CN108731298A

CN108731298A - Solid-state refrigeration equipment

Info

Publication number: CN108731298A
Application number: CN201810391986.8A
Authority: CN
Inventors: 廉锋; 张尚民; 丁剑波; 潘自杰
Original assignee: Qingdao Haier Special Refrigerator Co Ltd; Qingdao Haier Smart Technology R&D Co Ltd
Current assignee: Qingdao Haier Special Refrigerator Co Ltd; Qingdao Haier Smart Technology R&D Co Ltd; Haier Smart Home Co Ltd
Priority date: 2017-04-28
Filing date: 2018-04-27
Publication date: 2018-11-02
Anticipated expiration: 2038-04-27
Also published as: CN108895705B; CN108397959A; CN108800656A; CN108375276B; CN108375274B; CN108375274A; CN108375276A; CN108917256A; CN108679877B; CN108895705A; WO2018196679A1; CN108709335B; CN108800656B; CN108679877A; CN108397959B; CN108917256B; CN108709335A; CN108731298B

Abstract

The invention discloses a kind of solid-state refrigeration equipments, including heat conduction liner, semiconductor refrigerating module and the wet component of control, semiconductor refrigerating module includes the first semiconductor refrigeration chip, heat pipe and assembling module, it includes the first heat-insulating bracket to assemble module, second heat-insulating bracket, hot junction heat-conducting seat and cold end heat-conducting seat, the first groove is provided on first heat-insulating bracket, the mounting hole through the first heat-insulating bracket is offered in first groove, second heat-insulating bracket is provided with the second groove, first heat-insulating bracket is fixed on the second heat-insulating bracket, installation cavity is formed between first groove and the second groove, first semiconductor refrigeration chip is located in mounting hole, cold end heat-conducting seat is contacted with the cold end face of the first semiconductor refrigeration chip, hot junction heat-conducting seat is contacted with the hot junction face of the first semiconductor refrigeration chip, heat pipe connects cold end heat-conducting seat.The loss of refrigeration capacity amount for reducing semiconductor refrigerating module is realized, to improve the refrigerating efficiency of refrigeration equipment and reduce energy consumption.

Description

Solid-state refrigeration equipment

Technical field

The present invention relates to refrigeration equipment more particularly to a kind of solid-state refrigeration equipments.

Background technology

Currently, with the development of semiconductor refrigerating technology, the refrigeration freezed using the first semiconductor refrigeration chip is set Standby to be widely used, China Patent No. 2014107111772 discloses a kind of semiconductor refrigerating equipment, using the first semiconductor system The cold that cold core piece generates realizes refrigeration.And the first semiconductor refrigeration chip includes the heat of the cold end and release heat of released cold quantity End, in the process of running, cold is discharged into refrigeration equipment by the cold end of the first semiconductor refrigeration chip by cold end radiator In refrigeration compartment, and the hot junction of the first semiconductor refrigeration chip needs to distribute heat to outside by hot-side heat dissipation device.But In actual use, since the cold and hot end of the first semiconductor refrigeration chip is oppositely arranged backwards, cold end radiator and Hot-side heat dissipation device is mutually neighbour, and cold end radiator and hot-side heat dissipation device easy to produce heat exchange and lead to the loss of cold, to So that the refrigerating efficiency of refrigeration equipment is relatively low and energy consumption increases.How a kind of high cooling efficiency is designed and the refrigeration equipment that low energy consumption It is the technical problems to be solved by the invention.

Invention content

The present invention provides a kind of solid-state refrigeration equipments, the loss of refrigeration capacity amount for reducing semiconductor refrigerating module are realized, to carry The refrigerating efficiency of high refrigeration equipment simultaneously reduces energy consumption.

To reach above-mentioned technical purpose, the present invention is realized using following technical scheme：

A kind of solid-state refrigeration equipment, including heat conduction liner further include semiconductor refrigerating module and the wet component of control；The semiconductor Refrigeration module includes the first semiconductor refrigeration chip and heat pipe, and first semiconductor refrigeration chip includes the cold end of released cold quantity Face and release heat hot junction face, which is characterized in that further include assembling module, the assembling module including the first heat-insulating bracket, Second heat-insulating bracket, hot junction heat-conducting seat and cold end heat-conducting seat, first heat-insulating bracket are fixed on second heat-insulating bracket, Installation cavity is formed between first heat-insulating bracket and second heat-insulating bracket, first heat-insulating bracket offers connection The mounting hole of the installation cavity, first semiconductor refrigeration chip are located in the mounting hole, and the cold end heat-conducting seat is set It sets in the installation cavity and is contacted with the cold end face of first semiconductor refrigeration chip, the hot junction heat-conducting seat setting exists It is contacted on first heat-insulating bracket and with the hot junction face of first semiconductor refrigeration chip, the heat pipe connects the cold end Heat-conducting seat, the heat pipe of the semiconductor refrigerating module are attached to the surface of the heat conduction liner；The wet component of control is arranged described The humidity of storing cavity in heat conduction liner for being formed to the heat conduction liner is adjusted.

Further, the wet component of control includes humidification module, dehumidifying module and humidity sensor, and the humidification module is used It is humidified in the storing cavity that the humidity value detected according to the humidity sensor forms the heat conduction liner, the dehumidifying The storing cavity that the humidity value that module is used to be detected according to the humidity sensor forms the heat conduction liner dehumidifies.

Further, the humidification module includes that water box, humidification foam, upper cover and wind turbine, the humidification foam are located at institute It states in water box, the upper cover covering is provided with air inlet and air outlet, the wind turbine on the top of the water box, the upper lid The air inlet or the air outlet are covered in, the water box are arranged in the heat conduction liner.

Further, the dehumidifying module is dissipated including the second semiconductor refrigeration chip, trivet, hot-side heat dissipation device, cold end Hot device, air duct and blower fan, the trivet are provided with installation through-hole, and second semiconductor refrigeration chip is arranged in the peace It fills in through-hole, the trivet is arranged in the air duct, and the air duct is divided into dehumidifying cavity and heat dissipation by the trivet Cavity is provided with the first circulation air port for being connected to the dehumidifying cavity on the air duct, is provided with described in connection on the air duct The second circulation air port of heat-dissipating cavity, the cold end radiator are located in the dehumidifying cavity and stick on second semiconductor The cold end face of refrigerating chip, the hot-side heat dissipation device and the blower fan are located in the heat-dissipating cavity, the hot-side heat dissipation device Stick on the hot junction face of second semiconductor refrigeration chip.

Further, the bottom of the cold end radiator is provided with drip tray, the drip tray by drainpipe with it is described Water box connect.

Further, the outer surface of first heat-insulating bracket is provided with heat dam, the heat dam around the mounting hole In be provided with heat insulation foam；The hot junction of first semiconductor refrigeration chip faces out the appearance for protruding from first heat-insulating bracket Face.

Further, it is provided with evacuation notch on the cold end heat-conducting seat, it is first heat-insulating bracket, described second heat-insulated Through-hole is respectively arranged on holder and the hot junction heat-conducting seat, bolt is threaded through in the corresponding through-hole, and the bolt passes through The evacuation notch is formed by region.

Further, the cold end heat-conducting seat includes the first heat-conducting plate and the second heat-conducting plate to link together, the heat Pipe clamp is between first heat-conducting plate and second heat-conducting plate.

Further, the inner surface of first heat-conducting plate offers the first mounting groove being laterally arranged, and described second leads The inner surface of hot plate offers the second longitudinally disposed mounting groove, and the heat pipe is divided into lateral flat hot pipe and longitudinally flattened heat Pipe, the transverse direction flat hot pipe are arranged in first mounting groove, and the longitudinally flattened heat pipe setting is in second installation In slot, also, the lateral flat hot pipe contacts with each other with the longitudinally flattened heat pipe.

Further, the inner surface of first heat-insulating bracket is provided with the first tube seat for installing the heat pipe, institute The edge for stating the second heat-insulating bracket is provided with the notch passed through for the heat pipe or through hole or the second tube seat.

Compared with prior art, the advantages and positive effects of the present invention are：It is formed by using between two heat-insulating brackets Installation cavity cold end heat-conducting seat is installed so that cold end heat-conducting seat and hot junction heat-conducting seat by heat-insulating bracket effective insulated room every It opens, so as to substantially reduce the heat exchange amount generated between cold end heat-conducting seat and hot junction heat-conducting seat, effective reduction cold It scatters and disappears, to improve the refrigerating efficiency of refrigeration equipment and reduce energy consumption.At the same time, the first semiconductor refrigeration chip embedded in first every In the mounting hole of hot holder, while the cold end face for ensuring the first semiconductor refrigeration chip is well contacted with cold end heat-conducting seat, Ensure that the hot junction face of the first semiconductor refrigeration chip is well contacted with hot junction heat-conducting seat, it is ensured that heat Quick diffusing is improved and used Reliability.

Description of the drawings

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technology description to be briefly described, it should be apparent that, the accompanying drawings in the following description is this hair Some bright embodiments for those of ordinary skill in the art without having to pay creative labor, can be with Obtain other attached drawings according to these attached drawings.

Fig. 1 is the assembling figure of heat conduction liner and semiconductor refrigerating module in refrigeration equipment of the present invention；

Fig. 2 is the assembling figure of heat conduction liner and humidification module in refrigeration equipment of the present invention；

Fig. 3 is the structural schematic diagram of semiconductor refrigerating module of the present invention;

Fig. 4 is the positive structure schematic of the first heat-insulating bracket in semiconductor refrigerating module of the present invention；

Fig. 5 is the reverse structure schematic of the first heat-insulating bracket in semiconductor refrigerating module of the present invention；

Fig. 6 is the positive structure schematic of the second heat-insulating bracket of semiconductor refrigerating module of the present invention；

Fig. 7 is the reverse structure schematic of the second heat-insulating bracket in semiconductor refrigerating module of the present invention；

Fig. 8 is the structural schematic diagram of the first heat-conducting plate in semiconductor refrigerating module of the present invention；

Fig. 9 is the structural schematic diagram of the second heat-conducting plate in semiconductor refrigerating module of the present invention；

Figure 10 is the explosive view of semiconductor refrigerating module of the present invention；

Figure 11 is the structural schematic diagram of present invention humidification module；

Figure 12 is the explosive view of present invention humidification module；

Figure 13 is the explosive view of present invention dehumidifying module.

Specific implementation mode

In order to make the object, technical scheme and advantages of the embodiment of the invention clearer, below in conjunction with the embodiment of the present invention In attached drawing, technical scheme in the embodiment of the invention is clearly and completely described, it is clear that described embodiment is A part of the embodiment of the present invention, instead of all the embodiments.Based on the embodiments of the present invention, those of ordinary skill in the art The every other embodiment obtained without making creative work, shall fall within the protection scope of the present invention.

As shown in Fig. 1-Figure 13, it can be configured as needed in the storing cavity of the liner formation of the present embodiment refrigeration equipment There are humidification module 300 and/or dehumidifying module 400 to meet the storage of special article to adjust the humidity in storage chamber body as needed Object requirement.Wherein, refrigeration equipment may be used solid-state Refrigeration Technique and freeze, wherein the liner of refrigeration equipment is in heat conduction Courage 100, setting semiconductor refrigerating module 200 on heat conduction liner 100.How to be said for different innovative points in conjunction with attached drawing It is bright.

One, the specific constructive form of semiconductor refrigerating module 200 is described below：

Semiconductor refrigerating module 200 includes the first semiconductor refrigeration chip 1 and heat pipe 2, and first semiconductor refrigeration chip 1 wraps Include released cold quantity cold end face and release heat hot junction face, further include assembling module 3, the assembling module 3 including first every Hot holder 31, the second heat-insulating bracket 32, hot junction heat-conducting seat 33 and cold end heat-conducting seat 34, first heat-insulating bracket 31 are fixed on institute It states on the second heat-insulating bracket 32, being formed between first heat-insulating bracket 31 and second heat-insulating bracket 32 has the function of thermal insulation Installation cavity in, between first groove 311 and second groove 321 formed installation cavity, first semiconductor Refrigerating chip 1 is located in the mounting hole 312, and the cold end heat-conducting seat 34 is arranged in the installation cavity and with described first The cold end face of semiconductor refrigeration chip 1 contacts, the hot junction heat-conducting seat 33 be arranged on first heat-insulating bracket 31 and with institute The hot junction face contact of the first semiconductor refrigeration chip 1 is stated, the heat pipe 2 connects the cold end heat-conducting seat 34.

Specifically, the first semiconductor refrigeration chip 1 is embedded in the first heat-insulating bracket 31 by semiconductor refrigerating module 200 In mounting hole 312, the periphery of the first semiconductor refrigeration chip 1 is wrapped by the first heat-insulating bracket 31, also, heat-insulated by first Hot junction heat-conducting seat 33 and cold end heat-conducting seat 34 are spaced apart by holder 31, can effectively reduce hot junction heat-conducting seat 33 and cold end heat conduction The amount of heat transfer generated between seat 34, to reduce the loss of refrigeration capacity of cold end heat-conducting seat 34, at the same time, cold end heat-conducting seat 34 wraps It is rolled in the installation cavity with thermal insulation function formed by the first heat-insulating bracket 31 and the second heat-insulating bracket 32, cold end heat-conducting seat Needed for the cold that first semiconductor refrigeration chip 1 of 34 conduction generates can be quickly transmitted to by heat pipe 2 to greatest extent The region wanted more effectively reduces energy consumption and improves refrigerating efficiency to reduce cold end heat-conducting seat 34 itself cold windage.Its In, the inner surface setting of the inner surface of the first heat-insulating bracket 31 and/or the second heat-insulating bracket 32 is fluted, is formed by groove Installation cavity is stated, such as：The first groove 311, first groove 311 are provided on the inner surface of first heat-insulating bracket 31 In offer the mounting hole 312 through first heat-insulating bracket 31, the inner surface of second heat-insulating bracket 32 is provided with Two grooves 321 form installation cavity between first groove 311 and second groove 321.

Preferably, the outer surface of the first heat-insulating bracket 31 is provided with heat dam 313 around the mounting hole 312, described heat-insulated It is provided with heat insulation foam in slot 313（It is unmarked）；The hot junction of first semiconductor refrigeration chip 1, which faces out, protrudes from described first The outer surface of heat-insulating bracket 31.Specifically, by heat dam 313 can the first semiconductor refrigeration chip 1 periphery setting every Hot cotton, the insulation ring to be formed by heat insulation foam further reduce the cold in the first semiconductor refrigeration chip 1 cold end face to It is outer to scatter and disappear, it is also possible to the heat for reducing 1 hot junction face of the first semiconductor refrigeration chip enters in installation cavity, maximum limit The loss of the reduction cold of degree；And 1 hot junction face of the first semiconductor refrigeration chip is slightly higher than the outer surface of the first heat-insulating bracket 31, one Aspect enables 1 hot junction face of the first semiconductor refrigeration chip and 33 good transmission of heat by contact of hot junction heat-conducting seat, on the other hand, the 1 hot junction emaciated face of semiconductor refrigerating chip separates out mounting hole 312, can reduce heat and be passed to installation cavity from mounting hole 312 In, it is possibility to have the loss of the reduction cold of effect.Wherein, it is connected for the ease of wiring, the appearance of the first heat-insulating bracket 31 Face is additionally provided with wiring groove 314, and the wiring groove 314 is connected to the mounting hole 312.In addition, according to the refrigeration of refrigeration equipment Amount need, semiconductor refrigerating module 200 include multiple first semiconductor refrigeration chips 1, the assembling module 3 configured with The corresponding hot junction heat-conducting seat 33 of first semiconductor refrigeration chip 1 and the cold end heat-conducting seat 34, also, described first Heat-insulating bracket 31 offers the mounting hole corresponding with first semiconductor refrigeration chip 1 312.

Further, it is generated between hot junction heat-conducting seat 33 and cold end heat-conducting seat 34 caused by assembling to more effectively reduce Heat transmit, evacuation notch 340, first heat-insulating bracket 31, second heat-insulating bracket are provided on cold end heat-conducting seat 34 32 and the hot junction heat-conducting seat 33 on be respectively arranged with through-hole（It is unmarked）, bolt 35 is threaded through in the corresponding through-hole, institute It states bolt 35 and is formed by region across the evacuation notch 340.Specifically, in an assembling process, by bolt 35 by hot junction Heat-conducting seat 33, the first heat-insulating bracket 31, cold end heat-conducting seat 34 and second heat-insulating bracket 32 assemble be fixed together successively, and Bolt 35 opens cold end heat-conducting seat 34 by avoiding the evacuation of notch 340, so as to avoid hot junction heat-conducting seat 33 and cold end heat-conducting seat Heat exchange is generated by bolt 35 between 34.Wherein, the inner surface of first heat-insulating bracket 31 is provided with described for installing The first tube seat 316 and the first tube seat 317 of heat pipe 2, the edge of second heat-insulating bracket 32 is provided with to be worn for the heat pipe 2 The notch or through hole 322 crossed or the second tube seat.Specifically, heat pipe 2 passes through the first tube seat 316 and the first tube seat 317 and perforation The cooperation of hole 322 is pierced by assembling module 3, to facilitate heat pipe 2 to be arranged on the heat conduction liner 100 of refrigeration equipment.In addition, for the ease of Quick location and installation hot junction heat-conducting seat 33, the outer surface of the first heat-insulating bracket 31 are provided with more around the outside of the mounting hole 312 Block positioning baffle 315, the hot junction heat-conducting seat 33 are arranged between the positioning baffle 315 described in polylith.In assembling, pass through positioning Baffle 315 can convenient location and installation hot junction heat-conducting seat 33, and ensure that hot junction heat-conducting seat 33 can accurately be led with the first half Body refrigerating chip 1 contacts well.

Further, the cold end heat-conducting seat 34 includes the first heat-conducting plate 341 and the second heat-conducting plate to link together 342, the heat pipe 2 is clipped between first heat-conducting plate 341 and second heat-conducting plate 342.Specifically, the first heat-conducting plate 341 inner surface offers the first mounting groove 3411 being laterally arranged, and the inner surface of second heat-conducting plate 342 offers longitudinal direction The second mounting groove 3421 being arranged, the heat pipe 2 divide for lateral flat hot pipe and longitudinally flattened heat pipe, the transverse direction flat hot pipe It is arranged in first mounting groove 3411, the longitudinally flattened heat pipe is arranged in second mounting groove 3421, also, institute Lateral flat hot pipe is stated to contact with each other with the longitudinally flattened heat pipe.Specifically, can effectively increase heat using flat hot pipe The contact area of pipe and cold end heat-conducting seat 34, meanwhile, flat hot pipe can also effectively increase connecing between heat conduction liner 100 Contacting surface is accumulated, and heat exchanger effectiveness is provided.Also, lateral flat hot pipe contacts with each other with the longitudinally flattened heat pipe so that different positions The heat pipe temperature at the place of setting is evenly distributed, and reduces the temperature difference and improves uniform temperature.

Cold end heat-conducting seat is installed by using the installation cavity formed between two heat-insulating brackets so that cold end heat-conducting seat With hot junction heat-conducting seat by heat-insulating bracket it is effective it is heat-insulated be spaced apart, so as to substantially reduce cold end heat-conducting seat and hot junction heat-conducting seat Between the heat exchange amount that generates, it is effective to reduce scattering and disappearing for cold, to improve the refrigerating efficiency of refrigeration equipment and reduce energy consumption.With This simultaneously, the first semiconductor refrigeration chip embedded in the first heat-insulating bracket mounting hole in, ensuring the first semiconductor refrigeration chip Cold end face and cold end heat-conducting seat while well contact, it is ensured that the hot junction face of the first semiconductor refrigeration chip and hot junction heat-conducting seat Good contact, it is ensured that heat Quick diffusing improves use reliability.

Two, it is described below for humidifying the specific constructive form of module 300：

Humidification module 300 includes that water box 4, humidification foam 41, upper cover 43 and wind turbine 42, the humidification foam 41 are located at the water box In 4, the covering of the upper cover 43 is provided with air inlet 432 and air outlet 431, institute on the top of the water box 4, the upper cover 43 It states wind turbine 42 and covers in the air inlet 432 or the air outlet 431, the setting of the water box 4 is in the heat conduction liner 100 formation Storing cavity in.Specifically, be contained with water in water box 4, wind turbine 42 can realize in water box 4 air draught or as needed to water It dries outside box 4, so that the humid air in water box 4 can be flowed into the storing cavity of the formation of heat conduction liner 100, with realization pair The storing cavity that heat conduction liner 100 is formed carries out humidification process, humidification foam 41 can increase enter air in water box 4 with The contact area of water, to improve humidification efficiency.

Further, the humidification module 300 further includes wind guiding component, and the wind guiding component includes case 44, wind deflector 45 and motor 46, the top of the case 44 be provided with ventilation opening 441, the wind deflector 45 is located in the ventilation opening 441 simultaneously It is rotatably mounted on the case 44, for driving the wind deflector 45 to rotate, the case 44 is arranged the motor 46 In the water box 4 and cover in the wind turbine 42.Specifically, in humidification, motor 46 can drive wind deflector 45 to put It is dynamic, it is evenly distributed in the storing cavity of heat conduction liner 100 with the humid air of control output, it is ensured that the storage of heat conduction liner 100 Object cavity moisture distribution is uniform.Wherein, the one end part of humidification foam 41 is in the lower section of the air inlet 432, other end position In the lower section of the air outlet 431, carried out in this way, the air entered in water box 4 from air inlet 432 will flow through humidification foam 41 It is discharged again from air outlet 431 after sufficient humidification process, improves humidification efficiency；And in order to avoid air inlet 432 and air outlet 431 It interferes with each other, the upper surface of upper cover 43 is additionally provided with the baffle 433 for being spaced apart air inlet 432 and air outlet 431.In addition, Module 300 is humidified for the ease of assembling, the both sides of case 44 are provided with cutting 442, are provided in the water box 4 and are inserted with described The slot 405 that item 442 coordinates, the cutting 442 are inserted in the slot 405.And for the ease of installation, the humidification module 300 further include the fixing bracket 402 being fixedly mounted in the heat conduction liner 100, and the water box 4 are detachably arranged in described On fixing bracket 402.

Further, partition 401 is provided in the water box 4, the water box are divided by the partition 401 mutually to be interconnected Logical main water chamber and secondary water chamber are provided with sterilization module 404 and/or water level sensor 403 in the pair water chamber.Specifically , sterilization module 404 can be ultraviolet sterilizer or ozone sterilizer, and sterilization processing is carried out to the water storage in water box 4 to realize, And water level sensor 403 can detect the water level in water box 4, to remind user's timely moisturizing under exsiccosis.

Three, the specific constructive form for the module 400 that dehumidifies is described below：

The module 400 that dehumidifies includes the second semiconductor refrigeration chip 5, trivet 51, hot-side heat dissipation device 52, cold end radiator 53, wind Road and blower fan 6, wherein air duct can have first shell 61 and second shell 62 assembled, and the trivet 51 is provided with Installation through-hole, second semiconductor refrigeration chip 5 are arranged in the installation through-hole, and the trivet 51 is arranged in the wind In road, the air duct is divided into dehumidifying cavity and heat-dissipating cavity by the trivet 51, is provided with described in connection on the air duct First wind of dehumidifying cavity recycles import（It is unmarked）With the first wind loop exit（It is unmarked）, connection is provided on the air duct The second wind cycle import 611 of the heat-dissipating cavity and the second wind loop exit（It is unmarked）, the cold end radiator 53 is located at In the dehumidifying cavity and stick on the cold end face of second semiconductor refrigeration chip 5, the hot-side heat dissipation device 52 and described Blower fan 6 is located in the heat-dissipating cavity, and the hot-side heat dissipation device 52 sticks on the hot junction of second semiconductor refrigeration chip 5 Face.Specifically, in dehumidification process, the second semiconductor refrigeration chip 5 is powered, and 5 cold end face of the second semiconductor refrigeration chip generates Cold by cold end radiator 53 to dehumidifying cavity freeze, dehumidifying cavity formed negative pressure from the first wind cycle import sucking Air in storage chamber body, after the air contact cold end radiator 53 in storage chamber body, moisture condense to the cold realize to air into Row dehumidification treatments.Preferably, the bottom of the cold end radiator 53 is provided with drip tray 54, specifically, on cold end radiator 53 The condensed water of formation is flowed under the effect of gravity in the drip tray 54 of bottom, and the bottom of drip tray 54 is connected with drainpipe, institute State the external realization discharge condensed water that the air duct is extend out to outside drainpipe.Wherein, cold end radiator 53 is heat-conducting plate, described to lead One surface of hot plate sticks on the cold end face of the second semiconductor refrigeration chip 5, on another surface on be provided with a plurality of be vertically arranged Radiating fin（It is unmarked）, radiating fin on the one hand can increase and the contact area of air, improves the efficiency of dehumidification by condensation, separately On the one hand, radiating fin, which is vertically arranged, can facilitate condensed water trickling on earth in the drip tray 54 in portion.Preferably, radiating fin Bottom is pyramidal structure, and the point of pyramidal structure may insure that condensing drip is fallen on and connect in this way towards the drip tray 54 of bottom Be collected in water pond 54, and the surface of radiating fin is provided with hydrophobic membrane, with improve condensed water cooling fin surfaces stream Dynamic speed avoids condensed water icing or frosting on radiating fin for a long time.

Wherein, humidification module 300, dehumidifying module 400 can be independently operated, and can also be used cooperatively, humidify module 300 and dehumidifying module 400 operation controlled by the humidity sensor being arranged in storage chamber body.For simultaneously using humidification module 300 and dehumidifying module 400 in the case of, the condensed water in drip tray 54 can be drained into water box 4 by drainpipe into enforcement With.

Finally it should be noted that：The above embodiments are merely illustrative of the technical solutions of the present invention, rather than its limitations；Although Present invention has been described in detail with reference to the aforementioned embodiments, it will be understood by those of ordinary skill in the art that：It still may be used With technical scheme described in the above embodiments is modified or equivalent replacement of some of the technical features； And these modifications or replacements, the spirit for the present invention embodiment technical solution that it does not separate the essence of the corresponding technical solution and Range.

Claims

1. a kind of solid-state refrigeration equipment, including heat conduction liner, which is characterized in that further include semiconductor refrigerating module and wet group of control Part；The semiconductor refrigerating module includes the first semiconductor refrigeration chip and heat pipe, and first semiconductor refrigeration chip includes The hot junction face in the cold end face and release heat of released cold quantity, which is characterized in that further include assembling module, the assembling module includes First heat-insulating bracket, the second heat-insulating bracket, hot junction heat-conducting seat and cold end heat-conducting seat, first heat-insulating bracket are fixed on described Installation cavity is formed on two heat-insulating brackets, between first heat-insulating bracket and second heat-insulating bracket, described first is heat-insulated Holder offers the mounting hole for being connected to the installation cavity, and first semiconductor refrigeration chip is located in the mounting hole, institute Cold end heat-conducting seat is stated to be arranged in the installation cavity and contact with the cold end face of first semiconductor refrigeration chip, the heat End heat-conducting seat is arranged on first heat-insulating bracket and is contacted with the hot junction face of first semiconductor refrigeration chip, the heat Pipe connects the cold end heat-conducting seat, and the heat pipe of the semiconductor refrigerating module is attached to the surface of the heat conduction liner；The control is wet The humidity that the storing cavity for being formed to the heat conduction liner is arranged in the heat conduction liner in component is adjusted.

2. solid-state refrigeration equipment according to claim 1, which is characterized in that the wet component of control includes humidification module, removes Wet module and humidity sensor, the humidity value that the humidification module is used to be detected according to the humidity sensor is in the heat conduction The storing cavity that courage is formed is humidified, and the humidity value that the dehumidifying module is used to be detected according to the humidity sensor is to described The storing cavity that heat conduction liner is formed dehumidifies.

3. solid-state refrigeration equipment according to claim 2, which is characterized in that the humidification module includes water box, humidification bubble Cotton, upper cover and wind turbine, the humidification foam are located in the water box, and the upper cover covers on the top of the water box, it is described on It covers and is provided with air inlet and air outlet, the wind turbine covers in the air inlet or the air outlet, and the water box setting exists In the heat conduction liner.

4. solid-state refrigeration equipment according to claim 3, which is characterized in that the dehumidifying module includes the second semiconductor system Cold core piece, trivet, hot-side heat dissipation device, cold end radiator, air duct and blower fan, the trivet are provided with installation through-hole, institute It states the second semiconductor refrigeration chip to be arranged in the installation through-hole, the trivet is arranged in the air duct, described heat-insulated The air duct is divided into dehumidifying cavity and heat-dissipating cavity by frame, and first that the connection dehumidifying cavity is provided on the air duct follows Ring air port, the second circulation air port for being connected to the heat-dissipating cavity is provided on the air duct, and the cold end radiator is located at described In dehumidifying cavity and stick on the cold end face of second semiconductor refrigeration chip, the hot-side heat dissipation device and the blower fan position In the heat-dissipating cavity, the hot-side heat dissipation device sticks on the hot junction face of second semiconductor refrigeration chip.

5. solid-state refrigeration equipment according to claim 4, which is characterized in that the bottom of the cold end radiator, which is provided with, to be connect Water pond, the drip tray are connect by drainpipe with the water box.

6. solid-state refrigeration equipment according to claim 1, which is characterized in that the outer surface of first heat-insulating bracket is around institute It states mounting hole and is provided with heat dam, heat insulation foam is provided in the heat dam；The hot junction face of first semiconductor refrigeration chip It outwardly protrudes in the outer surface of first heat-insulating bracket.

7. solid-state refrigeration equipment according to claim 1, which is characterized in that be provided with evacuation on the cold end heat-conducting seat and lack Mouthful, it is respectively arranged with through-hole on first heat-insulating bracket, second heat-insulating bracket and the hot junction heat-conducting seat, bolt is worn In the corresponding through-hole, the bolt is formed by region across the evacuation notch.

8. solid-state refrigeration equipment according to claim 1, which is characterized in that the cold end heat-conducting seat includes linking together The first heat-conducting plate and the second heat-conducting plate, the heat pipe is clipped between first heat-conducting plate and second heat-conducting plate.

9. solid-state refrigeration equipment according to claim 8, which is characterized in that the inner surface of first heat-conducting plate offers The inner surface of the first mounting groove being laterally arranged, second heat-conducting plate offers the second longitudinally disposed mounting groove, the heat Pipe is divided into lateral flat hot pipe and longitudinally flattened heat pipe, and the transverse direction flat hot pipe is arranged in first mounting groove, described Longitudinally flattened heat pipe is arranged in second mounting groove, also, the lateral flat hot pipe and the longitudinally flattened heat pipe phase Mutually contact.

10. solid-state refrigeration equipment according to claim 1, which is characterized in that the inner surface of first heat-insulating bracket is set It is equipped with the first tube seat for installing the heat pipe, the edge of second heat-insulating bracket is provided with to be passed through for the heat pipe Notch or through hole or the second tube seat.