CN205641662U - High -efficient ice source heat pump set - Google Patents
High -efficient ice source heat pump set Download PDFInfo
- Publication number
- CN205641662U CN205641662U CN201620434035.0U CN201620434035U CN205641662U CN 205641662 U CN205641662 U CN 205641662U CN 201620434035 U CN201620434035 U CN 201620434035U CN 205641662 U CN205641662 U CN 205641662U
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- China
- Prior art keywords
- hot water
- entrance
- regenerator
- outlet
- condenser
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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]
- Y02B30/12—Hot water central heating systems using heat pumps
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- Other Air-Conditioning Systems (AREA)
Abstract
The utility model discloses a high -efficient ice source heat pump set, include: an evaporator. The cross valve, the regenerator, first, second is taken over, a compressor. The hot water recovery interchanger, the heat preservation hot -water tank, condensers. Ice source air exchanger. This heat pump set compact structure, with low costs, source solution carries out the heat exchange with the air through ice, as secondary refrigerant or catalyst carrier, improves the effect of refrigerating or heating, and heat pump set can reduce the heat pump air conditioning system cost for indoor three kinds refrigeration, heating and the life hot water that provide, can also adapt to various areas simultaneously, and whole heat pump set is efficient, and the energy consumption is low, and efficiency is put forward to the regenerator.
Description
Technical field
This utility model relates to a kind of efficiently ice source source pump, reduces liquid pipe temperature, increases degree of supercooling, increases the confession of expansion valve
Liquid ability, promotes the temperature of muffler, reduces compression ratio.
Background technology
Source pump, as ripe technology, is applied relatively broad within air-conditioning systems, under energy-saving and cost-reducing demand, existing
There is certain deficiency, such as efficiency and have much room for improvement in source pump.
Utility model content
For the deficiency in the presence of prior art, this utility model provides the efficient ice source source pump that a kind of efficiency is higher.
For achieving the above object, this utility model have employed following technical scheme: a kind of efficiently ice source source pump, its feature
It is, including:
Vaporizer, it has vaporizer liquid refrigerant inlet and the outlet of vaporizer gaseous refrigerant;
Cross valve, it has cross valve first interface, cross valve the second interface, cross valve the 3rd interface and cross valve the 4th interface;
Regenerator, it has regenerator the first entrance, regenerator first exports, regenerator the second entrance and regenerator second export;
First, second adapter, the first adapter is set gradually first and second check valve, the second adapter from entrance toward Way out
On set gradually the 3rd and the 4th check valve from entrance toward Way out;
Compressor, it has suction port of compressor and compressor outlet;
Recovery of the hot water exchanger, it has hot water exchanger the first entrance, hot water exchanger first exports, hot water exchanger hot water
Entrance and hot water exchanger hot water outlet;
Heat preservation hot water tank, it has heat preservation hot water tank entrance and heat preservation hot water tank outlet;
Condenser, it has condenser the first entrance, condenser first exports, condenser ice source solution inlet and condenser ice source
Taphole;
Ice source brethaid, it has rainproof housing, rainproof housing is respectively provided with air inlet and exhaust outlet, in rainproof housing
Arranging solution spraying room, solution spraying room is connected to PVC/ cascade paper wadding structure, arranges ice below PVC/ cascade paper wadding structure
Solution hydrops pond, source, arranges cooling fan at exhaust outlet;
Wherein, the outlet of vaporizer gaseous refrigerant is connected to cross valve the second interface, and cross valve the 4th interface is connected to regenerator first and enters
Mouthful, regenerator the first outlet is connected to suction port of compressor, and compressor outlet is connected to Recovery of the hot water exchanger the first entrance, Recovery of the hot water
Exchanger the first outlet is connected to cross valve first interface, and cross valve the 3rd interface is connected to condenser the first entrance, and condenser first goes out
In the first adapter that mouth is connected between first and second check valve, the outlet of first, second adapter is all connected to regenerator the second entrance,
Regenerator second exports the porch being connected to first, second adapter by filter and expansion valve, vaporizer liquid refrigerant inlet
In the second adapter being connected between the three, the 4th check valves;
Recovery of the hot water exchanger hot water inlet is connected to the heat preservation hot water tank outlet of heat preservation hot water tank, Recovery of the hot water exchanger hot water outlet
It is connected to the heat preservation hot water tank entrance of heat preservation hot water tank;
Condenser ice source taphole is connected to solution spraying chamber inlet, and solution hydrops pond, ice source is connected to condenser ice by water circulating pump
Source solution inlet.
Further, after regenerator the second outlet passes sequentially through filter and expansion valve, it is connected to the entrance of first, second adapter.
Further, bottom solution hydrops pond, ice source, purge valve is set.
Further, the two opposite sides of rainproof housing are respectively provided with air inlet and exhaust outlet, institute's air inlet, PVC/ cascade paper wadding knot
Structure, cooling fan and exhaust outlet common shape heat dissipation wind channel.
Further, as the Recovery of the hot water exchanger of exchanger, condenser, vaporizer, regenerator can use board-like, shell-tube type,
The various ways such as bushing type or finned exchanger.
Further, compressor can be vortex, piston type, screw or the various ways such as centrifugal.
Further, condenser can use fin direct-evaporation-type, be placed on the right side of PVC/ cascade paper wadding structure or lower section with
Tilt to install between solution hydrops pond, ice source.
Further, vaporizer can use fin direct-evaporation-type, by blower fan, cold air or warm braw is sent into indoor, also can realize room
The modes such as indoor set delivered to by interior employing multi-connected machine cold-producing medium by copper pipe.
Further, expansion valve can use the forms such as electric expansion valve, heating power expansion valve, capillary tube.
Compared to prior art, this utility model has the advantages that this source pump compact conformation, low cost, passes through
Ice source solution (when-30 DEG C, uncongealable coolant media, refers to prior art part) and air carry out heat exchange, as refrigerating
Agent or catalyst carrier, improve refrigeration or the effect heated, and regenerator reduces liquid pipe temperature, increases degree of supercooling, increases the confession of expansion valve
Liquid ability, promotes the temperature of muffler, reduces compression ratio and makes whole source pump efficiency high, and energy consumption is low, this ice source source pump
Can be indoor offer refrigeration, supply warm three kinds of functions of domestic hot-water, reduce heat pump type air conditioning system cost, can also adapt to simultaneously
Various areas.
Accompanying drawing explanation
Fig. 1 is efficient ice source source pump structure chart in this utility model.
Detailed description of the invention
Embodiment: see Fig. 1, a kind of efficiently ice source source pump, including vaporizer 1, cross valve 2, regenerator 3, the first,
Second adapter 41,42, compressor 5, Recovery of the hot water exchanger 6, heat preservation hot water tank 7, condenser 8, expansion valve 342 and ice source
Brethaid 9.
Vaporizer 1 has vaporizer liquid refrigerant inlet 11 and vaporizer gaseous refrigerant outlet 12.
Cross valve 2 has cross valve first interface 21, cross valve the second interface 22, cross valve the 3rd interface 23 and cross valve
Four interfaces 24.
Regenerator 3 has regenerator the first entrance 31, regenerator first exports 32, regenerator the second entrance 33 and regenerator
Two outlets 34.
Set gradually first and second check valve 411 from entrance toward Way out in first adapter 41, in the 412, second adapter 42 by
Entrance sets gradually the 3rd and the 4th check valve 421,422 toward Way out.
Compressor 5 has suction port of compressor 51 and compressor outlet 52.
Recovery of the hot water exchanger 6 has its hot water exchanger first entrance 61, hot water exchanger first exports 62, hot water exchanger
Hot water inlet 63 and hot water exchanger hot water outlet 64.
Heat preservation hot water tank 7 has heat preservation hot water tank entrance and heat preservation hot water tank outlet.
Condenser 8 has condenser the first entrance 81, condenser first exports 82, condenser ice source solution inlet 83 and condensation
Device ice source taphole 84.
Expansion valve 342 entrance takes over filter, expansion valve outlet connects between the first check valve 411 and the 3rd check valve 421.
Ice source brethaid 9 has rainproof housing 91, and rainproof housing 91 is respectively provided with air inlet 911 and exhaust outlet 912,
Arranging solution spraying room 92 in rainproof housing 91, solution spraying room 92 is connected to PVC/ cascade paper wadding structure 93, PVC/ ("/"
Represent "or") solution hydrops pond, ice source 94 is set below cascade paper wadding structure 93, cooling fan 95 is set at exhaust outlet 912.
Wherein, vaporizer gaseous refrigerant outlet 12 is connected to cross valve the second interface 22, and cross valve the 4th interface 24 is connected to backheat
Device the first entrance 31, regenerator first exports 32 and is connected to suction port of compressor 51, and compressor outlet 52 is connected to Recovery of the hot water exchanger
First entrance 61, Recovery of the hot water exchanger first exports 62 and is connected to cross valve first interface 21, and cross valve the 3rd interface 23 is connected to
Condenser the first entrance 81, condenser first exports 82 and is connected to first and second check valve 411, the first adapter 41 between 412
On, the outlet of first, second adapter 41,42 is all connected to regenerator the second entrance 33, and regenerator second exports 34 and passes through filter
341 and expansion valve 342 be connected to the porch of first, second adapter 41,42, vaporizer liquid refrigerant inlet 11 is connected to the 3rd,
In the second adapter 42 between 4th check valve 421,422.
Recovery of the hot water exchanger hot water inlet 63 is connected to the heat preservation hot water tank outlet of heat preservation hot water tank 7, Recovery of the hot water exchanger hot water
Outlet 64 is connected to the heat preservation hot water tank entrance of heat preservation hot water tank 7.
Condenser ice source taphole 84 is connected to solution spraying room 92 entrance, and solution hydrops pond, ice source 94 is by water circulating pump 941
It is connected to condenser ice source solution inlet 83.
Regenerator second export 34 pass sequentially through filter 341 and expansion valve 342 after, be connected to first, second adapter 41,42
Entrance.
Bottom solution hydrops pond, ice source 94, purge valve 942 is set.
The two opposite sides of rainproof housing 91 are respectively provided with air inlet 911 and exhaust outlet 912, institute's air inlet 911, PVC/ cascade paper
Filling-material structure 93, cooling fan 95 and the common shape heat dissipation wind channel of exhaust outlet 912.
As the Recovery of the hot water exchanger 6 of exchanger, condenser 8, vaporizer 1, regenerator 3 can use board-like, shell-tube type,
The various ways such as bushing type or finned exchanger.
Compressor 5 can be vortex, piston type, screw or the various ways such as centrifugal.
Condenser 8 can use fin direct-evaporation-type, is placed on the right side of PVC/ cascade paper wadding structure 93 or lower section and ice
Tilt to install between solution hydrops pond, source 94.
Vaporizer 4 can use fin direct-evaporation-type, by blower fan, cold air or warm braw is sent into indoor, also can realize indoor employing
The modes such as indoor set delivered to by multi-connected machine cold-producing medium by copper pipe.
Refrigeration, cold-producing medium, by after compressor compresses, enters Recovery of the hot water exchanger by Recovery of the hot water exchanger the first entrance and enters
Row heat exchange, the water in heat preservation hot water tank is entered by Recovery of the hot water exchanger hot water inlet, is exchanged by Recovery of the hot water after heat exchange
Device hot water outlet enters heat preservation hot water tank, and cold-producing medium is exported by Recovery of the hot water exchanger first and discharges, then by cross valve (four
Logical valve the first, the 3rd orifice), enter condenser condensation, discharge after condensation, pass sequentially through the second check valve, regenerator,
Filter, expansion valve, the 3rd check valve, (vaporizer is connected with end, i.e. evaporator air goes out to flow to evaporator evaporation heat absorption
Entrance is connected to air conditioner end equipment, and the cold air after heat exchange can realize refrigeration), the cold-producing medium after evaporation is gone out by vaporizer first
Mouth is discharged, and by cross valve (cross valve the second, the 4th orifice), enters regenerator and carries out heat exchange, be then refluxed for pressure
Contracting machine, enters and circulates next time.
Heating, cold-producing medium, by after compressor compresses, enters Recovery of the hot water exchanger by Recovery of the hot water exchanger the first entrance and enters
Row heat exchange, the water in heat preservation hot water tank is entered by Recovery of the hot water exchanger hot water inlet, is exchanged by Recovery of the hot water after heat exchange
Device hot water outlet enters heat preservation hot water tank, and cold-producing medium is exported by Recovery of the hot water exchanger first and discharges, then by cross valve (four
Logical valve first, second orifice), enter condenser (the most former vaporizer) condensation realization and heat, discharge after cold-producing medium condensation,
Pass sequentially through the 4th check valve, regenerator, filter, expansion valve, the first check valve, flow to vaporizer (the most former condenser),
Cold-producing medium after evaporation is discharged, and by cross valve (cross valve the three, the 4th orifice), enters regenerator and carries out heat exchange,
It is then refluxed for compressor, enters and circulate next time.
Ice source brethaid part refers to prior art, and the ice source solution in solution hydrops pond, ice source pumps into cold by circulating pump
Condenser, it is achieved after heat exchange, ice source solution escapes and enter solution spraying room, and the ice source solution after spray is tied at pvc/ cascade paper
Carry out heat exchange under the effect of structure and cooling fan, later fall into solution hydrops pond, ice source, enter and circulate next time.
Finally illustrating, above example is only in order to illustrate the technical solution of the utility model and unrestricted, although with reference to preferably
This utility model has been described in detail by embodiment, it will be understood by those within the art that, can be to this utility model
Technical scheme modify or equivalent, without deviating from objective and the scope of technical solutions of the utility model, it all should be contained
Cover in the middle of right of the present utility model.
Claims (4)
1. an efficient ice source source pump, it is characterised in that including:
Vaporizer (1), it has vaporizer liquid refrigerant inlet (11) and vaporizer gaseous refrigerant outlet (12);
Cross valve (2), it has cross valve first interface (21), cross valve the second interface (22), cross valve the 3rd interface (23)
And cross valve the 4th interface (24);
Regenerator (3), it has regenerator the first entrance (31), regenerator first exports (32), regenerator the second entrance (33)
And regenerator second exports (34);
First, second adapter (41,42), the first adapter (41) is set gradually first and second from entrance toward Way out single
The the 3rd and the 4th check valve (421,422) is set gradually from entrance toward Way out on valve (411,412), the second adapter (42);
Compressor (5), it has suction port of compressor (51) and compressor outlet (52);
Recovery of the hot water exchanger (6), it has it and has hot water exchanger the first entrance (61), hot water exchanger first export (62),
Hot water exchanger hot water inlet (63) and hot water exchanger hot water outlet (64);
Heat preservation hot water tank (7), it has heat preservation hot water tank entrance and heat preservation hot water tank outlet;
Condenser (8), it has condenser the first entrance (81), condenser first exports (82), condenser ice source solution enters
Mouth (83) and condenser ice source taphole (84);
Ice source brethaid (9), it has rainproof housing (91), rainproof housing (91) is respectively provided with air inlet (911)
With exhaust outlet (912), arranging solution spraying room (92) in rainproof housing (91), solution spraying room (92) are connected to PVC/ water
Curtain paper wadding structure (93), PVC/ cascade paper wadding structure (93) lower section arranges solution hydrops pond, ice source (94), exhaust outlet (912)
Place arranges cooling fan (95);
Wherein, vaporizer gaseous refrigerant outlet (12) is connected to cross valve the second interface (22), cross valve the 4th interface (24)
Being connected to regenerator the first entrance (31), regenerator first exports (32) and is connected to suction port of compressor (51), compressor outlet (52)
Being connected to Recovery of the hot water exchanger the first entrance (61), Recovery of the hot water exchanger first exports (62) and is connected to cross valve first interface (21),
Cross valve the 3rd interface (23) is connected to condenser the first entrance (81), and condenser first exports (82) and is connected to first and second list
In the first adapter (41) between valve (411,412), the outlet of first, second adapter (41,42) is all connected to regenerator the
Two entrances (33), regenerator second exports (34) and is connected to first, second is connect by filter (341) and expansion valve (342)
The porch of pipe (41,42), vaporizer liquid refrigerant inlet (11) is connected between the three, the 4th check valves (421,422)
Second adapter (42) on;
Recovery of the hot water exchanger hot water inlet (63) is connected to the heat preservation hot water tank outlet of heat preservation hot water tank (7), and Recovery of the hot water exchanges
Device hot water outlet (64) is connected to the heat preservation hot water tank entrance of heat preservation hot water tank (7);
Condenser ice source taphole (84) is connected to solution spraying room (92) entrance, and solution hydrops pond, ice source (94) is by following
Ring water pump (941) is connected to condenser ice source solution inlet (83).
The most efficient ice source source pump, it is characterised in that regenerator second exports (34) and leads to successively
After crossing filter (341) and expansion valve (342), it is connected to the entrance of first, second adapter (41,42).
The most efficient ice source source pump, it is characterised in that bottom, solution hydrops pond, ice source (94) sets
Put purge valve (942).
The most efficient ice source source pump, it is characterised in that the two opposite sides of rainproof housing (91) are divided
Air inlet (911) and exhaust outlet (912), institute's air inlet (911), PVC/ cascade paper wadding structure (93), heat radiation are not set
Blower fan (95) and the common shape heat dissipation wind channel of exhaust outlet (912).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201620434035.0U CN205641662U (en) | 2016-05-12 | 2016-05-12 | High -efficient ice source heat pump set |
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CN201620434035.0U CN205641662U (en) | 2016-05-12 | 2016-05-12 | High -efficient ice source heat pump set |
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CN205641662U true CN205641662U (en) | 2016-10-12 |
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ID=57059297
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CN201620434035.0U Expired - Fee Related CN205641662U (en) | 2016-05-12 | 2016-05-12 | High -efficient ice source heat pump set |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105823257A (en) * | 2016-05-12 | 2016-08-03 | 重庆冰源鸿节能技术开发有限责任公司 | Efficient ice source heat pump unit |
-
2016
- 2016-05-12 CN CN201620434035.0U patent/CN205641662U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105823257A (en) * | 2016-05-12 | 2016-08-03 | 重庆冰源鸿节能技术开发有限责任公司 | Efficient ice source heat pump unit |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20161012 Termination date: 20190512 |
|
CF01 | Termination of patent right due to non-payment of annual fee |