CN-117190568-B - Refrigerator with a refrigerator body

Abstract

The invention discloses a refrigerator, which comprises an energy storage battery, a refrigerant circulating system, a condensed water collecting component and a heat exchange mechanism, wherein the condensed water collecting component is used for collecting condensed water in the refrigerant circulating system, the heat exchange mechanism is arranged corresponding to the energy storage battery and is communicated with the condensed water collecting component to receive the condensed water, and the heat exchange mechanism cools the energy storage battery through the condensed water. The refrigerator effectively solves the problem of poor heat dissipation of the energy storage battery in the refrigerator with the energy storage battery in the prior art.

Inventors

• WANG MINGKUN
• HAN PENG
• LIU ZHIYUAN
• LI JIANGWEI

Assignees

• 珠海格力电器股份有限公司

Dates

Publication Date

20260505

Application Date

20230925

Claims (7)

1. 1. A refrigerator, including energy storage battery (10) and refrigerant circulation system, its characterized in that still includes: a condensed water collecting part (20) for collecting condensed water in the refrigerant circulation system; the heat exchange mechanism (30) is arranged corresponding to the energy storage battery (10), the heat exchange mechanism (30) is communicated with the condensed water collecting component (20) to receive condensed water, and the heat exchange mechanism (30) cools the energy storage battery (10) through the condensed water; The heat exchange mechanism (30) further includes: the heat exchange flow channel (31), the said heat exchange flow channel (31) is set up in the position of the said energy storage battery (10); the heat exchange flow channel (31) is communicated with the condensed water collecting component (20), and condensed water enters the heat exchange flow channel (31) to cool the energy storage battery (10); The heat exchange mechanism (30) further includes: The water absorbing component (32) is arranged in the heat exchange flow channel (31), the water absorbing component (32) is abutted with the energy storage battery (10), and the water absorbing component (32) can absorb condensed water and exchange heat with the energy storage battery (10); the refrigerator is internally provided with a heat conducting plate (70), the energy storage battery (10) is provided with a shell (11), and the heat conducting plate (70) and the shell (11) form the heat exchange flow channel (31); One end of the water absorbing component (32) is abutted against the heat conducting plate (70), and the other end is abutted against the shell (11).
2. 2. The refrigerator according to claim 1, wherein the water absorbing member (32) includes a plurality of water absorbing units (32 a) distributed at intervals with dislocation, and a circulation gap (32 b) for passing a medium is formed between the plurality of water absorbing units (32 a).
3. 3. The refrigerator according to claim 2, characterized in that the water absorbing unit (32 a) is a moisture absorbing tampon.
4. 4. The refrigerator according to claim 2, wherein an air inlet duct (40) and a compressor chamber (50) are formed inside the refrigerator, the air inlet duct (40) being in communication with a first end of the heat exchange flow passage (31), a second end of the heat exchange flow passage (31) being in communication with the compressor chamber (50); air enters the refrigerator through the air inlet duct (40), flows through the heat exchange flow channel (31) and then enters the compressor chamber (50).
5. 5. The refrigerator of claim 4, wherein the refrigerator interior further comprises: A water accumulation and drainage box (60), wherein an inner cavity of the water accumulation and drainage box (60) is communicated with the second end of the heat exchange flow channel (31); A drain outlet (61) is formed in the bottom of the water collecting and draining box (60), the drain outlet (61) is communicated with the inner cavity, the drain outlet (61) is communicated with the compressor cavity, and condensed water in the inner cavity of the water collecting and draining box (60) enters the compressor cavity (50) through the drain outlet (61); The water collecting and draining box (60) is provided with a vent (62), the vent (62) is communicated with the heat exchange flow channel (31) through the inner chamber, the vent (62) is communicated with the compressor chamber (50), and the vent (62) is used for ventilation.
6. 6. The refrigerator according to claim 4, characterized in that the energy storage battery (10) is arranged at the back of the refrigerator, the compressor chamber (50) being arranged at the bottom of the refrigerator; the heat exchange flow channel (31) extends along the height direction of the refrigerator, and the condensed water collecting component (20) is positioned above the heat exchange flow channel (31).
7. 7. The refrigerator according to claim 1, wherein, The refrigerator further comprises a cooling component (80), and the cooling component (80) is abutted with the heat conducting plate (70).

Description

Refrigerator with a refrigerator body Technical Field The invention relates to the technical field of refrigerators, in particular to a refrigerator. Background Along with the attractive demand of home decoration is higher and higher, the refrigerator often needs to be embedded into a cabinet or a special decorative cabinet, so that the integral heat dissipation of the refrigerator is limited, a plurality of refrigerators are often pushed to a wall and attached to the wall, the heat dissipation of the refrigerator with an energy storage battery is particularly unfavorable, and the energy storage battery refrigerator needs to be tiled for placing the battery so as not to influence the integral depth of the refrigerator, and the heat dissipation is poor under the thinned battery box sheet metal shell. In order to meet the heat dissipation of the thin-wall battery box and the refrigerator almost adhered to the wall, a special heat dissipation mode needs to be designed. One way in the prior art is to use a compressor chamber fan to dissipate heat, exhaust air through the back, and hot air rises through the back to eliminate condensed water, but the refrigerator is not suitable for placing an energy storage battery on the back, because the hot air heats the battery, and the heat dissipation is not facilitated. In the prior art, the defrosting water is collected and directly discharged to the condenser in the compressor cavity for cooling, which only has certain benefit for the refrigerating system of the refrigerator, but does not help for heat dissipation of the energy storage battery. In another mode in the prior art, the scheme is that the cooling fan structure is arranged, the assembly consistency with the condenser is improved, but the cooling problem of the embedded refrigerator cannot be solved. In summary, in the refrigerator with the energy storage battery in the prior art, the heat dissipation of the energy storage battery is poor. Disclosure of Invention The embodiment of the invention provides a refrigerator, which aims to solve the problem of poor heat dissipation of an energy storage battery in the refrigerator with the energy storage battery in the prior art. The refrigerator comprises an energy storage battery, a refrigerant circulating system, a condensed water collecting component and a heat exchange mechanism, wherein the condensed water collecting component is used for collecting condensed water in the refrigerant circulating system, the heat exchange mechanism is arranged corresponding to the energy storage battery and is communicated with the condensed water collecting component to receive the condensed water, and the heat exchange mechanism cools the energy storage battery through the condensed water. The heat exchange mechanism further comprises a heat exchange flow passage which is arranged at the position of the energy storage battery, the heat exchange flow passage is communicated with the condensed water collecting component, and the condensed water enters the heat exchange flow passage to cool the energy storage battery. Further, the heat exchange mechanism further comprises a water absorption part, the water absorption part is arranged in the heat exchange flow channel, the water absorption part is abutted with the energy storage battery, and the water absorption part can absorb condensed water and exchange heat with the energy storage battery. Further, the water absorbing component comprises a plurality of water absorbing units which are distributed in a staggered mode at intervals, and a circulation gap for flowing through a medium is formed among the water absorbing units. Further, the water absorption unit is a moisture absorption cotton sliver. Further, an air inlet duct and a compressor chamber are formed in the refrigerator, the air inlet duct is communicated with the first end of the heat exchange flow channel, the second end of the heat exchange flow channel is communicated with the compressor chamber, and air enters the refrigerator from the air inlet duct, flows through the heat exchange flow channel and then enters the compressor chamber. The refrigerator further comprises a water collecting and draining box, wherein the inner cavity of the water collecting and draining box is communicated with the second end of the heat exchange flow channel, a water outlet is formed in the bottom of the water collecting and draining box and is communicated with the inner cavity, the water outlet is communicated with the compressor cavity, condensed water in the inner cavity of the water collecting and draining box enters the compressor cavity through the water outlet, a vent is formed in the water collecting and draining box and is communicated with the heat exchange flow channel through the inner cavity, the vent is communicated with the compressor cavity, and the vent is used for air circulation. Further, the energy storage battery is arranged at the back of the refrigerator, the com