阅读说明：本技术 一种雾化器及电子烟 (Atomizer and electronic cigarette ) 是由 陈潮先 黄富荣 于 2021-09-28 设计创作，主要内容包括：本发明涉及一种雾化器及电子烟,包括壳体、雾化组件、底座和导气调气件,壳体内部分隔为储油腔和雾化腔,导气调气件可拆卸的插设于雾化腔,导气调气件与壳体之间设置有进气孔,且导气调气件可相对壳体转动调节进气孔的大小,导气段的管壁两侧分别为进气通道和出气通道,进气孔、进气通道、出气通道与吸嘴段依次连通。进气通道的冷空气和出气通道的高温烟雾会使导气调气件的壁面凝聚较多的冷凝液,可拆卸的导气调气件可避免较多的冷凝液吸食进使用者嘴中,且不会因冷凝液的长时间附着而导致导气调气件脏污；导气调气件可相对壳体转动调节进气孔的大小,从而控制进气的大小；可满足不同使用者对抽吸气密性、抽吸口感以及抽吸烟雾量的不同需求。(The invention relates to an atomizer and an electronic cigarette, which comprise a shell, an atomizing assembly, a base and a gas guiding and regulating piece, wherein the shell is internally divided into an oil storage cavity and an atomizing cavity, the gas guiding and regulating piece is detachably inserted into the atomizing cavity, a gas inlet hole is formed between the gas guiding and regulating piece and the shell, the gas guiding and regulating piece can rotate relative to the shell to regulate the size of the gas inlet hole, the two sides of the pipe wall of a gas guiding section are respectively provided with a gas inlet channel and a gas outlet channel, and the gas inlet hole, the gas inlet channel and the gas outlet channel are sequentially communicated with a suction nozzle section. The cold air of the air inlet channel and the high-temperature smoke of the air outlet channel can condense more condensate on the wall surface of the air guide and adjustment piece, the detachable air guide and adjustment piece can prevent more condensate from being sucked into the mouth of a user, and the air guide and adjustment piece cannot be polluted due to long-time adhesion of the condensate; the air guide adjusting piece can rotate relative to the shell to adjust the size of the air inlet hole so as to control the size of the air inlet; can meet different requirements of different users on the suction air tightness, the suction taste and the suction fog amount.)

1. An atomizer comprises a shell, an atomizing assembly and a base, wherein the shell comprises a first end and a second end, the inner part of the shell is divided into an oil storage cavity and an atomizing cavity, the atomizing assembly is arranged in the atomizing cavity, the base is arranged at the second end of the shell, and the atomizer is characterized by further comprising a tubular air guide and adjustment piece, the air guide and adjustment piece is detachably inserted in the atomizing cavity and comprises an air guide section close to the atomizing assembly and a suction nozzle section far away from the atomizing assembly, the air guide section is inserted in the atomizing cavity through the first end of the shell, and the suction nozzle section extends out of the shell; an air inlet is arranged between the air guide and adjustment piece and the shell, the air guide and adjustment piece can rotate relative to the shell to adjust the size of the air inlet, an air inlet channel and an air outlet channel are respectively arranged on two sides of the pipe wall of the air guide section, and the air inlet, the air inlet channel and the air outlet channel are sequentially communicated with the suction nozzle section.

2. The nebulizer of claim 1, wherein the housing comprises a casing and a gas-liquid separator, the gas-liquid separator comprises a first sealing portion, a second sealing portion, and a gas-liquid separation tube, the first sealing portion and the second sealing portion are connected at two ends of the gas-liquid separation tube, the first sealing portion is located at the first end of the housing, and the second sealing portion is located at the second end of the housing; the gas guiding and adjusting piece is inserted into the gas-liquid separation pipe, a gas inlet hole is formed between the gas guiding and adjusting piece and the gas-liquid separation piece, the gas guiding and adjusting piece can rotate relative to the gas-liquid separation piece to adjust the size of the gas inlet hole, a gap between the outer wall of the gas guiding and adjusting piece and the inner wall of the gas-liquid separation pipe forms the gas inlet channel, and a gas outlet channel is arranged in the hollow part of the gas guiding and adjusting piece.

3. The atomizer of claim 2, wherein the gas-liquid separating member is provided with a first mounting location, a second mounting location, and an oil guiding hole, the atomizing assembly is disposed at the first mounting location, the base is disposed at the second mounting location, the base abuts against the atomizing assembly and is fixed at the first mounting location, the oil guiding hole is opened in the gas-liquid separating tube, and the atomizing assembly is communicated with the oil storage chamber through the oil guiding hole to guide oil.

4. The atomizer according to claim 3, wherein the inner wall of the first end of the gas-liquid separation tube is provided with a mounting groove and a positioning groove, the outer wall of the gas guiding regulator is provided with a positioning protrusion, the mounting groove is axially arranged along the gas-liquid separation tube, the positioning groove is radially arranged along the gas-liquid separation tube, and the positioning protrusion is matched with the mounting groove and moves radially after moving axially to the positioning groove, so that the positioning protrusion is matched with the positioning groove for positioning; or

The gas guide transfers an outer wall to be provided with mounting groove and constant head tank, the first end inner wall of gas-liquid separation pipe is provided with the location arch, the mounting groove is followed gas-liquid separation pipe axial sets up, the constant head tank is followed gas-liquid separation pipe radially sets up, the location protruding with mounting groove adaptation and axial motion extremely radial motion behind the constant head tank makes the location protruding with the constant head tank adaptation location.

5. The atomizer according to claim 4, wherein the gas-liquid separating member and the base are both metal members, the base is fixedly provided with an electrode column, the atomizing assembly and the base are positioned by abutting against the electrode column, the gas-liquid separating member is connected with the base and then serves as an electrode, and the electrode column is the other electrode; the electrode column is sleeved with an insulating piece, and the insulating piece isolates the electrode column from the metal base.

6. The atomizer of claim 5, wherein said atomizing assembly comprises an oil guiding plate, an oil guiding cotton and a heating element, said oil guiding plate, said oil guiding cotton and said heating element are stacked in sequence, and said heating element is electrically connected to said electrode column, said electrode column abuts against said oil guiding plate, and said heating element contacts with said gas-liquid separator.

7. The nebulizer of claim 6, wherein the housing, base, gas-conducting regulating member, and atomizing element are removably disposed with respect to the gas-liquid separating member.

8. The atomizer of claim 7, wherein said first seal portion is provided with an oil filler hole and an oil filler plug fitted to said oil filler hole, said oil filler hole communicating with said oil reservoir chamber.

9. The nebulizer of claim 8, further comprising a first seal disposed between the first sealing portion and the housing, a second seal disposed between the second mounting location and the base, and a third seal disposed between the second sealing portion and the housing.

10. An electronic cigarette, characterized by comprising a battery host and the atomizer of any one of claims 1-9, wherein the atomizer is adapted to the battery host.

Technical Field

The invention relates to the technical field of cigarette substitutes, in particular to an atomizer and an electronic cigarette.

Background

The electronic cigarette is an electronic product simulating a cigarette, has similar smoke, taste and feeling as a cigarette, and is rapidly popularized and used due to the cool and dazzling appearance, various selectable tastes and the convenience of smoking.

The existing electronic cigarette mainly comprises an atomizer and a battery host, wherein the atomizer is a smoke generating device of the electronic cigarette, the battery host is a control device of the electronic cigarette, and the atomizer is inserted into the battery host and then can be smoked after being electrified. Specifically, the atomizer includes atomization component, oil storage storehouse and air current channel, and air current channel runs through atomization component, and atomization component and oil storage storehouse intercommunication, when annotating the tobacco tar in the oil storage storehouse, the tobacco tar can be derived to atomization component, can make atomization component circular telegram generate heat atomizing tobacco tar at the suction nozzle department suction of atomizer, and the smog of formation supplies the user to inhale through air current channel flow to suction nozzle department.

Because of the in-process of atomizer heating atomizing tobacco tar formation confession user smoking's smog, high temperature smog can form the condensate with microthermal atomizer inner wall contact, and has a small amount of tobacco tar to separate out and mix with the condensate along with atomization component, can have the condensate that the water and oil mixes usually in making the atomizer, and this condensate either can spill through the atomizer base, or can be when smoking by inhaling in the mouth, experience feels relatively poor. For the atomizer with upper air inlet, condensate is gathered in the atomizing cavity and the air passage, on one hand, the condensate is easy to be sucked into the inlet nozzle, on the other hand, the air passage is dirty due to the gathering of the condensate, and the atomizer is unsanitary in use. If the atomizer is replaced as a whole when the atomizer is not used for a long time, the use cost is greatly increased.

Disclosure of Invention

Based on this, it is good to need to provide a clean health, the sense of experience of inhaling, can change air flue suction nozzle alone, low in use cost's atomizer and electron cigarette.

An atomizer comprises a shell, an atomizing assembly and a base, wherein the shell comprises a first end and a second end, the inner part of the shell is divided into an oil storage cavity and an atomizing cavity, the atomizing assembly is arranged in the atomizing cavity, the base is arranged at the second end of the shell, the atomizer further comprises a tubular air guide and adjustment piece, the air guide and adjustment piece is detachably inserted in the atomizing cavity and comprises an air guide section close to the atomizing assembly and a suction nozzle section far away from the atomizing assembly, the air guide section is inserted in the atomizing cavity through the first end of the shell, and the suction nozzle section extends out of the shell; an air inlet is arranged between the air guide and adjustment piece and the shell, the air guide and adjustment piece can rotate relative to the shell to adjust the size of the air inlet, an air inlet channel and an air outlet channel are respectively arranged on two sides of the pipe wall of the air guide section, and the air inlet, the air inlet channel and the air outlet channel are sequentially communicated with the suction nozzle section.

In one embodiment, the shell comprises an outer shell and a gas-liquid separation piece, the gas-liquid separation piece comprises a first sealing part, a second sealing part and a gas-liquid separation pipe, the two ends of the gas-liquid separation pipe are connected with the first sealing part and the second sealing part, the first sealing part is positioned at the first end of the shell, and the second sealing part is positioned at the second end of the shell; the gas guiding and adjusting piece is inserted into the gas-liquid separation pipe, a gas inlet hole is formed between the gas guiding and adjusting piece and the gas-liquid separation piece, the gas guiding and adjusting piece can rotate relative to the gas-liquid separation piece to adjust the size of the gas inlet hole, a gap between the outer wall of the gas guiding and adjusting piece and the inner wall of the gas-liquid separation pipe forms the gas inlet channel, and a gas outlet channel is arranged in the hollow part of the gas guiding and adjusting piece.

In one embodiment, the gas-liquid separation member is provided with a first mounting position, a second mounting position and an oil guide hole, the atomizing assembly is arranged at the first mounting position, the base is arranged at the second mounting position, the base abuts against the atomizing assembly and is fixed at the first mounting position, the oil guide hole is formed in the gas-liquid separation pipe, and the atomizing assembly is communicated with the oil storage cavity through the oil guide hole to guide oil.

In one embodiment, the inner wall of the first end of the gas-liquid separation pipe is provided with a mounting groove and a positioning groove, the outer wall of the gas guide regulating piece is provided with a positioning bulge, the mounting groove is axially arranged along the gas-liquid separation pipe, the positioning groove is radially arranged along the gas-liquid separation pipe, and the positioning bulge is matched with the mounting groove and moves radially after moving axially to the positioning groove, so that the positioning bulge is matched with and positioned in the positioning groove; or

The gas guide transfers an outer wall to be provided with mounting groove and constant head tank, the first end inner wall of gas-liquid separation pipe is provided with the location arch, the mounting groove is followed gas-liquid separation pipe axial sets up, the constant head tank is followed gas-liquid separation pipe radially sets up, the location protruding with mounting groove adaptation and axial motion extremely radial motion behind the constant head tank makes the location protruding with the constant head tank adaptation location.

In one embodiment, the gas-liquid separation part and the base are both metal parts, the base is fixedly provided with an electrode column, the atomization assembly and the base are abutted and positioned through the electrode column, the gas-liquid separation part is connected with the base and then serves as an electrode, and the electrode column is the other electrode; the electrode column is sleeved with an insulating piece, and the insulating piece isolates the electrode column from the metal base.

In one embodiment, the atomizing component comprises an oil guide sheet, oil guide cotton and a heating element, wherein the oil guide sheet, the oil guide cotton and the heating element are sequentially stacked, the heating element is electrically connected with the electrode column, the electrode column abuts against the oil guide sheet, and the heating element is in contact with the gas-liquid separation part.

In one embodiment, the shell, the base, the gas guiding and regulating part and the atomizing assembly are detachably arranged with the gas-liquid separating part.

In one embodiment, the first sealing portion is provided with an oil filler hole and an oil filler plug fitted to the oil filler hole, and the oil filler hole communicates with the oil reservoir chamber.

In one embodiment, the base further comprises a first seal disposed between the first seal portion and the housing, a second seal disposed between the second mounting location and the base, and a third seal disposed between the second seal portion and the housing.

The utility model provides an electronic cigarette, includes battery host computer and foretell atomizer, the atomizer with battery host computer adaptation.

Above-mentioned atomizer and electron cigarette includes following advantage at least:

this atomizer sets up the air guide piece of transferring gas that casing was dismantled relatively, and the atomizer is last inlet structure, transfer gas's both sides respectively and be inlet channel and outlet channel in the air guide, cold air gets into from inlet channel promptly, the high temperature smog that atomizing subassembly atomizing tobacco tar formed is discharged from outlet channel after mixing with the air, after long-time the use, the wall of air guide piece of transferring gas can condense more condensate, and detachable leads to transfer gas piece can in time dismantle the change as required, can avoid more condensate to suck in the person's mouth of entering, and can not lead to air guide piece of transferring gas dirty because of the long-time adhesion of condensate, can change alone and lead to transfer gas piece, use cost is low, and clean and sanitary, it is good to inhale to eat and experience.

Moreover, an air inlet is arranged between the air guiding and adjusting piece and the shell, and the air guiding and adjusting piece can rotate relative to the shell to adjust the size of the air inlet so as to control the size of the air inlet; according to different requirements of different users on the suction air tightness, different requirements on the suction taste and different requirements on the smoke suction amount, the air inlet size is controlled by rotating and adjusting the size of the air inlet hole, so that the requirements of different users can be met.

Drawings

FIG. 1 is a schematic view of the structure of an atomizer according to the present invention;

FIG. 2 is a cross-sectional view of an atomizer according to the present invention;

FIG. 3 is an exploded view of the atomizer of the present invention;

FIG. 4 is an exploded view of the atomizing assembly of the atomizer of the present invention;

figure 5 is a schematic view of the electronic cigarette of the present invention;

figure 6 is a cross-sectional view of an electronic cigarette of the present invention;

fig. 7 is an exploded view of the electronic cigarette of the present invention.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, but rather should be construed as broadly as the present invention is capable of modification in various respects, all without departing from the spirit and scope of the present invention.

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.

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 in the description of the invention herein 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.

Fig. 1 is a schematic structural diagram of an atomizer 10 according to an embodiment.

Specifically, referring to fig. 2 and 3, the atomizer 10 is an aerosol generating device of an electronic cigarette, the atomizer 10 includes a housing 11, an atomizing component 12, and a base 13, the housing 11 includes a first end 111 and a second end 112, the interior of the housing 11 is divided into an oil storage cavity 113 and an atomizing cavity 114, the atomizing component 12 is disposed in the atomizing cavity 114, and the base 13 is disposed at the second end 112 of the housing 11. The atomizer 10 further includes a tubular air guiding and adjusting member 14, the air guiding and adjusting member 14 is detachably inserted into the atomizing chamber 114, the air guiding and adjusting member 14 includes an air guiding section 142 adjacent to the atomizing assembly 12 and a suction nozzle section 144 far away from the atomizing assembly 12, the air guiding section 142 is inserted into the atomizing chamber 114 through the first end 111 of the housing 11, and the suction nozzle section 144 extends out of the housing 11. This atomizer 10 sets up the air guide of dismantling relative casing 11 and transfers gas spare 14, and detachable air guide transfer gas spare 14 can in time be dismantled as required and change, can avoid more condensate to suck in the user's mouth, and can not lead to air guide transfer gas spare 14 dirty because of the long-time adhesion of condensate, can change air guide transfer gas spare 14 alone, use cost is low, and clean health, it is good to inhale to eat and experience.

Referring to fig. 1, an air inlet hole 15 is disposed between the air guiding and adjusting member 14 and the housing 11, and the air guiding and adjusting member 14 can rotate relative to the housing 11 to adjust the size of the air inlet hole 15, so as to control the size of the inlet air; according to different requirements of different users on the suction air tightness, different requirements on the suction taste and different requirements on the smoking amount, the air inlet hole 15 is rotationally adjusted to control the air inlet size so as to meet the requirements of different users.

More specifically, referring to fig. 2, the air inlet channel 1142 and the air outlet channel 1144 are respectively disposed on two sides of the wall of the air guiding section 142, and the air inlet hole 15, the air inlet channel 1142, the air outlet channel 1144 are sequentially communicated with the suction nozzle section 144. That is, the air inlet channel 1142 and the air outlet channel 1144 of the atomizer 10 are both located in the atomizing cavity 114 and are arranged in a U shape, and the mist atomized by the atomizing component 12 and the air of the air inlet channel 1142 are taken out to the suction nozzle at the bottom of the U shape for the user to suck, the air circulation in the air inlet channel 1142 outside the air guide section 142 can reduce the temperature of the air guide section 142 quickly, thereby avoiding the situation that the nozzle is hot and the temperature of the whole atomizer 10 is high. Moreover, the upper air inlet structure can prevent condensate from leaking to the battery host of the electronic cigarette through the base 13 to cause corrosion of the battery and electronic components; and atomizing component 12 cuts off the intercommunication in oil storage chamber 113 and atomizing chamber 114, and the condensation that produces can be atomized once more through atomizing component 12, reduces the condensate of suction into user's oral cavity, promotes suction taste and user experience and feels.

Referring to fig. 3, in the present embodiment, the housing 11 includes an outer shell 116 and a gas-liquid separator 118, that is, the outer shell 116 and the gas-liquid separator 118 are separately disposed; gas-liquid separator 118 includes first sealing 1181, second sealing 1182 and gas-liquid separation pipe 1183, and first sealing 1181 and second sealing 1182 are connected at the both ends of gas-liquid separation pipe 1183, and first sealing 1181 is located casing 11 first end 111, and second sealing 1182 is located casing 11 second end 112. When the atomizer 10 is used specifically, the shell 116 and the gas-liquid separating piece 118 can be detached, and when more dirty dirt exists in the oil storage cavity 113 or the atomizing cavity 114, the dirty dirt can be respectively cleaned after being detached, so that the cleanness and the sanitation of the atomizer 10 can be kept, and the use cost can be reduced after the atomizer is continuously used; or when one of the shell 116 and the gas-liquid separator 118 is damaged, one of the shell and the gas-liquid separator can be replaced independently to ensure that the intact part can be used continuously, which is beneficial to reducing the use cost.

The air guiding and adjusting piece 14 is inserted into the gas-liquid separation pipe 1183, an air inlet hole 15 is formed between the air guiding and adjusting piece 14 and the gas-liquid separation piece 118, and the air guiding and adjusting piece 14 can rotate relative to the gas-liquid separation piece 118 to adjust the size of the air inlet hole 15 so as to control the size of the inlet air; so as to meet different requirements of different users on the air tightness, the mouth feeling and the mist quantity of smoking. The gap between the outer wall of the gas guiding and regulating member 14 and the inner wall of the gas-liquid separating tube 1183 forms an air inlet channel 1142, and the hollow interior of the gas guiding and regulating member 14 is an air outlet channel 1144. The air entering the air inlet channel 1142 of the air guiding and adjusting member 14 can reduce the temperature of the air guiding and adjusting member 14, even reduce the temperature of the atomizer 10, and avoid the situation that the temperature of the nozzle is hot or the temperature of the atomizer 10 is high; moreover, since the gap is formed between the air guide and adjustment member 14 and the gas-liquid separation pipe 1183 to form the air inlet channel 1142, the air guide and adjustment member 14 can be easily inserted and removed, and the use is convenient.

Preferably, the first sealing portion 1181 and the second sealing portion 1182 may be a top cover and a bottom cover, respectively, that is, the axial section of the gas-liquid separator 118 may be designed in an "i" shape.

The housing 116 may be a PC housing, a PCTG housing, or a toughened glass housing, and when the housing 116 is a toughened glass housing, if the electronic cigarette falls from a high place, although the housing 116 is not broken by a normal fall, the specific angle and height are not excluded from being broken, at this time, a new housing 116 may be replaced in case the housing 116 of the atomizer 10 is broken, and the atomizer 10 may be used, so that other parts of the atomizer 10 may be used continuously, and the use cost of a user may be reduced.

Referring to fig. 2, in the embodiment, the gas-liquid separating member 118 is provided with a first mounting position 1184, a second mounting position 1186 and an oil guiding hole 1188, the atomizing assembly 12 is disposed at the first mounting position 1184, the base 13 is disposed at the second mounting position 1186, the base 13 is abutted against the atomizing assembly 12 and fixed at the first mounting position 1184, the oil guiding hole 1188 is opened in the gas-liquid separating pipe 1183, and the atomizing assembly 12 is communicated with the oil storage cavity 113 through the oil guiding hole 1188 to guide oil. Namely, the atomizing assembly 12 and the base 13 are both detachable from the gas-liquid separating member 118, so that the base 13 can be detached after the atomizer 10 is used for a long time or burnt, and the atomizing assembly 12 can be replaced by a new atomizing assembly 12 after the atomizing assembly 12 is detached; the base 13 can also be replaced after the components installed in the base 13 are damaged; other parts of the atomizer 10 can be continuously used, and the use cost of a user can be reduced. The atomization component 12 is abutted against the first installation position 1184 through the base 13, so that the atomization component 12 is very convenient to disassemble and replace on the one hand, and on the other hand, the atomization component 12 is positioned without other operations such as welding and the like, so that the process steps can be simplified, and the production efficiency is improved.

Referring to fig. 3, the inner wall of the first end 111 of the gas-liquid separation tube 1183 is provided with a mounting groove 11832 and a positioning groove, the outer wall of the air guiding and adjusting member 14 is provided with a positioning protrusion 1422, the mounting groove 11832 is axially arranged along the gas-liquid separation tube 1183, the positioning groove is radially arranged along the gas-liquid separation tube 1183, that is, the mounting groove 11832 and the positioning groove are arranged in an "L" shape, and the positioning protrusion 1422 is adapted to the mounting groove 11832 and moves radially after moving axially to the positioning groove, so that the positioning protrusion 1422 is adapted to the positioning groove. Or air guide and regulation air piece 14 outer wall is provided with mounting groove and constant head tank, and gas-liquid separation pipe 1183 first end 111 inner wall is provided with the location arch, and the mounting groove sets up along gas-liquid separation pipe 1183 axial, and the constant head tank radially sets up along gas-liquid separation pipe 1183, and mounting groove and constant head tank be "L" type setting promptly, and the location arch is radial motion behind the constant head tank with mounting groove adaptation and axial motion, makes location arch and constant head tank adaptation location.

Of course, when the air guide adjusting member 14 is axially inserted into the atomizer 10 and then rotated in the radial direction, the size of the air inlet hole 15 can be controlled according to the angle of rotation, thereby controlling the size of the air inlet.

The mounting groove 11832 may axially extend from the first end 111 of the gas-liquid separation pipe 1183 to the bottom of the atomization cavity 114, that is, the mounting groove 11832 may axially extend from the first end 111 of the gas-liquid separation pipe 1183 to the vicinity of the atomization assembly 12; or the installation groove 11832 may be axially formed in the outer wall of the entire air guide section 142, the atomizer 10 uses the installation groove 11832 as the air inlet channel 1142, and a gap may not be specially left between the gas-liquid separation tube 1183 and the air guide air adjusting member 14 for air inlet. The positioning groove may also be a positioning shoulder adapted to the positioning protrusion 1422 disposed on the inner wall of the gas-liquid separation tube 1183 or the outer wall of the gas guide regulating member 14.

In this embodiment, the gas-liquid separating element 118 and the base 13 are both metal members, the base 13 is fixedly provided with an electrode column 132, the atomizing assembly 12 and the base 13 are abutted and positioned by the electrode column 132, the gas-liquid separating element 118 is connected with the base 13 and then serves as an electrode, and the electrode column 132 serves as another electrode; the structure can be optimized, and an electrode mounting position is not required to be additionally arranged on the base 13; on the other hand, the visual and tactile feel of the atomizer 10 can be improved. A flange is arranged at one end of the electrode column 132, the electrode column 132 is inserted and fixed to the base 13, the flange is located between the base 13 and the atomizing assembly 12, and the end of the electrode column 132 where the flange is located butts against the atomizing assembly 12 at the first installation position 1184; the flange can be used to limit the axial position of the electrode column 132 in the atomizer 10, so as to avoid an excessively large distance between the electrode column 132 and the atomizing assembly 12, which may result in unstable interference positioning of the electrode column 132 on the atomizing assembly 12 and poor contact between the electrode column 132 and the atomizing assembly 12.

The electrode column 132 is sleeved with an insulating piece 134, and the insulating piece 134 isolates the contact between the electrode column 132 and the metal base 13; because the metal base 13 is connected with the gas-liquid separation member 118 and then integrally serves as an electrode, the insulating member 134 is arranged between the metal base and the electrode column 132, so that circuit failure caused by connection between the two electrodes can be avoided.

Referring to fig. 4, in the present embodiment, the atomizing assembly 12 includes an oil guiding plate 122, an oil guiding cotton 124, and a heating element 126, the oil guiding plate 122, the oil guiding cotton 124, and the heating element 126 are sequentially stacked, that is, the oil guiding plate 122 directly contacts the oil storage cavity 113, and the heating element 126 is covered on the oil guiding cotton 124 and directly contacts the atomizing cavity 114. Oil guide sheet 122, oil guide cotton 124 and heating element 126 all are the slice, and oil guide sheet 122 is provided with first through-hole, and the tobacco tar in oil storage chamber 113 can flow to oil guide cotton 124 from first through-hole, and oil guide cotton 124 tile in oil guide sheet 122, can make oil guide cotton 124 lead oily even, and the heating element 126 tile on oil guide cotton 124 also can be with the tobacco tar atomizing even, promotes and inhales the taste. And the stacking structure has small volume, thin thickness, small occupied space and low cost. The electrode column 132 is abutted against the oil guide sheet 122, through holes are arranged in the middle of the oil guide sheet 122 and the middle of the oil guide cotton 124, and the middle of the electrode column 132 penetrates through the through holes to be electrically connected with the heating element 126; the edge of the heater element 126 contacts the first mounting position 1184 formed by the shoulder in the gas-liquid separating member 118, that is, the heater element 126 contacts the gas-liquid separating member 118.

The oil guiding sheet 122 is a metal member, the middle of the oil guiding sheet 122 protrudes toward the suction nozzle, and the protrusion passes through the through hole of the oil guiding cotton 124 and contacts with the heating element 126. That is, the oil guide cotton 124 can be sleeved on the protrusion through the through hole in the middle of the oil guide cotton, which is beneficial to positioning the oil guide cotton 124, and avoids uneven contact between the oil guide cotton 124 and the heating element 126 due to movement of the oil guide cotton, which causes easy damage of partial dry burning of the heating element 126 and influences the taste of the food; and the oil guide cotton 124 is easier to install after being positioned.

Preferably, referring to fig. 4, the oil guide wool 124 is provided with a bent portion, the bent portion is formed by bending the edge of the oil guide wool 124 toward the base 13, and the bent portion isolates the contact between the gas-liquid separator 118 and the oil guide sheet 122. Because of leading oil piece 122 to be the metalwork, the kink of leading oil cotton 124 can be easily operated when installation or change on the one hand, thereby can not cause and lead the oil cotton 124 fold and influence the atomizing evenly, and on the other hand, can avoid the electrode contact that metal oil piece 122 and metal gas-liquid separation spare 118 formed to cause the circuit trouble.

In this embodiment, the heating element 126 is in a spiral shape, an S-shaped bent shape, a radial shape, a parallel spiral shape or a sheet shape with a plurality of through holes, on one hand, the heating element 126 needs to be provided with a gap or a hole in advance to facilitate the circulation of the atomized smoke, and on the other hand, the heating element 126 can be in contact with the tobacco tar in a large area under the condition of meeting the requirement of the circulation of the smoke, which is beneficial to generating a large amount of smoke and improving the smoking taste.

The shell 116, the base 13, the air guide regulating part 14 and the atomization assembly 12 are all detachably arranged with the gas-liquid separation part 118. The shell 116 is detachable from the gas-liquid separating member 118, so that on one hand, one of the shell 116 and the gas-liquid separating member 118 can be replaced conveniently, and on the other hand, dirt in the oil storage cavity 113 can be cleaned conveniently; the base 13 and the gas-liquid separation piece 118 can be detached, and the base 13 can be replaced when the base 13 is damaged because the base 13 is provided with an electronic piece matched with a battery host; the atomization assembly 12 is detachable from the gas-liquid separation piece 118, and a new atomization assembly 12 can be replaced when the atomization assembly 12 is damaged; the air guide adjusting piece 14 and the gas-liquid separating piece 118 can be detached and can be replaced when the air guide adjusting piece 14 is dirty or the taste is influenced, and the air guide adjusting piece is clean and sanitary. All parts of the atomizer 10 can be detached, so that the atomizer can be replaced and cleaned conveniently, the use cost is reduced, and the production material is saved.

Referring to fig. 3, the first sealing portion 1181 is provided with a filler hole 11812 and a filler plug 11814 fitted to the filler hole 11812, and the filler hole 11812 communicates with the oil storage chamber 113. After the tobacco tar in the oil storage cavity 113 is used up, the tobacco tar can be automatically added through the oil filling hole 11812, so that the atomizer 10 can be reused, the resource waste is avoided, and the use cost can be saved.

Referring to fig. 2, the atomizer 10 further includes a first sealing member 16, a second sealing member 17 and a third sealing member 18, the first sealing member 16 is disposed between the first sealing portion 1181 and the housing 116 to seal a gap between the first sealing portion 1181 and the housing 116, so as to prevent the smoke in the oil storage cavity 113 from leaking out of the gap; the second sealing member 17 is disposed between the second mounting position 1186 and the base 13 to seal a direct gap between the second mounting position 1186 and the base 13, so as to prevent the smoke in the oil storage cavity 113 from leaking out of the gap; the third sealing member 18 is disposed between the second sealing portion 1182 and the housing 116 to seal a gap between the second sealing portion 1182 and the housing 116, so as to prevent the smoke in the oil storage cavity 113 from leaking out of the gap.

Referring to fig. 5, the present application further provides an electronic cigarette, which includes an atomizer 10 and a battery host 20, wherein the atomizer 10 is adapted to the battery host 20. The host is provided with a first magnetic element, the atomizer 10 is provided with a second magnetic element, and the host and the atomizer 10 are connected through the first magnetic element and the second magnetic element. The specific structure of the atomizer 10 refers to the above embodiments, and since the electronic cigarette adopts all technical solutions of all the above embodiments, at least all beneficial effects brought by the technical solutions of the above embodiments are achieved, and no further description is given here.

Of course, the atomizer 10 and the battery main unit 20 may be connected by a plug-in connection through a lock catch or the like.

Please refer to fig. 6 and 7 for a more specific structure of the electronic cigarette. The battery host 20 is a control center of the electronic cigarette and comprises a host shell, a battery and a control mainboard, wherein the battery and the control mainboard are electrically connected and are arranged in the host shell, the control mainboard can be provided with a mechanical switch or a pneumatic switch, and the mechanical switch or the pneumatic switch controls the on-off of the battery host 20 and the atomizer 10. When the electronic cigarette is needed to be used, the mechanical switch is pressed or the pneumatic switch is started by directly sucking air, so that the heating element is electrified to heat the tobacco tar on the oil guide element, and the smoke is generated to be sucked by a user.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

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.