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KR-102961622-B1 - Atomization control method, filling equipment, atomization equipment, and electronic atomization system

KR102961622B1KR 102961622 B1KR102961622 B1KR 102961622B1KR-102961622-B1

Abstract

A method for controlling atomization applied to an electronic atomization device including a power supply and a heating assembly comprises: a step of detecting a power supply voltage (S101); a step of determining whether the power supply voltage has reached a preset threshold value (S102); and a step of controlling the heating assembly to perform heating atomization of an aerosol generating material when the power supply voltage has reached the preset threshold value (S103).

Inventors

  • 장, 싱푸
  • 황, 펑페이
  • 랴오, 옌청
  • 린, 차오스

Assignees

  • 센젠 메리트 테크놀로지 씨오., 엘티디

Dates

Publication Date
20260508
Application Date
20220426
Priority Date
20210527

Claims (20)

  1. A method for controlling atomization applied to an electronic atomizing device including a power supply and a heating assembly, Step of obtaining a type of aerosol generating substance; A step of determining a voltage value of a preset threshold according to a preset correspondence—the above correspondence is a correspondence between the type of the aerosol generating substance and the selected value of the preset threshold—; Step of checking the power supply voltage; A step of determining whether the above power voltage has reached the above preset threshold; and The method includes the step of controlling the heating assembly to perform heating atomization of the aerosol generating material when the power supply voltage reaches the preset threshold value, wherein The above preset threshold value is a voltage corresponding to the amount of electricity required for at least one preset heating cycle of the heating assembly, and Atomization control method characterized by the above preset heating cycle maintaining the temperature of the heating assembly continuously at a preset temperature control curve during a preset atomization time.
  2. In paragraph 1, A method for controlling atomization, characterized by further including the step of controlling the heating assembly to perform heating atomization of an aerosol generating material when a start signal is received and the power supply voltage reaches the preset threshold value.
  3. In paragraph 1, The above electronic atomizer is equipped with a notification assembly, and A method for controlling atomization, characterized by further including the step of generating a notification signal to instruct the notification assembly to issue a notification to a user that the power supply voltage is lower than the preset threshold when the power supply voltage is lower than the preset threshold.
  4. In paragraph 1, Atomization control method characterized by the above preset heating cycle including continuously maintaining the output power of the heating assembly at a target power for a preset atomization time.
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  8. Atomization equipment comprising a heating assembly configured to perform heated atomization of an aerosol generating material, Atomizing battery configured to supply power for the operation of the above-mentioned atomizing equipment; A disintegration control circuit configured to detect the voltage of the disintegration battery and, when the voltage of the disintegration battery reaches a preset first threshold value, to control the heating assembly to heat the aerosol generating material, wherein The above-described atomization control circuit is also configured to acquire the type of the aerosol generating substance and determine the voltage value of the first threshold value according to a preset correspondence, wherein the correspondence is a correspondence between the type of the aerosol generating substance and the selected value of the first threshold value. The first threshold value is a voltage corresponding to the amount of electricity required for at least one preset heating cycle of the heating assembly, and Atomizing equipment characterized by the above preset heating cycle maintaining the temperature of the heating assembly continuously at a preset temperature control curve during a preset atomizing time.
  9. In paragraph 8, Atomization facility characterized in that the above atomization control circuit is configured to receive a first start signal and, when the voltage of the atomization battery reaches a preset first threshold value, control the heating assembly to heat the aerosol generating material.
  10. In paragraph 8, The first prompter is further configured to issue a notification to the user that the voltage of the atomizing battery is lower than the first threshold when the first notification signal is received, wherein The atomizing control circuit is also configured to generate a first notification signal and send it to the first prompter when the voltage of the atomizing battery is lower than the first threshold value.
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  12. A charging facility comprising a rechargeable battery and a charging control circuit, The above-mentioned rechargeable battery is configured to charge the atomizing equipment when the atomizing equipment is inserted into the above-mentioned rechargeable battery and to supply power for the operation of the above-mentioned atomizing equipment; the above-mentioned atomizing equipment is equipped with a heating assembly configured to perform heated atomization of an aerosol generating material; The above-described charging control circuit is configured to detect the voltage of the charging battery when the atomizing equipment is inserted into the charging equipment, and to control the heating assembly to heat the aerosol generating material when the voltage of the charging battery reaches a preset second threshold; The charging control circuit is also configured to acquire the type of the aerosol generating substance and determine the voltage value of the second threshold according to a preset correspondence, wherein the correspondence is a correspondence between the type of the aerosol generating substance and the selected value of the second threshold. The second threshold value is a voltage corresponding to the amount of electricity required for at least one preset heating cycle of the heating assembly, and A filling facility characterized by the above preset heating cycle maintaining the temperature of the heating assembly continuously at a preset temperature control curve during a preset atomization time.
  13. In Paragraph 12, A charging facility characterized in that the above-described charging control circuit is configured to receive a second starting signal and, when the voltage of the charging battery reaches a preset second threshold value, control the heating assembly to heat the aerosol generating material.
  14. In Paragraph 12, The second prompter is further configured to issue a notification to the user that the voltage of the charging battery is lower than the second threshold when the second notification signal is received, wherein The charging facility is further characterized in that the charging control circuit is configured to generate a second notification signal and send it to the second prompter when the voltage of the charging battery is lower than the second threshold value.
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  16. An electronic atomizing system comprising an atomizing facility according to any one of claims 8 to 10 and a charging facility according to any one of claims 12 to 14, The above-mentioned charging facility is provided with a receiving cavity, and a connection terminal for electrically connecting to the atomizing facility is disposed at the bottom of the receiving cavity, and the connection terminal is configured to be electrically connected to the atomizing facility when the atomizing facility is inserted into the receiving cavity; An electronic atomization system characterized by the above atomization facility being provided with a heating cavity configured to accommodate an aerosol generating material, and a heating assembly configured to perform heating of the aerosol generating material being disposed within the heating cavity.
  17. As an atomization control device applied to an electronic atomization device including a power supply and a heating assembly, An acquisition module configured to acquire the type of aerosol generating substance and determine a voltage value of a preset threshold according to a preset correspondence—the said correspondence is the correspondence between the type of the aerosol generating substance and a selected value of the preset threshold—; A detection module configured to detect power supply voltage; A determination module configured to determine whether the above power voltage has reached the above preset threshold value; and The heating control module is configured to control the heating assembly to perform heating atomization of the aerosol generating material when the power supply voltage reaches the preset threshold value, wherein The above preset threshold value is a voltage corresponding to the amount of electricity required for at least one preset heating cycle of the heating assembly, and Atomization control device characterized by the above preset heating cycle maintaining the temperature of the heating assembly continuously at a preset temperature control curve during a preset atomization time.
  18. In Paragraph 17, The above electronic atomizer is equipped with a notification assembly, and A vapor control device characterized by further including a notification module configured to generate a notification signal to instruct the notification assembly to issue a notification to the user that the power voltage is lower than the preset threshold when the power voltage is lower than the preset threshold.
  19. everyone; A heating assembly configured to perform heating on an aerosol generating material; and An electronic atomizing device comprising a controller including a processor and memory in which a computer program is stored, An electronic atomizing device characterized in that, when the above computer program is executed by the above processor, a method according to any one of claims 1 to 4 is implemented.
  20. A computer program comprising computer-readable instructions stored on a computer-readable storage medium, A computer program characterized in that, when the above computer-readable command is executed by a processor, a method according to any one of claims 1 to 4 is implemented.

Description

Atomization control method, filling equipment, atomization equipment, and electronic atomization system The present application relates to a method for controlling atomization, a filling facility, an atomization facility, and an electronic atomization system. [Related Application] This application claims priority to a Chinese patent application filed on May 27, 2021, with application number 202110582916.2 and titled "Atomization control method, filling equipment, atomization equipment and electronic atomization system," all of which are by reference. With advancements in atomization technology, electronic atomizers are emerging for various applications, including medical atomizers, home humidification atomizers, and aerosol inhalation atomizers. To enable portable use, some electronic atomizers power each component of the aerosol atomizer via a battery, allowing for quick and convenient recharging of the aerosol generator for repeated use. However, the inventors have confirmed that the battery's electrical capacity affects the atomization effect of the electronic atomizer. For example, if atomization is interrupted due to low electrical capacity during operation after startup, the expected amount of aerosol is not reached, and the aerosol-generating material is wasted. Current electronic atomizers have problems such as insufficient atomization and the waste of aerosol-generating material. Various embodiments of the present application provide atomization control method, a filling facility, an atomization facility, and an electronic atomization system. A method for controlling atomization applied to an electronic atomizing device including a power supply and a heating assembly is, Step of checking the power supply voltage; A step of determining whether the above power voltage has reached a preset threshold; and The method includes the step of controlling the heating assembly to perform heating atomization of the aerosol generating material when the power supply voltage reaches the preset threshold value. A fumigation apparatus comprising a heating assembly configured to perform heated fumigation of an aerosol generating material, Atomizing battery configured to supply power for the operation of the above-mentioned atomizing equipment; It includes an atomization control circuit configured to detect the voltage of the atomization battery and, when the voltage of the atomization battery reaches a preset first threshold value, to control the heating assembly to heat the aerosol generating material. The charging facility includes a charging battery and a charging control circuit, but, The above-mentioned rechargeable battery is configured to charge the atomizing equipment when the atomizing equipment is inserted into the above-mentioned rechargeable battery and to supply power for the operation of the above-mentioned atomizing equipment; and the above-mentioned atomizing equipment is provided with a heating assembly configured to perform heated atomization of an aerosol generating material; The charging control circuit is configured to detect the voltage of the charging battery when the atomizing device is inserted into the charging device, and to control the heating assembly to heat the aerosol generating material when the voltage of the charging battery reaches a preset second threshold. The electronic atomizing system includes the atomizing equipment described above and the charging equipment described above, wherein The above-mentioned charging facility is provided with a receiving cavity, and a connection terminal for electrically connecting to the atomizing facility is disposed at the bottom of the receiving cavity, and the connection terminal is configured to be electrically connected to the atomizing facility when the atomizing facility is inserted into the receiving cavity; The above-mentioned atomizing equipment is provided with a heating cavity configured to accommodate an aerosol generating material, and a heating assembly configured to perform heating of the aerosol generating material is disposed within the heating cavity. An atomization control device applied to an electronic atomization device including a power supply and a heating assembly is, A detection module configured to detect power supply voltage; A determination module configured to determine whether the above power voltage has reached a preset threshold value; and It includes a heating control module configured to control the heating assembly to perform heating atomization of the aerosol generating material when the power supply voltage reaches the preset threshold value. The electronic atomizer is, A power supply; a heating assembly configured to perform heating of an aerosol generating material; and a controller comprising a processor and a memory in which a computer program is stored, wherein When the above computer program is executed by the above processor, the steps of the method described above are implemented. A computer program