CN214854309U - Atomizing mechanism, atomizing device and electronic atomizer - Google Patents

Abstract

The application provides an atomizing mechanism, atomizing device and electronic atomizer. The atomization mechanism comprises an oil cup and an atomization assembly; the oil cup is provided with an air outlet pipe; the atomizing subassembly includes atomizing pipe, atomizing seat and elastic component, and the inlet port has been seted up to the atomizing seat, and the atomizing pipe activity sets up in the inlet port, atomizing pipe and outlet duct intercommunication, atomizing pipe and outlet duct swing joint, are formed with the oil storage storehouse between atomizing pipe and the oil cup, and the oil guide hole has been seted up to the atomizing pipe, and the elastic component is connected with atomizing pipe and outlet duct respectively, and the elastic component is used for promoting the atomizing pipe and keeps away from the outlet duct to make the oil guide hole remove to the atomizing seat in. When the battery pole lifted off from the atomizing seat, the elastic component changed the natural extension state into by compression state for the outlet duct was kept away from to the atomizing pipe, thereby makes to lead in the oilhole removed the atomizing seat, was convenient for with oil storage bin and atomizing pipe separation, and the tobacco tar that has reduced even stopped in the oil storage bin spills through the atomizing pipe, has reduced the oil leak probability.

Description

Atomizing mechanism, atomizing device and electronic atomizer

Technical Field

The utility model relates to an atomizer technical field especially relates to an atomizing mechanism, atomizing device and 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.

However, in the atomizer of the conventional electronic cigarette, the tobacco tar and the atomizing component are always contacted together in a space, oil leakage or oil seepage occurs in the atomizing component during transportation or long-term storage, and chemical reaction also occurs due to the long-term contact between the atomizing component and the tobacco tar, so that the tobacco tar is discolored, the taste of the tobacco tar is changed, and the like.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the weak point among the prior art, provide an atomizing mechanism, atomizing device and electronic atomizer that reduce the oil leak probability.

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

an atomizing mechanism comprising: an oil cup and an atomizing assembly; the oil cup is provided with an air outlet pipe, and the air outlet pipe is used for guiding out smoke; the atomizing subassembly includes atomizing pipe, atomizing seat and elastic component, the inlet port has been seted up to the atomizing seat, the atomizing pipe activity set up in the inlet port, the atomizing pipe with the outlet duct intercommunication, the atomizing pipe with outlet duct swing joint, the atomizing pipe is used for acceping atomizing electricity core, the atomizing pipe with be formed with the oil storage storehouse between the oil cup, the oil guide hole has been seted up to the atomizing pipe, the elastic component respectively with the atomizing pipe and the outlet duct is connected, the elastic component is used for promoting the atomizing pipe is kept away from the outlet duct, so that the oil guide hole removes extremely in the inlet port of atomizing seat.

In one embodiment, the atomizing pipe comprises a pipe body and a supporting portion, the supporting portion is connected with the side wall of the pipe body, and the elastic piece is abutted against one surface of the supporting portion, which is far away from the atomizing seat.

In one embodiment, one end of the pipe body, which is far away from the atomizing base, is provided with a mounting inclined surface, and the mounting inclined surface is obliquely arranged towards the air outlet pipe.

In one embodiment, the atomization assembly further comprises a first sealing member located between the outlet tube and the atomization tube.

In one embodiment, at least one of the outlet pipe and the atomizing pipe is provided with a sealing groove, and the first sealing element is clamped in the sealing groove.

In one embodiment, the atomizing base comprises a base and a second sealing element, the base is provided with a first air inlet hole, the second sealing element is provided with a second air inlet hole communicated with the first air inlet hole, the second sealing element is used for plugging the oil guide hole, the atomizing pipe sequentially penetrates through the first air inlet hole and the second air inlet hole, the second sealing element is connected with the base, and the base and the second sealing element are abutted against the inner wall of the oil cup.

In one embodiment, the second sealing element comprises a sealing body and a sealing protrusion, the sealing body is sleeved on the atomizing pipe, the sealing protrusion is connected with the sealing body, and the sealing body is abutted against the inner wall of the oil cup.

In one embodiment, the base is provided with a clamping groove, and part of the second sealing element is clamped in the clamping groove.

The utility model provides an atomizing device, includes atomizing electric core and above-mentioned arbitrary embodiment atomizing mechanism, the intraductal atomizing storehouse that has of atomizing, atomizing electric core accept in the atomizing storehouse, the bore in atomizing storehouse is greater than the bore of atomizing pipe.

An electronic atomizer comprises the atomization device.

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

when the battery pole lifted off from the atomizing seat, the elastic component changed the natural extension state into by the compression state, elastic component release elasticity and extension promptly for the outlet duct was kept away from to the atomizing pipe, thereby make in leading the oilhole removed the atomizing seat, and then make lead the oilhole by only with the oil storage bin intercommunication change into with only with the inlet port intercommunication, be convenient for with oil storage bin and atomizing pipe separation, the tobacco tar that has reduced or even stopped in the oil storage bin spills through the atomizing pipe, has reduced the oil leak probability.

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 diagram of an embodiment of an atomizing mechanism;

FIG. 2 is a cross-sectional view of the atomizing mechanism shown in FIG. 1 taken along the direction A-A;

fig. 3 is an enlarged schematic view of the atomizing mechanism shown in fig. 2 at a 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 utility model relates to an atomizing mechanism. In one embodiment, the atomizing mechanism comprises an oil cup and an atomizing assembly. The oil cup is provided with an air outlet pipe. The outlet duct is used for leading out smog. The atomization assembly comprises an atomization tube, an atomization seat and an elastic piece. The atomizing base is provided with an air inlet. The atomizing pipe activity set up in the inlet port, the atomizing pipe with the outlet duct intercommunication, the atomizing pipe with outlet duct swing joint, the atomizing pipe is used for acceping the atomizing electricity core. An oil storage bin is formed between the atomizing pipe and the oil cup, and the atomizing pipe is provided with an oil guide hole. The elastic piece is respectively connected with the atomizing pipe and the air outlet pipe. The elastic piece is used for pushing the atomizing pipe to be far away from the air outlet pipe, so that the oil guide hole moves into the air inlet hole of the atomizing base. When the battery pole lifted off from the atomizing seat, the elastic component changed the natural extension state into by the compression state, elastic component release elasticity and extension promptly for the outlet duct was kept away from to the atomizing pipe, thereby make in leading the oilhole removed the atomizing seat, and then make lead the oilhole by only with the oil storage bin intercommunication change into with only with the inlet port intercommunication, be convenient for with oil storage bin and atomizing pipe separation, the tobacco tar that has reduced or even stopped in the oil storage bin spills through the atomizing pipe, has reduced the oil leak probability.

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

The atomizing mechanism 10 of an embodiment includes an oil cup 100 and an atomizing assembly 200. Referring also to fig. 2, the oil cup 100 has an outlet pipe 110. The outlet pipe 110 is used to guide out the smoke. The atomizing assembly 200 includes an atomizing pipe 210, an atomizing base 220, and an elastic member 230. The atomizing base 220 is opened with an air inlet hole 222. The atomization tube 210 is movably arranged in the air inlet 222, the atomization tube 210 is communicated with the air outlet pipe 110, the atomization tube 210 is movably connected with the air outlet pipe 110, and the atomization tube 210 is used for accommodating an atomization battery cell. An oil storage bin 300 is formed between the atomizing pipe 210 and the oil cup 100, and the atomizing pipe 210 is provided with an oil guide hole 212. The elastic member 230 is connected to the atomizing pipe 210 and the air outlet pipe 110, respectively. The elastic member 230 is used to push the atomizing pipe 210 away from the air outlet pipe 110, so that the oil guide hole 212 moves into the air inlet hole 222 of the atomizing base 220.

In this embodiment, when the battery pole is lifted off from the atomizing base 220, the elastic member 230 is changed from the compression state to the natural extension state, that is, the elastic member 230 releases the elastic force and extends, so that the atomizing pipe 210 is far away from the air outlet pipe 110, so that the oil guide hole 212 moves to the atomizing base 220, and further the oil guide hole 212 is changed from being communicated with the oil storage bin 300 to being communicated with the air inlet hole 222, thereby being convenient for separating the oil storage bin 300 from the atomizing pipe 210, reducing or even stopping the smoke oil in the oil storage bin 300 from leaking through the atomizing pipe 210, and reducing the probability of oil leakage. Moreover, the atomizing pipe 210 and the air outlet pipe 110 are connected in a sleeved manner, for example, the air outlet pipe 110 is sleeved on the atomizing pipe 210, that is, the inner wall of the air outlet pipe 110 abuts against the outer wall of the atomizing pipe 210, that is, part of the atomizing pipe 210 is movably disposed in the air outlet pipe 110. In another embodiment, the atomizing pipe is sleeved on the air outlet pipe, that is, the inner wall of the atomizing pipe abuts against the outer wall of the air outlet pipe, that is, a part of the air outlet pipe is movably arranged in the atomizing pipe.

In one embodiment, referring to fig. 2, the atomizing tube 210 includes a tube 214 and a supporting portion 216, the supporting portion 216 is connected to a sidewall of the tube 214, and the elastic member 230 is abutted against a surface of the supporting portion 216 away from the atomizing base 220. In this embodiment, the tube body 214 is a hollow pipeline, the inside of the tube body 214 is a hollow structure, the inside of the tube body 214 is used as an air outlet channel of the atomizing mechanism, and the tube body 214 guides the smoke formed by atomizing the atomizing electric core to the air outlet pipe 110, so as to guide the smoke to the outside for the user to inhale. The abutting portion 216 is a part of the atomizing pipe 210, and the abutting portion 216 provides a supporting point for the elastic member 230, for example, when the air outlet pipe 110 is sleeved on the atomizing pipe 210, the abutting portion 216 is connected with the outer wall of the atomizing pipe 210, that is, the abutting portion 216 is located outside the atomizing pipe 210, that is, the abutting portion 216 is located in the oil storage bin 300. One end of the elastic member 230 is connected to the air outlet pipe 110, and the other end of the elastic member 230 abuts against the abutting portion 216, so that the elastic member 230 is located between the air outlet pipe 110 and the abutting portion 216, and the elastic member 230 is conveniently pressed when the atomization pipe 210 moves.

In another embodiment, the elastic member 230 is a spring, the spring is sleeved on the atomizing tube 210, the spring is located between the air outlet tube 110 and the abutting portion 216, one end of the spring is connected to one end of the air outlet tube 110 close to the atomizing base 220, and the other end of the spring abuts against the abutting portion 216. Thus, when the atomization mechanism is connected with a battery pole, the atomization tube 210 moves towards the air outlet tube 110, the spring is pressed by the atomization tube 210, the oil guide hole 212 of the atomization tube 210 moves from the atomization seat 220 into the oil storage bin 300, so that the tobacco tar in the oil storage bin 300 is guided to the atomization battery core in the atomization tube 210 to form smoke; when the atomization mechanism is separated from the battery rod, the pressure of the spring is released, and the length of the spring is extended, so that the atomization tube 210 is far away from the air outlet tube 110, and the oil guide hole 212 of the atomization tube 210 returns to the atomization seat 220 again, so that the atomization seat 220 in the oil guide hole 212 is blocked, the oil storage bin 300 is conveniently separated from the atomization tube 210, the smoke oil in the oil storage bin 300 is reduced from leaking through the atomization tube 210, and the oil leakage probability of the atomization mechanism is reduced.

Further, referring to fig. 2, an end of the tube body 214 away from the atomizing base 220 has a mounting inclined surface 2142, and the mounting inclined surface 2142 is inclined toward the air outlet tube 110. In this embodiment, the installation inclined surface 2142 is located at an end of the tube body 214 far away from the atomizing base 220, in the direction from the air outlet tube 110 to the atomizing base 220, the distance between the installation inclined surface 2142 and the air outlet tube 110 is gradually reduced, and an inclined angle is formed between the surface of the installation inclined surface 2142 and the side wall of the air outlet tube 110. For example, when the air outlet pipe 110 is sleeved on the atomizing pipe 210, the installation inclined surface 2142 is inclined toward the inner wall of the air outlet pipe 110, that is, the distance between the installation inclined surface 2142 and the inner wall of the air outlet pipe 110 is gradually reduced in the direction from the air outlet pipe 110 to the atomizing base 220. When the atomizing pipe 210 is installed on the outlet pipe 110, the one end orientation that the body 214 kept away from the atomizing seat 220 the intake pipe motion the atomizing pipe 210 with the position of outlet pipe 110 butt, the tip of outlet pipe 110 is in slide on the installation inclined plane 2142 under the guide of the angle of inclination of installation inclined plane 2142, the atomizing pipe 210 channels into smoothly in the outlet pipe 110, be convenient for the atomizing pipe 210 install in the outlet pipe 110.

In one embodiment, referring to fig. 2, the atomizing assembly 200 further includes a first sealing member 240, and the first sealing member 240 is located between the outlet pipe 110 and the atomizing pipe 210. In this embodiment, the first sealing member 240 is connected to the outlet pipe 110 and the atomizing pipe 210, respectively, and the first sealing member 240 fills a gap between the outlet pipe 110 and the atomizing pipe 210, so that a gap at a connection position of the outlet pipe 110 and the atomizing pipe 210 is reduced. For example, when the air outlet pipe 110 is sleeved on the atomizing pipe 210, the first sealing element 240 is sleeved on the atomizing pipe 210, that is, the first sealing element 240 is connected with the outer wall of the atomizing pipe 210, and at this time, the first sealing element 240 is also abutted against the inner wall of the air outlet pipe 110, so that the first sealing element 240 fills up the connection gap between the air outlet pipe 110 and the atomizing pipe 210, thereby improving the connection sealing performance between the air outlet pipe 110 and the atomizing pipe 210, reducing the oil leakage probability of the atomizing mechanism due to the fact that the tobacco tar in the oil storage cabin leaks out through the gap between the air outlet pipe 110 and the atomizing pipe 210, and further improving the sealing performance of the atomizing mechanism.

Further, referring to fig. 2, at least one of the outlet pipe 110 and the atomizing pipe 210 is provided with a sealing groove 218, and the first sealing element 240 is clamped in the sealing groove 218. In this embodiment, the outlet pipe 110 is sleeved on the atomizing pipe 210, and the sealing groove 218 is disposed on the atomizing pipe 210, that is, the sealing groove 218 is disposed on the outer wall of the atomizing pipe 210, and the opening of the sealing groove 218 faces the inner wall of the outlet pipe 110. The sealing groove 218 corresponds to the first sealing element 240, a portion of the first sealing element 240 is received in the sealing groove 218, and the first sealing element 240 abuts against the side wall and the bottom of the sealing groove 218. Moreover, the part of the first sealing member 240 outside the sealing groove 218 abuts against the inner wall of the outlet pipe 110, so that the first sealing member 240 seals the gap between the outlet pipe 110 and the atomizing pipe 210, and improves the stability of the first sealing member 240 on the atomizing pipe 210, thereby facilitating the stable installation of the first sealing member 240 on the atomizing pipe 210. In another embodiment, the atomization tube 210 is sleeved on the outlet tube 110, and the first sealing element 240 is sleeved on the outlet tube 110, that is, the first sealing element 240 is sleeved on the outer wall of the outlet tube 110, and the sealing groove 218 is opened on the inner wall of the atomization tube 210. In other embodiments, the sealing groove 218 may also be opened on the outlet pipe 110.

In one embodiment, referring to fig. 2, the atomizing base 220 includes a base 224 and a second sealing member 226, the base 224 is provided with a first air inlet hole, the second sealing member 226 is provided with a second air inlet hole communicated with the first air inlet hole, the second sealing member 226 is used for sealing the oil guide hole 212, the atomizing pipe 210 sequentially penetrates through the first air inlet hole and the second air inlet hole, the second sealing member 226 is connected with the base 224, and both the base 224 and the second sealing member 226 are abutted against the inner wall of the oil cup 100. In this embodiment, the first air inlet hole and the second air inlet hole jointly form the air inlet hole 222, and the first air inlet hole and the second air inlet hole are both used for penetrating the atomizing pipe 210, that is, the atomizing pipe 210 penetrates the first air inlet hole and the second air inlet hole at the same time. The atomizing pipe 210 is movably disposed in the first air inlet hole and the second air inlet hole, and the base 224 and the second sealing member 226 are connected to the inner wall of the oil cup 100, so as to seal the bottom of the oil cup 100. The base 224 does the atomizing pipe 210 provides the mounting base, the second sealing member 226 with the atomizing pipe 210 and the oil cup 100 forms the oil storage bin 300, the second sealing member 226 with the atomizing pipe 210 and the oil cup 100 is connected respectively, makes the tobacco tar in the oil storage bin 300 seals and is deposited wherein, has reduced the tobacco tar in the oil storage bin 300 passes through the seat 220 that atomizes leaks, has reduced the oil leak probability of atomizing mechanism, and then has improved the leakproofness of atomizing mechanism.

Further, referring to fig. 2, the second sealing member 226 includes a sealing body 2262 and a sealing protrusion 2264, the sealing body 2262 is sleeved on the atomizing pipe 210, the sealing protrusion 2264 is connected to the sealing body 2262, and the sealing body 2262 is further abutted against the inner wall of the oil cup 100. In this embodiment, the sealing body 2262 is clamped with the atomizing tube 210, and the second air inlet is opened in the sealing body 2262, so that a part of the atomizing tube 210 is accommodated in the sealing body 2262, and the atomizing tube 210 is connected with the sealing body 2262, thereby facilitating the sealing between the atomizing tube 210 and the sealing body 2262, and further facilitating the plugging of the oil guiding hole 212 on the atomizing tube 210, so as to reduce the leakage of the smoke oil in the oil storage bin 300. A gap is also formed between the sealing body 2262 and the oil cup 100, in order to reduce the gap between the sealing body 2262 and the oil cup 100, the sealing protrusion 2264 is located between the inner wall of the oil cup 100 and the sealing body 2262, and the sealing protrusion 2264 fills the gap between the sealing body 2262 and the oil cup 100, so that the smoke oil in the oil storage bin 300 is reduced from flowing out through the gap between the sealing body 2262 and the oil cup 100, the oil leakage probability of the atomizing mechanism is further reduced, and the sealing performance of the atomizing mechanism is further improved.

Further, referring to fig. 2, the base 224 is provided with a locking groove 2242, and a portion of the second sealing element 226 is locked in the locking groove 2242. In this embodiment, the fastening groove 2242 is located on a surface of the base 224 close to the outlet pipe 110, an opening of the fastening groove 2242 faces the second sealing member 226, and the fastening groove 2242 corresponds to the second sealing member 226. When the second sealing member 226 is installed on the base 224, a part of the second sealing member 226 protrudes into the snap groove 2242, and a part of the second sealing member 226 protruding into the snap groove 2242 is clamped by the base 224 and the oil cup 100, so that the part of the second sealing member 226 is stably snapped between the base 224 and the oil cup 100, and the second sealing member 226 is stably connected to the base 224, thereby improving the connection stability between the second sealing member 226 and the base 224.

It can be understood that, when the battery rod is used in conjunction with the atomizing mechanism, the battery rod pushes the portion of the atomizing tube 210 outside the air inlet hole 222 into the atomizing base 220, that is, the battery rod pushes the portion of the atomizing tube 210 outside the oil cup 100 into the air inlet hole 222, so that the atomizing tube 210 is completely located in the oil cup 100. At this time, the atomizing pipe 210 moves toward the air outlet pipe 110, the oil guiding hole 212 on the atomizing pipe 210 gradually washes the atomizing base 220 and moves out, that is, the oil guiding hole 212 is gradually communicated with the oil storage bin 300, that is, the oil guiding hole 212 is changed from originally communicating only with the air inlet hole 222 to communicating only with the oil storage bin 300, so that the inside of the atomizing pipe 210 and the oil storage bin 300 can be separated, and the inner space of the atomizing pipe 210 and the smoke oil in the oil storage bin 300 can be conveniently separated when not in use.

When the oil guide hole 212 of the atomizing tube 210 is communicated with the oil storage bin 300, the pressure in the oil storage bin 300 is much higher than the pressure in the atomizing tube 210, so that a large amount of the tobacco tar in the oil storage bin 300 is guided into the atomizing tube 210 and contacts with the atomizing electric core, for example, the tobacco tar in the oil storage bin 300 is quickly absorbed by the oil guide cotton in the atomizing electric core. After the battery pole with electrode post electric conductance among the atomizing mechanism is led, the heater in the atomizing electricity core still needs a period of time can reach appointed heating temperature, and only after the heater reached appointed heating temperature, the tobacco tar on the oil guide cotton can be in time atomized. However, once the oil guide hole 212 is communicated with the oil storage bin 300, the smoke oil on the oil guide cotton cannot be atomized quickly, so that the smoke oil is directly guided to the electrode column through the heating wire, and the smoke oil flows to the outside through the surface of the electrode column.

In order to reduce the rate of the smoke oil introduced into the atomization tube 210, so as to reduce the situation that the smoke oil is rapidly gathered in the atomization tube 210 and cannot be atomized in time, please refer to fig. 3, the atomization mechanism 10 comprises a speed limiting component 400, the speed limiting component 400 is positioned in the oil storage bin 300, the speed limiting assembly 400 includes a first resilient rotating plate 410, a second resilient rotating plate 420, a first rotating ring 430 and a second rotating ring 440, the first rotating ring 430 is sleeved on the atomizing pipe 210, the first elastic rotating plate 410 is rotatably connected with the first rotating ring 430, the first elastic rotating plate 410 is further connected with the second rotating ring 440, the second elastic rotating plate 420 is rotatably connected with the second rotating ring 440, the second elastic rotating plate 420 is provided with a speed-limiting through hole 422, and the central axis of the speed-limiting through hole 422 is obliquely arranged towards the direction far away from the central axis of the atomizing pipe 210. In this embodiment, the first elastic rotating plate 410 rotates around the central axis of the first rotating ring 430, such that the end of the first elastic rotating plate 410 away from the first rotating ring 430 moves towards or away from the atomizing tube 210, and the second elastic rotating plate 420 rotates around the central axis of the second rotating ring 440, such that the end of the second elastic rotating plate 420 close to the second rotating ring 440 moves towards or away from the atomizing base 220. Before the battery pole not install in atomizing mechanism, first elasticity commentaries on classics board 410 with atomizing pipe 210 slope sets up, second elasticity commentaries on classics board 420 with atomizing pipe 210 sets up perpendicularly, first elasticity commentaries on classics board 410, second elasticity commentaries on classics board 420 and form the isolation space between the atomizing pipe 210, do not have the tobacco tar in the isolation space. After the battery rod is mounted on the atomizing mechanism, one end of the first elastic rotating plate 410, which is far away from the first rotating ring 430, moves toward the atomizing pipe 210, so that the first elastic rotating plate 410 is parallel to the atomizing pipe 210, and one end of the second elastic rotating plate 420, which is close to the second rotating ring 440, is far away from the atomizing base 220, so that the second elastic rotating plate 420 corresponds to the oil guide hole 212, and the speed-limiting through hole 422 is communicated with the oil guide hole 212. Thus, at this time, the speed-limiting through hole 422 is aligned with the oil guide hole 212, and the central axis of the speed-limiting through hole 422 forms an included angle with the central axis of the oil guide hole 212 instead of being parallel to each other, for example, in the outward radial direction of the atomizing tube 210, the distance between the central axis of the speed-limiting through hole 422 and the central axis of the oil guide hole 212 is gradually increased, so that the central axis of the speed-limiting through hole 422 is in an upward tilting state, and therefore, the smoke oil passing through the speed-limiting through hole 422 can enter the oil guide hole 212 by overcoming the self gravity, and further, the speed of the smoke oil entering the oil guide hole 212 is reduced, the situation that the smoke oil in the atomizing tube 210 is excessively gathered is reduced, and the probability that the smoke oil flows out of the atomizing mechanism through oil climbing on the heating wire is reduced.

Further, in order to facilitate the movement of the speed limiting assembly 400, please refer to fig. 3, an end of the second elastic rotating plate 420 away from the second rotating ring 440 has an arc-shaped guide surface 424, the arc-shaped guide surface 424 has an arc-shaped structure, when the second elastic rotating plate 420 deflects, the arc-shaped guide surface 424 of the second elastic rotating plate 420 contacts with the atomizing base 220, and the turning smoothness of the second elastic rotating plate 420 is improved under the guidance of the arc-shaped surface of the arc-shaped guide surface 424, so that the second elastic rotating plate 420 rotates on the atomizing base 220, and the rotation of the speed limiting assembly 400 in the oil storage bin 300 is facilitated.

In another embodiment, in order to improve the connection stability between the first elastic rotating plate 410 and the atomizing pipe 210 after rotating, referring to fig. 3, the speed limiting assembly 400 further includes a connecting protrusion 450, the atomizing pipe 210 is provided with a first connecting groove 211 communicated with the oil storage bin 300, the connecting protrusion 450 corresponds to the first connecting groove 211, and the first connecting groove 211 is used for accommodating the connecting protrusion 450. In this embodiment, when the battery rod is connected to the atomizing mechanism, the first elastic rotating plate 410 rotates, the first elastic rotating plate 410 gradually approaches to the atomizing pipe 210, the connecting protrusion 450 is clamped in the first connecting groove 211, so that the side wall of the first connecting groove 211 clamps the connecting protrusion 450, and the connecting protrusion 450 is stably connected to the atomizing pipe 210, so that the first elastic rotating plate 410 is stably connected to the atomizing pipe 210, and the connection stability between the first elastic rotating plate 410 and the atomizing pipe 210 is improved.

Further, in order to improve the connection stability between the second elastic rotating plate 420 and the atomizing base 220 after rotating, please refer to fig. 3, the atomizing base 220 is provided with a second connecting groove 228 communicated with the oil storage bin 300, and a portion of the second elastic rotating plate 420 is accommodated in the second connecting groove 228. In this embodiment, the opening of the second connecting groove 228 faces the second elastic rotating plate 420, when the battery rod is connected to the atomizing mechanism, the second elastic rotating plate 420 rotates, so that the second elastic rotating plate 420 is parallel to the atomizing pipe 210 from a state perpendicular to the atomizing pipe 210, and the end of the second elastic rotating plate 420 far away from the second rotating ring 440 is clamped in the second connecting groove 228, so that the second elastic rotating plate 420 is stably disposed on the atomizing base 220, and the connection stability between the second elastic rotating plate 420 and the atomizing base 220 is improved.

The application still provides an atomizing device, including atomizing electric core and above-mentioned arbitrary embodiment atomizing mechanism, the intraductal atomizing storehouse that has of atomizing, atomizing electric core accept in the atomizing storehouse, the bore in atomizing storehouse is greater than the bore of atomizing pipe. In this embodiment, the atomizing mechanism includes an oil cup and an atomizing component. The oil cup is provided with an air outlet pipe. The outlet duct is used for leading out smog. The atomization assembly comprises an atomization tube, an atomization seat and an elastic piece. The atomizing base is provided with an air inlet. The atomizing pipe activity set up in the inlet port, the atomizing pipe with the outlet duct intercommunication, the atomizing pipe with outlet duct swing joint, the atomizing pipe is used for acceping the atomizing electricity core. An oil storage bin is formed between the atomizing pipe and the oil cup, and the atomizing pipe is provided with an oil guide hole. The elastic piece is respectively connected with the atomizing pipe and the air outlet pipe. The elastic piece is used for pushing the atomizing pipe to be far away from the air outlet pipe, so that the oil guide hole moves into the air inlet hole of the atomizing base. When the battery pole lifted off from the atomizing seat, the elastic component changed the natural extension state into by the compression state, elastic component release elasticity and extension promptly for the outlet duct was kept away from to the atomizing pipe, thereby makes in leading the oilhole removed the atomizing seat, and then makes lead the oilhole by only with the oil storage storehouse intercommunication change into with only with the inlet port intercommunication, be convenient for with oil storage storehouse and atomizing pipe separation, the tobacco tar that has reduced or even stopped in the oil storage storehouse spills through the atomizing pipe, has reduced atomizing device's oil leak probability. And, the atomizing pipe with be the connection structure of mutual cover setting between the outlet duct, for example, the outlet duct cover is arranged in on the atomizing pipe, promptly the inner wall of outlet duct with the outer wall butt of atomizing pipe, promptly the partial activity of atomizing pipe set up in the outlet duct. In another embodiment, the atomizing pipe is sleeved on the air outlet pipe, that is, the inner wall of the atomizing pipe abuts against the outer wall of the air outlet pipe, that is, a part of the air outlet pipe is movably arranged in the atomizing pipe.

The application also provides an electronic atomizer which comprises the atomization device. In this embodiment, atomizing device includes atomizing electric core and any above-mentioned embodiment atomizing mechanism, the intraductal atomizing storehouse that has of atomizing, atomizing electric core accept in the atomizing storehouse, the bore in atomizing storehouse is greater than the bore of atomizing pipe. The atomizing mechanism comprises an oil cup and an atomizing assembly. The oil cup is provided with an air outlet pipe. The outlet duct is used for leading out smog. The atomization assembly comprises an atomization tube, an atomization seat and an elastic piece. The atomizing base is provided with an air inlet. The atomizing pipe activity set up in the inlet port, the atomizing pipe with the outlet duct intercommunication, the atomizing pipe with outlet duct swing joint, the atomizing pipe is used for acceping the atomizing electricity core. An oil storage bin is formed between the atomizing pipe and the oil cup, and the atomizing pipe is provided with an oil guide hole. The elastic piece is respectively connected with the atomizing pipe and the air outlet pipe. The elastic piece is used for pushing the atomizing pipe to be far away from the air outlet pipe, so that the oil guide hole moves into the air inlet hole of the atomizing base. When the battery pole lifted off from the atomizing seat, the elastic component changed the natural extension state into by the compression state, elastic component release elasticity and extension promptly for the outlet duct was kept away from to the atomizing pipe, thereby makes in leading the oilhole removed the atomizing seat, and then makes lead the oilhole by only with the oil storage storehouse intercommunication change into with only with the inlet port intercommunication, be convenient for with oil storage storehouse and atomizing pipe separation, the tobacco tar that has reduced or even stopped in the oil storage storehouse spills through the atomizing pipe, has reduced the oil leak probability of electron atomizer. And, the atomizing pipe with be the connection structure of mutual cover setting between the outlet duct, for example, the outlet duct cover is arranged in on the atomizing pipe, promptly the inner wall of outlet duct with the outer wall butt of atomizing pipe, promptly the partial activity of atomizing pipe set up in the outlet duct. In another embodiment, the atomizing pipe is sleeved on the air outlet pipe, that is, the inner wall of the atomizing pipe abuts against the outer wall of the air outlet pipe, that is, a part of the air outlet pipe is movably arranged in the atomizing pipe.

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. An atomizing mechanism, comprising:

the oil cup is provided with an air outlet pipe, and the air outlet pipe is used for leading out smoke;

atomization component, atomization component includes atomizing pipe, atomizing seat and elastic component, the inlet port has been seted up to the atomizing seat, the atomizing pipe is worn to locate in the inlet port, the atomizing pipe with the outlet duct intercommunication, the atomizing pipe with outlet duct swing joint, the atomizing pipe is used for acceping atomizing electricity core, the atomizing pipe with be formed with the oil storage storehouse between the oil cup, the oil guide hole has been seted up to the atomizing pipe, the elastic component respectively with the atomizing pipe and the outlet duct is connected, the elastic component is used for promoting the atomizing pipe is kept away from the outlet duct, so that the oil guide hole removes extremely in the inlet port of atomizing seat.

2. The atomizing mechanism of claim 1, wherein the atomizing tube includes a tube body and a support portion, the support portion is connected to a sidewall of the tube body, and the elastic member abuts against a surface of the support portion facing away from the atomizing base.

3. The atomizing mechanism of claim 2, wherein an end of the tube body away from the atomizing base has a mounting inclined surface, and the mounting inclined surface is inclined toward the air outlet tube.

4. The atomizing mechanism of claim 1, wherein the atomizing assembly further comprises a first seal positioned between the outlet tube and the atomizing tube.

5. The atomizing mechanism of claim 4, wherein at least one of the outlet tube and the atomizing tube defines a sealing groove, and the first sealing element is engaged with the sealing groove.

6. The atomizing mechanism according to claim 1, wherein the atomizing base includes a base and a second sealing member, the base defines a first air inlet hole, the second sealing member defines a second air inlet hole communicated with the first air inlet hole, the second sealing member is used for sealing the oil guide hole, the atomizing pipe sequentially penetrates through the first air inlet hole and the second air inlet hole, the second sealing member is connected to the base, and both the base and the second sealing member abut against an inner wall of the oil cup.

7. The atomizing mechanism of claim 6, wherein the second sealing member includes a sealing body and a sealing protrusion, the sealing body is sleeved on the atomizing pipe, the sealing protrusion is connected with the sealing body, and the sealing body is further abutted against an inner wall of the oil cup.

8. The atomizing mechanism of claim 6, wherein the base defines a snap-fit groove, and a portion of the second sealing member is snap-fit within the snap-fit groove.

9. An atomizing device, characterized in that, include atomizing electric core and the atomizing mechanism of any one of claims 1 to 8, have the atomizing storehouse in the atomizing pipe, the atomizing electric core accept in the atomizing storehouse, the bore of atomizing storehouse is greater than the bore of atomizing pipe.

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

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