CN220833784U - Self-adaptive atomizer - Google Patents

Abstract

Electronic atomizer technical field especially relates to a self-adaptation atomizer. Including atomizer body and two at least removable liquid bullet, be equipped with first conduction spare on the atomizer body, be equipped with different second on two at least removable liquid bullet and lead to the piece, through first conduction spare with the second leads to the piece to be connected, switches on and forms corresponding circuit, through the circuit the atomizing bullet body with the liquid bullet electricity is connected. The application has the advantages of enabling the atomizer body to adapt to different types of liquid bullets through a simple structure, realizing corresponding atomization efficiency and reducing production cost.

Description

Self-adaptive atomizer

Technical Field

The application relates to the technical field of electronic atomizers, in particular to a self-adaptive atomizer.

Background

Drug compliance includes, but is not limited to, therapeutic compliance, drug delivery, dose assurance, and appropriate respiratory techniques. Through feedback on various compliance aspects of the medicament, important information can be provided to the user, care provider, and insurance provider. The nebulizer is composed of a nebulizer body and a cartridge, and when a patient, caregiver, or other user places or inserts the cartridge containing the medicament into the nebulizer body, the nebulizer system can identify the medicament and determine the proper delivery method required for proper administration to ensure that the patient is taking the proper medicament and the proper method of use of the medicament.

In the prior art, the atomizer body can identify the type of the liquid bomb through an NFC mode so as to control the medicine amount or atomization efficiency of the liquid bomb during use, but the cost of the mode is high.

The prior art is therefore subject to improvement based on the above-mentioned problems.

Disclosure of utility model

The application aims to enable the atomizer body to be self-adaptive to different types of liquid bullets through a simple structure, realize corresponding atomization efficiency and reduce production cost.

The technical aim of the application is realized by the following technical scheme: the utility model provides a self-adaptation atomizer, includes atomizer body and two at least removable liquid bullet, be equipped with first conduction spare on the atomizer body, be equipped with different second on two at least removable liquid bullet and lead to the piece, through first conduction spare with the second leads to the piece to be connected, switches on and forms corresponding circuit, through the circuit the atomizing bullet body with the liquid bullet electricity is connected.

Through adopting above-mentioned technical scheme, liquid bullet and atomizer body can make its first conduction spare or second conduction spare that set up connect conduction or non-connection conduction through physical structure, and the conduction of conduction spare and different second conduction spare is set up, switches on and forms different circuits, produces corresponding signal of telecommunication to express multiple type liquid bullet, make the atomizer body carry out the power supply to liquid bullet, realize different atomization efficiency.

Optionally, be equipped with one or more first conducting piece on the atomizer body, the liquid bullet corresponds first conducting piece position is equipped with and adorns the position, adorn the position and include first dress and inlay the position with the second dress, through first dress is inlayed the position and is dodged first conducting piece, be equipped with on the second dress is inlayed the second conducting piece, correspond the position first conducting piece with the second conducting piece connects and switches on.

Through adopting above-mentioned technical scheme, connect through second on the dress clamping position different positions and corresponding first and lead to the piece and connect and lead to, lead to and form different circuits, produce corresponding signal of telecommunication to express multiple type liquid bullet, make the atomizer body supply power to the liquid bullet, realize different atomization efficiency. The first conduction piece and the second conduction piece can be intuitively and clearly connected or disconnected through the first clamping position and the second clamping position, so that the corresponding connection positions correspond to different conduction circuits, and the first conduction piece and the second conduction piece at different corresponding positions are prevented from being connected in a mistaken touch mode.

Optionally, the first conducting piece is an atomizer pin, the first conducting piece with atomizer body electricity is connected, the second conducting piece is a liquid bullet pin, the second conducting piece with liquid bullet electricity is connected, corresponding position the atomizer pin can be connected liquid bullet pin.

Through adopting above-mentioned technical scheme, through miniaturized structure's pin setting, reduce the volume of first conduction spare and second conduction spare, stable and accurate completion is connected and is switched on, reduces manufacturing cost consumption. And through miniaturized structure's pin setting, can be when increasing the quantity of pin, through the matching of different positions connection, accomplish more kind liquid bullet and match, make atomizer body self-adaptation multiple kind liquid bullet.

Optionally, the first conducting piece is connected with a pressure switch, the second conducting piece is electrically connected with the liquid bullet, the first clamping position is avoided the first conducting piece, the second conducting piece is connected with the first conducting piece, and the first conducting piece is electrically connected with the atomizer body.

Through adopting above-mentioned technical scheme, when the liquid bullet installs the atomizer body, press the pressure switch that the first conducting piece that corresponds the position on the atomizer body through the second conducting piece on the liquid bullet connected, trigger pressure switch and make first conducting piece and atomizer body produce the electricity and be connected, the liquid bullet dodges the pressure switch that the first conducting piece that corresponds the position is connected on through first dress position, the pressure switch that corresponds the position does not trigger and does not produce the electricity with the atomizer body and be connected, the second conducting piece is connected with the first conducting piece that is connected with atomizer body electricity and is switched on, make this kind of liquid bullet of atomizer body self-adaptation, and provide corresponding power supply according to the circuit that switches on.

Optionally, the first conducting piece is connected with a light emitter and a photosensitive sensor, the second mounting position is provided with a reflecting piece, the second conducting piece is electrically connected with the liquid bomb, and the second conducting piece can reflect light emitted by the light emitter at a corresponding position into the photosensitive sensor at the corresponding position, so that the first conducting piece is electrically connected with the atomizer body.

Through adopting above-mentioned technical scheme, when the liquid bullet installs on the atomizer body, light emitter emission light, light irradiation is to the first dress of being equipped with on the liquid bullet and is blocked the position and can't be reflected, the photo sensor response can't be by the light that the reflection was returned does not trigger the switch, corresponding first switch-on piece is not connected with atomizer body electricity, light emitter emission light, when the light irradiates to the reflection of light piece of the second dress department of being equipped with on the liquid bullet, reflection of light piece is to the photo sensor department of corresponding position, make photo sensor trigger the switch, make first switch-on piece and atomizer body electricity be connected, the second switch-on piece is connected with the first switch-on piece of being connected with atomizer body electricity and is switched on, make this kind of liquid bullet of atomizer body self-adaptation to provide corresponding power supply according to the circuit that switches on.

Optionally, the light reflecting member is a light reflecting film.

Through adopting above-mentioned technical scheme, the reflective film has thinner thickness, can stably paste on the liquid bullet, fully reflect to photosensitive sensor on the light that light transmitter launched through the reflective film, make first conduction spare can accurate sensitivity and atomizer body electricity be connected.

Optionally, a limiting part is arranged on the atomizer body, a plugging groove is formed in the limiting part in a surrounding mode, and the replaceable liquid cartridge can be plugged into the plugging groove.

Through adopting above-mentioned technical scheme, through the spliced groove that the locating part formed, make removable liquid bullet stabilize and atomizer body installation connect, keep the electricity between removable liquid bullet and the atomizer body to connect the setting, make the atomizer body can stabilize the circuit through corresponding the connection for removable liquid bullet power supply.

Optionally, a protruding edge is arranged on one side of the limiting piece away from the inserting groove.

Through adopting above-mentioned technical scheme, the person of facilitating the use is handheld, increases the frictional force of user and atomizer body shell through protruding edge, and stable atomizer body pulls out and inserts removable liquid bullet, and the person of facilitating the use is handheld to change the liquid bullet of multiple kind.

In summary, the application at least comprises the following advantages:

1. The liquid bullet and the atomizer body can be connected and conducted or disconnected through the first conducting piece or the second conducting piece which are arranged on the liquid bullet and the atomizer body through the physical structure, and the liquid bullet and the atomizer body are conducted through the first conducting piece and the different second conducting pieces to form different circuits, so that corresponding electric signals are generated, various types of liquid bullets are expressed, the atomizer body supplies power to the liquid bullet, and different atomization efficiencies are realized.

2. Through miniaturized structure's pin setting, reduce the volume of first conduction spare and second conduction spare, stable and accurate completion is connected and is switched on, reduces manufacturing cost consumption. And through miniaturized structure's pin setting, can be when increasing the quantity of pin, through the matching of different positions connection, accomplish more kind liquid bullet and match, make atomizer body self-adaptation multiple kind liquid bullet.

Drawings

FIG. 1 is a schematic diagram of an adaptive atomizer;

FIG. 2 is a schematic diagram of a hydro-elastic lead mounting structure;

FIG. 3 is a schematic diagram of a nebulizer pin mounting structure;

FIG. 4 is a schematic diagram of a second embodiment of an adaptive atomizer;

FIG. 5 is a schematic diagram of a trigger architecture of a second embodiment of an adaptive atomizer;

fig. 6 is a schematic structural view of a third embodiment of an adaptive atomizer.

Reference numerals

1. An atomizer body; 2. a liquid bomb; 3. a first conductive member; 4. a second conductive member; 5. mounting and clamping; 6. a first mounting block; 7. a second mounting block; 8. a pressure switch; 9. a light emitter; 10. a photosensitive sensor; 11. a light reflecting member; 12. a limiting piece; 13. a plug-in groove; 14. and (5) protruding ridges.

Detailed Description

The present application will be described in further detail with reference to the accompanying drawings.

In this embodiment, referring to fig. 1, an adaptive atomizer comprises an atomizer body 1 and at least two replaceable cartridges 2. The atomizer body 1 comprises a housing, a battery, a ventilation system assembly and the like, and at least two replaceable liquid cartridges 2 are used for containing atomized liquid such as different kinds of medicaments. The atomizer body 1 is provided with a first conducting piece 3, the replaceable liquid bomb 2 is provided with a second conducting piece 4, the replaceable liquid bomb 2 filled with different types of atomized liquid is provided with different settings corresponding to the second conducting pieces 4 arranged on the replaceable liquid bomb, for example, one or more positions of the second conducting pieces 4, such as the setting positions, the materials, the shapes and the like, are different, and the different types of liquid bombs 2 are conveniently distinguished. The second conducting members 4 and the first conducting members 3 which are arranged in different ways are correspondingly connected and conducted to form corresponding circuits, corresponding electric signals are generated, and the atomizer body 1 is electrically connected with the liquid bomb 2 through the circuits. The battery of atomizer body 1 is liquid bullet 2 power supply through the circuit that forms, and the output efficiency of different circuits corresponds different second and switches on 4 setting, and different kinds of liquid bullet 2 correspond different atomization efficiency, and when different removable liquid bullet 2 were installed on atomizer body 1, the kind of atomizer body 1 self-adaptation discernment liquid bullet 2 makes liquid bullet 2 correspond and carries out atomizing atomized liquid according to the circuit that has connected, and convenient control liquid bullet 2's atomizing volume and atomization efficiency etc.. Through simple structure messenger atomizer body 1 self-adaptation different types's liquid bullet 2, realize corresponding atomization efficiency, reduction in production cost.

In this embodiment, referring to fig. 2 and 3, the atomizer body 1 is provided with one or more first conducting members 3, preferably 8 first conducting members 3, which are arranged on the atomizer body 1 in two rows, the positions of the liquid springs 2 corresponding to the first conducting members 3 are provided with mounting positions 5, the mounting positions 5 comprise a first mounting position 6 and a second mounting position 7, the first mounting position 6 is not provided with the second conducting members 4, and the second mounting positions 7 are provided with the second conducting members 4. When the liquid bomb 2 is installed on the atomizer body 1, the second conducting piece 4 on the second clamping position 7 can be connected and conducted with the first conducting piece 3, and the first clamping position 6 avoids the first conducting piece 3, so that the first conducting piece is not connected. The corresponding circuit settings of the first conducting parts 3 at different positions are different, when the second conducting parts 4 are connected and conducted with the different first conducting parts 3, and the connection circuit settings between the atomizer body 1 and the liquid bullet 2 are different, the atomizer body 1 is enabled to self-adapt to the liquid bullet 2 to supply power to the liquid bullet 2 through different circuit identifications, and the liquid bullet 2 is enabled to carry out atomization storage of atomized liquid according to different circuit settings.

In this embodiment, referring to fig. 2 and 3, the first conducting members 3 are atomizer pins, preferably 8 first conducting members 3 are provided in total, and are arranged on the atomizer body 1 in two rows, and the atomizer pins are electrically connected to the atomizer body 1. The second conducting member 4 is a pin of the liquid bomb 2, the second conducting member 4 is electrically connected with the liquid bomb 2, preferably, one or more pins are arranged on the liquid bomb 2, the first clamping position 6 is not connected and is represented as 0, the second clamping position 7 is represented by conducting the first conducting member 3 and the second conducting member 4 as 1, 256 possibilities can be represented, the number of the pins is n, and the type of the representable liquid bomb 2 is n times of 2.

In this embodiment, referring to fig. 4 and 5, the first conductive member 3 is connected to a pressure switch 8, and the pressure switch 8 is triggered by pressing the first conductive member 3, so that the corresponding first conductive member 3 and the atomizer body 1 are electrically connected. Preferably, the first conducting piece 3 and the second conducting piece 4 are electrodes, the pressure switch 8 is arranged at the bottom of the installation position of the first conducting piece 3, a hole is formed in the shell, a conductive film with strong deformation capability is arranged in the hole, the first conducting piece 3 is arranged on the conductive film, the first conducting piece 3 can stably move downwards to abut against the pressure switch 8 through limiting of the shell, the first conducting piece 3 and the pressure switch 8 are separated through the conductive film, and the second conducting piece 4 is electrically connected with the liquid bomb 2. Preferably, 5 first conducting members 3 are arranged on the atomizer body 1, 5 first conducting members 3 correspond to 5 pressure switches 8, preferably 5 mounting positions 5 are correspondingly arranged on the liquid bomb 2, three second conducting members 4 are arranged on the liquid bomb 2 at intervals, two first mounting positions 6 are not provided with the second conducting members 4, the first conducting members 3 are avoided, the three second conducting members 4 are connected with the first conducting members 3 and are extruded to extrude the first conducting members 3 along with the mounting of the liquid bomb 2 on the atomizer body 1, the bottom of the first conducting members 3 extrudes a conductive film to deform the conductive film, the first conducting members 3 are abutted to the pressure switches through the conductive film, the first conducting members 3 are in conductive connection with the pressure switches 8, the pressure switches 8 are closed to be connected, the first conducting members 3 are electrically connected with the atomizer body 1, and the atomizer body 1 is electrically connected with the liquid bomb 2 through the first conducting members 3 and the second conducting members 4. When the liquid bomb 2 separates the atomizer body 1, the conductive film is not extruded to restore the shape, and the first conducting piece is supported. Through the physical structure, the atomizer body 1 is electrically connected with the corresponding first conducting piece 3, so that the atomizer body 1 is self-adaptive to the liquid bomb 2, and the liquid bomb 2 is powered by a circuit of the electrically connected first conducting piece 3.

In the present embodiment, referring to fig. 6, the first conductive member 3 is connected with a light emitter 9 and a photosensor 10, and the light emitter 9 and photosensor 10 are installed corresponding to the position of the first conductive member 3. The second clamping position 7 is provided with a reflecting piece 11 and a second conducting piece 4, and the second conducting piece 4 is electrically connected with the liquid bomb 2. When the liquid bullet 2 is installed on the atomizer body 1, the photoelectric emitter emits light, the first clamping position 6 on the liquid bullet 2 is not provided with the reflecting piece 11, the light is not reflected after passing through the first clamping position 6, namely, the photosensitive sensor 10 corresponding to the first clamping position 6 on the atomizer body 1 is not triggered, and the first conducting piece 3 at the position is not electrically connected and conducted with the atomizer body 1. When the liquid bullet 2 is installed on the atomizer body 1, the photoelectric emitter emits light, the light reflection piece 11 is arranged on the second embedding position 7 on the liquid bullet 2, the light emitted by the light emitter 9 can be reflected and emitted into the photosensitive sensor 10 arranged at the corresponding position on the atomizer body 1, and the first conducting piece 3 at the position is electrically connected with the atomizer body 1. Through the physical structure, the atomizer body 1 is electrically connected with the corresponding first conducting piece 3, so that the atomizer body 1 is self-adaptive to the liquid bomb 2, and the liquid bomb 2 is powered by a circuit of the electrically connected first conducting piece 3.

In this embodiment, referring to fig. 6, it is preferable that the light emitter 9 and the photosensor 10 are disposed around the first conductive member 3, the light reflecting member 11 is a light reflecting film, the second conductive member 4 is disposed around, and the light reflecting film and the light generator are disposed corresponding to the photosensor 10.

In this embodiment, referring to fig. 1 and 3, the atomizer body 1 is provided with a limiting member 12, the limiting member 12 and the atomizer housing are integrally formed, the limiting member 12 is annularly provided with a plugging slot 13, the first conducting member 3 is located at the bottom of the plugging slot 13, the liquid bomb 2 can be plugged into the plugging slot 13, and the second conducting member 4 on the liquid bomb 2 is accurately aligned with the first conducting member 3 in a butt manner through the guiding effect of the plugging slot 13.

In this embodiment, referring to fig. 1, a protruding ridge 14 is provided on a side of the limiting member 12 away from the insertion groove 13. The convenient user holds, increases the frictional force of user and atomizer body 1 shell through protruding stupefied 14, and stable atomizer body 1 pulls out and inserts removable liquid bullet 2, and convenient user holds and changes liquid bullet 2 of multiple kind.

The implementation principle of the embodiment is as follows: the atomizer body 1 and the liquid bomb 2 are electrically connected through the first conducting piece 3 and the second conducting piece 4, so that the atomizer body 1 supplies power for the liquid bomb 2. The first conducting part 3 on the atomizer body 1 is directly and electrically connected with a power supply in the atomizer body 1, or a switch, such as a pressure switch 8, a photosensitive sensor 10 and other switches for controlling the conduction of a circuit, is arranged between the first conducting part 3 and the power supply, resistors are connected in series or in parallel, when the control switch is closed, the corresponding resistors are connected in series or in parallel into a circuit between the atomizer body 1 and the liquid bomb 2, and the circuit current between the atomizer body 1 and the liquid bomb 2 can be controlled. When different liquid bullets 2 filled with different atomized liquids are provided with different second conducting members 4, the liquid bullets 2 are arranged on the atomizer body 1 through the position setting of the different second conducting members 4, the second conducting members 4 drive the set control switch to open and close, the second conducting members 4 are connected with the first conducting members 3 to complete basic circuit loop requirements, the first conducting members 3 are connected with a power supply, and resistors connected in series or in parallel are connected in series or in parallel to circuits between the atomizer body 1 and the liquid bullets 2, so that different circuit effects are formed, the atomization amount, the atomization efficiency and the like of the liquid bullets 2 are controlled through the different circuit effects, and accordingly the atomizer body 1 can adaptively correspond to the liquid bullets 2, and the atomization effect corresponding to the liquid bullets filled with different atomized liquids is completed.

The embodiments of the present application are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in this way, therefore: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (8)

1. The utility model provides a self-adaptation atomizer, its characterized in that, includes atomizer body (1) and two at least removable liquid bullet (2), be equipped with first conduction piece (3) on atomizer body (1), be equipped with different second on two at least removable liquid bullet (2) and lead to piece (4), through first conduction piece (3) with second is lead to piece (4) and is connected, switches on and forms corresponding circuit, through the circuit atomizer body (1) with liquid bullet (2) electricity is connected.

2. An adaptive atomizer according to claim 1, characterized in that the atomizer body (1) is provided with one or more first conducting members (3), the liquid bomb (2) is provided with a mounting position (5) corresponding to the first conducting members (3), the mounting position (5) comprises a first mounting position (6) and a second mounting position (7), the first conducting members (3) are avoided by the first mounting position (6), the second conducting members (4) are provided on the second mounting position (7), and the first conducting members (3) and the second conducting members (4) are connected and conducted at corresponding positions.

3. An adaptive atomizer according to claim 2, characterized in that the first conducting member (3) is an atomizer pin, the first conducting member (3) is electrically connected to the atomizer body (1), the second conducting member (4) is a liquid bomb (2) pin, the second conducting member (4) is electrically connected to the liquid bomb (2), and the atomizer pin in the corresponding position can be connected to the liquid bomb (2) pin.

4. An adaptive atomizer according to claim 2, characterized in that the first conducting member (3) is connected with a pressure switch (8), the second conducting member (4) is electrically connected with the liquid spring (2), the first mounting position (6) is away from the first conducting member (3), the second conducting member (4) is connected with the first conducting member (3), so that the first conducting member (3) is electrically connected with the atomizer body (1).

5. An adaptive atomizer according to claim 2, characterized in that the first conducting member (3) is connected with a light emitter (9) and a photosensor (10), the second mounting position (7) is provided with a reflecting member (11), the second conducting member (4) is electrically connected with the liquid bomb (2), and the second conducting member (4) can reflect the light emitted by the light emitter (9) at the corresponding position into the photosensor (10) at the corresponding position, so that the first conducting member (3) and the atomizer body (1) are electrically connected.

6. An adaptive atomizer according to claim 5, characterized in that the light reflecting member (11) is a light reflecting film.

7. An adaptive atomizer according to claim 1, characterized in that the atomizer body (1) is provided with a limiting member (12), the limiting member (12) is annularly provided with a plugging slot (13), and the replaceable liquid bomb (2) can be plugged into the plugging slot (13).

8. An adaptive atomizer according to claim 7, characterized in that the side of the limiting member (12) remote from the insertion groove (13) is provided with a ridge (14).