooling and 30 for heating).
5
Variance ratio of heating capacity
6
6 Principal of Operation
Components in flowcharts are presented according to the following table:
In cooling, the low-temperature and low-pressure refrigerant gas from each indoor heat exchanger will be merged and inhaled by the compressor and then become high-temperature and high-pressure gas, which will later be discharged into outdoor heat exchangers. By exchanging heat with outdoor air, refrigerant will turn to liquid and flow to each indoor unit via Y-type branch or manifold. Pressure and temperature of the refrigerant will then be lowered by throttle elements before it flows into indoor heat exchangers. After exchanging heat with indoor air, refrigerant wil become low-temperature and low-pressure gas again and repeat the circulation so as to realize the cooling effect. In heating, 4-way valve will be energized to make refrigerant circulate in a reverse direction of cooling. Refrigerant will release heat in indoor heat exchangers (electric heating elements will also work under certain circumstance and release heat) and absorb heat in outdoor heat exchangers circularly so as to realize the heating effect.
Name
Compressor
4-way valve
Cut-off valve
One-way valve
Capillary tube
Symbol
Name
Gas-liquid
separator
Pressure
switch
Pressure
sensor
Axial-flow finned heat
exchanger
Electronic expansion
valve
Symbol
7
CONTROL
8
CONTROL
1 Units’ Control
1.1 Schematic diagram of units’ control
1.2 Interpretation on the schematic diagram
High pressure switch is used to identify system’s high and low pressure. When pressure is too high,
the switch will break off and send a signal to main board. Main board will pass this signal to controller, where the error will be displayed, and stop unit from working.
High/low pressure sensor is used to test unit’s high/low pressure and send real-time data to
controller, which will control each unit’s output according to the control logic.
Temperature sensors are used to test the tube temperature of the unit and send data to the controller,
which will control each unit’s output according to the control logic.
2 Remote Monitoring System
2.1 General introduction
Gree CAC Remote Monitoring System is an automatic central management system as well as an intelligent power management system based on internet or local area network. It can provide a complete set of air conditioning solutions, including remote monitor, malfunction alarms and visual management, for the real-time, safe and efficient management of air conditioners.
Gree CAC Remote Monitoring System can save your cost on human resources and equipment management. User can check the running status of air conditioners, turn units on or off, set temperature or other functions just by means of a browser (e.g. IE, Firefox, Chrome) in every corner of the world.
9
3 Monitoring Software
3.1 Function introduction
With the rapid development of building complex, more and more central air conditioners in various models are used in different places, resulting in inconvenience for the management of air conditioners. Integrating with telecommunication technology and computing software, Gree Commissioning Tool Kits can realize the comprehensive monitor, control and commissioning on central air conditioners. It is an efficient solution for the management of central air conditioners that are separated in different parts of a
building. Administrator doesn’t need to control every unit on site, but rather controls the units by just
sitting in front of a computer. This will not only improve the productivity, but also reduce cost on human resources, property and management.
Gree Commissioning Tool Kits can monitor and control the 2nd generation of Gree Multi VRF. User can monitor and control units by monitoring the computer. This software is an efficient tool for the intelligent air conditioning management as well as installation and after-sales service and commissioning. It can debug units and control units’ operation status quickly and conveniently. It will not only improve the productivity but also reduce the difficulty and cost of commissioning and maintenance, providing better and faster service to customers.
3.2 Connection of computer and units
It can be connected with single-system network or multi-system network. In the single-system network, indoor units or outdoor units are connectable, while in the multi-system network, only the master outdoor unit can be connected.
Seen from the diagram, Gree commissioing network is made up of 3 parts: The 1st part is the monitoring computer, including Gree debugger and Gree USB converter driver that
are installed in the computer.
The 2nd part is Gree USB converter, which is to convert the air conditioning communication into
computing communication. This part is made up of Gree USB data converter and USB data wire.
The 3rd part is air conditioners, including outdoor units, indoor units and the connection wires. If connection wire is not long enough, it’s OK to connect via the patching board of the commissioning tool kits. In a single-system network, both indoor units and outdoor units can be connected, while in a
10
multi-system network, only the master outdoor unit can be connected.
3.3 Parts introduction
3.3.1 List of parts
Name
Model
Material no.
Remark
Gree USB data converter
MC40-00/B
30118027
Convert the air conditioning communication
into computing communication
Gree Commissioning Tool Kits
(CD-ROM)
DG40-33/A(C)
36400000003
Include Gree debugger, monitoring software,
USB driver and USB converter configuring
software.
USB wire
\
40020082
Wire connecting computer’s USB interface
and converter
Communicaiton board
\
30118015
This board can be used when units are far
from the computer.
Board connection wire (1m)
\
4001023229
4-core wire connecting units and converter
Board connection wire (5.5m)
\
4001023214
4-core wire connecting units and converter
Instruction manual
\
66174100018
Instruction manual
3.3.2 Gree USB data converter
3.3.2.1 Functions introduction
Gree USB data converter will convert the RS485, HBS and CAN commucation within the air conditioners into the communication that is recognizable by computer’s USB interface.
3.3.2.2 Appearance
11
3.3.2.3 Operation instruction
Power LED: a red light. If the red light is on, it indicates normal power supply. If the red light is off,
it indicates the power supply of converter is not normal.
Communication LEDs: yellow lights. When converter is working and the computer is transmitting
data, the TX data transmitting light will be flickering. When units are uploading data to the computer, the RX data receiving light will be flickering.
When converter is under RS485 data transferring mode, the function LED of RS485 to USB will
be on.
When converter is under CAN data transferring mode, the function LED of CAN to USB will be
on.
When converter is under HBS data transferring mode, the function LED of HBS to USB will be
on.
USB interface: connect USB data wire. CAN interface: When converter is under CAN communication mode, connect air conditioner’s
CAN data interface. CAN interface exhibits no polarity (A and B are equal).
HBS interface: When HBS converter is under HBS communication mode, connect air
conditioner’s HBS data interface. HBS interface exhibits no polarity (This interface is not yet available for Gree debugger and the monitoring software).
12
RS485 interface: When RS485 converter is under RS485 communication mode, connect air
conditioner’s RS485 data interface. RS485 interface exhibits polarity and terminal A and B are different.
3.3.2.4 Installation notice
Install indoors. To avoid collision, it is suggested to place it in the monitoring room together with
the computer.
No need of power supply. Power is supplied through computer’s USB interface.
3.3.3 Communication board
Communication board is mainly used for transferring data. It functions similar with a patching board. Provided that units are far away from the monitoring computer, communication board can be used for connection.
3.3.4 Communication cord
3.3.4.1 USB wire
Connect USB wire with computer’s USB interface at one end and with the USB interface of USB
data converter at the other end, as indicated below:
3.3.4.2 Board Connection Wire
There are 2 board connection wires supplied for the commissioning tool kits. One is 1 meter’s
long and the other is 5.5 meters’ long. They are only different in length. One end of the wire shall connect with air conditioner’s communication interface and the other end shall connect with CAN interface of Gree USB converter. As shown below, the wire can be connected to the communication interface of outdoor unit or the communication interface of indoor unit:
USB Wire
Board Connection Wire
13
3.4 Software introduction
(1)
One-button commissioning Personnel responsible for the commissioning of air conditioners can start commissioning by
pressing one button according to the commissioning logic of software, which will give the commissioning order to units. Then commissioning will be started up automatically step by step. During the commissioning, the corresponding process will be ticked in green on the software interface. If any commissioning process is not normal, it will be displayed in red.
(2)
Comprehensive monitoring The software can monitor every part of the air conditioning system, including functions, equipment and components operating status. The monitoring results will be displayed in text or curve so that user can acquire the operating status of the entire system conveniently and straightforwardly.
(3)
Real-time control
Air conditioner’s operating time and requirements may be different based on areas and functions.
User can set units’ parameters on computer according to actual needs, such as the on/off,
temperature, fan speed, mode, etc. Meanwhile, the software can also set or view the function parameters of outdoor units, gateway and other equipment. In this way, the mangement of central air conditioners is realized.
(4)
Replay history Software can replay and save the historical monitoring information in the data base. The replay speed can be selected and the information will be shown in text or curve. This function has greatly saved the time to track problem cause and resolved the difficulty of problem reproduction.
(5)
Applicable to multiple series, models and users Gree Commissioning Tool Kits is applicable to air conditioning system that comsists of multiple series and models. Later, it will be developed to cover all series of Gree central air conditioners, such as multi VRF, centrifugal chiller, screw type chiller, ground source heat pump units, modular units, fan coiled units, close control units, etc. It can be used by system and controller designers to develop and monitor units, or used for maintenance and commissioning.
(6)
Other functions For the convenience of users, the software has added functions like connection guide, printing screen, opening database folder, rebuilding database, changing database saving path, etc.
3.4.1 Software installation
3.4.1.1 Installation requirements
(1) Computer Configuration
Memory
1 GB at least
2 GB or above is preferred
Hard Disc
10 GB available
CPU
Core 2 or higher
1 GHz at least
2 GHz or above is preferred
Operation System
Windows Server 2003 SP3 or higher
Windows XP SP3 or higher
Windows Vista
Windows 7
14
(2) CD Playing
Make sure you have administrator access to the computer and there is a CD-ROM in the computer. Put the CD into the CD-ROM. If it’s automically running, then the following display will be shown. Or double-click the file “Launcher.exe”.
For the first time to use Gree Commissioning Tool Kits, install these programmes: .Net Framework
4.0, USB Data Converter, Access Driver (necessary for versions below OFFICE 2007), Gree Debugger.
3.4.1.2 Installation flowchart
Button Graphics
15
This flowchart describes basically the software installation process. See below for details.
3.4.1.3 Installation process
(1) Install .Net Framework 4.0
If your computer has installed .Net Framework 4.0 or versions above, there’s no need to install
again. Otherwise, click “Install .Net Framework 4.0”.
Extracting files
Click and select “I have read and accept the license terms”. Then click “Install”.
16
Installation is in progress.
17
Click “Finish” to complete the installation.
(2) Install Access Driver
Before operating Gree commissioning software, please first install Access Driver (necessary for
versions below OFFICE 2007). Click “Install Access Driver”.
Click ”Next”.
18
one, or click “Install” to continue the
19
installation.
Installation is in progress.
20
e installation.
(3) Install Gree Debugger
Before installing Gree debugger, make sure that your computer is installed with .Net Framework 4.0
or versions above. Then click “Install Gree Debugger”.
Click “Next”.
21
Click “Browse” to select installation folder. If no change is needed for the folder, click “Next” to
continue the installation.
Click “Next”.
22
Installation is in progress.
Click “Close” to complete the installation.
23
(4) Install USB Converter Driver
If USB converter driver is already installed in your computer, this part can be skipped. Otherwise,
click “Install USB Converter Driver”.
Then the following installation window will be shown.
24
This window will exit after installation is finished.
(5) Install Gree USB Data Converter
If converter baud rate is needed to be set, then converter configuring software must be installed.
Click “Install Gree USB Data Converter”.
25
Then select the setup language. You can choose Chinese ”simplified”, Chinese “traditional” or
English. Then click “OK”.
Click “Next”.
Tick “I accept the agreement”. Then click “Next” to continue installation.
26
Click “Browse” to select your expected installation folder. Click “Next” to continue.
Click “Browse” to change folder. Click “Next” to continue.
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