CN210841578U - Electronic cigarette and atomizer thereof - Google Patents

Abstract

The utility model provides an electron cigarette and atomizer thereof. The atomizer includes: the oil storage assembly comprises an oil bin and a connecting seat arranged at the bottom of the oil bin, the oil bin is provided with a smoking channel, and the connecting seat is provided with an air inlet channel; the atomization assembly is arranged on the connecting seat and is positioned in the oil bin, and the atomization assembly is positioned at the communication part of the air inlet channel and the smoking channel; the smoking channel is provided with a plurality of mutually independent mist outlet holes, one end of each mist outlet hole is communicated with the atomizing component, and the other end of each mist outlet hole is used for outputting smoke. A plurality of independent play fog holes can increase the surface area of smog output to make not fully atomizing tobacco tar can condense at the inner wall in fog hole, realize the reliable filtration of tobacco tar liquid drop, taste when guaranteeing to smoke the electron cigarette, simultaneously, atomizing component's eccentric settings makes the simple structure of atomizer, easily realizes reduction in production cost.

Description

Electronic cigarette and atomizer thereof

Technical Field

The utility model relates to a simulation cigarette field especially relates to an electron cigarette and atomizer thereof.

Background

The electronic cigarette generally heats and atomizes tobacco tar through a cartridge atomizer to generate smoke for smokers to use, and the tobacco tar of the electronic cigarette does not contain the tobacco tar in the tobacco, and the tobacco tar has great harm to human bodies. With the rising interest in health, people are aware of the harm of tobacco to human bodies, and therefore electronic cigarettes are gradually used instead of cigarettes.

The electronic cigarette usually stores the tobacco tar in a cartridge with an atomizing component, and air enters the atomizing component from an air inlet at the bottom of the cartridge, is mixed with the aerosol generated by heating the tobacco tar, passes through an air passage of an oil bin, and is sucked out of a suction nozzle by a user. Besides the circulation of the aerosol, the oil bin air passage has another filtering function. When the tobacco tar heating is not sufficient, can carry some tobacco tar liquid drops in the smog, these tobacco tar liquid drops can condense and adhere on the air flue inner wall when passing through the oil bin air flue along with smog together to prevent that the tobacco tar liquid drop from getting into in the user's mouth, influence the suction and experience.

Current atomizer is provided with the whirl air flue, and the smog air current that forms through atomizing can produce the extrusion between air current and the inner wall when the whirl air flue because of the effect of centrifugal force for the tobacco tar liquid drop because of atomizing insufficient production can be adsorbed on the air flue inner wall in the air current, plays the filter effect, prevents in the tobacco tar liquid drop suction user mouth. Although the effect of filtering the liquid drops of the tobacco tar can be realized by arranging the rotational flow air passage, the production cost of the smoke cartridge of the electronic cigarette is high due to the complex design of the rotational flow air passage, and the process is complex to realize.

SUMMERY OF THE UTILITY MODEL

Based on this, it is necessary to provide an electronic cigarette and an atomizer thereof, which can realize the filtration of the liquid droplets of the tobacco tar and are easy to realize, in order to solve the problems of high production cost and complex process caused by the filtration of the liquid droplets of the tobacco tar at present.

The above purpose is realized by the following technical scheme:

an atomizer, comprising:

the oil storage assembly comprises an oil bin and a connecting seat arranged at the bottom of the oil bin, the oil bin is provided with a smoking channel, and the connecting seat is provided with an air inlet channel; and

the atomization assembly is arranged on the connecting seat and is positioned in the oil bin, and the atomization assembly is positioned at the communication position of the air inlet channel and the smoking channel;

the smoking channel is provided with a plurality of mutually independent mist outlet holes, one end of each mist outlet hole is communicated with the atomizing component, and the other end of each mist outlet hole is used for outputting smoke.

In one embodiment, the atomization component comprises a heating element and oil guide cotton, the oil guide cotton is used for guiding tobacco tar to the heating element, and the heating element is located between the air inlet channel and the smoking channel and used for atomizing the tobacco tar.

In one embodiment, the atomizing assembly further comprises a protective cover, the protective cover covers the heating element and the oil guide cotton, the protective cover is provided with an air inlet and a mist outlet, the air inlet is communicated with the air inlet channel, and the mist outlet is communicated with each mist outlet hole.

In one embodiment, the protective cover comprises an upper cover and a bottom cover, the bottom cover is mounted on the connecting seat, the upper cover is arranged on the bottom cover, and the upper cover and the bottom cover enclose an atomization cavity for mounting the heating element and the oil guide cotton.

In one embodiment, the bottom cover and the connecting seat are of an integral structure.

In one embodiment, the upper cover is mounted on the bottom cover in a clamping manner, a magnetic attraction manner, a screwing manner or an interference manner.

In one embodiment, the oil storage component comprises a baffle plate, and the baffle plate is arranged in the smoking channel to divide the smoking channel into a plurality of fog outlet holes.

In one embodiment, the baffle extends to the upper part of the heat generating component along the vertical direction.

In one embodiment, the air inlet channel is provided with a plurality of independent air inlet holes, and each air inlet hole corresponds to one mist outlet hole through the atomizing assembly.

In one embodiment, the oil storage assembly further comprises a partition plate, and the partition plate is arranged on the air inlet channel, so that the air inlet channel forms a plurality of air inlet holes.

In one embodiment, the atomizer further comprises a suction nozzle, which is mounted on the oil storage assembly and is communicated with each mist outlet hole for outputting mist.

In one embodiment, the oil bin is provided with at least two oil storage cavities, each oil storage cavity is provided with one smoking channel, the number of the atomization components is equal to the number of the oil storage cavities and the number of the air inlet channels, and each atomization component corresponds to one oil storage cavity, one smoking channel and one air inlet channel.

In one embodiment, the atomizer further comprises a suction nozzle, and the suction nozzle is arranged on the oil storage assembly and is communicated with each mist outlet hole so as to collect the mist of each mist outlet hole.

In one embodiment, the atomizer further comprises an air outlet pipe, one end of the air outlet pipe is connected to the corresponding atomization assembly, and the other end of the air outlet pipe is connected to the corresponding smoking channel.

In one embodiment, the air outlet pipe is a hose.

An electronic cigarette comprises a cigarette machine main body and a atomizer according to any one of the technical characteristics;

the cigarette machine main body is provided with a mounting groove, and the atomizer is mounted in the mounting groove.

After the technical scheme is adopted, the utility model discloses following technological effect has at least:

the utility model discloses an electron cigarette and atomizer thereof, atomizing component atomize into smog with the tobacco tar, and after smog got into the smoking passageway, can get into a plurality of independent play fog holes respectively, kept away from atomizing component's one end output from the smoking passageway again to provide user's smog. A plurality of independent play fog holes can increase the surface area of smog output to make not fully atomizing tobacco tar can condense at the inner wall in fog hole, effectual solution filters the problem that the manufacturing cost is high and the technology is complicated that leads to the tobacco tar liquid drop at present, realizes the reliable filtration of tobacco tar liquid drop, taste when guaranteeing to suck the electron cigarette, and simultaneously, the setting up of a plurality of fog holes makes the simple structure of atomizer, easily realizes reduction in production cost.

Drawings

Fig. 1 is a perspective view of an atomizer in accordance with an embodiment of the present invention;

fig. 2 is a cross-sectional view of the atomizer shown in fig. 1.

Wherein:

100-an atomizer;

110-an oil storage component;

111-oil sump;

1111-smoking channel; 11111-fog holes;

112-a connecting seat;

1121 — an intake passage; 11211-air intake;

113-a baffle;

114-a separator plate;

120-an atomizing assembly;

121-a heat generating member;

122-oil cotton;

123-an upper cover;

1231-mist outlet;

130-suction nozzle.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the electronic cigarette and the atomizer thereof of the present invention are further described in detail by embodiments and with reference to the accompanying drawings. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

The numbering of the components as such, e.g., "first", "second", etc., is used herein only to distinguish the objects as described, and does not have any sequential or technical meaning. The term "connected" and "coupled" when used in this application, unless otherwise indicated, includes both direct and indirect connections (couplings). In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

In the present application, unless expressly stated or limited otherwise, the first feature may be directly on or directly under the second feature or indirectly via intermediate members. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

Referring to fig. 1 and 2, the present invention provides an atomizer 100. The atomizer 100 is adapted to be mounted in the body of a cigarette maker of an electronic cigarette. It will be appreciated that the atomizer 100 is also referred to herein as a cartridge. Atomizer 100 installs behind the cigarette machine main part, and atomizer 100 switches on with the cigarette machine main part, and at this moment, the cigarette machine main part can control atomizer 100 work to make the tobacco tar atomization in atomizer 100 be smog, for the user inhales. The utility model discloses an atomizer 100 can filter the smog after the atomizing stream to filter wherein not fully atomizing tobacco tar liquid drop, make atomizer 100 can export the smog after the atomizing, mouth feel when guaranteeing the user to suck the electron cigarette promotes user experience, and, atomizer 100 realizes filtering capability's simple structure easily realizes, and, low in production cost.

In one embodiment, the atomizer 100 includes a reservoir assembly 110 and an atomizing assembly 120. The oil storage assembly 110 includes an oil bin 111 and a connecting seat 112 disposed at the bottom of the oil bin 111, the oil bin 111 has a smoking channel 1111, and the connecting seat 112 has an air intake channel 1121. The atomizing assembly 120 is disposed in the connecting seat 112 and located in the oil bin 111, and the atomizing assembly 120 is located at a communication position of the air inlet channel 1121 and the smoking channel 1111. The smoking channel 1111 has a plurality of independent mist outlet holes 11111, one end of each mist outlet hole 11111 is connected to the atomizing assembly 120, and the other end of each mist outlet hole 11111 is used for outputting the smoke.

The oil storage component 110 is used for storing the tobacco tar for the electronic cigarette to work. Specifically, the oil storage assembly 110 stores the tobacco tar through an oil bin 111, and an outer wall of the oil bin 111 is a housing of the atomizer 100. The bottom of oil bin 111 installs connecting seat 112, guarantees the leakproofness of oil bin 111 through connecting seat 112. Optionally, the oil storage assembly 110 further includes a sealing member, and the sealing member is disposed between the connecting seat 112 and the oil bin 111, so as to further ensure the sealing property of the bottom of the oil bin 111, avoid the leakage of the smoke and ensure the reliability of the atomizer 100 during operation.

The atomizing assembly 120 is mounted on the connecting seat 112 and located in the oil bin 111, and one end of the atomizing assembly 120 can communicate with the air inlet channel 1121 of the connecting seat 112, and the other end can communicate with the smoking channel 1111 above the same. The air flow direction is air inlet channel 1121 → atomizing component 120 → smoking channel 1111, and the smoke is sent out from smoking channel 1111 for the user to suck. After the atomizer 100 is installed on the body of a cigarette machine, the atomizing assembly 120 is conducted with an external circuit of the body of the cigarette machine to control the operation of the atomizing assembly 120. External airflow can enter the atomizer 100 through the air inlet channel 1121 and enter the atomizing assembly 120 above the connecting seat 112, the atomizing assembly 120 atomizes the tobacco tar into smoke, and the smoke enters the smoking channel 1111 along with the airflow for a user to smoke and finish the action of smoking the electronic cigarette.

After atomization component 120 inputs smog to smoking channel 1111, the tobacco tar liquid droplet of not fully atomizing in the smog can be adhered to the inner wall of smoking channel 1111 to filter smog, make smoking channel 1111 finally can output pure smog for the user, promote the user and inhale and experience. However, the filtering area of the single smoking channel 1111 is relatively small, and the user may also smoke with smoke droplets, which may affect the smoking experience of the user. Therefore, the atomizer 100 of the present invention sets the smoking channel 1111 to have a plurality of mist outlet holes 11111, and the mist outlet holes 11111 of each smoking channel 1111 are all communicated with the atomizing assembly 120. The plurality of mist outlet holes 11111 may output the mist, and the inner wall of each of the mist outlet holes 11111 may be adhered with the insufficiently atomized droplets of the soot. Like this, atomizing subassembly 120 is after becoming smog with the tobacco tar atomizing, and smog can enter into each fog hole 11111, is filtered the smog wherein by a plurality of fog holes 11111 for each fog hole 11111 sends out pure smog, supplies the user to absorb and promotes user experience.

The atomizer 100 of above-mentioned embodiment adopts the smoking passageway 1111 that has a plurality of independent fog outlet 11111, in order to increase the surface area of smog output, in order to make not fully atomized tobacco tar liquid drop can condense at the inner wall of fog outlet 11111, effectual solution filters the problem that the manufacturing cost is high and the technology is complicated that leads to the tobacco tar liquid drop at present, realize the reliable filtration of tobacco tar liquid drop, the taste when guaranteeing to smoke the electronic cigarette, and simultaneously, the setting up of a plurality of fog outlet makes atomizer 100's simple structure, and is easy to realize, and the production cost is reduced.

Optionally, the oil sump 111 further has an oil injection hole, and the oil injection hole is communicated with the oil sump 111 and is used for injecting the smoke oil into the oil sump 111. The atomizer 100 further includes an oil filler cap provided in the oil filler hole for securing the sealability of the oil filler hole. The oil injection cover is opened, the tobacco tar can be injected into the oil bin 111 through the oil injection hole, and the oil injection cover is arranged on the oil injection hole after the completion.

In this embodiment, the smoking channel 1111 has two fog holes 11111, and the smoke is outputted through the two fog holes 11111 and is filtered, so as to ensure that pure smoke is outputted and improve the taste of the user smoking the electronic cigarette. Of course, in other embodiments of the present invention, the number of the mist outlet holes 11111 may also be three, four or more.

In an embodiment, the atomizing assembly 120 includes a heat generating element 121 and an oil guide cotton 122, the oil guide cotton 122 is used for guiding the tobacco tar to the heat generating element 121, and the heat generating element 121 is located between the air intake channel 1121 and the smoking channel and is used for atomizing the tobacco tar. The heating element 121 is a main component for atomizing the tobacco tar, and after the heating element 121 is electrified, the heating element 121 generates heat to atomize the tobacco tar into the smoke. The oil guide cotton 122 is used for guiding the tobacco tar in the oil bin 111 to the heating element 121, so that the heating element 121 can heat the tobacco tar to realize atomization of the tobacco tar. Alternatively, the heat generating member 121 is a heating wire, a heating sheet, or other components capable of heating and atomizing. The atomizer 100 is installed behind the cigarette machine main body, and the piece 121 that generates heat can be switched on with the external circuit of cigarette machine main body, and at this moment, the cigarette machine main body can control the work of the piece 121 that generates heat.

In one embodiment, the atomizer 100 further comprises a suction nozzle 130, and the suction nozzle 130 is disposed on the oil storage assembly 110 and is communicated with the smoking channel 1111. The suction nozzle 130 is sleeved on the top of the oil bin 111 and is communicated with the mist outlet holes 11111 of the smoking channel 1111 of the oil bin 111. The aerosol generated by the atomizing assembly 120 flows through the airflow channel into the smoking channel 1111 and then into the mouthpiece 130 for the user to inhale.

Further, the mouthpiece 130 has an air passage communicating with the smoking channel 1111. The smoke in the smoking channel 1111 passes through the airway into the user's mouth. Optionally, the number of the air passages is one, that is, the smoke emitted from the plurality of smoke outlet holes 11111 is gathered into a smoke stream, and then the smoke stream is delivered to the mouth of the user through the air passages. It is worth to say that, when the smoke of the plurality of smoke outlet holes 11111 is mixed in the air passage of the suction nozzle 130, the impact effect of the air flow is generated, so as to bring better mouth feeling for the user and improve the user experience. Of course, the number of the air passages may also be multiple, and the multiple air passages respectively correspond to the multiple fog outlet holes 11111, and can respectively output the fog in each fog outlet hole 11111.

In an embodiment, the atomizing assembly 120 further includes a protective cover, the protective cover covers the heat generating element 121 and the oil guiding cotton 122, the protective cover has an air inlet and a mist outlet 1231, the air inlet is communicated with the air inlet channel 1121, and the mist outlet 1231 is communicated with each of the mist outlet holes 11111. The protection casing can completely cut off oil bin 111 and connecting seat 112, can avoid the complete submergence of tobacco tar to generate heat a 121, guarantees the atomization effect of generating heat a 121, simultaneously, can also avoid the tobacco tar to reveal from the inlet channel 1121 of connecting seat 112. The hood communicates with the air intake passage 1121 through the air intake port, and communicates with the mist outlet holes 11111 of the smoking passage 1111 through the mist outlet 1231. Thus, the airflow in the air inlet channel 1121 enters the atomizing assembly 120 through the air inlet, and the mist atomized by the atomizing assembly 120 enters the mist outlet holes 11111 of the smoking channel 1111 through the mist outlet 1231.

In one embodiment, the shield includes an upper cover 123 and a bottom cover, the bottom cover is mounted on the connecting base 112, the upper cover 123 covers the bottom cover, and the bottom cover and the top cover enclose an atomizing chamber for mounting the heating element 121 and the oil guide wool 122. The upper cover 123 has a mist outlet 1231, and the bottom cover has an air inlet. The bottom cover is installed on the connecting seat 112, the upper cover 123 is detachably covered on the bottom cover, and the inner wall of the upper cover 123 and the inner wall of the bottom cover enclose an atomization cavity for accommodating the heating element 121 and the oil guide cotton 122. It can be understood that the upper cover 123 has an oil inlet, the tobacco tar is input into the oil guide cotton 122 from the inlet, the oil guide cotton 122 can guide the tobacco tar in the oil bin 111 to the heating element 121, and the heating element 121 heats the tobacco tar and atomizes the tobacco tar into smoke.

In one embodiment, the bottom cover and the connecting base 112 are an integral structure. This reduces the number of parts of the atomizer 100 and facilitates assembly of the atomizer 100. Of course, in other embodiments of the present invention, the bottom cover may be detachably mounted to the connecting seat 112.

In one embodiment, the upper lid 123 is mounted on the bottom lid by a fastening method, a magnetic attraction method, a screwing method or an interference method. The upper cover 123 is matched with the bottom cover through a buckle and the like, so that the atomization assembly 120 can be conveniently disassembled and assembled, and the use is convenient.

In one embodiment, the oil storage assembly 110 includes a baffle 113, and the baffle 113 is disposed in the smoking channel 1111 to divide the smoking channel 1111 into a plurality of mist outlet holes 11111. The baffle 113 is in contact with the inner wall of the smoking channel 1111 and can divide the smoking channel 1111 into a plurality of independent mist outlet holes 11111, and the smoke output by the atomizing assembly 120 can enter the mist outlet holes 11111 respectively without mixing flow, thereby ensuring stable smoke output. Alternatively, the cross-sectional shape of the baffle 113 may be a straight line type, a curved line type, or a shape in which a straight line and a curved line are spliced, etc., as long as the smoking channel 1111 is partitioned into the plurality of air intake holes 11211. For example, when the number of the mist outlet holes 11111 is two, the cross-sectional shape of the baffle 113 may be a straight shape or an S shape; when the number of the mist outlet holes 11111 is three, the cross-sectional shape of the baffle 113 may be a Y-shape or the like. Of course, in other embodiments of the present invention, the mist outlet 11111 may also be a through hole opened in the oil bin 111, and a certain distance exists between the plurality of mist outlet 11111 to form the smoking channel 1111 corresponding to the atomizing assembly 120.

Further, the baffle 113 extends above the heat generating member 121 in the vertical direction. Therefore, the smoke generated by the atomizing assembly 120 can directly enter the corresponding smoke outlet 11111, the vortex caused by mixed flow of the smoke above the heating element 121 is avoided, and the stable smoke output is ensured.

Alternatively, the air inlet channel 1121 may be a channel, and the external air flow enters the atomizer 100 through the air inlet channel 1121, without being split, and is split into two sides of the heat generating member 121 when the air flow contacts the atomizing assembly 120. In one embodiment, the air inlet channel 1121 has a plurality of independent air inlet holes 11211, and each air inlet hole 11211 passes through one of the atomizing assemblies 120 corresponding to one of the mist outlet holes 11111. That is to say, the air inlets 11211 are independent channels, the external air flow is divided in advance, and enters the air inlets 11211, and then enters the atomizing chamber through the corresponding air inlets 11211 for atomization, and the atomized mist enters the corresponding mist outlet 11111. Therefore, the atomization component 120 can directly atomize the tobacco tar without separating the airflow, and the atomization function of the atomization component 120 is ensured.

In an embodiment, the oil storage assembly 110 further includes a partition plate 114, and the partition plate 114 is disposed on the air intake channel 1121 such that the air intake channel 1121 forms a plurality of air intake holes 11211. The partition plate 114 is in contact with the inner wall of the air intake channel 1121, so that the air intake channel 1121 can be divided into a plurality of independent air intake holes 11211, and external air flow can enter the air intake holes 11211 without mixing flow, thereby ensuring smooth air flow. Alternatively, the sectional shape of the partition plate 114 may be a straight line type, a curved line type, or a split shape of a straight line and a curved line, etc., as long as the air intake passage 1121 can be partitioned into the plurality of air intake holes 11211. For example, when the number of the air intake holes 11211 is two, the sectional shape of the partition plate 114 may be a straight shape or an S shape; when the number of the air intake holes 11211 is three, the sectional shape of the partition plate 114 may be a Y-shape or the like. Of course, in other embodiments of the present invention, the air inlets 11211 may also be through holes opened by the connecting seat 112, and a certain distance exists between the air inlets 11211 to form the air inlet channel 1121 corresponding to the atomizing assembly 120.

In this embodiment, the smoking channel 1111 has two fog holes 11111, and the smoke is outputted through the two fog holes 11111 and is filtered, so as to ensure that pure smoke is outputted and improve the taste of the user smoking the electronic cigarette. Correspondingly, the air intake channel 1121 also has two air intake holes 11211, the two air intake holes 11211 are respectively disposed corresponding to the two mist outlet holes 11111, and the cross-sectional area of the air intake holes 11211 is consistent with the cross-sectional area of the corresponding mist outlet holes 11111. Of course, in other embodiments of the present invention, the number of the mist outlet holes 11111 may also be three, four or more.

In one embodiment, the oil bin 111 can only store one type of tobacco tar, i.e. the oil bin 111 has one oil storage chamber. The atomizer 100 can achieve atomization through an atomizing assembly 120. When the atomizer 100 is used, a user performs suction from the suction nozzle 130 at the top of the oil bin 111, external airflow flows into the atomizing assembly 120 from the air inlet channel 1121 of the connecting seat 112 at the bottom of the oil bin 111, the atomizing assembly 120 heats atomized tobacco tar and generates smoke, the smoke and the airflow are mixed and then are separated into two airflows by the baffle 113, and the two airflows enter the fog outlet 11111 above the heating element 121. When the smoke flows through the smoke outlet holes 11111 and the smoke is cooled, droplets of the smoke oil which is not sufficiently atomized are adhered to the inner walls of the smoke outlet holes 11111, and the smoke in the smoke outlet holes 11111 is mixed in the air passage of the suction nozzle 130 after the smoke oil droplets contained in the smoke are filtered. The mixing of the multiple streams of smoke in the air passage of the mouthpiece 130 creates an impact effect that gives the user a better mouth feel for smoking.

In one embodiment, the oil reservoir 111 has at least two oil chambers, each oil chamber has a smoking channel 1111, the number of atomizing assemblies 120 is equal to the number of oil chambers and the number of air inlet channels 1121, and each atomizing assembly 120 corresponds to one oil chamber, one smoking channel 1111 and one air inlet channel 1121.

The tobacco tar in the corresponding oil storage cavity can enter the corresponding atomization assembly 120, the atomization assembly 120 atomizes the tobacco tar, and the atomized tobacco tar enters the corresponding smoking channel 1111 again and is sucked by the user through the suction nozzle 130. It will be appreciated that after the atomizer 100 is installed in a body of a cigarette machine, a user may select which atomization assembly 120 or which atomization assemblies 120 operate based on actual needs.

The oil bin 111 has a plurality of independent oil storage chambers, and each oil storage chamber is used for storing tobacco tar with the same or different taste. That is, the flavors of the tobacco tar stored in the oil storage chambers may be the same or different, or the flavors of the tobacco tar in some oil storage chambers may be the same, and the flavors of the tobacco tar in the rest oil storage chambers may be different. Therefore, the user can select the atomization component 120 corresponding to the tobacco tar with the required taste to work according to actual needs, and the device is convenient and practical.

It should be noted that when a user needs to smoke a single taste, any one of the atomizing assemblies 120 may be controlled to be connected to an external circuit, so as to control the corresponding atomizing assembly 120 to work, and atomize the tobacco tar in the oil storage cavity, so as to output a single taste smoke. When the user need inhale the smog that multiple taste mixes, can control at least two atomization component 120 that correspond different tobacco tar and switch on with external circuit, and then control two at least atomization component 120 work that correspond, the tobacco tar in the atomizing oil storage chamber to the smog that the multiple taste mixes of output. When the user need inhale the same kind taste tobacco tar, and need the smog volume great, can control two at least atomization component 120 that correspond the same kind tobacco tar and switch on with external circuit, and then control two at least atomization component 120 work that correspond, the tobacco tar in the atomizing oil storage chamber to the smog of output same kind taste increases the output volume of smog. Thus, different use requirements of users can be met.

It can be understood that each oil storage cavity corresponds to an oil filling hole, and when the residual amount of the tobacco tar in the oil storage cavity is insufficient, the tobacco tar is added through the corresponding oil filling hole.

Illustratively, the sump 111 has four oil reservoirs, each of which has a smoking channel 1111. A baffle 113 may be provided in each smoking channel 1111, and the baffle 113 divides the smoking channel 1111 into two mist outlet holes 11111, so that the smoke entering the smoking channel 1111 is divided into two. The connecting seat 112 has four air inlet channels 1121, and the air inlet channels 1121 work independently without interference. Also, a partition plate 114 may be provided in each of the air intake passages 1121, and the partition plate 114 partitions the air intake passage 1121 into two mist outlet holes 11111, so that each of the air intake passages 1121 may divide the air flow into two. The four atomizing assemblies 120 correspond to the four oil storage cavities respectively, and air inlets and mist outlets 1231 of the four atomizing assemblies 120 are connected to the corresponding air inlet channel 1121 and smoking channel 1111 respectively. In this way, the atomizing assembly 120 can atomize the tobacco tar in the corresponding oil storage cavity and enter the two corresponding fog outlet holes 11111, and the fog outlet holes 11111 can filter the smoke in the oil storage cavity, so as to filter the droplets of the tobacco tar which is not atomized sufficiently, and thus the pure smoke can be delivered to the suction nozzle 130. Moreover, the user can select one of the atomizing assemblies 120 or at least two of the atomizing assemblies 120 to operate according to the requirement.

When the atomizer 100 of this embodiment is used, a user performs a suction action at the top nozzle 130, and after passing through the air inlet channel 1121 of the connecting seat 112, the external air flow is divided into a plurality of air flows and enters the corresponding atomizing cavities respectively, and the heating element 121 in the atomizing cavity heats the tobacco tar to generate the aerosol, and the aerosol is mixed with the air flow and enters the aerosol outlet 11111 above the heating element 121. When the smoke flows through the smoke outlet holes 11111 and the smoke is cooled, droplets of the smoke oil which is not sufficiently atomized are adhered to the inner walls of the smoke outlet holes 11111, and the smoke in the smoke outlet holes 11111 is mixed in the air passage of the suction nozzle 130 after the smoke oil droplets contained in the smoke are filtered. The mixing of the multiple streams of smoke in the air passage of the mouthpiece 130 creates an impact effect that gives the user a better mouth feel for smoking. The utility model discloses an atomizer 100 not only can play the effect of better filtration tobacco tar liquid drop through the setting of a plurality of fog holes 11111, can also transfer better smoking taste, and the user can obtain better smoking and experience.

In one embodiment, the atomizer 100 further comprises an air outlet tube, one end of which is connected to the corresponding atomizing assembly 120 and the other end of which is connected to the corresponding smoking channel 1111. The air outlet pipe is an independent pipe and is used for connecting the mist outlet 1231 of the atomizing assembly 120 with the mist outlet 11111 of the smoking channel 1111. Therefore, the smoke in the airflow channel can enter the corresponding smoke outlet holes 11111 through the air outlet pipe, so that the smoke at the smoke outlet 1231 of the heating element 121 can be prevented from mixing, and the smoke is ensured to be conveyed to the corresponding smoke outlet holes 11111; simultaneously, can also prevent that the smog among other atomization component 120 from getting into in the non-corresponding smoking passageway 1111, and then prevent that the tobacco tar taste of different tastes from mixing, promote user's smoking and experience.

Further, the air outlet pipe is a hose. This facilitates the bending of the outlet tube and makes full use of the space of the atomizer 100.

The utility model also provides an electronic cigarette, including the atomizer 100 in cigarette machine main part and the above-mentioned embodiment. The cigarette maker main body has a mounting groove in which the atomizer 100 is mounted. After the atomizer 100 of above-mentioned embodiment is adopted to the electron cigarette, atomization component 120 can switch on with the external circuit of cigarette machine main part, make atomization component 120 work, in order to become smog with the tobacco tar atomizing, and, the smoking passageway 1111 that has a plurality of fog holes 11111 can increase the filter area of smog, can promote the filter effect of atomizer 100 to smog, in order to filter out the not fully atomized tobacco tar liquid drop in the tobacco smoke stream, make pure smog can send out through smoking passageway 1111, in order to promote the taste when electron cigarette smokes.

In one embodiment, the atomizer 100 is installed in the mounting groove by a clamping manner, a magnetic attraction manner, or an interference manner. It will be appreciated that the atomizer 100 is insertedly mounted in the mounting groove. In order to ensure reliable fixation of the atomizer 100 in the mounting groove, the atomizer 100 may be embedded in the mounting groove, avoiding the atomizer 100 from loosening when sucking the electronic cigarette. Alternatively, the atomizer 100 may be installed by interference when it is inserted into the mounting groove. Optionally, the mounting groove has a first suction member therein, the atomizer 100 has a second suction member, and after the atomizer 100 is mounted in the mounting groove, the second suction member of the atomizer 100 can be matched with the first suction member in the mounting groove, so that the atomizer 100 is reliably fixed in the mounting groove. Alternatively, the atomizer 100 may be fixed to the mounting groove by means of a snap fit or the like. Of course, the atomizer 100 may also be fixed to the mounting groove by screwing.

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

Claims (10)

1. An atomizer, comprising:

the oil storage assembly comprises an oil bin and a connecting seat arranged at the bottom of the oil bin, the oil bin is provided with a smoking channel, and the connecting seat is provided with an air inlet channel; and

the atomization assembly is arranged on the connecting seat and is positioned in the oil bin, and the atomization assembly is positioned at the communication position of the air inlet channel and the smoking channel;

the smoking channel is provided with a plurality of mutually independent mist outlet holes, one end of each mist outlet hole is communicated with the atomizing component, and the other end of each mist outlet hole is used for outputting smoke.

2. The atomizer of claim 1, wherein said atomizing assembly comprises a heat generating member and an oil guide cotton, said oil guide cotton is used for guiding the tobacco tar to said heat generating member, said heat generating member is located between said air intake channel and said smoking channel for atomizing the tobacco tar.

3. The atomizer of claim 2, wherein said atomizing assembly further comprises a shield, said shield covering said heat generating member and said oil guide cotton, said shield having an air inlet and a mist outlet, said air inlet communicating with said air inlet channel, said mist outlet communicating with each of said mist outlet holes.

4. The atomizer of claim 3, wherein the protective cover comprises an upper cover and a bottom cover, the bottom cover is mounted on the connecting seat, the upper cover is covered on the bottom cover, and the upper cover and the bottom cover enclose an atomizing chamber for mounting the heat generating member and the oil guide cotton.

5. The atomizer of claim 2, wherein said oil storage assembly comprises a baffle disposed in said smoking passage to divide said smoking passage into a plurality of said mist outlet openings;

the baffle extends to the upper part of the heating member along the vertical direction.

6. The atomizer of claim 1, wherein said air inlet passage has a plurality of independent air inlet holes, each air inlet hole corresponding to one of said mist outlet holes through said atomizing assembly.

7. The atomizer of claim 6, wherein said oil reservoir assembly further comprises a divider plate disposed in said air intake passage such that said air intake passage forms a plurality of said air intake holes.

8. The atomizer according to claim 1, wherein said oil reservoir has at least two oil chambers, each of said oil chambers has one of said smoking passages, the number of said atomizing assemblies is equal to the number of said oil chambers and the number of said air inlet passages, and each of said atomizing assemblies corresponds to one of said oil chambers, one of said smoking passages and one of said air inlet passages.

9. The atomizer of claim 1 or 8, further comprising an air outlet tube, one end of said air outlet tube being connected to the corresponding atomizing assembly, and the other end of said air outlet tube being connected to the corresponding smoking channel.

10. An electronic cigarette comprising a cigarette machine body and a nebulizer of any one of claims 1 to 9;

the cigarette machine main body is provided with a mounting groove, and the atomizer is mounted in the mounting groove.

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