CN204345826U - Compressor of air conditioner heat-transfer device - Google Patents

Compressor of air conditioner heat-transfer device Download PDF

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Publication number
CN204345826U
CN204345826U CN201420870436.1U CN201420870436U CN204345826U CN 204345826 U CN204345826 U CN 204345826U CN 201420870436 U CN201420870436 U CN 201420870436U CN 204345826 U CN204345826 U CN 204345826U
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China
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compressor
water
transfer device
pipe
air conditioner
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CN201420870436.1U
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李春华
杨钦州
谭允祯
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Shanghai AFC Environment Technology Co., Ltd.
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SHANGHAI XINQI ENVIRONMENTAL TECHNOLOGY Co Ltd
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Abstract

The utility model discloses a kind of compressor of air conditioner heat-transfer device, is arranged in air-conditioner outdoor unit, and air-conditioner outdoor unit has chassis and the compressor that is arranged on chassis and heat exchanger, and compressor of air conditioner heat-transfer device comprises compressor shroud, water pump and water pipe; Described compressor shroud covers on described compressor, has the inlet pipe passage that passes through for the air inlet pipe of compressor and escape pipe respectively and goes out tube passage; Described water pump is fixed on described chassis, and its one end is connected to drip tray, and described drip tray is positioned at below described heat exchanger to collect condensed water; Described water pipe is surrounded on the outer wall of described compressor shroud, has water inlet and delivery port, and described water inlet is connected to the other end of described water pump, and described delivery port is connected to the main discharge outlet on described chassis.The utility model structure is simple, carries out secondary utilization, lower the temperature to compressor by the discarded condensed water produced air-conditioning, thus improves the operating efficiency of compressor, effectively utilizes the remaining cold of condensed water, decreases the wasting of resources.

Description

Compressor of air conditioner heat-transfer device
Technical field
The utility model relates to a kind of compressor of air conditioner heat-transfer device.
Background technology
Can produce a large amount of condensed water in operation of air conditioner, these condensed waters do not have secondary utilization to be just directly discharged into outdoor, cause the wasting of resources.Small part adopts condensed water elimination to lavatory flushing lavatory or for growing flowers and nursing the grass, but just needs to arrange discharge tube like this, and installation is inconvenient and destruction household is attractive in appearance.The water temperature of air conditioner condensate water, generally at 13 ~ 15 DEG C, has larger remaining cold.If the condensed water of air-conditioning is used for cooling compressor, increase the heat dissipation capacity of compressor, very favourable for the life-span extending compressor.
Utility model content
Embodiment of the present utility model is intended to overcome above defect, provides that a kind of structure is simple, heat radiation good heat conduction effect and the compressor of air conditioner heat-transfer device economized on resources.
For solving the problem, embodiment of the present utility model provides a kind of compressor of air conditioner heat-transfer device, be arranged in air-conditioner outdoor unit, air-conditioner outdoor unit has chassis and the compressor that is arranged on chassis and heat exchanger, and compressor of air conditioner heat-transfer device comprises compressor shroud, water pump and water pipe; Compressor shroud cover on the compressor, has the inlet pipe passage that passes through for the air inlet pipe of compressor and escape pipe respectively and goes out tube passage; Water pump is fixed on chassis, and its one end is connected to drip tray, and drip tray is positioned at below heat exchanger to collect condensed water; Water pipe is surrounded on the outer wall of compressor shroud, has water inlet and delivery port, and water inlet is connected to the other end of water pump, and delivery port is connected to the main discharge outlet on chassis.
As preferably, water pipe comprises the first oral siphon, helix tube and the first row water pipe that connect successively, and water inlet is positioned on the first oral siphon, and delivery port is positioned on first row water pipe, and helix tube is close on the outer wall of compressor shroud.
As preferably, helix tube is the flat tube be laid on the outer wall of compressor shroud.
As preferably, water pipe comprises the second oral siphon, water knockout drum, multiple distributive pipe road, water collector and the second row water pipe that connect successively, and water inlet is positioned on the second oral siphon, and delivery port is positioned on second row water pipe; One end of water knockout drum connects the second oral siphon, and the other end connects multiple distributive pipe road; One end of water collector connects multiple distributive pipe road, and the other end connects second row water pipe; Distributive pipe road is close on the outer wall of compressor shroud.
As preferably, distributive pipe road is the flat tube be laid on the outer wall of compressor shroud.
As preferably, water pipe and/or compressor shroud are rigidity.
As preferably, water pipe is heat-absorbing water pipe.
As preferably, compressor shroud is heat conduction cover.
As preferably, the outside of water pipe is socketed a heating tube, the outer surface of water pipe is provided with the temperature detection device for detecting the water temperature in water pipe, compressor of air conditioner heat-transfer device also comprises temperature control equipment, be connected with heating tube and temperature detection device, control heating tube according to the water temperature that temperature detection device detects.
Compressor of air conditioner heat-transfer device of the present utility model, not only secondary make use of the remaining cold of condensed water and has saved resource, but also flat tube, helix tube, distributive pipe road, the heat absorption water pipe of material and the compressor shroud of heat-conducting can be had, these structures all can strengthen radiating effect.In addition, heating tube, temperature detection device and temperature control equipment can effectively prevent winter Yin Wendu too low, and condensed water is frozen, and cannot be used to the situation of cooling compressor.In addition the water pipe of rigid structure and compressor shroud can effectively prevent compressor to be subject to the shock of other parts in air-conditioning, and versatility is extremely strong.
Accompanying drawing explanation
In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.
Fig. 1 is the structural representation of the first embodiment of compressor of air conditioner heat-transfer device of the present utility model.
Fig. 2 is the structural representation of the second embodiment of compressor of air conditioner heat-transfer device of the present utility model.
Fig. 3 is the structural representation of the 3rd embodiment of compressor of air conditioner heat-transfer device of the present utility model.
Fig. 4 is the partial structurtes schematic diagram of the 4th embodiment of compressor of air conditioner heat-transfer device of the present utility model.
Description of reference numerals:
1, chassis; 2, compressor; 3, compressor shroud; 4, water pump;
5, water pipe; 6, inlet pipe passage; 7, tube passage is gone out; 8, drip tray;
9, water inlet; 10, delivery port; 11, main discharge outlet; 12, the first oral siphon;
13, helix tube; 14, first row water pipe; 15, the second oral siphon; 16, water knockout drum;
17, distributive pipe road; 18, water collector; 19, second row water pipe; 20, heating tube;
21, temperature detection device; 22, temperature control equipment
Detailed description of the invention
Clearly can understand for making the purpose of this utility model, technical scheme and advantage, below in conjunction with detailed description of the invention also with reference to accompanying drawing, the utility model being further described.Should be appreciated that, these describe only being exemplary, and do not really want to limit scope of the present utility model.In addition, in the following description, the description to known features and technology is eliminated, to avoid unnecessarily obscuring concept of the present utility model.
Embodiment one
Fig. 1 is the structural representation of the first embodiment of compressor of air conditioner heat-transfer device of the present utility model.
As shown in Figure 1, the compressor of air conditioner heat-transfer device of embodiment one of the present utility model, be arranged in air-conditioner outdoor unit, air-conditioner outdoor unit can have chassis 1 and be arranged on the One On The Chassis compressor 2 and heat exchanger, and compressor of air conditioner heat-transfer device can comprise compressor shroud 3, water pump 4 and water pipe 5.
Compressor shroud 3 can cover on compressor 2, can have the inlet pipe passage 6 that passes through for the air inlet pipe of compressor and escape pipe respectively and go out tube passage 7.
Water pump 4 can be fixed on chassis 1, and its one end is connected to drip tray 8, and drip tray 8 can be positioned at below heat exchanger to collect condensed water.
Water pipe 5 is surrounded on the outer wall of compressor shroud 3, and can have water inlet 9 and delivery port 10, water inlet 9 is connected to the other end of water pump 4, and delivery port 10 is connected to the One On The Chassis main discharge outlet 11.
Utilize this structure of compressor of air conditioner heat-transfer device of the present utility model, not only secondary make use of the remaining cold of condensed water and has saved resource, and the remaining cold energy of condensed water and compressor shroud 3 carry out sufficient heat exchange, quick heat radiating.
Condensation is that because temperature reduces, condensation becomes the process of non-pneumatic state (normally liquid) to high-temperature gas material.Condensed water is exactly the aqueous water that water vapour is formed through this process.Natural air all claims humid air.Containing large quantity of moisture in humid air.When outdoor air (or after newly wind mixes with return air) carries out heat exchange with heat exchanger, because the wall surface temperature of heat exchanger is lower than outdoor air (or mixing wind) dew-point temperature, steam contained by outdoor air (or mixing wind) is separated out at heat exchanger wall and condenses, when dewdrop increases to the drip tray that to a certain degree can be slipped to below surface cooler, thus define condensed water.Usually can produce a large amount of condensed water in the process of operation of air conditioner, the average recyclable condensed water about 3 kilograms per hour of air-conditioning of 2, can reach 4 kilograms time many.These condensed waters do not have secondary utilization to be just directly discharged into outdoor usually, cause the serious wasting of resources.In addition, the water temperature of air conditioner condensate water, generally at 13 ~ 15 DEG C, has larger remaining cold.
In this structure of compressor of air conditioner heat-transfer device of the present utility model, in use, drip tray 8 can gather a large amount of condensed water, and condensed water can be extracted out by water pump 4, flows through water pipe 5.Condensed water through the compressor shroud 3 that covers on compressor 2 along water pipe 5, is walked around inlet pipe passage 6 that the air inlet pipe of compressor 2 and escape pipe pass through and goes out tube passage 7.Condensed water carries out heat exchange through the table side of the meeting of the table side of compressor 2 and compressor 2, and the temperature of compressor 2 is declined.The utility model compressor of air conditioner heat-transfer device has a water inlet 9 and delivery port 10, can be provided with water channel, can give full play to the advantage of water-cooled like this, can take away more heat between water inlet 9 and delivery port 10.Secondary make use of the remaining cold of condensed water and has saved resource, and the remaining cold energy of condensed water and compressor shroud 3 carry out sufficient heat exchange, quick heat radiating.
The utility model compressor of air conditioner heat-transfer device is auxiliary without the need to fan, decrease vibration and noise that fan produces, and radiating effect is more outstanding than air cooling system.Condensed water flows into its water pipe 5 connected from the drip tray of the exchanger base of air-conditioning.Water pump 4 between water pipe 5 and drip tray can provide power for the condensed water in water pipe 5, makes condensed water can flow through the outer wall of compressor shroud 3 along water pipe 5.The delivery port 10 of water pipe 5 is connected to the One On The Chassis main discharge outlet 11.Condensed water can discharge air-conditioning by main discharge outlet 11.
Main discharge outlet 11 also to connect other devices, such as, connects drainpipe directly to be discharged by condensed water, or can also connect toilet by another water pipe external, cleans lavatory, or be connected to lawn to water flowers with water with condensed water.Condensed water can be utilized to a greater degree like this, economize on resources.
Embodiment two
Fig. 2 is the structural representation of the second embodiment of compressor of air conditioner heat-transfer device of the present utility model.
As shown in Figure 2, the compressor of air conditioner heat-transfer device of embodiment two of the present utility model can comprise compressor shroud 3, water pump 4 and water pipe 5; Compressor shroud 3 can cover on compressor 2, can have the inlet pipe passage 6 that passes through for the air inlet pipe of compressor and escape pipe respectively and go out tube passage 7; Water pump 4 can be fixed on chassis 1, and its one end is connected to drip tray 8, and drip tray 8 can be positioned at below heat exchanger to collect condensed water; Water pipe 5 is surrounded on the outer wall of compressor shroud 3, and can have water inlet 9 and delivery port 10, water inlet 9 is connected to the other end of water pump 4, and delivery port 10 is connected to the One On The Chassis main discharge outlet 11.
As shown in Figure 2, water pipe 5 can comprise the first oral siphon 12, helix tube 13 and the first row water pipe 14 that connect successively, and water inlet 9 is positioned on the first oral siphon 12, and delivery port 10 is positioned on first row water pipe 14, and helix tube 13 is close on the outer wall of compressor shroud 3.
In this structure of compressor of air conditioner heat-transfer device of the present utility model, helix tube 13 is close on the outer wall of compressor shroud 3, because helix tube 13 closely and fully can wrap up compressor shroud 3, make the heat exchange of compressor shroud 3 and helix tube 13 more abundant, and can radiating effect be strengthened.
Compressor of air conditioner heat-transfer device of the present utility model, drip tray can gather a large amount of condensed water in use, and condensed water can be extracted out by water pump 4, flows through the first oral siphon 12, helix tube 13 and first row water pipe 14 successively.Condensed water through the compressor shroud 3 that covers on compressor 2 along helix tube 13, is walked around inlet pipe passage 6 that the air inlet pipe of compressor and escape pipe can pass through and goes out tube passage 7.Condensed water carries out heat exchange through the table side of the meeting of the table side of compressor 2 and compressor 2, and the temperature of compressor 2 is declined.Condensed water flows into its first oral siphon 12 connected from the drip tray of the exchanger base of air-conditioning.Water pump between the first oral siphon 12 and drip tray can be that the condensed water in the first oral siphon 12 provides power, makes condensed water can flow through along the first oral siphon 12 helix tube 13 that the outer wall of compressor shroud 3 fits tightly.Condensed water in helix tube 13 fully contacts with the outer surface of compressor shroud 3, and heat exchange area is large, and heat exchange efficiency is high.The delivery port 10 of the first row water pipe 14 that the condensed water in helix tube 13 can be connected by it is connected to the One On The Chassis main discharge outlet 11.Condensed water can discharge air-conditioning by main discharge outlet 11, and main discharge outlet 11 also can connect toilet by another water pipe external, cleans lavatory with condensed water.Like this, not only secondary make use of the remaining cold of condensed water and has saved resource, and the remaining cold energy of condensed water and compressor shroud 3 carry out sufficient heat exchange, quick heat radiating.
On the basis of above-described embodiment, further, helix tube 13 can for being laid in the flat tube on the outer wall of compressor shroud 3.Flat tube can in flake around and be close in compressor shroud 3, even can make the integrally formed flat tube of compressor shroud 3.Can make that the water of unit volume can to increase the heat exchange making compressor shroud 3 and helix tube 13 more abundant with compressor shroud 3 contact surface like this because helix tube 13 is flat, and can radiating effect be strengthened.
Embodiment three
Fig. 3 is the structural representation of the 3rd embodiment of compressor of air conditioner heat-transfer device of the present utility model.
As shown in Figure 3, the 3rd embodiment of compressor of air conditioner heat-transfer device of the present utility model can comprise compressor shroud 3, water pump 4 and water pipe 5; Compressor shroud 3 can cover on compressor 2, can have the inlet pipe passage 6 that passes through for the air inlet pipe of compressor and escape pipe respectively and go out tube passage 7; Water pump 4 can be fixed on chassis 1, and its one end is connected to drip tray 8, and drip tray 8 can be positioned at below heat exchanger to collect condensed water; Water pipe 5 is surrounded on the outer wall of compressor shroud 3, and can have water inlet 9 and delivery port 10, water inlet 9 is connected to the other end of water pump 4, and delivery port 10 is connected to the One On The Chassis main discharge outlet 11.
Water pipe 5 can comprise the second oral siphon 15, water knockout drum 16, multiple distributive pipe road 17, water collector 18 and the second row water pipe 19 that connect successively, and water inlet 9 is positioned on the second oral siphon 15, and delivery port 10 is positioned on second row water pipe 19; One end of water knockout drum 16 connects the second oral siphon 15, and the other end connects multiple distributive pipe road 17; One end of water collector 18 connects multiple distributive pipe road 17, and the other end connects second row water pipe 19; Distributive pipe road 17 is close on the outer wall of compressor shroud 3.
In this structure of compressor of air conditioner heat-transfer device of the present utility model, on the one hand, distributive pipe road 17 is close on the outer wall of compressor shroud 3, because distributive pipe road 17 closely and fully can wrap up compressor shroud 3, the heat exchange in compressor shroud 3 and distributive pipe road 17 can be made more abundant, and strengthen radiating effect.On the other hand, these distributive pipe roads 17 can adopt straight tube to combine, and are convenient to batch production.
In this structure of compressor of air conditioner heat-transfer device of the present utility model, drip tray can gather a large amount of condensed water in use, condensed water can be extracted out by water pump 4, flows through the second oral siphon 15, water knockout drum 16, multiple distributive pipe road 17, water collector 18 and second row water pipe 19 successively.Condensed water through the compressor shroud 3 covered on compressor 2 along multiple distributive pipe roads 17, is walked around inlet pipe passage 6 that the air inlet pipe of compressor and escape pipe pass through and goes out tube passage 7.Condensed water carries out heat exchange through the table side of the meeting of the table side of compressor 2 and compressor 2, and the temperature of compressor 2 is declined.
Condensed water flows into its second oral siphon 15 connected from the drip tray of the exchanger base of air-conditioning.Water pump between the second oral siphon 15 and drip tray can be that the condensed water in the second oral siphon 15 provides power, makes condensed water can flow through along the second oral siphon 15 the distributive pipe road 17 that the outer wall of compressor shroud 3 fits tightly.By water knockout drum 16, condensation water divided flow enters distributive pipe road 17.
Distributive pipe road 17 perpendicular to the chassis 1 of air-conditioning, closely around compressor shroud 3, can form tubular construction.Condensed water can, by carefully thin distributive pipe road 17, make condensed water to be overallly laid in compressor shroud 3 in a sake, increase condensed water can with the contact area of compressor shroud 3.
Like this, the condensed water in distributive pipe road 17 fully can contact with the outer surface of compressor shroud 3, and heat exchange area is large, and heat exchange efficiency is high.Condensed water is assembled and inputs first row water pipe 14 by the water collector 18 that the condensed water in distributive pipe road 17 can be connected by it.Condensed water can be connected to the One On The Chassis main discharge outlet 11 by the delivery port 10 of first row water pipe 14.Condensed water can discharge air-conditioning by main discharge outlet 11, and main discharge outlet 11 also can connect toilet by another water pipe external, cleans lavatory with condensed water.Like this, not only secondary make use of the remaining cold of condensed water and has saved resource, and the remaining cold energy of condensed water and compressor shroud 3 carry out sufficient heat exchange, thus quick heat radiating.
On the basis of above-described embodiment, further, distributive pipe road 17 can for being laid in the flat tube on the outer wall of compressor shroud 3.Flat tube can in flake around and be close in compressor shroud 3, even can make the integrally formed flat tube of compressor shroud 3.Like this, can make because distributive pipe road 17 is flat that the water of unit volume can to increase the heat exchange making compressor shroud 3 and distributive pipe road 17 more abundant with compressor shroud 3 contact surface, and can radiating effect be strengthened.
Embodiment four
Fig. 4 is the partial structurtes schematic diagram of the 4th embodiment of compressor of air conditioner heat-transfer device of the present utility model.
The structure of the 4th embodiment of compressor of air conditioner heat-transfer device of the present utility model is substantially with embodiment one, there is compressor shroud 3, water pump 4 and water pipe 5, the structure of these elements is with embodiment one, for simplicity's sake, repeat no more, be with the difference of embodiment one, also comprise heating tube 20, temperature detection device 21 and temperature detection device 21.
Specifically, as shown in Figure 4, a heating tube 20 can be socketed in the outside of water pipe 5, the outer surface of water pipe 5 can be provided with the temperature detection device 21 that may be used for the water temperature detected in water pipe 5, compressor of air conditioner heat-transfer device can also comprise temperature control equipment 22, can be connected with heating tube 20 and temperature detection device 21, control heating tube 20 according to the water temperature that temperature detection device 21 detects.
Like this, can effectively prevent winter Yin Wendu too low, condensed water is frozen, and cannot by the situation that may be used for lowering the temperature to compressor 2.
Other embodiments
On the basis of above-mentioned any embodiment, further, water pipe 5 and/or compressor shroud 3 can be rigidity.The water pipe 5 of such rigid structure and compressor shroud 3 can effectively prevent compressor 2 to be subject to the shock of other parts in air-conditioning.
On the basis of above-mentioned any embodiment, further, water pipe 5 can be heat absorption material.Like this radiating effect can be strengthened.Can with the larger aluminum pipe of specific heat capacity, aluminum pipe can more can go for lasting heat is dispersed in air.
On the basis of above-mentioned any embodiment, further, compressor shroud 3 can be heat-conducting.Like this radiating effect can be strengthened.The copper of good heat conduction effect can be adopted to become water pipe to carry out heat trnasfer, conduct heat on water pipe 5.
To sum up, compressor of air conditioner heat-transfer device of the present utility model, not only secondary make use of the remaining cold of condensed water and has saved resource, but also can have flat tube, helix tube, distributive pipe road, the heat absorption water pipe of material and the compressor shroud of heat-conducting, and these structures all can strengthen radiating effect.In addition, heating tube, temperature detection device and temperature control equipment can effectively prevent winter Yin Wendu too low, and condensed water is frozen, and cannot be used to the situation of cooling compressor.In addition, the water pipe of rigid structure and compressor shroud can effectively prevent compressor to be subject to the shock of other parts in air-conditioning, and versatility is extremely strong.
What be to be understood that can be that above-mentioned detailed description of the invention of the present utility model only may be used for exemplary illustration or explains principle of the present utility model, and does not form restriction of the present utility model.Therefore, any amendment made when not departing from spirit and scope of the present utility model, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.In addition, the utility model claims be intended to contain fall into claims scope and border or this scope and border equivalents in whole change and modification.

Claims (9)

1. a compressor of air conditioner heat-transfer device, be arranged in air-conditioner outdoor unit, described air-conditioner outdoor unit has chassis (1) and the compressor (2) that is arranged on described chassis (1) and heat exchanger, and the feature of described compressor of air conditioner heat-transfer device is
Comprise compressor shroud (3), water pump (4) and water pipe (5);
Described compressor shroud (3) covers on described compressor (2), has the inlet pipe passage (6) that passes through for the air inlet pipe of compressor and escape pipe respectively and goes out tube passage (7);
Described water pump (4) is fixed on described chassis (1), and its one end is connected to drip tray (8), and described drip tray (8) is positioned at below described heat exchanger to collect condensed water;
Described water pipe (5) is surrounded on the outer wall of described compressor shroud (3), there is water inlet (9) and delivery port (10), described water inlet (9) is connected to the other end of described water pump (4), and described delivery port (10) is connected to the main discharge outlet (11) on described chassis (1).
2. compressor of air conditioner heat-transfer device according to claim 1, is characterized in that,
Described water pipe (5) comprises the first oral siphon (12), helix tube (13) and the first row water pipe (14) that connect successively, described water inlet (9) is positioned on described first oral siphon (12), described delivery port (10) is positioned on described first row water pipe (14), and described helix tube (13) is close on the outer wall of described compressor shroud (3).
3. compressor of air conditioner heat-transfer device according to claim 2, is characterized in that,
Described helix tube (13) is for being laid in the flat tube on the outer wall of described compressor shroud (3).
4. compressor of air conditioner heat-transfer device according to claim 1, is characterized in that,
Described water pipe (5) comprises the second oral siphon (15), water knockout drum (16), multiple distributive pipe road (17), water collector (18) and the second row water pipe (19) that connect successively, described water inlet (9) is positioned on described second oral siphon (15), and described delivery port (10) is positioned on described second row water pipe (19);
One end of described water knockout drum (16) connects described second oral siphon (15), and the other end connects multiple described distributive pipe road (17);
One end of described water collector (18) connects multiple described distributive pipe road (17), and the other end connects described second row water pipe (19);
Described distributive pipe road (17) is close on the outer wall of described compressor shroud (3).
5. compressor of air conditioner heat-transfer device according to claim 4, is characterized in that,
Described distributive pipe road (17) is for being laid in the flat tube on the outer wall of described compressor shroud (3).
6. compressor of air conditioner heat-transfer device according to claim 1, is characterized in that,
Described water pipe (5) and/or described compressor shroud (3) are rigidity.
7. compressor of air conditioner heat-transfer device according to claim 1, is characterized in that,
Described water pipe (5) is heat-absorbing water pipe.
8. compressor of air conditioner heat-transfer device according to claim 1, is characterized in that,
Described compressor shroud (3) is heat conduction cover.
9. compressor of air conditioner heat-transfer device according to claim 1, is characterized in that,
The outside of described water pipe (5) is socketed a heating tube (20),
The outer surface of described water pipe (5) is provided with the temperature detection device (21) for detecting the water temperature in described water pipe (5),
Described compressor of air conditioner heat-transfer device also comprises temperature control equipment (22), be connected with described heating tube (20) and described temperature detection device (21), control described heating tube (20) according to the water temperature that described temperature detection device (21) detects.
CN201420870436.1U 2014-12-31 2014-12-31 Compressor of air conditioner heat-transfer device Active CN204345826U (en)

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Application Number Priority Date Filing Date Title
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Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105020868A (en) * 2015-07-06 2015-11-04 珠海格力电器股份有限公司 Air conditioning system
CN108800729A (en) * 2018-06-14 2018-11-13 安徽康佳同创电器有限公司 A kind of compressor heat-transfer device
CN108895570A (en) * 2018-07-25 2018-11-27 珠海格力电器股份有限公司 Water pump heat preservation device and heat pump outdoor unit
CN109405257A (en) * 2018-09-19 2019-03-01 珠海格力电器股份有限公司 Water pump anti-freezing device of air conditioning unit and anti-freezing water pump
CN110006165A (en) * 2019-05-13 2019-07-12 宁波奥克斯电气股份有限公司 Protective device, guard method and the air conditioner of a kind of and low temperature defrosting and high temperature-proof
CN112361560A (en) * 2020-11-09 2021-02-12 同方股份有限公司 Underground space anti-condensation control system and control method thereof

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105020868A (en) * 2015-07-06 2015-11-04 珠海格力电器股份有限公司 Air conditioning system
CN108800729A (en) * 2018-06-14 2018-11-13 安徽康佳同创电器有限公司 A kind of compressor heat-transfer device
CN108895570A (en) * 2018-07-25 2018-11-27 珠海格力电器股份有限公司 Water pump heat preservation device and heat pump outdoor unit
CN109405257A (en) * 2018-09-19 2019-03-01 珠海格力电器股份有限公司 Water pump anti-freezing device of air conditioning unit and anti-freezing water pump
CN110006165A (en) * 2019-05-13 2019-07-12 宁波奥克斯电气股份有限公司 Protective device, guard method and the air conditioner of a kind of and low temperature defrosting and high temperature-proof
CN110006165B (en) * 2019-05-13 2023-05-12 宁波奥克斯电气股份有限公司 Protection device and protection method for low-temperature defrosting and high-temperature prevention and air conditioner
CN112361560A (en) * 2020-11-09 2021-02-12 同方股份有限公司 Underground space anti-condensation control system and control method thereof
CN112361560B (en) * 2020-11-09 2023-08-22 同方股份有限公司 Control method of underground space condensation prevention control system

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