CN112568493A - Electronic atomization device - Google Patents

Abstract

The application provides an electronic atomization device and an electronic atomizer. The electronic atomization device comprises an atomization assembly and a detection piece; the atomization component comprises an atomization pipe, an atomization seat and an atomization heating piece, and the atomization heating piece is electrically connected with the first input end of the main control board; the detection piece is used for being electrically connected with the second input end of the main control board. Atomizing heating member and detection piece are connected with the main control board respectively, the tobacco tar switches on the atomizing heating member with the detection piece through leading the oilhole, make the atomizing heating member, detection piece and main control board form the circuit through the tobacco tar and switch on the return circuit, be convenient for confirm the tobacco tar when the interruption of the signal of telecommunication between atomizing heating member and the detection piece exhausts, and regard the atomizing heating member as the partly that switches on the return circuit, the quantity of the detection piece that sets up in the oil storage space has been reduced, thereby electronic atomization device's manufacturing cost has been reduced.

Description

Electronic atomization device

Technical Field

The invention relates to the technical field of atomizers, in particular to an electronic atomization device and an electronic atomizer.

Background

The electronic cigarette is also named as a virtual cigarette and an electronic cigarette, has the same appearance as a cigarette, has similar taste to the cigarette, even has much more taste than the common cigarette, and can suck the cigarette and the taste like the cigarette. Mainly used for replacing cigarettes. The electronic cigarette is a non-burning cigarette substitute, has certain characteristics similar to those of common cigarettes, and can refresh and meet the pleasure of smokers and the use habits of multiple years. But is substantially different from a conventional cigarette. The electronic cigarette does not burn, does not contain tar, and does not contain more than 460 chemical substances which are generated when common cigarettes burn and can cause diseases of a respiratory system and a cardiovascular system, thereby removing carcinogenic substances in common cigarettes, and generating no harm of 'second-hand smoke' to other people and polluting the environment.

The burnt core problem that the tobacco tar in the atomizer of traditional electron cigarette exhausts the appearance seriously influences consumer's smoking experience, and consumer in use probably can not stay the tobacco tar surplus condition of wanting, also can not be wantonly exhaust because of the tobacco tar and just stop the smoking, because even the tobacco tar exhausts, the cigarette bullet still can normally go out the cigarette, nevertheless the tobacco tar oil consumption will dry combustion method to a certain extent, dry combustion method not only can influence the taste, can release some poisonous and harmful gas and inhale the human body moreover, influence healthy. In order to facilitate the dry burning of the atomization battery core, a plurality of electrodes are arranged in an oil storage bin of the atomizer, and whether the tobacco tar is exhausted or not is determined through the resistance between the electrodes.

However, the conventional atomizer uses more electrodes during dry combustion prevention, so that the manufacturing cost of the atomizer is increased, and the volume of the electrodes in the oil storage bin is increased, so that the volume of the tobacco tar stored in the oil storage bin is reduced, and the service life of the atomizer is prolonged.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provides an electronic atomization device and an electronic atomizer, which are capable of reducing production cost.

The purpose of the invention is realized by the following technical scheme:

an electronic atomization device comprises an atomization assembly and a detection piece; the atomizing assembly comprises an atomizing pipe, an atomizing seat and an atomizing heating element, the atomizing seat is provided with a first through hole, the atomizing pipe penetrates through the first through hole, an oil storage space is formed between the atomizing pipe and the atomizing seat, the atomizing pipe is provided with an oil guide hole communicated with the oil storage space, the atomizing heating element is arranged in the atomizing pipe, the atomizing heating element corresponds to the oil guide hole, and the atomizing heating element is used for being electrically connected with a first input end of a main control plate; the atomizing seat is further provided with a second through hole communicated with the oil storage space, the detection piece penetrates through the second through hole, and the detection piece is used for being electrically connected with a second input end of the main control board.

In one embodiment, the atomizing assembly further comprises a protrusion, the protrusion is located in the oil storage space and connected with the atomizing base, the protrusion is provided with a third through hole, and the detecting member is further arranged in the third through hole in a penetrating manner.

In one embodiment, the detection piece includes detection pole and spacing portion, the detection pole with spacing portion is connected, the detection pole is worn to locate in the second through-hole, spacing portion is located outside the oil storage space, just spacing portion with the atomizing seat butt.

In one embodiment, the detection piece further comprises a stability augmentation ring, the stability augmentation ring is located outside the oil storage space, the stability augmentation ring is sleeved on the detection electric pole, and the stability augmentation ring is connected with the atomization seat.

In one embodiment, the detection electric pole is provided with a stability augmentation groove, and part of the stability augmentation ring is arranged in the stability augmentation groove.

In one embodiment, the electronic atomization device further comprises a sealing tube, the sealing tube is arranged in the first through hole in a penetrating mode, part of the sealing tube is located in the atomization tube, and the sealing tube is connected with the atomization tube and the atomization seat respectively.

In one embodiment, the sealing tube includes a tube body and a support portion, the tube body is connected to the support portion, the tube body is inserted into the first through hole, a portion of the tube body is located in the atomizing tube, the tube body is connected to the atomizing tube, the support portion is located in the first through hole, the support portion abuts against the atomizing tube, and the support portion is used for supporting the atomizing tube.

In one embodiment, the tube body is provided with an isolation groove, the isolation groove is located on one side of the support portion, which is away from the atomizing tube, and the atomizing base shields the opening of the isolation groove.

In one embodiment, the electronic atomization device further comprises a first electrode column and a second electrode column, the atomization heating element is connected with the first electrode column, the first electrode column is used for being electrically connected with the first input end of the main control board, the detection element is connected with the second electrode column, and the second electrode column is used for being electrically connected with the second input end of the main control board.

An electronic atomizer comprising the electronic atomization device of any one of the above embodiments.

Compared with the prior art, the invention has at least the following advantages:

atomizing heating member and detection piece are connected with the main control board respectively, the tobacco tar switches on the atomizing heating member with the detection piece through leading the oilhole, make the atomizing heating member, detection piece and main control board form the circuit through the tobacco tar and switch on the return circuit, be convenient for confirm the tobacco tar when the interruption of the signal of telecommunication between atomizing heating member and the detection piece exhausts, and regard the atomizing heating member as the partly that switches on the return circuit, the quantity of the detection piece that sets up in the oil storage space has been reduced, thereby electronic atomization device's manufacturing cost has been reduced.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed 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 diagram of an electronic atomizer according to an embodiment;

FIG. 2 is a cross-sectional view of the electronic atomizer device of FIG. 1 taken along the line A-A;

FIG. 3 is a schematic structural diagram of a swing link assembly of the electronic atomizer shown in FIG. 1;

fig. 4 is a schematic view of another view of the rocker assembly shown in fig. 3.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This 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 invention relates to an electronic atomization device. In one embodiment, the electronic atomization device comprises an atomization assembly and a detection piece. The atomizing component comprises an atomizing pipe, an atomizing seat and an atomizing heating piece. The atomizing base is provided with a first through hole. The atomizing pipe is arranged in the first through hole in a penetrating mode, an oil storage space is formed between the atomizing pipe and the atomizing base, and the atomizing pipe is provided with an oil guide hole communicated with the oil storage space. The atomizing heating member set up in the atomizing pipe, the atomizing heating member with it is corresponding to lead the oilhole, the atomizing heating member is used for being connected with the first input electricity of main control board. The atomizing seat is further provided with a second through hole communicated with the oil storage space. The detection piece penetrates through the second through hole, and the detection piece is used for being electrically connected with the second input end of the main control board. Atomizing heating member and detection piece are connected with the main control board respectively, the tobacco tar switches on the atomizing heating member with the detection piece through leading the oilhole, make the atomizing heating member, detection piece and main control board form the circuit through the tobacco tar and switch on the return circuit, be convenient for confirm the tobacco tar when the interruption of the signal of telecommunication between atomizing heating member and the detection piece exhausts, and regard the atomizing heating member as the partly that switches on the return circuit, the quantity of the detection piece that sets up in the oil storage space has been reduced, thereby electronic atomization device's manufacturing cost has been reduced.

Please refer to fig. 1, which is a schematic structural diagram of an electronic atomization device according to an embodiment of the present invention.

The electronic atomizer 10 of one embodiment includes an atomizing assembly 100 and a probe 200. Referring to fig. 2, the atomizing assembly 100 includes an atomizing pipe 110, an atomizing base 120, and an atomizing heating member 130. The atomizing base 120 is provided with a first through hole 122. The atomizing pipe 110 is disposed through the first through hole 122, an oil storage space 300 is formed between the atomizing pipe 110 and the atomizing base 120, and the atomizing pipe 110 is provided with an oil guiding hole 112 communicated with the oil storage space 300. The atomizing heating member 130 is disposed in the atomizing pipe 110, the atomizing heating member 130 corresponds to the oil guiding hole 112, and the atomizing heating member 130 is electrically connected to the first input end of the main control board. The atomizing base 120 is further opened with a second through hole 124 communicating with the oil storage space 300. The detecting element 200 is disposed through the second through hole 124, and the detecting element 200 is electrically connected to the second input terminal of the main control board.

In this embodiment, atomizing heating member 130 and detection piece 200 are connected with the main control board respectively, the tobacco tar switches on atomizing heating member 130 and detection piece 200 through leading oilhole 112, make atomizing heating member 130, detection piece 200 and main control board form the circuit through the tobacco tar and switch on the return circuit, be convenient for confirm that the tobacco tar exhausts when the interrupt of the signal of telecommunication between atomizing heating member 130 and detection piece 200, and regard atomizing heating member 130 as the partly that switches on the return circuit, the quantity of detection piece 200 that sets up in oil storage space 300 has been reduced, thereby electronic atomization device's manufacturing cost has been reduced.

In one embodiment, referring to fig. 2, the atomizing assembly 100 further includes a protrusion 140, the protrusion 140 is located in the oil storage space 300, the protrusion 140 is connected to the atomizing base 120, the protrusion 140 is provided with a third through hole, and the detecting element 200 further penetrates through the third through hole. In this embodiment, the protrusion 140 is an extension of the atomizing base 120, the protrusion 140 protrudes into the oil storage space 300, and the protrusion 140 further corresponds to the second through hole 124, that is, the third through hole on the protrusion 140 is aligned with the second through hole 124. When the probe 200 is mounted on the atomizing base 120, that is, when the probe 200 is inserted into the second through hole 124, the probe 200 is inserted into the second through hole 124 and the third through hole at the same time, and the protrusion 140 protrudes from the inner surface of the oil storage space 300, so that the protrusion 140 protrudes from the bottom of the oil storage space 300 by a certain height. Thus, when the volume of the tobacco tar in the oil storage space 300 is reduced, the height of the tobacco tar in the oil storage space 300 is reduced, and when the height of the tobacco tar in the oil storage space 300 is reduced to be lower than the height of the protrusion 140, the detection member 200 is separated from the tobacco tar, so that a conduction loop between the detection member 200 and the atomizing heating member 130 is disconnected, the exhaustion of the tobacco tar in the oil storage space 300 is detected in advance, and the early warning function of preventing dry burning in advance is provided, so that the probability of damage of the atomizing heating member 130 due to dry burning is effectively reduced.

In one embodiment, referring to fig. 2, the detecting element 200 includes a detecting pole 210 and a limiting portion 220, the detecting pole 210 is connected to the limiting portion 220, the detecting pole 210 is disposed in the second through hole 124, the limiting portion 220 is located outside the oil storage space 300, and the limiting portion 220 abuts against the atomizing base 120. In this embodiment, the probing pole 210 is a metal conductive pole, which is used as a conductive body of a conducting loop. Survey pole 210 wears to locate in the second through-hole 124, and spacing portion 220 connect in on surveying the pole 210, spacing portion 220 still is located outside oil storage space 300 survey piece 200 install in when atomizing seat 120 is last, spacing portion 220 will survey pole 210's part restriction is in outside oil storage space 300, avoided survey pole 210 stretches into completely in the oil storage space 300, thereby be convenient for survey pole 210 is located oil storage space 300 outer part with the main control board electricity is connected, promptly survey pole 210 is located oil storage space 300 outer as with the tie point of main control board electricity is connected.

Further, referring to fig. 2, the detecting member 200 further includes a stability enhancing ring 230, the stability enhancing ring 230 is located outside the oil storage space 300, the stability enhancing ring 230 is sleeved on the detecting pole 210, and the stability enhancing ring 230 is connected to the atomizing base 120. In this embodiment, the augmentation stabilizing ring 230 is the augmentation stabilizing rod of the annular structure, the augmentation stabilizing ring 230 encircles the detection pole 210 sets up, namely the augmentation stabilizing ring 230 is established the surface of the detection pole 210 makes the augmentation stabilizing ring 230 card is located on the detection pole 210. And increase steady ring 230 still with atomizing seat 120 is connected, for example, increase steady ring 230 card and locate atomizing seat 120 is last, make it locates to increase steady ring 230 card simultaneously survey pole 210 and atomizing seat 120 is convenient for with survey pole 210 is fixed on atomizing seat 120, improved survey pole 210 with connection stability between atomizing seat 120, thereby make survey pole 210 stably set up in on atomizing seat 120, reduced survey pole 210 is followed break away from and lead to on atomizing seat 120 the probability that spills of the tobacco tar in the oil storage space 300.

Further, referring to fig. 2, the detecting pole 210 is provided with a stability enhancing slot 212, and a portion of the stability enhancing ring 230 is disposed in the stability enhancing slot 212. In this embodiment, the stability enhancement groove 212 is disposed on the detection pole 210, and the stability enhancement groove 212 corresponds to the stability enhancement ring 230, that is, the stability enhancement groove 212 is used to receive a portion of the stability enhancement ring 230, that is, a portion of the stability enhancement ring 230 is clamped in the stability enhancement groove 212. When detecting piece 200 install in the second through-hole 124, promptly when detecting piece 200 install in when atomizing seat 120 is last, increase steady ring 230 passes through increase steady groove 212 with survey pole 210 joint, make increase steady ring 230 by the lateral wall centre gripping of increase steady groove 212, improved increase steady ring 230 is in survey the stability on the pole 210, thereby make increase steady ring 230 stable connection in survey pole 210 is last, thereby improved increase steady ring 230 with the stability of being connected between surveying the pole 210.

In one embodiment, referring to fig. 2, the electronic atomization device 10 further includes a sealing tube 400, the sealing tube 400 is inserted into the first through hole 122, a portion of the sealing tube 400 is located in the atomization tube 110, and the sealing tube 400 is connected to the atomization tube 110 and the atomization seat 120 respectively. In this embodiment, the atomizing pipe 110 is a hollow structure, and the middle part of the atomizing pipe 110 is used for gas circulation, so as to guide the smoke to the outside after the smoke is atomized into smoke. The sealing tube 400 is located at the air inlet end of the atomizing tube 110, a part of the sealing tube 400 is located in the first through hole 122, the outer wall of the sealing tube 400 abuts against the inner wall of the atomizing tube 110, and the tube wall of the sealing tube 400 is further connected with the atomizing base 120, so that the sealing tube 400 becomes an extension part of the atomizing tube 110, and thus the sealing tube 400 separates the part of the detecting member 200 located outside the oil storage space 300 from the inside of the atomizing tube 110, and further separates the part of the detecting member 200 located outside the oil storage space 300 from the smoke oil on the atomizing heating member 130, and reduces the probability that the smoke oil contacts the detecting member 200 through the air inlet port of the atomizing tube 110, thereby reducing the probability of conducting the detecting member 200 and the atomizing heating member 130 outside the oil storage space 300, and further reducing the situation that the dry burning occurring in the oil storage space 300 cannot be accurately judged, the dry burning condition of the electronic atomization device can be accurately judged conveniently.

Further, referring to fig. 2, the sealing tube 400 includes a tube body 410 and a supporting portion 420, the tube body 410 is connected to the supporting portion 420, the tube body 410 is disposed in the first through hole 122, a portion of the tube body 410 is located in the atomizing tube 110, the tube body 410 is connected to the atomizing tube 110, the supporting portion 420 is located in the first through hole 122, the supporting portion 420 is abutted to the atomizing tube 110, and the supporting portion 420 is used for supporting the atomizing tube 110. In this embodiment, the tube body 410 is embedded in the atomizing tube 110, that is, the atomizing tube 110 is sleeved on the outer wall of the tube body 410, that is, the inner wall of the atomizing tube 110 abuts against the outer wall of the tube body 410, and the tube body 410 is held by the atomizing tube 110. The supporting portion 420 is a part of the sealing tube 400, the supporting portion 420 is connected to the outer wall of the tube body 410, when the sealing tube 400 is mounted on the atomizing tube 110, the part of the tube body 410 extends into the atomizing tube 110, and the supporting portion 420 abuts against the end of the atomizing tube 110, so that when the electronic atomizing device is placed upright, the supporting portion 420 provides an acting force opposite to the gravity direction for the atomizing tube 110, that is, the supporting portion 420 provides a supporting force for the atomizing tube 110, so that the shaking range of the atomizing tube 110 in the first through hole 122 is reduced, the shaking tendency of the atomizing tube 110 in the first through hole 122 is further reduced, and the stability of the atomizing tube 110 in the first through hole 122 is improved.

Still further, referring to fig. 2, the tube 410 is provided with an isolation groove 412, the isolation groove 412 is located on a side of the supporting portion 420 departing from the atomizing tube 110, and the atomizing base 120 shields an opening of the isolation groove 412. In this embodiment, the tube 410 is disposed in the first through hole 122 of the atomizing base 120, and an opening of the isolation groove 412 on the tube 410 faces an inner wall of the first through hole 122, that is, the atomizing base 120 blocks the isolation groove 412. When the tobacco tar on the atomizing heating element 130 flows out of the atomizing pipe 110 through the gap between the atomizing pipe 110 and the pipe body 410, the tobacco tar flows to the isolation groove 412 along the inner wall of the first through hole 122, so that the overflowing tobacco tar is blocked in the isolation groove 412, the probability of the tobacco tar leaking out of the first through hole 122 is reduced, and the probability of the contact of the tobacco tar with the part of the detecting element 200, which is located outside the oil storage space 300, through the air inlet port of the atomizing pipe 110 is reduced.

In one embodiment, referring to fig. 2, the electronic atomizing device 10 further includes a first electrode column 500 and a second electrode column 600, the atomizing heating element 130 is connected to the first electrode column 500, the first electrode column 500 is used to be electrically connected to a first input end of the main control board, the detecting element 200 is connected to the second electrode column 600, and the second electrode column 600 is used to be electrically connected to a second input end of the main control board. In this embodiment, the first electrode column 500 is correspondingly connected to the atomizing heating element 130, so that the atomizing heating element 130 is entirely located in the first through hole 122 without extending out of the atomizing base 120, thereby reducing the possibility of the smoke on the atomizing heating element 130 overflowing along the leading-out end of the atomizing heating element 130. Moreover, the second electrode column 600 and the detecting element 200 also enable the detecting element 200 to be entirely located in the atomizing base 120, so that the probability of the smoke oil overflowing along the leading-out end of the detecting element 200 is reduced, the probability of the smoke oil leaking out from the oil storage space 300 is ensured, and the oil leakage prevention performance of the electronic atomizing device is improved.

It can be understood that, in the actual use process, since the smoke oil in the oil storage space 300 is in a liquid state, when the use state of the electronic atomization device is a non-upright state, for example, the electronic atomization device deflects, the smoke oil is liable to shake in the oil storage space 300, which causes the liquid level of the smoke oil in the oil storage space 300 to be misaligned with the detection member 200, especially when the electronic atomization device is laid down or inverted, but the time of this state is short, the smoke oil in the oil storage space 300 is separated from the detection member 200, so that the smoke oil which is simultaneously in contact with the detection member 200 and the atomization heating member 130 disappears, thereby the electric conduction path between the detection member 200 and the atomization heating member 130 is disconnected, and the smoke oil in the oil storage space 300 still has a large amount, which is liable to cause false judgment of dry burning prevention, that is, the movement of the soot in this case is mistaken for the occurrence of dry burning.

In order to avoid the misjudgment of the dry combustion state of the atomizing heating element 130 caused by the movement of the soot, please refer to fig. 3 and 4, the electronic atomizing device 10 further includes a swing link assembly 700, the swing link assembly 700 is located in the soot storage space 300, the swing link assembly 700 includes a first conductive rotating shaft 710 and a first conductive swing link 720, the first conductive rotating shaft 710 is connected with the detecting element 200, the first conductive swing link 720 is rotatably connected with the first conductive rotating shaft 710, and the first conductive swing link 720 is used for contacting the soot in the soot storage space 300. In this embodiment, the first conductive shaft 710 and the first conductive swing link 720 are made of a metal material, so as to electrically connect the detecting member 200 with the tobacco tar. When the electronic atomization device is tilted, the first conductive swing link 720 rotates with the first conductive rotating shaft 710 as a central axis, so that the first conductive swing link 720 rotates relative to the detection member 200, which is similar to a simple pendulum motion. Thus, when the electronic atomization device is inclined, the first conductive swing rod 720 rotates under the action of gravity, and after the first conductive swing rod 720 rotates, the first conductive swing rod always faces the direction of gravity, and after the tobacco tar in the oil storage space 300 moves, the tobacco tar also moves under the action of gravity, and the tobacco tar is finally deposited in the direction of gravity, so that the final position of the first conductive swing rod 720 always faces the position where the tobacco tar is deposited, and therefore the first conductive swing rod 720 is always in contact with the tobacco tar in the oil storage space 300, and the tobacco tar is still used for conducting the atomization heating element 130 and the detection element 200 at the moment, thereby avoiding misjudgment of the dry combustion state of the atomization heating element 130 caused by the movement of the tobacco tar, and improving the accuracy of judgment of dry combustion prevention of the atomization heating element 130. In other embodiments, the total length of the first conductive swing link 720 and the detecting element 200 is greater than or equal to the length of the atomizing tube 110, so as to ensure that the first conductive swing link 720 contacts the soot in the oil storage space 300 in the maximum length direction of the atomizing tube 110, and the current state of the atomizing heating element 130 can be determined as the dry-fire state only when the soot in the oil storage space 300 is exhausted.

Further, in order to improve the contact probability between the swing link assembly 700 and the tobacco tar, please refer to fig. 3 and fig. 4, the swing link assembly 700 further includes a second conductive rotating shaft 730 and a second conductive swing link 740, the second conductive rotating shaft 730 is connected to the first conductive swing link 720, and the second conductive swing link 740 is rotatably connected to the second conductive rotating shaft 730. In this embodiment, the second conductive swing link 740 rotates around the second conductive rotating shaft 730 as a central axis, and the first conductive swing link 720 rotates around the first conductive rotating shaft 710 as a central axis, so that the swing link assembly 700 forms a double-pendulum chaotic system, and the motion trajectory of the second conductive swing link 740 is an irregular motion trajectory, i.e., a double-pendulum chaotic motion, so that the degree of freedom of the second conductive swing link 740 is increased, and the second conductive swing link 740 conveniently rotates in the oil storage space 300, so that the second conductive swing link 740 moves rapidly to contact with the tobacco tar.

Further, the length of the swing link assembly 700 can be adjusted to suit different lengths of the atomizing tube 110, i.e., the adaptability of the swing link assembly 700 is improved. Referring to fig. 3, the second conductive swing link 740 is provided with a sliding through slot 742, and the second conductive shaft 730 is slidably disposed in the sliding through slot 742. In this embodiment, the second conductive shaft 730 moves in the sliding through slot 742, so as to adjust the relative position of the second conductive shaft 730 on the second conductive swing link 740. When the second conductive swing link 740 moves on the second conductive rotating shaft 730, under the action of gravity, the length of the second conductive swing link 740 relative to the first conductive swing link 720 is changed, so that the extension length formed by the second conductive swing link 740 and the first conductive swing link 720 can be conveniently adjusted, the second conductive swing link 740 can be conveniently contacted with the tobacco tar in the oil storage space 300 all the time, and the adaptability of the swing link assembly 700 is improved.

The application also provides an electronic atomizer, which comprises the electronic atomization device in any one of the embodiments. In this embodiment, the electronic atomization device includes an atomization assembly and a detection member. The atomizing component comprises an atomizing pipe, an atomizing seat and an atomizing heating piece. The atomizing base is provided with a first through hole. The atomizing pipe is arranged in the first through hole in a penetrating mode, an oil storage space is formed between the atomizing pipe and the atomizing base, and the atomizing pipe is provided with an oil guide hole communicated with the oil storage space. The atomizing heating member set up in the atomizing pipe, the atomizing heating member with it is corresponding to lead the oilhole, the atomizing heating member is used for being connected with the first input electricity of main control board. The atomizing seat is further provided with a second through hole communicated with the oil storage space. The detection piece penetrates through the second through hole, and the detection piece is used for being electrically connected with the second input end of the main control board. Atomizing heating member and detection piece are connected with the main control board respectively, and the tobacco tar switches on atomizing heating member and detection piece through leading the oilhole for atomizing heating member, detection piece and main control board form the circuit through the tobacco tar and switch on the return circuit, are convenient for confirm the tobacco tar and exhaust when the interruption of the signal of telecommunication between atomizing heating member and the detection piece, and regard atomizing heating member as the partly that switches on the return circuit, have reduced the quantity of the detection piece that sets up in the oil storage space, thereby have reduced electronic atomization device's manufacturing cost, and then reduce electronic atomizer's manufacturing cost.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. An electronic atomization device, comprising:

the atomizing assembly comprises an atomizing pipe, an atomizing seat and an atomizing heating element, the atomizing seat is provided with a first through hole, the atomizing pipe penetrates through the first through hole, an oil storage space is formed between the atomizing pipe and the atomizing seat, the atomizing pipe is provided with an oil guide hole communicated with the oil storage space, the atomizing heating element is arranged in the atomizing pipe, the atomizing heating element corresponds to the oil guide hole, and the atomizing heating element is used for being electrically connected with a first input end of a main control board;

the detection piece, the atomizing seat still seted up with the second through-hole of oil storage space intercommunication, the detection piece wears to locate in the second through-hole, the detection piece is used for being connected with the second input electricity of main control board.

2. The electronic atomization device of claim 1, wherein the atomization assembly further comprises a protrusion, the protrusion is located in the oil storage space, the protrusion is connected with the atomization seat, the protrusion is provided with a third through hole, and the detection member further penetrates through the third through hole.

3. The electronic atomization device of claim 1, wherein the detection piece comprises a detection electric pole and a limiting part, the detection electric pole is connected with the limiting part, the detection electric pole is arranged in the second through hole in a penetrating manner, the limiting part is located outside the oil storage space, and the limiting part is abutted against the atomization seat.

4. The electronic atomization device of claim 3, wherein the detection member further comprises a stability augmentation ring, the stability augmentation ring is located outside the oil storage space, the stability augmentation ring is sleeved on the detection electric pole, and the stability augmentation ring is connected with the atomization seat.

5. The electronic atomization device of claim 4, wherein the detection pole is provided with a stability augmentation groove, and a part of the stability augmentation ring is arranged in the stability augmentation groove.

6. The electronic atomization device of claim 1, further comprising a sealing tube, wherein the sealing tube is disposed in the first through hole, a portion of the sealing tube is located in the atomization tube, and the sealing tube is connected to the atomization tube and the atomization seat respectively.

7. The electronic atomization device of claim 6, wherein the seal tube includes a tube body and a support portion, the tube body is connected to the support portion, the tube body is inserted into the first through hole, a portion of the tube body is located in the atomization tube, the tube body is connected to the atomization tube, the support portion is located in the first through hole, the support portion abuts against the atomization tube, and the support portion is configured to support the atomization tube.

8. The electronic atomizing device according to claim 7, wherein the tube body defines an isolation slot, the isolation slot is located on a side of the supporting portion away from the atomizing tube, and the atomizing base covers an opening of the isolation slot.

9. The electronic atomizing device according to any one of claims 1 to 8, further comprising a first electrode column and a second electrode column, wherein the atomizing heating element is connected to the first electrode column, the first electrode column is configured to be electrically connected to the first input terminal of the main control board, the detecting element is connected to the second electrode column, and the second electrode column is configured to be electrically connected to the second input terminal of the main control board.

10. An electronic atomizer, characterized by comprising an electronic atomizing device according to any one of claims 1 to 9.

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