阅读说明：本技术 电子雾化器以及电子雾化设备 (Electronic atomizer and electronic atomization device ) 是由 彭世键 于 2021-01-07 设计创作，主要内容包括：本申请提供一种电子雾化器以及电子雾化设备。上述的电子雾化器包括油杯、中心气管以及雾化组件；油杯具有出气管道；中心气管包括多个依次连接的连接管,相邻的两个连接管之间可拆卸连接；雾化组件包括雾化管、雾化电芯以及雾化座,雾化管与远离出气管道的连接管可拆卸连接,雾化管与各连接管均连通。中心气管包括多个可拆卸连接的连接管,使得中心气管便于拆卸成多个部件进行清洗,而且,雾化管也与连接管为可拆卸连接,使得中心气管与雾化管可分离,便于对中心气管以及雾化管单独进行清洗,便于对中心气管以及雾化管形成的出气管道进行清洗。(The application provides an electronic atomizer and electronic atomization equipment. The electronic atomizer comprises an oil cup, a central air pipe and an atomizing assembly; the oil cup is provided with an air outlet pipeline; the central air pipe comprises a plurality of connecting pipes which are connected in sequence, and two adjacent connecting pipes are detachably connected; the atomization assembly comprises an atomization pipe, an atomization battery core and an atomization seat, the atomization pipe is detachably connected with a connecting pipe far away from the air outlet pipeline, and the atomization pipe is communicated with the connecting pipes. The central trachea includes a plurality of connecting pipes that can dismantle the connection for central trachea convenient to detach becomes a plurality of parts and washs, and in addition, the atomizing pipe also is connected for dismantling with the connecting pipe, makes central trachea separable with the atomizing pipe, is convenient for wash central trachea and atomizing pipe alone, is convenient for wash the pipeline of giving vent to anger that central trachea and atomizing pipe formed.)

1. An electronic atomizer, comprising:

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

the central air pipe comprises a plurality of connecting pipes which are sequentially connected, every two adjacent connecting pipes are detachably connected, the connecting pipes are all positioned in the oil cup, and the interiors of the connecting pipes are all communicated with the air outlet pipeline;

atomization component, atomization component includes atomizing pipe, atomizing electricity core and atomizing seat, atomizing seat set up in the oil cup, atomizing seat opens there is the inlet port, the inlet port with the atomizing pipe intercommunication, atomizing electricity core set up in the atomizing pipe, atomizing pipe with keep away from the connection can be dismantled to the connecting pipe of the pipeline of giving vent to anger, atomizing pipe and each the connecting pipe all communicates, atomizing pipe still with atomizing seat is connected, atomizing pipe the oil cup and be formed with the oil storage storehouse between the atomizing seat, the oil storage storehouse is used for saving the tobacco tar, the oil hole has been seted up to atomizing pipe, lead the oil hole with the oil storage storehouse intercommunication.

2. The electronic atomizer of claim 1, further comprising a first sealing member, wherein said first sealing member is sleeved on an outer wall of said air outlet pipe, and said first sealing member is further connected to said connecting pipe.

3. The electronic atomizer according to claim 2, wherein said first sealing member defines a first groove, and a portion of said connecting tube adjacent to said air outlet pipe is engaged with said first groove.

4. The electronic atomizer of claim 2, wherein a second groove is defined in an outer wall of said outlet duct, and a portion of said first sealing member is received in said second groove.

5. The electronic atomizer of claim 2, wherein an outer wall of said outlet duct has a mounting ramp disposed obliquely toward said first seal.

6. The electronic atomizer according to claim 1, wherein said atomizing base has an oil hole, said oil hole is communicated with said oil storage compartment, said oil hole is used for injecting smoke oil into said oil storage compartment.

7. The electronic atomizer according to claim 6, wherein said atomizing base further defines an exhaust hole, said exhaust hole is communicated with said oil storage compartment, and said exhaust hole is used for guiding out gas in said oil storage compartment.

8. The electronic atomizer according to claim 7, further comprising a second sealing member, said second sealing member comprising a sealing body and two sealing protrusions, said sealing body being connected to said two sealing protrusions, respectively, said sealing body being further connected to said atomizing base, at least a portion of one of said sealing protrusions being disposed in said oil filler hole, and at least a portion of the other of said sealing protrusions being disposed in said air vent hole.

9. The electronic atomizer of any one of claims 1 to 8, further comprising a third seal between an inner wall of said oil cup and said atomizing base, said third seal being connected to said inner wall of said oil cup and said atomizing base, respectively.

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

Technical Field

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

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. Is mainly used for quitting smoking and 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 traditional atomizer generally adopts a straight-through air passage to guide smoke out of an atomizing chamber.

However, the central air tube and the atomizing chamber in the conventional atomizer are integrally formed to form a straight-through air outlet pipeline, and the length of the air outlet pipeline is long, so that when cleaning is performed, a cleaning tool with a long length is required to clean the air outlet pipeline, the middle part of the air outlet pipeline is in an invisible or difficultly visible position, and the cleaning is easily incomplete, so that stains are deposited in the air outlet pipeline, and the use is affected.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provides an electronic atomizer convenient to clean and electronic atomization equipment.

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

an electronic atomizer comprises an oil cup, a central air pipe and an atomizing assembly; the oil cup is provided with an air outlet pipeline, and the air outlet pipeline is used for leading out gas; the central air pipe comprises a plurality of connecting pipes which are sequentially connected, two adjacent connecting pipes are detachably connected, the connecting pipes are all positioned in the oil cup, and the insides of the connecting pipes are all communicated with the air outlet pipeline; the atomization component comprises an atomization tube, an atomization cell and an atomization seat, the atomization seat is arranged in the oil cup, the atomization seat is provided with an air inlet, the air inlet is communicated with the atomization tube, the atomization cell is arranged in the atomization tube, the atomization tube is detachably connected with a connecting tube of an air outlet pipeline, the atomization tube is communicated with the connecting tube, the atomization tube is connected with the atomization seat, the atomization tube, the oil cup and an oil storage bin are formed between the atomization seats, the oil storage bin is used for storing tobacco tar, the atomization tube is provided with an oil guide hole, and the oil guide hole is communicated with the oil storage bin.

In one embodiment, the electronic atomizer further includes a first sealing element, the first sealing element is sleeved on the outer wall of the air outlet pipe, and the first sealing element is further connected with the connecting pipe.

In one embodiment, the first sealing element is provided with a first groove, and a portion of the connecting pipe close to the air outlet pipe is clamped in the first groove.

In one embodiment, a second groove is formed in the outer wall of the air outlet pipeline, and a part of the first sealing element is contained in the second groove.

In one embodiment, the outer wall of the outlet duct has a mounting slope, and the mounting slope is obliquely arranged towards the first sealing member.

In one embodiment, the atomizing base is provided with an oil filling hole, the oil filling hole is communicated with the oil storage bin, and the oil filling hole is used for injecting the tobacco tar into the oil storage bin.

In one embodiment, the atomizing base is further provided with an exhaust hole, the exhaust hole is communicated with the oil storage bin, and the exhaust hole is used for guiding out gas in the oil storage bin.

In one embodiment, the electronic atomizer further comprises a second sealing element, the second sealing element comprises a sealing body and two sealing protrusions, the sealing body is connected with the two sealing protrusions respectively, the sealing body is further connected with the atomizing base, at least part of one sealing protrusion is arranged in the oil injection hole, and at least part of the other sealing protrusion is arranged in the exhaust hole.

In one embodiment, the electronic atomizer further comprises a third sealing member, the third sealing member is located between the inner wall of the oil cup and the atomizing base, and the third sealing member is respectively connected with the inner wall of the oil cup and the atomizing base.

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

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

the central trachea includes a plurality of connecting pipes that can dismantle the connection for central trachea convenient to detach becomes a plurality of parts and washs, and in addition, the atomizing pipe also is connected for dismantling with the connecting pipe, makes central trachea separable with the atomizing pipe, is convenient for wash central trachea and atomizing pipe alone, is convenient for wash the pipeline of giving vent to anger that central trachea and atomizing pipe formed.

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 exemplary electronic atomizer;

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

FIG. 3 is an enlarged schematic view of the electronic atomizer shown in FIG. 2 at A1;

FIG. 4 is a schematic diagram of a central airway in one embodiment;

FIG. 5 is an enlarged schematic view of the central air tube shown in FIG. 4 at A2;

FIG. 6 is a schematic structural diagram of a connecting tube according to an embodiment.

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 atomizer. In one embodiment, the electronic atomizer comprises an oil cup, a central air tube and an atomizing assembly. The oil cup is provided with an air outlet pipeline. The gas outlet pipeline is used for leading out gas. The central air pipe comprises a plurality of connecting pipes which are connected in sequence. And two adjacent connecting pipes are detachably connected. The plurality of connecting pipes are all located in the oil cup, and the insides of the plurality of connecting pipes are all communicated with the air outlet pipeline. The atomization assembly comprises an atomization tube, an atomization battery cell and an atomization seat. The atomizing base is arranged in the oil cup, and an air inlet is formed in the atomizing base. The air inlet is communicated with the atomizing pipe. The atomization battery core is arranged in the atomization pipe. The atomizing pipe with keep away from the connecting pipe of pipeline of giving vent to anger can dismantle the connection, atomizing pipe and each the connecting pipe all communicates, atomizing pipe still with the atomizing seat is connected. An oil storage bin is formed among the atomizing pipe, the oil cup and the atomizing base. The oil storage bin is used for storing tobacco tar. The atomizing pipe is provided with an oil guide hole. The oil guide hole is communicated with the oil storage bin. The central trachea includes a plurality of connecting pipes that can dismantle the connection for central trachea convenient to detach becomes a plurality of parts and washs, and in addition, the atomizing pipe also is connected for dismantling with the connecting pipe, makes central trachea separable with the atomizing pipe, is convenient for wash central trachea and atomizing pipe alone, is convenient for wash the pipeline of giving vent to anger that central trachea and atomizing pipe formed.

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

Referring to fig. 2, the electronic atomizer 10 of an embodiment includes an oil cup 100, and the electronic atomizer 10 further includes a central air tube 200 and an atomizing element 300. The oil cup 100 has an air outlet pipe 110. The gas outlet pipe 110 is used for discharging gas. The central air tube 200 includes a plurality of connection tubes 210 connected in series. Two adjacent connecting pipes 210 are detachably connected. The plurality of connecting pipes 210 are all located in the oil cup 100, and the interiors of the plurality of connecting pipes 210 are all communicated with the air outlet pipe 110. The atomization assembly 300 comprises an atomization tube 310, an atomization core 320 and an atomization seat 330. The atomizing base 330 is disposed in the oil cup 100, and the atomizing base 330 is opened with an air inlet 332. The air intake holes 332 communicate with the atomizing pipe 310. The atomization battery core 320 is disposed in the atomization tube 310. The atomizing pipe 310 is detachably connected to the connecting pipe 210 far away from the air outlet pipe 110, the atomizing pipe 310 is communicated with each connecting pipe 210, and the atomizing pipe 310 is further connected to the atomizing base 330. An oil storage bin 400 is formed among the atomizing pipe 310, the oil cup 100 and the atomizing base 330. The oil storage bin 400 is used for storing tobacco tar. The atomization tube 310 is provided with an oil guide hole 312. The oil guiding hole 312 is communicated with the oil storage bin 400.

In this embodiment, the central air tube 200 includes a plurality of connecting tubes 210 detachably connected to each other, so that the central air tube 200 is conveniently disassembled into a plurality of parts for cleaning, and the atomizing tube 310 is also detachably connected to the connecting tubes 210, so that the central air tube 200 is separable from the atomizing tube 310, so that the central air tube 200 and the atomizing tube 310 can be cleaned separately, and the outlet pipe 110 formed by the central air tube 200 and the atomizing tube 310 can be cleaned separately.

In one embodiment, referring to fig. 2, the electronic atomizer 10 further includes a first sealing member 500, the first sealing member 500 is sleeved on an outer wall of the air outlet pipe 110, and the first sealing member 500 is further connected to the connecting pipe 210. In this embodiment, the first sealing member 500 is located between the gas outlet pipe 110 and the central gas pipe 200, and the first sealing member 500 seals a gap between the gas outlet pipe 110 and the central gas pipe 200. Because the outer wall of the central air tube 200 serves as the inner wall of the oil storage bin 400, that is, the outer wall of the central air tube 200 is used for forming the oil storage bin 400, that is, the connecting tube 210, the oil cup 100 and the atomizing base 330 form the oil storage bin 400, the central air tube 200 is communicated with the air outlet pipeline 110, the central air tube 200 and the air outlet pipeline 110 are used for guiding out smoke, the first sealing element 500 isolates the smoke oil in the oil storage bin 400 from the air outlet pipeline 110, the probability that the smoke oil in the oil storage bin 400 overflows through the air outlet pipeline 110 is reduced, the sealing performance of the electronic atomizer is improved, and the oil leakage probability of the electronic atomizer is reduced.

Further, referring to fig. 3, the first sealing element 500 is provided with a first groove 510, and a portion of the connecting pipe 210 close to the air outlet pipe 110 is clamped in the first groove 510. In this embodiment, the first groove 510 is opened on the first sealing member 500, that is, the first groove 510 is opened on one side of the first sealing member 500 departing from the air outlet pipe 110, the opening of the first groove 510 faces the connecting pipe 210, the part of the connecting pipe 210 close to the air outlet pipe 110 is accommodated in the first groove 510, the part of the air outlet pipe 110 is close to the inner wall of the connecting pipe 210 and the side wall of the first groove 510 are abutted, so that the connecting pipe 210 close to the air outlet pipe 110 is sleeved on the first sealing member 500, the first sealing member 500 is conveniently embedded on the central air pipe 200, and the connection stability between the first sealing member 500 and the central air pipe 200 is improved.

Further, referring to fig. 3, a second groove 112 is formed on an outer wall of the air outlet pipe 110, and a portion of the first sealing member 500 is accommodated in the second groove 112. In this embodiment, the second groove 112 is disposed on the gas outlet pipe 110, the first sealing element 500 is sleeved on the outer wall of the gas outlet pipe 110, and when the first sealing element 500 is connected to the gas outlet pipe 110, a part of the first sealing element 500 is clamped in the second groove 112, so that the first sealing element 500 is clamped to the gas outlet pipe 110, the connection area between the first sealing element 500 and the gas outlet pipe 110 is increased, and the connection stability between the first sealing element 500 and the gas outlet pipe 110 is improved.

Further, referring to fig. 3, the outer wall of the air outlet pipe 110 has an installation slope 114, and the installation slope 114 is disposed to be inclined toward the first sealing member 500. In this embodiment, the installation slope 114 is located on the outer wall of the air outlet pipe 110, and the installation slope 114 is disposed obliquely with respect to the first sealing member 500, and the distance between the installation slope 114 and the first sealing member 500 gradually decreases in the direction parallel to the air outlet of the air outlet pipe 110, i.e., the direction from the atomizing pipe 310 to the air outlet pipe 110. Thus, when first sealing member 500 is coupled to outlet pipe 110, first sealing member 500 moves along the inclined direction of installation slope 114, that is, first sealing member 500 moves on installation slope 114, so that first sealing member 500 is easily put on outlet pipe 110, thereby facilitating the installation coupling between first sealing member 500 and outlet pipe 110.

In one embodiment, please refer to fig. 2, the atomizing base 330 is provided with an oil hole 334, the oil hole 334 is communicated with the oil storage bin 400, and the oil hole 334 is used for injecting the smoke oil into the oil storage bin 400. In this embodiment, the oil filler point 334 is seted up on the atomizing seat 330, the oil filler point 334 will oil storage bin 400 communicates with the outside, is convenient for pass through oil filler point 334 to inject the tobacco tar into oil storage bin 400. When the tobacco tar needs to be supplemented, the oil filling nozzle of the oil supplementing device extends into the oil filling hole 334 to gradually inject the tobacco tar into the oil storage bin 400, so that the electronic atomizer is convenient to reuse, and the reuse rate of the electronic atomizer is improved. Moreover, when the tobacco tar is injected into the oil filler hole 334, a certain space is reserved between the oil filler nozzle and the side wall of the oil filler hole 334, so that the injected tobacco tar discharges the redundant air in the oil storage bin 400, the volume of the tobacco tar injected into the oil storage bin 400 is increased, and the oil storage space utilization rate of the oil storage bin 400 is improved.

Further, referring to fig. 2, the atomizing base 330 is further provided with an exhaust hole 336, the exhaust hole 336 is communicated with the oil storage bin 400, and the exhaust hole 336 is used for guiding out the gas in the oil storage bin 400. In this embodiment, exhaust hole 336 is seted up on atomizing seat 330, atomizing seat 330 is regarded as a part that oil storage bin 400 formed, exhaust hole 336 will oil storage bin 400 communicates with the outside, moreover, exhaust hole 336 and oil filler point 334 passes through oil storage bin 400 communicates when oil filler point 334 injects the tobacco tar, the tobacco tar will space volume in the oil storage bin 400 occupies, the air in oil storage bin 400 then passes through exhaust hole 336 outwards discharges, makes the air in oil storage bin 400 reduces, has reduced during residual air sneaks into the tobacco tar in oil storage bin 400, thereby has reduced the condition that the tobacco tar in oil storage bin 400 has the bubble, and then has improved oil storage capacity in oil storage bin 400 has improved oil storage bin 400's oil storage space utilization.

Further, referring to fig. 2, the electronic atomizer 10 further includes a second sealing element 600, the second sealing element 600 includes a sealing body 610 and two sealing protrusions 620, the sealing body 610 is connected to the two sealing protrusions 620, the sealing body 610 is further connected to the atomizing base 330, at least a portion of one of the sealing protrusions 620 is disposed in the oil filling hole 334, and at least a portion of the other sealing protrusion 620 is disposed in the air discharging hole 336. In this embodiment, the second sealing member 600 is connected to the atomizing base 330, and the second sealing member 600 is used for sealing the oil filling hole 334 and the gas discharging hole 336, that is, one of the two sealing protrusions 620 corresponds to the oil filling hole 334 and is used for sealing the oil filling hole 334, and the other of the two sealing protrusions 620 corresponds to the gas discharging hole 336 and is used for sealing the gas discharging hole 336. Thus, after the oil storage bin 400 is filled with the smoke oil, the second sealing element 600 blocks the oil filling hole 334 and the exhaust hole 336 through the two sealing protrusions 620, so that the sealing performance of the oil storage bin 400 is improved. Moreover, two sealing protrusion 620 is connected with atomizing seat 330 through the mode of joint, two promptly one of them card of sealing protrusion 620 is located in oil filler point 334, two another card of sealing protrusion 620 is located in the exhaust hole 336, make two sealing protrusion 620 is in the shutoff oil filler point 334 with when the exhaust hole 336, will second sealing member 600 is stably fixed on atomizing seat 330, in order to improve second sealing member 600 with the stability of being connected between atomizing seat 330.

In one embodiment, referring to fig. 2, the electronic atomizer 10 further includes a third sealing member 700, the third sealing member 700 is located between the inner wall of the oil cup 100 and the atomizing base 330, and the third sealing member 700 is respectively connected to the inner wall of the oil cup 100 and the atomizing base 330. In this embodiment, the atomizing base 330 is clamped in the oil cup 100, that is, the edge of the atomizing base 330 abuts against the inner wall of the oil cup 100, the inner wall of the oil cup 100 clamps the atomizing base 330, in the case that the atomizing base 330 is not integrally formed with the oil cup 100, a gap exists between the atomizing base 330 and the oil cup 100, the third seal member 700 is located between the inner wall of the oil cup 100 and the atomizing base 330, so that the gap between the atomizing base 330 and the oil cup 100 is filled with the third seal 700, so that the third sealing member 700 reduces the gap between the atomizing base 330 and the oil cup 100, thereby reducing the leakage of the tobacco tar in the oil storage bin 400 through the gap between the atomizing base 330 and the oil cup 100, therefore, the oil leakage probability of the electronic atomizer is reduced, and the oil leakage prevention performance of the electronic atomizer is further improved.

The application also provides a central trachea. In one embodiment, the central air tube comprises an atomizing tube and a connecting tube. The connecting pipe comprises a pipe body and an oil blocking pipe. The pipe body is respectively connected with the atomizing pipe and the oil blocking pipe. At least part of the oil blocking pipe is positioned in the atomizing pipe, the outer wall of the oil blocking pipe is connected with the inner wall of the atomizing pipe, and the oil blocking pipe is provided with an air guide hole. The air guide hole is communicated with the inside of the atomizing pipe, and the air guide hole is far away from the inner wall of the atomizing pipe. Through addding the oil pipe that blocks to keep away from the inner wall of atomizing pipe with the air guide hole, make the lateral wall of air guide hole and the inner wall dislocation of atomizing pipe, thereby make the bottom that blocks the oil pipe protrusion in the inner wall of atomizing pipe, be convenient for block the tobacco tar flow direction air guide hole on the inner wall of atomizing pipe, reduced the probability that the lateral wall that the tobacco tar passes through the air guide hole spills over, thereby reduced tracheal oil leak probability in center

Please refer to fig. 4, which is a schematic structural diagram of a central air tube according to an embodiment of the present invention.

The central air tube 200 of an embodiment includes an atomizing tube 310 and a connecting tube 210. The connecting pipe 210 includes a pipe body 212 and an oil blocking pipe 214. The tube body 212 is connected to the atomizing tube 310 and the oil blocking tube 214, respectively. At least part of the oil blocking pipe 214 is located in the atomizing pipe 310, the outer wall of the oil blocking pipe 214 is connected with the inner wall of the atomizing pipe 310, and the oil blocking pipe 214 has an air guide hole 2142. The air holes 2142 communicate with the inside of the atomizing pipe 310, and the air holes 2142 are far away from the inner wall of the atomizing pipe 310 to form a blocking part 2148, the blocking part 2148 is used for blocking at least one of condensate and tobacco tar from flowing out of the atomizing center air pipe to the outside of the air outlet.

Further, the connecting tube 210 includes a tube body 212 and an oil blocking tube 214. The tube body 212 is connected to the atomizing tube 310 and the oil blocking tube 214, respectively. At least part of the oil blocking pipe 214 is located in the atomizing pipe 310, the outer wall of the oil blocking pipe 214 is connected with the inner wall of the atomizing pipe 310, and the oil blocking pipe 214 has an air outlet 2142. The air outlet 2142 is communicated with the inside of the atomizing tube 310, the air outlet 2142 is far away from the inner wall of the atomizing tube 310 to form a blocking part 2148, and the blocking part 2148 is used for blocking the probability that condensate is sucked into a suction port of a user or the probability that smoke oil flows out of a central air tube in the smoking process.

In this embodiment, by additionally providing the oil blocking pipe 214 and keeping the air hole 2142 away from the inner wall of the atomizing pipe 310, for example, the air hole 2142 is located in the middle of the oil blocking pipe 214, and the aperture of the air hole 2142 is smaller than the diameter of the atomizing pipe 310, so that the sidewall of the air hole 2142 is dislocated from the inner wall of the atomizing pipe 310, and the bottom of the oil blocking pipe 214 protrudes out of the inner wall of the atomizing pipe 310, which is convenient for blocking the flow of the smoke oil on the inner wall of the atomizing pipe 310 from flowing into the air hole 2142, and reduces the probability of the smoke oil overflowing through the sidewall of the air hole 2142, thereby reducing the probability of oil leakage of the central air pipe 200. In this embodiment, the tube body 212 and the oil blocking tube 214 are integrally formed, and the air outlet is communicated with the atomizing tube and the connecting tube, so as to guide the smoke formed in the atomizing tube to the outside for the user to inhale. Moreover, the blocking portion serves two purposes: 1. the probability that the condensate generated by the smoke is blocked along the pipe wall along with the smoke flow in the suction port of the user in the smoke extraction process; 2. the oil guide cotton is used for preventing the probability that the tobacco tar is separated from the oil guide cotton during the transportation and flows out along the inner pipe wall.

In one embodiment, referring to fig. 4, the connection tube 210 further includes an oil blocking protrusion tube 216, the oil blocking protrusion tube 216 is connected to the oil blocking tube 214, the oil blocking protrusion tube 216 has a vent hole 2162, and the vent hole 2162 is aligned with and communicated with the air vent hole 2142. In this embodiment, the oil blocking protruding tube 216 is used as an extension of the oil blocking tube 214, and the oil blocking protruding tube 216 protrudes from the oil blocking tube 214, wherein a central axis of the oil blocking protruding tube 216 is parallel to a central axis of the oil blocking tube 214, and a protruding direction of the oil blocking protruding tube 216 is opposite to an air guiding direction of the air guiding hole 2142, so that when the central air tube 200 is inverted or lies flat, the protruding direction of the oil blocking protruding tube 216 is opposite to a moving direction of the smoke oil on the inner wall of the atomizing tube 310. Moreover, an oil blocking space is formed between the oil blocking protruding tube 216, the oil blocking tube 214 and the atomizing tube 310, the opening direction of the oil blocking space is opposite to the moving direction of the tobacco tar on the inner wall of the atomizing tube 310, and the oil blocking space is used for blocking the tobacco tar therein, so that when the central air tube 200 is inverted or lies flat, the moving path of the tobacco tar attached to the inner wall of the atomizing tube 310 is blocked by the side wall of the oil blocking space, so that the tobacco tar attached to the inner wall of the atomizing tube 310 is contained in the oil blocking space, thereby reducing the probability that the tobacco tar attached to the inner wall of the atomizing tube 310 moves into the air guide hole 2142, further reducing the probability that the tobacco tar overflows along the inner wall of the central air tube 200, and further reducing the probability of oil leakage of the central air tube 200.

In one embodiment, referring to fig. 4, the center line of the air hole 2142 is coincident with the center line of the atomizing tube 310. In this embodiment, the air holes 2142 and the atomizing tube 310 are in a communicating state, the atomizing tube 310 guides the atomized smoke to the air holes 2142, and the air holes 2142 guide the smoke to the outside, that is, the atomizing tube 310 and the connecting tube 210 form an air guide channel, so that the smoke is guided out conveniently. In order to facilitate the guiding of the smoke along with the flowing of the air, the center line of the air guide hole 2142 and the center line of the atomizing pipe 310 are set to be in a mutually overlapped state, so that the contact between the smoke and the oil blocking space is reduced, the air guide path of the smoke is reduced, the smoke is conveniently and rapidly guided to the outside, the guiding rate of the smoke is increased, and the use efficiency of the central air pipe 200 is improved.

In one embodiment, referring to fig. 5, a clamping space 218 is formed between the tube body 212 and the oil blocking pipe 214, and a portion of the atomizing pipe 310 is clamped in the clamping space 218. In this embodiment, the clamping space 218 is formed at a connection position between the tube body 212 and the oil blocking tube 214, that is, the outer wall of the oil blocking tube 214 and the bottom of the tube body 212 form the clamping space 218, the clamping space 218 is used for accommodating a portion of the atomizing tube 310, an inner wall of the atomizing tube 310 abuts against a side wall of the clamping space 218, so that the atomizing tube 310 is sleeved on the oil blocking tube 214, that is, the inner wall of the atomizing tube 310 abuts against the outer wall of the oil blocking tube 214, and an end of the atomizing tube 310 abuts against an end of the tube body 212. Like this, when the atomizing pipe 310 card is located in the joint space 218, the atomizing pipe 310 with the hookup location between the connecting pipe 210 increases, makes the atomizing pipe 310 with the connection between the connecting pipe 210 increases, thereby makes the atomizing pipe 310 with it is more stable to connect between the connecting pipe 210, is convenient for improve the atomizing pipe 310 with the stability of being connected between the connecting pipe 210.

Further, the number of the connection pipes 210 is plural, and two adjacent connection pipes 210 are clamped to each other through the clamping space 218. In this embodiment, a plurality of the connecting pipes 210 are connected in sequence, that is, a plurality of the connecting pipes 210 are connected in series to form a linear pipeline, and each connecting pipe 210 is provided with the clamping space 218, two adjacent connecting pipes 210 are connected through the clamping space 218, that is, the pipe body 212 of one connecting pipe 210 is clamped in the clamping space 218 of the other connecting pipe 210, so that the connecting pipes 210 are connected in series in sequence, and therefore, an area for blocking the movement of the smoke oil is formed between the two adjacent connecting pipes 210, that is, a protruding portion of the bottom of the oil blocking pipe 214 is formed, and the protruding portion is formed by setting the inner wall of the atomizing pipe 310 away from the air guide hole 2142. In this way, a smoke blocking portion is disposed between the atomizing pipe 310 and the connecting pipes 210, and a smoke blocking portion is also disposed between two adjacent connecting pipes 210, so that the central air pipe 200 forms a plurality of structures for blocking smoke from moving in the air guiding direction, and thus the central air pipe 200 has a multi-stage smoke blocking structure, i.e., the multi-stage barrier type central air pipe 200, and the oil leakage probability of the central air pipe 200 is further reduced.

In one embodiment, referring to fig. 5, the outer wall of the oil blocking pipe 214 has a first installation inclined surface 2144, the first installation inclined surface 2144 is inclined toward the atomizing pipe 310, and the first installation inclined surface 2144 is configured to be slidably coupled with the atomizing pipe 310 when the connection pipe 210 is installed. In the present embodiment, the oil-blocking pipe 214 is accommodated in the atomizing pipe 310, that is, the outer wall of the oil-blocking pipe 214 abuts against the inner wall of the atomizing pipe 310, that is, the outer wall of the oil-blocking pipe 214 is clamped on the inner wall of the atomizing pipe 310. When the connecting pipe 210 is mounted on the atomizing pipe 310, the oil blocking pipe 214 is mainly clamped with the atomizing pipe 310, and the oil blocking pipe 214 smoothly extends into the atomizing pipe 310 to affect the overall sealing performance of the central air pipe 200. The first installation inclined plane 2144 is located the outer wall of the oil blocking sub-tube 214, moreover, the incline direction orientation of the first installation inclined plane 2144 the atomizing pipe 310 is in the perpendicular to promptly on the direction of the axis of the atomizing pipe 310, the first installation inclined plane 2144 with the interval between the inner wall of the atomizing pipe 310 reduces gradually, makes the first installation inclined plane 2144 with form the contained angle between the inner wall of the atomizing pipe 310, thereby makes the outer wall of the oil blocking sub-tube 214 with be formed with the clearance between the inner wall of the atomizing pipe 310, be convenient for the oil blocking sub-tube 214 stretches into in the atomizing pipe 310, promptly the lateral wall of the atomizing pipe 310 is in the first installation inclined plane 2144 slides, thereby be convenient for with the oil blocking sub-tube 214 is blocked in the atomizing pipe 310, realize the atomizing pipe 310 is located on the oil blocking sub-tube 214.

Further, referring to fig. 5, the inner wall of the atomizing pipe 310 has a second installation inclined surface 314, and the second installation inclined surface 314 and the first installation inclined surface 2144 are arranged in parallel. In the present embodiment, the oil-blocking pipe 214 is accommodated in the atomizing pipe 310, that is, the outer wall of the oil-blocking pipe 214 abuts against the inner wall of the atomizing pipe 310, that is, the outer wall of the oil-blocking pipe 214 is clamped on the inner wall of the atomizing pipe 310. When the connecting pipe 210 is mounted on the atomizing pipe 310, the oil blocking pipe 214 is mainly clamped with the atomizing pipe 310, and the oil blocking pipe 214 smoothly extends into the atomizing pipe 310 to affect the overall sealing performance of the central air pipe 200. The second inclined mounting surface 314 is located at the end of the atomizing tube 310, and the second inclined mounting surface 314 inclines towards the oil-blocking tube 214, i.e. in the direction perpendicular to the central axis of the atomizing tube 310, the distance between the second inclined mounting surface 314 and the outer wall of the oil-blocking tube 214 gradually decreases, so that an included angle is formed between the second inclined mounting surface 314 and the outer wall of the oil-blocking tube 214, and a gap is formed between the outer wall of the oil-blocking tube 214 and the inner wall of the atomizing tube 310. Like this, under the second installation inclined plane 314 with under the circumstances that first installation inclined plane 2144 is parallel to each other, first installation inclined plane 2144 along the second installation inclined plane 314 slides, is convenient for hinder the oil pipe 214 and stretch into in the atomizing pipe 310, promptly the second installation inclined plane 314 for first installation inclined plane 2144 slides, promptly first installation inclined plane 2144 slides and sets up in on the second installation inclined plane 314, thereby be convenient for with hinder oil pipe 214 card and go into in the atomizing pipe 310, improved the connecting pipe 210 with the smooth and easy degree of being connected between the atomizing pipe 310.

It can be understood that, in the case that the central air tube 200 is inverted or lies flat for a long time, the smoke oil in the atomizing tube 310 gradually accumulates, and once the accumulation volume of the smoke oil increases to exceed the maximum space volume of the oil blocking space between the oil blocking protruding tube 216 and the oil blocking sub-tube 214 and the atomizing tube 310, the smoke oil directly enters the vent hole 2162 beyond the oil blocking protruding tube 216, and directly flows into the air guide hole 2142 through the vent hole 2162, and then directly overflows from the connecting tube 210, which causes the oil leakage prevention performance of the central air tube 200 to decrease, i.e. the central air tube 200 cannot be inverted or lies flat for a long time, which easily causes the user to directly inhale the smoke oil during use, thereby affecting the use of the user.

In order to further improve the oil leakage prevention performance of the electronic atomizer, please refer to fig. 6, the vent holes 2162 are aligned with the air guide holes 2142, and the aperture of the vent holes 2162 is larger than the aperture of the air guide holes 2142. In this embodiment, the air hole 2142 is opened on the oil blocking tube 214, the vent hole 2162 is opened on the oil blocking protruding tube 216, the oil blocking tube 214 and the oil blocking protruding tube 216 are communicated with each other, that is, the oil blocking tube 214 and the oil blocking protruding tube 216 are communicated through the air hole 2142 and the vent hole 2162, that is, under the condition that the air hole 2142 and the vent hole 2162 are communicated, the smoke generated in the atomizing tube 310 passes through the oil blocking protruding tube 216 and the oil blocking tube 214 through the vent hole 2162 and the air hole 2142 in sequence. In the case that the vent hole 2162 is aligned with the air guide hole 2142, the oil blocking pipe 214 is disposed in parallel with the oil blocking protruding pipe 216, so that the oil blocking pipe 214 and the oil blocking protruding pipe 216 are linearly connected. The aperture of the vent hole 2162 is larger than that of the air guide hole 2142, so that the smoke flowing hole of the oil blocking pipe 214 is smaller than that of the protruding oil blocking pipe 216, so that the part of the oil blocking pipe 214 corresponds to the vent hole 2162, and the part of the oil blocking pipe 214 close to the air guide hole 2142 shields the part of the vent hole 2162. In this way, the blocking part of the oil blocking sub-tube 214 close to the air guide hole 2142 blocks the smoke oil in the atomizing tube 310 in the oil blocking protruding tube 216, so that the probability of the smoke oil continuously overflowing to the air guide hole 2142 is reduced, the oil leakage probability of the central air tube 200 is further reduced, and the oil leakage prevention performance of the central air tube 200 is further improved.

Furthermore, in order to facilitate the sealing of the air vent 2142 when the central air tube 200 is inverted or lies flat, so as to improve the oil leakage prevention performance of the central air tube 200, referring to fig. 6, the central air tube 200 further includes a plugging assembly 220, the plugging assembly 220 includes a plugging plate 222, a rotating shaft 224 and a fixing protrusion 226, the rotating shaft 224 is connected to the outer wall of the oil blocking sub-tube 214, the plugging plate 222 is rotatably connected to the rotating shaft 224, the plugging plate 222 is used for shielding the air vent 2142, the fixing protrusion 226 is located on a surface of the plugging plate 222 close to the oil blocking sub-tube 214, the fixing protrusion 226 is connected to the plugging plate 222, a fixing groove 2146 is formed on the outer wall of the oil blocking sub-tube 214, and the fixing protrusion 226 is used for being clamped in the fixing groove 2146. In this embodiment, the blocking plate 222 rotates around the rotating shaft 224, and the blocking plate 222 is used for opening and closing the air hole 2142. When the central air tube 200 is placed upright, the blocking plate 222 is away from the oil-blocking tube 214 under the action of its own gravity, so that the air-guiding holes 2142 are opened, and the smoke generated in the atomizing tube 310 can flow out through the air-guiding holes 2142; when the central air tube 200 is inverted or lies flat, the blocking plate 222 deflects under the action of its own gravity, so that the blocking plate 222 rotates toward the oil blocking sub-tube 214, and the blocking plate 222 blocks the air guiding hole 2142, so that the air guiding hole 2142 is closed, and at this time, the smoke oil in the atomizing tube 310 is blocked outside the connecting tube 210 by the blocking plate 222, thereby reducing the probability of the smoke oil in the atomizing tube 310 overflowing through the air guiding hole 2142 of the connecting tube 210, and further improving the oil leakage prevention performance of the central air tube 200. When the blocking plate 222 closes the air hole 2142, the fixing protrusion 226 is received in the fixing groove 2146, so that the blocking plate 222 is stably clamped on the oil blocking sub-tube 214, the connection stability between the blocking plate 222 and the oil blocking sub-tube 214 is improved, and the blocking plate 222 is conveniently fixed on the connecting tube 210. When the central air tube 200 is restored to the upright state, the blocking plate 222 is separated from the oil blocking sub-tube 214 by blowing air into the central air tube 200, so that the air guide hole 2142 is communicated, and the use is facilitated.

In another embodiment, the air holes 2142 are closed quickly by the blocking plate 222 to reduce the flow rate of the soot into the air holes 2142, i.e., reduce the volume of the soot flowing into the air holes 2142. Referring to fig. 6, the plugging assembly 220 further includes a sloped block 228, the sloped block 228 is connected to an outer wall of the oil-blocking pipe 214, the sloped block 228 has a sloped surface 2282, the sloped surface 2282 is sloped toward the plugging plate 222, and the plugging plate 222 abuts against the sloped surface 2282. In this embodiment, the inclined surface 2282 forms an included angle with the outer wall of the oil blocking tube 214, and the inclined surface 2282 is inclined toward a direction close to the air guiding hole 2142, so that a partial projection of the inclined surface 2282 on the oil blocking tube 214 is located in the air guiding hole 2142, that is, a partial projection of the blocking plate 222 on the oil blocking tube 214 is located in the air guiding hole 2142, so that when the central air tube 200 is inverted or lies flat, the blocking plate 222 rotates towards the oil blocking tube 214 quickly, the blocking plate 222 closes the air guiding hole 2142 quickly, the rate of blocking the air guiding hole 2142 by the blocking plate 222 is increased, and the volume of smoke oil flowing into the air guiding hole 2142 is reduced.

The application also provides an atomization structure, which comprises the central air pipe in any one of the embodiments. The atomization structure further comprises an atomization seat and an atomization battery cell. The atomizing base with the atomizing union coupling, the inlet port has been seted up to the atomizing base. The air inlet is communicated with the inside of the atomizing pipe. The atomization battery core is contained in the atomization pipe. In this embodiment, the central air tube includes an atomizing tube and a connecting tube. The connecting pipe comprises a pipe body and an oil blocking pipe. The pipe body is respectively connected with the atomizing pipe and the oil blocking pipe. At least part of the oil blocking pipe is positioned in the atomizing pipe, the outer wall of the oil blocking pipe is connected with the inner wall of the atomizing pipe, and the oil blocking pipe is provided with an air guide hole. The air guide hole is communicated with the inside of the atomizing pipe, the air guide hole is far away from the inner wall of the atomizing pipe to form a blocking part, and the blocking part is used for blocking the probability that condensate is sucked into a suction inlet of a user or the probability that smoke oil flows out of a central air pipe in the smoking process. Through addding the oil pipe to keep away from the inner wall of atomizing pipe with the gas outlet, make the lateral wall of gas outlet and the inner wall dislocation of atomizing pipe, thereby make the bottom protrusion in the inner wall of atomizing pipe that hinders the oil pipe, be convenient for block condensate and the tobacco tar on the inner wall of atomizing pipe and flow to the gas outlet, reduced the tracheal condensate in atomizing center and the outflow probability of tobacco tar. Moreover, the blocking portion serves two purposes: 1. the probability that the condensate generated by the smoke is blocked along the pipe wall along with the smoke flow in the suction port of the user in the smoke extraction process; 2. the oil guide cotton is used for preventing the probability that the tobacco tar is separated from the oil guide cotton during the transportation and flows out along the inner pipe wall.

The central trachea is through the structure that blocks of self, when atomization structure is in handstand or tie and lies, the structure that blocks in the central trachea limits the tobacco tar in the atomization tube, reduced the tobacco tar and passed through the probability that the inner wall of atomization tube spills over, and the atomizing seat with the atomization pipe intercommunication, be provided with in the atomization tube atomizing electricity core, quilt most tobacco tar that central trachea blockked returns again in the atomization tube, quilt again atomizing electricity core heating atomization is in order to form smog.

In one embodiment, the atomizing pipe is provided with a liquid guide hole, the liquid guide hole is used for guiding liquid to be atomized into the atomizing pipe, and the atomizing electric core is used for atomizing and heating the liquid to be atomized. In this embodiment, be provided with in the atomizing pipe atomizing electric core, atomizing electric core is used for treating the atomized liquid and heats the atomizing to the messenger treats the atomized liquid and forms smog. And the drain hole is seted up in the atomizing pipe, tobacco tar in the atomizing pipe passes through the drain hole gets into in the atomizing pipe, for atomizing electric core provides the atomizing liquid of treating, is convenient for atomizing electric core with treat the contact of atomizing liquid, thereby be convenient for atomizing electric core will treat that atomizing liquid heats and atomizes into behind the smog directly pass through the drain hole and the air vent is exported. And, atomizing electric core is embedded in the atomizing pipe, atomizing electric core is the heating mechanism that atomizing cotton and heater strip are constituteed, atomizing electric core is close to the drain hole sets up, and the tobacco tar passes through the drain hole soaks the atomizing cotton of atomizing electric core to the realization is atomized to the heating of tobacco tar. Moreover, the liquid to be atomized includes at least one of condensate and tobacco tar.

The application still provides an electronic atomizer, including above-mentioned arbitrary embodiment the atomizing structure, still include the oil cup, the atomizing structure set up in the oil cup, the oil cup the connecting pipe and be formed with the stock solution storehouse between the atomizing seat, the stock solution storehouse is used for the storage to treat the atomized liquid, the oil cup has outlet channel, outlet channel with the air guide hole intercommunication. In this embodiment, the central air tube includes an atomizing tube and a connecting tube. The connecting pipe comprises a pipe body and an oil blocking pipe. The pipe body is respectively connected with the atomizing pipe and the oil blocking pipe. At least part of the oil blocking pipe is positioned in the atomizing pipe, the outer wall of the oil blocking pipe is connected with the inner wall of the atomizing pipe, and the oil blocking pipe is provided with an air guide hole. The air guide hole is communicated with the inside of the atomizing pipe, the air guide hole is far away from the inner wall of the atomizing pipe to form a blocking part, and the blocking part is used for blocking the probability that condensate is sucked into a suction inlet of a user or the probability that smoke oil flows out of a central air pipe in the smoking process. Through addding the oil pipe to keep away from the inner wall of atomizing pipe with the gas outlet, make the lateral wall of gas outlet and the inner wall dislocation of atomizing pipe, thereby make the bottom protrusion in the inner wall of atomizing pipe that hinders the oil pipe, be convenient for block condensate and the tobacco tar on the inner wall of atomizing pipe and flow to the gas outlet, reduced the tracheal condensate of atomizing center and the outflow probability of tobacco tar, and then reduced the condensate of electronic atomizer and the outflow probability of tobacco tar. Moreover, the blocking portion serves two purposes: 1. the probability that the condensate generated by the smoke is blocked along the pipe wall along with the smoke flow in the suction port of the user in the smoke extraction process; 2. the oil guide cotton is used for preventing the probability that the tobacco tar is separated from the oil guide cotton during the transportation and flows out along the inner pipe wall.

The application also provides an atomizing sealing mechanism. In one embodiment, the atomizing sealing mechanism comprises an oil cup and an atomizing sealing assembly. The atomization sealing assembly is arranged in the oil cup. The atomizing seal assembly includes an atomizing base and a seal. The atomizing base is connected with the inner wall of the oil cup, and an oil storage space is formed between the atomizing base and the oil cup. The oil storage space is used for storing tobacco tar. The atomizing base is provided with a through hole. The through hole is communicated with the oil storage space and is used for injecting tobacco tar. The seal includes a first seal portion, a second seal portion, and a seal seat. The first sealing portion and the second sealing portion are respectively connected with the sealing seat. The first sealing part penetrates through the through hole. The second sealing part is abutted against the inner wall of the oil cup. The through-hole shutoff that is used for injecting into the tobacco tar on the base will atomize to first sealing, has reduced the probability that the tobacco tar in the oil storage space spills over from the through-hole, and the second sealing is located between the inner wall of seal receptacle and oil cup, with the clearance shutoff between seal receptacle and the oil cup, has reduced the probability that the tobacco tar spills over from the clearance between oil cup and the seal receptacle, under the double seal of first sealing and second sealing, make the leak protection oil performance in the oil storage space improve.

The atomizing sealing mechanism of an embodiment comprises an oil cup and an atomizing sealing assembly. The atomization sealing assembly is arranged in the oil cup. The atomizing seal assembly includes an atomizing base and a seal. The atomizing base is connected with the inner wall of the oil cup, and an oil storage space is formed between the atomizing base and the oil cup. The oil storage space is used for storing tobacco tar. The atomizing base is provided with a through hole. The through hole is communicated with the oil storage space and is used for injecting tobacco tar. The seal includes a first seal portion, a second seal portion, and a seal seat. The first sealing portion and the second sealing portion are respectively connected with the sealing seat. The first sealing part penetrates through the through hole. The second sealing part is abutted against the inner wall of the oil cup.

In this embodiment, the through-hole shutoff that is used for injecting into the tobacco tar on the base will atomize to first sealing, has reduced the probability that the tobacco tar in the oil storage space spills over from the through-hole, and the second sealing is located between the inner wall of seal receptacle and oil cup, with the clearance shutoff between seal receptacle and the oil cup, has reduced the probability that the tobacco tar spills over from the clearance between oil cup and the seal receptacle, under the double seal of first sealing and second sealing, make the leak protection oil performance in the oil storage space improve.

In one embodiment, the first sealing portion has a sealing slope, and the sealing slope is obliquely arranged towards the inner wall of the oil cup. In this embodiment, sealed inclined plane with be formed with the contained angle between the atomizing base, moreover, on the radial direction of the outside of oil cup, sealed inclined plane with interval between the atomizing base increases gradually, is keeping away from promptly in the direction of atomizing base, sealed inclined plane with interval between the inner wall of oil cup reduces gradually, makes sealed inclined plane with the atomizing base slope sets up. Like this first sealing installation with when in the through-hole, the sealed inclined plane of first sealing with the lateral wall butt of through-hole, promptly sealed inclined plane with atomizing base butt, promptly the atomizing base is in relative operation takes place on the sealed inclined plane, and under the tilt state on sealed inclined plane, be convenient for first sealing extrusion gets into in the through-hole, improved the sealing member with installation convenience between the atomizing base.

In one embodiment, the first sealing portion includes an extending portion and a blocking portion, the extending portion is connected with the sealing seat, the extending portion is arranged in the through hole in a penetrating mode, the blocking portion is connected with the extending portion, the blocking portion is located in the oil storage space, and the blocking portion is used for being abutted to the atomizing base. In this embodiment, the extending portion serves as a part of the sealing seat, the extending portion is clamped in the through hole, the extending portion abuts against a side wall of the through hole, that is, the side wall of the through hole clamps the extending portion, so that the through hole is blocked by the extending portion, and the probability of the smoke oil overflowing through the through hole is reduced. And the stop part is located in the oil storage space, the stop part passes through the through-hole gets into the oil storage space, the stop part is stretching into completely behind the oil storage space, the stop part with atomizing base butt, the stop part is fixed in the oil storage space, block the extension is followed break away from in the through-hole, ensured the extension set up steadily in the through-hole, improved the sealing member is in installation stability on the atomizing base.

Furthermore, the extension part is provided with a fixing groove, and part of the atomizing base is accommodated in the fixing groove. In this embodiment, after the extension portion is inserted into the through hole, a surface of the extension portion abuts against a sidewall of the through hole, and the atomization base fixes the extension portion in the through hole in a clamping manner. The fixing groove is formed in the extending portion, the opening of the fixing groove faces the side wall of the through hole, the side wall of the through hole corresponds to the fixing groove, the atomizing base is located in the fixing groove, the connecting area between the atomizing base and the first sealing portion is increased, and therefore the connecting stability between the atomizing base and the first sealing portion is further improved.

Further, the first sealing portion further comprises a guiding portion, the guiding portion is located on one side, away from the extending portion, of the blocking portion, the guiding portion is connected with the blocking portion, and the guiding portion is used for being aligned with the through hole. In this embodiment, the guiding portion is used as a protruding portion of the blocking portion, the guiding portion corresponds to the through hole, and when the first sealing portion is inserted into the through hole, the guiding portion is used as a protruding front portion and preferentially aligned with the through hole, so that subsequent blocking portion and the extending portion can sequentially penetrate into the through hole. In another embodiment, the diameter of the guiding portion is smaller than the diameter of the through hole, which further facilitates the guiding portion to be quickly aligned with the through hole, thereby further facilitating the guiding portion to quickly find the through hole, and further facilitating the first sealing portion to be installed in the through hole.

In one of them embodiment, the through-hole includes first through-hole and second through-hole, first through-hole and the second through-hole all with the oil storage space intercommunication, first through-hole be used for to store up the interior tobacco tar of oil space, the second through-hole be used for with the air escape in the oil storage space. In this embodiment, first through-hole and the second through-hole is all seted up in on the atomizing base, first through-hole with the oil storage space intercommunication is convenient for pass through outside tobacco tar the injection of first through-hole the oil storage space has improved the reuse rate of atomizing sealing mechanism, and when tobacco tar in the oil storage space is gradual progressively more, the air in the oil storage space passes through the second through-hole is discharged, makes the residual air in the oil storage space reduces, has reduced the probability of bubble appears in the tobacco tar in the oil storage space, thereby has improved the space utilization in oil storage space.

In one embodiment, the seal holder is provided with a disassembly groove, the opening of the disassembly groove faces away from the atomization base, and the disassembly groove is used for being clamped with disassembly equipment so that the seal holder is far away from the atomization base. In this embodiment, dismantle the recess and set up in on the seal receptacle, dismantle the opening orientation of recess with the installation opposite direction of first sealing, dismantle recess convenient to detach equipment embedding wherein, for dismantling equipment provide one with the hookup location between the sealing member, thereby will first sealing is followed take out in the through-hole, be convenient for the sealing member with the dismantlement between the atomizing base.

In one embodiment, the second sealing portion includes a plurality of sealing ribs, the sealing ribs are uniformly distributed on the sealing seat along a direction parallel to the inner wall of the oil cup, and the sealing ribs are abutted to the inner wall of the oil cup. In this embodiment, sealed sand grip muscle encircle in the surface of seal receptacle, it is a plurality of sealed sand grip muscle all with the oil cup butt, each sealed sand grip muscle is in the oil cup with form a sealed separation zone between the seal receptacle, it is a plurality of sealed sand grip muscle does the seal receptacle provides multistage sealed separation zone, right the oil cup with clearance between the seal receptacle carries out multistage sealed separation, has further reduced atomizing sealing mechanism's oil leak probability, has further improved atomizing sealing mechanism's leak protection oil performance.

The application also provides an electronic atomizer, which comprises the atomization sealing mechanism in any one of the embodiments. In this embodiment, the atomizing sealing mechanism includes an oil cup and an atomizing sealing assembly. The atomization sealing assembly is arranged in the oil cup. The atomizing seal assembly includes an atomizing base and a seal. The atomizing base is connected with the inner wall of the oil cup, and an oil storage space is formed between the atomizing base and the oil cup. The oil storage space is used for storing tobacco tar. The atomizing base is provided with a through hole. The through hole is communicated with the oil storage space and is used for injecting tobacco tar. The seal includes a first seal portion, a second seal portion, and a seal seat. The first sealing portion and the second sealing portion are respectively connected with the sealing seat. The first sealing part penetrates through the through hole. The second sealing part is abutted against the inner wall of the oil cup. The through-hole shutoff that is used for injecting into the tobacco tar on the base will atomize to first sealing, has reduced the probability that the tobacco tar in the oil storage space spills over from the through-hole, and the second sealing is located between the inner wall of seal receptacle and oil cup, with the clearance shutoff between seal receptacle and the oil cup, has reduced the probability that the tobacco tar spills over from the clearance between oil cup and the seal receptacle, under the double seal of first sealing and second sealing, make the leak protection oil performance in the oil storage space improve.

The application also provides an electronic atomization component. In one embodiment, the electronic atomizing assembly includes an atomizing base and an atomizing heating element. The atomizing base is used for being connected with the oil cup. The atomizing heating member is including leading oily cotton and atomizing heater strip. The oil guide cotton is connected with the atomization base and used for absorbing tobacco tar. The atomizing heater strip comprises a heating part and a pin bending part. The heating part with lead the oil cotton and be connected, the heating part is used for right lead the oil cotton to heat. The pin bending part is connected with the heating part. The atomizing base is provided with an air inlet. The pin bending part penetrates through the air inlet, at least part of the pin bending part is bent towards the oil guide cotton, and the pin bending part is used for being connected with the electrode column. The pin bending part of the atomizing heating wire is bent, namely, at least part of the pin bending part is bent towards the oil guide cotton, so that the bending direction of the pin bending part is opposite to the flowing direction of the tobacco tar on the atomizing heating wire, the trend that the tobacco tar moves towards the electrode column is blocked, the probability that the tobacco tar overflows through the electrode column is reduced, and the oil leakage probability of the electronic atomizing assembly is reduced.

The electronic atomizing assembly of an embodiment includes an atomizing base and an atomizing heating member. The atomizing base is used for being connected with the oil cup. The atomizing heating member is including leading oily cotton and atomizing heater strip. The oil guide cotton is connected with the atomization base and used for absorbing tobacco tar. The atomizing heater strip comprises a heating part and a pin bending part. The heating part with lead the oil cotton and be connected, the heating part is used for right lead the oil cotton to heat. The pin bending part is connected with the heating part. The atomizing base is provided with an air inlet. The pin bending part penetrates through the air inlet, at least part of the pin bending part is bent towards the oil guide cotton, and the pin bending part is used for being connected with the electrode column.

In this embodiment, through the pin kink with the atomizing heater strip handle of buckling, the cotton bending of oil is led towards to the at least part orientation of pin kink promptly for the direction of buckling of pin kink is opposite with the flow direction of tobacco tar on the atomizing heater strip, thereby has blockked the trend that the tobacco tar removed towards the electrode column, has reduced the probability that the tobacco tar spills over through the electrode column, has reduced electronic atomization component's oil leak probability.

In one embodiment, the part of the pin bending part, which is far away from the oil guide cotton, is arranged close to the atomizing base. In this embodiment, the pin bending part is the bending state, the pin bending part is regarded as the pin portion of atomizing heater strip, the pin bending part is located lead outside the oil cotton. The tobacco tar on the oil guide cotton is attached to the pin bending parts, the tobacco tar moves along the pin bending parts under the action of the weight of the tobacco tar, when the included angle formed by the extending direction of the pin bending parts and the gravity direction is larger than 90 degrees, namely the extending direction of the pin bending parts deflects by more than 90 degrees, and the tobacco tar on the pin bending parts stops moving. Like this, the part that the pin kink was kept away from lead oily cotton be used for with the electrode column is connected, and the part that the pin kink was kept away from lead oily cotton is close to the atomizing base sets up, makes the pin kink is kept away from lead oily cotton's part has taken place to be greater than deflection to make the tobacco tar stop in the bending point of pin kink, blocked the trend that the tobacco tar passes through atomizing heater strip flow direction the electrode column effectively, reduced the oil leak probability. In another embodiment, the pin bending part has a U-shaped structure, so that the two ends of the pin bending part are parallel, that is, the extending directions of the two ends of the pin bending part are opposite, so that the tobacco tar stays in the middle of the pin bending part, the probability that the tobacco tar flows to the electrode column through one end of the pin bending part, which is far away from the oil guide cotton, is reduced, the trend that the tobacco tar flows to the electrode column through the atomizing heater strip is further effectively prevented, and the oil leakage probability is further reduced.

In one embodiment, the electronic atomization component further comprises an electrode column, the atomization base is provided with a groove, a part of the electrode column and a part of the pin bending part are both located in the groove, and the side wall of the groove and the electrode column jointly clamp the pin bending part. In this embodiment, the electrode column is used for being connected with outside battery pole, promptly the electrode column is used for being connected with outside power supply, the electrode column be used for to the atomizing heater strip power supply, and pin kink is followed lead out in leading the oil cotton, be convenient for the electrode column to heating portion provides the electric energy, in order to heat lead the oil cotton. Wherein, the recess is seted up in the atomizing base deviates from lead the cotton one side of oil, the opening orientation of recess the electrode post install in when in the recess, the part of pin kink also is located simultaneously in the recess, make the electrode post and the pin kink is located jointly in the recess, through the extrusion of electrode post is convenient for incite somebody to action the pin kink is fixed in the recess, thereby be convenient for the electrode post with electric conduction between the atomizing heater strip. In another embodiment, a portion of the pin bending portion located in the groove is in interference fit with the electrode column, that is, the electrode column is in interference connection with the pin bending portion in the groove, that is, the diameter of the electrode column is greater than or equal to the aperture of the groove, so as to improve the connection stability between the pin bending portion and the electrode column.

Furthermore, the electronic atomization assembly further comprises an isolation seat, the isolation seat is used for being connected with the oil cup, an electrode hole is formed in the isolation seat and corresponds to the groove, and the electrode column sequentially penetrates through the electrode hole and the groove. In this embodiment, the isolation seat is used as a support seat for the electrode column, the electrode column is fixed on the isolation seat through the electrode hole, and the isolation seat is connected with the oil cup, so that the electrode column is fixed in the oil cup, the electrode column is conveniently inserted into the groove, and the electrode column is conveniently connected with the atomizing heating wire.

In one embodiment, the electronic atomization assembly further comprises an atomization tube, the atomization tube is connected with the atomization base, the inside of the atomization tube is communicated with the air inlet hole, and the oil guide cotton is contained in the atomization tube. In this embodiment, the atomizing pipe is used for with it accommodates wherein to lead the oil cotton, lead the oil cotton in the heating in the atomizing pipe, the smog of production directly passes through atomizing pipe direction air outlet channel is convenient for derive smog, has avoided smog to stop inside the electronic atomization subassembly.

Further, the atomizing pipe is provided with an oil inlet hole, and the oil inlet hole is used for guiding the tobacco tar in the oil storage cavity to the oil guide cotton. In this embodiment, the inlet port is used for the leading-in of tobacco tar, promptly the tobacco tar in the oil storage intracavity outside the atomizing pipe passes through the inlet port gets into in the atomizing pipe, the tobacco tar of being convenient for the oil storage intracavity contacts lead the oil cotton to be convenient for the tobacco tar will lead the oil cotton infiltration, and then be convenient for heat the tobacco tar in order to form smog.

Furthermore, the atomizing base is provided with an atomizing cavity communicated with the air inlet hole, and the atomizing pipe is clamped in the atomizing cavity. In this embodiment, the atomizing chamber is used for acceping the atomizing pipe and lead the oil cotton, the atomizing chamber does the atomizing pipe provides installation space, promptly the atomizing pipe and lead the common card of oil cotton and locate in the atomizing chamber, make the atomizing pipe stably set up in on the atomizing base, be convenient for with lead the oil cotton stably set up in on the atomizing base. Moreover, the atomizing pipe sets up the atomizing intracavity, lead oily cotton set up in the atomizing pipe, lead oily cotton with the inlet port is corresponding, makes it blocks the tobacco tar entering of oil storage intracavity to lead oily cotton the inlet port, thereby has reduced the oil leak probability of inlet port.

Still further, the side wall of the atomizing chamber has a guide slope inclined toward the atomizing tube. In this embodiment, when the atomizing pipe is installed in the atomizing chamber, the end of the atomizing pipe abuts against the side wall of the atomizing chamber, and the guiding inclined surface is located on the side wall of the atomizing chamber, so that the atomizing pipe slides on the guiding inclined surface. The guiding inclined plane is towards the atomizing pipe slope, be in on the installation direction of atomizing pipe, the guiding inclined plane with the interval between the outer wall of atomizing pipe reduces gradually, is convenient for the atomizing pipe passes through the guiding inclined plane slides to the bottom in atomizing chamber.

The application also provides an electronic atomizer, which comprises the electronic atomization assembly in any one of the embodiments. In this embodiment, the electronic atomizing assembly includes an atomizing base and an atomizing heating member. The atomizing base is used for being connected with the oil cup. The atomizing heating member is including leading oily cotton and atomizing heater strip. The oil guide cotton is connected with the atomization base and used for absorbing tobacco tar. The atomizing heater strip comprises a heating part and a pin bending part. The heating part with lead the oil cotton and be connected, the heating part is used for right lead the oil cotton to heat. The pin bending part is connected with the heating part. The atomizing base is provided with an air inlet. The pin bending part penetrates through the air inlet, at least part of the pin bending part is bent towards the oil guide cotton, and the pin bending part is used for being connected with the electrode column. The pin bending part of the atomizing heating wire is bent, namely, at least part of the pin bending part is bent towards the oil guide cotton, so that the bending direction of the pin bending part is opposite to the flowing direction of the tobacco tar on the atomizing heating wire, the trend that the tobacco tar moves towards the electrode column is blocked, the probability that the tobacco tar overflows through the electrode column is reduced, the oil leakage probability of the electronic atomizing assembly is reduced, and the oil leakage probability of the electronic atomizer is reduced.

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.