CN206191749U - Air conditioning system - Google Patents
Air conditioning system Download PDFInfo
- Publication number
- CN206191749U CN206191749U CN201621144653.8U CN201621144653U CN206191749U CN 206191749 U CN206191749 U CN 206191749U CN 201621144653 U CN201621144653 U CN 201621144653U CN 206191749 U CN206191749 U CN 206191749U
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- air
- pipe
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- module
- discharge pipe
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Abstract
The utility model discloses an air conditioning system, the system is including going out tuber pipe, backwind tube, the outdoor cabinet body, new trend entry, the export of airing exhaust, return air valve, bipolar ionization module, humidifier, first sensing module, second sensing module, data processor. It is internal that the inlet air mouth of pipe that goes out the tuber pipe lies in outdoor cabinet to the inlet air mouth of pipe meets with the new trend entry. It is internal that the exhaust pipe opening of backwind tube is located outdoor cabinet to exhaust pipe opening meets with the export of airing exhaust. Be equipped with the return air through -hole between the exhaust pipe opening and the inlet air mouth of pipe, the return air valve is installed on the return air through -hole. Bipolar ionization module, humidifier are installed in the air -out intraductally respectively. First sensing module is located air -out mouth of pipe department, the second sensing module lies in return air mouth of pipe department. The utility model discloses adjustment return air valve wobbling angle realizes the regulation to room air carbon dioxide concentration, control bipolar ionization module, humidifier, disinfect and the moisture content control to indoor air.
Description
Technical field
The utility model is related to air-conditioning and technical field of air purification, more particularly to a kind of air handling system.
Background technology
In existing air-conditioning technique, air adjustment often only considers the regulation of temperature.And with living standard
Improve, requirement of the people to (AQ) of air quality also more and more higher.Not merely it is satisfied with the regulation of temperature, but more takes notice of sky
Gas total quality, for example, PM2.5, formaldehyde, relative humidity, gas concentration lwevel etc..Additionally, the noise of air-conditioning, abnormal sound, section
Energy environmental protection is also that people are using most concerned problem in air-conditioning process.In the prior art without more comprehensive air adjustment solution
Certainly scheme.
Utility model content
In view of the shortcomings of the prior art, the utility model proposes a kind of air handling system, system is by the first sensing
Module, the second sensing module detect concentration, bacterial population value, the humidity of the carbon dioxide in air respectively, and by adjusting back
The angle that air-valve swings, the ratio of fresh air and return air, cannot control so as to solve existing air conditioning system in control discharge pipe
The problem of room air gas concentration lwevel processed.Also, according to indoor bacteria quantitative value, humidity, by controlling bipolar ionization mould
The unlatching and stopping of block, humidifier, so as to carry out sterilized and humid control to indoor air, solve existing air-conditioning regulation system
The uncontrollable indoor humidity of system and the defect that indoor air humidity cannot be adjusted.
To achieve these goals, technical solutions of the utility model are as follows:
A kind of air handling system, including discharge pipe, backwind tube, outdoor unit casing, fresh air inlet, wind exhausting outlet, return air
Valve, bipolar ionization module, humidifier, the first sensing module, the second sensing module, data processor.Fresh air inlet, wind exhausting outlet
It is separately positioned on the first face of outdoor unit casing.Second face of outdoor unit casing is provided with air-out pipe through-hole, return air pipe through-hole.Air-out
The inlet air mouth of pipe of pipe is located outside in box body, and the inlet air mouth of pipe connects with fresh air inlet;The air outlet tube mouth of discharge pipe is from going out
Airduct through hole stretches out.The air draft mouth of pipe of backwind tube is located outside in box body, and the air draft mouth of pipe connects with wind exhausting outlet;Return air
The return air mouth of pipe of pipe stretches out from return air pipe through-hole.Return air through hole is provided between the air draft mouth of pipe and the inlet air mouth of pipe;Air returning valve is arranged on
On the return air through hole;Air returning valve is used to adjust the ratio of fresh air and return air in discharge pipe, and then adjusts room air titanium dioxide
The concentration of carbon.Bipolar ionization module, humidifier are separately mounted in discharge pipe.First sensing module is located at air outlet tube mouth;The
Two sensing modules are located at the return air mouth of pipe.First sensing module is used to detect the bacterial number of the hollow gas of discharge pipe.Second sensing
Module is used to detect indoor gas concentration lwevel, air humidity respectively.Data processor respectively with air returning valve, bipolar ionization mould
Block, humidifier, the first sensing module, the second sensing module are electrically connected and connect.
Further, backwind tube is located at the lower section of discharge pipe.The tube wall phase mutual connection of the tube wall of the air draft mouth of pipe and the inlet air mouth of pipe
Touch.Discharge pipe includes discharge pipe main body.The inlet air mouth of pipe, air outlet tube mouth are respectively positioned at the two ends of discharge pipe main body;And air outlet tube mouth,
The inlet air mouth of pipe is mutually perpendicular to discharge pipe main body respectively.Air outlet tube mouth is located at the top of discharge pipe main body, and the inlet air mouth of pipe is located at out
The lower section of airduct main body;Air outlet tube mouth is parallel to each other with the inlet air mouth of pipe.
Further, also enter blower fan including exhaust blower, first, second enter blower fan.Exhaust blower is located at wind exhausting outlet;Air draft
Machine is used to for indoor return air to exclude outdoor.First inlet air machine is located at the inlet air mouth of pipe;Second inlet air machine is located at air outlet tube mouth.
Further, also including electric heater, the first filtering module, the second filtering module, refrigeration module.Refrigeration module bag
Containing indoor heat converter.First filtering module, indoor heat converter, bipolar ionization module, humidifier, the second filtering module, electricity
Heater is sequentially arranged in discharge pipe main body from bottom to up.
Further, refrigeration module also includes outdoor heat converter, four-way valve, compressor, flow controller.Indoor heat converter
In discharge pipe;Outdoor heat converter is connected with the 4th mouth of pipe of four-way valve;First mouth of pipe and compressor of four-way valve
First mouth of pipe be connected;Second mouth of pipe of compressor is connected with the 3rd mouth of pipe of four-way valve;Second mouth of pipe of four-way valve with
Indoor heat converter is connected;Flow controller is connected between indoor heat converter and indoor heat converter.
The beneficial effects of the utility model:
System in the utility model detects the titanium dioxide in air by the first sensing module, the second sensing module respectively
The concentration of carbon, bacterial population value, humidity, and by adjusting the angle that air returning valve swings, fresh air and return air in control discharge pipe
Ratio, so as to realize the regulation to room air gas concentration lwevel.Also, according to indoor bacteria quantitative value, humidity, by control
The unlatching and stopping of bipolar ionization module processed, humidifier, so as to carry out sterilized and humid control to indoor air.The system can
Room air is more comprehensively adjusted, the need for meeting user.
Brief description of the drawings
Fig. 1 is the structural representation of system in the utility model.
Wherein, the reference of Fig. 1 is:
Discharge pipe 101, backwind tube 102, total-heat exchanger 103, air returning valve 104, fresh air inlet 105, wind exhausting outlet 106,
Air outlet 107, return air inlet 108, refrigeration module 109, bipolar ionization module 110, humidifier 111, electric heater 112, exhaust blower
113rd, first enters blower fan 114, second enters blower fan 115, muffler 116, outdoor unit casing 117, the first sensing module 118, second
Sensing module 119, the first filtering module 120, the second filtering module 121;The inlet air mouth of pipe 1011, discharge pipe main body 1012, air-out
The mouth of pipe 1013;The return air mouth of pipe 1021, the air draft mouth of pipe 1022;Air-out pipe through-hole 1171, return air pipe through-hole 1172, refrigeration heat exchange mouthful
1173;Indoor heat converter 1091, outdoor heat converter 1092, four-way valve 1093, compressor 1094, refrigeration fan 1095, section
Stream device 1096.
Specific embodiment
With reference to the accompanying drawings and examples, the utility model is expanded on further.
As shown in figure 1, a kind of air handling system, including:Discharge pipe 101, backwind tube 102, total-heat exchanger 103, return
Air-valve 104, fresh air inlet 105, wind exhausting outlet 106, air outlet 107, return air inlet 108, refrigeration module 109, bipolar ionization module
110th, humidifier 111, electric heater 112, exhaust blower 113, first enter blower fan 114, second enter blower fan 115, muffler 116, room
Outer box body 117, the first sensing module 118, the second sensing module 119, the first filtering module 120, the second filtering module 121,
Data processor.Refrigeration module 109 includes indoor heat converter 1091.
Data processor respectively with air returning valve 104, bipolar ionization module 110, humidifier 111, the first sensing module 118,
Second sensing module 119 is electrically connected and connects.
Fresh air inlet 105 is adjacent with wind exhausting outlet 106;Total-heat exchanger 103 is placed in fresh air inlet 105 and wind exhausting outlet
At 106.Fresh air inlet 105, total-heat exchanger 103, discharge pipe 101, air outlet 107 are sequentially turned on;Return air inlet 108, backwind tube
102nd, total-heat exchanger 103, wind exhausting outlet 106 are sequentially turned on.
Heat exchange between the air that total-heat exchanger 103 is used in discharge pipe 101 and backwind tube 102.Backwind tube 102 with
Return air through hole is provided between discharge pipe 101, air returning valve 104 is arranged on return air through hole;Air returning valve 104 is near total-heat exchanger
103.Air returning valve 104 is used for the ratio by adjusting fresh air and return air in discharge pipe 101, and then adjusts room air carbon dioxide
Concentration.
The cross section of discharge pipe 101 is circle.The approximate S types of discharge pipe 101.Discharge pipe 101 is integrally formed and includes inlet air
The mouth of pipe 1011, discharge pipe main body 1012, air outlet tube mouth 1013.
The inlet air mouth of pipe 1011, discharge pipe main body 1012, air outlet tube mouth 1013 are integrally formed.The inlet air mouth of pipe 1011, discharge pipe
Mouth 1013 is respectively positioned at the two ends of discharge pipe main body 1012;And air outlet tube mouth 1013, the inlet air mouth of pipe 1011 respectively with discharge pipe master
Body 1012 is mutually perpendicular to.Air outlet tube mouth 1013 is located at the top of discharge pipe main body 1012, and the inlet air mouth of pipe 1011 is located at discharge pipe master
The lower section of body 1012.Air outlet tube mouth 1013 is parallel to each other with the inlet air mouth of pipe 1011.
Backwind tube 102 is the straight-tube shape of circular in cross-section.Backwind tube 102 is located at the lower section of discharge pipe 101.The air draft mouth of pipe
1022 tube wall contacts with each other with the tube wall of the inlet air mouth of pipe 1011.Return air between the air draft mouth of pipe 1022 and the inlet air mouth of pipe 1011 leads to
Hole position is on the tube wall that the air draft mouth of pipe 1022 is in contact with the inlet air mouth of pipe 1011.The air outlet tube mouth 1013 and return air of discharge pipe 101
The return air mouth of pipe 1021 of pipe 102 is parallel to each other.Air outlet tube mouth 1013, the return air mouth of pipe 1021 respectively with air outlet 107, return air inlet
108 are adapted;And air outlet tube mouth 1013, the return air mouth of pipe 1021 are used for the wall through building.The utility model is in application shape
Under state, air outlet 107, return air inlet 108 are respectively mounted on wall indoors.Air outlet tube mouth 1013, the return air mouth of pipe 1021 are distinguished
It is connected with air outlet 107, return air inlet 108 respectively after from outdoor through wall.
More specifically, outdoor unit casing 117 is in cubic type.Fresh air inlet 105, wind exhausting outlet 106 are separately positioned on room
First face of outer box body 117.Second face of outdoor unit casing 117 is provided with air-out pipe through-hole 1171, return air pipe through-hole 1172.Compared with
Goodly, the first face of outdoor unit casing 117 is for above;Second face of outdoor unit casing 117 is for below.The air-out of discharge pipe 101
The air draft mouth of pipe 1022 of the mouth of pipe 1013, discharge pipe main body 1012 and backwind tube 102 is located outside in box body 117.Gas inlet tube
Mouth 1011 connects by total-heat exchanger 103 with fresh air inlet 105;The air draft mouth of pipe 1022 is by total-heat exchanger 103 and air draft
Outlet 106 connects.Air outlet tube mouth 1013, the return air mouth of pipe 1021 stretch out from air-out pipe through-hole 1171, return air pipe through-hole 1172 respectively
Outdoor unit casing 117.
Outdoor fresh air enters from fresh air inlet 105, by total-heat exchanger 103, from the air outlet 107 of discharge pipe 101
Get in;Indoor return air (turbid wind) flows out from return air inlet 108, by total-heat exchanger 103, is excluded from wind exhausting outlet 106
It is outdoor.
Total-heat exchanger 103 is the ventilation unit for going with each other all the time.Total-heat exchanger 103 is square, has two-layer, comprising first
Ventilation group, the second ventilation group.The ventilation shaft of the first ventilation group intersects with the ventilation shaft of the second ventilation group, it is preferred that
It is mutually perpendicular to.Wind exhausting outlet 106 is located at the top of fresh air inlet 105.Wind exhausting outlet 106 is parallel to each other with fresh air inlet 105.Newly
Wind entrance 105 is connected by the first ventilation group with the inlet air mouth of pipe 1011;The air draft mouth of pipe 1022 is by the second ventilation group and air draft
Outlet 106 is connected.So, when the first ventilation group, the second ventilation group respectively flow through the air of different temperatures, the first ventilation group,
Air between second ventilation group will produce heat exchange, can reduce the energy loss during inletting fresh air.
Exhaust blower 113 is located at wind exhausting outlet 106.Exhaust blower 113 is used to for indoor return air to exclude outdoor.
First filtering module 120, indoor heat converter 1091, bipolar ionization module 110, humidifier 111, the second filter module
Block 121, electric heater 112 are sequentially arranged in discharge pipe main body 1012 from bottom to up.First enters blower fan 114 positioned at the inlet air mouth of pipe
At 1011, and first enters blower fan 114 near discharge pipe main body 1012.Second enters blower fan 115 at air outlet tube mouth 1013, and
And second enter blower fan 115 near discharge pipe main body 1012.Muffler 116 is placed in air outlet tube mouth 1013, and positioned at discharge pipe
The outside of through hole 1171.Muffler 116 is placed in the rear end of the second blower fan 115, be located outside box body 117 between the walls, room
In the course of the work, muffler 116 can reduce the noise of blower fan generation to indoor shadow to each blower fan in outer box body 117
Ring.
First sensing module 118 is located at air outlet tube mouth 1013;Second sensing module 119 is located at the return air mouth of pipe 1021.
Start first to enter blower fan 114 and second and enter blower fan 115, in the presence of two blower fans, outdoor fresh air is from fresh air
Entrance 105 enters, and then enters discharge pipe 101 by total-heat exchanger 103;Fresh air sequentially passes through the first filtering module 120, room
After inside heat exchanger 1091, bipolar ionization module 110, humidifier 111, the second filtering module 121, the treatment of electric heater 112,
By fresh air of the air outlet 107 for needed for indoor offer.
Refrigeration module 109 also comprising outdoor heat converter 1092, four-way valve 1093, compressor 1094, refrigeration fan 1095,
Flow controller 1096.Outdoor heat converter 1092 is connected with the 4th mouth of pipe (for statement is convenient, referred to as D mouthfuls afterwards) of four-way valve 1093
Connect;First mouth of pipe (being referred to as A mouthfuls afterwards) of four-way valve 1093 is connected with first mouth of pipe of compressor 1094;The of compressor 1094
Two mouths of pipe are connected with the 3rd mouth of pipe (being referred to as C mouthfuls afterwards) of four-way valve 1093;Second mouth of pipe (being referred to as B mouthfuls afterwards) of four-way valve 1093
It is connected with indoor heat converter 1091;Flow controller 1096 be connected on indoor heat converter 1091 and outdoor heat converter 1092 it
Between;Refrigeration fan 1095 is used to be radiated for outdoor heat converter 1092.Also, refrigeration heat is provided with before outdoor unit casing 117
Mouth 1173 is exchanged, outdoor refrigeration heat converter is located at refrigeration heat exchange mouthful 1173.
During refrigeration, the no power of four-way valve 1093, four-way valve 1093 is connected in AD, the state of BC connections, and refrigerant is by pressure
Contracting machine 1094 compresses the gas for being changed into HTHP, by A mouthfuls of four-way valve 1093, then by D mouthfuls of discharge, is handed over into outdoor heat
Parallel operation 1092, becomes the liquid of middle temperature high pressure after outdoor heat converter 1092 inhales cold heat release, through flow controller 1096 after, become low
The liquid of warm low pressure, after the heat absorption of indoor heat converter 1091 lets cool effect, becomes the gas of low-temp low-pressure, by four-way valve
1093B mouthfuls, compressor 1094 is returned to by C mouthfuls, then proceed to circulation.
During heating, four-way valve 1093 is powered, and the internal piston of four-way valve 1093 movement so that AB is connected, CD connections, refrigerant leads to
Overcompression machine 1094 compresses the gas for being changed into HTHP, by A mouthfuls of four-way valve 1093, by B mouthfuls of discharge, gets in heat
Exchanger 1091, indoors heat exchanger 1091 inhale the liquid for becoming middle temperature high pressure after cold heat release, become after flow controller 1096
The liquid of low-temp low-pressure, after the heat absorption of outdoor heat converter 1092 lets cool effect, becomes the gas of low-temp low-pressure, by four-way
Valve 1093D mouthfuls, compressor 1094 is returned to by C mouthfuls, then proceed to circulation.
Detect and obtain the bacterial population value N of air in discharge pipe 101 by the first sensing module 118, and by bacterial population
Value N sends data processor to.By data processor by bacterial population value N and default first bacterial number threshold value N1,
Second bacterial number threshold value N2 is compared;First bacterial number threshold value N1 is more than the second bacterial number threshold value N2.Work as bacterial population
When value N is more than or equal to the first bacterial number threshold value N1, data processor starts bipolar ionization module 110.Work as bacterial population
When value N is less than or equal to the second bacterial number threshold value N2, data processor stops bipolar ionization module 110.
The bacterial population value N of air in the detecting discharge pipe 101 of first sensing module 118, and data processor is by bacterium
Quantitative value N and setting reference value N1 and N2 contrast, wherein, N1>N2.It is more than when N values or more than or equal to N1, data processor is opened
Dynamic bipolar ionization module 110;When N values are less than N2 or less than or equal to N2, data processor stops bipolar ionization module 110.
First filtering module 120 and the second filtering module 121 are used to dispel the formaldehyde in air.First sensing module 118
And before processing value S1, value S2 after treatment on front side of the air effect in detecting real-time discharge pipe 101, filtering module.Data processing
Device contrasts the absolute value of S1-S2 and reference value △ S, during less than reference value, prompting changing the first filtering module 120 or the second mistake
Filter module 121.
Air returning valve 104 is used to adjust the ratio of indoor fresh air and return air.Detected by the second sensing module 119 and obtain room
Interior CO2Concentration value Q, and by CO2Concentration value Q sends data processor to.By data processor by CO2Concentration value Q with it is default
First CO2Concentration threshold Q1, the 2nd CO2Concentration threshold Q2, the 3rd CO2Concentration threshold Q3 is compared;Wherein, a CO2Concentration
Threshold value Q1 is less than the 2nd CO2Concentration threshold Q2, the 2nd CO2Concentration threshold Q2 is less than the 3rd CO2Concentration threshold Q3.Work as CO2Concentration value
Q is less than a CO2During concentration threshold Q1, the full angle of data processor controlled air returning valve 104 is opened.Work as CO2Concentration value Q is more than the
One CO2During concentration threshold Q1, and less than the 2nd CO2During concentration threshold Q2, the wide-angle of data processor controlled air returning valve 104 is beaten
Open.Work as CO2Concentration value Q is more than the 2nd CO2During concentration threshold Q2, and less than the 3rd CO2During concentration threshold Q3, data processor
Control air returning valve 104 low-angle is opened.Work as CO2Concentration value is more than the 3rd CO2During concentration threshold Q3, data processor controlled return air
Valve 104 is closed.
The humidity value M of room air is detected and obtained by the second sensing module 119, and the humidity value M is sent to
Data processor.The humidity value M is entered with default first humidity threshold M1, the second humidity threshold M2 by data processor
Row compares;First humidity threshold M1 is less than the second humidity threshold M2.When the humidity value M values are less than or equal to the first humidity threshold
During value M1, data processor starts humidifier 111.When the humidity value M values are more than or equal to the second humidity threshold M2, number
It is stopped according to processor control humidifier 111.Backwind tube 102, discharge pipe 101 respectively by thermal insulation layer and outdoor air every
From preventing the cold or thermal loss in air.
Above-described is only preferred embodiment of the present utility model, and the utility model is not limited to above example.Can
With understand, those skilled in the art directly derived on the premise of basic conception of the present utility model is not departed from or associated its
It is improved and change is considered as being included within protection domain of the present utility model.
Claims (5)
1. a kind of air handling system, it is characterised in that:
Including discharge pipe (101), backwind tube (102), outdoor unit casing (117), fresh air inlet (105), wind exhausting outlet (106),
Air returning valve (104), bipolar ionization module (110), humidifier (111), the first sensing module (118), the second sensing module
(119), data processor;
Fresh air inlet (105), wind exhausting outlet (106) are separately positioned on the first face of outdoor unit casing (117);
Second face of outdoor unit casing (117) is provided with air-out pipe through-hole (1171), return air pipe through-hole (1172);
The inlet air mouth of pipe (1011) of discharge pipe (101) is located outside in box body (117), and the inlet air mouth of pipe (1011) and fresh air
Entrance (105) connects;The air outlet tube mouth (1013) of discharge pipe (101) stretches out from air-out pipe through-hole (1171);
The air draft mouth of pipe (1022) of backwind tube (102) is located outside in box body (117), and the air draft mouth of pipe (1022) and air draft
Outlet (106) connects;The return air mouth of pipe (1021) of backwind tube (102) stretches out from return air pipe through-hole (1172);
Return air through hole is provided between the air draft mouth of pipe (1022) and the inlet air mouth of pipe (1011);Air returning valve (104) is installed in the return air
On through hole;Air returning valve (104) adjusts room air dioxy for adjusting the ratio of discharge pipe (101) interior fresh air and return air
Change the concentration of carbon;
Bipolar ionization module (110), humidifier (111) are separately mounted in discharge pipe (101);
First sensing module (118) is positioned at air outlet tube mouth (1013) place;Second sensing module (119) is positioned at the return air mouth of pipe 1021
Place;
First sensing module (118) is for detecting the bacterial number of air in discharge pipe (101);
Second sensing module (119) for detecting indoor gas concentration lwevel, air humidity respectively;
Data processor respectively with air returning valve (104), bipolar ionization module (110), humidifier (111), the first sensing module
(118), the second sensing module (119) electrical connection.
2. air handling system according to claim 1, it is characterised in that:
Lower section of the backwind tube (102) positioned at discharge pipe (101);
The tube wall of the air draft mouth of pipe (1022) contacts with each other with the tube wall of the inlet air mouth of pipe (1011);
The discharge pipe (101) includes discharge pipe main body (1012);
The inlet air mouth of pipe (1011), air outlet tube mouth (1013) are respectively positioned at the two ends of discharge pipe main body (1012);And air outlet tube mouth
(1013), the inlet air mouth of pipe (1011) is mutually perpendicular to discharge pipe main body (1012) respectively;
, positioned at the top of discharge pipe main body (1012), the inlet air mouth of pipe (1011) is positioned at discharge pipe main body for air outlet tube mouth (1013)
(1012) lower section;Air outlet tube mouth (1013) is parallel to each other with the inlet air mouth of pipe (1011).
3. air handling system according to claim 1, it is characterised in that:
Also include that exhaust blower (113), first enter blower fan (114), second enter blower fan (115);
Exhaust blower (113) is positioned at wind exhausting outlet (106) place;Exhaust blower (113) is outdoor for indoor return air to be excluded;
First enters blower fan (114) positioned at the inlet air mouth of pipe (1011) place;Second enters blower fan (115) positioned at air outlet tube mouth (1013) place.
4. air handling system according to claim 2, it is characterised in that:
Also include electric heater (112), the first filtering module (120), the second filtering module (121), refrigeration module (109);
The refrigeration module (109) includes indoor heat converter (1091);
First filtering module (120), indoor heat converter (1091), bipolar ionization module (110), humidifier (111), the second mistake
Filter module (121), electric heater (112) are sequentially arranged in discharge pipe main body (1012) from bottom to up.
5. air handling system according to claim 4, it is characterised in that:
The refrigeration module (109) is also comprising outdoor heat converter (1092), four-way valve (1093), compressor (1094), throttling
Device (1096);
Indoor heat converter (1091) is in discharge pipe (101);Outdoor heat converter (1092) and four-way valve (1093)
4th mouth of pipe is connected;First mouth of pipe of four-way valve (1093) is connected with first mouth of pipe of compressor (1094);Compressor
(1094) second mouth of pipe is connected with the 3rd mouth of pipe of four-way valve (1093);Second mouth of pipe and Indoor Thermal of four-way valve (1093)
Exchanger (1091) is connected;Flow controller (1096) be connected on indoor heat converter (1091) and indoor heat converter (1091) it
Between.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621144653.8U CN206191749U (en) | 2016-10-21 | 2016-10-21 | Air conditioning system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621144653.8U CN206191749U (en) | 2016-10-21 | 2016-10-21 | Air conditioning system |
Publications (1)
Publication Number | Publication Date |
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CN206191749U true CN206191749U (en) | 2017-05-24 |
Family
ID=58732387
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201621144653.8U Expired - Fee Related CN206191749U (en) | 2016-10-21 | 2016-10-21 | Air conditioning system |
Country Status (1)
Country | Link |
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CN (1) | CN206191749U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106352409A (en) * | 2016-10-21 | 2017-01-25 | 爱康森德(深圳)空气技术有限公司 | Air conditioning system and method |
-
2016
- 2016-10-21 CN CN201621144653.8U patent/CN206191749U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106352409A (en) * | 2016-10-21 | 2017-01-25 | 爱康森德(深圳)空气技术有限公司 | Air conditioning system and method |
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Legal Events
Date | Code | Title | Description |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20170524 Termination date: 20181021 |
|
CF01 | Termination of patent right due to non-payment of annual fee |