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CN-121986963-A - Atomizer, atomization host, electronic atomization device and atomization control method

CN121986963ACN 121986963 ACN121986963 ACN 121986963ACN-121986963-A

Abstract

The application discloses an atomizer, an atomization host, electronic atomization equipment and an atomization control method. The adapting connection interface is used for being detachably connected with an atomization host, and the heating unit is used as a heating source of the atomizer. When the adapting connection interface is connected with the atomizing host, the atomizing host provides the working power supply of the atomizer, and when the adapting connection interface is not connected with the atomizing host, the atomizing power supply provides the working power supply of the atomizer. The atomization controller is used for controlling the atomization work of the atomizer when the adapting connecting interface is not connected with the atomization host, and controlling the atomization work of the atomizer by the atomization host when the adapting connecting interface is connected with the atomization host. Because the atomizer has integrated power, atomizing control and heat energy conversion function, make it even do not connect atomizing host computer and also can use alone, and carry out atomizing control by atomizing host computer when being connected with atomizing host computer again, improved user experience greatly.

Inventors

  • WU RENJIANG

Assignees

  • 爱奇迹创造有限公司

Dates

Publication Date
20260508
Application Date
20241104

Claims (11)

  1. 1. The atomizer is characterized by comprising an atomization power supply, an adaptive connection interface, an atomization controller and a heating unit; When the adapting connection interface is connected with the atomizing host, the atomizing host provides a working power supply for the atomizer; When the adapting connection interface is not connected with the atomization host, the atomization power supply provides a working power supply for the atomizer; The atomization controller is used for controlling the atomization work of the atomizer when the adapting connection interface is not connected with the atomization host, and controlling the atomization work of the atomizer by the atomization host when the adapting connection interface is connected with the atomization host; the heating unit is used for converting electric energy into heat energy so as to heat the atomizing matrix.
  2. 2. The nebulizer of claim 1, further comprising an actuation sensor and a nebulization circuit; The starting sensor is connected with the atomization controller and is used for sending an atomization starting electric signal to the atomization controller; The atomization controller is connected with the atomization circuit and is used for responding to the atomization starting electric signal to send a first atomization control electric signal to the atomization circuit; The atomizing circuit is respectively connected with the atomizing power supply and the heating unit, and the atomizing circuit is used for outputting electric energy output by the atomizing power supply to the heating unit according to the first atomizing control electric signal so as to control the atomizing power of the atomizer by controlling the electric energy acquired by the heating unit.
  3. 3. The atomizer of claim 2 wherein said heat generating unit comprises a first heat generating element, said first heat generating element being respectively connected to said atomizing circuit and said adapter interface, said first heat generating element drawing electrical energy from said atomizing circuit when said adapter interface is not connected to said atomizing host, and drawing electrical energy from said atomizing host when said adapter interface is connected to said atomizing host for atomizing operation; The heating unit comprises a first heating element and a second heating element, wherein the first heating element is connected with the adapting connection interface, when the adapting connection interface is connected with the atomizing host, the first heating element obtains electric energy output by the atomizing host to perform atomizing operation, and when the adapting connection interface is not connected with the atomizing host, the second heating element obtains electric energy from the atomizing power supply through the atomizing circuit to perform atomizing operation; Or the heating unit comprises a first heating element and a second heating element, wherein the first heating element and the second heating element are connected with the adapting connection interface, when the adapting connection interface is connected with the atomizing host, the first heating element and the second heating element jointly acquire electric energy from the atomizing host so as to perform atomizing operation, and when the adapting connection interface is not connected with the atomizing host, only the second heating element acquires electric energy from the atomizing power supply so as to perform atomizing operation.
  4. 4. The atomizer of claim 2 wherein said heat generating unit comprises a first heat generating element and a second heat generating element, said first heat generating element having a greater atomization power than said and second heat generating elements; The atomization circuit comprises an atomization first circuit and an atomization second circuit; The first atomization circuit is connected with the first heating element and the adapting connection interface respectively, and when the adapting connection interface is connected with the atomization host, the first atomization circuit obtains electric energy from the atomization host through the adapting connection interface to perform atomization work; The atomizing second circuit is respectively connected with the second heating element, the atomizing power supply and the atomizing controller, and the atomizing second circuit is used for responding to the first atomizing control electric signal to output the electric energy output by the atomizing power supply to the second heating element so as to perform atomizing work.
  5. 5. The nebulizer of claim 2, wherein the adapter connection interface is further configured to transmit a power signal output by the nebulizing host when the adapter connection interface is connected to the nebulizing host; The atomizing power supply comprises a charging circuit and an energy storage battery; The charging circuit is respectively connected with the adapting connection interface and the energy storage battery, and is used for outputting the power supply signal acquired by the adapting connection interface to the energy storage battery so as to charge the energy storage battery, and when the charging circuit charges the energy storage battery, the atomizing power supply stops supplying power to the atomizer.
  6. 6. The atomizer of claim 2 wherein said enabling sensor is coupled to said adapter interface, said adapter interface further configured to output said atomizing initiation electrical signal output by said enabling sensor to said atomizing host for said atomizing host to control thermal energy conversion of said heat generating unit in response to said atomizing initiation electrical signal when said adapter interface is coupled to said atomizing host.
  7. 7. An atomization control method applied to the atomizer according to any one of claims 1 to 6, comprising: determining whether the adaptive connection interface is connected with an atomization host; If the adapting connection interface is connected with the atomizing host, the atomizing host provides a working power supply for the atomizer, and the atomizing host controls the atomizing work of the atomizer; if the adapting connection interface is not connected with the atomization host, the atomization controller controls the atomization power supply to provide working power for the atomizer, and the atomization controller controls the atomization work of the atomizer; the atomization work of the atomizer is controlled by the atomization host, and the atomization work comprises the following steps: Taking the electric energy output by the atomizing host as a working power supply of the atomizer; The atomization parameters of the atomizer are sent to the atomization host through the adapting connection interface so as to be used for controlling the atomization work of the atomizer by the atomization host according to the atomization parameters; an atomization starting electric signal output by a starting sensor of the atomizer is sent to the atomization host through the adaptation connection interface; And acquiring a second atomization control electric signal output by the atomization host in response to the atomization starting electric signal, and outputting the second atomization control electric signal to the heating unit so that the atomizer executes atomization work.
  8. 8. An atomization host is characterized by comprising a power supply unit, a host controller, an atomization control circuit and a host connection interface; the power supply unit is used as a working power supply of the atomizing host; the host controller is connected with the atomization control circuit and is used for outputting a second atomization control electric signal to the atomization control circuit; The atomization control circuit is respectively connected with the power supply unit and the host connecting interface, and is used for responding to the second atomization control electric signal and outputting electric energy output by the power supply unit to the host connecting interface as an atomization signal; The host connection interface is for detachable connection with an adapter connection interface of a nebulizer according to any one of claims 1 to 6.
  9. 9. The atomizing host machine of claim 8, further comprising a boost circuit connected with the power supply unit and the host machine connection interface, respectively, wherein the boost circuit is used for boosting the electric energy output by the power supply unit and outputting the boosted electric energy to the atomizer so as to provide a charging power supply for the atomizing power supply of the atomizer; The power supply unit comprises a charging interface, a protection circuit and a host battery, wherein the host battery is used for providing electric energy, the charging interface is used for being externally connected with a charging power supply, and the protection circuit is used as a charging protection circuit of the host battery; And/or the host controller is connected with the host connection interface, and is used for sending a communication signal to the host connection interface or receiving a communication signal output by the atomizer, wherein the communication signal sent by the host controller is used for controlling the atomizer controller to stop working, and the communication signal output by the atomizer received by the host controller is the atomization starting electric signal; And/or the atomizing host further comprises a memory connected with the host controller, wherein the memory is used for storing the atomizing host parameters and/or the atomizer parameters.
  10. 10. An atomization control method applied to the atomization host according to any one of claims 8 to 9, comprising: determining whether the host connection interface is connected with the atomizer; If the host connecting interface is connected with the atomizer, the atomizing host provides a working power supply for the atomizer, and atomizing parameters of the atomizer are obtained; and the atomization host controls the atomization work of the atomizer according to the atomization parameters.
  11. 11. An electronic atomising device comprising an atomiser according to any one of claims 1 to 6 and an atomising host according to any one of claims 8 to 9.

Description

Atomizer, atomization host, electronic atomization device and atomization control method Technical Field The application relates to the technical field of electronic atomization, in particular to an atomizer, an atomization host, electronic atomization equipment and an atomization control method. Background With the increasing acceptance and acceptance of electronic atomizing devices by the market, in order to meet the demands of users, the taste of the atomizing substrate used for the electronic atomizing device is also increased, and in order to facilitate the replacement of the taste, the electronic atomizing device of the replaceable atomizer (cigarette bullet) is designed, but the atomizer in the market at present can only be used after being assembled on an atomizing host, and when the atomizing host fails or is lost, the remaining replaceable atomizer is out of function, so that great waste is generated. Disclosure of Invention The application aims to solve the technical problem of how to expand the practical function of the atomizer. An atomizer provided in one embodiment comprises an atomization power supply, an adaptive connection interface, an atomization controller and a heating unit, wherein the adaptive connection interface is used for being detachably connected with an atomization host. When the adapting connecting interface is connected with the atomizing host, the atomizing host provides a working power supply for the atomizer, when the adapting connecting interface is not connected with the atomizing host, the atomizing power supply provides a working power supply for the atomizer, the atomizing controller is used for controlling the atomizing work of the atomizer when the adapting connecting interface is not connected with the atomizing host, and when the adapting connecting interface is connected with the atomizing host, the atomizing host controls the atomizing work of the atomizer, and the heating unit is used for converting electric energy into heat energy so as to heat an atomizing substrate. In one embodiment, the atomizer further comprises a starting sensor and an atomization circuit, the starting sensor is connected with the atomization controller and used for sending an atomization starting electric signal to the atomization controller, the atomization controller is connected with the atomization circuit and used for responding to the atomization starting electric signal to send a first atomization control electric signal to the atomization circuit, the atomization circuit is respectively connected with the atomization power supply and the heating unit, and the atomization circuit is used for outputting electric energy output by the atomization power supply to the heating unit according to the first atomization control electric signal so as to control atomization power of the atomizer through controlling the electric energy acquired by the heating unit. In one embodiment, the heating unit comprises a first heating element which is respectively connected with the atomizing circuit and the adapting connection interface, when the adapting connection interface is not connected with the atomizing host, the first heating element obtains electric energy from the atomizing circuit, and when the adapting connection interface is connected with the atomizing host, the first heating element obtains electric energy from the atomizing host so as to perform atomizing work. In one embodiment, the heat generating unit includes a first heat generating member and a second heat generating member. The first piece that generates heat is connected with the adaptation interface connection, when the adaptation interface connection atomizing host computer, is obtained the electric energy of atomizing host computer output by the first piece that generates heat to carry out atomizing work, and when the adaptation interface connection atomizing host computer is not connected, is obtained the electric energy from atomizing power supply through atomizing circuit by the second piece that generates heat, in order to carry out atomizing work. In one embodiment, the heating unit comprises a first heating element and a second heating element, wherein the first heating element and the second heating element are connected with the adapting connection interface, when the adapting connection interface is connected with the atomizing host, the first heating element and the second heating element jointly acquire electric energy from the atomizing host so as to perform atomizing operation, and when the adapting connection interface is not connected with the atomizing host, the second heating element only acquires electric energy from an atomizing power supply so as to perform atomizing operation. In an embodiment, the heating unit comprises a first heating element and a second heating element, the atomization power of the first heating element is larger than the atomization rate of the first heating element and the second