CN-224219465-U - Atomizing device

Abstract

The application is suitable for the technical field of atomizing equipment, and provides an atomizing device. The atomization device comprises an atomization piece, a mounting piece, a containing piece, an actuating piece and a blocking piece, wherein the atomization piece is provided with an atomization channel used for converting aerosol matrixes into aerosol, the mounting piece is provided with an actuating channel communicated with the atomization channel, the atomization piece is arranged on the mounting piece, the containing piece is positioned on one side of the mounting piece and is provided with a containing space communicated with the actuating channel and the external environment, the actuating piece is positioned in the containing space and is used for sensing air pressure change of the actuating channel, the actuating piece is electrically connected with the atomization piece, and the blocking piece is arranged in the atomization channel and/or the actuating channel and is provided with an air gap between the blocking piece and the atomization channel and/or the actuating channel. When a user performs back blowing operation on aerosol in the atomization channel, the arranged blocking piece can play a certain role in blocking, so that the aerosol is difficult to directly enter the starting piece along the starting channel, and faults such as delayed starting and self-starting of the starting piece due to contact with the aerosol are effectively avoided.

Inventors

• CHEN QIANG

Assignees

• 深圳市基克纳科技有限公司

Dates

Publication Date

20260512

Application Date

20250402

Claims (11)

1. 1. An atomizing device is characterized by comprising an atomizing piece, a first nozzle and a second nozzle, wherein the atomizing piece is provided with an atomizing channel for converting aerosol matrix into aerosol; The mounting piece is provided with a starting channel communicated with the atomization channel, and the atomization piece is arranged on the mounting piece; the accommodating part is positioned at one side of the mounting part and is provided with an accommodating space communicated with the starting channel and the external environment; the starting piece is positioned in the accommodating space and used for sensing the air pressure change of the starting channel, and the starting piece is electrically connected with the atomizing piece; And the blocking piece is arranged in the atomization channel and/or the starting channel, and a ventilation gap is arranged between the blocking piece and the atomization channel and/or the starting channel.
2. 2. The atomizing device of claim 1, wherein the barrier is disposed within the atomizing passage.
3. 3. An atomising device according to claim 2, characterised in that the barrier is an elastic sheet, and/or, The blocking piece is perpendicular to the extending direction of the atomizing channel.
4. 4. An atomising device according to claim 3 wherein the atomising channel has an air inlet in communication with the activation channel; The atomizing device further comprises a blocking piece, wherein the blocking piece is arranged in the atomizing channel and/or outside the atomizing channel and used for blocking the blocking piece from deforming towards the air inlet.
5. 5. The atomizing device of claim 4, wherein the blocking member is located outside the atomizing passage and is disposed on the mounting member, and wherein the blocking member contacts a surface of the blocking member adjacent to the air inlet and applies a blocking thrust force to the blocking member that is disposed toward the inside of the atomizing passage.
6. 6. An atomising device according to any of claims 2 to 5 wherein the atomising element comprises an atomising wick and a mounting body, the atomising wick being provided at the mounting body and having an atomising airway for converting the aerosol matrix into an aerosol; The installation body is arranged in the installation piece and is provided with a communication air passage, the communication air passage is communicated with the atomization air passage and is communicated with the starting passage, the blocking piece is arranged in the communication air passage, and the communication air passage and the atomization air passage form the atomization passage.
7. 7. The atomizing device of claim 6, wherein the mounting body is of a resilient construction, and the blocking member is integrally formed with the mounting body.
8. 8. The atomizing device of claim 6, wherein the mounting member is provided with a communication groove near a surface of the mounting body, the communication groove being in communication with an external environment, and in communication with the communication air passage and in communication with the activation passage, the communication groove having a first opening, the mounting body blocking the first opening.
9. 9. An atomizing device according to claim 8, wherein the communicating groove has a mounting groove bottom provided with an actuating tube disposed in a direction away from the mounting groove bottom, the actuating tube being communicated with the communicating groove, the actuating member being for sensing a change in air pressure in the actuating tube, an inner space of the actuating tube being formed as the actuating passage.
10. 10. The atomizing device of claim 9, wherein the mounting groove bottom is provided with liquid-absorbing cotton, the liquid-absorbing cotton being disposed around the starting tube.
11. 11. The atomizing device of claim 10, wherein a surface of the liquid absorbent cotton remote from the mounting groove bottom is a first surface; The surface of the starting tube, which is far away from the bottom of the mounting groove, is a second surface, which is positioned on one side of the first surface, which is far away from the bottom of the mounting groove, and/or, The peripheral surface of the starting pipe is provided with a notch, and the notch is positioned on one side of the first surface away from the bottom of the mounting groove and is arranged towards the direction away from the atomizing channel.

Description

Atomizing device Technical Field The application belongs to the technical field of atomization equipment, and particularly relates to an atomization device. Background An aerosolization device is a device that converts an aerosol matrix into an aerosol for inhalation by a user by heating. In the related art, the atomizing device includes an atomizing member, a mounting member and a starting member (such as a microphone), the atomizing member has an atomizing channel for converting an aerosol substrate into aerosol, the mounting member is provided with a starting channel, the starting channel is communicated with the atomizing channel, the starting member can sense the air pressure change of the starting channel, and accordingly, a starting instruction is fed back to the atomizing member. However, when the user uses the atomizing device, the aerosol in the atomizing channel can be subjected to blowback operation carelessly, and the blowback can easily enable the aerosol to enter the inside of the starting piece along the starting channel, so that faults such as delayed starting and self-starting of the starting piece are caused, and the normal use of the atomizing device is seriously influenced. Disclosure of utility model An object of an embodiment of the present application is to provide an atomization device, which aims to solve a technical problem that aerosol substrates in an atomization channel in the related art easily enter an actuating member through an actuating channel. In order to achieve the above object, according to one aspect of the present application, there is provided an atomizer comprising an atomizing member having an atomizing passage for converting an aerosol substrate into an aerosol, a mounting member having an actuating passage communicating with the atomizing passage, the atomizing member being provided at the mounting member, a receiving member located at one side of the mounting member and having a receiving space communicating with the actuating passage and an external environment, an actuating member located in the receiving space for sensing a change in air pressure of the actuating passage, the actuating member being electrically connected with the atomizing member, and a blocking member provided in the atomizing passage and/or the actuating passage and having a ventilation gap therebetween. Optionally, a barrier is disposed within the nebulization channel. Optionally, the blocking member is an elastic sheet and/or the blocking member is perpendicular to the direction of extension of the nebulization channel. Optionally, the atomizing channel is provided with an air inlet communicated with the starting channel, and the atomizing device further comprises a blocking piece which is arranged in the atomizing channel and/or outside the atomizing channel and used for blocking the blocking piece to deform towards the air inlet. Optionally, a blocking member is located outside the nebulization channel and is arranged at the mounting member, the blocking member being in contact with a surface of the blocking member near the air inlet and exerting a blocking thrust force towards the blocking member arranged inside the nebulization channel. Optionally, the atomization piece comprises an atomization core and an installation body, wherein the atomization core is arranged in the installation body and is provided with an atomization air passage used for converting aerosol matrixes into aerosol, the installation body is arranged in the installation body and is provided with a communication air passage, the communication air passage is communicated with the atomization air passage and is communicated with the starting passage, the blocking piece is arranged in the communication air passage, and the communication air passage and the atomization air passage form an atomization passage. Optionally, the mounting body is an elastic structure, and the blocking member and the mounting body are integrally formed. Optionally, the surface of the mounting piece, which is close to the mounting body, is provided with a communication groove, the communication groove is communicated with the external environment, is communicated with the communication air passage and is communicated with the starting passage, the communication groove is provided with a first opening, and the mounting body seals the first opening. Optionally, the communication groove has a mounting groove bottom, the mounting groove bottom is provided with a starting tube, the starting tube is arranged towards a direction deviating from the mounting groove bottom, the starting tube is communicated with the communication groove, the starting piece is used for sensing the air pressure change in the starting tube, and the inner space of the starting tube is formed into a starting channel. Optionally, the bottom of the mounting groove is provided with liquid-absorbing cotton, and the liquid-absorbing cotton is arranged around the starting pipe.