CN204693927U - Refrigerator - Google Patents

Abstract

The utility model provides a kind of refrigerator.This refrigerator comprises: main part, and it has room between at least one storing and is configured to room between at least one storing to main part provides the first refrigerating plant of cold; And detachable part, it has room between at least one storing and is configured to room between at least one storing to detachable part provides the second refrigerating plant of cold; And detachable part is removably installed in main part.Refrigerator of the present utility model is because detachable part is removably installed in main part, and detachable part can be deposited easily when not taking out of use, and between the storing of detachable part, room also can be used for storing articles, significantly improves the capacity of refrigerator.In addition, detachable part is before being taken out of, and between its storing, room can be in using state always, and temperature is lower, and user can directly carry detachable part and go out, and does not need initiatively to be freezed in advance.

Description

Refrigerator

Technical field

The utility model relates to refrigerating device, particularly relates to a kind of refrigerator.

Background technology

Along with the raising of people's living standard, also more and more higher to the requirement of quality of life, no matter which is sitting in, walks at which, want to order ice drink or other fresh food, if having refrigerator is at one's side then left nothing to be desired.But refrigerator existing at present, be mostly adopt traditional Compressing Refrigeration to realize refrigerating function, bulky, inconvenience goes out to portably use.Although market also exists some to hold portative small electrical refrigerator, existing small electrical refrigerator is not when going out, and major part is in idle state, and also needs to provide special region to deposit, inconvenience very.In addition, before the use, the temperature in it is environment temperature to existing small refrigerator, and temperature is higher, and could use after needing the temperature in it to reduce, user operation is cumbersome.

Utility model content

An object of the present utility model is intended at least one defect overcoming current refrigerator, provides a kind of refrigerator of novelty, and it has the detachable part be convenient to user and carried, and this detachable part user not the used time deposit convenient especially.

A further object of the present utility model improves the convenience of user operation.

In order to realize at least one object above-mentioned, the utility model provides a kind of refrigerator, comprising:

Main part, it has room between at least one storing and is configured to room between at least one storing to described main part provides the first refrigerating plant of cold; With

Detachable part, it has room between at least one storing and is configured to room between at least one storing to described detachable part provides the second refrigerating plant of cold; And

Described detachable part is removably installed in described main part.

Alternatively, described detachable part is arranged such that relative to described main part: described detachable part is electrically connected with described main part when being installed on described main part, to receive the electric energy that described main part provides, and receive the control signal that described main part sends to described second refrigerating plant.

Alternatively, between at least one storing of described main part, room comprises:

Room between the first storing, is arranged at the bottom of described main part;

Room between the second storing, to be arranged between described first storing above room; With

Interval and room between concordant two the 3rd storings in the horizontal, is arranged at the top of the transverse ends of room between described second storing respectively; And

Described main part also has the spatial accommodation between two described 3rd storings between room, to hold described detachable part.

Alternatively, described main part also has horizontal interval portion, is configured to room and described spatial accommodation between spaced apart described second storing, and the upper surface in described horizontal interval portion offers two chutes extended along the longitudinal direction;

The bottom of described detachable part has two guide rails extended along the longitudinal direction, is configured to respectively slide in a described chute, operationally extracts out forward in the horizontal direction to make described detachable part and inserts described spatial accommodation backward.

Alternatively, described main part also has the rear wall parts on the rear border for limiting described spatial accommodation, and its underpart is provided with the first electrical connector protruding from forward described rear wall parts;

The rear surface of described detachable part has groove, is provided with the second electrical connector in described groove; And

Described first electrical connector is configured to insert in described groove, and is electrically connected with described second electrical connector being positioned at described groove, is electrically connected when being installed on described main part to make described detachable part with described main part.

Alternatively, described first refrigerating plant is vapor compression refrigeration device, its evaporator arrangement become to described main part at least one storing between room cold is provided;

Described second refrigerating plant comprises semiconductor subassembly, and described semiconductor subassembly has one or more semiconductor chilling plate, and the cold junction of described semiconductor subassembly is configured to described detachable part between at least one storing, and room provides cold.

Alternatively, described detachable part also comprises inner bag, room between at least one storing being limited with described detachable part in it, and described semiconductor subassembly is arranged at the rear of described inner bag; And

Described second refrigerating plant also comprises:

Cold junction heat exchange box, the cold junction of its rear surface and described semiconductor subassembly thermally coupled at least partly, described cold junction heat exchange box is limited with the inner chamber for being installed in working medium, and is configured to allow working medium to undergo phase transition heat exchange in the inner chamber of described cold junction heat exchange box; With

At least one first passes cold pipeline, described in every root, first passes cold pipeline and is formed as the inner chamber that the first end of openend and the second end are all communicated to described cold junction heat exchange box, and first pass cold pipeline and bend inclined downward from its first end and the second end respectively and extend to common extreme lower position described in every root, and first pass being connected with the outer surface heat of described inner bag at least partially of cold pipeline described in every root.

Alternatively, described second refrigerating plant also comprises:

Another cold junction heat exchange box, the remainder of the cold junction of its rear surface and described semiconductor subassembly is thermally coupled; With

At least one second passes cold pipeline, described in every root, second passes cold pipeline and is formed as the inner chamber that the first end of openend and the second end are all communicated to another cold junction heat exchange box described, and second pass cold pipeline and be tilted to Shangdi bending from its first end and the second end respectively and extend to common extreme higher position described in every root, and second pass being connected with the outer surface heat of described inner bag at least partially of cold pipeline described in every root.

Alternatively, described detachable part also comprises housing, is arranged at the outside of described inner bag; And

Described second refrigerating plant also comprises:

Hot junction heat exchange box, the hot junction of its front surface and described semiconductor subassembly is thermally coupled, and described hot junction heat exchange box is limited with the inner chamber for being installed in working medium, and is configured to allow working medium to undergo phase transition heat exchange in the inner chamber of described hot junction heat exchange box; With

At least one first heat dissipation pipeline, first heat dissipation pipeline described in every root is formed as the inner chamber that the first end of openend and the second end are all communicated to described hot junction heat exchange box, and the first heat dissipation pipeline described in every root is tilted to Shangdi bending from its first end and the second end respectively extends to respective extreme higher position, after opposite to each other bending extend to the centre position of this first heat dissipation pipeline, and the first heat dissipation pipeline described in every root is thermally coupled with the inner surface of described housing at least partially.

Alternatively, described second refrigerating plant also comprises:

Many second heat dissipation pipelines, the first end that second heat dissipation pipeline described in every root is formed as openend is communicated to the inner chamber of described hot junction heat exchange box, described in every root, the second heat dissipation pipeline up bends extension from its first end, ends in respective the second end being formed as blind end;

Radiating fin group, is installed on the top of described many second heat dissipation pipelines; With

Cooling fan, the heat be configured to reaching described radiating fin group from described many second heat dissipation pipelines carries out forced convertion heat radiation.

Refrigerator of the present utility model is because detachable part is removably installed in main part, and detachable part can be deposited easily when not taking out of use, and between the storing of detachable part, room also can be used for storing articles, significantly improves the capacity of refrigerator.In addition, detachable part is before being taken out of, and between its storing, room can be in using state always, and temperature is lower, and user can directly carry detachable part and go out, and does not need initiatively to be freezed in advance.

Further, because in refrigerator of the present utility model, detachable part can be controlled by main part after being installed on main part, do not need user to operate main part and detachable part respectively, significantly improve the convenience of user operation.

Further, because detachable part in refrigerator of the present utility model adopts semiconductor chilling plate to freeze, the volume of detachable part is significantly reduced.

According to hereafter by reference to the accompanying drawings to the detailed description of the utility model specific embodiment, those skilled in the art will understand above-mentioned and other objects, advantage and feature of the present utility model more.

Accompanying drawing explanation

Hereinafter describe specific embodiments more of the present utility model with reference to the accompanying drawings by way of example, and not by way of limitation in detail.Reference numeral identical in accompanying drawing denotes same or similar parts or part.It should be appreciated by those skilled in the art that these accompanying drawings may not be drawn in proportion.In accompanying drawing:

Fig. 1 is the schematic diagram of the refrigerator according to the utility model embodiment;

Fig. 2 is the schematic diagram of main part in the refrigerator according to the utility model embodiment;

Fig. 3 is the schematic diagram of detachable part in the refrigerator according to the utility model embodiment;

Fig. 4 is the schematic explosive view of detachable part in the refrigerator according to the utility model embodiment;

Fig. 5 is the schematic diagram of the second refrigerating plant in the refrigerator according to the utility model embodiment.

Detailed description of the invention

Fig. 1 is the schematic diagram of the refrigerator 100 according to the utility model embodiment.As shown in Figure 1, the utility model embodiment provides a kind of refrigerator 100.Refrigerator 100 can comprise main part 10 and detachable part 20.Particularly, main part 10 can have room between at least one storing and be configured to room between at least one storing to main part 10 provides the first refrigerating plant of cold.First refrigerating plant can be vapor compression refrigeration device, its evaporator arrangement become to main part 10 at least one storing between room cold is provided.Detachable part 20 also has room between at least one storing and is configured to room between at least one storing to detachable part 20 provides the second refrigerating plant 23 of cold.Second refrigerating plant 23 comprises semiconductor subassembly 231, to reduce the volume of detachable part 20.Semiconductor subassembly 231 can have one or more semiconductor chilling plate, outwards transmit the hot junction of the cold junction of cold and outside transferring heat.The cold junction of this semiconductor subassembly 231 is configured to room between at least one storing to detachable part 20 and provides cold.

Especially, detachable part 20 is removably installed in main part 10, detachable part 20 is taken off from main part 10 when going out to allow user, thus carries detachable part 20 and go out.Further, detachable part 20, when not needing to carry detachable part 20, can be installed on main part 10 by user, the parking space not only not outside occupying volume, and room between the storing that can utilize detachable part 20.

Fig. 2 is the schematic diagram of main part 10 in the refrigerator 100 according to the utility model embodiment.As shown in Figure 2, between at least one storing of main part 10, room can to comprise between room between the first storing, the second storing room between room and two the 3rd storings.Between the first storing, room can be refrigerating chamber, is arranged at the bottom of main part 10.Between the second storing, room can be quick-frozen room, to be arranged between the first storing above room.Between each 3rd storing, room can be refrigerating chamber, and between two the 3rd storings, interval and concordant in the horizontal, room, can be arranged at the top of the transverse ends of room between the second storing respectively.

In embodiments more of the present utility model, between two the 3rd storings that detachable part 20 can be arranged on main part 10 between room.That is, the main part 10 of the utility model embodiment refrigerator 100 also has the spatial accommodation 11 between two the 3rd storings between room, to hold detachable part 20.Particularly, main part 10 can have the vertical spacing portion of 12, two, horizontal interval portion and rear wall parts 13 that limit spatial accommodation 11.This horizontal interval portion 12 is configured to room and spatial accommodation 11 between spaced apart second storing.Two vertical spacing portions are configured to room and spatial accommodation 11 between spaced apart 3rd storing respectively.Rear wall parts 13 connects the rear end in two vertical spacing portions, is disposed for the rear border limiting spatial accommodation 11.This spatial accommodation 11 can allow detachable part 20 from the front of main part 10 and top from departing from it or entering in it.

Fig. 3 is the schematic diagram of detachable part in the refrigerator according to the utility model embodiment; Fig. 4 is the schematic explosive view of detachable part 20 in the refrigerator 100 according to the utility model embodiment.As shown in Figure 3 and Figure 4, the detachable part 20 of the utility model embodiment refrigerator 100 also comprises inner bag 21 and housing 22.Room between at least one storing being limited with detachable part 20 in the inner bag 21 of detachable part 20.In the embodiment shown in fig. 4, detachable part 20 only can have room between a storing, and between this storing, room can be refrigerating chamber, to reduce the volume of detachable part 20, is easy to carry.The housing 22 of detachable part 20 comprises U shell 221 and backboard 222, can be arranged at the outside of inner bag 21.In the utility model embodiment, detachable part 20 is being installed on after on main part 10, cold is just supplied to refrigerating chamber, quick-frozen room and part refrigerating chamber by main part 10, the cold of the refrigerating chamber in detachable part 20 can be provided by semiconductor subassembly 231, the refrigerating capacity that this refrigerator 100 can be made to need compressor to provide reduces, corresponding compressor volume is more miniaturized, and noise reduces.

In embodiments more of the present utility model, the upper surface in the horizontal interval portion 12 of main part 10 offers two chutes extended along the longitudinal direction.The bottom of detachable part 20 has two guide rails extended along the longitudinal direction, is configured to respectively slide in a chute, operationally extracts out forward in the horizontal direction to make detachable part 20 and inserts spatial accommodation 11 backward.

In embodiments more of the present utility model, the top of detachable part 20 is also provided with handle 25, so that carry detachable part 20.

Fig. 5 is the schematic diagram of the second refrigerating plant 23 in the refrigerator 100 according to the utility model embodiment.As shown in Figure 5, the semiconductor subassembly 231 of the second refrigerating plant 23 of detachable part 20 can be arranged at the rear of inner bag 21.

In certain embodiments, the second refrigerating plant 23 also can comprise cold junction heat exchange box 232 and at least one first cold pipeline 233 of biography.The rear surface of cold junction heat exchange box 232 and the cold junction of semiconductor subassembly 231 thermally coupled at least partly.Cold junction heat exchange box 232 is limited with the inner chamber for being installed in working medium, and is configured to allow working medium to undergo phase transition heat exchange in the inner chamber of cold junction heat exchange box 232.Every root first passes cold pipeline 233 and is formed as the inner chamber that the first end of openend and the second end are all communicated to cold junction heat exchange box 232, and every root first passes cold pipeline 233 bends inclined downward from its first end and the second end respectively and extend to common extreme lower position.And every root first passes being connected with the outer surface heat of inner bag 21 at least partially of cold pipeline 233, room between at least one storing being passed to detachable part 20 with the cold of the cold junction by semiconductor subassembly 231.Such as, every root first pass cold pipeline 233 at least partially with the exterior surface of inner bag 21 against.

In order to improve refrigerating efficiency, the second refrigerating plant 23 also can comprise another cold junction heat exchange box and at least one second cold pipeline 234 of biography.The remainder of the rear surface of another cold junction heat exchange box and the cold junction of semiconductor subassembly 231 is thermally coupled.Every root second passes cold pipeline 234 and is formed as the inner chamber that the first end of openend and the second end are all communicated to another cold junction heat exchange box, and every root second passes cold pipeline 234 is tilted to Shangdi bending from its first end and the second end respectively and extends to common extreme higher position, and every root second passes being connected with the outer surface heat of inner bag 21 at least partially of cold pipeline 234.Such as, every root second pass cold pipeline 234 at least partially with the exterior surface of inner bag 21 against.In some alternate embodiment, every root second passes cold pipeline 234 and is formed as the inner chamber that the first end of openend and the second end are all communicated to cold junction heat exchange box 232, and every root second passes cold pipeline 234 is tilted to Shangdi bending from its first end and the second end respectively and extends to common extreme higher position, and every root second passes being connected with the outer surface heat of inner bag 21 at least partially of cold pipeline 234.That is, in this embodiment, a cold junction heat exchange box 232 in the second refrigerating plant 23, can be only had.

In embodiments more of the present utility model, each cold junction heat exchange box is flat rectangular body shape, and the antetheca be oppositely arranged of each cold junction heat exchange box and the area of rear wall are greater than the area in other faces, and the outer surface of described rear wall is used as heat-transfer surface hot linked with low-temperature receiver.Particularly, the latter half of the rear wall outer surface of cold junction heat exchange box 232 and the cold junction of semiconductor subassembly 231 contacts against; The first half of the rear wall outer surface of another cold junction heat exchange box and the cold junction of semiconductor subassembly 231 contacts against.Cold junction heat exchange box 232 and another cold junction heat exchange box also can be packaged into one.

In embodiments more of the present utility model, every root first passes cold pipeline 233 and can comprise: two connect pipeline sections, respectively with the inner space of cold junction heat exchange box 232 and to extend to cold junction heat exchange box 232 outside; Two the first sections, connect pipeline section respectively and to connect and in the plane parallel with the antetheca of cold junction heat exchange box 232 laterally and extend inclined downward with one; With two the second sections, respectively from first section forward and be bent to two sidewall outside wall surface of inner bag 21 inclined downward, and continue to bend extension inclined downward in corresponding sidewall outer; And the 3rd section, be connected to the lower end of two the second sections, and with the rear wall exterior surface of inner bag 21 against.Further, each second section that every root first passes cold pipeline 233 can comprise: multiple straight length, and each straight length is arranged with the angular slope with respect to the horizontal plane in 10 ° to 70 °; With bending pipeline section, connect every two adjacent straight pipeline sections.The structure that every root second passes cold pipeline 234 is identical with the structure that every root first passes cold pipeline 233, and difference is only length and overbending direction.The cold pipeline 233 of first biography and the cold pipeline 234 of the second biography can make the second refrigerating plant 23 cover be buckled in inner bag 21.

For the ease of the heat radiation in semiconductor subassembly 231 hot junction, the second refrigerating plant 23 also comprises hot junction heat exchange box 235 and at least one first heat dissipation pipeline 236.The front surface of hot junction heat exchange box 235 and the hot junction of semiconductor subassembly 231 thermally coupled.Hot junction heat exchange box 235 is limited with the inner chamber for being installed in working medium, and is configured to allow working medium to undergo phase transition heat exchange in the inner chamber of hot junction heat exchange box 235.Every root first heat dissipation pipeline 236 is formed as the inner chamber that the first end of openend and the second end are all communicated to hot junction heat exchange box 235, and every root first heat dissipation pipeline 236 is tilted to Shangdi bending from its first end and the second end respectively extends to respective extreme higher position, after opposite to each other bending extend to the centre position of this first heat dissipation pipeline 236.And every root first heat dissipation pipeline 236 is thermally coupled with the inner surface of housing 22 at least partially.Particularly, the contacting against with the backboard 222 of housing 22 at least partially of every root first heat dissipation pipeline 236.

In certain embodiments, hot junction heat exchange box 235 also can be flat rectangular body shape, and the antetheca be oppositely arranged of hot junction heat exchange box 235 and the area of rear wall are greater than the area in other faces, and the outer surface of described antetheca is used as heat-transfer surface hot linked with thermal source.Such as, the antetheca outer surface of hot junction heat exchange box 235 and the hot junction of semiconductor subassembly 231 contact against.Every root first heat dissipation pipeline 236 can comprise: two connect pipeline sections, respectively with the inner space of hot junction heat exchange box 235 and upwards and extand rearward to the front surface that hot junction heat exchange box 235 outside is resisted against backboard 222; Two the first sections, connect pipeline section extension straight up on the front surface of backboard 222 from one respectively; With the second section, the front surface of backboard 222 extends to from the upper end bending of first section upper end of another the first section.Further, the second section of every root first heat dissipation pipeline 236 can comprise: multiple straight length, and each straight length is arranged with the angular slope with respect to the horizontal plane in 50 ° to 80 °; With bending pipeline section, connect every two adjacent straight pipeline sections.

In certain embodiments, because the total length of the first heat dissipation pipeline 236 is less than the total length of the cold pipeline of the first biography 233 and the cold pipeline 234 of the second biography, in order to improve radiating efficiency, the diameter of the first radiating tube 236 should be greater than the diameter of the cold pipeline of the first biography 233 and the cold pipeline 234 of the second biography.In certain embodiments, working medium in every root first heat dissipation pipeline 236 can from first to pass cold pipeline 233 different with the second working medium passed in cold pipeline 234, to select the working medium being more applicable to heat radiation, the first working medium passed in cold pipeline 233 and the cold pipeline 234 of the second biography is then selected more to be applicable to carrying out passing cold working medium.Such as, the first working medium passed in cold pipeline 233 and the cold pipeline 234 of the second biography can be cold-producing medium, as carbon dioxide.Working medium in first heat dissipation pipeline 236 can be water or cold-producing medium.

In order to the radiating efficiency in the hot junction making semiconductor subassembly 231 controllably changes, the second refrigerating plant 23 also comprises many second heat dissipation pipelines 237, radiating fin group 238 and cooling fans 239.The first end that every root second heat dissipation pipeline 237 is formed as openend is communicated to the inner chamber of hot junction heat exchange box 235, and every root second heat dissipation pipeline 237 up bends extension from its first end, ends in respective the second end being formed as blind end.Radiating fin group 238 is installed on the top of many second heat dissipation pipelines 237.The quantity of cooling fan 239 can be one or more, and the heat be configured to reaching radiating fin group 238 from many second heat dissipation pipelines 237 carries out forced convertion heat radiation.The detachable part 20 of the refrigerator 100 of the utility model embodiment changes the refrigeration of semiconductor subassembly 231 by the rotating speed controlling cooling fan 239.In certain embodiments, every root second heat dissipation pipeline 237 can comprise: connect pipeline section, respectively with the inner space of hot junction heat exchange box 235 and upwards and extand rearward to the outside of hot junction heat exchange box 235; Vertical section, extends to its end straight up from the upper end connecting pipeline section.The vertical section of many second heat dissipation pipelines 237 can be in same being parallel in the plane of inner bag rear wall.The diameter of every root second heat dissipation pipeline 237 can be less than the diameter of every root first heat dissipation pipeline 236, effectively can utilize the space between inner bag rear wall and the back of shell.

In order to improve the convenience of user operation, in embodiments more of the present utility model, the detachable part 20 of refrigerator 100 is arranged such that relative to main part 10: this detachable part 20 is electrically connected with main part 10 when being installed on main part 10, to receive the electric energy that main part 10 provides, and receive the control signal that main part 10 sends to the second refrigerating plant 23.That is, user is not when needing to carry detachable part 20, detachable part 20 can be installed on main part 10, and utilize main part 10 to control detachable part 20, can prevent the user when detachable part 20 is installed on main part 10 from needing all to operate main part 10 and detachable part 20.

Particularly, as shown in Figure 3, the rear surface of detachable part 20 has groove 24, is provided with the second electrical connector in groove 24.The bottom of the rear wall parts 13 of main part 10 is provided with the first electrical connector 14 protruding from forward rear wall parts 13.First electrical connector 14 is configured to insert in groove 24, and be electrically connected with the second electrical connector being positioned at groove 24, be electrically connected with main part 10 when being installed on main part 10 to make detachable part 20, to allow main part 10 to provide electric energy to detachable part 20, and send control signal to the second refrigerating plant 23.

In embodiments more of the present utility model, the detachable part 20 of refrigerator 100 can be configured to: after disengaging main part 10, send control signal to the second refrigerating plant 23, can work on after disengaging main part 10 to make detachable part 20.Further, this detachable part 20 also comprises battery 26, to make this detachable part 20 after disengaging main part 10, makes battery 26 provide electric energy to the second refrigerating plant 23.Preferably, this detachable part 20 after disengaging main part 10, and when being electrically connected with external power source (such as vehicle power), can receive the electric energy that external power source provides, and battery 26 is suspended provide electric energy to the second refrigerating plant 23, to extend the service time of detachable part 20.The second electrical connector being positioned at groove 24 can be electrically connected with external power source, during to judge in detachable part 20 to obtain the second electrical connector having power supply input, battery 26 is suspended and provides electric energy to the second refrigerating plant 23.

In embodiments more of the present utility model, this detachable part 20 is after disengaging main part 10, and when being electrically connected with external power source, detachable part 20 can be made to enter refrigerating state, that is to reduce temperature indoor between each storing of detachable part 20 as much as possible.Particularly, when detachable part 20 has detected that external power source accesses, improve the radiating rate in the hot junction of semiconductor subassembly 231, temperature indoor between each storing of detachable part 20 can be made low as much as possible, such as make cooling fan 239 accelerate to rotate, improve the radiating rate in the hot junction of semiconductor subassembly 231.Meanwhile, detachable part 20 also can make external power source charge to battery 26, to extend the service time of battery 26.

So far, those skilled in the art will recognize that, although multiple exemplary embodiment of the present utility model is illustrate and described herein detailed, but, when not departing from the utility model spirit and scope, still can directly determine or derive other modification many or amendment of meeting the utility model principle according to content disclosed in the utility model.Therefore, scope of the present utility model should be understood and regard as and cover all these other modification or amendments.

Claims (10)

1. a refrigerator, is characterized in that comprising:

Main part, it has room between at least one storing and is configured to room between at least one storing to described main part provides the first refrigerating plant of cold; With

Detachable part, it has room between at least one storing and is configured to room between at least one storing to described detachable part provides the second refrigerating plant of cold; And

Described detachable part is removably installed in described main part.

2. refrigerator according to claim 1, is characterized in that

Described detachable part is arranged such that relative to described main part: described detachable part is electrically connected with described main part when being installed on described main part, to receive the electric energy that described main part provides, and receive the control signal that described main part sends to described second refrigerating plant.

3. refrigerator according to claim 2, is characterized in that, between at least one storing of described main part, room comprises:

Room between the first storing, is arranged at the bottom of described main part;

Room between the second storing, to be arranged between described first storing above room; With

Interval and room between concordant two the 3rd storings in the horizontal, is arranged at the top of the transverse ends of room between described second storing respectively; And

Described main part also has the spatial accommodation between two described 3rd storings between room, to hold described detachable part.

4. refrigerator according to claim 3, is characterized in that

Described main part also has horizontal interval portion, is configured to room and described spatial accommodation between spaced apart described second storing, and the upper surface in described horizontal interval portion offers two chutes extended along the longitudinal direction;

The bottom of described detachable part has two guide rails extended along the longitudinal direction, is configured to respectively slide in a described chute, operationally extracts out forward in the horizontal direction to make described detachable part and inserts described spatial accommodation backward.

5. refrigerator according to claim 4, is characterized in that

Described main part also has the rear wall parts on the rear border for limiting described spatial accommodation, and its underpart is provided with the first electrical connector protruding from forward described rear wall parts;

The rear surface of described detachable part has groove, is provided with the second electrical connector in described groove; And

Described first electrical connector is configured to insert in described groove, and is electrically connected with described second electrical connector being positioned at described groove, is electrically connected when being installed on described main part to make described detachable part with described main part.

6. refrigerator according to claim 1, is characterized in that

Described first refrigerating plant is vapor compression refrigeration device, its evaporator arrangement become to described main part at least one storing between room cold is provided;

Described second refrigerating plant comprises semiconductor subassembly, and described semiconductor subassembly has one or more semiconductor chilling plate, and the cold junction of described semiconductor subassembly is configured to described detachable part between at least one storing, and room provides cold.

7. refrigerator according to claim 6, is characterized in that

Described detachable part also comprises inner bag, room between at least one storing being limited with described detachable part in it, and described semiconductor subassembly is arranged at the rear of described inner bag; And

Described second refrigerating plant also comprises:

Cold junction heat exchange box, the cold junction of its rear surface and described semiconductor subassembly thermally coupled at least partly, described cold junction heat exchange box is limited with the inner chamber for being installed in working medium, and is configured to allow working medium to undergo phase transition heat exchange in the inner chamber of described cold junction heat exchange box; With

At least one first passes cold pipeline, described in every root, first passes cold pipeline and is formed as the inner chamber that the first end of openend and the second end are all communicated to described cold junction heat exchange box, and first pass cold pipeline and bend inclined downward from its first end and the second end respectively and extend to common extreme lower position described in every root, and first pass being connected with the outer surface heat of described inner bag at least partially of cold pipeline described in every root.

8. refrigerator according to claim 7, is characterized in that, described second refrigerating plant also comprises:

Another cold junction heat exchange box, the remainder of the cold junction of its rear surface and described semiconductor subassembly is thermally coupled; With

At least one second passes cold pipeline, described in every root, second passes cold pipeline and is formed as the inner chamber that the first end of openend and the second end are all communicated to another cold junction heat exchange box described, and second pass cold pipeline and be tilted to Shangdi bending from its first end and the second end respectively and extend to common extreme higher position described in every root, and second pass being connected with the outer surface heat of described inner bag at least partially of cold pipeline described in every root.

9. refrigerator according to claim 7, is characterized in that

Described detachable part also comprises housing, is arranged at the outside of described inner bag; And

Described second refrigerating plant also comprises:

Hot junction heat exchange box, the hot junction of its front surface and described semiconductor subassembly is thermally coupled, and described hot junction heat exchange box is limited with the inner chamber for being installed in working medium, and is configured to allow working medium to undergo phase transition heat exchange in the inner chamber of described hot junction heat exchange box; With

At least one first heat dissipation pipeline, first heat dissipation pipeline described in every root is formed as the inner chamber that the first end of openend and the second end are all communicated to described hot junction heat exchange box, and the first heat dissipation pipeline described in every root is tilted to Shangdi bending from its first end and the second end respectively extends to respective extreme higher position, after opposite to each other bending extend to the centre position of this first heat dissipation pipeline, and the first heat dissipation pipeline described in every root is thermally coupled with the inner surface of described housing at least partially.

10. refrigerator according to claim 9, is characterized in that, described second refrigerating plant also comprises:

Many second heat dissipation pipelines, the first end that second heat dissipation pipeline described in every root is formed as openend is communicated to the inner chamber of described hot junction heat exchange box, described in every root, the second heat dissipation pipeline up bends extension from its first end, ends in respective the second end being formed as blind end;

Radiating fin group, is installed on the top of described many second heat dissipation pipelines; With

Cooling fan, the heat be configured to reaching described radiating fin group from described many second heat dissipation pipelines carries out forced convertion heat radiation.