CN219810092U - Refrigerator - Google Patents

Refrigerator Download PDF

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Publication number
CN219810092U
CN219810092U CN202320471699.4U CN202320471699U CN219810092U CN 219810092 U CN219810092 U CN 219810092U CN 202320471699 U CN202320471699 U CN 202320471699U CN 219810092 U CN219810092 U CN 219810092U
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CN
China
Prior art keywords
evaporator
air
bin
return
air supply
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CN202320471699.4U
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Chinese (zh)
Inventor
牟宇
王瑞
李大伟
张书锋
徐磊
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Qingdao Haier Special Refrigerator Co Ltd
Haier Smart Home Co Ltd
Original Assignee
Qingdao Haier Special Refrigerator Co Ltd
Haier Smart Home Co Ltd
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Application filed by Qingdao Haier Special Refrigerator Co Ltd, Haier Smart Home Co Ltd filed Critical Qingdao Haier Special Refrigerator Co Ltd
Priority to CN202320471699.4U priority Critical patent/CN219810092U/en
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Publication of CN219810092U publication Critical patent/CN219810092U/en
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Abstract

The utility model relates to the technical field of low-temperature storage and discloses a refrigerator, which comprises a box body, a first evaporator bin, a first evaporator, a second evaporator bin and a second evaporator, wherein the box body comprises a shell and an inner container, and the inner container encloses and defines a storage space; the first evaporator bin is arranged in the storage space and is close to the first side wall of the inner container; the first evaporator is arranged in the first evaporator bin; the second evaporator bin is arranged in the storage space and is close to the first side wall of the inner container; the second evaporator is arranged in the second evaporator bin, and the second evaporator and the first evaporator are connected in series or in parallel. The refrigerator disclosed by the utility model can enable the refrigerant pipes of the two evaporators to be easily connected.

Description

Refrigerator
Technical Field
The utility model relates to the technical field of low-temperature storage, for example to a refrigerator.
Background
For a refrigerator with larger capacity, the evaporator needs to have a larger heat exchange area to improve the refrigerating capacity of the refrigerator, but is limited by the length and width of the refrigerator, and the size of a single evaporator is difficult to meet the refrigerating requirement of the refrigerator.
The related art discloses a freezer, including refrigerator door body and freezer box, the freezer door body sets up at the freezer top, can upwards open, and the freezer box has lateral wall and diapire, and the lateral wall includes: the first side wall is recessed inwards from the lower part to form a compressor bin step; the second side wall is arranged opposite to the first side wall; a first evaporation cavity is vertically arranged on a compressor bin step on the first side wall, and an air supply duct is arranged on the first evaporation cavity; a second evaporation cavity is vertically arranged on the second side wall, and an air supply duct is arranged on the second evaporation cavity. The refrigerator is provided with the evaporators respectively through the first side wall and the second side wall which are opposite in the refrigerator body, so that the refrigerating capacity of the refrigerator is improved.
In the process of implementing the embodiments of the present disclosure, it is found that at least the following problems exist in the related art:
the two evaporators are arranged on two opposite side walls of the box body, and the distance is long, so that the connection of refrigerant pipes of the two evaporators is difficult, and the distribution of the refrigerant and the control of refrigeration are not facilitated.
It should be noted that the information disclosed in the above background section is only for enhancing understanding of the background of the utility model and thus may include information that does not form the prior art that is already known to those of ordinary skill in the art.
Disclosure of Invention
The following presents a simplified summary in order to provide a basic understanding of some aspects of the disclosed embodiments. This summary is not an extensive overview, and is intended to neither identify key/critical elements nor delineate the scope of such embodiments, but is intended as a prelude to the more detailed description that follows.
The embodiment of the disclosure provides a refrigerator, so that refrigerant pipes of two evaporators are easy to connect.
In some embodiments, the refrigerator comprises a box body, a first evaporator bin, a first evaporator, a second evaporator bin and a second evaporator, wherein the box body comprises a shell and a liner, and the liner encloses a storage space; the first evaporator bin is arranged in the storage space and is close to the first side wall of the inner container; the first evaporator is arranged in the first evaporator bin; the second evaporator bin is arranged in the storage space and is close to the first evaporator bin; the second evaporator is arranged in the second evaporator bin, and the second evaporator and the first evaporator are connected in series or in parallel.
In some embodiments, a portion of the bottom plate of the liner adjacent to the first sidewall protrudes upward to form a liner step, the first evaporator bin is located above the liner step, and the second evaporator bin is located on one side of the liner step.
In some embodiments, an interlayer is formed between the outer shell and the inner liner; the refrigerator further comprises a first air supply assembly and a first air return assembly, wherein the first air supply assembly is arranged on the interlayer, the first air supply assembly defines a first air supply channel, the first end of the first air supply channel is communicated with the air outlet end of the first evaporator bin, and the second end of the first air supply channel is opened in the storage space; the first return air assembly is arranged in the interlayer, the first return air assembly defines a first return air duct, the first end of the first return air duct is communicated with the return air end of the first evaporator bin, and the second end of the first return air duct is opened in the storage space.
In some embodiments, the refrigerator further comprises a second air supply assembly and a second air return assembly, wherein the second air supply assembly is arranged in the interlayer, the second air supply assembly defines a second air supply duct, a first end of the second air supply duct is communicated with an air outlet end of the second evaporator bin, and a second end of the second air supply duct is opened in the storage space; the second return air assembly is arranged in the interlayer, the second return air assembly defines a second return air duct, the first end of the second return air duct is communicated with the return air end of the second evaporator bin, and the second end is opened in the storage space.
In some embodiments, the second return air duct is lower than the first return air duct.
In some embodiments, the second supply air duct is lower than the first supply air duct.
In some embodiments, the air outlet end of the second evaporator bin is lower than the air outlet end of the first evaporator bin; and/or the return air end of the second evaporator bin is lower than the return air end of the first evaporator bin.
In some embodiments, the first evaporator bin includes a first evaporator cover plate, the first evaporator cover plate encloses with the side wall of the liner and the top surface of the liner step to define a first evaporator bin, and the first evaporator cover plate is provided with a first air return opening.
In some embodiments, the second evaporator bin includes a second evaporator cover plate, the second evaporator cover plate and the side wall of the liner, the bottom plate of the liner and the side wall of the liner step enclose to define a second evaporator bin, and the second evaporator cover plate is provided with a second air return opening.
In some embodiments, the bottom plate of the liner is configured with a plurality of grooves and a plurality of ribs arranged at intervals, and the bottom of the second evaporator cover plate is abutted to the upper surfaces of the plurality of ribs so that the storage space is communicated with the second evaporator bin through the plurality of grooves.
The refrigerator provided by the embodiment of the disclosure can realize the following technical effects:
the refrigerating capacity of the refrigerator is improved by arranging the first evaporator and the second evaporator; the first evaporator is positioned in the first evaporator bin, and the second evaporator is positioned in the second evaporator bin, so that the independent control or the combined use of the first evaporator and the second evaporator are facilitated, and different refrigeration functions are realized; the first evaporator bin and the second evaporator bin are both close to the first side wall of the inner container, and the distance between the first evaporator and the second evaporator is relatively short, so that the connection of the refrigerant pipes is facilitated.
The foregoing general description and the following description are exemplary and explanatory only and are not restrictive of the utility model.
Drawings
One or more embodiments are illustrated by way of example and not limitation in the figures of the accompanying drawings, in which like references indicate similar elements, and in which like reference numerals refer to similar elements, and in which:
fig. 1 is a schematic view of a refrigerator according to an embodiment of the present disclosure;
fig. 2 is a schematic view of a refrigerator according to an embodiment of the present disclosure with a casing removed;
fig. 3 is a schematic view of another refrigerator provided in an embodiment of the present disclosure with a casing removed;
FIG. 4 is a schematic cross-sectional view taken along line A-A of FIG. 3;
FIG. 5 is an enlarged partial schematic view at B in FIG. 2;
fig. 6 is a schematic view of a refrigerator according to an embodiment of the present disclosure with a housing, a first evaporator cover plate, and a second evaporator cover plate removed.
Reference numerals:
10: a case; 100: a housing; 200: an inner container; 210: a first sidewall; 220: a second sidewall; 230: a third sidewall; 240: a fourth sidewall; 250: a bottom plate; 251: a groove; 252: a rib; 260: a liner step; 261: a step riser; 262: a step cross plate; 300: a first evaporator bin; 310: a first evaporator; 320: a first evaporator cover plate; 330: a first fan; 400: a second evaporator bin; 410: a second evaporator; 420: a second evaporator cover plate; 430: a second fan; 510: a first air supply assembly; 520: a second air supply assembly; 530: a first return air assembly; 540: and a second return air assembly.
Detailed Description
So that the manner in which the features and techniques of the disclosed embodiments can be understood in more detail, a more particular description of the embodiments of the disclosure, briefly summarized below, may be had by reference to the appended drawings, which are not intended to be limiting of the embodiments of the disclosure. In the following description of the technology, for purposes of explanation, numerous details are set forth in order to provide a thorough understanding of the disclosed embodiments. However, one or more embodiments may still be practiced without these details. In other instances, well-known structures and devices may be shown simplified in order to simplify the drawing.
The terms first, second and the like in the description and in the claims of the embodiments of the disclosure and in the above-described figures are used for distinguishing between similar objects and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used may be interchanged where appropriate in order to describe embodiments of the present disclosure. Furthermore, the terms "comprise" and "have," as well as any variations thereof, are intended to cover a non-exclusive inclusion.
In the embodiments of the present disclosure, the terms "upper", "lower", "inner", "middle", "outer", "front", "rear", and the like indicate an azimuth or a positional relationship based on that shown in the drawings. These terms are used primarily to better describe embodiments of the present disclosure and embodiments thereof and are not intended to limit the indicated device, element, or component to a particular orientation or to be constructed and operated in a particular orientation. Also, some of the terms described above may be used to indicate other meanings in addition to orientation or positional relationships, for example, the term "upper" may also be used to indicate some sort of attachment or connection in some cases. The specific meaning of these terms in the embodiments of the present disclosure will be understood by those of ordinary skill in the art in view of the specific circumstances.
In addition, the terms "disposed," "connected," "secured" and "affixed" are to be construed broadly. For example, "connected" may be in a fixed connection, a removable connection, or a unitary construction; may be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements, or components. The specific meaning of the above terms in the embodiments of the present disclosure may be understood by those of ordinary skill in the art according to specific circumstances.
The term "plurality" means two or more, unless otherwise indicated.
In the embodiment of the present disclosure, the character "/" indicates that the front and rear objects are an or relationship. For example, A/B represents: a or B.
The term "and/or" is an associative relationship that describes an object, meaning that there may be three relationships. For example, a and/or B, represent: a or B, or, A and B.
It should be noted that, without conflict, the embodiments of the present disclosure and features of the embodiments may be combined with each other.
Referring to fig. 1-6, an embodiment of the present disclosure provides a refrigerator, including a case 10, a first evaporator bin 300, a first evaporator, a second evaporator bin 400, and a second evaporator, wherein the case 10 includes a housing 100 and a liner 200, and the liner encloses a storage space; the first evaporator bin 300 is arranged in the storage space and is close to the first side wall 210 of the liner; a first evaporator 310 disposed in the first evaporator bin 300; a second evaporator bin 400 disposed in the storage space and adjacent to the first evaporator bin 300; the second evaporator 410 is disposed in the second evaporator bin 400, and is connected in series or in parallel with the first evaporator.
In the disclosed embodiment, the case 10 includes a housing 100 and a liner, with an interlayer formed between the housing 100 and the liner. The interlayer serves on the one hand as a thermal insulation and on the other hand also for the installation of auxiliary facilities.
The inner container encloses and defines a storage space, namely a refrigerating space.
The liner has a bottom panel, a first sidewall 210, a second sidewall 220, a third sidewall 230, and a fourth sidewall 240. The first sidewall 210 is opposite the third sidewall 230, the second sidewall 220 is opposite the fourth sidewall 240, the first sidewall 210 is adjacent the second and fourth sidewalls 240, and the second sidewall 220 is adjacent the first and third sidewalls 210 and 230. The top of the inner container is open, and a user can take and put the refrigerated object stored in the refrigerated space through the opening.
The first evaporator bin 300 is disposed in the refrigeration space and is adjacent to the first sidewall 210 of the liner. The first evaporator is disposed in the first evaporator bin 300. The second evaporator bin 400 is disposed in the storage space and is adjacent to the first sidewall 210 of the liner. The second evaporator is disposed in the second evaporator bin 400. That is, the first and second evaporator bins 300 and 400 are disposed adjacent to each other or side by side, and the first and second evaporators are also disposed at a relatively short distance.
By using the refrigerator provided by the embodiment of the disclosure, the first evaporator and the second evaporator are arranged, so that the refrigerating capacity of the refrigerator is improved; the first evaporator is positioned in the first evaporator bin 300, and the second evaporator is positioned in the second evaporator bin 400, which is beneficial to the independent control or the combined use of the first evaporator and the second evaporator to realize different refrigeration functions; the first evaporator bin 300 and the second evaporator bin 400 are both close to the first side wall 210 of the inner container, and the distance between the first evaporator and the second evaporator is relatively short, so that the connection of the refrigerant pipes is facilitated.
Optionally, a portion of the bottom plate of the liner adjacent to the first sidewall 210 protrudes upward to form a liner step 260, the first evaporator bin 300 is located above the liner step 260, and the second evaporator bin 400 is located at one side of the liner step 260.
The portion of the bottom plate of the liner, which is adjacent to the first sidewall 210, is higher than the other portions, and a liner step 260 is formed in the refrigerating space. The liner step 260 includes a step riser 261 and a step cross plate 262. The rear end of the step cross plate 262 is abutted against the first side wall 210 of the liner, and both ends are abutted against the second side wall 220 and the fourth side wall 240 of the liner. The top end of the step vertical plate 261 is abutted with the front end of the step transverse plate 262, the bottom end is abutted with the lower part of the bottom plate of the liner, and the two ends are abutted with the second side wall 220 and the fourth side wall 240 of the liner. The stepped cross plate 262 and the stepped riser 261 define a compressor chamber with the outer shell 100 of the case 10. The compressor cavity is used for setting auxiliary settings such as a compressor, a water receiving disc and the like. The first evaporator bin is disposed above the liner step 260, and the upper surface of the step cross plate 262 is the bottom of the first evaporator bin. The second evaporator bin is provided on the front side of the liner step 260, and the front side surface of the step riser 261 serves as the rear wall of the second evaporator bin.
The height of the first evaporator bin 300 is higher than the height of the second evaporator bin 400, with the first and second evaporators being at different heights. The air circulation of the first evaporator bin 300 corresponds to the upper position of the refrigerating space, and the air circulation of the second evaporator bin 400 corresponds to the lower position of the refrigerating space. By adopting the arrangement form, the air can be circulated in the refrigerating space sufficiently and uniformly, so that the temperature uniformity of the refrigerating space is improved.
Optionally, an interlayer is formed between the outer shell 100 and the inner liner; the refrigerator further comprises a first air supply assembly 510 and a first air return assembly 530, wherein the first air supply assembly 510 is arranged in the interlayer, the first air supply assembly 510 defines a first air supply channel, a first end of the first air supply channel is communicated with an air outlet end of the first evaporator bin 300, and a second end of the first air supply channel is opened in the storage space; the first return air assembly 530 is disposed in the interlayer, the first return air assembly 530 defines a first return air duct, a first end of the first return air duct is communicated with a return air end of the first evaporator bin 300, and a second end of the first return air duct is opened in the storage space.
The end of the first evaporator bin 300, which is close to the fourth side wall 240, is provided with a ventilation opening as an air outlet end. The first air supply assembly 510 is disposed between the casing 100 and the liner. The first air supply assembly 510 defines a first air supply duct therein. The first end of the first air supply duct communicates with the air outlet end of the first evaporator bin 300, and the second end of the first air supply duct is opened in the refrigerating space. After flowing through the first evaporator, the air enters the first air supply duct from the air outlet end of the first evaporator bin 300, and then enters the refrigerating space through the first air supply duct.
The first evaporator bin 300 has a vent opening at an end thereof adjacent to the second side wall 220 as a return air end. The first return air assembly 530 is disposed in the interlayer between the outer casing 100 and the inner liner. The first return air assembly 530 defines a first return air duct therein. The first end of the first return air duct communicates with the return air end of the first evaporator bin 300, and the second end of the first return air assembly 530 is open to the refrigerated space. The air of the refrigerating space returns to the first evaporator bin 300 through the first return air duct.
With such arrangement, the air in the refrigerating space can be circulated better through the first air outlet duct, the first return air duct and the first evaporator bin 300.
Optionally, the first air supply assembly 510 is attached to the fourth side wall 240, and a plurality of air outlets are spaced apart along the air flow direction.
The refrigerator takes the extending direction of the fourth side wall 240 as the length direction and the extending direction of the first side wall 210 as the width direction. The first air supply assembly 510 is provided with a plurality of air outlets along the air flowing direction, that is, a plurality of air outlets along the length direction of the refrigerator. By adopting the arrangement form, cold air can be blown out from different positions of the refrigerating space along the length direction of the refrigerator. Thus, the refrigerating speed of the refrigerator can be improved, and the temperature uniformity of the refrigerating space can be improved.
Optionally, the first return air component 530 is attached to the second side wall 220, and a plurality of return air inlets are spaced apart along the air flow direction.
The second sidewall 220 is the sidewall opposite to the fourth sidewall 240, and the third sidewall 230 is the sidewall opposite to the first sidewall 210. The first air return assembly 530 has a plurality of air return openings along the air flowing direction, that is, a plurality of air return openings along the length direction of the refrigerator. The plurality of air outlets of the first air outlet assembly are opposite to the plurality of air inlets of the first air return assembly 530, so that the circulation effect of the air in the refrigerating space can be further improved, and the refrigerating speed of the refrigerator and the temperature uniformity of the refrigerating space can be further improved.
Optionally, the refrigerator further includes a second air supply assembly 520 and a second air return assembly 540, where the second air supply assembly 520 is disposed in the interlayer, the second air supply assembly 520 defines a second air supply duct, a first end of the second air supply duct is communicated with an air outlet end of the second evaporator bin 400, and a second end is opened in the storage space; the second return air assembly 540 is disposed in the interlayer, the second return air assembly 540 defines a second return air duct, a first end of the second return air duct is communicated with a return air end of the second evaporator bin 400, and a second end of the second return air duct is opened in the storage space.
The end of the second evaporator bin 400, which is close to the fourth side wall 240, is provided with a ventilation opening as an air outlet end. The second air supply assembly 520 is disposed between the casing 100 and the liner. The second air supply assembly 520 defines a second air supply duct therein. The first end of the second air supply duct is communicated with the air outlet end of the second evaporator bin 400, and the second end of the second air supply duct is opened in the refrigerating space. The air flows through the second evaporator, then enters the second air supply duct from the air outlet end of the second evaporator bin 400, and then enters the refrigerating space through the second air supply duct.
The second evaporator bin 400 has a vent opening at one end thereof adjacent to the second side wall 220 as a return air end. The second return air assembly 540 is disposed in the interlayer between the outer casing 100 and the inner liner. The second return air assembly 540 defines a second return air duct therein. The first end of the second return air duct communicates with the return air end of the second evaporator bin 400, and the second end of the second return air assembly 540 is open to the refrigerated space. The air in the refrigerating space returns to the second evaporator bin 400 through the second return air duct.
With such arrangement, the air in the refrigerating space can be circulated better through the second air outlet duct, the second air return duct and the second evaporator bin 400.
Optionally, the second air supply assembly 520 is attached to the fourth side wall 240, and a plurality of air outlets are spaced apart along the air flow direction.
The refrigerator takes the extending direction of the fourth side wall 240 as the length direction and the extending direction of the second side wall 220 as the width direction. The second air supply assembly 520 is provided with a plurality of air outlets along the air flowing direction, that is, a plurality of air outlets along the length direction of the refrigerator. By adopting the arrangement form, cold air can be blown out from different positions of the refrigerating space along the length direction of the refrigerator. Thus, the refrigerating speed of the refrigerator can be improved, and the temperature uniformity of the refrigerating space can be improved.
Optionally, the second air return assembly 540 is attached to the second side wall 220, and a plurality of air return openings are spaced apart along the air flow direction.
The second sidewall 220 is the sidewall opposite to the fourth sidewall 240, and the third sidewall 230 is the sidewall opposite to the second sidewall 220. The second air return assembly 540 is provided with a plurality of air return openings along the air flowing direction, that is, a plurality of air return openings along the length direction of the refrigerator. The plurality of air outlets of the second air outlet assembly are opposite to the plurality of air inlets of the second air return assembly 540, so that the circulation effect of the air in the refrigerating space can be further improved, and the refrigerating speed of the refrigerator and the temperature uniformity of the refrigerating space can be further improved.
Optionally, the second return air duct is lower than the first return air duct.
The second return air duct is lower than the first return air duct, and a plurality of return air inlets formed in the second return air duct are also lower than a plurality of return air inlets formed in the first return air duct. The air of the refrigerating space may be returned to the first evaporator bin 300 through the plurality of return air inlets of the second return air duct at a higher position or the plurality of return air inlets of the first return air duct at a lower position. By adopting the arrangement mode, the return air of the refrigerating space is more three-dimensional, and thus, the circulation effect of air can be improved. In addition, the second evaporator bin 400 is lower than the first evaporator bin 300, and the second return air duct is lower than the first return air duct, so that the first return air duct and the second return air duct can be more conveniently arranged.
Optionally, the second air supply duct is lower than the first air supply duct.
The second air supply duct is lower than the first air supply duct, and a plurality of air supply openings formed in the second air supply duct are also lower than a plurality of air supply openings formed in the first air supply duct. The air of the refrigerating space may be returned to the first evaporator bin 300 through the plurality of air supply openings of the second air supply duct of the higher position or the plurality of air supply openings of the first air supply duct of the lower position. By adopting the arrangement mode, the air supply of the refrigerating space is more stereoscopic, and thus, the circulation effect of air can be improved. In addition, the second evaporator bin 400 is lower than the first evaporator bin 300, and the second air supply duct is lower than the first air supply duct, so that the first air supply duct and the second air supply duct can be more conveniently arranged.
Optionally, the air outlet end of the second evaporator bin 400 is lower than the air outlet end of the first evaporator bin 300.
The first evaporator bin 300 is located above the liner step 260, the second evaporator bin 400 is located at one side of the liner step 260, and the first evaporator bin 300 is higher than the second evaporator bin 400. The air outlet end of the second evaporator bin 400 is lower than the air outlet end of the first evaporator bin 300, facilitating the arrangement of the first air supply assembly 510 and the second air supply assembly 520.
Optionally, the return air end of the second evaporator bin 400 is lower than the return air end of the first evaporator bin 300.
Likewise, the return air end of the second evaporator compartment 400 is lower than the return air end of the first evaporator compartment 300, facilitating the placement of the first and second return air assemblies 530, 540.
Optionally, the first evaporator bin 300 includes a first evaporator cover 320, which encloses the side wall of the liner and the top surface of the step to define the first evaporator bin 300, and the first evaporator cover 320 is provided with a first air return opening.
The first evaporator pan 320 includes a transverse plate body and a vertical plate body that enclose the side walls and steps of the liner to define the first evaporator pan 300. The structure of the first evaporator bin 300 can be simplified by adopting such an arrangement form, thereby reducing the cost of the refrigerator. The first evaporator cover plate 320 is provided with a first air return opening, and specifically, the first air return opening is provided with a vertically arranged cover plate of the first evaporator cover plate 320. On the one hand, the first air return opening is not easy to be blocked by the refrigerated object; on the other hand, the first evaporator cover 320 is provided with the first air return opening, which can improve the air circulation effect near the first evaporator bin 300, and further improve the temperature uniformity of the refrigerating space.
Optionally, the second evaporator bin 400 includes a second evaporator cover 420, which encloses the side wall of the liner, the bottom plate of the liner and the side wall of the step to define the second evaporator bin 400, and the second evaporator cover 420 is provided with a second air return opening.
The second evaporator pan 420 includes a transverse plate body and a vertical plate body that enclose the side walls and steps of the liner to define the second evaporator pan 400. The structure of the second evaporator bin 400 can be simplified by adopting the arrangement form, so that the cost of the refrigerator can be reduced. The second evaporator cover 420 is provided with a second air return opening, and specifically, the second air return opening is provided with a vertically arranged cover plate of the second evaporator cover 420. On the one hand, the second air return opening is not easy to be blocked by the refrigerated object; on the other hand, the second air return opening formed in the second evaporator cover 420 can improve the air circulation effect near the second evaporator bin 400, and further improve the temperature uniformity of the refrigerating space.
Optionally, the bottom plate of the liner is configured with a plurality of grooves 251 and a plurality of ribs 252 that are arranged at intervals, and the bottom of the second evaporator cover 420 abuts against the upper surfaces of the plurality of ribs 252 so that the storage space is communicated with the second evaporator bin 400 through the plurality of grooves 251.
The bottom panel of the inner panel is configured with a plurality of grooves 251 and a plurality of ribs 252, i.e., corrugated. The length direction of the plurality of grooves 251 and the plurality of ribs 252 is along the length direction of the refrigerator. This can improve the structural strength of the bottom plate 250 of the liner.
The bottom ends of the vertical plate bodies of the second evaporator cover 420 are abutted against the upper surfaces of the plurality of ribs 252, so that the refrigerating space is communicated with the second evaporator bin 400 through the plurality of grooves 251. This forms a plurality of return air channels in the bottom of the second evaporator bin 400. The refrigerator includes a first fan 330 and a second fan 430, the first fan 330 being disposed in the first evaporator bin 300, and the second fan 430 being disposed in the second evaporator bin 400. Taking the second evaporator bin 400 as an example, when the second fan 430 drives air to flow to the refrigerating space through the second air supply duct, due to the existence of air inertia, the air output of the second air supply duct near the air outlet of the second evaporator bin 400 is smaller, the air output of the air outlet in the middle is larger, and then the air output to the far end is gradually reduced. Therefore, the circulation effect of the air is poor at a position close to the second evaporator bin 400. Similarly, the air circulation effect is poor in the vicinity of the first evaporator bin 300. Thus, a plurality of return air passages are formed through the bottom plate 250 of the liner to return air to the second evaporator bin 400 through the plurality of grooves 251 of the bottom plate 250 of the liner. This may enhance the circulation effect of the air in the vicinity of the first and second evaporator pans 300 and 400.
The above description and the drawings illustrate embodiments of the disclosure sufficiently to enable those skilled in the art to practice them. Other embodiments may include structural and other modifications. The embodiments represent only possible variations. Individual components and functions are optional unless explicitly required, and the sequence of operations may vary. Portions and features of some embodiments may be included in, or substituted for, those of others. The embodiments of the present disclosure are not limited to the structures that have been described above and shown in the drawings, and various modifications and changes may be made without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.

Claims (10)

1. A refrigerator, comprising:
the box body comprises a shell and an inner container, and the inner container is enclosed to define a storage space;
the first evaporator bin is arranged in the storage space and is close to the first side wall of the inner container;
the first evaporator is arranged in the first evaporator bin;
the second evaporator bin is arranged in the storage space and is close to the first evaporator bin;
the second evaporator is arranged in the second evaporator bin, and the second evaporator and the first evaporator are connected in series or in parallel.
2. The refrigerator according to claim 1, wherein,
the bottom plate of inner bag is close to the part of first lateral wall is protruding upwards to form the inner bag step, first evaporator storehouse is located the inner bag step top, the second evaporator storehouse is located one side of inner bag step.
3. The refrigerator according to claim 2, wherein,
an interlayer is formed between the outer shell and the inner container;
the refrigerator further includes:
the first air supply assembly is arranged on the interlayer, the first air supply assembly defines a first air supply channel, the first end of the first air supply channel is communicated with the air outlet end of the first evaporator bin, and the second end of the first air supply channel is opened in the storage space;
the first return air assembly is arranged in the interlayer, the first return air assembly defines a first return air duct, the first end of the first return air duct is communicated with the return air end of the first evaporator bin, and the second end of the first return air duct is opened in the storage space.
4. The refrigerator of claim 3, further comprising:
the second air supply assembly is arranged on the interlayer, the second air supply assembly defines a second air supply channel, the first end of the second air supply channel is communicated with the air outlet end of the second evaporator bin, and the second end of the second air supply channel is opened in the storage space;
the second return air assembly is arranged in the interlayer, the second return air assembly defines a second return air duct, the first end of the second return air duct is communicated with the return air end of the second evaporator bin, and the second end is opened in the storage space.
5. The refrigerator according to claim 4, wherein,
the second return air duct is lower than the first return air duct.
6. The refrigerator according to claim 4, wherein,
the second air supply duct is lower than the first air supply duct.
7. The refrigerator according to claim 4, wherein,
the air outlet end of the second evaporator bin is lower than the air outlet end of the first evaporator bin; and/or the number of the groups of groups,
the return air end of the second evaporator bin is lower than the return air end of the first evaporator bin.
8. The refrigerator of any one of claims 1 to 7 wherein the first evaporator bin comprises:
the first evaporator cover plate is enclosed with the side wall of the inner container and the top surface of the inner container step to define a first evaporator bin, and the first evaporator cover plate is provided with a first air return opening.
9. The refrigerator of any one of claims 1 to 7 wherein the second evaporator bin comprises:
the second evaporator cover plate is enclosed with the side wall of the inner container, the bottom plate of the inner container and the side wall of the inner container step to define a second evaporator bin, and a second air return opening is formed in the second evaporator cover plate.
10. The refrigerator of claim 9, wherein the refrigerator further comprises a door,
the bottom plate structure of inner bag has a plurality of recesses and a plurality of bead that the interval set up, the bottom butt of second evaporimeter apron in the upper surface of a plurality of beads is in order to make the storage space passes through a plurality of recesses intercommunication second evaporimeter storehouse.
CN202320471699.4U 2023-03-13 2023-03-13 Refrigerator Active CN219810092U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202320471699.4U CN219810092U (en) 2023-03-13 2023-03-13 Refrigerator

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202320471699.4U CN219810092U (en) 2023-03-13 2023-03-13 Refrigerator

Publications (1)

Publication Number Publication Date
CN219810092U true CN219810092U (en) 2023-10-10

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN202320471699.4U Active CN219810092U (en) 2023-03-13 2023-03-13 Refrigerator

Country Status (1)

Country Link
CN (1) CN219810092U (en)

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