CN107172862A - Air conditioner and driving module radiator thereof - Google Patents

Abstract

A drive module heat sink installed in an air conditioner, comprising: the water-cooling heat dissipation unit is fixed on the driving module and exchanges heat with the driving module by using condensed water generated by an air conditioner as a medium; and the air-cooled heat dissipation unit can exchange heat with the driving module by utilizing flowing air. The invention also comprises an air conditioner using the driving module radiator. The driving module radiator comprises a water-cooling radiating unit and an air-cooling radiating unit, heat exchange is carried out between air conditioner condensate water and flowing air and the driving module, the radiating effect of the combined radiating mode is not limited by the ambient temperature, the radiating performance is better, heat generated by the driving module in the working process can be transmitted to the outside in time, the ambient temperature range required by efficient operation of the driving module is maintained, and electric energy is saved. Meanwhile, the problem of waste of the cold energy of the condensed water caused by directly discharging the condensed water outdoors is avoided.

Description

Air-conditioning and its drive module radiator

Technical field

The present invention relates to air-conditioning drive module field of radiating, more particularly to a kind of air-conditioning and its drive module radiator.

Background technology

Drive module in air-conditioning can produce more heat in the course of the work, and the higher working environment of temperature is unfavorable for The normal operation of drive module, it is therefore desirable to increase radiator and effectively radiated to drive module；Existing radiator is general The radiating mode of fin structure is set simultaneously by being fixed with drive module, belongs to wind-cooling heat dissipating；But this single radiating side Formula cooling limitation, when environment temperature is higher, radiating effect is very undesirable.

The content of the invention

Based on this, it is necessary to for drive module in existing air-conditioning radiator heat-dissipation form is single, DeGrain The problem of there is provided a kind of knockdown drive module radiator.

The present invention provides a kind of drive module radiator, is installed in air-conditioning, including：Water-cooling unit, is fixed on drive Dynamic model block, the condensed water that the water-cooling unit is produced using air-conditioning carries out heat exchange as medium and drive module；It is air-cooled Heat-sink unit, air and drive module progress heat exchange that the wind-cooling heat dissipating unit can be using flowing.

In one of the embodiments, the water-cooling unit includes intake tunnel and exhalant canal, the water inlet Passage is connected with the exhalant canal, and condensed water enters the water-cooling unit by the intake tunnel, and condensed water is by described Exhalant canal discharges the water-cooling unit.

In one of the embodiments, the axis of the intake tunnel is with respect to the horizontal plane tilted down along water inlet direction, The axis of the intake tunnel and the angle of horizontal plane are 1 ° to 10 °.

In one of the embodiments, the exhalant canal includes some apopores, the extension side of some apopores To different.

In one of the embodiments, the axis of the apopore is with respect to the horizontal plane tilted down along water outlet direction, institute The angle of the axis and horizontal plane of stating apopore is 1 ° to 10 °.

In one of the embodiments, the intake tunnel is connected with the exhalant canal by catch basin, the water inlet Passage is communicated in the top of the catch basin, and the exhalant canal is communicated in the middle part of the catch basin.

In one of the embodiments, the projection of the axis of some apopores in the horizontal plane using the catch basin as Center is uniformly distributed.

In one of the embodiments, the drive module radiator also include water inlet pipe, one end of the water inlet pipe with The water inlet end connection connection of the intake tunnel, the other end of the water inlet pipe connects connection with the indoor set drainpipe of air-conditioning.

In one of the embodiments, the wind-cooling heat dissipating unit includes radiating fin, and the radiating fin is fixed on institute Side of the water-cooling unit away from drive module is stated, the radiating fin is arranged at the air side of fan blade in outdoor machine of air-conditioner, and The bearing of trend of the radiating fin is parallel with the air-out direction of fan blade.

In one of the embodiments, the position of the drive module radiator and drive module transmission of heat by contact has and drive The adaptable binding face of dynamic model block.

The present invention also provides a kind of air-conditioning, including air conditioner casing, drive module and drive module radiator, the driving Module heat radiator is the drive module radiator described in any one of such scheme.

Above-mentioned drive module radiator, including water-cooling unit and wind-cooling heat dissipating unit, while utilizing air conditioner condensate water Air and drive module progress heat exchange with flowing, its radiating effect of knockdown radiating mode are not limited by environment temperature System, more preferably, the heat transfer that in time can be produced drive module in the course of the work maintains drive module to heat dispersion to the external world Ambient temperature range needed for Effec-tive Function, saves electric energy.Avoid simultaneously condensed water be expelled directly out it is outdoor and cause it is cold The problem of solidifying water cooling amount is wasted.

Brief description of the drawings

The drive module heat spreader structures exploded perspective view that Fig. 1 provides for one embodiment of the invention；

The drive module radiator longitudinal profile schematic diagram that Fig. 2 provides for one embodiment of the invention；

The drive module radiator horizontal section schematic diagram that Fig. 3 provides for one embodiment of the invention；

The drive module heat spreader structures exploded perspective view that Fig. 4 provides for second embodiment of the invention.

Wherein：

100- water-cooling units

110- intake tunnels

120- exhalant canals

121- apopores

130- catch basins

140- water inlet pipes

150- end sockets

160- binding faces

170- fixing holes

200- wind-cooling heat dissipating units

210- radiating fins

A- angles

B- angles

Embodiment

In order to make the purpose , technical scheme and advantage of the present invention be clearer, by the following examples, and with reference to attached Figure, a kind of air-conditioning and its drive module radiator of the present invention are further elaborated.

It should be noted that when element is referred to as " being fixed on " another element, it can be directly on another element Or can also have element placed in the middle.When an element is considered as " connection " another element, it can be directly connected to To another element or it may be simultaneously present centering elements.On the contrary, when element be referred to as " directly existing " another element " on " when, In the absence of intermediary element.Term as used herein " vertically ", " level ", "left", "right" and similar statement are For illustrative purposes.Various different objects are drawn in the ratio for being easy to enumerate explanation in embodiment accompanying drawing, rather than by actual group The ratio of part is drawn.

As shown in figure 1, a kind of drive module radiator that one embodiment of the invention is provided, is installed in outdoor machine of air-conditioner, wrap Include：The water-cooling unit 100 of drive module is fixed on, the condensed water that water-cooling unit 100 is produced by the use of air-conditioning is used as Jie Matter carries out heat exchange with drive module；Wind-cooling heat dissipating unit 200, wind-cooling heat dissipating unit 200 is using the air of flowing with driving mould Block carries out heat exchange.

Above-mentioned drive module radiator, including water-cooling unit 100 and wind-cooling heat dissipating unit 200, while utilizing air-conditioning Air and drive module progress heat exchange of the condensed water with flowing, its radiating effect of knockdown radiating mode is not by environment temperature Limitation, heat dispersion more preferably, the heat transfer that in time can be produced drive module in the course of the work to the external world, maintain driving Ambient temperature range needed for modular high-performance operation, saves electric energy.Condensed water is avoided simultaneously to be expelled directly out outdoor and cause Condensed water cold the problem of waste.

Above-mentioned water-cooling unit 100 includes intake tunnel 110 and exhalant canal 120, intake tunnel 110 and water outlet Passage 120 is connected, and intake tunnel 110 and exhalant canal 120 can be obtained by mach mode；Condensed water is by intake tunnel 110 enter water-cooling unit 100, and condensed water discharges water-cooling unit 100 by exhalant canal 120, and intake tunnel 110 is with going out Aquaporin 120 may be contained within the inside of water-cooling unit 100, and heat exchange can be carried out when condensed water circulates in the channel, and The specific heat capacity of water is larger, and condensed water can take away more heat in heat exchanging process and self-temperature change is little.

Further, intake tunnel 110 is in tilted layout in water-cooling unit 100, its axis edge water inlet direction phase Tilted down for horizontal plane, the axis of intake tunnel 110 and the included angle A of horizontal plane are 5 °, and the angle tilted down is conducive to Condensed water smoothly enters drive module radiator, while making condensed water be unlikely to slow flowing, stopping flowing occurring or even flow backwards Phenomenon.

As shown in Figures 1 and 2, in the present embodiment, exhalant canal 120 includes eight apopores 121, eight apopores 121 bearing of trend is different, and the different apopore 121 of a plurality of bearing of trend make it that condensed water can be in water-cooling unit 100 different parts carry out heat exchange simultaneously, the temperature of quick reduction drive module.

Further, apopore 121 is in tilted layout in water-cooling unit 100, and its axis is relative along water outlet direction Tilted down in horizontal plane, the axis of apopore 121 and the included angle B of horizontal plane are 5 °, and the angle tilted down is conducive to condensation Water quickly flows in drive module radiator, and takes away heat, while making condensed water be unlikely to occur flowing slow, stopping stream The dynamic phenomenon even flow backwards.

In the present embodiment, intake tunnel 110 is not directly to connect with exhalant canal 120, but is connected by catch basin 130 Logical, intake tunnel 110 is communicated in the top of catch basin 130, and exhalant canal 120 is communicated in the middle part of catch basin 130.Intake tunnel 110 are arranged at the top of exhalant canal 120, and are connected by catch basin 130, and condensed water enters retaining by intake tunnel 110 In groove 130, after certain water level is reached in catch basin 130, condensed water can uniformly pass through eight apopores due to Action of Gravity Field 121 discharges.

As shown in figure 3, the projection of the axis of eight apopores 121 in the horizontal plane is uniformly divided centered on catch basin 130 Cloth, equally distributed apopore 121 can realize the Homogeneouslly-radiating of drive module radiator, it is to avoid the problem of local temperature is too high, Realize the quick heat radiating of drive module.

Further, drive module radiator also includes water inlet pipe 140, one end of water inlet pipe 140 and entering for intake tunnel 110 The mode that water end (W.E.) is connected through a screw thread realizes connection connection, and the other end of water inlet pipe 140 is connected with the indoor set drainpipe of air-conditioning Connection, the presence of water inlet pipe 140 is easy to condensed water to enter drive module radiator.The indoor set drainpipe of air-conditioning can be directly arranged In water inlet pipe 140, condensed water introducing drive module radiator can need not be changed by drain-pipe of indoor unit of air conditioner by water inlet pipe 140 Structure, do not increase production cost while convenient connection.

Wind-cooling heat dissipating unit 200 in the present embodiment includes radiating fin 210, and radiating fin 210 is fixed on water-cooling Side of the unit 100 away from drive module, radiating fin 210 is arranged at the air side of fan blade in outdoor machine of air-conditioner, and radiating fin 210 bearing of trend is parallel with the air-out direction of fan blade.Radiating fin 210 is the important means of the air radiating using flowing, Its area of dissipation is big, and manufacturing cost is cheap；Radiating fin 210 is arranged in outdoor machine of air-conditioner the air side of fan blade and prolongs it Stretch that direction is parallel with the air-out direction of fan blade, be conducive to increasing the flowing of the neighbouring air of radiating fin 210, so as to improve driving mould The overall heat exchange efficiency of module radiator.

Further, catch basin 130 is by being machined into, and end socket 150 is used to seal catch basin 130 in use Portion, is connected through a screw thread between catch basin 130 and end socket 150, on the one hand can prevent dust from falling into catch basin 130, while can prevent Only condensate evaporation and enter drive module.

It is adapted as shown in figure 1, the position of drive module radiator and drive module transmission of heat by contact has with drive module Binding face 160, the heat produced in the drive module course of work can not only quickly be transferred to drive module and dissipated by binding face 160 Hot device, moreover it is possible to play a part of positioning in drive module and drive module radiator connection procedure.

Further, one end that drive module radiator is contacted with drive module has to be adapted, with spiral shell with drive module The fixing hole 170 of line, while screwed 170 fixations of fixing hole, can also make drive module radiate by screw The binding face of device is brought into close contact with drive module, so that the quick heat transfer for producing drive module in the course of the work is extremely driven Dynamic model module radiator.

In the present embodiment, drive module radiator is aluminum material or aluminum alloy material, aluminum material or aluminium Not only heat conductivility is good for matter alloy material, and its density is also smaller, alleviates the overall weight of drive module radiator.

The present embodiment also provides a kind of air-conditioning, including air conditioner casing, drive module and drive module radiator, the drive Dynamic model module radiator is the drive module radiator described in any one of such scheme.

In second embodiment that the present invention is provided, as shown in figure 4, wind-cooling heat dissipating unit 200 is fixed on drive module Sideways.

In the 3rd embodiment that the present invention is provided, wind-cooling heat dissipating unit 200 is radiating fin with holes.

In the 4th embodiment that the present invention is provided, drive module radiator of the invention can be additionally used in window machine, real herein Applying needs the condensed water for setting pump handle evaporator to produce to be sent in drive module radiator in example.

Embodiment described above only expresses the several embodiments of the present invention, and it describes more specific and detailed, but simultaneously Therefore the limitation to the scope of the claims of the present invention can not be interpreted as.It should be pointed out that for one of ordinary skill in the art For, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to the guarantor of the present invention Protect scope.Therefore, the protection domain of patent of the present invention should be determined by the appended claims.

Claims (11)

1. a kind of drive module radiator, is installed in air-conditioning, it is characterised in that including：

Water-cooling unit (100), is fixed on drive module, the condensation that the water-cooling unit (100) is produced using air-conditioning Water carries out heat exchange as medium and drive module；

Wind-cooling heat dissipating unit (200), the wind-cooling heat dissipating unit (200) can be carried out hot using the air of flowing with drive module Exchange.

2. drive module radiator according to claim 1, it is characterised in that the water-cooling unit (100) includes Intake tunnel (110) and exhalant canal (120), the intake tunnel (110) connect with the exhalant canal (120), condensation Water enters the water-cooling unit (100) by the intake tunnel (110), and condensed water is discharged by the exhalant canal (120) The water-cooling unit (100).

3. drive module radiator according to claim 2, it is characterised in that the axis edge of the intake tunnel (110) Water inlet direction is with respect to the horizontal plane tilted down, and the axis of the intake tunnel (110) and the angle of horizontal plane are 1 ° to 10 °.

4. drive module radiator according to claim 2, it is characterised in that the exhalant canal (120) includes some Apopore (121), the bearing of trend of some apopores (121) is different.

5. drive module radiator according to claim 4, it is characterised in that the axis edge of the apopore (121) goes out Water direction is with respect to the horizontal plane tilted down, and the axis of the apopore (121) and the angle of horizontal plane are 1 ° to 10 °.

6. the drive module radiator according to claim any one of 2-5, it is characterised in that the intake tunnel (110) Connected with the exhalant canal (120) by catch basin (130), the intake tunnel (110) is communicated in the catch basin (130) Top, the exhalant canal (120) is communicated in the middle part of the catch basin (130).

7. drive module radiator according to claim 6, it is characterised in that the axis of some apopores (121) Projection in the horizontal plane is uniformly distributed centered on the catch basin (130).

8. drive module radiator according to claim 2, it is characterised in that the drive module radiator also include into Water pipe (140), one end of the water inlet pipe (140) is connected with the water inlet end of the intake tunnel (110), the water inlet pipe (140) the other end connects connection with the indoor set drainpipe of air-conditioning.

9. drive module radiator according to claim 1, it is characterised in that the wind-cooling heat dissipating unit (200) includes Radiating fin (210), the radiating fin (210) is fixed on side of the water-cooling unit (100) away from drive module, The radiating fin (210) is arranged at the air side of fan blade in outdoor machine of air-conditioner, and the bearing of trend of the radiating fin (210) with The air-out direction of fan blade is parallel.

10. drive module radiator according to claim 1, it is characterised in that the drive module radiator and driving The position of module contact heat transfer has the binding face (160) being adapted with drive module.

11. a kind of air-conditioning, including air conditioner casing, drive module and drive module radiator, it is characterised in that the driving mould Module radiator is the drive module radiator described in claim any one of 1-10.