CN209263201U - A kind of exhausting air cleaner - Google Patents
A kind of exhausting air cleaner Download PDFInfo
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- CN209263201U CN209263201U CN201821625133.8U CN201821625133U CN209263201U CN 209263201 U CN209263201 U CN 209263201U CN 201821625133 U CN201821625133 U CN 201821625133U CN 209263201 U CN209263201 U CN 209263201U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B30/00—Energy efficient heating, ventilation or air conditioning [HVAC]
- Y02B30/56—Heat recovery units
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Abstract
The utility model relates to air-treatment field, in particular to a kind of exhausting air cleaner, including air inlet unit and exhaust fan unit;Sequentially connected heat pipe table cold and heat recovery section, evaporator section, maintenance section, heat pipe secondary heat-recovery section, surface cooling section and condensing units section;Maintenance section, which is equipped in refrigerant low-voltage interface and refrigerant, crimps mouth, and condensing units section is equipped with condensing units coil pipe, and surface cooling section is equipped with refrigerant high pressure interface;Exhaust fan unit includes along air draft input end to heat-recovery section of the sequentially connected heat pipe of wind exhausting outlet extreme direction and compression condensation section, exhaust fan unit includes compression condensation section, the utility model avoids the electrically heated energy and uses the interference of expenditure and extraneous undesirable element, the heat for releasing compression condensation section when compressing refrigerant is fully used, and energy consumption is greatly reduced;Recuperation of heat is carried out to outdoor exhaust gas will be discharged, the heat source in exhaust gas is used adequately, reduces energy consumption.
Description
Technical field
The utility model relates to air-treatment field, in particular to a kind of exhausting air cleaner.
Background technique
In recent years, air-conditioning market competition was more and more fierce, and the requirement to air-conditioning regulation performance is also higher and higher, air conditioning
Main control include air quality, air themperature, air humidity and wind speed etc..
The control of air quality is compared from however effective method is to be set using outdoor fresh air to room air
It changes or dilutes, that is, sucking outdoor fresh air, indoor exhaust air is discharged.For being under high humidity environment in existing aeration device
Fresh air, the general moisture by condensing tube condensation fresh air achievees the purpose that fresh air dehumidification, and dehumidification by condensation can make newly
The temperature of wind declines to a great extent, generally can be lower than indoor required preference temperature, to need using electric heating or other heating sides
Formula enters back into interior after the fresh air after dehumidification by condensation to be heated to suitable temperature, using exhaust fan unit that indoor exhaust gas is direct
Discharge is outdoor, does not carry out effective recycling and reusing to indoor exhaust gas, there are problems that high energy consumption.
Utility model content
In order to overcome the defects of the prior art described above, the technical problem to be solved by the utility model is to refrigerant efficiency
Than low, the energy loss in the exhaust gas of indoor discharge is serious.
In order to solve the above-mentioned technical problem, the technical solution adopted in the utility model are as follows:
A kind of exhausting air cleaner, including air inlet unit and exhaust fan unit;
The air inlet unit includes exporting the sequentially connected heat pipe table cold and heat recovery of extreme direction along fresh inlet end to fresh air
Section, evaporator section, maintenance section, heat pipe secondary heat-recovery section, surface cooling section and condensing units section;The heat pipe table cold and heat recovery section is set
There is heat pipe coil pipe, the heat pipe secondary heat-recovery section is equipped with second heat pipe dish pipe;
The evaporator section is equipped with evaporation coil, and the maintenance section is equipped in refrigerant low-voltage interface and refrigerant and crimps
Mouthful, the condensing units section is equipped with condensing units coil pipe, and the surface cooling section is equipped with refrigerant high pressure interface;
The exhaust fan unit includes along air draft input end to a wind exhausting outlet extreme direction recuperation of heat of sequentially connected heat pipe
Section and compression condensation section, heat-recovery section of the heat pipe are equipped with a heat pipe coil pipe;
The heat pipe coil pipe of the heat pipe table cold and heat recovery section, a heat pipe coil pipe of heat-recovery section of heat pipe and heat pipe two
The second heat pipe dish pipe of secondary heat-recovery section forms the heat recovery circuit of closed loop, and ethylene glycol solution is equipped in heat recovery circuit and is pumped;
The exhaust fan unit includes compression condensation section, and the compression condensation section includes fluid reservoir, compressor and compression condensation
Coil pipe, the fluid reservoir are set there are two interface, and the compressor sets that there are two interfaces;
One interface of the fluid reservoir is connect with the input end of the compression condensation coil pipe, another interface of the fluid reservoir
It is connect with an interface of the compressor, the refrigerant low-voltage interface of another interface of the compressor and the maintenance section connects
It connects, the outlet end of the compression condensation coil pipe is connect with crimping mouth in the refrigerant of the maintenance section;
The refrigerant high pressure interface connects with an interface of the fluid reservoir of the input end of condensing units coil pipe respectively
Connect, the outlet end of the condensing units coil pipe is connect with the input end of the evaporation coil, in the refrigerant crimp mouth with
The input end of the evaporation coil connects, and the outlet end of the evaporation coil is connect with refrigerant low-voltage interface, the refrigerant
Low-voltage interface is connect with the outlet end of the compression condensation coil pipe.
The utility model has the beneficial effects that: the refrigerant generated in the prior art using outdoor machine of air-conditioner, further according to system
Moisture in the principle condensation damp-heat air of cryogen decompression heat absorption, the air for being up to purification standard is discharged into interior, indoor useless
Gas directly excludes outdoor, and the structure of outer machine has been added to compression condensation section by the utility model, and avoiding the electrically heated energy makes
With the interference of expenditure and extraneous undesirable element, the heat for releasing compression condensation section when compressing refrigerant is fully used, greatly
Energy consumption is reduced greatly;It joined heat source recovery device, carry out recuperation of heat to outdoor exhaust gas will be discharged, make the heat source in exhaust gas
It is adequately used, reduces energy consumption.
Detailed description of the invention
Fig. 1 show a kind of structural schematic diagram of exhausting air cleaner;
Fig. 2 show a kind of partial enlarged view of exhausting air cleaner air inlet unit heat pipe secondary heat-recovery section;
Fig. 3 show a kind of partial enlarged view of exhausting air cleaner air inlet unit evaporator section;
Label declaration:
1, unit is entered the wind;11, fresh air section;
12, initial effect filtering section;121, primary filter;
13, heat pipe table cold and heat recovery section;
14, evaporator section;141, mouth is crimped in refrigerant;142, refrigerant low-voltage interface;143, device for drying and filtering;144, electric
Sub- expansion valve;
15, heat pipe secondary heat-recovery section;151, check valve;152, ethylene glycol outlet end;153, ethylene glycol input end;154,
Electronic ratio triple valve;155, check valve;
16, surface cooling section;161, chilled water water return outlet;162, refrigerant high pressure interface;
17, bringing-up section;
18, condensing units section;181, check valve;
19, fan section;110, medium efficiency filtration section;111, humidifier section;112, wind outlet section;113, medium effeciency filter;
2, exhaust fan unit;21, initial effect filtering section;
22, spray section is washed;221, spray pump is washed;
23, heat-recovery section of heat pipe;231, ethylene glycol solution pumps;
24, oxidation sterilizing section;25, active carbon filtration section;26, active carbon filtration section;
27, compression condensation section;271, electric expansion valve;272, compressor;273, check valve;
28, exhaust blower section;
29, exhaustion section;
3, heat pipe liquid back pipe;
4, heat pipe liquid supply pipe.
Specific embodiment
For technology contents, the objects and the effects that the utility model is described in detail, below in conjunction with embodiment and match
Attached drawing is closed to be explained.
The design of the utility model most critical is: using the principle of compression condensation, handling the fresh air of high humidity;It adopts
The principle of spent glycol solution recuperation of heat utilizes the exhaust gas recuperation of heat of indoor discharge again.
It please refers to shown in Fig. 1 to Fig. 3, a kind of exhausting air cleaner of the utility model, including air inlet unit and exhaust blower
Group;The air inlet unit includes along the sequentially connected heat pipe table cold and heat recovery section of fresh inlet end to fresh air outlet extreme direction, steams
Send out section, maintenance section, heat pipe secondary heat-recovery section, surface cooling section and condensing units section;The heat pipe table cold and heat recovery section is equipped with heat
Pipe dish pipe, the heat pipe secondary heat-recovery section are equipped with second heat pipe dish pipe;
The evaporator section is equipped with evaporation coil, and the maintenance section is equipped in refrigerant low-voltage interface and refrigerant and crimps
Mouthful, the condensing units section is equipped with condensing units coil pipe, and the surface cooling section is equipped with refrigerant high pressure interface;
The exhaust fan unit includes along air draft input end to a wind exhausting outlet extreme direction recuperation of heat of sequentially connected heat pipe
Section and compression condensation section, heat-recovery section of the heat pipe are equipped with a heat pipe coil pipe;
The heat pipe coil pipe of the heat pipe table cold and heat recovery section, a heat pipe coil pipe of heat-recovery section of heat pipe and heat pipe two
The second heat pipe dish pipe of secondary heat-recovery section forms the heat recovery circuit of closed loop, and ethylene glycol solution is equipped in heat recovery circuit and is pumped;
The exhaust fan unit includes compression condensation section, and the compression condensation section includes fluid reservoir, compressor and compression condensation
Coil pipe, the fluid reservoir are set there are two interface, and the compressor sets that there are two interfaces;One interface of the fluid reservoir and the pressure
The input end of contracting condenser coil connects, and another interface of the fluid reservoir is connect with an interface of the compressor, the compression
Another interface of machine is connect with the refrigerant low-voltage interface of the maintenance section, the outlet end of the compression condensation coil pipe and the inspection
It repairs and crimps mouth connection in the refrigerant of section;
The refrigerant high pressure interface connects with an interface of the fluid reservoir of the input end of condensing units coil pipe respectively
Connect, the outlet end of the condensing units coil pipe is connect with the input end of the evaporation coil, in the refrigerant crimp mouth with
The input end of the evaporation coil connects, and the outlet end of the evaporation coil is connect with refrigerant low-voltage interface, the refrigerant
Low-voltage interface is connect with the outlet end of the compression condensation coil pipe.
A kind of working principle of above-mentioned exhausting air cleaner: outdoor high humidity fresh air is sucked by above-mentioned fresh air section 11, warp
After crossing the filtering of air inlet initial effect filtering section 12, hot friendship is carried out into heat pipe table cold and heat recovery section 13 and heat pipe table cold and heat recovery section 13
It changes, then passes through evaporator section 14, since evaporation coil input end connects condensing units coil outlets end, condensing units coil pipe
In high-pressure refrigerant enter evaporation coil when by decompressor be evaporated under reduced pressure heat absorption, reduce evaporative coil temperature, room
The evaporation coil moment of contact with moisture low temperature in outer high humidity fresh air condenses, to have the function that fresh air dehumidification, fresh air continues
After carrying out heat exchange into heat pipe secondary heat-recovery section 15 and surface cooling section 16, into bringing-up section 17 and condensing units section 18, make
Fresh air heating, due to after dehumidifying air and evaporation coil carried out heat exchange, air themperature is lower than indoor required temperature, needs
Interior is entered back into after being heated to preference temperature, what is be passed through in the condensing units coil pipe in condensing units section 18 is by compressor
High-pressure refrigerant after 272 compressions releases a large amount of heat since compressor 272 compresses refrigerant, the refrigerant in this section
Temperature is high, and the fresh air after dehumidifying supercooling carries out heat exchange by the Duan Shiyu condensing units coil pipe, is warmed to room temperature, then pass through
Medium efficiency filtration section 113 is crossed further to enter the room after filtering and humidifier section 111 are handled.
As can be seen from the above description, the utility model has the beneficial effects that: utilizing outdoor machine of air-conditioner generation in the prior art
Refrigerant is up to the air row of purification standard further according to the moisture in the principle condensation damp-heat air of refrigerant decompression heat absorption
Enter interior, indoor exhaust gas directly excludes outdoor, and the structure of outer machine has been added in compression condensation section 27, has kept away by the utility model
The electrically heated energy is exempted from using the interference of expenditure and extraneous undesirable element, has made the heat released when compression condensation section compression refrigerant
Amount is fully used, and energy consumption is greatly reduced;It joined heat source recovery device, carry out heat time to outdoor exhaust gas will be discharged
It receives, uses the heat source in exhaust gas adequately, reduce energy consumption.
Further, the heat pipe table cold and heat recovery section is equipped with initial effect filtering section 12 close to air inlet, described just to imitate
Section 12 is filtered relative to the heat pipe table cold and heat recovery section 13 close to fresh inlet end.
As can be seen from the above description, by setting initial effect filtering section 12, convenient for a part of impurity in removal fresh air.
Further, bringing-up section 17 is equipped between the surface cooling section 16 and condensing units section 18.
As can be seen from the above description, convenient for fresh air to be heated to suitable temperature, then being discharged into room by setting bringing-up section 17
It is interior.
Further, the second heat pipe dish pipe of one end and heat pipe secondary heat-recovery section 15 of a heat pipe coil pipe into
The connection of mouth end, the outlet end of the second heat pipe dish pipe of the heat pipe secondary heat-recovery section 15 and the heat of heat pipe table cold and heat recovery section 13
The input end of pipe dish pipe connects, the outlet end of the heat pipe coil pipe of the heat pipe table cold and heat recovery section 13 and a heat pipe coil pipe
The other end connection.
As can be seen from the above description, by the way that each heat pipe coil pipe is linked into each segmentation, convenient for the ethylene glycol in heat pipe
Solution flows in a device.
Further, the second heat pipe dish pipe of the heat pipe secondary heat-recovery section includes straight tube branch, coil pipe branch and electricity
Dynamic ratio triple valve 154, electronic ratio triple valve 154 include first interface, second interface and third interface, the first interface
It is connect with the input end of the second heat pipe dish pipe of heat pipe secondary heat-recovery section, the second interface and straight tube branch one end connect
It connects, the third interface is connect with coil pipe branch one end, and the straight tube branch other end is connect with the coil pipe branch other end.
As can be seen from the above description, by the way that electronic ratio triple valve 154 is arranged in the loop, convenient for control ethylene glycol solution
Flow direction and flow.
Further, the junction of the input end of an interface of the fluid reservoir and the compression condensation coil pipe is equipped with electronics
Expansion valve 271, and the junction of an interface of the fluid reservoir and the refrigerant high pressure interface is equipped with electric expansion valve 271.
As can be seen from the above description, by setting electric expansion valve 271, convenient for the impurity in removal refrigerant.
It please refers to shown in Fig. 1 to Fig. 3, the embodiments of the present invention one are as follows:
A kind of exhausting air cleaner, including air inlet unit 1 and exhaust fan unit 2;
The air inlet unit 1 includes along fresh inlet end to fresh air outlet extreme direction sequentially connected fresh air section 11, just effect
Fillter section 12, heat pipe table cold and heat recovery section 13, evaporator section 14, maintenance section, heat pipe secondary heat-recovery section 15, surface cooling section 16, heating
Section 17, condensing units section 18, medium efficiency filtration section 110 and humidifier section 111;The heat pipe table cold and heat recovery section is equipped with heat pipe disk
Pipe, the heat pipe secondary heat-recovery section are equipped with second heat pipe dish pipe;
The evaporator section is equipped with evaporation coil, and the maintenance section is equipped in refrigerant low-voltage interface 142 and refrigerant and presses
Interface 141, the condensing units section are equipped with condensing units coil pipe, and the surface cooling section is equipped with refrigerant high pressure interface 162,
The heat pipe secondary heat-recovery section 15 is equipped with check valve 151, ethylene glycol outlet end 152, ethylene glycol input end 153 and check valve
155, the surface cooling section is equipped with chilled water water return outlet 161;
The exhaust fan unit includes along air draft input end to the sequentially connected initial effect filtering section 21 of wind exhausting outlet extreme direction, water
Washing and spraying section 22, heat-recovery section 23 of heat pipe, oxidation sterilizing section 24, active carbon filtration section 25, active carbon filtration section 26, compression
Heat-recovery section of heat pipe described in condensation segment 27 and exhaustion section is equipped with a heat pipe coil pipe;
The heat pipe coil pipe of the heat pipe table cold and heat recovery section, a heat pipe coil pipe of heat-recovery section of heat pipe and heat pipe two
The second heat pipe dish pipe of secondary heat-recovery section forms the heat recovery circuit of closed loop, and ethylene glycol solution is equipped in heat recovery circuit and is pumped
231, ethylene glycol solution pump discharge end is connect with heat pipe liquid supply pipe 4, the ethylene glycol solution input end and heat pipe liquid back pipe 3
Connection;
The 2 compression condensation section 27 of exhaust fan unit includes fluid reservoir, compressor 272 and compression condensation coil pipe, the liquid storage
Tank is set there are two interface, and the compressor 272 sets that there are two interface, an interface of the fluid reservoir and the compression condensation coil pipes
Input end connection, another interface of the fluid reservoir connect with an interface of the compressor, and the another of the compressor connects
Mouth is connect with the refrigerant low-voltage interface of the maintenance section, the refrigeration of the outlet end of the compression condensation coil pipe and the maintenance section
Mouth 141 is crimped in agent to connect;
The refrigerant high pressure interface connects with an interface of the fluid reservoir of the input end of condensing units coil pipe respectively
It connects, the outlet end of the condensing units coil pipe is connect with the input end of the evaporation coil, and mouth 141 is crimped in the refrigerant
It is connect with the input end of the evaporation coil, the outlet end of the evaporation coil is connect with refrigerant low-voltage interface 142, the system
Cryogen low-voltage interface 142 is connect with the outlet end of the compression condensation coil pipe;
The heat pipe table cold and heat recovery section is equipped with initial effect filtering section close to air inlet end, and the initial effect filtering section is relative to institute
Heat pipe table cold and heat recovery section is stated close to fresh inlet end;Primary filter 121 is equipped in the initial effect filtering section 12;
The input end of the second heat pipe dish pipe of one end and heat pipe secondary heat-recovery section of heat pipe coil pipe is connect, institute
State the input end of the outlet end of the second heat pipe dish pipe of heat pipe secondary heat-recovery section and the heat pipe coil pipe of heat pipe table cold and heat recovery section
Connection, the outlet end of the heat pipe coil pipe of the heat pipe table cold and heat recovery section is connect with the other end of a heat pipe coil pipe;
The secondary of one end of a heat pipe coil pipe and heat pipe secondary heat-recovery section is arranged in ethylene glycol solution pump
Between the input end of heat pipe coil pipe;
The second heat pipe dish pipe of the heat pipe secondary heat-recovery section includes straight tube branch, coil pipe branch and electronic ratio threeway
Valve 154, electronic ratio triple valve packet 154 include first interface, second interface and third interface, the first interface and heat pipe secondary
The input end of the second heat pipe dish pipe of heat-recovery section connects, and the second interface is connect with straight tube branch one end, and described the
Three interfaces are connect with coil pipe branch one end, and the straight tube branch other end is connect with the coil pipe branch other end;
The input end of one interface of the fluid reservoir and the compression condensation coil pipe is equipped with electric expansion valve 273, and described
One interface of fluid reservoir and the refrigerant high pressure interface connection are equipped with electric expansion valve 273.
The variation of the temperature of fresh air is specific as follows in above-mentioned exhausting air cleaner:
Such as summer outdoor fresh air temperature is 36 DEG C, it is cold by initial effect filtering section 12 and heat pipe table into after air inlet unit 1
After heat-recovery section 13, the temperature of fresh air is down to 26 DEG C;After 14 dehumidification by condensation of evaporator section, new air temperature is down to 12 DEG C;By
After heat pipe secondary heat-recovery section 15, new air temperature rises to 17 DEG C;After bringing-up section 17 and condensing units section 18, new air temperature
Rise to 21 DEG C;Indoor new air temperature is finally putting between 22~23 DEG C;
Such as indoor exhaust gas temperature is between 23~25 DEG C, into after exhaust fan unit 2, by initial effect filtering section and washing
Spray section, the temperature of exhaust gas are down between 18~21 DEG C;After heat-recovery section of superheater tube and oxidation sterilizing section, the temperature of exhaust gas
Degree rises between 25~29 DEG C, and finally discharge is outdoor.
The variation of ethylene glycol temperature in above-mentioned exhausting air cleaner is specific as follows:
The ethylene glycol temperature of heat-recovery section 21 of heat pipe outflow is between 21~23 DEG C, from heat pipe secondary heat-recovery section 15
The ethylene glycol temperature of outflow between 17~21 DEG C, flow into heat pipe table cold and heat recovery section 13 ethylene glycol temperature 17~23 DEG C it
Between, the ethylene glycol temperature of heat-recovery section 21 of heat pipe is flowed back between 24~28 DEG C.
In conclusion a kind of exhausting air cleaner provided by the utility model, is generated using outdoor machine of air-conditioner in the prior art
Refrigerant, further according to refrigerant decompression heat absorption principle condensation damp-heat air in moisture, be up to the air of purification standard
It is discharged into interior, indoor exhaust gas directly excludes outdoor, and the structure of outer machine has been added to compression condensation section, avoided by the utility model
Interference of the electrically heated energy using expenditure and extraneous undesirable element, the heat for releasing compression condensation section when compressing refrigerant
It is fully used, greatly reduces energy consumption;It joined heat source recovery device, carry out heat time to outdoor exhaust gas will be discharged
It receives, uses the heat source in exhaust gas adequately, reduce energy consumption.
The above description is only the embodiments of the present invention, and therefore it does not limit the scope of the patent of the utility model, all
Equivalents made based on the specification and figures of the utility model are applied directly or indirectly in relevant technology neck
Domain is also included in the patent protection scope of the utility model.
Claims (8)
1. a kind of exhausting air cleaner, which is characterized in that including air inlet unit and exhaust fan unit;
The air inlet unit includes along the sequentially connected heat pipe table cold and heat recovery section of fresh inlet end to fresh air outlet extreme direction, steams
Send out section, maintenance section, heat pipe secondary heat-recovery section, surface cooling section and condensing units section;The heat pipe table cold and heat recovery section is equipped with heat
Pipe dish pipe, the heat pipe secondary heat-recovery section are equipped with second heat pipe dish pipe;
The evaporator section is equipped with evaporation coil, and the maintenance section is equipped in refrigerant low-voltage interface and refrigerant and crimps mouth, institute
It states condensing units section and condensing units coil pipe is installed, the surface cooling section is equipped with refrigerant high pressure interface;
The exhaust fan unit include along air draft input end to heat-recovery section of the sequentially connected heat pipe of wind exhausting outlet extreme direction and
Compression condensation section, heat-recovery section of the heat pipe are equipped with a heat pipe coil pipe;
The heat pipe coil pipe of the heat pipe table cold and heat recovery section, a heat pipe coil pipe of heat-recovery section of heat pipe and heat pipe secondary heat
The second heat pipe dish pipe of exhausting section forms the heat recovery circuit of closed loop, and ethylene glycol solution is equipped in heat recovery circuit and is pumped;
The exhaust fan unit includes compression condensation section, and the compression condensation section includes fluid reservoir, compressor and compression condensation coil pipe,
The fluid reservoir is set there are two interface, and the compressor is set there are two interface, and an interface of the fluid reservoir and the compression are cold
The input end connection of solidifying coil pipe, another interface of the fluid reservoir are connect with an interface of the compressor, the compressor
Another interface is connect with the refrigerant low-voltage interface of the maintenance section, the outlet end of the compression condensation coil pipe and the maintenance section
Refrigerant in crimping mouth connection;
The refrigerant high pressure interface is connect with an interface of the fluid reservoir of the input end of condensing units coil pipe respectively, institute
The outlet end for stating condensing units coil pipe is connect with the input end of the evaporation coil, and mouth and the steaming are crimped in the refrigerant
The input end connection of quotation pipe, the outlet end of the evaporation coil are connect with refrigerant low-voltage interface, and the refrigerant low pressure connects
Mouth is connect with the outlet end of the compression condensation coil pipe.
2. exhausting air cleaner according to claim 1, which is characterized in that the heat pipe table cold and heat recovery section is close to air inlet
Mouth end is equipped with initial effect filtering section, and the initial effect filtering section is relative to the heat pipe table cold and heat recovery section close to fresh inlet end.
3. exhausting air cleaner according to claim 2, which is characterized in that be equipped with primarily efficient filter in the initial effect filtering section
Device.
4. exhausting air cleaner according to claim 1, which is characterized in that between the surface cooling section and condensing units section
Equipped with bringing-up section.
5. exhausting air cleaner according to claim 1, which is characterized in that one end of a heat pipe coil pipe and heat pipe
The input end of the second heat pipe dish pipe of secondary heat-recovery section connects, and the second heat pipe dish pipe of the heat pipe secondary heat-recovery section goes out
Mouth end is connect with the input end of the heat pipe coil pipe of heat pipe table cold and heat recovery section, the heat pipe coil pipe of the heat pipe table cold and heat recovery section
Outlet end is connect with the other end of a heat pipe coil pipe.
6. exhausting air cleaner according to claim 5, which is characterized in that the ethylene glycol solution pump is arranged described one
Between the input end of the second heat pipe dish pipe of one end and heat pipe secondary heat-recovery section of secondary heat pipe coil pipe.
7. exhausting air cleaner according to claim 1, which is characterized in that the second heat of the heat pipe secondary heat-recovery section
Pipe dish pipe includes straight tube branch, coil pipe branch and electronic ratio triple valve, and electronic ratio triple valve includes first interface, second connects
Mouthful and third interface, the first interface connect with the input end of the second heat pipe dish pipe of heat pipe secondary heat-recovery section, described the
Two interfaces are connect with straight tube branch one end, and the third interface is connect with coil pipe branch one end, the straight tube branch
The other end is connect with the coil pipe branch other end.
8. exhausting air cleaner according to claim 1, which is characterized in that an interface of the fluid reservoir and the compression
The junction of the input end of condenser coil is equipped with electric expansion valve, and an interface of the fluid reservoir connects with the refrigerant high pressure
The junction of mouth is equipped with electric expansion valve.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821625133.8U CN209263201U (en) | 2018-10-08 | 2018-10-08 | A kind of exhausting air cleaner |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821625133.8U CN209263201U (en) | 2018-10-08 | 2018-10-08 | A kind of exhausting air cleaner |
Publications (1)
Publication Number | Publication Date |
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CN209263201U true CN209263201U (en) | 2019-08-16 |
Family
ID=67552227
Family Applications (1)
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CN201821625133.8U Active CN209263201U (en) | 2018-10-08 | 2018-10-08 | A kind of exhausting air cleaner |
Country Status (1)
Country | Link |
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CN (1) | CN209263201U (en) |
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2018
- 2018-10-08 CN CN201821625133.8U patent/CN209263201U/en active Active
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