CN214802342U - Heating member, atomizer and electronic atomization device - Google Patents

Abstract

The application provides a heating member, atomizer and electron atomizing device. The heating element comprises a conductive heating plug-in, a first conductive seat and a second conductive seat; the first conductive seat is connected with the conductive heating plug-in; the second conductive seat is connected to the conductive heating plug-in, and the second conductive seat and the first conductive seat are oppositely arranged on two sides of the conductive heating plug-in. First electrically conductive seat can with first electrically conductive bullet needle elasticity butt, the electrically conductive seat of second can with the electrically conductive bullet needle elasticity butt of second, make the external electrically conductive of heating member generate heat, the mode of having avoided the printed circuit of traditional heating member to draw forth through electrically conductive wiring, also need not to set up components such as tubular metal resonator and separator, the structure that makes the heating member is simpler, and the heating member can be maintained alone or change, in case make dirty need not worry the problem that can't be changed of heating member, greatly reduced the use cost of atomizer.

Description

Heating member, atomizer and electronic atomization device

Technical Field

The utility model relates to an electronic atomization's technical field especially relates to an add heat-insulating material, atomizer and electronic atomization device.

Background

The heating member of traditional atomizer includes heat conduction pottery, the printed circuit of printing on heat conduction pottery's surface and overlaps the tubular metal resonator of establishing at heat conduction pottery tip, and the printed circuit need outwards draw forth electrically conductive through electrically conductive wiring, and in order to avoid electrically conductive wiring to draw forth the easy short circuit of contact with the tubular metal resonator, need sheathe the spacer in order to draw forth electrically conductive wiring on the tubular metal resonator, makes the structure of atomizer more complicated. Because electrically conductive wiring needs to weld on the mainboard, the heating member in case makes dirty then can't change, leads to the use cost of atomizer higher.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the weak point among the prior art, provide a simple structure and use cost lower heating member, atomizer and electron atomizing device.

The purpose of the utility model is realized through the following technical scheme:

a heating element, comprising:

a conductive heating insert;

the first conductive seat is connected with the conductive heating plug-in;

the second conductive seat is connected to the conductive heating plug-in, and the second conductive seat and the first conductive seat are oppositely arranged on two sides of the conductive heating plug-in.

In one embodiment, the conductive heating insert comprises an insertion rod body and a plug head part which are connected, and the first conductive seat and the second conductive seat are both connected to the insertion rod body; the end part of the inserting rod body, which is at least far away from the inserting head part, is provided with an isolation opening.

In one embodiment, the isolation opening extends in the axial direction of the plugging rod body to an end adjacent to the plugging head.

In one embodiment, the insertion rod body is cylindrical; the plug head is conical.

In one embodiment, the isolation opening has an inner wall radius adjacent the end of the spigot head.

In one embodiment, the conductive heating insert is a conductive heating ceramic body.

In one embodiment, the first conductive socket and the second conductive socket are both conductive heating ceramic bodies.

In one embodiment, the conductive heating insert, the first conductive socket and the second conductive socket are integrally formed.

In one embodiment, the conductive heat generating insert is a conductive graphene body.

In one embodiment, the conductive heating insert includes a heat conductor and a conductive graphene jacket layer covering an outer wall of the heat conductor, the conductive graphene jacket layer extends to the first conductive socket and the second conductive socket, and the first conductive socket and the second conductive socket are both electrically connected to the conductive graphene jacket layer.

An atomiser comprising a heating element as in any one of the embodiments above.

In one embodiment, the atomizer further includes a first conductive pogo pin and a second conductive pogo pin, the first conductive pogo pin elastically abuts against the first conductive seat, and the second conductive pogo pin elastically abuts against the second conductive seat.

An electronic atomization device comprises the atomizer.

Compared with the prior art, the utility model discloses at least, following advantage has:

in the heating element, because the first conductive seat and the second conductive seat are both connected with the conductive heating plug-in unit, the second conductive seat and the first conductive seat are oppositely arranged at two sides of the conductive heating plug-in unit, so that the first conductive seat and the second conductive seat are electrically connected with the conductive heating plug-in unit, when in use, the conductive heating plug-in is inserted into the cigarette holder to heat and atomize the cigarette, the first conductive seat can be elastically abutted with the first conductive elastic pin, the second conductive seat can be elastically abutted with the second conductive elastic pin, so that the external connection of the heating element is conductive and heated, the traditional mode that a printed circuit of the heating element is led out through a conductive wiring is avoided, elements such as a metal tube, a spacer and the like are not required to be arranged, and the structure of the heating element is simpler, and the heating member can be maintained or replaced independently, for example, the problem that the heating member cannot be replaced is solved without worrying once being polluted, and the use cost of the atomizer is greatly reduced.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a schematic structural view of a heating element according to an embodiment;

fig. 2 is a schematic view from another perspective of the heating element shown in fig. 1.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The application provides a heating element, which comprises a conductive heating plug-in, a first conductive seat and a second conductive seat; the first conductive seat is connected with the conductive heating plug-in; the second conductive seat is connected to the conductive heating plug-in, and the second conductive seat and the first conductive seat are oppositely arranged on two sides of the conductive heating plug-in.

In the heating element, because the first conductive seat and the second conductive seat are both connected with the conductive heating plug-in unit, the second conductive seat and the first conductive seat are oppositely arranged at two sides of the conductive heating plug-in unit, so that the first conductive seat and the second conductive seat are electrically connected with the conductive heating plug-in unit, when in use, the conductive heating plug-in is inserted into the cigarette holder to heat and atomize the cigarette, the first conductive seat can be elastically abutted with the first conductive elastic pin, the second conductive seat can be elastically abutted with the second conductive elastic pin, so that the external connection of the heating element is conductive and heated, the traditional mode that a printed circuit of the heating element is led out through a conductive wiring is avoided, elements such as a metal tube, a spacer and the like are not required to be arranged, and the structure of the heating element is simpler, and the heating member can be maintained or replaced independently, for example, the problem that the heating member cannot be replaced is solved without worrying once being polluted, and the use cost of the atomizer is greatly reduced.

Fig. 1 is a schematic structural diagram of a heating element according to an embodiment.

Referring also to fig. 2, one embodiment of the heating element 10 is for insertion into a cigarette and heating the same. The heating element 10 includes a conductive heating insert 100, a first conductive socket 200, and a second conductive socket 300. The first conductive socket 200 is connected to the conductive heating insert 100. The second conductive socket 300 is connected to the conductive heating package 100, and the second conductive socket 300 and the first conductive socket 200 are disposed at two sides of the conductive heating package 100. Since the first conductive socket 200 and the second conductive socket 300 are both connected to the conductive heating insert 100, the first conductive socket 200 and the second conductive socket 300 are both electrically connected to the conductive heating insert 100. In this embodiment, the first conductive socket 200 and the second conductive socket 300 are respectively protruded on two opposite sides of the conductive heating insert 100, so that the first conductive socket 200 and the second conductive socket 300 are respectively electrically connected to the positive electrode and the negative electrode of the power supply. Specifically, the first conductive socket 200 may be abutted against the first conductive pogo pin, so that the first conductive socket 200 is electrically connected to the first conductive pogo pin. The second conductive socket 300 can be abutted against the second conductive pogo pin, so that the second conductive socket 300 is electrically connected with the second conductive pogo pin.

In the above-mentioned heating element 10, because the first conductive seat 200 and the second conductive seat 300 are both connected to the conductive heating insert 100, and the second conductive seat 300 and the first conductive seat 200 are disposed at two sides of the conductive heating insert 100, so that the first conductive seat 200 and the second conductive seat 300 are both electrically connected to the conductive heating insert 100, when in use, the conductive heating insert 100 is inserted into a cigarette holder to heat and atomize cigarettes, the first conductive seat 200 can be elastically abutted against the first conductive pogo pin, the second conductive seat 300 can be elastically abutted against the second conductive pogo pin, so that the external connection of the heating element 10 is electrically conductive and heated, thereby avoiding the conventional way that the printed circuit of the heating element 10 is led out through a conductive connection wire, and without the need of disposing components such as a metal tube and a spacer, the structure of the heating element 10 is simpler, and the heating element 10 can be independently maintained or replaced, for example, once the heating element 10 is dirty, the problem of being unable to be replaced is solved, greatly reducing the use cost of the atomizer.

Referring to fig. 1 and fig. 2, in one embodiment, the conductive heating plug 100 includes a plug rod 110 and a plug head 120 connected to each other, and the first conductive socket 200 and the second conductive socket 300 are both connected to the plug rod 110, so that the first conductive socket 200 and the second conductive socket 300 are both electrically connected to the conductive heating plug 100. At least the end of the plugging rod 110 far away from the plugging head 120 is provided with an isolation opening 112, and when the conductive heating plug 100 is conductive, the current is better guided to the plugging head 120 on the plugging rod 110, so that the conductive heating plug 100 is conductive and generates heat. In the embodiment, the plugging rod 110 and the plug 120 are integrally formed, so that the conductive heating plug 100 has a compact structure. In other embodiments, the plugging rod body 110 and the plug head 120 are not limited to being integrally formed.

Referring to fig. 1 and 2, in one embodiment, the isolation opening 112 extends along the axial direction of the plugging rod 110 to an end adjacent to the plugging head 120, so that the current is better guided to the plugging rod 120 on the plugging rod 110, and the conductive heat generating insert 100 is better conducted to generate heat. In this embodiment, the isolation opening extends completely in the axial direction of the plug rod body.

Referring to fig. 1 and 2, in order to better insert the conductive heating insert 100 into the cigarette, in one embodiment, the insertion rod 110 is cylindrical, and the insertion head 120 is conical, so that the conductive heating insert 100 is better inserted into the cigarette.

Referring to fig. 1 and 2, in order to avoid the problem that the conductive heating insert 100 is prone to crack along the isolation opening 112, in one embodiment, the inner wall of the end portion of the isolation opening 112 adjacent to the plug head portion 120 has an excessive rounded corner, so as to avoid the problem that the conductive heating insert 100 is prone to crack along the isolation opening 112, and greatly reduce the stress concentration on the inner wall of the isolation opening 112.

Referring again to fig. 1, in one embodiment, the conductive heating insert 100 is a conductive heating ceramic body, so that the conductive heating insert 100 generates heat after being powered on, and further, the cigarette is better heated, and meanwhile, the situation that the conventional heating element 10 has a printed circuit is avoided. It can be understood that the conductive heating ceramic body can be formed by injecting conductive heating ceramic slurry into the mold, so that the structure of the conductive heating ceramic body is simple and compact, and meanwhile, the whole conductive heating ceramic body has better conductive heating uniformity.

In one embodiment, the first conductive seat 200 and the second conductive seat 300 are both conductive heating ceramic bodies, so that the conductive heating plug-in 100, the first conductive seat 200 and the second conductive seat 300 all generate heat after being powered on, and the conductive heating plug-in 100 heats the cigarette better.

In one embodiment, the conductive heating insert 100, the first conductive seat 200 and the second conductive seat 300 are integrally formed, so that the conductive heating insert 100 is firmly connected to the first conductive seat 200 and the second conductive seat 300, and the conductive heating insert 100 is electrically connected to the first conductive seat 200 and the second conductive seat 300, respectively, and the structure of the conductive heating insert 100 is more compact.

It is understood that in other embodiments, the conductive heat generating insert 100 is not limited to only the conductive heat generating ceramic body. In another embodiment, the conductive heating insert 100 is a conductive graphene body, so that the conductive heating insert 100 generates heat after being powered on. In addition, the conductive graphene coating has good antibacterial performance and is not easy to oxidize, so that the atomizer is safer and more sanitary to use.

The conductive graphene body is a structure containing an aqueous graphene electrothermal ink. The aqueous graphene electrothermal ink is a novel electrothermal ink which takes water as a solvent, aqueous resin as a connecting agent and graphene as a heating main body, has extremely low pressing power change rate and excellent electrothermal power stability, and enables a conductive graphene body to have good heating performance and conductivity. Furthermore, the electric heating ink can be made into the far infrared graphene electric heating film through a full-printing type printing technology, has higher heat conversion rate, higher heating speed and stronger far infrared radiation than the ink slurry prepared by adding carbon powder in the prior art, and has the characteristics of good printing adaptability, high production efficiency, safety, environmental protection, wide application and the like.

In one embodiment, the conductive heating insert 100 includes a heat conductor and a conductive graphene jacket layer covering an outer wall of the heat conductor, the conductive graphene jacket layer extends to the first conductive seat 200 and the second conductive seat 300, and the first conductive seat 200 and the second conductive seat 300 are electrically connected to the conductive graphene jacket layer, so that the conductive heating insert 100 can conduct electricity and generate heat to heat a cigarette. In this embodiment, electrically conductive graphite alkene jacket layer can the coating shaping on the outer wall of heat conductor, and when electrically conductive graphite alkene jacket layer was electrically conductive, electrically conductive graphite alkene jacket layer generated heat, and partial heat can conduct to the heat conductor on, and then made the whole homoenergetic of electrically conductive plug-in components 100 that generate heat.

In one embodiment, the first conductive socket 200 includes a first socket body and a first conductive graphene coating covering an outer wall of the first socket body, the first socket body is connected to the conductive heating insert 100, and the first conductive graphene coating is connected to the conductive graphene jacket layer, so that the first conductive graphene coating is electrically connected to the conductive graphene jacket layer, and the first conductive socket 200 can generate heat when it is conductive.

In one embodiment, the second conductive socket 300 includes a second socket body and a second conductive graphene coating covering the outer wall of the second socket body, the second socket body is connected to the conductive heating plug-in 100, the second conductive graphene coating is connected to the conductive graphene jacket layer, so that the second conductive graphene coating is electrically connected to the conductive graphene jacket layer, and the first conductive socket 200 and the second conductive socket 300 can generate heat when conducting, so that the conductive heating plug-in 100, the first conductive socket 200 and the second conductive socket 300 of the heating element 10 can heat and atomize the cigarette.

In one embodiment, the first seat, the second seat and the heat-conducting member are integrally formed, so that the first seat and the second seat are firmly connected to the heat-conducting member, and the structure of the heating element 10 is more compact. In this embodiment, the first base, the second base and the heat conducting element may be heat conducting ceramic bodies, so that the first base, the second base and the heat conducting element have better heat conducting performance. Further, the first base, the second base and the heat conducting member are integrally injection-molded, so that the heating member 10 is difficult to manufacture and easy to mold.

In one embodiment, the first conductive graphene coating, the second conductive graphene coating and the conductive graphene jacket layer are integrally formed, so that the first conductive graphene coating and the second conductive graphene coating are both reliably connected with the conductive graphene jacket layer, and the first conductive graphene coating and the second conductive graphene coating are both reliably electrically connected with the conductive graphene jacket layer. In this embodiment, the first conductive graphene coating, the second conductive graphene coating and the conductive graphene jacket layer are integrally formed by coating.

The present application also provides an atomizer comprising a heating element 10 as described in any of the above embodiments. In one embodiment, the heating element 10 includes an electrically conductive heating insert 100, a first electrically conductive socket 200, and a second electrically conductive socket 300. The first conductive socket 200 is connected to the conductive heating insert 100. The second conductive socket 300 is connected to the conductive heating package 100, and the second conductive socket 300 and the first conductive socket 200 are disposed at two sides of the conductive heating package 100. Since the first conductive socket 200 and the second conductive socket 300 are both connected to the conductive heating insert 100, the first conductive socket 200 and the second conductive socket 300 are both electrically connected to the conductive heating insert 100. In this embodiment, the first conductive socket 200 and the second conductive socket 300 are respectively protruded on two opposite sides of the conductive heating insert 100, so that the first conductive socket 200 and the second conductive socket 300 are respectively electrically connected to the positive electrode and the negative electrode of the power supply.

In the atomizer, the first conductive seat 200 and the second conductive seat 300 are both connected to the conductive heating insert 100, and the second conductive seat 300 and the first conductive seat 200 are disposed at two sides of the conductive heating insert 100 opposite to each other, so that the first conductive seat 200 and the second conductive seat 300 are both electrically connected to the conductive heating insert 100, when in use, the conductive heating insert 100 is inserted into a cigarette holder to heat and atomize cigarettes, the first conductive seat 200 can be elastically abutted against the first conductive pogo pin, the second conductive seat 300 can be elastically abutted against the second conductive pogo pin, so that the external connection of the heating element 10 is electrically conductive and heated, thereby avoiding the conventional way that a printed circuit of the heating element 10 is led out through a conductive connection wire, and elements such as a metal tube and a spacer are not required, so that the structure of the heating element 10 is simpler, and the heating element 10 can be independently maintained or replaced, for example, once the heating element 10 is dirty, greatly reducing the use cost of the atomizer.

In one embodiment, the atomizer further comprises a first conductive pogo pin elastically abutting against the first conductive socket 200 and a second conductive pogo pin elastically abutting against the second conductive socket 300. Since the first conductive socket 200 and the second conductive socket 300 are connected to the conductive heating package 100, and the second conductive socket 300 and the first conductive socket 200 are oppositely disposed on two sides of the conductive heating package 100, so that the first conductive socket 200 and the second conductive socket 300 are both electrically connected to the conductive heating package 100, when in use, the conductive heating plug-in 100 is inserted into a cigarette to heat and atomize the cigarette, the first conductive seat 200 is elastically abutted with the first conductive elastic pin, the second conductive seat 300 is elastically abutted with the second conductive elastic pin, so that the heating element 10 is externally connected with the conductive heating, the traditional way that a printed circuit of the heating element 10 is led out through a conductive wiring is avoided, elements such as a metal tube, a spacer and the like are not required to be arranged, and the structure of the heating element 10 is simpler, and the heating element 10 can be maintained or replaced independently, for example, once the heating element 10 is dirty, the problem that the heating element cannot be replaced is avoided, and the use cost of the atomizer is greatly reduced.

Further, the atomizer still includes the casing, and venthole and the spliced eye that are linked together are seted up to the casing, and heating member 10 is located the spliced eye and is connected with the casing. The cigarette is located the spliced eye and pegs graft with electrically conductive plug-in 100 that generates heat, makes electrically conductive plug-in 100 that generates heat can heat the atomizing to the cigarette.

Furthermore, the shell is further provided with a first mounting hole and a second mounting hole, and the first mounting hole and the second mounting hole are communicated with the insertion holes. The first conductive elastic needle is positioned in the first mounting hole and connected with the shell, so that the first conductive elastic needle is fixedly mounted on the shell. The second conductive elastic needle is positioned in the second mounting hole and connected with the shell, so that the second conductive elastic needle is fixedly mounted on the shell.

The application also provides an electronic atomization device which comprises the atomizer in any one of the embodiments. Further, the atomizer includes a heating member 10, and the heating member 10 includes a conductive heating insert 100, a first conductive socket 200, and a second conductive socket 300. The first conductive socket 200 is connected to the conductive heating insert 100. The second conductive socket 300 is connected to the conductive heating package 100, and the second conductive socket 300 and the first conductive socket 200 are disposed at two sides of the conductive heating package 100. Since the first conductive socket 200 and the second conductive socket 300 are both connected to the conductive heating insert 100, the first conductive socket 200 and the second conductive socket 300 are both electrically connected to the conductive heating insert 100. In this embodiment, the first conductive socket 200 and the second conductive socket 300 are respectively protruded on two opposite sides of the conductive heating insert 100, so that the first conductive socket 200 and the second conductive socket 300 are respectively electrically connected to the positive electrode and the negative electrode of the power supply.

In the electronic atomization device, the first conductive seat 200 and the second conductive seat 300 are both connected to the conductive heating insert 100, and the second conductive seat 300 and the first conductive seat 200 are disposed at two sides of the conductive heating insert 100, so that the first conductive seat 200 and the second conductive seat 300 are both electrically connected to the conductive heating insert 100, when in use, the conductive heating insert 100 is inserted into a cigarette holder to heat and atomize cigarettes, the first conductive seat 200 can be elastically abutted against the first conductive pogo pin, the second conductive seat 300 can be elastically abutted against the second conductive pogo pin, so that the heating element 10 is externally connected to conduct electricity and generate heat, thereby avoiding the conventional way that a printed circuit of the heating element 10 is led out through a conductive connection wire, and elements such as a metal tube and a spacer are not required, so that the structure of the heating element 10 is simpler, and the heating element 10 can be independently maintained or replaced, for example, once the heating element 10 is dirty, there is no need to worry about the problem that the heating element cannot be replaced, greatly reducing the use cost of the atomizer.

Compared with the prior art, the utility model discloses at least, following advantage has:

in the above-mentioned heating element 10, because the first conductive seat 200 and the second conductive seat 300 are both connected to the conductive heating insert 100, and the second conductive seat 300 and the first conductive seat 200 are disposed at two sides of the conductive heating insert 100, so that the first conductive seat 200 and the second conductive seat 300 are both electrically connected to the conductive heating insert 100, when in use, the conductive heating insert 100 is inserted into a cigarette holder to heat and atomize cigarettes, the first conductive seat 200 can be elastically abutted against the first conductive pogo pin, the second conductive seat 300 can be elastically abutted against the second conductive pogo pin, so that the external connection of the heating element 10 is electrically conductive and heated, thereby avoiding the conventional way that the printed circuit of the heating element 10 is led out through a conductive connection wire, and without the need of disposing components such as a metal tube and a spacer, the structure of the heating element 10 is simpler, and the heating element 10 can be independently maintained or replaced, for example, once the heating element 10 is dirty, the problem of being unable to be replaced is solved, greatly reducing the use cost of the atomizer.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A heating element, comprising:

a conductive heating insert;

the first conductive seat is connected with the conductive heating plug-in;

the second conductive seat is connected to the conductive heating plug-in, and the second conductive seat and the first conductive seat are oppositely arranged on two sides of the conductive heating plug-in.

2. The heating element of claim 1, wherein the conductive heating plug-in comprises a plug-in rod body and a plug-in connector part which are connected, and the first conductive socket and the second conductive socket are both connected to the plug-in rod body; the end part of the inserting rod body, which is at least far away from the inserting head part, is provided with an isolation opening.

3. The heating element of claim 2 wherein the isolation opening extends axially of the bayonet rod body to an end adjacent the bayonet head.

4. The heating element of claim 2 wherein said bayonet rod body is cylindrical; the plug head part is conical; the isolation opening has an inner wall radius adjacent the end of the spigot head.

5. The heating element as claimed in any one of claims 1 to 4, characterized in that the conductive heating insert is a conductive heating ceramic body.

6. The heating element of claim 5 wherein said first and second conductive mounts are each an electrically conductive heating ceramic body.

7. The heating element of claim 6 wherein said conductive heat-generating insert, said first conductive socket and said second conductive socket are integrally formed.

8. The heating element as claimed in any one of claims 1 to 4, characterized in that the conductive heating insert is a conductive graphene body;

the conductive heating plug-in comprises a heat conductor and a conductive graphene jacket layer coated on the outer wall of the heat conductor, the conductive graphene jacket layer extends to the first conductive seat and the second conductive seat, and the first conductive seat and the second conductive seat are electrically connected with the conductive graphene jacket layer.

9. An atomizer characterized by comprising the heating element of any one of claims 1 to 8;

the atomizer further comprises a first conductive elastic needle and a second conductive elastic needle, wherein the first conductive elastic needle is elastically abutted against the first conductive seat, and the second conductive elastic needle is elastically abutted against the second conductive seat.

10. An electronic atomizer, comprising the atomizer of claim 9.

Images