CN220669872U - Refrigerator with a refrigerator body - Google Patents

Abstract

The embodiment of the application belongs to household electrical appliances technical field, provides a refrigerator, including box, evaporating dish and support, the box has the holding chamber, and the holding chamber can be used to install the refrigeration part of refrigerator, and the evaporating dish sets up in the holding intracavity, and the evaporating dish has the condensate chamber, and the support sets up in the condensate intracavity, and the support has the loading face, and the diapire in loading face and condensate chamber has the interval, and the condenser sets up in the loading face. The bearing surface of the bracket and the bottom wall of the condensate cavity have a certain distance, so that after condensate is collected in the condensate cavity, the condensate cannot be contacted with the bearing surface. The condenser sets up on the loading end of support, and the condenser also can not contact with the condensate like this to the space installation in the condenser still usable evaporation dish makes the mounting structure of condenser and evaporation dish compacter, and then makes the structure of the refrigerator of this application compacter.

Description

Refrigerator with a refrigerator body

Technical Field

The embodiment of the application relates to the technical field of household appliances, in particular to a refrigerator.

Background

The refrigerating component arranged in the refrigerator can provide a refrigerating function for the refrigerator, so that a small part of space is reserved in the refrigerator for installing the refrigerating component. In particular, the refrigerator may be provided therein with a mounting chamber for mounting the refrigerating part, and a refrigerating chamber and a freezing chamber for preventing the material.

In the related art, under the condition that the whole volume of the refrigerator is determined, the refrigerating part of the refrigerator is not compact, so that the refrigerator is large in volume and low in practicability.

Disclosure of Invention

The embodiment of the application provides a refrigerator, which can solve the technical problem that the refrigerator is large in size due to the fact that the structure of a refrigeration part of the existing refrigerator is not compact.

In a first aspect, an embodiment of the present application provides a refrigerator, including:

the box body is provided with a containing cavity;

the evaporation pan is arranged in the accommodating cavity and is provided with a condensate cavity;

the bracket is arranged in the condensate cavity and is provided with a bearing surface, and the bearing surface is spaced from the bottom wall of the condensate cavity;

and the condenser is arranged on the bearing surface.

In the refrigerator that this application embodiment provided, the holding chamber in the box can be used to install the at least partial refrigeration part of refrigerator, and the evaporating dish sets up in the holding intracavity, and the support sets up in the condensate intracavity, and the loading surface of support has certain interval with the diapire in condensate chamber, after the condensate has been collected in the condensate intracavity like this, the condensate can not with the loading surface contact. The condenser sets up on the loading end of support, and the condenser also can not contact with the condensate like this to the space installation in the condenser still usable evaporation dish makes the mounting structure of condenser and evaporation dish compacter, and then makes the structure of the refrigerator of this application compacter.

In some embodiments, the support is a frame structure, the support has a mounting cavity penetrating through the support, the bearing surface is a bottom wall of the mounting cavity, the condenser is arranged in the mounting cavity, and an air inlet side and an air outlet side of the condenser are respectively opposite to openings at two ends of the mounting cavity.

The support sets up to framework structure can make the condenser set up more stable when in the support.

In some embodiments, the refrigerator further comprises a blower disposed in the mounting cavity, and an air inlet side or an air outlet side of the blower is opposite to the condenser.

The fan may blow air toward the condenser such that the air may exchange heat with the condenser to form a cold gas.

In some embodiments, the receiving cavity has a first opening adjacent the condenser, the first opening being provided with a first stop opposite the condenser, and a second opening adjacent the fan, the second opening being provided with a second stop opposite the fan.

The first limiting piece and the second limiting piece can limit the condenser and the fan respectively, so that the condenser and the fan are stably and reliably arranged in the accommodating cavity of the bracket.

In some embodiments, a baffle is disposed in the receiving cavity, and the condenser and the fan are disposed on opposite sides of the baffle.

The condenser and the fan can be separated by arranging the baffle plate, and the condenser and the fan can be prevented from being mutually contacted and extruded.

In some embodiments, the refrigerator further includes a first support provided to the receiving cavity, and the first support is supported to the bracket.

The first support piece can support the support, so that the bearing surface of the support is higher than the condensate liquid level in the condensate cavity under the condition of compact structure.

In some embodiments, the refrigerator further includes a fixing member, the first support member and the bracket are provided with corresponding fixing holes, and the fixing member is disposed in the fixing holes to fix the first support member and the bracket.

The first supporting piece can be fixedly connected with the bracket by arranging the fixing piece.

In some embodiments, the refrigerator further includes a second supporting member, the second supporting member and the first supporting member are respectively supported at two sides of the bottom of the bracket, the second supporting member may further have a limiting groove, an opening of the limiting groove faces to intersect with a direction from the bottom of the bracket to the top, and a part of the bracket is embedded in the limiting groove.

The second support piece can support the support, so that the bearing surface of the support is higher than the condensate liquid level in the condensate cavity under the condition of compact structure.

In some embodiments, the refrigerator further includes a compressor disposed in the accommodating chamber and located at one side of the evaporation pan, the compressor being connected with the condenser.

The compressor is connected to the condenser such that the cooling fluid may circulate between the compressor and the condenser.

In a second aspect, an embodiment of the present application further provides a refrigerator, including: the evaporation dish is provided with a condensate cavity capable of collecting condensate water, the support is arranged in the condensate cavity, and the support is used for bearing the condenser so that the condenser is higher than the bottom wall of the condensate cavity.

Drawings

In order to more clearly illustrate the embodiments of the present application or the implementation in the related art, a brief description will be given below of the drawings required for the embodiments or the related art descriptions, and it is apparent that the drawings in the following description are some embodiments of the present application, and other drawings may be obtained according to these drawings for those of ordinary skill in the art.

Fig. 1 is a schematic structural diagram of a refrigerator according to an embodiment of the present application;

fig. 2 is a schematic structural view of a bracket of a refrigerator according to an embodiment of the present disclosure;

fig. 3 is a schematic structural diagram of a fan of a refrigerator according to an embodiment of the present disclosure;

fig. 4 is a schematic structural view of a second limiting member of the refrigerator according to the embodiment of the present application;

fig. 5 is a schematic structural view of a first support supporting bracket in a refrigerator according to an embodiment of the present application;

fig. 6 is a schematic structural view of a second support supporting bracket in the refrigerator according to the embodiment of the present application;

fig. 7 is a schematic structural view of a first support and a second support in a refrigerator according to an embodiment of the present application.

Reference numerals illustrate:

100-a box body, 110-a containing cavity,

200-evaporating dish, 210-condensate cavity, 220-first support piece, 221-fixing hole, 230-second support piece, 231-limit groove,

300-bracket, 310-mounting cavity, 311-bearing surface, 320-first opening, 330-second opening, 340-baffle, 350-fixture, 360-first stop, 370-second stop,

a 400-condenser, which is provided with a heat exchanger,

500-a fan, wherein the fan is provided with a fan,

a 600-degree compressor, the compressor and the compressor,

700-bottom plate.

Detailed Description

As described in the background art, the refrigerating part provided in the refrigerator can provide a refrigerating function for the refrigerator, and thus, a small space is required to be reserved in the refrigerator for installing the refrigerating part. In particular, the refrigerator may be provided therein with a mounting chamber for mounting the refrigerating part, and a refrigerating chamber and a freezing chamber for preventing the material.

In the related art, in case that the entire volume of the refrigerator is determined, the internal space occupied by the refrigerating part of the refrigerator is larger, which may cause the space of the refrigerating chamber and the freezing chamber of the refrigerator to be correspondingly reduced, thereby causing the practicality of the refrigerator to be reduced.

In order to solve the technical problem, in the refrigerator that this application embodiment provided, the holding chamber in the box can be used to install the at least partial refrigeration part of refrigerator, and the evaporating dish sets up in the holding intracavity, and the support sets up in the condensate intracavity, and the loading surface of support has certain interval with the diapire in condensate chamber, after having collected the condensate in the condensate intracavity like this, the condensate can not contact with the loading surface. The condenser sets up on the loading end of support, and the condenser also can not contact with the condensate like this to the space installation in the condenser still usable evaporation dish makes the mounting structure of condenser and evaporation dish compacter, and then makes the structure of the refrigerator of this application compacter.

For purposes of clarity, embodiments and advantages of the present application, the following description will make clear and complete the exemplary embodiments of the present application, with reference to the accompanying drawings in the exemplary embodiments of the present application, it being apparent that the exemplary embodiments described are only some, but not all, of the examples of the present application.

It should be noted that the brief description of the terms in the present application is only for convenience in understanding the embodiments described below, and is not intended to limit the embodiments of the present application. Unless otherwise indicated, these terms should be construed in their ordinary and customary meaning.

Furthermore, the terms "comprise" and "have," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a product or apparatus that comprises a list of elements is not necessarily limited to those elements expressly listed, but may include other elements not expressly listed or inherent to such product or apparatus.

In the description of the present application, it should be understood that the terms "center," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate description of the present application and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present application.

The terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more such feature. In the description of the present application, unless otherwise indicated, the meaning of "a plurality" is two or more.

In the description of the present application, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art in a specific context.

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all, of the embodiments of the present application. All other embodiments, which can be made by one of ordinary skill in the art without undue burden from the present disclosure, are within the scope of the present disclosure.

Referring to fig. 1 and 2, the refrigerator of the embodiment of the present application includes a cabinet 100, an evaporation pan 200, a bracket 300, and a condenser 400. The box body 100 is a basic component of the refrigerator, the box body 100 can provide a mounting basis for other at least partial components of the refrigerator, and the box body 100 can also serve the purpose of protecting the other at least partial components of the refrigerator. The accommodating cavity 110 is formed in the box body 100, the refrigerating component in the refrigerator can be arranged in the accommodating cavity 110, and of course, a cavity for storing materials is further formed in the box body 100, cold air can be generated by the refrigerating component in the accommodating cavity 110, and can enter the cavity for storing materials in the box body 100.

The evaporating dish 200 is disposed in the accommodating cavity 110 of the box body 100, the evaporating dish 200 is a container structure, a condensate cavity 210 is disposed in the evaporating dish 200, and the evaporating dish 200 can be used for collecting condensate water generated in the refrigerator operation process. The condenser 400 may be disposed in the condensate chamber 210 of the evaporating dish 200, so that the condenser 400 and the evaporating dish 200 may be stacked, and the condenser 400 may be installed by using the space of the condensate chamber 210 of the evaporating dish 200, compared with the current refrigerator structure in which the condenser 400 is disposed at one side of the evaporating dish 200, the installation space in the accommodating chamber 110 may be effectively saved, so that the width dimension of the refrigerator may be smaller, and the overall structure of the refrigerator may be more compact, or the accommodating chamber 110 may have a spare space for installing other components, so that the performance of the refrigerator may be stronger or have more abundant functions.

It should be appreciated that the condensate chamber 210 of the evaporating dish 200 is used for collecting condensate water, and if the condenser 400 is directly disposed in the condensate chamber 210, there is a problem that the condensate water corrodes the condenser 400. Accordingly, the bracket 300 may be disposed in the evaporating dish 200, and the condenser 400 may be disposed on the bracket 300, such that the condenser 400 is separated from the condensed water in the condensed-liquid chamber 210 of the evaporating dish 200 to prevent the condensed water from corroding the condenser 400. Specifically, the support 300 has a bearing surface 311, the condenser 400 may be disposed on the bearing surface 311 of the support 300, and the bearing surface 311 of the support 300 has a certain distance from the bottom of the condensate chamber 210 of the evaporating dish 200, so that when the refrigerator of the present application is mounted on a horizontal plane, the height of the bearing surface 311 of the support 300 may be higher than the height of the bottom wall of the evaporating dish 200. When the condenser 400 is disposed on the bearing surface 311 of the bracket 300, the height of the condenser 400 may be higher than the level of the condensed water in the condensed water chamber 210, so that the condenser 400 is not in contact with the condensed water in the condensed water chamber 210.

Of course, it should also be appreciated that since the bracket 300 is directly installed in the condensate chamber 210, in order to prevent condensate from corroding the bracket 300, the bracket 300 may be made of a corrosion-resistant material, so that the bracket 300 may more stably and reliably support the condenser 400.

In the refrigerator provided in this embodiment, the accommodating cavity 110 in the refrigerator body 100 may be used to mount at least part of the refrigeration components of the refrigerator, the evaporating dish 200 is disposed in the accommodating cavity 110, the bracket 300 is disposed in the condensate cavity 210, and the bearing surface 311 of the bracket 300 has a certain distance from the bottom wall of the condensate cavity 210, so that after the condensate water is collected in the condensate cavity 210, the condensate water will not contact with the bearing surface 311. The condenser 400 is disposed on the bearing surface 311 of the bracket 300, so that the condenser 400 will not contact with the condensed water, and the condenser 400 can be mounted by using the space in the evaporating dish 200, so that the mounting structure of the condenser 400 and the evaporating dish 200 is more compact, and the refrigerator of the present application is more compact.

In some embodiments, referring to fig. 2, in order to enable the condenser 400 to be mounted on the bracket 300, the bracket 300 may specifically be a frame structure, so that the structure of the bracket 300 may be more compact, and meanwhile, the manufacturing cost of the bracket 300 is relatively low, and the manufacturing difficulty is relatively low. The bracket 300 is provided with a mounting cavity 310, the mounting cavity 310 is a cavity penetrating through the bracket 300, correspondingly, the bracket 300 is also provided with two openings respectively communicated with two ends of the mounting cavity 310, and a bearing surface 311 of the bracket 300 is a bottom wall of the mounting cavity 310. The cavity shape of the installation cavity 310 may be configured to match the shape of the condenser 400, when the condenser 400 is disposed on the bearing surface 311, at least a portion of the condenser 400 is located in the installation cavity 310, such that a circumferential side of the condenser 400 may be opposite to an inner wall of the installation cavity 310, such that the condenser 400 is integrally surrounded by the bracket 300, such that the inner wall of the installation cavity 310 may serve the purpose of limiting the condenser 400, such that the condenser 400 may be more stably and reliably disposed in the installation cavity 310. It should be appreciated that the condenser 400 has an air inlet side and an air outlet side, and air is blown from the air inlet side of the condenser 400 to the condenser 400 and contacts the condenser 400 to cool down, and the cooled air is discharged through the air outlet side of the condenser 400. Accordingly, when the condenser 400 is disposed within the mounting cavity 310, the air inlet side and the air outlet side of the condenser 400 may be opposite to the both end openings of the mounting cavity 310, respectively, so that air may pass through the condenser 400.

In some embodiments, referring to fig. 3, in order that air may be blown toward the condenser 400 to contact the condenser 400 for heat exchange, the refrigerator of the present application may further include a blower 500, and an air inlet side or an air outlet side of the blower 500 is opposite to the condenser 400. When the air inlet side of the fan 500 is opposite to the condenser 400, the fan 500 can suck air at the side of the condenser 400 opposite to the fan 500, so that the air can exchange heat through the condenser 400, when the air outlet side of the fan 500 is opposite to the condenser 400, the fan 500 can suck air at the side of the fan opposite to the condenser 400, and blow the air to the condenser 400 so as to exchange heat between the air and the condenser 400, and therefore the purpose of enabling the air and the condenser 400 to exchange heat in a contact manner can be achieved. The fan 500 may be disposed on the bracket 300, and specifically disposed in the mounting cavity 310 of the bracket 300, so that the fan 500 may also be mounted by using the space in the condensate cavity 210 of the evaporating dish 200, so that the mounting structure of the fan 500 is more compact, and further the refrigerator of the present application may be compact.

Specifically, the blower 500 and the condenser 400 may be distributed at both sides of the installation cavity 310 of the bracket 300, such that the blower 500 and the condenser 400 may be adjacent to both side openings of the installation cavity 310, respectively, and an air outlet side of the blower 500 may be disposed opposite to the condenser 400, such that the blower 500 may suck air through one side opening of the installation cavity 310 and blow the air toward the condenser 400, and exhaust the air through the other side opening of the installation cavity 310 after exchanging heat with the condenser 400.

When the fan 500 is disposed in the mounting cavity 310 of the bracket 300, a certain distance is provided between the fan 500 and the liquid level of the condensed water in the condensed liquid cavity 210 of the evaporating dish 200, so that the condensed water will not erode the fan 500, and the fan 500 can maintain a stable running state.

In some embodiments, referring to fig. 2, the openings on both sides of the mounting cavity 310 of the bracket 300 are specifically a first opening 320 and a second opening 330 in the present application, wherein the condenser 400 is adjacent to the first opening 320 and the blower 500 is adjacent to the lower second opening 330. In order to stably and reliably arrange the condenser 400 and the blower 500 in the installation cavity 310 of the bracket 300, the bracket 300 may be further provided with a first limiting member 360 and a second limiting member 370, wherein the first limiting member 360 may be used for limiting and fixing the condenser 400, so that the condenser 400 is limited in the accommodating cavity 110, and the second limiting member 370 may be used for limiting and fixing the blower 500, so that the blower 500 is limited in the accommodating cavity 110.

Specifically, the first limiting member 360 may be disposed at the first opening 320 of the bracket 300, and the first limiting member 360 is disposed opposite to the condenser 400, so that when the condenser 400 is subject to a force from the first opening 320 to move out of the installation cavity 310 and has a tendency to move out of the installation cavity 310, the first limiting member 360 may play a role in limiting the condenser 400, so as to prevent the condenser 400 from moving out of the installation cavity 310 from the first opening 320, thereby enabling the condenser 400 to maintain a stable and reliable installation state. The second limiting member 370 may be disposed at the second opening 330 of the bracket 300, and the second limiting member 370 is disposed opposite to the fan 500, so that when the fan 500 is subject to a force from the second opening 330 to move out of the installation cavity 310 and has a tendency to move out of the installation cavity 310, the second limiting member 370 may play a role in limiting the fan 500, preventing the fan 500 from moving out of the installation cavity 310 from the second opening 330, thereby enabling the fan 500 to maintain a stable and reliable installation state.

In addition, when the condenser 400 has a tendency to move outside the installation cavity 310 due to the force of the second opening 330 moving outside the installation cavity 310, the fan 500 may play a role in limiting the condenser 400, and since the second limiting member 370 has a limiting effect on the fan 500, the second limiting member 370 also has a limiting effect on the condenser 400. When the fan 500 is subject to the force of moving from the first opening 320 to the outside of the installation cavity 310 and has a tendency to move to the outside of the installation cavity 310, the condenser 400 can play a role of limiting the fan 500, and the first limiting member 360 has a limiting effect on the condenser 400, so that the first limiting member 360 also has a limiting effect on the fan 500. Therefore, by providing the first and second stoppers 360 and 370, both the blower 500 and the condenser 400 can be reliably and stably disposed in the mounting cavity 310 of the bracket 300.

In some embodiments, referring to fig. 2, after both the condenser 400 and the blower 500 are disposed in the mounting cavity 310 of the bracket 300, in order to prevent the condenser 400 and the blower 500 from interfering with each other, the condenser 400 and the blower 500 may be disposed to have a certain interval. A baffle 340 may be further disposed in the mounting cavity 310 of the bracket 300, and the baffle 340 may be vertically disposed on the bearing surface 311 of the bracket 300, i.e. on the bottom wall of the mounting cavity 310. The condenser 400 and the blower 500 may be disposed on opposite sides of the baffle 340, respectively, and the condenser 400 and the blower 500 may also be abutted against opposite sides of the baffle 340, such that the baffle 340 may separate the condenser 400 and the blower 500. The baffle 340 cooperates with the first limiter 360 such that the condenser 400 is captured between the baffle 340 and the first limiter 360, and the baffle 340 cooperates with the second limiter 370 such that the blower 500 is captured between the baffle 340 and the second limiter 370.

In some embodiments, referring to fig. 5, in order to allow the bearing surface 311 of the stand 300 to be higher than the condensate level in the condensate chamber 210 of the evaporating dish 200 in a compact configuration of the stand 300, the refrigerator of the present application may further be provided to include a first support 220. The first support 220 is disposed in the condensate chamber 210 of the evaporating dish 200, and the first support 220 may serve to carry the support bracket 300, so that the support bracket 300 may be disposed on the first support 220 such that the support bracket 300 may have a distance from the bottom wall of the condensate chamber 210. Specifically, the first supporting member 220 may be a rod structure, one end of the first supporting member 220 is connected to the bottom wall of the condensate chamber 210, the other end of the first supporting member 220 is supported on the bracket 300, and at least part of the first supporting member 220 may be immersed in the condensate water in the condensate chamber 210, so that the first supporting member 220 may be made of a corrosion-resistant material, such as a high-strength engineering plastic. When the first supporting member 220 is provided, the height dimension of the bracket 300 may be set to be relatively smaller, so that the structure of the bracket 300 may be set to more match the installation structure of the condenser 400 and the blower fan 500, specifically, the bracket 300 may be set to be a compact frame structure, and the space satisfying the installation cavity 310 may be used for installing the blower fan 500 and the condenser 400.

In some embodiments, referring to fig. 5 and 7, in order to fixedly connect the bracket 300 of the present application with the first support 220, the refrigerator of the present application may further be provided with a fixing member 350, and the fixing member 350 may be connected with the bracket 300 and the first support 220 such that the bracket 300 and the first support 220 may be fixedly connected. The first supporting member 220 may be provided with a fixing hole 221 at one end for supporting the bracket 300, and may be provided with a hole at the bottom of the bracket 300, the fixing hole 221 of the first supporting member 220 is adapted to the hole of the bracket 300, and the fixing member 350 may be fixed in the hole of the bracket 300 and the fixing hole 221 of the first supporting member 220, so that the bracket 300 and the first supporting member 220 are fixed. Specifically, the opening of the bracket 300 and the fixing hole 221 of the first support 220 are screw holes, and the fixing member 350 may be a bolt, and the bracket 300 and the first support 220 are fixed by screwing the bolt into the screw hole. Of course, the fixing member 350 may also be a rivet, and the rivet is installed in the fixing hole 221 by riveting, so that the bracket 300 and the first support member 220 may be fixed.

In some embodiments, referring to fig. 6, in order to further enable the stand 300 to stably maintain a posture spaced from the bottom of the condensate chamber 210 of the evaporating dish 200, the refrigerator of the present application may further include a second support 230. The second support 230 is disposed in the condensate chamber 210 of the evaporating dish 200, and the second support 230 can serve to support the support bracket 300, so that the support bracket 300 can be disposed on the second support 230 such that the support bracket 300 can have a distance from the bottom wall of the condensate chamber 210. The first support 220 and the second support 230 may be supported at different portions of the bottom of the bracket 300, specifically, the number of the first supports 220 may be two, the two first supports 220 may be supported at the bottom portion of the bracket 300 adjacent to the first opening 320, the number of the second supports 230 may be two, and the two second supports 230 may be supported at the bottom portion of the bracket 300 adjacent to the second opening 330. The two first supporting members 220 may be disposed opposite to each other, and the two second supporting members 230 may be disposed opposite to each other, so that the first supporting members 220 and the second supporting members 230 may be supported at the four corners of the bottom of the support 300, respectively, such that the support 300 may maintain a posture having a gap with the bottom wall of the condensate chamber 210 of the evaporating dish 200.

Referring to fig. 6 and 7, in order to fixedly connect the second support 230 with the bracket 300, the second support 230 and the bracket 300 may be fixed by means of a snap-fit connection, so that the connection and disassembly process of the second support 230 and the bracket 300 may be simple and convenient. Specifically, the second supporting member 230 may be provided with a limiting groove 231, a portion of the bracket 300 may be embedded in the limiting groove 231, and an opening of the limiting groove 231 may be oriented to intersect a direction from the bottom of the bracket 300 to the top of the bracket 300, so that two opposite sidewalls of the limiting groove 231 may serve to limit the bracket 300 in a direction from the bottom of the bracket 300 to the top, and a bottom wall of the limiting groove 231 may serve to limit the bracket 300 in a horizontal direction. Since the bracket 300 is also fixedly connected with the first supporting member 220 through the fixing member 350, a portion of the bracket 300 is embedded in the limiting groove 231, so that the bracket 300 is also stably connected with the second supporting member 230.

The bottom of the bracket 300 may be specifically provided with a bottom plate 700, the bracket 300 may be disposed on the bottom plate 700, the bottom plate 700 may be provided with an opening corresponding to the fixing hole 221 of the first support member 220, and one side edge of the bottom plate 700 may be further embedded in the limit groove 231 of the second support member 230.

In some embodiments, referring to fig. 1, the refrigerator of the present application may further include a compressor 600, the compressor 600 being connected to the condenser 400. The compressor 600 may be disposed in the receiving chamber 110 of the case 100, and the compressor 600 is located at one side of the evaporating dish 200 such that the interval between the compressor 600 and the condenser 400 is relatively small, thereby allowing the cooling liquid to circulate between the compressor 600 and the condenser 400 more efficiently.

The embodiment of the application also provides a refrigerator, which comprises a refrigerator body 100, an evaporation pan 200, a support 300 and a condenser 400, wherein the refrigerator body 100 is provided with a containing cavity 110 capable of containing the evaporation pan 200, the evaporation pan 200 is arranged in the containing cavity 110, the evaporation pan 200 is provided with a condensate cavity 210 capable of collecting condensate water, the support 300 is arranged in the condensate cavity 210, and the support 300 is used for bearing the condenser 400 so that the condenser 400 is higher than the bottom wall of the condensate cavity 210.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present application, and not for limiting the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the corresponding technical solutions from the scope of the technical solutions of the embodiments of the present application.

The foregoing description, for purposes of explanation, has been presented in conjunction with specific embodiments. However, the illustrative discussions above are not intended to be exhaustive or to limit the embodiments to the precise forms disclosed above. Many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles and the practical application, to thereby enable others skilled in the art to best utilize the embodiments and various embodiments with various modifications as are suited to the particular use contemplated.

Claims (10)

1. A refrigerator, comprising:

a case (100) having a housing chamber (110);

an evaporation pan (200) arranged in the accommodating cavity (110), wherein the evaporation pan (200) is provided with a condensate cavity (210);

the bracket (300) is arranged in the condensate cavity (210), the bracket (300) is provided with a bearing surface (311), and the bearing surface (311) is spaced from the bottom wall of the condensate cavity (210);

and a condenser (400) provided on the bearing surface (311).

2. The refrigerator according to claim 1, wherein the bracket (300) is a frame structure, the bracket (300) has a mounting cavity (310) penetrating through the bracket (300), the bearing surface (311) is a bottom wall of the mounting cavity (310), the condenser (400) is disposed in the mounting cavity (310), and an air inlet side and an air outlet side of the condenser (400) are respectively opposite to two end openings of the mounting cavity (310).

3. The refrigerator according to claim 2, further comprising a blower (500), the blower (500) being disposed in the mounting cavity (310), and an air inlet side or an air outlet side of the blower (500) being opposite to the condenser (400).

4. A refrigerator according to claim 3, wherein the housing cavity (110) has a first opening (320) adjacent to the condenser (400), and a second opening (330) adjacent to the blower (500), the first opening (320) being provided with a first stop (360), the first stop (360) being opposite the condenser (400), the second opening (330) being provided with a second stop (370), the second stop (370) being opposite the blower (500).

5. The refrigerator according to claim 4, wherein a baffle (340) is disposed in the accommodating chamber (110), and the condenser (400) and the blower (500) are disposed on opposite sides of the baffle (340).

6. The refrigerator according to any one of claims 1 to 5, further comprising a first support (220), the first support (220) being provided to the receiving cavity (110), and the first support (220) being supported to the bracket (300).

7. The refrigerator according to claim 6, further comprising a fixing member (350), wherein the first supporting member (220) and the bracket (300) are provided with corresponding fixing holes (221), and the fixing member (350) is disposed in the fixing holes (221) to fix the first supporting member (220) and the bracket (300).

8. The refrigerator according to claim 7, further comprising a second supporting member (230), wherein the second supporting member (230) and the first supporting member (220) are respectively supported at two sides of the bottom of the bracket (300), the second supporting member (230) may further comprise a limiting groove (231), an opening of the limiting groove (231) is oriented to intersect with a bottom-to-top direction of the bracket (300), and a part of the bracket (300) is embedded in the limiting groove (231).

9. The refrigerator according to any one of claims 1 to 5, further comprising a compressor (600), the compressor (600) being disposed in the receiving chamber (110) and located at one side of the evaporation pan (200), the compressor (600) being connected to the condenser (400).

10. A refrigerator, comprising: the device comprises a box body (100), an evaporation dish (200), a support (300) and a condenser (400), wherein the box body (100) is provided with a containing cavity (110) capable of containing the evaporation dish (200), the evaporation dish (200) is arranged in the containing cavity (110), the evaporation dish (200) is provided with a condensate cavity (210) capable of collecting condensate water, the support (300) is arranged in the condensate cavity (210), and the support (300) is used for bearing the condenser (400) so that the condenser (400) is higher than the bottom wall of the condensate cavity (210).