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CN-121977275-A - Air flow control method, air treatment equipment, medium and product

CN121977275ACN 121977275 ACN121977275 ACN 121977275ACN-121977275-A

Abstract

The application relates to an air flow control method, air treatment equipment, medium and product. An airflow control method is used for air treatment equipment, the air treatment equipment is provided with at least one adjustable air outlet, the method comprises the steps of obtaining current target information, wherein the current target information comprises current position information between at least two target users and the air treatment equipment respectively, and controlling the radiation range and/or the air outlet direction of the at least one adjustable air outlet based on the current target information so as to avoid all target users. According to the airflow control method, the air outlet direction of the adjustable air outlet can be automatically controlled according to the current position information of at least two target users so as to avoid all the target users, and the requirement of a plurality of users on avoiding the air outlet radiation range in real time is met.

Inventors

  • YAO DINGSHENG

Assignees

  • 深圳市净享智能生活科技有限公司

Dates

Publication Date
20260505
Application Date
20251127

Claims (14)

  1. 1. An air flow control method is used for air treatment equipment and is characterized in that the air treatment equipment is provided with at least one adjustable air outlet; The method comprises the following steps: acquiring current target information, wherein the current target information comprises current position information between at least two target users and the air treatment equipment respectively; And controlling the radiation range and/or the air outlet direction of the at least one adjustable air outlet based on the current target information so as to avoid all target users.
  2. 2. The method of claim 1, wherein the number of the adjustable air outlets is one, the adjustable air outlets are provided with a plurality of first preset air outlet modes, and the radiation ranges and/or the air outlet directions of the different first preset air outlet modes are different; The step of controlling the radiation range and/or the air outlet direction of the at least one adjustable air outlet based on the current target information so as to avoid all target users comprises the following steps: and determining a first preset air outlet mode which is currently matched based on the current target information, and controlling the air outlet mode of the adjustable air outlet to be the first preset air outlet mode which is currently matched, so that all target users are located outside the radiation range of the adjustable air outlet.
  3. 3. The method of claim 1, wherein the number of adjustable outlets is one, the current target information comprises first current location information between a first target user and the air treatment device, and second current location information between a second target user and the air treatment device; The step of controlling the radiation range and/or the air outlet direction of the at least one adjustable air outlet based on the current target information so as to avoid all target users comprises the following steps: calculating a first included angle adjacent to the current position information; Judging whether a first included angle is larger than the first preset included angle or not, if so, controlling the air outlet direction of the adjustable air outlet, wherein the air outlet direction is positioned between a group of adjacent current position information; Judging whether the two adjacent pieces of current position information are located in the radiation range of the adjustable air outlet, and if so, controlling the side retraction of the corresponding side of the adjustable air outlet until the two adjacent pieces of current position information are located.
  4. 4. The method of claim 1, wherein the number of adjustable outlets is one; The step of controlling the radiation range and/or the air outlet direction of the at least one adjustable air outlet based on the current target information so as to avoid all target users comprises the following steps: calculating a first included angle adjacent to the current position information; judging whether a first included angle is larger than the first preset included angle or not; if yes, judging whether the included angle of the current radiation range of the adjustable air outlet is larger than the first included angle; If yes, controlling the included angle of the radiation range of the adjustable air outlet to be smaller than or equal to the first included angle; and controlling the air outlet direction of the adjustable air outlet, and being positioned between the adjacent current position information.
  5. 5. The method of claim 1, wherein the number of adjustable outlets is one; The step of controlling the radiation range and/or the air outlet direction of the at least one adjustable air outlet based on the current target information so as to avoid all target users comprises the following steps: Judging whether the current position information located in the radiation range of the adjustable air outlet and the current position information located outside the radiation range of the adjustable air outlet exist at the same time, if so, judging whether the current position information located outside the radiation range of the adjustable air outlet is located on the same side of the radiation range of the adjustable air outlet, and if so, controlling the adjustable air outlet to rotate towards the other side.
  6. 6. The method of claim 1, wherein the at least one adjustable air outlet comprises a first adjustable air outlet and a second adjustable air outlet, wherein the first adjustable air outlet has a plurality of second preset air outlet modes, wherein the air outlet direction and/or the air outlet angle of the second preset air outlet modes are different, wherein the second adjustable air outlet has a plurality of third preset air outlet modes, and wherein the air outlet direction and/or the air outlet angle of the third preset air outlet modes are different; the step of controlling the radiation range and/or the air outlet direction of the at least one adjustable air outlet based on the current target information so as to avoid all target users comprises the following steps: Determining a second preset air-out mode which is currently matched and a third preset air-out mode which is currently matched based on the current target information; the method comprises the steps of controlling the air outlet mode of a first adjustable air outlet to be a second preset air outlet mode which is matched currently so that target users are located outside the radiation range of the first adjustable air outlet, and controlling the air outlet mode of a second adjustable air outlet to be a third preset air outlet mode which is matched currently so that target users are located outside the second radiation range.
  7. 7. The method of claim 6, wherein the step of determining a second preset air-out pattern that is currently matched and a third preset air-out pattern that is currently matched based on the current target information comprises: Judging whether a second preset air-out mode with a radiation range between two adjacent pieces of current position information exists or not based on the current target information, and if so, selecting one of the second preset air-out modes as the second preset air-out mode which is currently matched; And judging whether a third preset air-out mode with the radiation range between two adjacent pieces of current position information exists or not based on the current target information, and if so, selecting one of the third preset air-out modes as the current matched third preset air-out mode.
  8. 8. The method of claim 6, wherein the current target information comprises first current location information between a first target user and the air treatment device, and second current location information between a second target user and the air treatment device; the second preset air-out mode of all target users is avoided, and the included angle between the matched second preset air-out mode and the first current position information is the smallest; and avoiding the third preset air outlet mode of all target users, wherein the included angle between the matched third preset air outlet mode and the second current position information is the smallest.
  9. 9. The method according to claims 1 to 8, wherein the step of controlling the radiation range and/or the air outlet direction of the at least one adjustable air outlet based on the current target information so as to avoid all target users, such that any one of the target users is arranged at a distance from a side of the radiation range of the adjustable air outlet.
  10. 10. The method of any one of claims 1 to 8, wherein the adjustable air outlet has oppositely disposed first and second guide inner walls; the manner of controlling the radiation range and/or the change of the air outlet direction of the adjustable air outlet comprises the following steps: controlling the first guiding inner wall to rotate; and/or controlling the second guiding inner wall to rotate.
  11. 11. An air treatment apparatus, comprising: at least one adjustable air outlet; the system comprises a monitoring module, a control module and an air treatment device, wherein the monitoring module is configured to monitor current target information, and the current target information comprises current position information between at least two target users and the air treatment device respectively; a control module configured to control the radiation range and/or the air outlet direction of the at least one adjustable air outlet according to the method of any one of claims 1 to 10.
  12. 12. An air treatment device comprising a memory and a processor, wherein the memory has stored therein a computer program, the processor being arranged to run the computer program to perform the method of any of claims 1 to 10.
  13. 13. A computer readable storage medium, on which a computer program is stored, characterized in that the computer program, when being executed by a processor, implements the steps of the method of any of claims 1 to 10.
  14. 14. A computer program product comprising a computer program, characterized in that the computer program, when executed by a processor, implements the steps of the method of any one of claims 1 to 10.

Description

Air flow control method, air treatment equipment, medium and product Technical Field The application relates to the field of air treatment, in particular to an air flow control method, air treatment equipment, a medium and a product. Background With the improvement of living standard of people, the air treatment equipment is widely applied in life. Some conventional air treatment devices, a user may adjust the air outlet direction of the air treatment device as desired. In some situations, there may be multiple users, and the users may need to avoid the radiation range of the air outlet of the air treatment device due to physical discomfort, and in other situations, the multiple users may change their positions with higher frequency. However, in these scenarios, even if the air-out direction of the air treatment device is frequently adjusted, it is difficult to meet the requirement that a plurality of users avoid the air-out radiation range in real time. Disclosure of Invention Based on this, it is necessary to provide an air flow control method, an air treatment device, a medium and a product, which can meet the requirement that a plurality of users avoid the range of the air-out radiation in real time. In one aspect, the present application provides an air flow control method for an air treatment device having at least one adjustable air outlet; The method comprises the following steps: acquiring current target information, wherein the current target information comprises current position information between at least two target users and the air treatment equipment respectively; And controlling the radiation range and/or the air outlet direction of the at least one adjustable air outlet based on the current target information so as to avoid all target users. Optionally, the number of the adjustable air outlets is one, and the adjustable air outlets are provided with a plurality of first preset air outlet modes, wherein the radiation ranges and/or the air outlet directions of the different first preset air outlet modes are different; The step of controlling the radiation range and/or the air outlet direction of the at least one adjustable air outlet based on the current target information so as to avoid all target users comprises the following steps: and determining a first preset air outlet mode which is currently matched based on the current target information, and controlling the air outlet mode of the adjustable air outlet to be the first preset air outlet mode which is currently matched, so that all target users are located outside the radiation range of the adjustable air outlet. Optionally, the number of the adjustable air outlets is one, and the current target information comprises first current position information between a first target user and the air treatment equipment and second current position information between a second target user and the air treatment equipment; The step of controlling the radiation range and/or the air outlet direction of the at least one adjustable air outlet based on the current target information so as to avoid all target users comprises the following steps: calculating a first included angle adjacent to the current position information; Judging whether a first included angle is larger than the first preset included angle or not, if so, controlling the air outlet direction of the adjustable air outlet, wherein the air outlet direction is positioned between a group of adjacent current position information; Judging whether the two adjacent pieces of current position information are located in the radiation range of the adjustable air outlet, and if so, controlling the side retraction of the corresponding side of the adjustable air outlet until the two adjacent pieces of current position information are located. Optionally, the number of the adjustable air outlets is one; The step of controlling the radiation range and/or the air outlet direction of the at least one adjustable air outlet based on the current target information so as to avoid all target users comprises the following steps: calculating a first included angle adjacent to the current position information; judging whether a first included angle is larger than the first preset included angle or not; if yes, judging whether the included angle of the current radiation range of the adjustable air outlet is larger than the first included angle; If yes, controlling the included angle of the radiation range of the adjustable air outlet to be smaller than or equal to the first included angle; and controlling the air outlet direction of the adjustable air outlet, and being positioned between the adjacent current position information. Optionally, the number of the adjustable air outlets is one; The step of controlling the radiation range and/or the air outlet direction of the at least one adjustable air outlet based on the current target information so as to avoid all target users comprises the following steps: Judg