CN203518055U - Compressor and air conditioning unit with same - Google Patents

Abstract

The utility model provides a compressor and an air conditioning unit with the same. The compressor comprises a compressor body (10) and a heat storage device arranged in a manner of surrounding the compressor body (10), the heat storage device comprises a first heat storage module (21) and a second heat storage module (22) which are connected with each other, each of the first head storage module (21) and the second heat storage module (22) comprises a shell and a heat conducting plate (211) arranged arranged on one side of the shell, a heat-storage inner cavity is formed between each heat conducting plate (211) and the corresponding shell in a surrounding manner, and each heat conducting plate (211) is fit with a cylinder of the compressor body (10). By the technical scheme, assembling difficulty is effectively lowered, and assembling operation is enabled to be simpler.

Description

Compressor and there is its air-conditioner

Technical field

The utility model relates to air-conditioning technical field, in particular to a kind of compressor and have its air-conditioning.

Background technology

When heat pump type air conditioner operation heating mode, outdoor heat exchanger surface temperature can fall too low, and when the surface temperature of outdoor heat exchanger is during lower than the solidification point of atmosphere, will form frost layer at the fin surface of condenser.Frost layer can be carried out due to continuing of heating, and thickness increases gradually, causes evaporation capacity to greatly reduce, and weakens the heating effect of indoor.

For fear of the generation of this situation, adopted at present the continuous defrost mode of accumulation of heat, the thermal source of accumulation of heat can be a variety of, such as the used heat of compressor.Used heat by collecting compressor for when the defrost to low-temperature refrigerant additional heat, guarantee the realization that continues to heat.

The regenerative apparatus of the disclosed relevant collection compressor used heat of patent, all adopts around compressor casing at present, and in the scope of more than half circumference, one of fit on has the circular arc cell body of cavity structure alone.And there is following defect in the regenerative apparatus of existing circular arc:

The design of heat storage tank is all one-body molded, in order to guarantee the compactness contacting of compressor and heat storage tank, high to matching requirements, have a problem that is difficult to after sale maintenance.In addition, because the centre of part heat storage tank is isolated, have the poor accumulation of heat cell wall of thermal conductivity, it is not very high causing the heat transfer efficiency between heat storage tank and compressor.

Utility model content

The utility model aims to provide a kind of air-conditioning that assembles simple compressor and have it.

To achieve these goals, according to an aspect of the present utility model, a kind of compressor is provided, comprise compressor body and the regenerative apparatus arranging around compressor body, regenerative apparatus comprises interconnective the first accumulation of heat module and the second accumulation of heat module, and the first accumulation of heat module and the second accumulation of heat module include: housing; Heat-conducting plate, a side that is arranged on housing also and between housing surrounds accumulation of heat inner chamber, and the cylinder body of heat-conducting plate and compressor body fits.

Further, each housing comprises base plate, circular arc wallboard and cover plate, and circular arc wallboard is arranged between base plate and cover plate, between cover plate and circular arc wallboard, removably connects.

Further, corresponding base plate and circular arc wallboard are the integrative-structure by injection moulding integrated molding.

Further, the first accumulation of heat module and the second accumulation of heat module also comprise heat storage medium and regenerative heat exchanger, and heat storage medium is filled in accumulation of heat inner chamber, and regenerative heat exchanger is arranged in accumulation of heat inner chamber.

Further, the cover plate of the first accumulation of heat module is provided with two the first through holes, two the first through holes coordinate with two ends of the regenerative heat exchanger of the first accumulation of heat module respectively, the cover plate of the second accumulation of heat module is provided with two the second through holes, and two the second through holes coordinate with two ends of the regenerative heat exchanger of the second accumulation of heat module respectively.

Further, between an end of the regenerative heat exchanger of the first accumulation of heat module end and the regenerative heat exchanger of the second accumulation of heat module, be provided with and be communicated with elbow.

Further, each housing also comprises seal, on corresponding circular arc wallboard and cover plate, be equipped with for the mounting groove of seal is installed, seal is arranged in mounting groove, on seal, be provided with seal groove, heat-conducting plate comprises heat-conducting plate body and along the sealing strip edge of the outwardly setting in edge of heat-conducting plate body, sealing strip is along being inserted in seal groove.

Further, each cover plate is provided with third through-hole, is filled with water-resisting piece in third through-hole.

Further, the first accumulation of heat module and the second accumulation of heat module mutually towards a side between be articulated and connected, the first accumulation of heat module and the second accumulation of heat module mutually away from a side between by locking bayonet lock fix so that the cylinder body of the first accumulation of heat module and the second accumulation of heat module and compressor body fits.

Further, the first accumulation of heat module is identical with the second accumulation of heat modular structure.

Further, the thermal conductivity of heat-conducting plate is greater than the thermal conductivity of housing.

According on the other hand of the present utility model, a kind of air-conditioner is provided, comprise compressor, compressor is above-mentioned compressor.

Application the technical solution of the utility model, regenerative apparatus comprises interconnective the first accumulation of heat module and the second accumulation of heat module, the first accumulation of heat module and the second accumulation of heat module, include the housing and the heat-conducting plate that surround accumulation of heat inner chamber, like this, the outer wall of cylinder block of compressor body can pass to heat-conducting plate by used heat, by heat-conducting plate, used heat is passed in accumulation of heat inner chamber again.In the technical solution of the utility model, because regenerative apparatus comprises interconnective the first accumulation of heat module and the second accumulation of heat module, and then reduced assembly difficulty, make assembly manipulation simpler.In addition, housing and heat-conducting plate are divided to be arranged expanded the versatility of regenerative apparatus, when regenerative apparatus coordinates the compressor body of different-diameter, without the size of adjusting housing, only need to adjust the heat-transfer area radian of heat-conducting plate.Like this, processing cost is reduced effectively.

Accompanying drawing explanation

The Figure of description that forms the application's a part is used to provide further understanding of the present utility model, and schematic description and description of the present utility model is used for explaining the utility model, does not form improper restriction of the present utility model.In the accompanying drawings:

Fig. 1 shows according to the perspective view of the embodiment of compressor of the present utility model;

Fig. 2 shows the first accumulation of heat module and the second accumulation of heat module assembly view of the compressor of Fig. 1;

Fig. 3 shows the perspective view of the first accumulation of heat module of Fig. 2;

Fig. 4 shows the base plate of the first accumulation of heat module and the perspective view of circular arc wallboard of Fig. 3;

Fig. 5 shows the seal of the first accumulation of heat module and the confined state schematic diagram of base plate and circular arc wallboard of Fig. 3;

Fig. 6 shows the confined state schematic diagram of heat-conducting plate of the first accumulation of heat module of Fig. 3;

Fig. 7 shows the heat-conducting plate of the first accumulation of heat module and the mated condition schematic diagram of seal of Fig. 3;

Fig. 8 shows the cover plate of the first accumulation of heat module and the confined state schematic diagram of regenerative heat exchanger of Fig. 3;

Fig. 9 shows the cover plate of Fig. 8 and the master of regenerative heat exchanger looks schematic diagram;

Figure 10 shows the schematic side view of cover plate and the regenerative heat exchanger of Fig. 9;

Figure 11 shows the cross sectional representation of the compressor of Fig. 1;

Figure 12 shows the operation principle schematic diagram according to the embodiment of air-conditioner of the present utility model; And

Figure 13 shows the schematic diagram that flows to of cold-producing medium under air-conditioner operation defrosting-heating mode of Figure 12.

Wherein, above-mentioned accompanying drawing comprises the following drawings mark:

10, compressor body; 21, the first accumulation of heat module; 22, the second accumulation of heat module; 211, heat-conducting plate; 212, base plate; 213, circular arc wallboard; 214, cover plate; 214a, third through-hole; 215, regenerative heat exchanger; 216, seal; 40, locking bayonet lock; 50, connect bayonet lock; 61, the first triple valve; 62, the second triple valve; 63, restricting element; 64, magnetic valve; 100, indoor heat exchanger; 200, outdoor heat exchanger.

The specific embodiment

It should be noted that, in the situation that not conflicting, embodiment and the feature in embodiment in the application can combine mutually.Describe below with reference to the accompanying drawings and in conjunction with the embodiments the utility model in detail.

As depicted in figs. 1 and 2, the compressor of the present embodiment comprises compressor body 10 and the regenerative apparatus arranging around compressor body 10, and regenerative apparatus comprises interconnective the first accumulation of heat module 21 and the second accumulation of heat module 22.The first accumulation of heat module 21 and the second accumulation of heat module 22 include: housing and heat-conducting plate 211, and the side that heat-conducting plate 211 is arranged on housing also and between housing surrounds accumulation of heat inner chamber, and heat-conducting plate 211 fits with the cylinder body of compressor body 10.

The technical scheme of application the present embodiment, regenerative apparatus comprises interconnective the first accumulation of heat module 21 and the second accumulation of heat module 22, the first accumulation of heat module 21 and the second accumulation of heat module 22, include the housing and the heat-conducting plate 211 that surround accumulation of heat inner chamber, like this, the outer wall of cylinder block of compressor body can pass to used heat heat-conducting plate 211, by heat-conducting plate 211, used heat is passed in accumulation of heat inner chamber again.In the technical scheme of the present embodiment, because regenerative apparatus comprises interconnective the first accumulation of heat module 21 and the second accumulation of heat module 22, and then reduced assembly difficulty, make assembly manipulation simpler.In addition, housing and heat-conducting plate are arranged and have expanded the versatility of regenerative apparatus for 211 minutes, when regenerative apparatus coordinates the compressor body of different-diameter, without the size of adjusting housing, only need to adjust the heat-transfer area radian of heat-conducting plate 211.Like this, processing cost is reduced effectively.

Preferably, the thermal conductivity of heat-conducting plate 211 is greater than the thermal conductivity of housing.Heat-conducting plate 211 can be the metal material sheet material that the coefficient of overall heat transmission is higher, and the periphery of similar compressor body 10 is less than 180 degree circular shapes and makes moulding.The waste thermal energy of being convenient to like this compressor body 10 passes to accumulation of heat inner chamber fast.

Preferably, for cost-saving, the first accumulation of heat module 21 is identical with the second accumulation of heat module 22 structures.As shown in Fig. 8 to Figure 10, the first accumulation of heat module 21 and the second accumulation of heat module 22 also comprise heat storage medium and regenerative heat exchanger 215.Heat storage medium is filled in accumulation of heat inner chamber, and regenerative heat exchanger 215 is arranged in accumulation of heat inner chamber.Heat storage medium can be realized the absorption of heat and emit two processes under different condition.Heat storage medium is preferably heat storage liquid, such as ethylene glycol solution.In the present embodiment, the outer wall of cylinder block of compressor body 10 conducts heat to heat-conducting plate 211, and heat-conducting plate 211 conducts heat to the heat-storing material of accumulation of heat inner chamber, and heat can pass to regenerative heat exchanger 30 by heat storage medium.Above-mentioned regenerative apparatus periphery is preferably provided with heat-insulation layer parcel.In unshowned in the drawings embodiment, the quantity of accumulation of heat module also can be greater than two, and principle and two accumulation of heat modules are basic identical, do not repeat them here.

As shown in Figure 3, each housing comprises base plate 212, circular arc wallboard 213 and cover plate 214, circular arc wallboard 213 is arranged between base plate 212 and cover plate 214, between cover plate 214 and circular arc wallboard 213, removably connects, and the set-up mode of above-mentioned cover plate 214 is convenient to the assembling of heat storage medium.As shown in Figure 4, corresponding base plate 212 and circular arc wallboard 213 are the integrative-structure by injection moulding integrated molding, preferably adopt PPS injection moulding integrated molding.

As shown in Fig. 3 and Fig. 8, the cover plate 214 of the first accumulation of heat module 21 is provided with two the first through holes, two the first through holes coordinate with two ends of the regenerative heat exchanger 215 of the first accumulation of heat module 21 respectively, the cover plate of the second accumulation of heat module 22 is provided with two the second through holes, and two the second through holes coordinate with two ends of the regenerative heat exchanger of the second accumulation of heat module 22 respectively.Regenerative heat exchanger 215 is to adopt sealed card flute profile formula to be connected with cover plate 214, increases O-ring seal in respective card slot, improves sealing.Guarantee that accumulation of heat inner chamber inner space and outside have been hermetic.

As shown in Figure 1, between end of the regenerative heat exchanger 215 of the first accumulation of heat module 21 and an end of the regenerative heat exchanger 215 of the second accumulation of heat module 22, be provided with and be communicated with elbow 30.Being communicated with elbow can weld respectively with above-mentioned two ends.Said structure can be realized being communicated with between the accumulation of heat inner chamber of the first accumulation of heat module 21 and the accumulation of heat inner chamber of the second accumulation of heat module 22, is convenient to the unified conveying of heat and heat exchange abundant.

As shown in Figures 5 to 7, each housing also comprises seal 216, on corresponding circular arc wallboard 213 and cover plate 214, be equipped with for the mounting groove of seal 216 is installed, seal 216 is arranged in mounting groove, on seal 216, be provided with seal groove, heat-conducting plate 211 comprises heat-conducting plate body and along the sealing strip edge of the outwardly setting in edge of heat-conducting plate body, sealing strip is along being inserted in seal groove.Cooperation by sealing strip edge and seal groove makes sealing effectiveness better.

As shown in Figure 1 to 11, the assembly method of the compressor of the present embodiment is as follows:

The first step: as shown in Figure 4, injection baseboard 212 and circular arc wallboard 213 are by PPS mould molding, and the two ends of circular arc wallboard 213 are the slotted hole structures with certain length extension that connect for connecting bayonet lock 50.Global shape is the hollow shell structure with two face openings.On the edge of side, be designed with for the mounting groove of seal 216 is installed.

Second step: as shown in Figure 5, seal 216 is installed in mounting groove.

The 3rd step: as shown in Figure 6, make heat-conducting plate 211, the arc sheetmetal that heat-conducting plate 211 is less than 180 degree for periphery identical radian measure and the angle of circumference having with compressor body 10.Material plate as higher in coefficients of overall heat transmission such as aluminium sheet, copper coins.Heat-conducting plate 211 is put into seal groove.

The 4th step: as shown in Fig. 8 to Figure 10, the regenerative heat exchanger 215 of serpentine coil shape assembles by mode and the cover plate 214 of sealing draw-in groove.After assembling, put into accumulation of heat inner chamber.On the inner surface of cover plate 214, there is the suitable draw-in groove in design and the upper edge of circular arc wallboard 213 and heat-conducting plate 211, in draw-in groove, be placed with O-ring seal, the bayonet socket assembling on back shroud 214 can carry out fastening with the buckle of circular arc wallboard 213, guarantees the sealing of the accumulation of heat inner chamber after assembling.So just completed the assembling of an accumulation of heat module.

After the first and second accumulation of heat modules that assemble, by bayonet lock, both are hinged after again by bayonet lock by both along fixing after the periphery circular arc splicing of compressor body 10.So just completed the assembling of regenerative apparatus.

As shown in Fig. 3, Fig. 9 and Figure 10, each cover plate 214 is provided with third through-hole 214a, in third through-hole 214a, is filled with water-resisting piece.Water-resisting piece can be for being arranged on the water proof drying material of filling in third through-hole 214a, or select a kind of water-separating film material to fill.Whole accumulation of heat inner chamber only communicates by third through-hole 214a with the atmospheric environment outside accumulation of heat inner chamber, can only carry out atmosphere and communicate, and moisture can not pass in and out.

As depicted in figs. 1 and 2, the first accumulation of heat module 21 and the second accumulation of heat module 22 mutually towards a side between be articulated and connected, in the present embodiment, in the first accumulation of heat module 21 and the second accumulation of heat module 22, be provided with pin hole, by bayonet lock is articulated and connected the first accumulation of heat module 21 and the second accumulation of heat module 22.The first accumulation of heat module 21 and the second accumulation of heat module 22 mutually away from a side between fixing by locking bayonet lock 40 so that the first accumulation of heat module 21 and the second accumulation of heat module 22 fit with the cylinder body of compressor body 10.Preferably, as shown in Figure 1, locking bayonet lock 40 is concavity.

The application also provides a kind of air-conditioner, according to the embodiment of the application's air-conditioner, comprises compressor, and compressor is above-mentioned compressor.Figure 12 shows the operation principle schematic diagram of the air-conditioner of the present embodiment.The compressor of the air-conditioner of the present embodiment comprises compressor body 10 and regenerative apparatus, in Figure 12,101 and 102 is refrigerant pipes in air-conditioner refrigerating circulation, and above-mentioned two pipes are connected respectively with the import and export of the heat exchanger tube of regenerative heat exchanger 215 in regenerative apparatus.By the switching of magnetic valve 64, can control the heat of collecting in regenerative apparatus and whether replenish in the kind of refrigeration cycle of air-conditioner.

The air-conditioner of the present embodiment also comprises switching device shifter, outdoor heat exchanger 200, restricting element 63 and indoor heat exchanger 100, and above-mentioned parts and compressor are interconnected to form refrigerating circuit.

Regenerative apparatus is connected between the first end and switching device shifter of restricting element 63, the second end communication chamber external heat exchanger 200 of restricting element.Air-conditioner has the first heating mode and the second heating mode.Under the first heating mode, the refrigerant that compressor body 10 is discharged enters indoor heat exchanger 100, restricting element 63 and outdoor heat exchanger 200 successively through switching device shifter.Under the second heating mode, the refrigerant that compressor body 10 is discharged enters indoor heat exchanger 100 through a road after switching device shifter, another road enters outdoor heat exchanger 200, from the refrigerant of outdoor heat exchanger 200 and indoor heat exchanger 100 outflows, enters the suction end of compressor body 10 through regenerative apparatus.The air-conditioner of the present embodiment can be realized continuous heating operation.

Switching device shifter comprises that the first triple valve 61 and the second triple valve 62, the first triple valves 61 have the first to the 3rd valve port A3, B3 and C3, and the second triple valve 62 has the 4th to the 6th valve port A4, B4 and C4.The first valve port A3 is communicated with indoor heat exchanger 100, the second valve port B3 is communicated with respectively the exhaust end of the 5th valve port B4 and compressor body 10, the 3rd valve port C3 is communicated with respectively the suction end of the 6th valve port C4, regenerative apparatus and compressor body 10, the 4th valve port A4 communication chamber external heat exchanger 200.

Under the first heating mode (normally heating), the first valve port A3 and the second valve port B3, the 4th valve port A4 and the 6th valve port C4 conducting respectively, restricting element 63 work, and magnetic valve 64 cuts out.The refrigerant that compressor body 10 is discharged enters the first triple valve 61 from the second valve port B3, then through the first valve port A3, flow out the laggard indoor heat exchanger 100 that enters, in indoor heat exchanger 100, carry out condensation exothermic process, heat is passed to indoor, improve indoor temperature.Refrigerant is in the interior heat release of indoor heat exchanger 100 by restricting element 63 reducing pressure by regulating flows, and this gas-liquid two-phase fluid refrigerant enters outdoor heat exchanger 200 subsequently, carries out evaporation endothermic process in outdoor heat exchanger 200, and the heat absorption in outside atmosphere environment is entered to refrigerant.Refrigerant itself is heated to form saturated or hypersaturated state, through the 4th valve port A4, enters the second triple valve 62, gets back to afterwards the suction end of compressor body 10 after the 6th valve port C4 flows out, refrigerant is imported into compressor body 10, has completed one and complete has heated circulation.In above-mentioned heating operation, the heat that the spontaneous collection of this regenerative apparatus meeting is distributed from compressor body periphery, specifically by the heat storage medium in the accumulation of heat inner chamber of regenerative apparatus, the form with variations in temperature or phase transformation absorbs and stores heat, and the heat-accumulating process of regenerative apparatus is to synchronize with the unlatching operation of compressor body.

When the Guan Wen of outdoor heat exchanger 200 reaches defrost condition, controller control system enters the second heating mode.Under the second heating mode, the first valve port A3 and the second valve port B3, the 4th valve port A4 and the 5th valve port B4 conducting respectively, and magnetic valve 64 and restricting element 63 work.As shown in figure 13, arrow is refrigerant flow direction to the circulation theory figure of the second heating mode.The refrigerant that compressor body 10 is discharged is shunted at O point, part refrigerant enters the first triple valve 61 through the second valve port B3, from the first valve port A3, flow out the laggard indoor heat exchanger 100 that enters, refrigerant carries out condensation exothermic process in indoor heat exchanger 100, heat is passed to indoor, improve indoor temperature.A part of refrigerant enters the second triple valve 62 from the 5th valve port B4 in addition, from the 4th valve port A4, flows out the laggard outdoor heat exchanger 200 that enters.In outdoor heat exchanger 200, refrigerant is forced heat release to atmospheric environment, and the heat of refrigerant is passed to frost layer by outdoor heat exchanger 200 copper pipe surface, frost layer temperature is raise and latent heat process occurs, and reaches the object that melts frost layer.The refrigerant flowing out from outdoor heat exchanger 200 converges at B point with the refrigerant flowing out from indoor heat exchanger 100 after restricting element 63 reducing pressure by regulating flows, and refrigerant carries out heat for the first time herein to be mixed.Refrigerant after converging is through the magnetic valve 64(of conducting normally close valve) flow in regenerative apparatus, the heat that refrigerant stores in regenerative heat exchanger 215 heat absorptions, reaches the effect of heating refrigerant.Supersaturation refrigerant after regenerative apparatus heating flows back to the suction end of compressor body 10.Air-conditioner defrost phase, indoor heat exchanger 100 is states of continuous heating.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any modification of doing, be equal to replacement, improvement etc., within all should being included in protection domain of the present utility model.

Claims (12)

1. a compressor, comprise compressor body (10) and the regenerative apparatus arranging around described compressor body (10), it is characterized in that, described regenerative apparatus comprises interconnective the first accumulation of heat module (21) and the second accumulation of heat module (22), and described the first accumulation of heat module (21) and the second accumulation of heat module (22) include:

Housing;

Heat-conducting plate (211), be arranged on described housing a side and and described housing between surround accumulation of heat inner chamber, the cylinder body of described heat-conducting plate (211) and described compressor body (10) fits.

2. compressor according to claim 1, it is characterized in that, described in each, housing comprises base plate (212), circular arc wallboard (213) and cover plate (214), described circular arc wallboard (213) is arranged between described base plate (212) and described cover plate (214), between described cover plate (214) and described circular arc wallboard (213), removably connects.

3. compressor according to claim 2, is characterized in that, corresponding described base plate (212) and described circular arc wallboard (213) are the integrative-structure by injection moulding integrated molding.

4. compressor according to claim 2, it is characterized in that, described the first accumulation of heat module (21) and described the second accumulation of heat module (22) also comprise heat storage medium and regenerative heat exchanger (215), described heat storage medium is filled in described accumulation of heat inner chamber, and described regenerative heat exchanger (215) is arranged in described accumulation of heat inner chamber.

5. compressor according to claim 4, it is characterized in that, the cover plate (214) of described the first accumulation of heat module (21) is provided with two the first through holes, described two the first through holes coordinate with two ends of the regenerative heat exchanger (215) of described the first accumulation of heat module (21) respectively, the cover plate of described the second accumulation of heat module (22) is provided with two the second through holes, and described two the second through holes coordinate with two ends of the regenerative heat exchanger of described the second accumulation of heat module (22) respectively.

6. compressor according to claim 4, it is characterized in that, between end of the regenerative heat exchanger (215) of described the first accumulation of heat module (21) and an end of the regenerative heat exchanger (215) of the second accumulation of heat module (22), be provided with and be communicated with elbow (30).

7. compressor according to claim 2, it is characterized in that, described in each, housing also comprises seal (216), on corresponding described circular arc wallboard (213) and cover plate (214), be equipped with for the mounting groove of described seal (216) is installed, described seal (216) is arranged in described mounting groove, described seal is provided with seal groove on (216), described heat-conducting plate (211) comprises heat-conducting plate body and along the sealing strip edge of the outwardly setting in edge of described heat-conducting plate body, described sealing strip is along being inserted in described seal groove.

8. compressor according to claim 2, is characterized in that, cover plate described in each (214) is provided with third through-hole (214a), in described third through-hole (214a), is filled with water-resisting piece.

9. compressor according to claim 1, it is characterized in that, described the first accumulation of heat module (21) and described the second accumulation of heat module (22) mutually towards a side between be articulated and connected, described the first accumulation of heat module (21) and described the second accumulation of heat module (22) mutually away from a side between fixing by locking bayonet lock (40) so that the cylinder body of described the first accumulation of heat module (21) and described the second accumulation of heat module (22) and described compressor body (10) fits.

10. compressor according to claim 1, is characterized in that, described the first accumulation of heat module (21) is identical with described the second accumulation of heat module (22) structure.

11. compressors according to claim 1, is characterized in that, the thermal conductivity of described heat-conducting plate (211) is greater than the thermal conductivity of described housing.

12. 1 kinds of air-conditioners, comprise compressor, it is characterized in that, described compressor is the compressor described in any one in claim 1 to 11.

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