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CN-121977320-A - Anti-condensation control method, anti-condensation control system, terminal equipment and storage medium

CN121977320ACN 121977320 ACN121977320 ACN 121977320ACN-121977320-A

Abstract

The application relates to an anti-condensation control method, an anti-condensation control system, terminal equipment and a storage medium, wherein the anti-condensation control method is used for preventing condensation from generating in refrigeration equipment, and collecting an environmental humidity value of the refrigeration equipment and a first duration after the door body is opened when the door body of the refrigeration equipment is detected to be opened; judging whether to start the anti-condensation mode based on the environmental humidity value and the first time, and if so, increasing the rotation speed of the compressor and/or the rotation speed of the fan. According to the application, by detecting the ambient humidity and the door opening time, the rotation speed of the compressor and/or the fan can be regulated up in advance according to the ambient humidity and the door opening time at the initial stage of condensation formation or not, so that the refrigeration and air flow circulation are enhanced.

Inventors

  • LIU WEI
  • LIANG XING
  • LI PENGHUI
  • CAO YONG
  • Lv Benyang

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
20260505
Application Date
20260203

Claims (12)

  1. 1. The condensation prevention control method is used for preventing condensation from generating in refrigeration equipment, and the refrigeration equipment comprises a door body and a box body which are connected in a pivoting mode, and is characterized by comprising the following steps: When the door body is detected to be opened, collecting an environmental humidity value of the refrigeration equipment and a first duration of time after the door body is opened; judging whether to start an anti-condensation mode or not based on the environmental humidity value and the first time period; and if judging that the anti-condensation mode needs to be started, regulating the rotation speed of the compressor and/or the rotation speed of the fan.
  2. 2. The method according to claim 1, wherein determining whether to turn on the anti-condensation mode based on the environmental humidity value and the first time period includes: Judging whether the environmental humidity value is larger than a first preset humidity value or not; If so, judging to start the anti-condensation mode when the first time length is greater than zero; If not, judging to start the anti-condensation mode when the first time length is longer than the first preset time length.
  3. 3. The method according to claim 2, wherein determining that the environmental humidity value is greater than a first preset humidity value and the first time period is greater than zero, determining that the anti-condensation mode is turned on, comprises: executing a first anti-condensation mode when the first time length is judged to be greater than zero and smaller than a first preset time length; executing a second anti-condensation mode when the first time length is more than or equal to a first preset time length; the fan rotating speed and the compressor rotating speed in the first condensation preventing mode are smaller than the fan rotating speed and the compressor rotating speed in the second condensation preventing mode.
  4. 4. The anti-condensation control method according to claim 3, further comprising: collecting an environmental temperature value of refrigeration equipment; Dynamically adjusting the fan rotating speed and the compressor rotating speed in the first anti-condensation mode and the second anti-condensation mode according to the environmental temperature value; wherein, the compressor rotational speed and the fan rotational speed are positively correlated to the ambient temperature value.
  5. 5. The anti-condensation control method according to claim 4, further comprising: Collecting the current refrigeration gear of the refrigeration equipment; Setting the fan rotating speed and the compressor rotating speed in a first anti-condensation mode and a second anti-condensation mode according to the refrigerating gear; the rotation speed of the compressor and the rotation speed of the fan are positively correlated with the refrigeration intensity represented by the refrigeration gear.
  6. 6. The anti-condensation control method according to claim 5, further comprising: Storing a preset control parameter table, wherein the control parameter table comprises a plurality of groups of mapping relations formed by the ambient temperature and the refrigeration gear under the first anti-condensation mode and the second anti-condensation mode; and calling the corresponding fan rotating speed and the corresponding compressor rotating speed in the control parameter table based on the first anti-condensation mode, the second anti-condensation mode, the current environment temperature and the current refrigeration gear.
  7. 7. The anti-condensation control method according to claim 1, further comprising detecting that the door body is in a closed state, and controlling the refrigeration apparatus to perform a normal refrigeration mode.
  8. 8. The anti-condensation control method according to claim 1, further comprising: judging whether the operation of the anti-condensation mode meets a preset exit condition or not; If yes, controlling the refrigeration equipment to exit the anti-condensation mode; wherein the preset exit condition includes a start time of running to the next refrigeration cycle.
  9. 9. An anti-condensation control system using the anti-condensation control method according to any one of the preceding claims 1 to 8, characterized by comprising: The data acquisition module (1) is used for acquiring an environmental humidity value and a first duration; And the control module (2) is connected with the data acquisition module (1) and is used for judging whether to enter the anti-condensation mode according to the environmental humidity value acquired by the data acquisition module (1) and the first time length and outputting a control signal to the compressor and/or the fan.
  10. 10. The anti-condensation control system according to claim 9, further comprising a storage module (4) connected to the control module (2), wherein the storage module (4) is configured to store rotational speed data of the compressor and the fan corresponding to the anti-condensation mode; the anti-condensation control system is configured to call the rotating speed data to control the rotating speed of the compressor and/or the fan when the anti-condensation control system enters an anti-condensation mode.
  11. 11. Terminal device, characterized in that the terminal device (10) comprises a memory (11), a processor (12) and a computer program (13) stored on the processor (12) and executable on the processor, which computer program (13) when executed by the processor (12) realizes the steps of the anti-condensation control method according to any one of claims 1-8.
  12. 12. A computer-readable storage medium having a program stored thereon, wherein the program when executed by a processor implements the steps of the anti-condensation control method according to any one of claims 1 to 8.

Description

Anti-condensation control method, anti-condensation control system, terminal equipment and storage medium Technical Field The application relates to the field of refrigeration, in particular to an anti-condensation control method, an anti-condensation control system, terminal equipment and a storage medium. Background Along with the continuous upgrading of modern refrigerator products, indoor designs are gradually diversified, and the traditional single liner material is developed into various styles of elements such as a metal liner, a glass panel, a surface light source and the like. Among them, glass is used for the design of the inside and top decoration of the refrigerating room. However, when the refrigerator door is opened in a high humidity environment, the external warm and humid air is in low-temperature contact with the surface of the glass, so that a condensation phenomenon is easily formed on the inner side of the glass, the product attractiveness is affected, and the use experience of a user is reduced. The condensation treatment scheme commonly used in the industry at present mainly relies on the conventional refrigeration cycle of refrigerator self, blows cold air to condensation region through inside wind path to disperse the fog that has condensed gradually, but relies on conventional refrigeration dehumidification process comparatively slowly, can't in time eliminate the instantaneous high humidity air that the user opened the door and bring, and whole dehumidification efficiency is lower. Disclosure of Invention The application provides an anti-condensation control method for preventing condensation inside refrigeration equipment, which comprises a door body and a box body which are connected in a pivoting way, and comprises the following steps: When the door body is detected to be opened, collecting an environmental humidity value of the refrigeration equipment and a first duration of time after the door body is opened; judging whether to start an anti-condensation mode or not based on the environmental humidity value and the first time period; and if judging that the anti-condensation mode needs to be started, regulating the rotation speed of the compressor and/or the rotation speed of the fan. Further, determining whether to turn on the anti-condensation mode based on the environmental humidity value and the first time period includes: Judging whether the environmental humidity value is larger than a first preset humidity value or not; If so, judging to start the anti-condensation mode when the first time length is greater than zero; If not, judging to start the anti-condensation mode when the first time length is longer than the first preset time length. Further, determining that the environmental humidity value is greater than a first preset humidity value and the first time period is greater than zero, determining to start the anti-condensation mode includes: executing a first anti-condensation mode when the first time length is judged to be greater than zero and smaller than a first preset time length; executing a second anti-condensation mode when the first time length is more than or equal to a first preset time length; the fan rotating speed and the compressor rotating speed in the first condensation preventing mode are smaller than the fan rotating speed and the compressor rotating speed in the second condensation preventing mode. Further, the method further comprises the following steps: collecting an environmental temperature value of refrigeration equipment; Dynamically adjusting the fan rotating speed and the compressor rotating speed in the first anti-condensation mode and the second anti-condensation mode according to the environmental temperature value; wherein, the compressor rotational speed and the fan rotational speed are positively correlated to the ambient temperature value. Further, the method further comprises the following steps: Collecting the current refrigeration gear of the refrigeration equipment; Setting the fan rotating speed and the compressor rotating speed in a first anti-condensation mode and a second anti-condensation mode according to the refrigerating gear; the rotation speed of the compressor and the rotation speed of the fan are positively correlated with the refrigeration intensity represented by the refrigeration gear. Further, the method further comprises the following steps: Storing a preset control parameter table, wherein the control parameter table comprises a plurality of groups of mapping relations formed by the ambient temperature and the refrigeration gear under the first anti-condensation mode and the second anti-condensation mode; and calling the corresponding fan rotating speed and the corresponding compressor rotating speed in the control parameter table based on the first anti-condensation mode, the second anti-condensation mode, the current environment temperature and the current refrigeration gear. Further, the method also comp