CN109000946A - Quasi- unmanned air conditioner enthalpy potential method laboratory based on virtual reality and artificial intelligence - Google Patents
Quasi- unmanned air conditioner enthalpy potential method laboratory based on virtual reality and artificial intelligence Download PDFInfo
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- CN109000946A CN109000946A CN201810533133.3A CN201810533133A CN109000946A CN 109000946 A CN109000946 A CN 109000946A CN 201810533133 A CN201810533133 A CN 201810533133A CN 109000946 A CN109000946 A CN 109000946A
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01M—TESTING STATIC OR DYNAMIC BALANCE OF MACHINES OR STRUCTURES; TESTING OF STRUCTURES OR APPARATUS, NOT OTHERWISE PROVIDED FOR
- G01M99/00—Subject matter not provided for in other groups of this subclass
- G01M99/005—Testing of complete machines, e.g. washing-machines or mobile phones
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N23/00—Cameras or camera modules comprising electronic image sensors; Control thereof
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04N—PICTORIAL COMMUNICATION, e.g. TELEVISION
- H04N7/00—Television systems
- H04N7/18—Closed-circuit television [CCTV] systems, i.e. systems in which the video signal is not broadcast
- H04N7/181—Closed-circuit television [CCTV] systems, i.e. systems in which the video signal is not broadcast for receiving images from a plurality of remote sources
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- Multimedia (AREA)
- Signal Processing (AREA)
- Physics & Mathematics (AREA)
- General Physics & Mathematics (AREA)
- Air Conditioning Control Device (AREA)
Abstract
The invention discloses the quasi- unmanned air conditioner enthalpy potential method laboratories based on virtual reality and artificial intelligence, including air processing machine, PLC and camera, the present invention relates to a kind of novel artificial intelligent control systems based on virtual reality, the system is mainly for air conditioner enthalpy potential method laboratory under various measurement condition running environment, carry out panoramic video monitoring, and conventional thought of the laboratory in automatic control is broken by the key technology of intelligent control system, it joined the control theory of artificial intelligence.The artificial intelligence technology of the key can also be widely used in other than it can apply in air conditioner enthalpy potential method laboratory and various be related to the detection fields such as refrigeration compressor set, Current Voltage detection device.The invention reduces the dependence of laboratory and detection device to operator by the artificial intelligence schemes of unique design, while also reducing influence of the operator to measurement itself.
Description
Technical field
The present invention relates to quasi- unmanned air conditioner enthalpy potential method laboratory's technology necks based on virtual reality and artificial intelligence
Domain, the specially quasi- unmanned air conditioner enthalpy potential method laboratory based on virtual reality and artificial intelligence.
Background technique
In the device fabrication of air conditioner enthalpy potential method laboratory, since operating condition operational process is to temperature field and moisture field ten
Divide a sensitive process, therefore operator should be reduced to the greatest extent, the adjustment of equipment or disengaging are tested in operating condition adjustment process
Room.In this background, nowadays majority uses monitoring system for air conditioner enthalpy potential method laboratory, so that operator be allow to exist
Control room observes the operating status inside laboratory at any time.
Although the monitoring of video can simply become a strong monitoring means of laboratory's internal operation state, so
And existing monitoring system is unable to satisfy laboratory technician and leaves or the target of Unmanned operation, i.e. video monitoring can not be with control
System combination and the control method for upgrading to a kind of artificial intelligence.
Summary of the invention
The purpose of the present invention is to provide the unmanned air conditioner enthalpy potential method tests of standard based on virtual reality and artificial intelligence
Room, to solve the problems mentioned in the above background technology.
To achieve the above object, the invention provides the following technical scheme: based on virtual reality and artificial intelligence it is quasi- nobody
Change air conditioner enthalpy potential method laboratory, including air processing machine, PLC and camera, the air processing machine and heating power expansion valve
TEX211 keeps being electrically connected, and heating power expansion valve TEX211 and solenoid valve SV211A are electrical connected, and the solenoid valve SV211A is right
End is electrically connected with solenoid valve SV211B, and the left end of the solenoid valve SV211B is electrically connected with liquid injection valve WTV211, liquid injection valve
WTV211 has been electrically connected gas separating device GS211 and has returned liquid valve ATP211B, the gas separating device GS211 and time liquid valve
Refrigeration compressor RC211 is in series between ATP211B, and the both ends of refrigeration compressor RC211 are parallel with refrigerant low-pressure meter
LG211, high Low Pressure gauge PR211 and refrigerant high pressure gauge HG211, the refrigerant low-pressure meter LG211, high Low Pressure gauge PR211 and refrigerant
It is serially connected between high pressure gauge HG211, is parallel with system between the left end of the refrigeration compressor RC211 and time liquid valve ATP211B
Cold ball valve RV211B, the left end of refrigerating ball valve RV211B are electrically connected with needle-valve, the right end input of the refrigerating ball valve RV211B
The output end of end and oil eliminator OS211 are electrical connected, and an instruction is in series between oil eliminator OS211 and condenser CON
LampThe lower end of the condenser CON is electrically connected with refrigerating ball valve SAV211, and the upper end of condenser CON was electrically connected with
Filter FD211, is in series with an indicator light between the filter F D211 and condenser CONThe left end of filter F D211
Successively electrical series have needle-valve, refrigerating ball valve RV211B and solenoid valve SV211A, the solenoid valve SV211A and refrigerating ball valve
Liquid-sighting glass SG211 is parallel between RV211B, the output end of the PLC is pressed with the input terminal of time liquid valve ATP211B, refrigeration respectively
The input terminal of contracting machine RC211 is electrically connected, and is electrical connected between liquid back pipe TP211 and solenoid valve SV211B;
The camera includes outside camera, outside overall view monitoring, inside camera, inside overall view monitoring, compressor
Camera, cooling water camera and by test-run a machine camera, the outside camera, outside overall view monitoring, inside camera, inside
Overall view monitoring, compressor camera, cooling water camera and adapter, outside are electrically connected with by the side of test-run a machine camera
Camera, outside overall view monitoring, inside camera, inside overall view monitoring, compressor camera, cooling water camera and by test-run a machine
The other side of camera passes through CN101 cable, CN102 cable, CN103 cable, CN104 cable, CN105 cable, CN106 respectively
Cable and CN107 cable are electrically connected at the first pin of TP-LINK, second pin, third pin, the 4th pin, the 5th draw
Foot, the 6th pin and the 7th pin, the pin of the TP-LINK are equipped with 11 altogether, the 11st pin of the TP-LINK and
It is electrically connected between the first pin on PID.
Preferably, indicator light is in series between the solenoid valve SV211A and heating power expansion valve TEX211The electromagnetism
Indicator light is in series between valve SV211A and solenoid valve SV211B
Preferably, it keeps being electrical connected between the left end and air processing machine of the gas separating device GS211, and gas separating device
There are two indicator lights for series connection between the left end and air processing machine of GS211
Preferably, an indicator light is in series between the refrigeration compressor RC211 and gas separating device GS211Refrigeration
An indicator light is in series between compressor RC211 and time liquid valve ATP211B
Preferably, be electrically connected between the oil eliminator OS211 and refrigeration compressor RC211, oil eliminator OS211 with
It also keeps being electrically connected between condenser CON.
Preferably, the holding transmitted in both directions of the PLC and video camera CMR, the input terminal of video camera CMR are low with refrigerant respectively
The output end of the output end, refrigerant high pressure gauge HG211 of pressing table LG211 is electrically connected.
Preferably, eight pins, electrical property between the 8th pin and monitoring equipment host computer on PID are equipped on the PID altogether
It is connected.
Compared with prior art, the beneficial effects of the present invention are: structure of the invention setting rationally, functional, have with
Lower advantage:
The present invention relates to a kind of novel artificial intelligent control systems based on virtual reality.The system is mainly for air-conditioning
Device enthalpy potential method laboratory carries out panoramic video monitoring under various measurement condition running environment, and passes through intelligent control system
Key technology break conventional thought of the laboratory in automatic control, joined the control theory of artificial intelligence.The key
Artificial intelligence technology can also be widely used in the various refrigeration that are related to and press other than it can apply in air conditioner enthalpy potential method laboratory
The detection fields such as contracting unit, Current Voltage detection device.The invention reduces test by the artificial intelligence schemes of unique design
The dependence of room and detection device to operator, while also reducing influence of the operator to measurement itself.
The invention will provide a kind of unmanned scheme for air conditioner enthalpy potential method laboratory or even other detection devices,
Its advantage has the following:
1. the number that laboratory operator passes in and out laboratory is reduced by the method for virtual reality, to reduce human factor
Influence to laboratory's operating condition;
2. reading function by intelligence instrument (pressure gauge), realize to operating condition compressor in air conditioner enthalpy potential method laboratory
Secondary refrigerant leakage determines ahead of time, makes early warning to the decline of laboratory's refrigerating capacity;
3. reading function by intelligence instrument (pressure gauge), realize to cooling water system water in air conditioner enthalpy potential method laboratory
Drops cause cooling effect is bad to determine ahead of time, make loss early warning to vulnerable parts such as water pump, the filters of laboratory;
4. whether refrigeration compressor in the air conditioner enthalpy potential method laboratory of judgement ahead of time by smart machine image analysis function
Whether frosting, expansion valve, compressor etc. are in abnormal operational conditions;
5. by intelligent quilt test-run a machine image analysis function, determine ahead of time in air conditioner enthalpy potential method laboratory by test-run a machine whether
It will or be in defrost operating condition, be conducive to the judgement of defrost operating condition and the data processing in later period;
6. to realize that air conditioner enthalpy potential method laboratory Unmanned operation provides the practicable monitoring of one kind and intelligence certainly
Dynamic control program.
Detailed description of the invention
Fig. 1 is artificial intelligent control system of the present invention figure;
Fig. 2 is present system module map;
Fig. 3 is partial system diagram in Fig. 1 of the present invention;
Fig. 4 is partial system diagram in Fig. 2 of the present invention.
In figure: filter F D211, liquid-sighting glass SG211, solenoid valve SV211A/B, liquid injection valve WTV211, refrigeration compressor
RC211, video camera CMR, refrigerant low-pressure meter LG211, refrigerant high pressure gauge HG211, air processing machine 5HPEVP, heating power expansion valve
TEX211, high Low Pressure gauge PR211, refrigerating ball valve SAV211, oil eliminator OS211, refrigerating ball valve RV211B, liquid valve is returned
ATP211B, liquid back pipe TP211, gas separating device GS211, condenser CON.
Specific embodiment
Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete
Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on
Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other
Embodiment shall fall within the protection scope of the present invention.
Fig. 1-4 is please referred to, the present invention provides a kind of technical solution: the unmanned sky of standard based on virtual reality and artificial intelligence
Tiao Qi enthalpy potential method laboratory, including air processing machine, PLC and camera, air processing machine and heating power expansion valve TEX211 are kept
It is electrically connected, heating power expansion valve TEX211 and solenoid valve SV211A are electrical connected, and solenoid valve SV211A right end is electrically connected with electricity
Magnet valve SV211B, the left end of solenoid valve SV211B are electrically connected with liquid injection valve WTV211, and liquid injection valve WTV211 is electrically connected
There is gas separating device GS211 and return liquid valve ATP211B, is in series with refrigerant compression between gas separating device GS211 and time liquid valve ATP211B
Machine RC211, and the both ends of refrigeration compressor RC211 are parallel with refrigerant low-pressure meter LG211, high Low Pressure gauge PR211 and refrigerant high pressure
Table HG211 is serially connected, refrigeration compressor between refrigerant low-pressure meter LG211, high Low Pressure gauge PR211 and refrigerant high pressure gauge HG211
It is parallel with refrigerating ball valve RV211B between the left end of RC211 and time liquid valve ATP211B, the left end of refrigerating ball valve RV211B electrically connects
It is connected to needle-valve, the right end input terminal of refrigerating ball valve RV211B and the output end of oil eliminator OS211 are electrical connected, oil eliminator
An indicator light is in series between OS211 and condenser CONThe lower end of condenser CON is electrically connected with refrigerating ball valve
SAV211, the upper end of condenser CON are electrically connected with filter F D211, are in series between filter F D211 and condenser CON
One indicator lightSuccessively electrical series have needle-valve, refrigerating ball valve RV211B and solenoid valve for the left end of filter F D211
SV211A, is parallel with liquid-sighting glass SG211 between solenoid valve SV211A and refrigerating ball valve RV211B, the output end of PLC respectively and returns
The input terminal of liquid valve ATP211B, the input terminal of refrigeration compressor RC211 are electrically connected, liquid back pipe TP211 and solenoid valve SV211B
Between be electrical connected;
Camera includes outside camera, outside overall view monitoring, inside camera, inside overall view monitoring, compressor camera shooting
Head, cooling water camera and by test-run a machine camera, outside camera, outside overall view monitoring, inside camera, inside panorama prison
Control, compressor camera, cooling water camera and adapter is electrically connected with by the side of test-run a machine camera, outside camera shooting
It head, outside overall view monitoring, inside camera, inside overall view monitoring, compressor camera, cooling water camera and is imaged by test-run a machine
The other side of head passes through CN101 cable, CN102 cable, CN103 cable, CN104 cable, CN105 cable, CN106 cable respectively
The first pin, second pin, third pin, the 4th pin, the 5th pin, of TP-LINK are electrically connected at CN107 cable
Six pins and the 7th pin, the pin of TP-LINK are equipped with 11 altogether, and first on the 11st pin and PID of TP-LINK draws
It is electrically connected between foot.
Indicator light is in series between solenoid valve SV211A and heating power expansion valve TEX211Solenoid valve SV211A and electromagnetism
Indicator light is in series between valve SV211B
It keeps being electrical connected between the left end and air processing machine of gas separating device GS211, and the left end of gas separating device GS211
There are two indicator lights for series connection between air processing machine
An indicator light is in series between refrigeration compressor RC211 and gas separating device GS211Refrigeration compressor RC211
And it returns between liquid valve ATP211B and is in series with an indicator light
Be electrically connected between oil eliminator OS211 and refrigeration compressor RC211, oil eliminator OS211 and condenser CON it
Between also keep be electrically connected.
The holding transmitted in both directions of PLC and video camera CMR, the input terminal of video camera CMR is respectively with refrigerant low-pressure meter LG211's
The output end electric connection of output end, refrigerant high pressure gauge HG211.
Eight pins are equipped on PID altogether, are electrical connected between the 8th pin and monitoring equipment host computer on PID.
Industrial 4.0 one of them important direction are unmanned, including unmanned factory, unmanned market etc..And it will
The imagination of unmanned air conditioner enthalpy potential method laboratory applies to crucial point, then must first lead to the various equipment for needing manually to monitor
The mode for crossing artificial intelligence is incorporated into a high-end control system.And to establish this system, it is necessary first in original control
A set of reality environment based on existing monitoring technology is established on the basis of system processed, it is then virtual from this deeper into ground again
The image information of needs is intercepted in actual environment and digitlization and the analysis of artificial intelligence are carried out to information, thus may finally
It feeds back in original control system and carries out automatic operation.In this way, air conditioner enthalpy potential method can be gradually reduced
Laboratory relies on operator, and then is real, operable artificial intelligence by unmanned factory's theoretical conversion of industry 4.0
It can control system.
One, the foundation of reality environment
Can a panoramic camera simply be arranged in laboratory's near center location in the foundation of reality environment, and
The video camera is communicated with host computer, allows to the image of transmission test chamber interior in real time.This set can be
Operator provides one close to true virtual environment, understands entire test in all directions so as to 360 degree of ground and is running
The various situations occurred in the process.
Two, the artificial intelligence analysis of image
Realize that a unmanned critical step of air conditioner enthalpy potential method laboratory is the instrument to the various equipment of laboratory
Instruments and meters or trystate carry out the judgement of artificial intelligence, to replace in traditional sense operator with the naked eye to testing
The observation of journey.The artificial intelligent analysis system can be in the manual operation of the following aspects substitution traditional operation personnel:
(1) reading of compressor high pressure gauge/low pressure meter reading and the comparison analysis with normal value
(2) it is tested the reading of machine voltmeter/electric current meter reading and is analyzed with the comparison of normal value
(3) reading of water pressure of cooling water meter reading and the comparison analysis with normal value
(4) compressor set frosting and running state analysis
(5) by test-run a machine frosting running state analysis
The method of the image artificial intelligence can differentiate the graduation mark of the instrument such as pressure gauge, voltmeter, ammeter, pointer etc.
Dial plate mark, and deployed position comparison technology obtains reading Analysis result.The system is coupled with traditional control system, provides hair
The signal source of instruction is sent, it is final to realize the control to automation equipments such as PLC, PID in the controls and in host computer
Operation indicating is issued to the laboratory technician of remote operation.Fig. 1 is the control system figure of the system, and dotted line wire part is to realize to be somebody's turn to do
The key hardware component of artificial intelligence function, the input with time liquid valve ATP211B respectively of the output end of the PLC of dotted line wire part
The input terminal electric connection at end, refrigeration compressor RC211, the holding transmitted in both directions of PLC and video camera CMR, video camera CMR's is defeated
Enter end to be electrically connected with the output end of the output end of refrigerant low-pressure meter LG211, refrigerant high pressure gauge HG211 respectively, liquid back pipe TP211
Output end and solenoid valve SV211B input terminal be electrically connected, ensure that above-mentioned control system can operate normally, Neng Goutong
The method for crossing image artificial intelligence differentiates the dial plates such as graduation mark, the pointers of instrument such as pressure gauge, voltmeter, ammeter mark, and
Deployed position comparison technology obtains reading Analysis result.
Intelligence instrument reads the scene judgement in compressor high voltage/low voltage
In air conditioner enthalpy potential method laboratory, the secondary refrigerant leakage of refrigeration compressor is recurrent thing.And refrigerant is let out
Dew leverages the ability to work of laboratory and the job schedule of detection.By scene to refrigerant pressure table video image
Interception, and be sent to intelligence instrument frame of reference, Test Operator can remotely receive the compressor set in battery limits
The reading of high pressure gauge and low-pressure meter, when the reading is reduced to certain proportion, automatic prompt operator should be checked pressure by system
Whether contracting unit has the case where secondary refrigerant leakage.
Intelligence instrument reads the scene judgement in water pressure gauge
In air conditioner enthalpy potential method laboratory, the cooling system failure of refrigeration compressor is recurrent thing.It is cooling
Thrashing generally occurs mainly in the problems such as decline of water pump ability, strainer valve blocking.And cooling system failure leverages
The ability to work of laboratory and the job schedule of detection.Interception by scene to water pressure gauge video image, and it is sent to intelligence
Energy meter reading system, Test Operator can remotely receive the reading in the water pressure gauge of the cooling water system of battery limits,
When the reading is reduced to certain proportion, automatic prompt operator should be checked whether the water pump in cooling water system has by system
Whether ability decline, filter have the case where blocking.
Intelligent image analyzes the application in battery limits
In air conditioner enthalpy potential method laboratory, the electronic expansion defective valve of refrigeration compressor is recurrent thing.And
Electronic expansion defective valve is usually than more covert and be not easy to be found.It is cut by image of the scene to compressor air suction end loop
It takes, and is sent to image analysis system, the state that Test Operator can run in remote reviewing to compressor, and in compressor
When there is suction end frosting, give the timely inspection in electric expansion valve or air-breathing circuit in time.
Artificial intelligence system refrigerant pressure meter reading analysis module (can be used for finding air conditioner enthalpy potential method laboratory ahead of time
Refrigeration compressor secondary refrigerant leakage)
Artificial intelligence system water pressure gauge reading Analysis module (can be used for finding the water of air conditioner enthalpy potential method laboratory ahead of time
Pump, filter failure)
Artificial intelligence system compressor status image analysis module (can be used for finding air conditioner enthalpy potential method laboratory ahead of time
The failure of cooling electronic expansion valve valve member)
Artificial intelligence system (can be used for prejudging the quilt in air conditioner enthalpy potential method laboratory by test-run a machine status image analysis module
Test-run a machine air-conditioning defrost state)
(examination of air conditioner enthalpy potential method can be done step-by-step based on virtual reality and artificial intelligence air conditioner enthalpy potential method laboratory
Test the Unmanned operation of room).
It although an embodiment of the present invention has been shown and described, for the ordinary skill in the art, can be with
A variety of variations, modification, replacement can be carried out to these embodiments without departing from the principles and spirit of the present invention by understanding
And modification, the scope of the present invention is defined by the appended.
Claims (7)
1. the quasi- unmanned air conditioner enthalpy potential method laboratory based on virtual reality and artificial intelligence, including air processing machine, PLC and
Camera, it is characterised in that: the air processing machine and heating power expansion valve TEX211 keep being electrically connected, heating power expansion valve
TEX211 and solenoid valve SV211A are electrical connected, and the solenoid valve SV211A right end is electrically connected with solenoid valve SV211B, described
The left end of solenoid valve SV211B is electrically connected with liquid injection valve WTV211, and gas separating device has been electrically connected in liquid injection valve WTV211
Refrigeration compressor is in series between GS211 and time liquid valve ATP211B, the gas separating device GS211 and time liquid valve ATP211B
RC211, and the both ends of refrigeration compressor RC211 are parallel with refrigerant low-pressure meter LG211, high Low Pressure gauge PR211 and refrigerant high pressure gauge
HG211 is serially connected, the refrigeration between the refrigerant low-pressure meter LG211, high Low Pressure gauge PR211 and refrigerant high pressure gauge HG211
Refrigerating ball valve RV211B, the left end of refrigerating ball valve RV211B are parallel between the left end of compressor RC211 and time liquid valve ATP211B
It is electrically connected with needle-valve, the right end input terminal of the refrigerating ball valve RV211B and the output end of oil eliminator OS211 are electrical connected,
An indicator light is in series between oil eliminator OS211 and condenser CONThe lower end of the condenser CON is electrically connected with
Refrigerating ball valve SAV211, the upper end of condenser CON are electrically connected with filter F D211, the filter F D211 and condenser
An indicator light is in series between CONSuccessively electrical series have needle-valve, refrigerating ball valve for the left end of filter F D211
RV211B and solenoid valve SV211A, is parallel with liquid-sighting glass SG211, institute between the solenoid valve SV211A and refrigerating ball valve RV211B
It states the output end of PLC to be electrically connected with the input terminal of the input terminal of time liquid valve ATP211B, refrigeration compressor RC211 respectively, returns liquid
It is electrical connected between pipe TP211 and solenoid valve SV211B;
The camera includes outside camera, outside overall view monitoring, inside camera, inside overall view monitoring, compressor camera shooting
Head, cooling water camera and by test-run a machine camera, the outside camera, outside overall view monitoring, inside camera, inside panorama
Monitoring, compressor camera, cooling water camera and adapter is electrically connected with by the side of test-run a machine camera, outside camera shooting
It head, outside overall view monitoring, inside camera, inside overall view monitoring, compressor camera, cooling water camera and is imaged by test-run a machine
The other side of head passes through CN101 cable, CN102 cable, CN103 cable, CN104 cable, CN105 cable, CN106 cable respectively
The first pin, second pin, third pin, the 4th pin, the 5th pin, of TP-LINK are electrically connected at CN107 cable
Six pins and the 7th pin, the pin of the TP-LINK are equipped with 11 altogether, on the 11st pin and PID of the TP-LINK
The first pin between be electrically connected.
2. the quasi- unmanned air conditioner enthalpy potential method laboratory according to claim 1 based on virtual reality and artificial intelligence,
It is characterized by: being in series with indicator light between the solenoid valve SV211A and heating power expansion valve TEX211The solenoid valve
Indicator light is in series between SV211A and solenoid valve SV211B
3. the quasi- unmanned air conditioner enthalpy potential method laboratory according to claim 1 based on virtual reality and artificial intelligence,
It is characterized by: keeping being electrical connected between the left end and air processing machine of the gas separating device GS211, and gas separating device
There are two indicator lights for series connection between the left end and air processing machine of GS211
4. the quasi- unmanned air conditioner enthalpy potential method laboratory according to claim 1 based on virtual reality and artificial intelligence,
It is characterized by: being in series with an indicator light between the refrigeration compressor RC211 and gas separating device GS211Refrigerant compression
An indicator light is in series between machine RC211 and time liquid valve ATP211B
5. the quasi- unmanned air conditioner enthalpy potential method laboratory according to claim 1 based on virtual reality and artificial intelligence,
It is characterized by: being electrically connected between the oil eliminator OS211 and refrigeration compressor RC211, oil eliminator OS211 and condensation
It also keeps being electrically connected between device CON.
6. the quasi- unmanned air conditioner enthalpy potential method laboratory according to claim 1 based on virtual reality and artificial intelligence,
It is characterized by: the holding transmitted in both directions of the PLC and video camera CMR, the input terminal of video camera CMR respectively with refrigerant low-pressure meter
The output end of LG211, the output end of refrigerant high pressure gauge HG211 are electrically connected.
7. the quasi- unmanned air conditioner enthalpy potential method laboratory according to claim 1 based on virtual reality and artificial intelligence,
It is characterized by: being equipped with eight pins on the PID altogether, it is electrical connected between the 8th pin and monitoring equipment host computer on PID.
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