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CN-224219524-U - Atomizing equipment and gear switching device thereof

CN224219524UCN 224219524 UCN224219524 UCN 224219524UCN-224219524-U

Abstract

The application relates to the technical field of electronic atomization, in particular to atomization equipment and a gear switching device thereof. According to the scheme, at least two Hall elements are arranged on the control board, the sliding structure is arranged above the Hall elements, at least two induction magnets are arranged on the sliding structure, and when the control board is used, the sliding structure drives the induction magnets to be positioned at different positions of the Hall elements during sliding, so that the level of at least one Hall element is changed, and a multi-gear adjusting structure is formed.

Inventors

  • LI YONGQIANG
  • PAN GUOYAN

Assignees

  • 深圳市基克纳科技有限公司

Dates

Publication Date
20260512
Application Date
20250514

Claims (10)

  1. 1. The gear switching device of the atomization equipment is characterized by comprising a control board, a Hall element and a sliding structure; at least two Hall elements are arranged on the control panel; The sliding structure is arranged above the Hall element, at least two induction magnets are arranged on the sliding structure, and the sliding structure drives the induction magnets to be positioned at different positions of the Hall element when sliding, so that the level of at least one Hall element is changed, and a multi-gear adjusting structure is formed.
  2. 2. The gear shift device of claim 1, wherein the sliding structure includes a slide rail and a moving shaft; The sliding rail is arranged above the Hall element, and the moving shaft is slidably arranged on the sliding rail; At least two induction magnets are arranged on the moving shaft, and the moving shaft drives the induction magnets to be positioned at different positions of the Hall element when sliding along the sliding rail.
  3. 3. The gear shifting device of claim 2, further comprising a limiting structure comprising a clamping groove, a buckle and a spring; The clamping groove is formed in the position, located on the Hall element, of the sliding rail, the clamping buckle is arranged in the position, located on the sensing magnet, of the moving shaft, and the clamping buckle is connected with the moving shaft through a spring.
  4. 4. The shift position switching device according to claim 2, wherein two of said hall elements are provided, and two of said induction magnets are provided; The moving shaft drives the two induction magnets to be respectively positioned at different positions of the two Hall elements, so that a 4-gear adjusting structure is formed.
  5. 5. The shift position switching device according to claim 2, wherein three of said hall elements are provided and two of said induction magnets are provided; The moving shaft drives the two induction magnets to be respectively located at different positions of the two Hall elements, so that a 9-gear adjusting structure is formed.
  6. 6. The gear switching device according to claim 1, wherein the hall element comprises at least three pins, a first pin of the hall element is connected with a positive electrode of a power supply, a second pin of the hall element is grounded, and a third pin of the hall element is connected with a control chip for outputting a level signal to the control chip.
  7. 7. The gear shifting device of claim 6, further comprising a resistor, a first end of the resistor being connected to the first pin and a second end of the resistor being connected to the third pin.
  8. 8. An atomizing apparatus comprising the gear switching device according to any one of claims 1 to 7, wherein the control board includes a control chip for receiving a level signal of the hall element and determining a current gear according to the level signal.
  9. 9. The atomizing apparatus of claim 8, further comprising a power output module electrically coupled to the control chip, the power output module configured to output power corresponding to a current gear according to the current gear determined by the control chip, the output power corresponding to a different gear being different.
  10. 10. The atomizing apparatus of claim 8, further comprising a power module electrically coupled to the control board, the power module configured to provide electrical power to the control board.

Description

Atomizing equipment and gear switching device thereof Technical Field The application relates to the technical field of electronic atomization, in particular to atomization equipment and a gear switching device thereof. Background At present, the conventional gear change-over switch for electronic atomization equipment belongs to a mechanical gear switch, and the service life of the gear change-over switch can be shortened along with the increase of the using times. In view of the above, the present application provides a gear shifting device to solve the problem. Disclosure of utility model The application provides atomizing equipment and a gear switching device thereof, which effectively solve the problem of short service life of the gear switching device of the existing atomizing equipment. According to an aspect of the present application, there is provided in one embodiment a gear shift switching device of an atomizing apparatus, including a control board, a hall element, and a sliding structure; at least two Hall elements are arranged on the control panel; The sliding structure is arranged above the Hall element, at least two induction magnets are arranged on the sliding structure, and the sliding structure drives the induction magnets to be positioned at different positions of the Hall element when sliding, so that the level of at least one Hall element is changed, and a multi-gear adjusting structure is formed. In one possible embodiment, the sliding structure comprises a sliding rail and a moving shaft; The sliding rail is arranged above the Hall element, and the moving shaft is slidably arranged on the sliding rail; At least two induction magnets are arranged on the moving shaft, and the moving shaft drives the induction magnets to be positioned at different positions of the Hall element when sliding along the sliding rail. In one implementation, the device further comprises a limiting structure, wherein the limiting structure comprises a clamping groove, a buckle and a spring; The clamping groove is formed in the position, located on the Hall element, of the sliding rail, the clamping buckle is arranged in the position, located on the sensing magnet, of the moving shaft, and the clamping buckle is connected with the moving shaft through a spring. In one possible embodiment, two hall elements are provided, and two induction magnets are provided; The moving shaft drives the two induction magnets to be respectively positioned at different positions of the two Hall elements, so that a 4-gear adjusting structure is formed. In one possible embodiment, three hall elements are provided and two induction magnets are provided; The moving shaft drives the two induction magnets to be respectively located at different positions of the two Hall elements, so that a 9-gear adjusting structure is formed. In one implementation mode, the Hall element comprises at least three pins, a first pin of the Hall element is connected with a positive electrode of a power supply, a second pin of the Hall element is grounded, and a third pin of the Hall element is connected with a control chip and is used for outputting a level signal to the control chip. In one implementation manner, the circuit further comprises a resistor, wherein a first end of the resistor is connected with the first pin, and a second end of the resistor is connected with the third pin. According to another aspect of the present application, there is provided in an example an atomizing apparatus including the gear switching device as described above, the control board including a control chip for receiving a level signal of the hall element and determining a current gear according to the level signal. In an implementation manner, the power control device further comprises a power output module, wherein the power output module is electrically connected with the control chip, and the power output module is used for outputting power corresponding to a current gear according to the current gear determined by the control chip, and output power corresponding to different gears is different. In one implementation, the device further comprises a power supply module, wherein the power supply module is electrically connected with the control board, and the power supply module is used for providing electric energy to the control board. According to the atomizing equipment and the gear switching device thereof, at least two Hall elements are arranged on the control board, the sliding structure is arranged above the Hall elements, at least two induction magnets are arranged on the sliding structure, and when the atomizing equipment is used, the sliding structure drives the induction magnets to be positioned at different positions of the Hall elements during sliding, so that the level of at least one Hall element is changed, and then a multi-gear adjusting structure is formed. Drawings Fig. 1 is a schematic structural diagram of a gear shifting device provided in this