CN111757560A - Heater for aerosol generation and aerosol generation system - Google Patents

Abstract

The invention discloses a heater for aerosol generation and an aerosol generation system, belongs to the field of aerosol generation devices, and provides a plug-and-play aerosol generation heater and an aerosol generation system. The aerosol-generating heater includes a heating device and a mounting seat mounted on the heating device for inserting an aerosol-forming substrate; the heating device comprises a shell, a detection device arranged in the shell, a control assembly arranged in the shell and connected with the detection device, and a heating body. The invention can automatically trigger the starting and heating, namely, the plug-and-play function is realized, the starting is not required to be intervened by a user, the starting and waiting time can be effectively shortened, and the user experience is better; meanwhile, the device has the advantages of simple structure, convenience in installation and the like.

Description

Heater for aerosol generation and aerosol generation system

Technical Field

The present invention relates to the field of aerosol generating devices, and in particular, to an aerosol generating heater and an aerosol generating system.

Background

Most of heater starting modes of the existing aerosol generating system are that a user inserts an aerosol forming substrate firstly and then manually triggers a starting switch of the heater by the user, after the starting switch of the heater is turned on, the heater starts to work and enters a preheating state, after preheating is finished, the aerosol forming substrate starts to be heated or baked, and aerosol which can be used by the user is generated after the aerosol forming substrate is heated. In the mode, the heater is started slowly and needs to be started manually, a user needs to wait for a long time, and the use experience is not high.

Disclosure of Invention

The present invention addresses the above-described deficiencies of the prior art by providing a plug-and-play aerosol generating heater.

The technical scheme adopted by the invention for solving the technical problems is as follows: an aerosol-generating heater including a heating device and a mounting seat mounted on the heating device for insertion of an aerosol-forming substrate;

the heating device comprises a shell, a detection device arranged in the shell, a control assembly arranged in the shell and connected with the detection device, and a heating body;

an accommodating cavity for mounting the mounting seat is formed in the shell; the accommodating cavity is close to the heating device;

one end of the heating element is connected with the control component, and the other end of the heating element penetrates out of the shell and extends into the accommodating cavity;

an opening into which the heating element is inserted is formed in the mounting seat, so that when the aerosol-forming substrate is inserted into the mounting seat, the heating element is inserted into the aerosol-forming substrate through the opening;

the detection device is used for generating a detection signal when the aerosol-forming substrate is inserted into the mounting seat, sending the detection signal to the control assembly, and starting the heating device to heat by the control assembly according to the detection signal.

Further, the method comprises the following steps: the mounting seat is detachably inserted and installed on the heating device.

Further, the method comprises the following steps: the mounting seat comprises an end part and an inserting part which is connected with the end part and is inserted into the accommodating cavity;

a channel for the aerosol-forming substrate to be inserted is arranged on the inner side of the inserting part, and the inner diameter of the channel is matched with the outer diameter of the aerosol-forming substrate; an opening for inserting the heating element is arranged on the bottom surface of the inserting part.

Further, the method comprises the following steps: the shell comprises a bottom wall and at least one side wall which is arranged on the bottom wall and extends upwards;

the end part is a ring of flanges which are arranged in parallel relative to the bottom wall; the inserting portion is a cylindrical structure which is arranged in parallel relative to the side wall.

Further, the method comprises the following steps: the detection device comprises an elastic piece and a trigger switch, wherein the elastic piece is arranged in the shell, sleeved on the periphery of the mounting seat and abutted against the shell and the flange of the mounting seat, and the trigger switch is arranged in the shell to generate a trigger signal when the aerosol forming substrate is inserted into the mounting seat.

Further, the method comprises the following steps: the trigger switch comprises a connecting part and a detection part;

the connecting portion set up in the shell and with control assembly connects, the one end of detection portion with connecting portion connect, the other end of detection portion wears out stretch into behind the shell the holding chamber can aerosol forms the substrate and inserts when the mount pad with the flange butt of tip triggers.

Further, the method comprises the following steps: the mounting seat also comprises a protruding part which is arranged on the peripheral wall of the inserting part in a protruding way;

the trigger switch comprises a connecting part and a detection part;

the connecting portion set up in the shell and with control assembly connects, the one end of detection portion with connecting portion connect, the other end of detection portion wears out stretch into behind the shell the holding chamber can aerosol forms the substrate and inserts when the mount pad with the bulge butt triggers.

Further, the method comprises the following steps: the trigger switch comprises a connecting part and a detection part;

the connecting portion set up on the control assembly, detection portion one end with connecting portion are connected, and the other end of detection portion wears out stretch into behind the shell the holding chamber can aerosol formation substrate insert when the mount pad with insert the bottom butt of establishing the portion and trigger.

Further, the method comprises the following steps: the detection device comprises a pressure sensor;

the pressure sensor comprises a main body part and a sensing part;

the main body part is connected with the control assembly; one end of the sensing part is connected with the main body part, and the other end of the sensing part penetrates out of the shell and then extends into the accommodating cavity and can be abutted and triggered by the flange of the end part when the aerosol forming substrate is inserted into the mounting seat.

The present invention also provides an aerosol-generating system including the aerosol-generating heater according to the present invention, and an aerosol-forming substrate inserted into the mount, wherein the aerosol-generating heater is capable of heating the aerosol-forming substrate.

The invention has the beneficial effects that: the detection device is used for generating a detection signal when the aerosol-forming substrate is inserted into the mounting seat and sending the detection signal to the control assembly, and the control assembly can automatically start the heating device according to the detection signal, so that the aerosol-forming substrate is directly heated through the heating body, and the aerosol is generated. Therefore, the aerosol forming substrate can be automatically triggered to start heating when being inserted into the aerosol forming substrate, namely, the plug-and-play function is realized, the starting and waiting time can be effectively shortened without the intervention of a user, and the user experience is better; meanwhile, the device has the advantages of simple structure, convenience in installation and the like.

Drawings

FIG. 1 is a schematic structural view of a first embodiment of a heater for aerosol generation according to the present invention;

FIG. 2 is a schematic structural view of a second embodiment of a heater for aerosol generation according to the present invention;

FIG. 3 is a schematic structural view of a third embodiment of a heater for aerosol generation according to the present invention;

fig. 4 is a schematic structural diagram of a fourth embodiment of a heater for aerosol generation according to the present invention.

Labeled as: the aerosol-forming substrate 100, the mounting base 10, the end portion 11, the insertion portion 12, the protruding portion 13, the passage 101, the heating device 20, the housing 21, the bottom wall 211, the side wall 212, the control unit 22, the accommodating chamber 23, the heating body 24, the elastic member 201, the trigger switch 202, the connecting portion 2021, the detection portion 2022, the pressure sensor 25, the main body portion 251, and the sensing portion 252.

Detailed Description

The invention is further described with reference to the following figures and detailed description.

It should be noted that, if directional indications are used in the present invention, such as terms of directions and orientations of up, down, left, right, front and back, the terms are used to facilitate description of relative positional relationship between members, and an absolute position that is not a positional relationship between related members and members is specifically used only to explain the relative positional relationship between members and movement conditions in a specific posture, and if the specific posture is changed, the directional indication is changed accordingly.

Fig. 1 to 4 show some preferred embodiments of the heater for aerosol generation provided by the present invention. The aerosol-generating heater may be used to heat or bake the aerosol-forming substrate 100 so that the aerosol-forming substrate 100 generates a corresponding aerosol for use by a user; the heating device has the advantages of simple structure, convenience in installation and plug-and-play, can automatically trigger starting and heating, does not need manual intervention to start, and is short in starting time and waiting time and better in user experience.

Specifically, the heater for aerosol generation according to the present invention includes a heating device 20 and a mounting base 10 mounted on the heating device 20 for inserting an aerosol-forming substrate 100;

specifically, the heating device 20 includes a casing 21, a detection device disposed in the casing 21, a control assembly 22 disposed in the casing 21 and connected to the detection device, and a heating element 24;

an accommodating cavity 23 for the installation of the installation seat 10 is arranged in the shell 21; the accommodating cavity 23 is close to the heating device 20;

one end of the heating element 24 is connected with the control component 22, and the other end of the heating element 24 penetrates through the shell 21 and extends into the accommodating cavity 23;

an opening into which the heating element 24 is inserted is provided in the mounting base 10, so that when the aerosol-forming substrate 100 is inserted into the mounting base 10, the heating element 24 is inserted into the aerosol-forming substrate 100 through the opening;

the detection device is configured to generate a detection signal when the aerosol-forming substrate 100 is inserted into the mounting seat 10, and send the detection signal to the control component 22, and the control component 22 activates the heating device 20 to heat according to the detection signal.

The mounting seat 10 can be inserted with the aerosol-forming substrate 100, and the heating device 20 can be used to generate heat and heat the inserted aerosol-forming substrate 100 through the heating element 24 to generate aerosol. The heating element 24 includes, but is not limited to, various different structures such as a columnar heating element, a sheet heating element, and a needle heating element.

More preferably, the mounting seat 10 may be detachably inserted and mounted on the heating device 20; thus, in use, the mounting base 10 can be directly inserted into the heating device 20; when not in use, the mounting base 10 can be directly removed from the heating device 20 as a whole for separate storage or for cleaning, maintenance, etc.

More preferably, the mounting seat 10 includes an end portion 11 and an inserting portion 12 connected to the end portion 11 for being inserted into the accommodating cavity 23; a channel 101 for inserting the aerosol-forming substrate 100 is arranged on the inner side of the insertion part 12, and the inner diameter of the channel 101 is matched with the outer diameter of the aerosol-forming substrate 100; an opening into which the heating element 24 is inserted is provided in the bottom surface of the insertion portion 12. Wherein, with reference to the figures, the channel 101 is an area for insertion of an aerosol-forming substrate 100, and in particular the aerosol-forming substrate 100 may be inserted axially into the channel 101 in use; and the heating element 24 can be inserted into the passage 101 through the opening provided at the bottom of the insertion portion 12; of course, without loss of generality, the size of the opening is adapted to the peripheral size of the heat-generating body 24, so that the heat-generating body 24 can pass through the opening and be inserted into the channel 101, so that when the aerosol-forming substrate 100 is inserted into the mounting seat 10, the heat-generating body 24 is inserted into the aerosol-forming substrate 100 through the opening.

More preferably, the housing 21 of the present invention may include a bottom wall 211 and at least one sidewall 212 disposed on the bottom wall 211 and extending upward. For example, the housing 21 may include a bottom wall 211 and four side walls 212. The outer wall surface of the bottom wall 211 may be a smooth plane, and the cross section of the bottom wall 211 may be square, circular, etc. The four sidewalls 212 may be outer sidewalls corresponding to a cylindrical structure that is disposed on the bottom wall 211 and extends upward to form a rectangular parallelepiped or a cylinder. It is understood that in other embodiments, the sidewalls 212 may not be limited to four. In some embodiments, housing 21 may be provided with keys and indicator lights; buttons and indicator lights may be provided on the outer surface of the sidewall 212, and thus may be used by the user to actively adjust the temperature, turn off the heating device 20, adjust the mode, etc.; and the indicator light can be used to display the power, temperature, charging status, etc. of the heating device 20. Optionally, in some embodiments, the key may include one or more; the indicator light may be an LED indicator light.

More preferably, the end portion 11 of the present invention may be provided with a ring of ribs arranged in parallel with respect to the bottom wall 211, and may be in limit fit with the ring of ribs at the corresponding port edge of the accommodating cavity 23. The inserting portion 12 may be a cylindrical structure disposed parallel to the sidewall 212, wherein the axial direction of the inserting portion of the cylindrical structure is parallel to the direction in which the sidewall 212 extends upward relative to the bottom wall 211; specifically, the arrangement can be made with reference to the positional relationship shown in the drawings.

The detection device of the present invention is used for detecting whether the aerosol-forming substrate 100 is inserted, generating a corresponding detection signal, and sending the detection signal to the control component 22, wherein the control component 22 automatically starts the heating device 20 to heat according to the detection signal. After receiving the detection signal output by the detection device, the control component 22 may determine that the aerosol-forming substrate 100 has been inserted into the mounting seat 10, and then control the heating device 20 to start up to heat and bake the aerosol-forming substrate 100. Specifically, for the specific structure and installation position relationship of the detection device, the following different schemes can be adopted in the invention:

first, referring to the schematic structural diagram of the first embodiment of the present invention shown in fig. 1:

in the first embodiment, the detection device includes an elastic member 201 disposed in the housing 21 and sleeved on the periphery of the mounting seat 10 and abutted against the housing 21 and the rib of the mounting seat 10, and a trigger switch 202 disposed in the housing 21 for generating a trigger signal when the aerosol-forming substrate 100 is inserted into the mounting seat 10.

The trigger switch 202 may further include a connection portion 2021 and a detection portion 2022; the connecting portion 2021 is disposed in the housing 21 and connected to the control component 22, one end of the detecting portion 2022 is connected to the connecting portion 2021, and the other end of the detecting portion 2022 extends out of the housing 21 and then extends into the accommodating cavity 23, and can be triggered by abutting against the rib of the end portion 11 when the aerosol-forming substrate 100 is inserted into the mounting base 10.

Second, referring to fig. 2, a schematic structural diagram of a second embodiment of the present invention:

in the second embodiment, in order to change the position and orientation of the detection portion 2022 based on the first embodiment, the projection portion 13 projecting from the outer peripheral wall of the insertion portion 12 is provided, and the projection portion 13 abuts against the detection portion 2022 at a corresponding position during the insertion of the aerosol-forming substrate 100, so as to generate a detection signal.

Thirdly, referring to the schematic structural diagram of the third embodiment of the invention shown in the attached fig. 3:

in the third embodiment, in order to change the installation position and orientation of the detection portion 2022 based on the first embodiment, specifically, the connection portion 2021 is directly disposed on the control component 22, one end of the detection portion 2022 is connected to the connection portion 2021, and the other end of the detection portion 2022 extends into the accommodating cavity 23 after penetrating through the housing 21, and can be triggered by abutting against the bottom of the insertion portion 12 when the aerosol-forming substrate 100 is inserted into the mounting base 10.

In the above three structures, after the inserting portion 12 of the mounting base 10 is inserted into the receiving cavity 23, the mounting base 10 is located at the first position under the elastic force of the elastic member 201, when a user inserts the aerosol-forming substrate 100 into the channel 101 of the mounting base 10, due to the downward pressure generated in the process of inserting the aerosol-forming substrate 100, at this time, the elastic member 201 at the periphery of the mounting base 10 is pressed and deformed, and the mounting base 10 is pressed down from the first position to the second position, in this process, the end portion 11, the protruding portion 13 or the bottom portion of the portion corresponding to the detecting portion 2012 on the mounting base 10 can be pressed against or touch the detecting portion 2012 to generate a corresponding triggering acting force on the detecting portion 2012, so that the triggering switch 202 senses the action to generate a corresponding detecting signal, the detecting signal is directly transmitted to the control component 22, and the control component 22 starts heating after receiving the detecting signal, so as to realize the plug and play function.

Without loss of generality, the elastic member 201 may be a spring, a spring sheet, or a compressible rubber strip, which can achieve an elastic function.

In addition, referring to the fourth embodiment shown in fig. 4, the detecting device of the present invention includes a pressure sensor 25, and compared with the first to third embodiments, the fourth embodiment does not have the structure of the elastic member 201; wherein the pressure sensor 25 includes a main body portion 251 and a sensing portion 252; the main body 251 is connected with the control assembly 22; one end of the sensing portion 252 is connected to the main body portion 251, and the other end of the sensing portion 252 extends out of the outer shell 21, extends into the accommodating cavity 23, and can be triggered by abutting against the rib of the end portion 11 when the aerosol-forming substrate 100 is inserted into the mounting seat 10.

The sensing portion 252 of the pressure sensor 25 is preferably a flexible or compressible elastic structure. Thus, in use, after the insertion portion 12 of the mounting seat 10 is inserted into the receiving cavity 23, the end portion 11 of the mounting seat 10 is in the first position, when a user inserts the aerosol-forming substrate 100 into the channel 101 of the mounting seat 10, due to a downward pressure generated in the process of inserting the aerosol-forming substrate 100, at this time, the end portion 11 of the mounting seat 10 is pressed down from the first position to the second position, during the process of pressing down the end portion 11 of the mounting seat 10, the sensing portion 252 of the pressure sensor 25 is pressed down by the end portion 11 of the mounting seat 10 to deform, so that the pressure sensor 25 senses the downward pressure to generate a corresponding detection signal, the detection signal is directly transmitted to the control component 22, and the control component 22 starts heating after receiving the detection signal, thereby realizing plug and play.

Without loss of generality, in the first to fourth embodiments of the present invention, the trigger switch 202 includes, but is not limited to, a pressure switch, a proximity switch, a pressure sensor 25, and other mechanical detection; it is understood that in other embodiments, the detecting device may be replaced by an infrared sensor, a photoelectric sensor, or the like capable of detecting a position change or a pressure change.

The present invention also provides an aerosol-generating system including an aerosol-forming substrate 100, the aerosol-forming substrate 100 being inserted into the mount 10, and the aerosol-generating heater being capable of heating the aerosol-forming substrate 100.

When the aerosol-forming substrate 100 is inserted into the heater for aerosol generation, the heater can be automatically triggered to start heating at the same time, and the user does not need to additionally act to start the heater for heating, so that the time for starting the heater can be effectively shortened, the waiting time of the user can be shortened, and the user experience is improved.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and are intended to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the scope of the present invention. All equivalent changes and modifications made within the scope of the claims of the present invention should be covered by the claims of the present invention.

Claims (10)

1. An aerosol-generating heater comprising: comprises a heating device (20) and a mounting seat (10) which is arranged on the heating device (20) and is used for inserting aerosol forming base materials (100);

the heating device (20) comprises a shell (21), a detection device arranged in the shell (21), a control component (22) arranged in the shell (21) and connected with the detection device, and a heating body (24);

an accommodating cavity (23) for installing the installation seat (10) is arranged in the shell (21); the containing cavity (23) is close to the heating device (20);

one end of the heating element (24) is connected with the control component (22), and the other end of the heating element (24) penetrates out of the shell (21) and extends into the accommodating cavity (23);

an opening into which the heating element (24) is inserted is provided in the mounting base (10), so that when the aerosol-forming substrate (100) is inserted into the mounting base (10), the heating element (24) is inserted into the aerosol-forming substrate (100) through the opening;

the detection device is used for generating a detection signal when the aerosol-forming substrate (100) is inserted into the mounting seat (10), sending the detection signal to the control component (22), and enabling the heating device (20) to heat by the control component (22) according to the detection signal.

2. A heater for aerosol generation as claimed in claim 1, wherein: the mounting base (10) is detachably inserted and mounted on the heating device (20).

3. An aerosol generating heater according to claim 2, wherein: the mounting seat (10) comprises an end part (11) and an inserting part (12) which is connected with the end part (11) and is inserted into the accommodating cavity (23);

a channel (101) for inserting the aerosol-forming substrate (100) is arranged on the inner side of the inserting part (12), and the inner diameter of the channel (101) is matched with the outer diameter of the aerosol-forming substrate (100); an opening into which the heating element (24) is inserted is provided on the bottom surface of the insertion portion (12).

4. A heater for aerosol generation according to claim 3, wherein: the housing (21) comprises a bottom wall (211) and at least one side wall (212) which is arranged on the bottom wall (211) and extends upwards;

the end part (11) is a ring of flanges which are arranged in parallel relative to the bottom wall (211); the insertion portion (12) is a cylindrical structure arranged in parallel with respect to the side wall (212).

5. The aerosol generating heater according to claim 4, wherein: the detection device comprises an elastic piece (201) arranged in the shell (21) and sleeved on the periphery of the mounting seat (10) and abutted against the shell (21) and the rib of the mounting seat (10), and a trigger switch (202) arranged in the shell (21) and used for generating a trigger signal when the aerosol-forming substrate (100) is inserted into the mounting seat (10).

6. The heater for generating an aerosol as set forth in claim 5, wherein: the trigger switch (202) comprises a connecting part (2021) and a detecting part (2022);

the connecting portion (2021) is arranged in the shell (21) and connected with the control assembly (22), one end of the detection portion (2022) is connected with the connecting portion (2021), and the other end of the detection portion (2022) penetrates through the shell (21) and then extends into the accommodating cavity (23) and can be abutted and triggered with the flange of the end portion (11) when the aerosol-forming substrate (100) is inserted into the mounting seat (10).

7. The heater for generating an aerosol as set forth in claim 5, wherein: the mounting seat (10) further comprises a protruding part (13) which is arranged on the peripheral wall of the inserting part (12) in a protruding mode;

the trigger switch (202) comprises a connecting part (2021) and a detecting part (2022);

the connecting portion (2021) is arranged in the shell (21) and connected with the control assembly (22), one end of the detection portion (2022) is connected with the connecting portion (2021), and the other end of the detection portion (2022) penetrates through the shell (21) and then extends into the accommodating cavity (23) and can be abutted and triggered by the protruding portion (13) when the aerosol-forming substrate (100) is inserted into the mounting seat (10).

8. The heater for generating an aerosol as set forth in claim 5, wherein: the trigger switch (202) comprises a connecting part (2021) and a detecting part (2022);

the connecting portion (2021) is arranged on the control assembly (22), one end of the detection portion (2022) is connected with the connecting portion (2021), and the other end of the detection portion (2022) penetrates through the shell (21) and then extends into the accommodating cavity (23) and can be abutted and triggered with the bottom of the inserting portion (12) when the aerosol forming substrate (100) is inserted into the mounting seat (10).

9. A heater for aerosol generation according to claim 3, wherein: the detection means comprise a pressure sensor (25);

the pressure sensor (25) comprises a main body portion (251) and a sensing portion (252);

the main body part (251) is connected with the control assembly (22); one end of the sensing part (252) is connected with the main body part (251), and the other end of the sensing part (252) penetrates through the shell (21) and then extends into the accommodating cavity (23) and can be abutted with the rib of the end part (11) to trigger when the aerosol-forming substrate (100) is inserted into the mounting seat (10).

10. An aerosol generating system comprising the heater of any of claims 1 to 9, wherein: further comprising an aerosol-forming substrate (100), the aerosol-forming substrate (100) being inserted into the mount (10), the aerosol-generating heater being capable of heating the aerosol-forming substrate (100).

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