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CN-122015384-A - Air flow guiding device for fresh-keeping equipment and fresh-keeping equipment

CN122015384ACN 122015384 ACN122015384 ACN 122015384ACN-122015384-A

Abstract

The invention belongs to the technical field of food preservation equipment, and particularly provides an airflow guiding device for preservation equipment and the preservation equipment. The invention aims to solve the problem that an air conditioner in the existing fresh-keeping equipment cannot perform air conditioning on a plurality of fresh-keeping compartments. The air flow guiding device comprises a shell, an air door module and a fan, wherein the shell is limited with an air inlet cavity, a flow distribution cavity communicated with the air inlet cavity, and a first air outlet channel, a first air return channel, a second air outlet channel and a second air return channel which are respectively communicated with the flow distribution cavity. The air door module is arranged in the diversion cavity and comprises an air outlet air door, an air return air door and a motor. The motor is used for driving the air outlet air door and the air return air door to synchronously rotate, so that the air outlet air door and the air return air door move to a position for blocking the first air outlet channel and the first air return channel from being communicated with the air inlet cavity or a position for blocking the second air outlet channel and the second air return channel from being communicated with the air inlet cavity. The fan is arranged in the air inlet cavity. The present invention overcomes the above-mentioned technical problems.

Inventors

  • MIAO JIANLIN
  • LIU YONGHAO
  • LI CHUNYANG

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
20260512
Application Date
20241108

Claims (10)

  1. 1. An air flow guiding device for a fresh keeping apparatus including a case defining a first fresh keeping compartment and a second fresh keeping compartment and an air conditioning device for adjusting an oxygen concentration by an electrochemical reaction, the air flow guiding device comprising: The air inlet cavity and the split flow cavity are respectively used for leading to the air conditioning device, the first air outlet channel and the first air return channel are used for being communicated with the first fresh-keeping compartment, and the second air outlet channel and the second air return channel are used for being communicated with the second fresh-keeping compartment; The air door module is arranged in the shunt cavity and comprises an air outlet air door, an air return air door and a motor which are linked, wherein the motor is used for driving the air outlet air door and the air return air door to synchronously rotate so as to enable the air outlet air door and the air return air door to move to a position for blocking the first air outlet channel and the first air return channel from being communicated with the air inlet cavity or a position for blocking the second air outlet channel and the second air return channel from being communicated with the air inlet cavity; the fan is arranged in the air inlet cavity and used for driving air to enter the air inlet cavity.
  2. 2. The airflow directing device according to claim 1, wherein, The air door module further comprises a fixed shell, and the motor is fixedly connected with the fixed shell; the fixed shell divides the split flow cavity into an air outlet area and an air return area which are not communicated with each other, the air outlet area is respectively communicated with the first air outlet channel and the second air outlet channel, and the air return area is respectively communicated with the first air return channel and the second air return channel; the air outlet air door is positioned in the air outlet area, and the air return air door is positioned in the air return area.
  3. 3. The airflow directing device according to claim 2, wherein, The stationary housing includes a first side housing and a second side housing fixedly connected and collectively defining a mounting cavity for mounting the motor.
  4. 4. An air flow guiding device according to claim 3, wherein, An air outlet cavity which is limited to be opened is formed in one side, far away from the second side shell, of the first side shell, and a first air door outlet used for communicating the air outlet cavity with the first air outlet channel and a second air door outlet used for communicating the air outlet cavity with the second air outlet channel are formed in the peripheral wall of the air outlet cavity; One side of the second side shell, which is far away from the first side shell, is provided with a return air cavity with an opening, and the peripheral wall of the return air cavity is provided with a first air door return port for communicating the return air cavity with the first return air channel and a second air door return port for communicating the return air cavity with the second return air channel.
  5. 5. The airflow directing device according to claim 4, wherein, The open sides of the air outlet cavity and the air return cavity face the air inlet cavity respectively and/or The first air door outlet and the second air door outlet are respectively positioned on two adjacent side walls of the air outlet cavity, and the first air door return opening and the second air door return opening are respectively positioned on two adjacent side walls of the air return cavity.
  6. 6. The airflow directing device according to claim 1, wherein, Sealing components are respectively arranged on two opposite sides of the air outlet air door and the air return air door.
  7. 7. The airflow directing device according to any one of claims 1 to 6, wherein, The air inlet cavity is positioned at one side of the flow distribution cavity in the first direction, and the first air outlet channel and the first air return channel are positioned at the other side of the flow distribution cavity in the first direction; at least a part of each of the first air outlet channel and the first air return channel is distributed in sequence in a second direction, and the second direction is perpendicular to the first direction; The second air outlet channel and the second air return channel are positioned on the other side of the flow distribution cavity in the first direction, The second air outlet channel and the second air return channel are positioned on one side of the first air outlet channel and one side of the first air return channel in a third direction, and the third direction is perpendicular to the first direction and the second direction respectively.
  8. 8. The airflow directing device according to claim 7, wherein, The shell is provided with an air inlet formed on the peripheral wall of the air inlet cavity and an air outlet formed on the peripheral wall of the flow distribution cavity, so that the air inlet cavity is led to the air conditioning device through the air inlet, and the flow distribution cavity is led to the air conditioning device through the air outlet.
  9. 9. A preservation apparatus comprising: the box body is limited with a first fresh-keeping compartment and a second fresh-keeping compartment; An air-conditioning device; The air flow guiding device of any one of claims 1 to 8 for circulating air between the first fresh food compartment and/or the second fresh food compartment and the air regulating device, whereby the oxygen concentration in the first fresh food compartment and/or the second fresh food compartment is regulated by means of the air regulating device.
  10. 10. The preservation apparatus defined in claim 9, wherein, The box body also defines an air-conditioning space for arranging the air-conditioning device, the air-conditioning space is respectively in fluid communication with the air inlet cavity and the diversion cavity, and/or The fresh-keeping apparatus is a refrigerator.

Description

Air flow guiding device for fresh-keeping equipment and fresh-keeping equipment Technical Field The invention belongs to the technical field of food preservation equipment, and particularly provides an airflow guiding device for preservation equipment and the preservation equipment. Background The prior preservation equipment mainly comprises a refrigerator, a freezer and the like, and the food materials in the preservation equipment are preserved mainly by reducing the temperature of an internal preservation chamber. But the nature of oxygen in the air is very active and can still cause various spoilage reactions and spoilage of the food. Oxygen can destroy nutrients, pigments, flavors and other ingredients of the food by participating in oxidation reactions. At the same time, oxygen is also a necessary condition for the growth of aerobic microorganisms, and under aerobic conditions, the deterioration reaction rate caused by the proliferation of microorganisms is accelerated, resulting in a shortened shelf life of foods. In order to overcome the above problems, some fresh-keeping apparatuses are further provided with an air-conditioning device to consume oxygen in the fresh-keeping compartment through the air-conditioning device, thereby reducing the content of oxygen in the fresh-keeping compartment. Specifically, the air conditioner comprises a cathode, an anode and electrolyte filled between the cathode and the anode, and the air conditioner is contacted with air in the fresh-keeping compartment through the cathode, so that oxygen undergoes a reduction reaction at the cathode, namely O 2+2H2O+4e-→4OH-. And the anode is subjected to oxidation reaction to generate oxygen, namely 4OH -→O2+2H2O+4e-. Thereby the air regulating device can regulate the oxygen concentration in the fresh-keeping compartment. However, the air conditioner in the existing fresh-keeping equipment can only independently adjust the oxygen concentration in one fresh-keeping compartment, and if the oxygen concentration in a plurality of fresh-keeping compartments needs to be adjusted, one air conditioner needs to be respectively configured for each fresh-keeping compartment. Therefore, the cost of the fresh-keeping equipment is increased, more space in the fresh-keeping equipment is occupied, and the volume rate of the fresh-keeping equipment is low. Disclosure of Invention An object of the present invention is to provide an air flow guiding device for a fresh keeping apparatus and a fresh keeping apparatus, so as to solve the problem that an air conditioning device in the existing fresh keeping apparatus cannot perform air conditioning for a plurality of fresh keeping compartments. In order to achieve the above object, the present invention provides in a first aspect an air flow guiding device for a fresh keeping apparatus including a case defining a first fresh keeping compartment and a second fresh keeping compartment, and an air regulating device for regulating an oxygen concentration by an electrochemical reaction, the air flow guiding device comprising: The air inlet cavity and the split flow cavity are respectively used for leading to the air conditioning device, the first air outlet channel and the first air return channel are used for being communicated with the first fresh-keeping compartment, and the second air outlet channel and the second air return channel are used for being communicated with the second fresh-keeping compartment; The air door module is arranged in the shunt cavity and comprises an air outlet air door, an air return air door and a motor which are linked, wherein the motor is used for driving the air outlet air door and the air return air door to synchronously rotate so as to enable the air outlet air door and the air return air door to move to a position for blocking the first air outlet channel and the first air return channel from being communicated with the air inlet cavity or a position for blocking the second air outlet channel and the second air return channel from being communicated with the air inlet cavity; the fan is arranged in the air inlet cavity and used for driving air to enter the air inlet cavity. Optionally, the air door module further comprises a fixed shell, the motor is fixedly connected with the fixed shell, the split cavity is divided into an air outlet area and an air return area which are not communicated with each other by the fixed shell, the air outlet area is respectively communicated with the first air outlet channel and the second air outlet channel, the air return area is respectively communicated with the first air return channel and the second air return channel, the air outlet air door is located in the air outlet area, and the air return air door is located in the air return area. Optionally, the stationary housing comprises a first side housing and a second side housing fixedly connected and together defining a mounting cavity for mounting the motor. Optionally, an air o