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CN-121993974-A - Electrolytic assembly and refrigerator

CN121993974ACN 121993974 ACN121993974 ACN 121993974ACN-121993974-A

Abstract

The invention discloses an electrolysis assembly and a refrigerator with the same, the refrigerator comprises a box body, an electrolysis box is arranged in the box body, an oxygen regulating pipe is connected to the electrolysis box, the oxygen regulating pipe is provided with an oxygen outlet communicated with a product gas converging cavity and an oxygen inlet communicated with the outside of the electrolysis box, the electrolysis assembly is provided with at least one dumping direction, and the oxygen outlet and the oxygen inlet are arranged to be at least one line higher than the highest liquid level in the electrolysis box in any dumping direction under any dumping angle alpha in each dumping direction. The oxygen outlet and the oxygen inlet are arranged to be at least one line higher than the highest liquid level in the electrolysis box in any dumping direction, and electrolyte in the electrolysis box cannot leak into the oxygen regulating chamber for fresh keeping in the process of carrying and dumping of the refrigerator, so that food materials in the oxygen regulating chamber can be prevented from being polluted.

Inventors

  • OUYANG JIA
  • MIAO JIANLIN
  • CHEN JIANQUAN
  • ZHANG HAO

Assignees

  • 青岛海尔电冰箱有限公司
  • 海尔智家股份有限公司

Dates

Publication Date
20260508
Application Date
20241108

Claims (15)

  1. 1. An electrolysis assembly comprises an electrolysis box (11) and is characterized in that an oxygen regulating pipe (21) is connected to the electrolysis box (11), the oxygen regulating pipe (21) is provided with an oxygen outlet (211) communicated with the electrolysis box (11) and an oxygen inlet (212) communicated with the outside of the electrolysis box (11), the electrolysis assembly is provided with at least one dumping direction, and the oxygen outlet (211) and/or the oxygen inlet (212) are/is higher than the highest liquid level line in the electrolysis box (11) at any dumping angle alpha in each dumping direction.
  2. 2. The electrolytic assembly of claim 1 wherein α is 0-90 °.
  3. 3. The electrolysis assembly according to claim 2, wherein the oxygen outlet (211) is located at the upper end edge of the electrolysis cell (11) in the non-toppled direction.
  4. 4. The electrolytic assembly according to claim 2, further comprising a fluid replacement cassette (31), wherein the oxygen inlet (212) is in communication with the fluid replacement cassette (31).
  5. 5. The electrolytic assembly according to claim 4, wherein the liquid replenishing box (31) is provided with a filtering area (32), the oxygen inlet (212) is communicated with the filtering area (32), the liquid replenishing box (31) is further provided with a filtered air outlet (321) positioned in the filtering area (32), and the filtered air outlet (321) is communicated with the outside of the filtering area (32) and the liquid replenishing box (31).
  6. 6. The electrolytic assembly according to claim 5, wherein the filtered air outlet (321) is located at an upper end edge of the liquid replenishing box (31) in a non-toppling direction.
  7. 7. The electrolytic assembly according to claim 4, wherein a liquid supplementing pipe (41) is connected between the liquid supplementing box (31) and the electrolytic box (11), the liquid supplementing pipe (41) is provided with a liquid outlet (411) communicated with the inside of the liquid supplementing box (31) and a liquid inlet (412) communicated with the inside of the electrolytic box (11), and the liquid outlet (411) or the liquid inlet (412) is higher than the highest liquid level line in the electrolytic box (11) at any pouring angle alpha in each pouring direction.
  8. 8. The electrolytic assembly according to claim 7, wherein the liquid inlet (412) is not higher than the lumen of the liquid replenishing pipe (41) in the non-toppling direction; and/or, in the non-toppling direction, the liquid outlet (411) is higher than the liquid inlet (412).
  9. 9. The electrolytic assembly according to claim 7, wherein the electrolytic box (11) is internally provided with a product gas converging cavity (13) and an electrolyte containing cavity (12) which is positioned below the product gas converging cavity (13) and is communicated with the product gas converging cavity (13), the oxygen outlet (211) is communicated with the product gas converging cavity (13), and the liquid inlet (412) is communicated with the electrolyte containing cavity (12).
  10. 10. The electrolytic assembly according to claim 9, wherein an electrode (14) is provided in the electrolyte housing chamber (12) in the electrolytic case (11), and a lowest level line of the electrolyte housing chamber (12) is not lower than an upper end edge of the electrode (14) in the non-toppling direction.
  11. 11. The electrolytic assembly according to claim 10, wherein the fluid replacement box (31) is internally provided with a fluid storage area (33) and a fluid control area (34) which is positioned below the fluid storage area (33) and is communicated with the fluid storage area (33), and the fluid outlet (411) is communicated with the fluid replacement box (31) and is positioned below the fluid control area (34).
  12. 12. The electrolytic assembly according to claim 11, wherein the liquid control zone (34) is disposed on a horizontal side of the electrolyte receiving chamber (12) in a non-toppling direction, and a liquid supplementing line of the liquid control zone (34) is not higher than the highest liquid level line.
  13. 13. The electrolytic assembly according to claim 9, wherein the liquid replenishing box (31) has a first portion and a second portion connected to each other, the first portion having a width larger than that of the second portion to form a groove portion on one side of the second portion, and the product gas converging chamber (13) is embedded in the groove portion at least in a horizontal direction.
  14. 14. The electrolytic assembly according to claim 13, wherein the fluid replacement cassette (31) is provided with a fluid replacement port (315) in a top wall of the first portion.
  15. 15. A refrigerator comprising a refrigerator body, wherein the refrigerator body is provided with the electrolytic assembly according to any one of claims 1 to 14.

Description

Electrolytic assembly and refrigerator Technical Field The invention relates to the technical field of preservation, in particular to an electrolytic assembly and a refrigerator. Background With the improvement of living standard, the demands of consumers on the refrigerator are also improved, and the consumers hope that food materials in the refrigerator can be stored for a longer time. The oxygen content requirements of different food materials in the storage environment are different, and for the food materials of fruits and vegetables, the food and oxygen undergo oxidation reaction, so that nutrient substances, pigments, flavor substances and other components of the food are damaged, and the food materials are not easy to store in the oxygen-enriched environment, and for the food materials of fresh meat, enough oxygen is needed to prolong the storage time of the food materials. Existing air conditioning devices are generally constructed to include a cathode, an anode, and an electrolyte filled therebetween. These devices contact the air in the space through the cathode, causing the oxygen to undergo a reduction reaction at the cathode, specifically of the formula O 2+2H2O+4e-→4OH-. At the same time, the anode is subjected to oxidation reaction to generate oxygen, and the reaction formula is 4OH -→O2+2H2O+4e-. Generally, the air conditioning device is provided with an air outlet, the air outlet is communicated with the oxygen conditioning chamber through a pipeline, and the oxygen content in the oxygen conditioning chamber is regulated and controlled by supplementing oxygen conditioning gas. In normal use of the refrigerator, the electrolyte in the air conditioner cannot leak. However, during transportation, the refrigerator can topple over, and electrolyte in the air conditioning device can flow into the oxygen conditioning chamber from the air outlet and the pipeline, so that harmful components in the electrolyte enter the chamber to pollute food, and potential safety hazards exist. Disclosure of Invention The invention aims to provide an electrolytic assembly and a refrigerator, which are used for solving the defects in the prior art. In order to achieve one of the above purposes, the invention provides an electrolysis assembly, which comprises an electrolysis box and is characterized in that an oxygen regulating pipe is connected to the electrolysis box, the oxygen regulating pipe is provided with an oxygen outlet communicated with the electrolysis box and an oxygen inlet communicated with the outside of the electrolysis box, the electrolysis assembly is provided with at least one dumping direction, and the oxygen outlet and/or the oxygen inlet are/is higher than the highest liquid level line in the electrolysis box at any dumping angle alpha in each dumping direction. As a further improvement of an embodiment of the present invention, the α is 0 ° to 90 °. As a further improvement of an embodiment of the present invention, in the non-toppling direction, the oxygen outlet is located at the upper end edge of the electrolysis cell. As a further improvement of an embodiment of the present invention, the electrolytic assembly further comprises a fluid replenishing box, and the oxygen inlet is communicated with the fluid replenishing box. As a further improvement of an embodiment of the present invention, the fluid replacement box has a filtering area, the oxygen inlet is connected to the filtering area, and the fluid replacement box is further provided with a filtered air outlet located in the filtering area, and the filtered air outlet is connected to the outside of the filtering area and the fluid replacement box. As a further improvement of an embodiment of the present invention, in the non-toppling direction, the air filtering outlet is located at an upper end edge of the fluid replacement box. As a further improvement of an embodiment of the present invention, a liquid replenishing pipe is connected between the liquid replenishing box and the electrolytic box, the liquid replenishing pipe has a liquid outlet communicated with the inside of the liquid replenishing box, and a liquid inlet communicated with the inside of the electrolytic box, and the liquid outlet or the liquid inlet is higher than the highest liquid level line in the electrolytic box at any pouring angle α in each pouring direction. As a further improvement of an embodiment of the present invention, in the non-toppling direction, the liquid inlet is not higher than the lumen of the liquid replenishing pipe; and/or, in the non-toppling direction, the liquid outlet is higher than the liquid inlet. As a further improvement of an embodiment of the invention, the electrolytic box is internally provided with a product gas converging cavity and an electrolyte containing cavity which is positioned below the product gas converging cavity and communicated with the product gas converging cavity, the oxygen outlet is communicated with the product