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CN-224215642-U - Refrigerator with a refrigerator body

CN224215642UCN 224215642 UCN224215642 UCN 224215642UCN-224215642-U

Abstract

The application relates to the technical field of household appliances, in particular to a refrigerator which comprises a box body, a door body, an evaporation dish assembly and an evaporation tube, wherein the box body is provided with a refrigeration compartment, the door body is movably connected with the box body and is configured to open and close the refrigeration compartment, the evaporation dish assembly is arranged at the bottom of the box body and comprises an evaporation dish for collecting defrosting water, the evaporation dish is provided with an inserting groove which is positioned at the outer side of the bottom of the evaporation dish and extends along the length direction of the evaporation dish or the width direction of the evaporation dish, and at least part of the evaporation tube is inserted into the inserting groove along the extending direction of the inserting groove so as to enable at least part of the evaporation tube to be attached to the bottom of the evaporation dish. The application improves the service life of the evaporating pipe, breaks through the bottleneck problem of inaccurate size of the evaporating pipe, and can improve the installation stability of the evaporating pipe.

Inventors

  • CHENG SHASHA
  • LIU TIEWEI
  • XIAO YUANQING
  • LIU HENGYOU
  • SHI YUHUI
  • LI YU

Assignees

  • 海信冰箱有限公司

Dates

Publication Date
20260508
Application Date
20250514

Claims (10)

  1. 1. A refrigerator (100), characterized by comprising: A case (110) having a refrigerating compartment; A door body (120) movably connected to the case body (110) and configured to open and close the refrigerating compartment; the evaporation dish subassembly (130), locate the bottom of box (110), evaporation dish subassembly (130) include: An evaporation pan (131) for collecting defrost water, the evaporation pan (131) having: A socket groove (1313) located outside the bottom of the evaporation pan (131), the socket groove (1313) extending along the length direction of the evaporation pan (131) or the width direction of the evaporation pan (131); And the evaporation tube (132) is at least partially inserted into the inserting groove (1313) along the extending direction of the inserting groove (1313), so that at least part of the evaporation tube (132) is attached to the bottom of the evaporation dish (131).
  2. 2. The refrigerator (100) according to claim 1, wherein the insertion groove (1313) extends along a width direction of the evaporation pan (131); The plurality of inserting grooves (1313) are arranged at intervals along the length direction of the evaporation pan (131), so that the evaporation tube (132) is spirally arranged on the outer side of the bottom of the evaporation pan (131).
  3. 3. The refrigerator (100) according to claim 1, wherein the insertion groove (1313) is elongated, and/or, The evaporation pan (131) is an injection molding piece.
  4. 4. A refrigerator (100) according to any one of claims 1-3, wherein the evaporation pan (131) further has: A fitting portion (1311) protruding toward the inside of the evaporation pan (131), the fitting portion (1311) having a housing chamber housing the evaporation tube (132); The isolating part (1312) is positioned at the bottom of the evaporation dish (131), and at least part of the isolating part (1312) is used for sealing the cavity opening of the accommodating cavity so as to form the inserting groove (1313) together with the inserting part (1311).
  5. 5. The refrigerator (100) according to claim 4, wherein the refrigerator (100) further comprises: A pallet (141) for supporting the evaporation pan assembly (130), the partition (1312) being located between the evaporation tube (132) and the pallet (141) along a depth direction of the evaporation pan (131).
  6. 6. The refrigerator (100) according to claim 4, wherein the isolation portion (1312) has a plate-like structure, and a weight-reducing hole (13121) is formed in the isolation portion (1312).
  7. 7. The refrigerator (100) according to claim 6, wherein the weight-reducing holes (13121) are plural, and the plurality of weight-reducing holes (13121) are provided at intervals to the partition (1312).
  8. 8. The refrigerator (100) according to claim 5, wherein the refrigerator (100) further comprises: a refrigeration assembly (140) for refrigerating the refrigeration compartment, the refrigeration assembly (140) comprising a first heat exchange port and a second heat exchange port; the evaporation tube (132) includes: a first evaporation pipe (1321) inserted into the insertion groove (1313); A second evaporation tube (1322), wherein a first end of the second evaporation tube (1322) is communicated with a first end of the first evaporation tube (1321), and a second end of the second evaporation tube (1322) is communicated with the first heat exchange port; A third evaporation tube (1323), wherein a first end of the second evaporation tube (1322) is communicated with a second end of the first evaporation tube (1321), and a second end of the second evaporation tube (1322) is communicated with the second heat exchange port; The second evaporation tube (1322) and the third evaporation tube (1323) are clamped on the outer side wall of the evaporation pan (131).
  9. 9. The refrigerator (100) according to claim 8, wherein the evaporating dish (131) further has thereon: The first clamping groove (1314) is communicated with the inserting groove (1313), the first clamping groove (1314) is positioned at a first end of the outer side wall of the evaporation dish (131), the first clamping groove (1314) extends along the depth direction of the evaporation dish (131), a part of the second evaporation tube (1322) is clamped in the first clamping groove (1314), and the other part of the second evaporation tube (1322) is suspended at the upper side of the evaporation dish (131); the second clamping groove (1315) is communicated with the inserting groove (1313), the second clamping groove (1315) is located at the second end of the outer side wall of the evaporation dish (131), the second clamping groove (1315) extends along the depth direction of the evaporation dish (131), part of the structure of the third evaporation tube (1323) is clamped in the second clamping groove (1315), and the other part of the structure of the third evaporation tube (1323) is suspended at the upper side of the evaporation dish (131).
  10. 10. The refrigerator (100) of claim 9, wherein at least one of the second evaporation tube (1322) and the third evaporation tube (1323) is bent.

Description

Refrigerator with a refrigerator body Technical Field The application relates to the technical field of household appliances, in particular to a refrigerator. Background As technology develops, the functions of the refrigerator are continuously enriched and perfected so as to meet the demands of users on food preservation, storage and other aspects. In the process of conception and implementation of the application, the applicant finds that at least the following problems exist in the prior art, the refrigerator comprises a refrigerator body and an inner container arranged in the refrigerator body, wherein the inner container forms a refrigeration compartment for storing articles at low temperature, and the refrigeration compartment is refrigerated by a refrigeration system in the refrigerator. During operation, the evaporator of the refrigeration system produces condensed water, and typically, an evaporation pan is provided within the refrigerator for collecting this portion of the condensed water. Generally, an evaporating pipe is arranged in the evaporating dish, condensed water is evaporated through heat radiation of the evaporating pipe, and the condensed water is generally acidic due to impurities, so that the evaporating pipe made of steel pipe materials is severely corroded, and when the evaporating pipe is corroded, refrigerant can be further leaked, so that the refrigerator is invalid in function. The foregoing description is provided for general background information and does not necessarily constitute prior art. Disclosure of utility model The application mainly aims to provide a refrigerator, which can reduce corrosion to an evaporation tube, prolong the service life of the evaporation tube, break through the bottleneck problem of inaccurate size of the evaporation tube and improve the installation stability of the evaporation tube. In order to achieve the above object, the present application provides a refrigerator including: the box body is provided with a refrigeration compartment; the door body is movably connected with the box body and is configured to open and close the refrigeration compartment; The evaporation dish subassembly is located the bottom of box, and evaporation dish subassembly includes: an evaporation pan for collecting defrost water, the evaporation pan having: The inserting groove is positioned at the outer side of the bottom of the evaporation dish and extends along the length direction of the evaporation dish or the width direction of the evaporation dish; The evaporation pipe is at least partially inserted into the inserting groove along the extending direction of the inserting groove, so that at least part of the evaporation pipe is attached to the bottom of the evaporation dish. The evaporator has the advantages that the evaporator is externally arranged outside the bottom of the evaporator through the structure of the evaporator assembly, so that the evaporator is not in direct contact with condensed water or defrosting water in the evaporator, corrosion to the evaporator can be reduced, the service life of the evaporator is prolonged, in addition, the evaporator is inserted outside the bottom of the evaporator through the inserting groove, the bottleneck problem of inaccurate size of the evaporator is broken through, the installation stability of the evaporator can be improved, the assembly efficiency of the evaporator is high, and the overall practicability is high. On the basis of the technical scheme, the application can be improved as follows. In some alternative embodiments, the insertion groove extends along the width direction of the evaporation pan; The plurality of inserting grooves are arranged at intervals along the length direction of the evaporation dish, so that the evaporation pipe is spirally arranged at the outer side of the bottom of the evaporation dish. The technical scheme has the advantages that the good contact between the evaporating pipe and the evaporating dish can be ensured by the design of the inserting grooves through the close fitting of the evaporating pipe on the outer side of the bottom of the evaporating dish, so that the heat conduction efficiency is improved, and the heat of the evaporating pipe can be used more effectively to accelerate the evaporation of condensed water in the evaporating dish. In some alternative embodiments, the mating grooves are elongated, and/or, The evaporating dish is an injection molding piece. The technical scheme has the advantages that the strip-shaped inserting grooves can provide larger contact area, so that heat conduction between the evaporating pipes and the evaporating dish is more efficient, heat can be transferred to the evaporating dish more quickly, and evaporation of condensed water is accelerated. In some alternative embodiments, the evaporation pan further has: the inserting part protrudes to the inner side of the evaporating dish and is provided with a containing cavity for containing