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CN-122002650-A - Method for controlling heating in shoes

CN122002650ACN 122002650 ACN122002650 ACN 122002650ACN-122002650-A

Abstract

The application discloses a method for controlling heating in shoes, which comprises the steps of responding to a signal receiving end detected in a preset range and transmitting electric energy to the signal receiving end, collecting preset type information, generating a heating signal according to the preset type information, sending the heating signal to the signal receiving end to drive the signal receiving end to execute a corresponding heating procedure according to the heating signal, judging whether the temperature in the shoes after the heating procedure is executed reaches a preset temperature threshold value, and if so, driving the signal receiving end to stop executing the heating procedure. According to the application, through establishing close-range wireless connection with the signal receiving end, electric energy is transmitted to the signal receiving end in a non-contact mode, a heating signal is transmitted, and meanwhile, heating is automatically judged to be stopped when a preset temperature threshold value is reached, so that the traditional power supply mode of the surface-mounted battery is replaced, the technical problems of low power supply efficiency, high battery loss rate and poor comfort are solved, and the technical effects of continuous and stable power supply, intellectualization and good wearing experience are realized.

Inventors

  • YANG JIANDONG

Assignees

  • 杨建东

Dates

Publication Date
20260508
Application Date
20260324

Claims (10)

  1. 1. A method of controlling heating in a shoe, the method comprising: Transmitting electric energy to a signal receiving end in response to detection of the signal receiving end in a preset range; collecting preset type information, and generating a heating signal according to the preset type information; sending the heating signal to a signal receiving end so as to drive the signal receiving end to execute a corresponding heating procedure according to the heating signal; Judging whether the temperature in the shoe after the heating process is executed reaches a preset temperature threshold value, and if so, driving a signal receiving end to stop executing the heating process.
  2. 2. The method of claim 1, wherein the acquiring the preset type information and generating the heating signal according to the preset type information comprises: collecting identity information corresponding to the signal receiving end; Retrieving corresponding user configuration parameters according to the identity information, wherein the user configuration parameters comprise at least one of heating temperature, heating duration and heating mode; and generating the heating signal according to the user configuration parameters.
  3. 3. The method according to claim 2, wherein after the collecting the identification information corresponding to the signal receiving end, the method further comprises: Judging whether the identity information is of a preset type or not; if so, the preset temperature threshold is adjusted to the preset safe temperature threshold according to the identity information.
  4. 4. The method of claim 2, wherein prior to said generating said heating signal in accordance with said user-configured parameter, said method further comprises: Acquiring the position information of the signal receiving end; judging whether the identity information is associated with the position information or not; if yes, generating the heating signal according to the position information; If not, generating the heating signal according to the identity information.
  5. 5. The method of claim 1, wherein the acquiring the preset type information and generating the heating signal according to the preset type information comprises: Collecting environmental parameter information of the surrounding environment, wherein the environmental parameter information comprises at least one of environmental temperature, environmental humidity, environmental altitude and current time; Generating an environmental compensation coefficient according to the environmental parameter information, and generating the heating signal according to the environmental compensation coefficient.
  6. 6. The method of claim 5, wherein after said generating an environmental compensation coefficient from said environmental parameter information, said method further comprises: and adjusting a preset temperature threshold according to the environment compensation coefficient.
  7. 7. The method of claim 1, wherein the acquiring the preset type information and generating the heating signal according to the preset type information comprises: Collecting electric quantity information of the signal receiving end; determining the current electric quantity state of the signal receiving end according to the electric quantity information; and generating the heating signal according to the current electric quantity state.
  8. 8. The method according to claim 1, wherein the method further comprises: In response to detecting a plurality of signal receiving ends in a preset range, respectively acquiring electric quantity information of each signal receiving end; respectively determining the residual electric quantity of each signal receiving end according to the electric quantity information; And sequencing the residual electric quantity corresponding to the plurality of signal receiving ends according to the arrangement sequence of the electric quantity, and sequentially and wirelessly connecting with each signal receiving end according to the arrangement sequence.
  9. 9. The method of claim 1, wherein the acquiring the preset type information and generating the heating signal according to the preset type information comprises: and collecting a control signal generated by a terminal, and generating the heating signal according to the control signal.
  10. 10. The method according to claim 1, wherein the method further comprises: Receiving self-checking state information sent by the signal receiving end in real time, wherein the self-checking state information comprises at least one of a short circuit state, an overheat state and a fault state; and stopping sending the heating signal and generating alarm information when judging that the self-checking state information is abnormal.

Description

Method for controlling heating in shoes Technical Field The invention relates to the technical field of heating of shoes, in particular to a heating control method in shoes. Background As the demand for wearing comfort continues to increase, in-shoe heating technology is becoming a growing concern. At present, the prior art mostly adopts a mode of obviously installing a fifth or seventh rechargeable battery in the insole or on the shoe body to supply power, thereby achieving the purpose of heating the inside of the shoe. However, this solution has the disadvantages of low power efficiency, high battery loss rate, uncomfortable wear due to the large battery size, and inconvenience in use due to the need of frequent replacement or recharging of the battery. In addition, the prior art often only converts the electric energy of battery into heat energy to reach the purpose of heating in the shoes, intelligent degree is low, and user experience is poor. Disclosure of Invention The application aims to provide a heating control method in shoes, which aims to solve the technical problems in the background technology. To achieve the above object: the embodiment of the application provides a method for controlling heating in shoes, which comprises the following steps: Transmitting electric energy to a signal receiving end in response to detection of the signal receiving end in a preset range; collecting preset type information, and generating a heating signal according to the preset type information; sending the heating signal to a signal receiving end so as to drive the signal receiving end to execute a corresponding heating procedure according to the heating signal; Judging whether the temperature in the shoe after the heating process is executed reaches a preset temperature threshold value, if so, driving a signal receiving end to stop executing the heating process. In an embodiment, the collecting the preset type information and generating the heating signal according to the preset type information includes: collecting identity information corresponding to the signal receiving end; Retrieving corresponding user configuration parameters according to the identity information, wherein the user configuration parameters comprise at least one of heating temperature, heating duration and heating mode; and generating the heating signal according to the user configuration parameters. In an embodiment, after the collecting the identification information corresponding to the signal receiving end, the method further includes: Judging whether the identity information is of a preset type or not; if so, the preset temperature threshold is adjusted to the preset safe temperature threshold according to the identity information. In an embodiment, before said generating said heating signal according to said user-configured parameter, said method further comprises: Acquiring the position information of the signal receiving end; judging whether the identity information is associated with the position information or not; if yes, generating the heating signal according to the position information; If not, generating the heating signal according to the identity information. In an embodiment, the collecting the preset type information and generating the heating signal according to the preset type information includes: Collecting environmental parameter information of the surrounding environment, wherein the environmental parameter information comprises at least one of environmental temperature, environmental humidity, environmental altitude and current time; Generating an environmental compensation coefficient according to the environmental parameter information, and generating the heating signal according to the environmental compensation coefficient. In an embodiment, after the generating the environmental compensation coefficient according to the environmental parameter information, the method further includes: and adjusting a preset temperature threshold according to the environment compensation coefficient. In an embodiment, the collecting the preset type information and generating the heating signal according to the preset type information includes: Collecting electric quantity information of the signal receiving end; determining the current electric quantity state of the signal receiving end according to the electric quantity information; and generating the heating signal according to the current electric quantity state. In one embodiment, the method further comprises: In response to detecting a plurality of signal receiving ends in a preset range, respectively acquiring electric quantity information of each signal receiving end; respectively determining the residual electric quantity of each signal receiving end according to the electric quantity information; And sequencing the residual electric quantity corresponding to the plurality of signal receiving ends according to the arrangement sequence of the electric quantity, and seq