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CN-121986969-A - Atomizing device

CN121986969ACN 121986969 ACN121986969 ACN 121986969ACN-121986969-A

Abstract

The application discloses an atomization device, and belongs to the technical field of electronic atomization equipment. The atomizing device comprises an atomizer, an atomizing host and a display module, wherein the atomizer is provided with a suction nozzle, the atomizing host is arranged at one end of the atomizer, far away from the suction nozzle, the atomizer is electrically connected with the atomizing host, the atomizer can heat an atomizing substrate to generate aerosol under the action of electric power, the display module is arranged at one end of the atomizing host, far away from the suction nozzle, the display module is in communication connection with the atomizing host, the display module is configured to display image information, and the display form of the image information is adapted to the sight of a user when the user sucks the atomizing device. According to the atomizing device provided by the application, the presentation form of the image information is adapted to the sight line of the user sucking the atomizing device, so that the image information can be positioned in the sight line of the user sucking the atomizing device, and the user can view the image information while sucking the image information, so that the state information of the atomizing device can be known in time in the sucking process, and the user experience is improved.

Inventors

  • FU YAO

Assignees

  • 爱奇迹创造有限公司

Dates

Publication Date
20260508
Application Date
20241106

Claims (16)

  1. 1. The atomizing device is characterized by comprising an atomizer, an atomizing host and a display module, wherein the atomizer is provided with a suction nozzle, the atomizing host is arranged at one end of the atomizer far away from the suction nozzle, the atomizer is electrically connected with the atomizing host, and the atomizer can heat an atomizing substrate under the action of electric power to generate aerosol; The display module is arranged at one end of the atomizing host far away from the suction nozzle, the display module is in communication connection with the atomizing host, the display module is configured to display image information, and the display form of the image information is adapted to the sight line of a user when the user sucks the atomizing device.
  2. 2. The aerosolization device of claim 1 wherein the image information comprises at least one of text, logos, and patterns, and wherein the image information is presented in an upright state in a line of sight of a user while aspirating the aerosolization device.
  3. 3. The atomizing device of claim 1, wherein the display module includes a display communicatively coupled to the atomizing host; the display surface of the display faces the suction nozzle side under the line of sight when the user sucks the atomizing device, and the display surface is configured to present the image information in the line of sight of the user.
  4. 4. A nebulizer as claimed in claim 3, wherein the display is mounted in the housing of the nebulizer or the nebulizing host, the display surface having an angle with the direction of extension of the nebulizer.
  5. 5. A nebulizer device according to claim 3, wherein the display is mounted outside the housing of the nebulizer or the nebulizing host, and the display surface is angled with respect to the direction of extension of the nebulizer device in a line of sight of a user when the user is aspirating the nebulizer device.
  6. 6. The atomizing device of claim 5, wherein the display is rotatably coupled to the atomizer or the atomizing host; when the user sucks the atomizing device, the display surface of the display can be rotated to face the suction nozzle side.
  7. 7. The atomizing device of claim 1, wherein the display module includes a display and an imaging assembly, the display and the imaging assembly disposed within a housing of the atomizer or the atomizing host; the display is in communication connection with the atomizing host, the display is used for generating image light, the imaging component is used for transmitting the image light, the image light is formed into an image and is displayed in a sight range when a user sucks the atomizing device, and the image is located outside a shell of the atomizer or the atomizing host.
  8. 8. The atomizing device of claim 7, wherein the imaging assembly is disposed in the optical path of the image light, and wherein the imaging assembly converges the image light and projects the converged image light into the air to present a floating real image.
  9. 9. The atomizing device of claim 8, wherein the imaging assembly comprises one of an optical waveguide array reflector, a microlens array, a retro-reflector, a negatively refracting flat lens, a fresnel lens, and a concave mirror.
  10. 10. The atomizing device of claim 7, wherein the display module includes a light diverting element disposed in an optical path of the image light for changing a transmission direction of the image light.
  11. 11. The atomizing device of claim 10, wherein the light redirecting element comprises at least one of a mirror and a half mirror.
  12. 12. The atomizing device of claim 1, wherein the atomizing host includes a control assembly, the control assembly being operable to send a display instruction to the display module, the display module being operable to initiate a display in response to the display instruction.
  13. 13. The atomizing device of claim 12, wherein the control assembly includes an airflow sensor in communication with the processor and a processor that controls the atomizer to electrically connect to the atomizing host while sending the display instructions to the display module based on an airflow change signal detected by the airflow sensor.
  14. 14. The atomizing device of claim 12, wherein the control assembly includes a control key in communication with the processor and a processor that sends the display instructions to the display module based on an operating signal of the control key.
  15. 15. The atomizing device of claim 12, wherein the control assembly includes an anomaly detection module in communication with the processor, the anomaly detection module configured to detect an anomaly condition of the atomizing device, the anomaly condition including one or more of a voltage over-voltage, a voltage under-voltage, a suction timeout, an insufficient atomizing substrate, an insufficient electrical quantity, and a processor configured to send the display instruction to the display module based on an anomaly condition signal detected by the anomaly detection module.
  16. 16. The atomizing device of any one of claims 1 to 15, wherein the display module is detachably connected to the atomizer or the atomizing host.

Description

Atomizing device Technical Field The application relates to the technical field of electronic atomization equipment, in particular to an atomization device. Background The atomizing device is provided with a suction nozzle, and when a user executes suction action through the suction nozzle, the atomizing device can heat the atomized substrate to generate aerosol. In the related art, a user is difficult to know state information of the atomizing device in the sucking process, such as the user is difficult to know electric quantity information of the atomizing device, the use of the atomizing device is inconvenient, and the user experience is poor. Disclosure of Invention The application provides an atomization device, which can solve the technical problem that a user is difficult to know state information of the atomization device in the suction process. In order to solve the technical problems, the application provides an atomization device which comprises an atomizer, an atomization host and a display module, wherein the atomizer is provided with a suction nozzle, the atomization host is arranged at one end of the atomizer far away from the suction nozzle, the atomizer is electrically connected with the atomization host, the atomizer can heat an atomization substrate to generate aerosol under the action of electric power, the display module is arranged at one end of the atomization host far away from the suction nozzle, the display module is in communication connection with the atomization host, the display module is configured to display image information, and the display form of the image information is adapted to the sight of a user when the user sucks the atomization device. In one embodiment, the image information includes at least one of text, logos, and patterns, and the image information is presented in an upright state under a line of sight of a user when sucking the atomizing device. In one embodiment, the display module comprises a display communicatively connected to the atomizing host, and a display surface of the display facing the suction nozzle side under a line of sight of a user sucking the atomizing device, the display surface being configured to present image information within the line of sight of the user. In one embodiment, the display is mounted in a housing of the atomizer or atomizer host, the display surface having an angle with the direction of extension of the atomizer device. In an embodiment, the display is mounted outside the housing of the atomizer or the atomizing host, and the display surface has an angle with the direction of extension of the atomizer under the line of sight of the user when sucking the atomizer. In one embodiment, the display is rotatably connected to the atomizer or the atomizer main unit, and the display surface of the display is rotatable to a side facing the suction nozzle when the user sucks the atomizer. In one embodiment, the display module comprises a display and an imaging assembly, wherein the display and the imaging assembly are arranged in a shell of the atomizer or the atomizing host, the display is in communication connection with the atomizing host, the display is used for generating image light, the imaging assembly is used for transmitting the image light and displaying an image formed by the image light in a sight range when a user sucks the atomizing device, and the image is positioned outside the shell of the atomizer or the atomizing host. In one embodiment, the imaging assembly is disposed on an optical path of the image light, and the imaging assembly converges the image light and projects the converged image light into the air to present a floating real image. In one embodiment, the imaging assembly comprises one of an optical waveguide array reflector, a microlens array, a retro-reflector, a negative refractive flat lens, a fresnel lens, and a concave mirror. In an embodiment, the display module includes a light turning element disposed on an optical path of the image light for changing a transmission direction of the image light. In an embodiment, the light diverting element comprises at least one of a mirror and a half mirror. In one embodiment, the atomizing host includes a control assembly, the control assembly is configured to send a display instruction to the display module, and the display module initiates display in response to the display instruction. In an embodiment, the control assembly comprises an airflow sensor and a processor, the airflow sensor is in communication connection with the processor, and the processor controls the atomizer to be electrically connected with the atomization host to be conducted based on an airflow change signal detected by the airflow sensor and sends a display instruction to the display module. In an embodiment, the control assembly includes a control key and a processor, the control key is in communication connection with the processor, and the processor sends a display instruction to