CN212645055U - Refrigerator heat abstractor and refrigerator - Google Patents

Abstract

The utility model discloses a refrigerator heat dissipation device and a refrigerator, wherein the refrigerator heat dissipation device comprises a container, a water inlet connector and a water outlet connector; the container is provided with a receiving space and a sealing opening, the receiving space can receive the refrigerator radiator entering the receiving space through the sealing opening, and the receiving space can be sealed when the sealing opening is closed; the water inlet connector and the water outlet connector are in sealing connection with the container and are communicated with the containing space. When the refrigerator is used, the external radiator of the refrigerator is directly sleeved in the accommodating space of the container, then the sealing opening is sealed, finally the water inlet connector is connected with the water inlet pipe, and the water outlet connector is connected with the water outlet pipe, so that the radiator is radiated in a water cooling mode, the radiating efficiency is improved, and the energy consumption is reduced; on the other hand, the temperature of the water which exchanges heat with the radiator is raised, and the flowing warm water is used by users, so that the energy is recycled to the maximum extent.

Description

Refrigerator heat abstractor and refrigerator

Technical Field

The utility model belongs to the technical field of the refrigerator heat dissipation technique and specifically relates to a refrigerator heat abstractor and refrigerator.

Background

A refrigerator is a refrigerating apparatus for maintaining a constant low temperature, and is also a home appliance for maintaining food or other articles in a constant low temperature cold state. The box body is internally provided with a compressor, a radiator, a refrigerator, a cabinet or a box for freezing and a storage box with a refrigerating device. The traditional refrigerator realizes heat dissipation through a heat dissipation structure externally arranged on the outer side of a refrigerator body.

In order to realize cooling, the refrigerator mainly utilizes condensing agent to absorb heat and gasify to achieve the purpose of refrigeration, and the condensing agent circulates in the radiator and the radiating structure to realize radiating and refrigeration. Because the external heat dissipation structure is adopted to exchange heat with the outside air to realize heat dissipation, the heat dissipation speed is low, the liquefaction speed of the condensing agent is correspondingly reduced, the refrigeration speed of the refrigerator is further influenced, the refrigerator is in a refrigeration working state for a long time, and the power consumption of the refrigerator is further increased. Meanwhile, since the heat dissipation structure directly exchanges heat with the atmosphere, energy is wasted.

Therefore, the above technical problem needs to be solved.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model provides a refrigerator heat abstractor and refrigerator, aim at solves the technical problem that current refrigerator radiating efficiency is lower, and the energy is wasted.

In order to solve the technical problem, the utility model provides a basic technical scheme is on the one hand:

a heat dissipating apparatus for a refrigerator, comprising:

the container is of a soft structure and is provided with a containing space and a sealing opening, the containing space can contain the refrigerator radiator entering the containing space from the sealing opening, and the containing space can be sealed when the sealing opening is closed;

a water inlet connector, the first end of which is hermetically connected with the container and communicated with the containing space, and the second end of which points to the outside; and

and the first end of the water outlet connector is hermetically connected with the container and communicated with the accommodating space, and the second end of the water outlet connector points to the outside.

Further, the sealing opening is provided with a first inner side face and a second inner side face, and the first inner side face and the second inner side face are in sealing fit through the sealing structure.

And the refrigerator radiator further comprises at least two sealing clamping pieces used for sealing the connecting pipe of the refrigerator radiator, wherein the sealing clamping pieces are positioned between the first inner side face and the second inner side face, and the first inner side face and the second inner side face are in sealing fit with each other and are in sealing connection with the outer side face of each sealing clamping piece.

Further, sealed fastener includes first joint portion and second joint portion, and this first joint portion and second joint portion have semicircular first draw-in groove and second draw-in groove respectively, during the assembly first draw-in groove with the sealed cooperation of loosing the refrigerator with second draw-in groove lock, this first medial surface and second medial surface respectively with the lateral surface of first joint portion and the lateral surface sealing connection of second joint portion.

Furthermore, first medial surface and second medial surface respectively with the lateral surface of first joint portion and the lateral surface of second joint portion can dismantle sealing connection.

Furthermore, first medial surface is as an organic whole with the lateral surface fixed connection of first joint portion, the second medial surface with the lateral surface fixed connection of second joint portion is as an organic whole.

Further, the sealing device further comprises a clamping piece, and the clamping piece is clamped on the periphery of the sealing opening to clamp the sealing structure with the sealing opening.

Further, the second end of the water outlet connector is communicated with a water tank; the water inlet connector is arranged at the lower part of the container; the water outlet connector is disposed at an upper portion of the receptacle.

Further, the container is of a bag-like structure.

As another aspect of the present invention, there is provided a refrigerator, including a refrigerator body and a refrigerator radiator disposed outside the refrigerator, further comprising any one of the above-mentioned heat dissipating apparatus, wherein the refrigerator radiator is accommodated in an accommodating space of the refrigerator radiator, and the accommodating space is sealed to be opened.

The utility model has the advantages that:

the technical scheme of the utility model provides a refrigerator heat abstractor and refrigerator, wherein, the refrigerator heat abstractor includes container, water inlet connector and water outlet connector; the container is of a soft structure and is provided with a containing space and a sealing opening, the containing space can contain the refrigerator radiator entering the containing space from the sealing opening, and the containing space can be sealed when the sealing opening is closed; the first end of the water inlet connector is hermetically connected with the container and communicated with the containing space, and the second end of the water inlet connector points to the outside; the first end of the water outlet connector is connected with the container in a sealing mode and communicated with the containing space, and the second end of the water outlet connector points to the outside. When the refrigerator is used, the external radiator of the refrigerator is directly sleeved in the accommodating space of the container, then the sealing opening is sealed, finally the water inlet connector is connected with the water inlet pipe, and the water outlet connector is connected with the water outlet pipe, so that the radiator is radiated in a water cooling mode, the radiating efficiency is improved, and the energy consumption is reduced; on the other hand, the temperature of the water which exchanges heat with the radiator is raised, and the flowing warm water is used by users, so that the energy is recycled to the maximum extent.

Drawings

FIG. 1 is a schematic view of the cooling device of a refrigerator according to the present invention;

FIG. 2 is a cross-sectional view of the cooling apparatus of the refrigerator of FIG. 1;

FIG. 3 is a schematic structural view of the water inlet connector;

FIG. 4 is a schematic structural view of the cooling device of the refrigerator according to the present invention when used in cooperation with a refrigerator;

FIG. 5 is a schematic view of a sealed open structure;

FIG. 6 is a schematic view of the structure of the clamping member;

FIG. 7 is a schematic view of the clamping member clamping the opening portion;

FIG. 8 is a schematic view of a first configuration of a sealing jaw;

fig. 9 is a schematic view of a second configuration of the sealing jaw.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to fig. 1 to 9, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, not all of the embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that if directional indications (such as up, down, left, right, front, and back … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture, and if the specific posture is changed, the directional indications are changed accordingly.

The utility model provides a refrigerator heat abstractor especially is applicable to the external refrigerator of radiator and uses, for example is the heat dissipation of the external heat dissipation copper pipe of refrigerator. Certainly, the invention is not limited to this, and other devices using external sealed heat dissipation structures are also applicable, that is, the heat dissipation structures of these devices are sealed structures.

Referring to fig. 1 and 2, the heat sink device for a refrigerator according to the present embodiment includes a container 10, a water inlet connector 20, and a water outlet connector 30.

The container 10 has a receiving space 101 and a sealed opening 102, the receiving space 101 can receive the refrigerator radiator entering the receiving space 101 through the sealed opening 102, and the sealed opening 102 can seal the receiving space 101 when closed. When the refrigerator radiator is used, the refrigerator radiator enters the accommodating space 101 of the container 10 from the sealed opening 102, the refrigerator radiator is accommodated in the accommodating space 101, and the container 10 wraps the refrigerator radiator. The sealing opening 102 is then used to seal the receiving space 101, that is, the sealing opening 102 is closed, so that water in the receiving space 101 can be prevented from flowing out from the inside of the sealing opening 102. It should be understood that, when the scheme is used, the connection pipe of the refrigerator radiator extends to the outside from the receiving space 101 after passing through the sealing opening 102, so that the sealing opening 102 in this embodiment can simultaneously seal the connection pipe of the refrigerator radiator, and thus it can be ensured that water in the receiving space 101 does not flow out. In this embodiment, the sealing structure for sealing the opening 102 can be realized by using a known sealing technology, and therefore, the present invention cannot be considered as being insufficient.

It should be understood that, in the present embodiment, the container 10 is of a soft structure and is made of a known soft material, that is, the container 10 can be folded and deformed arbitrarily to meet the use requirements of different applications. For example, the material is made of PVC material and silica gel material. Preferably, in this embodiment, the container 10 has a bag-like structure, such as a sack-like shape. In the non-use state, the receptacle 10 is foldable, which makes it very convenient to store, transport and carry. In order to ensure that the water in the container 10 does not dissipate heat outwards, a layer of insulating layer may be disposed around the container 10.

The shape of the container 10 may be designed to be different according to different applications, such as square, circular, oval, etc.

As shown in fig. 2, the water inlet connector 20 of the present embodiment has a first end hermetically connected to the container 10 and communicating with the receiving space 101, and a second end pointing to the outside. Through this water inlet connector 20 can with external inlet tube connection for in leading-in the storage space 101 to the container 10 with external colder water, realize cooling the refrigerator radiator. Wherein, the water inlet connector 20 is matched and connected with the container 10 to form an integral structure. Specifically, as shown in fig. 3, the peripheral side of the water inlet connector 20 is connected with the through hole 104 formed in the side wall of the receptacle 10 in a sealing fit manner, that is, the side wall on the peripheral side of the through hole 104 is integrally connected with the peripheral side of the water inlet connector 20 in a sealing manner. In order to realize the quick connection of the water inlet connector 20 and the water inlet pipe, the inner wall 201 of the water inlet connector 20 is provided with internal threads, and the water inlet pipe and the inner wall 201 are in threaded sealing connection when in specific assembly. Of course, besides, the inner wall 201 of the water inlet connector 20 may be provided with an annular groove (not shown), and particularly, when the water inlet connector is assembled, the connection portion of the water inlet pipe and the groove are assembled in a sealing manner by means of snap-fit sealing. The specific structure of the connection portion of the water inlet pipe is realized by a known technology of snap-fit sealing, for example, a sealing ring is arranged on the periphery of the connection portion of the water inlet pipe, and the connection portion is inserted into the inner wall 201 during assembly so that the groove is in sealing fit with the sealing ring.

Similarly, a first end of the water outlet connector 30 is connected to the container 10 in a sealing manner and is communicated with the receiving space 101, and a second end is directed to the outside. The water filled in the storage space 101 can be discharged to the outside through the water outlet connector 30. Specifically, when the water outlet connector 30 is used, the water outlet connector communicates with an externally connected water outlet pipe to lead out water in the storage space 101. The structure of the water outlet connector 30 is the same as that of the water inlet connector 20, and the description thereof is omitted. In addition, referring to fig. 4, in order to store warm water obtained by heat exchange with a radiator of a refrigerator, in some embodiments, the second end of the water outlet connector 30 communicates with a water tank 50. Specifically, the water inlet pipe is communicated with the water outlet pipe. The water tank 50 is preferably a water tank having a heat-insulating property, and keeps warm water output from the water outlet connector 30 at a constant temperature for subsequent use. Of course, the water cooled by the refrigerator radiator can also be directly discharged into a water tank or a water bucket for storage for other purposes.

In this embodiment, in order to more sufficiently reduce the temperature of water newly entering the receiving space 101 by contacting with a refrigerator radiator, the water inlet connector 20 is disposed at the lower part of the receptacle 10; the water outlet connector 30 is provided at an upper portion of the container 10. That is, the newly-entered cold water slowly flows upwards from the bottom of the receiving space 101, and fully contacts with the refrigerator radiator in the process of flowing upwards, so that a better cooling effect is realized. Specifically, the water outlet connector 30 is disposed below the sealing opening 102, for example, at a distance of 5-10cm from the sealing opening 102. The water inlet connector 20 is disposed at a position 5-10cm from the bottom surface of the container 10. Of course, in order to allow all the water in the receiving space 101 to be discharged without completely removing the container 10 from the radiator of the refrigerator, the water inlet connector 20 is provided at the bottom of the receiving space 101, so that the water in the receiving space 101 can be discharged through the water inlet connector 20 at the bottom when the refrigerator is not used while it is stopped. In other embodiments, the water inlet connector 20 and the water outlet connector 30 may be disposed at an upper portion of the receptacle 10, and the water inlet connector 20 is connected to a hose through which newly introduced water is guided to the bottom of the receiving space 101.

Referring to fig. 4, the structure of the heat sink for a refrigerator is schematically illustrated when the heat sink is used with the refrigerator. In use, the refrigerator radiator 200 is inserted into the receiving space 101 from the sealing opening 102 at the bottom of the refrigerator radiator 200, and then the sealing opening 102 is sealed, so that the connection pipe 2001 of the refrigerator radiator 200 extends upward from the sealing opening 102 to the outside of the receiving space 101. Then is communicated with the water inlet connector 20 through the water inlet pipe 1, and the other end of the water inlet pipe 1 is connected with a water tap; is communicated with the water outlet connector 30 through a water outlet pipe 2, and the other end of the water outlet pipe 2 is communicated with a water tank 50. Then the water tap is opened so that the tap water flows into the receiving space 101 through the water inlet connector 20, the water level in the receiving space 101 continuously rises as more water flows in until it rises to the position of the water outlet connector 30, and during the further water inflow, the water starts to flow out from the water outlet connector 30 and flows into the water tank 50. Wherein, inlet tube 1 and outlet pipe 2 all adopt the hose to use. When the water heater is applied specifically, the flow of the water faucet can be controlled to enable the entering water to perform sufficient heat exchange with a refrigerator radiator, so that the water is heated to a certain degree. In the process, the heat exchange between the entering water and the refrigerator radiator is realized, so that the refrigerator radiator is cooled by water, the cooling efficiency is improved, and the energy consumption is reduced; meanwhile, the water after heat exchange reaches temperature rise, and the water after temperature rise flows out and is stored for users to use, so that the recovery and utilization of redundant energy are achieved.

It should be noted that, in the present embodiment, the sealing structure at the sealing opening 102 can be implemented by using a known technology, which can seal the opening and also seal the connecting pipe of the refrigerator radiator.

In some embodiments, the sealed opening 102 may also be sealed in the following manner.

As shown in fig. 5, the sealed opening 102 has a first inner side surface 1021 and a second inner side surface 1022, and the first inner side surface 1021 and the second inner side surface 1022 are sealingly engaged by a sealing structure. A convex strip 10211 is arranged on the first inner side surface 1021, and the convex strip 10211 is arranged along the length direction of the first inner side surface 1021; a groove 10221 is correspondingly arranged on the second inner side surface 1022, the groove 10221 is arranged along the length direction of the second inner side surface 1022, and when the sealing fit is performed, the protruding strip 10211 is in clamping sealing fit with the groove 10221. Preferably, in this embodiment, three convex strips 10211 are disposed from top to bottom at intervals, and three corresponding grooves 10221 are also disposed. Through the sealed cooperation setting of three-layer, improve the leakproofness. Further, in order to ensure the sealing stability after the sealing opening 102 is engaged, the present embodiment further includes a clamping member 40, wherein the clamping member 40 clamps the periphery of the sealing opening 102 to clamp the sealing structure of the sealing opening 102. Specifically, referring to fig. 6, the clamping member 40 includes a first clamping portion 401, a second clamping portion 402, and a lock 403 disposed at the rear of the second clamping portion 402, the front portions of the first clamping portion 401 and the second clamping portion 402 are hinged together, and a clamping space 404 for receiving the opening 105 of the sealed opening 102 is formed between the first clamping portion 401 and the second clamping portion 402. The latch 403 is used for being buckled with the first clamping portion 401. As shown in fig. 7, when in use, the opening 105 of the sealed opening 102 is placed in the clamping space 404, and then the second clamping portion 402 is rotated until the latch 403 is engaged with the first clamping portion 401, so as to clamp the opening 105, and the sealed opening 102 is tightly and hermetically connected together to prevent water in the receiving space 101 from flowing out.

Specifically, in order to ensure that the connecting pipe of the refrigerator heat sink can be exposed to the outside from the sealing opening 102 and sealed, in this embodiment, at least two sealing clamps 103 for sealing the connecting pipe of the refrigerator heat sink are further included. The number of the sealing clamping pieces 103 is determined according to the number of the required exposed parts of the refrigerator radiator. In the embodiment, two sealing clips 103 are provided as an example, and the two sealing clips 103 are used for realizing the sealing matching of the refrigerant outflow connecting pipe and the refrigerant return connecting pipe of the refrigerator radiator. During specific assembly, the sealing clamping piece 103 is positioned between the first inner side surface 1021 and the second inner side surface 1022, and the first inner side surface 1021 and the second inner side surface 1022 are in sealing fit with the outer side surface of the sealing clamping piece 103 to be in sealing connection.

In detail, as shown in fig. 8, the sealing clip 103 includes a first clip portion 1031 and a second clip portion 1032, the first clip portion 1031 and the second clip portion 1032 respectively have a first semicircular clip groove 1033 and a second semicircular clip groove 1034, the first clip groove 1033 and the second clip groove 1034 are buckled to form a sealing fit with the refrigerator during assembly, and the first inner side surface 1021 and the second inner side surface 1022 are respectively connected to the outer side surface of the first clip portion 1031 and the outer side surface of the second clip portion 1032 in a sealing manner. The scheme is suitable for sealing matching when the connecting pipe of the refrigerator radiator is a round pipe. In this embodiment, it should be understood that the inner side surfaces of the first and second clamping portions 1031 and 1032 are provided with soft sealing glue 1035, and the soft sealing glue 1035 is arranged along the length direction and along the surfaces of the first and second clamping grooves 1033 and 1034. That is, the sealing in the vertical direction after the first clamping portion 1031 and the second clamping portion 1032 are matched is realized by the soft sealing glue 1035, and the leakage is prevented. In order to better realize sealing, two pieces of soft sealing glue 1035 are arranged at intervals in the vertical direction to realize double-layer sealing. The first and second clamping portions 1031 and 1032 are fixed together by a snap connection. Referring to fig. 8 specifically, two fasteners 10311 are arranged at the inner side surface of the first clamping portion 1031 in the width direction, two fastening holes 10321 are arranged at the inner side surface of the second clamping portion 1032 correspondingly, and the first clamping portion 1031 and the second clamping portion 1032 are matched during assembly, so that the fasteners 10311 and the fastening holes 10321 are fastened, and thus, the sealing and matching of the connecting pipes of the two clamping portions to the refrigerator radiator are realized. When the sealing is performed, the first inner side surface 1021 and the second inner side surface 1022 are respectively in sealing fit connection with the first clamping portion 1031 and the second clamping portion 1032. A clamping groove 10312 matched with the convex strip 10211 is arranged on the first clamping part 1031, and when the first clamping part 1031 is assembled, the convex strip 10211 is matched with the clamping groove 10312 to realize sealing fit; similarly, the outer side surface of the second clamping part 1032 is provided with a matching strip 10322 matched with the groove 10221, and the matching strip 10322 is matched with the groove 10221 in a sealing way during assembly. This achieves a sealing engagement of the seal cartridge 103 at the seal opening 102. That is, the first inner side surface 1021 and the second inner side surface 1022 are detachably and hermetically connected to the outer side surface of the first clamping portion 1031 and the outer side surface of the second clamping portion 1032, respectively. Wherein, it is corresponding, have respectively on first clamping part 401 and the second clamping part 402 with first cooperation shrinkage pool 4011 and the second cooperation recess 4021 that first joint portion 1031 and second joint portion 1032 match, when the assembly, this first cooperation shrinkage pool 4011 closely cooperates with first joint portion 1031 and realizes strengthening sealedly, and second cooperation shrinkage pool 4021 closely cooperates with second joint portion 1032 and realizes strengthening sealedly.

As shown in fig. 9, in some other embodiments, the difference from the above is that the first inner side surface 1021 is fixedly connected with the outer side surface of the first clamping portion 1031, and the second inner side surface 1022 is fixedly connected with the outer side surface of the second clamping portion 1032. That is, the outer side surface of the first clamping portion 1031 and the first inner side surface 1021 are integrated, and the outer side surface of the second clamping portion 1032 and the second inner side surface 1022 are integrated; and the first and second clamping parts 1031 and 1032 are respectively protruded from the first and second inner side surfaces 1021 and 1022. This ensures that the first clamping portion 401 and the second clamping portion 402 can also clamp the first clamping portion 1031 and the second clamping portion 1032.

In a word, the technical scheme of the utility model the heat dissipation has been realized to the refrigerator radiator of external formula, improves the heat dissipation function to electric power has been practiced thrift.

In another aspect, referring to fig. 4, the present invention further provides a refrigerator, comprising a refrigerator body 100 and a refrigerator heat sink 200 disposed outside the refrigerator, and further comprising any one of the above-mentioned refrigerator heat sink, wherein the refrigerator heat sink 200 is accommodated in the accommodating space 101 of the refrigerator heat sink, and the accommodating space 101 is sealed by the sealing opening 102.

By the scheme, the heat dissipation performance of the refrigerator is improved, the energy consumption is reduced, and the recycling of redundant heat is realized.

Variations and modifications to the above-described embodiments may occur to those skilled in the art, in light of the above teachings and teachings. Therefore, the present invention is not limited to the specific embodiments disclosed and described above, and some modifications and changes to the present invention should fall within the protection scope of the claims of the present invention. Furthermore, although specific terms are employed herein, they are used in a generic and descriptive sense only and not for purposes of limitation.

Claims (10)

1. A heat sink device for a refrigerator, comprising:

the container (10) is of a soft structure and is provided with a containing space (101) and a sealed opening (102), the containing space (101) can contain a refrigerator radiator entering the containing space (101) from the sealed opening (102), and the containing space (101) can be sealed when the sealed opening (102) is closed;

a water inlet connector (20) having a first end hermetically connected to the receptacle (10) and communicating with the receiving space (101), and a second end directed to the outside; and

a water outlet connector (30) having a first end hermetically connected to the receptacle (10) and communicating with the receiving space (101), and a second end directed to the outside.

2. The heat dissipating device of a refrigerator as claimed in claim 1, wherein:

the sealing opening (102) is provided with a first inner side surface (1021) and a second inner side surface (1022), and the first inner side surface (1021) and the second inner side surface (1022) are in sealing fit through a sealing structure.

3. The heat dissipating device of a refrigerator as claimed in claim 2, wherein:

the refrigerator heat radiator sealing structure is characterized by further comprising at least two sealing clamping pieces (103) used for sealing a connecting pipe of the refrigerator heat radiator, wherein the sealing clamping pieces (103) are located between the first inner side face (1021) and the second inner side face (1022), and the first inner side face (1021) and the second inner side face (1022) are in sealing fit with the outer side face of the sealing clamping pieces (103) to be in sealing connection.

4. The heat dissipating device of a refrigerator as claimed in claim 3, wherein:

sealed fastener (103) include first joint portion (1031) and second joint portion (1032), and this first joint portion (1031) and second joint portion (1032) have semicircular first draw-in groove (1033) and second draw-in groove (1034) respectively, during the assembly first draw-in groove (1033) with second draw-in groove (1034) lock looses the refrigerator and seals up the cooperation, this first medial surface (1021) and second medial surface (1022) respectively with the lateral surface of first joint portion (1031) and the lateral surface sealing connection of second joint portion (1032).

5. The heat dissipating device of a refrigerator as claimed in claim 4, wherein:

the first inner side surface (1021) and the second inner side surface (1022) are respectively connected with the outer side surface of the first clamping portion (1031) and the outer side surface of the second clamping portion (1032) in a detachable and sealing mode.

6. The heat dissipating device of a refrigerator as claimed in claim 4, wherein:

the first inner side surface (1021) is fixedly connected with the outer side surface of the first clamping portion (1031) into a whole, and the second inner side surface (1022) is fixedly connected with the outer side surface of the second clamping portion (1032) into a whole.

7. The heat dissipating device of a refrigerator as claimed in claim 2, wherein:

the sealing device further comprises a clamping piece (40), wherein the clamping piece (40) is clamped on the peripheral side of the sealing opening (102) so as to clamp the sealing structure of the sealing opening (102).

8. The heat dissipating device of a refrigerator as claimed in claim 1, wherein:

the second end of the water outlet connector (30) is communicated with a water tank (50);

the water inlet connector (20) is arranged at the lower part of the container (10); the water outlet connector (30) is provided at an upper portion of the receptacle (10).

9. The heat dissipating device of a refrigerator as claimed in claim 1, wherein:

the container (10) is of a bag-like structure.

10. A refrigerator comprising a refrigerator body (100) and a refrigerator radiator (200) disposed outside the refrigerator, characterized in that:

further comprising a heat sink for a refrigerator according to any one of claims 1 to 9, the refrigerator heat sink (200) being received in a receiving space (101) of the refrigerator heat sink, and the sealing opening (102) sealing the receiving space (101).

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