CN209085127U - Air-conditioning system - Google Patents
Air-conditioning system Download PDFInfo
- Publication number
- CN209085127U CN209085127U CN201821910369.6U CN201821910369U CN209085127U CN 209085127 U CN209085127 U CN 209085127U CN 201821910369 U CN201821910369 U CN 201821910369U CN 209085127 U CN209085127 U CN 209085127U
- Authority
- CN
- China
- Prior art keywords
- gas
- liquid separator
- control valve
- compressor
- air
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Withdrawn - After Issue
Links
Landscapes
- Compression-Type Refrigeration Machines With Reversible Cycles (AREA)
Abstract
The utility model provides a kind of air-conditioning system.The air-conditioning system includes compressor (1), the first gas-liquid separator (2) and the second gas-liquid separator (3), the position of first gas-liquid separator (2) and the second gas-liquid separator (3) allows hand over, so that the second gas-liquid separator (3) is located at the exhaust end of compressor (1) when the first gas-liquid separator (2) is located at the suction end of compressor (1), the second gas-liquid separator (3) is located at the suction end of compressor (1) when the first gas-liquid separator (2) is located at the exhaust end of compressor (1).Air-conditioning system according to the present utility model can effectively prevent compressor air suction band liquid, ensure that compressor is run reliably and with long-term.
Description
Technical field
The utility model belongs to air-conditioning technique field, and in particular to a kind of air-conditioning system.
Background technique
With the development of refrigeration industry, the raising of air-conditioning technical, the requirement to compressor is higher and higher, wherein compressor
Low-frequency operation is a big technological difficulties, when low-frequency operation, be easy to cause refrigerant evaporated in evaporator not exclusively, so as to cause
Compressor air suction band liquid.Absorbing gas belt liquid will lead to oil film inside compressor and form difficulty, influence the long-term reliability fortune of compressor
Row, another aspect absorbing gas belt liquid will lead to refrigerant and sharply gasify inside compressor, to seriously affect the performance of compressor.
Utility model content
Therefore, it the technical problem to be solved by the present invention is to provide a kind of air-conditioning system, can effectively prevent compressing
Machine absorbing gas belt liquid ensures that compressor is run reliably and with long-term.
To solve the above-mentioned problems, the utility model provides a kind of air-conditioning system, including compressor, the first gas-liquid separator
With the second gas-liquid separator, the position of the first gas-liquid separator and the second gas-liquid separator is allowed hand over, so that the first gas-liquid point
The second gas-liquid separator is located at the exhaust end of compressor when being located at the suction end of compressor from device, and the first gas-liquid separator is located at pressure
The second gas-liquid separator is located at the suction end of compressor when the exhaust end of contracting machine.
Preferably, air-conditioning system further includes indoor heat exchanger and outdoor heat exchanger, and indoor heat exchanger and outdoor heat exchanger are logical
It crosses the first gas-liquid separator and the second gas-liquid separator is communicated with compressor.
Preferably, throttling set is provided between indoor heat exchanger and outdoor heat exchanger.
Preferably, air-conditioning system further includes the first four-way valve and the second four-way valve,
The first interface of first four-way valve and the air entry outlet of compressor, the second interface of the first four-way valve and the
The third interface of the outlet of one gas-liquid separator, the first four-way valve is connected to outdoor heat exchanger, and the 4th of the first four-way valve the
The outlet of interface and the second gas-liquid separator;
The first interface of second four-way valve is connected to the outlet of compressor, the second interface of the second four-way valve and the second gas
The third interface of the inlet communication of liquid/gas separator, the second four-way valve is connected to indoor heat exchanger, the 4th interface of the second four-way valve
With the inlet communication of the first gas-liquid separator.
Preferably, air-conditioning system further includes the first control valve, the second control valve, third control valve, the 4th control valve, the 5th
Control valve, the 6th control valve, the 7th control valve, the 8th control valve,
The air entry outlet of compressor is by the first pipeline for being arranged in parallel and the second piping connection to outdoor heat exchanger, and the
It has been arranged in series the 4th control valve and the 6th control valve on one pipeline, the second control valve and the 8th have been arranged in series on the second pipeline
Control valve, the outlet of compressor pass through the third pipeline being arranged in parallel and the 4th piping connection to indoor heat exchanger, third pipe
Road has been arranged in series third control valve and the 5th control valve, and the first control valve and the 7th control have been arranged in series on the 4th pipeline
The outlet of valve, the first gas-liquid separator is connected on the second pipeline between the second control valve and the 8th control valve, the first gas-liquid
The import of separator is connected on the 4th pipeline between the first control valve and the 7th control valve, the outlet of the second gas-liquid separator
It is connected on the first pipeline between the 4th control valve and the 6th control valve, the import of the second gas-liquid separator is connected to third control
On third pipeline between valve processed and the 5th control valve.
Preferably, liquid level sensor is provided in the first gas-liquid separator and the second gas-liquid separator.
Preferably, throttling set is heating power expansion valve.
Preferably, air-conditioning system includes controller, and controller is connected to liquid level sensor, and is examined according to liquid level sensor
The liquid level measured controls the position switching of the first gas-liquid separator and the second gas-liquid separator.
Air-conditioning system provided by the utility model, including compressor, the first gas-liquid separator and the second gas-liquid separator, the
The position of one gas-liquid separator and the second gas-liquid separator allows hand over, so that the first gas-liquid separator is located at the air-breathing of compressor
The second gas-liquid separator is located at the exhaust end of compressor, the second gas when the first gas-liquid separator is located at the exhaust end of compressor when end
Liquid/gas separator is located at the suction end of compressor.The position of first gas-liquid separator and the second gas-liquid separator allows hand over, therefore
In air-conditioning system work, the gas-liquid separator liquid level of the suction end positioned at compressor can be monitored, when liquid level reaches certain height
After degree, the position by switching the first gas-liquid separator and the second gas-liquid separator is kept away to change the liquid level of gas-liquid separator
The problem of exempting from gas-liquid separator internal refrigeration storage agent collection to deposit too much, leading to compressor air suction band liquid, cause compressor Wet Compression, low
The gas-liquid separator of pressure side is switched to high-voltage end, to play the role of oil, and by separation when switch next time
Refrigeration oil is transferred to low-pressure end, as refrigerant returns to inside compressor, liquid refrigerant migration is realized, with the liquid of low-temp low-pressure
State refrigerant reduces the pressure at expulsion and delivery temperature of compressor, to reduce the power consumption of compressor, improves compressor efficiency,
Ensure that compressor is run reliably and with long-term.
Detailed description of the invention
Fig. 1 is the first refrigerant fluidal texture schematic diagram of the air-conditioning system of the utility model first embodiment;
Fig. 2 is second of refrigerant fluidal texture schematic diagram of the air-conditioning system of the utility model first embodiment;
Fig. 3 is the structural schematic diagram of the air-conditioning system of the utility model second embodiment;
Fig. 4 is the control method flow chart of the air-conditioning system of the utility model first embodiment;
Fig. 5 is the control method flow chart of the air-conditioning system of the utility model second embodiment.
Appended drawing reference indicates are as follows:
1, compressor;2, the first gas-liquid separator;3, the second gas-liquid separator;4, indoor heat exchanger;5, outdoor heat exchanger;
6, throttling set;7, the first four-way valve;8, the second four-way valve;9, the first control valve;10, the second control valve;11, third controls
Valve;12, the 4th control valve;13, the 5th control valve;14, the 6th control valve;15, the 7th control valve;16, the 8th control valve.
Specific embodiment
In conjunction with referring to shown in Fig. 1 to Fig. 3, air-conditioning system includes compressor 1, the first gas-liquid separator 2 and the second gas-liquid point
From device 3, the position of the first gas-liquid separator 2 and the second gas-liquid separator 3 is allowed hand over, so that the first gas-liquid separator 2 is located at
Second gas-liquid separator 3 is located at the exhaust end of compressor 1 when the suction end of compressor 1, and the first gas-liquid separator 2 is located at compressor
The second gas-liquid separator 3 is located at the suction end of compressor 1 when 1 exhaust end.
The position of first gas-liquid separator 2 and the second gas-liquid separator 3 allows hand over, therefore in air-conditioning system work,
The gas-liquid separator liquid level positioned at the suction end of compressor 1 can be monitored, after liquid level reach a certain height, passes through switching first
The position of gas-liquid separator 2 and the second gas-liquid separator 3 avoids in gas-liquid separator to change the liquid level of gas-liquid separator
The problem of portion's refrigerant collection is deposited too much, is led to 1 absorbing gas belt liquid of compressor, is caused 1 Wet Compression of compressor realizes that liquid refrigerant moves
It moves, the pressure at expulsion and delivery temperature of compressor 1 is reduced with the liquid refrigerant of low-temp low-pressure, to reduce compressor 1
Power consumption improves 1 efficiency of compressor, ensures that compressor 1 is run reliably and with long-term.
When the gas-liquid separator of low-pressure end is switched to high-voltage end, which can play the work of oil eliminator
With so that isolated refrigeration oil is transferred to low-pressure end when switch next time, so that refrigeration oil is returned to refrigerant
Inside compressor.
Air-conditioning system further includes indoor heat exchanger 4 and outdoor heat exchanger 5, and indoor heat exchanger 4 and outdoor heat exchanger 5 pass through the
One gas-liquid separator 2 and the second gas-liquid separator 3 are connected to compressor 1.
Throttling set 6 is provided between indoor heat exchanger 4 and outdoor heat exchanger 5.Throttling set 6 is, for example, thermal expansion
Valve, or electric expansion valve etc..
In conjunction with first embodiment according to the present utility model referring to figure 1 and figure 2, air-conditioning system further includes the first four-way
Valve 7 and the second four-way valve 8, the first interface of the first four-way valve 7 and the air entry outlet of compressor 1, the first four-way valve 7
The third interface of the outlet of second interface and the first gas-liquid separator 2, the first four-way valve 7 is connected to outdoor heat exchanger 5, the
4th interface of one four-way valve 7 and the outlet of the second gas-liquid separator 3;The first interface and compressor 1 of second four-way valve 8
Outlet connection, the inlet communication of the second interface of the second four-way valve 8 and the second gas-liquid separator 3, the of the second four-way valve 8
Three interfaces are connected to indoor heat exchanger 4, the 4th interface of the second four-way valve 8 and the inlet communication of the first gas-liquid separator 2.
The present embodiment can realize the switching of two gas-liquid separator positions by two four-way valves, when 1 low frequency of compressor is transported
When row, not exclusively, the refrigerant that indoor heat exchanger 4 comes out first passes through the first gas-liquid point to refrigerant for evaporation in heat exchanger 4 indoors
From device 2, subsequently into compressor 1, the refrigerant come out from compressor 1 enters the second gas-liquid separator 3, changes subsequently into outdoor
Hot device 5 cools, and the refrigerant liquid that outdoor heat exchanger 5 comes out enters the room heat exchanger after heating power expansion valve reducing pressure by regulating flow
In 4, a circulation is so constituted, but since 1 running frequency of compressor is low, causes refrigerant indoors cannot in heat exchanger 4
Enough evaporating completelies, are deposited so that refrigerant collects in gas-liquid separator, after liquid refrigerant collection storage reaches a certain level, if
Depositing after sequel will lead to 1 absorbing gas belt liquid of compressor.Liquid level is arranged inside the first gas-liquid separator 2, the second gas-liquid separator 3 to pass
Sensor, liquid refrigerant reaches in gas-liquid separator be more than certain value after, switch the first four-way valve 7, then switch the second four-way valve
8, the first gas-liquid separator 2 and the second gas-liquid separator 3 realize the switching of position, the first gas-liquid separator 2 of low-pressure end at this time
It is transferred to high-voltage end, avoids the refrigerant in gas-liquid separator excessive and leads to Wet Compression, collect in the first gas-liquid separator 2 and deposit
The exhaust of low temperature liquid refrigerant and compressor 1 be mutually mixed, pressure at expulsion and delivery temperature are reduced, to reduce compressor 1
Power consumption, improve the performance of system, while the gas-liquid separator of high-voltage end is transferred to low-pressure end, restart separation from interior
Heat exchanger 4 evaporates incomplete gas-liquid mixed refrigerant, achievees the effect that gas-liquid separation.
To sum up, the liquid level that gas-liquid separator is incuded by liquid level sensor switches four-way after liquid level reach a certain height
The direction of reversal valve adjusts the position of gas-liquid separator, and the gas-liquid separator of low-pressure end is transferred to high-voltage end, avoids compressor
1 absorbing gas belt liquid reduces the risk of 1 Wet Compression of compressor, prevents 1 slide plate of compressor from falling off with roller, generates low frequency noise, simultaneously
It when the gas-liquid separator of low-pressure end is transferred to high-voltage end, is mixed with the high temperature refrigerant of high-voltage end, reduces delivery temperature and row
Atmospheric pressure reduces the work consuming of compressor 1, to improve the overall performance of compressor 1.
In conjunction with shown in Figure 3, second embodiment according to the present utility model, air-conditioning system further include the first control valve 9,
Second control valve 10, third control valve 11, the 4th control valve 12, the 5th control valve 13, the 6th control valve 14, the 7th control valve
15, the air entry outlet of the 8th control valve 16, compressor 1 passes through the first pipeline being arranged in parallel and the second piping connection to outdoor
Heat exchanger 5 has been arranged in series the 4th control valve 12 and the 6th control valve 14 on first pipeline, has been arranged in series on the second pipeline
The outlet of two control valves 10 and the 8th control valve 16, compressor 1 passes through the third pipeline being arranged in parallel and the 4th piping connection
To indoor heat exchanger 4, it is arranged in series third control valve 11 and the 5th control valve 13 on third pipeline, has connected and sets on the 4th pipeline
It is equipped with the first control valve 9 and the 7th control valve 15, the outlet of the first gas-liquid separator 2 is connected to the second control valve 10 and the 8th control
On the second pipeline between valve 16 processed, the import of the first gas-liquid separator 2 be connected to the first control valve 9 and the 7th control valve 15 it
Between the 4th pipeline on, the outlet of the second gas-liquid separator 3 is connected between the 4th control valve 12 and the 6th control valve 14
On one pipeline, the import of the second gas-liquid separator 3 is connected to the third pipeline between third control valve 11 and the 5th control valve 13
On.
In the present embodiment, when the first gas-liquid separator 2 in low-pressure end, the second gas-liquid separator 3 in high-voltage end, electromagnetism
The open and-shut mode of valve is that the first control valve 9, the second control valve 10, third control valve 11, the 4th control valve 12 are open state,
5th control valve 13, the 6th control valve 14, the 7th control valve 15, the 8th control valve 16 are in off state;When handover is needed, i.e.,
When the liquid level of first gas-liquid separator 2 reaches level set value, the 6th control valve 14 is first opened, close the 4th control valve 12, it is rear to close
Second control valve 10 opens the 8th control valve 16, then closes the first control valve 9, opens the 5th control valve 13, then closes the 7th control valve 15
Third control valve 11 is opened, the first gas-liquid separator 2 and the second switching completely of gas-liquid separator 3, i.e. the second gas are achieved that this
Liquid/gas separator 3 is in low-pressure end, and the first gas-liquid separator 2 is in high-voltage end;When 3 liquid level of the second gas-liquid separator reaches setting value,
It opens the second control valve 10, close the 6th control valve 14, open the 4th control valve 12, close the 8th control valve 16, open third control valve 11, close
7th control valve 15 opens the 5th control valve 13, closes the first control valve 9, so realizes the first gas-liquid separator 2 and the second gas-liquid point
In low-pressure end, the second gas-liquid separator 3 so then realizes whole in high-voltage end for switching from device 3, i.e. the first gas-liquid separator 2
The switching of a circulation.
Liquid level sensor is provided in first gas-liquid separator 2 and the second gas-liquid separator 3.Air-conditioning system includes control
Device, controller is connected to liquid level sensor, and the liquid level according to detected by liquid level sensor controls the first gas-liquid separation
The switching of the position of device 2 and the second gas-liquid separator 3.
By the way that liquid level sensor is arranged, suitable switching time can be selected, the gas-liquid point positioned at low-pressure end is effectively avoided
It is overstock excessively from the liquid refrigerant in device, avoids that compressor air suction band liquid occurs, improve the working performance of compressor.
In conjunction with shown in Figure 4, embodiment according to the present utility model, a kind of control method packet of above-mentioned air-conditioning system
Include: the first gas-liquid separator 2 of control is located at the exhaust end of compressor 1, and the second gas-liquid separator 3 is located at the air return end of compressor 1;
Detect the liquid level in the second gas-liquid separator 3;When the liquid level in the second gas-liquid separator 3 reaches preset height,
Switch the position of the first gas-liquid separator 2 and the second gas-liquid separator 3, so that the first gas-liquid separator 2 is located at returning for compressor 1
Gas end, the second gas-liquid separator 3 are located at the exhaust end of compressor 1.
It can detecte the liquid level in the first gas-liquid separator 2 later;Liquid level in the first gas-liquid separator 2
When reaching preset height, switch the position of the first gas-liquid separator 2 and the second gas-liquid separator 3, so that the first gas-liquid separator 2
Positioned at the exhaust end of compressor 1, the second gas-liquid separator 3 is located at the air return end of compressor 1, then according to above-mentioned control flow
Loop control is carried out, realizes the position switching of the first gas-liquid separator 2 and the second gas-liquid separator 3.
In conjunction with shown in Figure 5, embodiment according to the present utility model, a kind of control method packet of above-mentioned air-conditioning system
Include: the first gas-liquid separator 2 of control is located at the air return end of compressor 1, and the second gas-liquid separator 3 is located at the exhaust end of compressor 1;
Detect the liquid level in the first gas-liquid separator 2;When the liquid level in the first gas-liquid separator 2 reaches preset height,
Switch the position of the first gas-liquid separator 2 and the second gas-liquid separator 3, so that the first gas-liquid separator 2 is located at the row of compressor 1
Gas end, the second gas-liquid separator 3 are located at the air return end of compressor 1.
It can detecte the liquid level in the second gas-liquid separator 3 later;Liquid level in the second gas-liquid separator 3
When reaching preset height, switch the position of the first gas-liquid separator 2 and the second gas-liquid separator 3, so that the first gas-liquid separator 2
Positioned at the air return end of compressor 1, the second gas-liquid separator 3 is located at the exhaust end of compressor 1, then according to above-mentioned control flow
Loop control is carried out, realizes the position switching of the first gas-liquid separator 2 and the second gas-liquid separator 3.
Those skilled in the art will readily recognize that above-mentioned each advantageous manner can be free under the premise of not conflicting
Ground combination, superposition.
The above is only the preferred embodiments of the present utility model only, is not intended to limit the utility model, all practical at this
Made any modifications, equivalent replacements, and improvements etc., should be included in the guarantor of the utility model within novel spirit and principle
Within the scope of shield.Above are merely preferred embodiments of the utility model, it is noted that for the ordinary skill of the art
For personnel, without deviating from the technical principle of the utility model, several improvements and modifications can also be made, these improvement
It also should be regarded as the protection scope of the utility model with modification.
Claims (8)
1. a kind of air-conditioning system, which is characterized in that including compressor (1), the first gas-liquid separator (2) and the second gas-liquid separator
(3), the position of first gas-liquid separator (2) and second gas-liquid separator (3) allows hand over, so that first gas
Second gas-liquid separator (3) described in when liquid/gas separator (2) is located at the suction end of the compressor (1) is located at the compressor (1)
Exhaust end, when first gas-liquid separator (2) is located at the exhaust end of the compressor (1) described in the second gas-liquid separator
(3) it is located at the suction end of the compressor (1).
2. air-conditioning system according to claim 1, which is characterized in that the air-conditioning system further includes indoor heat exchanger (4)
With outdoor heat exchanger (5), the indoor heat exchanger (4) and the outdoor heat exchanger (5) pass through first gas-liquid separator (2)
It is connected to second gas-liquid separator (3) with the compressor (1).
3. air-conditioning system according to claim 2, which is characterized in that the indoor heat exchanger (4) and the outdoor heat exchange
Throttling set (6) are provided between device (5).
4. air-conditioning system according to claim 2, which is characterized in that the air-conditioning system further includes the first four-way valve (7)
With the second four-way valve (8),
The first interface of first four-way valve (7) and the air entry outlet of the compressor (1), first four-way valve
(7) outlet of second interface and first gas-liquid separator (2), the third interface of first four-way valve (7) with
Outdoor heat exchanger (5) connection, the 4th interface of first four-way valve (7) and going out for second gas-liquid separator (3)
Mouth connection;
The first interface of second four-way valve (8) is connected to the outlet of the compressor (1), second four-way valve (8)
Second interface and second gas-liquid separator (3) inlet communication, the third interface of second four-way valve (8) with it is described
Indoor heat exchanger (4) connection, the 4th interface of second four-way valve (8) and the import of first gas-liquid separator (2) connect
It is logical.
5. air-conditioning system according to claim 2, which is characterized in that the air-conditioning system further include the first control valve (9),
Second control valve (10), third control valve (11), the 4th control valve (12), the 5th control valve (13), the 6th control valve (14),
Seven control valves (15), the 8th control valve (16),
The air entry outlet of the compressor (1) is changed by the first pipeline being arranged in parallel and the second piping connection to the outdoor
Hot device (5), has been arranged in series the 4th control valve (12) and the 6th control valve (14) on first pipeline, on second pipeline
The second control valve (10) and the 8th control valve (16) have been arranged in series it, the outlet of the compressor (1), which passes through, to be arranged in parallel
Third pipeline and the 4th piping connection have been arranged in series third control valve on the third pipeline to the indoor heat exchanger (4)
(11) and the 5th control valve (13) the first control valve (9) and the 7th control valve (15), institute, have been arranged in series on the 4th pipeline
State the first gas-liquid separator (2) outlet be connected between second control valve (10) and the 8th control valve (16) described
On two pipelines, the import of first gas-liquid separator (2) be connected to first control valve (9) and the 7th control valve (15) it
Between the 4th pipeline on, the outlet of second gas-liquid separator (3) be connected to the 4th control valve (12) and the 6th control
On the first pipeline between valve (14), the import of second gas-liquid separator (3) be connected to the third control valve (11) and
On third pipeline between 5th control valve (13).
6. air-conditioning system according to claim 1, which is characterized in that first gas-liquid separator (2) and described second
Liquid level sensor is provided in gas-liquid separator (3).
7. air-conditioning system according to claim 3, which is characterized in that the throttling set (6) is heating power expansion valve.
8. air-conditioning system according to claim 6, which is characterized in that the air-conditioning system includes controller, the control
Device is connected to the liquid level sensor, and the liquid level according to detected by the liquid level sensor controls first gas-liquid
The switching of the position of separator (2) and second gas-liquid separator (3).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821910369.6U CN209085127U (en) | 2018-11-19 | 2018-11-19 | Air-conditioning system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201821910369.6U CN209085127U (en) | 2018-11-19 | 2018-11-19 | Air-conditioning system |
Publications (1)
Publication Number | Publication Date |
---|---|
CN209085127U true CN209085127U (en) | 2019-07-09 |
Family
ID=67124783
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201821910369.6U Withdrawn - After Issue CN209085127U (en) | 2018-11-19 | 2018-11-19 | Air-conditioning system |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN209085127U (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109373657A (en) * | 2018-11-19 | 2019-02-22 | 珠海格力节能环保制冷技术研究中心有限公司 | Air-conditioning system and its control method |
CN110608554A (en) * | 2019-09-18 | 2019-12-24 | 珠海格力电器股份有限公司 | Structure for preventing compressor from absorbing air and carrying liquid and air conditioning system |
-
2018
- 2018-11-19 CN CN201821910369.6U patent/CN209085127U/en not_active Withdrawn - After Issue
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109373657A (en) * | 2018-11-19 | 2019-02-22 | 珠海格力节能环保制冷技术研究中心有限公司 | Air-conditioning system and its control method |
CN109373657B (en) * | 2018-11-19 | 2023-05-23 | 珠海格力节能环保制冷技术研究中心有限公司 | Air conditioning system and control method thereof |
CN110608554A (en) * | 2019-09-18 | 2019-12-24 | 珠海格力电器股份有限公司 | Structure for preventing compressor from absorbing air and carrying liquid and air conditioning system |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN110411059B (en) | Double-evaporation-temperature heat pump system, air conditioner and control method | |
CN100386580C (en) | Heat pump air conditioner system and its steam jet control device and method | |
CN103542606B (en) | Heat pump type air conditioning system and control method thereof | |
CN1892154B (en) | Return-oil control method of multi-gang air-conditioner | |
CN203908096U (en) | Two-stage compression air conditioning system with defrosting function | |
CN209085127U (en) | Air-conditioning system | |
CN101398234A (en) | Low-temperature air-cooling heat pump unit | |
CN207936539U (en) | A kind of heat pump air conditioning system | |
CN2896146Y (en) | Heat-pump air-conditioner system and its steam jetting control device | |
CN210569333U (en) | Air conditioning system | |
CN201014833Y (en) | Air source heat pump low temperature heat-production bypass system | |
CN206145846U (en) | Miniature central air conditioning of components of a whole that can function independently multiple and control system thereof | |
US11892209B2 (en) | Multi-air conditioner for heating and cooling including a shut-off valve between indoor and outdoor units and control method thereof | |
CN109405334B (en) | Two-stage high-temperature condensation heat recovery heat pump system | |
CN106152344A (en) | Air-conditioning heating unit and heat-production control method thereof | |
CN210374156U (en) | Double-evaporation-temperature heat pump system and air conditioner | |
CN110986200B (en) | Fresh air dehumidification system and air conditioner | |
CN112797521A (en) | Indirect evaporative cooling device capable of preventing condensation and frosting | |
CN202153038U (en) | Thermal pump air-conditioner employing unloading valve | |
CN205373127U (en) | Two temperature refrigeration and heating | |
CN218599870U (en) | Air conditioning unit | |
CN104913411A (en) | Air conditioning unit | |
CN111442558A (en) | Temperature and humidity separately-controlled air conditioning system based on different evaporation temperatures of single machine and control method | |
CN214469042U (en) | Indirect evaporative cooling device capable of preventing condensation and frosting | |
CN109373657A (en) | Air-conditioning system and its control method |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20190709 Effective date of abandoning: 20230523 |
|
AV01 | Patent right actively abandoned |
Granted publication date: 20190709 Effective date of abandoning: 20230523 |
|
AV01 | Patent right actively abandoned | ||
AV01 | Patent right actively abandoned |