CN206380716U - A kind of atomizer - Google Patents

Abstract

The utility model provides a kind of atomizer, the utility model in nebulizer body by being provided with shoe cream room, atomization chamber and heating component, accommodating chamber is provided with the component suction nozzle, the smog of the atomization formation of atomization chamber is used to heat the tobacco in the accommodating chamber, to generate mixing smog, so that in smoking, the smog flows in the accommodating chamber and heats the tobacco in the accommodating chamber to bake by the fragranced of tobacco from the atomization chamber, and amount of smoke is larger, avoid the problem of being easily carbonized when toasting tobacco by electric heating device in the prior art and cause still to produce more harmful substance, even if the tobacco contains suitable moisture with being incremented by for the length of atomizer use time, because being provided with second smoke path in the component suction nozzle, so as to ensure that at least part smog that the heating component is atomized can be conducted to the aerosol outlet port.

Description

A kind of atomizer

Technical field

The utility model is related to electronic cigarette field, more particularly to a kind of atomizer.

Background technology

Traditional smoking is that, by using open firing point burning smoke grass, result of combustion of tobacco produces smog so that smoker sucks.Result of combustion of tobacco The smog of generation would generally contain thousands of kinds of harmful substances, thus, traditional tobacco not only causes serious breathing system to smoker System disease, is also easy to bring second-hand-cigarette to endanger.

To solve the technical problem that traditional tobacco burning produces more harmful substance, technical staff develops Atmized electronic cigarrette And electronic cured tobacco, however, the Atmized electronic cigarrette is by being atomized tobacco juice formation smog, so that smoker sucks, Atmized electronic cigarrette Although overcoming the not enough above of traditional cigarette, dependence of the consumer to tobacco, electronic cigarette can be met to a certain extent Tobacco juice be by essence and flavoring agent allotment form, be not real cigarette product, its smoke is light, lack tobacco fragrance, without Can widely it be received by consumer.Using low temperature (100 degrees centigrade), combustion system is not heated existing cryotronics flue-cured tobacco Pipe tobacco, because its heating-up temperature is relatively low, so plus thermogenetic hazardous substance it is few, but amount of smoke is substantially not enough.And according to height The temperature of temperature is heated to the tobacco, then tobacco easily is examined into black, is carbonized, and heat skewness, easily produces part Tobacco be carbonized and another part temperature it is also not enough the problem of, thus also produce more harmful substance.How to suction out The fragranced of tobacco can largely reduce harmful substance again turns into tobacco business urgent problem to be solved.

Utility model content

The utility model larger can reduce the atomizer that user sucks tobacco harmful substance there is provided a kind of.

The utility model provides a kind of atomizer, including nebulizer body and component suction nozzle, and the component suction nozzle is set Have and discharge the aerosol outlet port sucked for user for smog, it is characterised in that shoe cream room, mist are provided with the nebulizer body Change chamber and heating component, one end of the nebulizer body, which is provided with, to be electrically connected and be used for the heating component and external power source The electrode assemblie of electrical connection, at least part of the electrode assemblie is exposed to outside the nebulizer body, in the component suction nozzle It is provided with the accommodating chamber being connected with the atomization chamber and the aerosol outlet port, the accommodating chamber is used to placing tobacco and is used as the One smoke path；

The heating component is arranged in the atomization chamber and for being atomized the tobacco tar in the shoe cream room to form smog, The smog of the atomization formation of atomization chamber is used to heat the tobacco in the accommodating chamber, to generate mixing smog, with Make in smoking, the mixing smog flows to the aerosol outlet port by first smoke path；

The second smoke path, second smoke path and the cigarette of the component suction nozzle are additionally provided with the component suction nozzle Mist is exported and the atomization chamber is connected, and second smoke path is used to shunting part smog in the atomization chamber and by institute State part smog and be directed into the aerosol outlet port.

Preferably, the component suction nozzle is detachably connected with the nebulizer body, the accommodating chamber and the suction nozzle group The surface towards the nebulizer body of part is connected and is formed with the accent towards the nebulizer body, when the suction nozzle When component is connected with the nebulizer body, the nebulizer body covers the accent；When by the component suction nozzle and institute When stating nebulizer body separation, tobacco can be inserted in the accommodating chamber or by tobacco out of described accommodating chamber from the accent Take out.

Preferably, the component suction nozzle be provided with the accommodating chamber one end side-walls be provided with outside the component suction nozzle Surface is connected using the grooving as second smoke path, and the grooving is located in nebulizer body, and the two of the grooving End is connected with the atomization chamber and the aerosol outlet port respectively, and the grooving is disposed an outwardly facing the accommodating chamber and held with described The notch that chamber of receiving is connected；When being inserted with tobacco in the accommodating chamber, the tobacco covers the notch, so that atomizer work At least part smog when making in the atomization chamber flows to the aerosol outlet port through the grooving.

Preferably, in tubular construction, the aerosol outlet port is located at one end of the component suction nozzle to the component suction nozzle, described The accent of accommodating chamber one end is positioned at the component suction nozzle on one end end face of the aerosol outlet port, and the grooving is described in The Longitudinal extending of component suction nozzle sets and runs through the side wall of the component suction nozzle.

Preferably, the component suction nozzle is provided between several groovings, and two groovings of arbitrary neighborhood Predetermined interval is provided with, the grooving is in bar shaped.

Preferably, one end of the accommodating chamber dorsad accent is provided with for stopping the tobacco towards away from the chamber The limiting plate of mouth direction motion, the side towards the aerosol outlet port of the limiting plate is provided with coaxially to be set with the accommodating chamber The 3rd smoke path put, one end of the 3rd smoke path is connected with the accommodating chamber, the 3rd smoke path The other end is connected with the aerosol outlet port, and the length of the grooving is more than the limiting plate to the distance of the accent, described The one end of grooving away from the accent is connected with the 3rd smoke path.

Preferably, one end side-walls that the component suction nozzle is plugged in the nebulizer body are provided with and the suction nozzle Module outer surface is connected and as the through hole of second smoke path, and the through hole goes out with the atomization chamber and the smog Mouth is connected, during so that atomizer working, and at least part smog in the atomization chamber is through the flow therethrough to the smog Outlet.

Preferably, one end away from the accent of the accommodating chamber is provided with for stopping the tobacco towards away from described The limiting plate of accent direction motion, the side towards the aerosol outlet port of the limiting plate is provided with coaxial with the accommodating chamber The 3rd smoke path set, one end of the 3rd smoke path is connected with the accommodating chamber, the 3rd smoke path The other end be connected with the aerosol outlet port, the distance of the through hole to the accent is more than the limiting plate to the accent Distance, the through hole is connected with the 3rd smoke path.

Preferably, the component suction nozzle is inserted between one end outer peripheral face and the nebulizer body of the nebulizer body Gap is formed with, the gap is connected with the through hole and the atomization chamber, the gap is used to work when institute in atomizer At least part smog stated in atomization chamber is flowed into through hole through the gap, then is gone out by the flow therethrough to the smog Mouthful.

Preferably, be provided between the atomization chamber and the accommodating chamber for stop the tobacco in the accommodating chamber towards It is provided with least one perforation on the dividing plate of atomization chamber motion, the dividing plate, the perforation and the accommodating chamber and described Atomization chamber is connected.

Preferably, one end of the nebulizer body is provided with inserting groove, and one end of the component suction nozzle is removably inserted It is located in the inserting groove, the dividing plate is housed in the inserting groove and is detachably connected with the cell wall of the inserting groove, with Make the dividing plate can be taken out out of described inserting groove after the component suction nozzle is dismantled.

Preferably, the dividing plate is in disk form, and the outer peripheral face of the dividing plate is arranged with the cell wall elasticity with the inserting groove The sealing ring of abutting.

Preferably, one end of the nebulizer body is provided with inserting groove, and one end of the component suction nozzle is removably inserted It is located in the inserting groove, the dividing plate is housed in the inserting groove.

Preferably, one end away from the accent of the accommodating chamber is provided with for stopping the tobacco towards away from described The position-limit mechanism of accent direction motion.

Preferably, the position-limit mechanism is the limited step set around the cavity wall of the accommodating chamber.

Preferably, lid is additionally provided with the accommodating chamber and is located at the accommodating chamber towards the filter of described aerosol outlet port one end Net, the filter screen is used to hinder the tobacco in the accommodating chamber to enter access customer oral cavity.

Preferably, the heating component is unique heater in the atomizer.

Preferably, the nebulizer body includes oil storage component and the atomization core assembly being plugged in the oil storage component, The shoe cream room is formed with the oil storage component, one end of the oil storage component is provided with the electrode assemblie；The atomization Core assembly includes setting on atomization sleeve pipe, tobacco tar adsorption sleeve, heating wire, upper dead ring and Top electrode, the tube wall of the atomization sleeve pipe Be equipped with the fuel feed hole being connected with the shoe cream room, the tobacco tar adsorption sleeve be set in the atomization sleeve pipe and cover set it is described enter Oilhole, the heating wire is used as the heating component, and the heating wire winding curl is simultaneously at least partly set in the cigarette In oily adsorption sleeve, with the tobacco tar being atomized in the tobacco tar adsorption sleeve, the atomization chamber is formed with the tobacco tar adsorption sleeve, it is described Dead ring is set in one end of the atomization sleeve pipe, and the Top electrode is set in the dead ring, and the one of the heating wire End is electrically connected with the Top electrode, and the other end of the heating wire is electrically connected with the atomization sleeve pipe, to pass through the Top electrode And the atomization sleeve pipe is electrically connected with external power source.

Preferably, the oil storage component includes oil storage module body and is detachably inserted to the oil storage module body one The tamper component at end, the tamper component includes regulating the qi flowing in the channels seat, elastic component and removable cover；

One end of the regulating the qi flowing in the channels seat is plugged in the oil storage module body and passes through screw thread with the oil storage module body Connection, the other end of the regulating the qi flowing in the channels seat is extended to outside the oil storage module body, and the elastic component is fixed on the regulating the qi flowing in the channels seat And flexibly supported with the removable cover, to be provided to the removable cover towards the elastic force away from the oil storage module body direction, institute State removable cover lid to be located on one end of the dorsad described oil storage module body of the regulating the qi flowing in the channels seat, the removable cover is provided with engagement The engaging tooth for coordinating with the engaging groove is provided with groove, the regulating the qi flowing in the channels seat, the engaging groove is default away from the engaging tooth Distance；When needing to pull down the tamper component from the oil storage part main body, it need to apply to the removable cover towards the regulating the qi flowing in the channels The power in seat direction is until the engaging groove is engaged with the engaging tooth, so that by rotating the removable cover with by the tamper group Part is dismantled from the oil storage module body.

Preferably, the atomization core assembly is actively plugged in the oil storage component, one end of the atomization core assembly It is threadedly coupled with the tamper component, so that when the tamper component is taken out from the oil storage module body, the mist Changing core assembly can take out together with the tamper component from the oil storage module body.

Preferably, depression is formed with the Longitudinal extending setting along the accommodating chamber to be used as institute at the cavity wall of the accommodating chamber The air channel of the second smoke path is stated, one end of the air channel is connected with the atomization chamber, the other end of the air channel It is connected with the aerosol outlet port.

Preferably, the nebulizer body includes first sleeve, tobacco tar adsorption piece and support tube, and the support tube is plugged in In the first sleeve, the heating component is fixed in the support tube, and the atomization chamber is formed in the support tube, described The shoe cream room is formed between support tube and the first sleeve, the tobacco tar adsorption piece is set in outside the support tube and is located at In the shoe cream room, the heating component is electrically connected with the electrode assemblie, one end of the electrode assemblie and the first set Pipe grafting is connected, and the other end of the electrode assemblie is extended to outside the first sleeve and for being electrically connected with external power source；Institute Stating component suction nozzle includes the second sleeve pipe, tobacco fixed cover and suction nozzle cover, and the tobacco is fixed and is set in second sleeve pipe, The suction nozzle cover lid is located on the end face of second sleeve pipe, the accommodating chamber is provided with the tobacco fixed cover and described logical The aerosol outlet port is provided with air drain, the suction nozzle cover, the first sleeve is structure as a whole with second sleeve pipe.

Preferably, one end away from the suction nozzle cover of the accommodating chamber is provided with the limited step of annular, described spacing Step is used to stop the tobacco towards away from aerosol outlet port direction motion, table of the limited step towards the suction nozzle cover Face is provided with the groove for being used to supply smoke flow being connected with the air channel and the atomization chamber.

Preferably, first smoke path and second smoke path are arranged at intervals, first smoke path with The isolation part for isolating first smoke path and second smoke path is provided between second smoke path Part.

Beneficial effect using the atomizer shown in the utility model is that the utility model passes through in the atomizer master It is provided with shoe cream room, atomization chamber and heating component, the component suction nozzle and is provided with and the atomization chamber and the smog in vivo The accommodating chamber being connected is exported, the accommodating chamber is used to place tobacco and as the first smoke path, and the heating component is set In in the atomization chamber and for being atomized the tobacco tar in the shoe cream room to form smog, the cigarette of the atomization formation of atomization chamber Mist is used to heat the tobacco in the accommodating chamber, to generate mixing smog, so that in smoking, and the smog is from described Atomization chamber flows in the accommodating chamber and the tobacco in the accommodating chamber is heated, the mixing of smog heating tobacco generation Smog flows out to be sucked by user from the aerosol outlet port.And the second smoke path is additionally provided with the component suction nozzle, it is described Second smoke path is used to bypass the accommodating chamber at least part smog in the atomization chamber and through second smog lead to Road flows to the aerosol outlet port of the suction nozzle.Tobacco i.e. in the utility model atomizer is only through the high temperature of atomization chamber generation Smog is heated, and tobacco is toasted without extra electric heating device, it is thus possible to be uniformly heated up and more abundant Ground bakes the fragranced of tobacco in accommodating chamber to come, and amount of smoke is larger, it is to avoid pass through electric heating device in the prior art During baking tobacco easily carbonization and the problem of cause still to produce more harmful substance, even and if the tobacco with atomizer Being incremented by for the length of use time and containing suitable moisture, because being provided with second smoke path, so as to ensure described At least part smog that heating component is atomized can be conducted to the aerosol outlet port, be blocked up so as to avoid smog by the tobacco The appearance of situation about can not firmly transmit to the aerosol outlet port.

Brief description of the drawings

Fig. 1 is a kind of embodiment overall structure diagram of atomizer provided by the utility model；

Fig. 2 is a kind of embodiment cross-sectional view of atomizer provided by the utility model；

Fig. 3 for atomizer that the utility model passed through another embodiment cross-sectional view；

Fig. 4 is another cross-sectional view of atomizer provided by the utility model；

Fig. 5 is another embodiment cross-sectional view of atomizer provided by the utility model；

Fig. 6 is a kind of embodiment blast attachment structure schematic diagram of atomizer provided by the utility model；

Fig. 7 is a kind of embodiment section blast attachment structure schematic diagram of atomizer provided by the utility model；

Fig. 8 is a kind of embodiment overall structure diagram of component suction nozzle provided by the utility model；

Fig. 9 is another embodiment cross-sectional view of atomizer provided by the utility model；

Figure 10 is a kind of embodiment overall structure diagram of component suction nozzle provided by the utility model；

Figure 11 is another embodiment cross-sectional view of atomizing component provided by the utility model；

Figure 12 is another embodiment cross-sectional view of atomizing component provided by the utility model；

Figure 13 is a kind of embodiment confined explosion attachment structure schematic diagram of atomizer provided by the utility model；

Figure 14 is a kind of embodiment confined explosion attachment structure schematic diagram of atomizer provided by the utility model；

Figure 15 is a kind of embodiment partial structural diagram of atomizer provided by the utility model；

Figure 16 is a kind of embodiment part section structural representation of atomizer provided by the utility model；

Figure 17 is another embodiment cross-sectional view of atomizer provided by the utility model；

Figure 18 is a kind of embodiment overall structure diagram of tobacco fixed cover provided by the utility model.

Embodiment

Embodiment one

A kind of atomizer is present embodiments provided, user is enabled in suction cigarette by the atomizer shown in the present embodiment During mist, the taste roughly the same with true mouth sense can be sucked, and it is produced when true cigarette can be avoided to burn Injury of the tar to user's body.

The concrete structure of the atomizer provided first with reference to shown in Fig. 1 and Fig. 2 the present embodiment below carries out exemplary Illustrate, wherein, Fig. 1 is a kind of embodiment overall structure diagram of atomizer provided by the utility model, and Fig. 2 is this practicality A kind of embodiment cross-sectional view of new provided atomizer.

Atomizer shown in the present embodiment includes nebulizer body 100 and component suction nozzle 101, wherein, the atomizer master Body 100 is used to be atomized tobacco tar to form smog, and the component suction nozzle 101 is provided with for discharging what is sucked for user for smog Aerosol outlet port 102.

Specifically, being provided with shoe cream room 103, atomization chamber 104 and heating component 105 in the nebulizer body 100.

More specifically, the shoe cream room 103 for storing tobacco tar shown in the present embodiment is turned on the atomization chamber 104 Set, so that the heating component that the tobacco tar in the shoe cream room 103 can be flowed in the atomization chamber 104 105, so that the heating component 105 can be atomized the tobacco tar in the shoe cream room 103 to form smog.

The present embodiment is not construed as limiting to the concrete structure of the shoe cream room 103, atomization chamber 104 and heating component 105, as long as Tobacco tar in the shoe cream room 103 can be atomized to generate by the heating component 105 in the atomization chamber 104 Smog.

Accommodating chamber 200 shown in the present embodiment is arranged on inside the component suction nozzle 101, below to the accommodating chamber 200 Illustrate：

Illustrated exemplified by referring to shown in Fig. 2 and Fig. 3, wherein, Fig. 3 is another for atomizer described in the utility model Embodiment cross-sectional view is planted, specifically, Fig. 2, which is shown inside the accommodating chamber 200, is not provided with tobacco, and Fig. 3 The shown accommodating chamber 200 is internally provided with tobacco 201.

Tobacco shown in the present embodiment can be the common cigarette sold on existing market, i.e., in actual use, user Directly cigarette can be plugged in inside the accommodating chamber 200, or a part for cigarette is plugged in inside the accommodating chamber 200. It is of course also possible to be homemade pipe tobacco etc., it is not especially limited herein.

Certainly, the present embodiment also directly can place tobacco inside the accommodating chamber 200, not make in the present embodiment specifically Limit.

The accommodating chamber 200 in this kind of set-up mode is connected with the atomization chamber 104 and the aerosol outlet port 102 respectively It is logical.

Specifically, the first port 203 of the accommodating chamber 200 is connected with the atomization chamber 104, the accommodating chamber 200 Second port 204 be connected with the aerosol outlet port 102.

The accommodating chamber 200 is used to place tobacco 201 and as the first smoke path for the smog that circulates, specifically, The inside of accommodating chamber 200 is used to plug the tobacco 201, and is inserted with the inside shape of the accommodating chamber 200 of the tobacco 201 Into first smoke path having for the smog that circulates.

The smog that the heating component 105 in i.e. described atomization chamber 104 is atomized can be logical via first smog The guiding in road is flowed, and flow direction is referred to shown in the arrow being located in the accommodating chamber 200 shown in Fig. 2 and Fig. 3 Direction, the direction of the smog flowed along first smoke path is along towards the direction of the aerosol outlet port 102.

More specifically, below in conjunction with shown in Fig. 3 to being inserted with the air-flow side of the atomizer of tobacco when user carries out smoking To illustrating：

Wherein, the direction of arrow shown in Fig. 3 is the airflow direction for the atomizer that the present embodiment is provided.

Atomizer shown in the present embodiment is provided with air inlet 106, the air inlet 106 shown in the present embodiment with it is described The conducting of atomization chamber 104 is set, so that the gas outside the atomizer can flow to the atomization via the air inlet 106 Inside chamber 104, the air-flow inside the atomization chamber 104 can drive the smoke flow that the heating component 105 is atomized Inside to the accommodating chamber 200；

The smog being located inside the accommodating chamber 200 shown in the present embodiment has relatively higher humidity and temperature, so that Smog can be heated to the tobacco 201 in the accommodating chamber 200, to generate mixing smog.

Guiding of the mixing smog along first smoke path flows to the aerosol outlet port 102, so that user is logical The mixing smog can be sucked by crossing the aerosol outlet port 102.

Optionally, as shown in figure 3, the second port of the first port 203 of the accommodating chamber 200 and the accommodating chamber 200 204 positions are relative and are coaxially disposed.

Using the structure shown in the present embodiment, the smog in the atomization chamber 104 is enabled to all to flow to the appearance Receive the inside of chamber 200 to heat the tobacco 201, it is to avoid because of the first port 203 and the second port 204 Put not relative or not coaxial, the drawbacks of smog in the atomization chamber 104 can not all flow to 200 inside of accommodating chamber, Because the first port 203 shown in the present embodiment is relative with the position of second port 204 and or it is coaxial, then can ensure enough Smoke flow to the accommodating chamber 200 inside so that enough smog can to the tobacco 201 carry out heating so as to The enough mixing smogs of generation.

Need it is clear that, the heating component 105 shown in the present embodiment is unique heater in the atomizer, I.e. in the present embodiment, the unique energy source heated to the tobacco is just the heating component shown in the present embodiment 105 smog that are formed of atomization tobacco tar, using the structure shown in the present embodiment, are ensureing that user can suck the cigarette of cigarette On the premise of mist mouthfeel, without increasing extra part inside the atomizer, the manufacturing cost and system of atomizer are reduced Difficulty is made, and reduces the difficulty of assembling atomizer, the efficiency of assembling atomizer is improved.

Beneficial effect using the concrete structure of the atomizer shown in the present embodiment is：

The tobacco that smog shown in the present embodiment can be pointed in the accommodating chamber is heated, so that tobacco is heated The flue gas same or like with the mouthfeel that is produced after cigarette combustion on the market can be generated afterwards, then aspirates smog in user During outlet, you can it is the heating component to suck the part in the mixing smog for including two kinds of mouthfeels, i.e. mixing smog It is atomized generated smog to tobacco tar, another is the flue gas same or like with the mouthfeel that is produced after cigarette combustion, from And enrich the mouthfeel that user sucks smog.

Smog described in the present embodiment to the tobacco when heating, although tobacco meeting in the presence of smog high temperature The generation flue gas same or like with the mouthfeel produced after cigarette combustion, but not including in the flue gas has tar, so that effectively Avoid harm of the tar to user's body, effectively ensured the peace for the atomizer that user is provided using the present embodiment Entirely.

Specifically, being used for what tobacco was heated shown in the present embodiment, generation is atomized by the heating component 105 Smog there is suitable humidity, then the moisture contained by the tobacco can be lifted when smog is heated to tobacco, it is seen then that with Being incremented by for user's suction atomizer time, then the content of the moisture in the smog is also in incremental trend.

If the too high levels of the moisture in the smog, smog to the tobacco during heating, tobacco In contained moisture can hinder the transmission of smog, on the one hand, more difficult the first smoke path described in above-described embodiment of smog is entered Row flowing, another aspect smog is more difficult to drive the flue gas same or like with cigarette mouthfeel produced on tobacco along above-mentioned implementation The first smoke path described in example is flowed, so that user can not smoothly suck the mixing smog.

It is used for what tobacco was heated shown in the present embodiment, the smog of generation is atomized by the heating component 105 With suitable humidity, then the moisture contained by the tobacco can be lifted when smog is heated to tobacco, it is seen then that with user Being incremented by for atomizer time is aspirated, then the content of the moisture in the smog is also in incremental trend.

If the too high levels of the moisture in the smog, smog to the tobacco during heating, tobacco In contained moisture can hinder the transmission of smog, on the one hand, more difficult the first smoke path described in above-described embodiment of smog is entered Row flowing, another aspect smog is more difficult to drive the flue gas same or like with cigarette mouthfeel produced on tobacco along above-mentioned implementation The first smoke path described in example is flowed, so that user can not smoothly suck the mixing smog.

In order to solve the above technical problems, then illustrated with reference to shown in Fig. 5, wherein, Fig. 5 is provided by the utility model Another embodiment cross-sectional view of atomizer.

Understand as shown in Figure 5, accommodating chamber 200 described in the present embodiment is arranged on exemplified by the inside of component suction nozzle 101：

The second smoke path 501 is additionally provided with the component suction nozzle 101, second smoke path 501 is inhaled with described The aerosol outlet port 102 and the atomization chamber 104 of nozzle assembly 101 are connected.

In the present embodiment, second smoke path 501 is used to shunting part smog in the atomization chamber 104 and by institute State part smog and be directed into the aerosol outlet port 102, i.e., described second smoke path 501 is used in the atomization chamber 104 At least part smog bypasses the accommodating chamber 200 and the institute of the component suction nozzle 101 is flowed to through second smoke path 501 State aerosol outlet port 102.

Second smoke path 501, the accommodating chamber 200 i.e. shown in the present embodiment respectively with the atomization chamber 104 Conducting, using the structure shown in the present embodiment, the smog that the heating component 105 is atomized in the atomization chamber 104 is divided into First smog and the second smog, first smog can be flowed to inside the accommodating chamber 200, so that described first The tobacco that smog can be pointed in the accommodating chamber 200 is heated, and the mixing smog formed after heating flows to institute State aerosol outlet port 102.

And second smog can bypass the accommodating chamber 200 and be flowed along the guiding of second smoke path 501 To the aerosol outlet port 102.

It can be seen that, using the structure shown in the present embodiment, user can be drawn into the mixing cigarette in the aerosol outlet port 102 Mist and second smog, using the structure described in the present embodiment, even if the tobacco is with the length of atomizer use time That spends is incremented by and contains suitable moisture, because being provided with second smoke path 501, so as to ensure the heating component The 105 at least part smog being atomized can be conducted to the aerosol outlet port 102, be blocked so as to avoid smog by the tobacco And the appearance of situation about can not transmit to the aerosol outlet port 102.And by setting second smoke path 501, shunting The smog being atomized in the atomization chamber 104, thus the tobacco due to the accommodating chamber 200 is not only solved when using one section Between after cause aerosol outlet port 102 to flow out because moist smog it is very few so that the problem of poor user experience, and add tobacco The time of taste release, significantly improve Consumer's Experience.

The present embodiment is not limited the concrete structure of second smoke path 501, as long as second smog can Transmitted via the guiding of second smoke path 501 to the aerosol outlet port 102.

Embodiment two

The concrete structure of atomizer shown in embodiment one is described in detail the present embodiment, need it is clear that, this Embodiment is optional example to the explanation of the structure of the atomizer, is not construed as limiting.

Specifically, in the present embodiment, depression is formed with along the vertical of the accommodating chamber 200 at the cavity wall of the accommodating chamber 200 To extended air channel 310, one end of the air channel 310 is connected with the atomization chamber 104, the air channel 310 The other end be connected with the aerosol outlet port 102.

In the present embodiment, to lift the service life of the atomizer, reduce the use cost of user, then referring to Fig. 6 and Shown in Fig. 7, wherein, Fig. 6 is a kind of embodiment blast attachment structure schematic diagram of atomizer provided by the utility model, Fig. 7 For a kind of embodiment section blast attachment structure schematic diagram of atomizer provided by the utility model.

The component suction nozzle 101 shown in the present embodiment is detachably connected with the nebulizer body 100.

Specifically, the mode that the present embodiment is detachably connected to the component suction nozzle 101 and the nebulizer body 100 is not Limit, for example, the outer peripheral face in the component suction nozzle 101 is provided with projection 205, in the inner circumferential of the nebulizer body 100 Face be provided with described raised 205 grooves 206 matched so that the institute that the component suction nozzle 101 passes through mutual cooperation State groove 206 and described raised 205 to be connected on the nebulizer body 100, certainly, the component suction nozzle 101 and the mist Changing device main body 100 also can be using various ways such as magnetic absorption connections.

The accommodating chamber 200 is located in the component suction nozzle 101 and with the component suction nozzle 100 towards the atomizer The surface of main body 100 is connected, (as shown in Figure 3), institute when the component suction nozzle 101 is connected with the nebulizer body 100 State nebulizer body 100 and cover the accommodating chamber 200 towards the accent 302 of the nebulizer body 100, using such a knot Structure, can effectively ensure the tobacco 201 that the smog in the atomization chamber 104 can be flowed in the accommodating chamber 200, So as to ensure that smog can be heated smoothly for the tobacco 201.

When needing to change in the atomizer or add tobacco, because of the component suction nozzle 101 and the atomizer master It is Detachable connection structure between body 100, then the component suction nozzle 101 can be disassembled from the nebulizer body 100, The component suction nozzle 101 is dismantled for ease of user, then the outer peripheral face of the component suction nozzle 101 can be provided with form friction pattern 207, this Embodiment is not construed as limiting to the concrete structure of the form friction pattern 207, as long as user can be easy to institute by the form friction pattern 207 State the force of component suction nozzle 200.

When the component suction nozzle 101 is disassembled from the nebulizer body 100, you can tobacco 201 is inserted into institute Accommodating chamber 200 is stated, then the component suction nozzle 200 for being inserted with the tobacco 201 the atomizer master can be attached to On body 100.

When needing to take out the tobacco in the atomizer, because of the component suction nozzle 101 and the nebulizer body 100 Between be Detachable connection structure, then the component suction nozzle 101 can be disassembled from the nebulizer body 100, you can Tobacco 201 is taken out out of described accommodating chamber 200.

It can be seen that, using the structure shown in the present embodiment, be easy to user to change or install tobacco, then can be according to different users To the different tobaccos for installing different taste or brand of tobacco smoke demand, the demand of user individual is met, and in tobacco After certain time, the tobacco that can more renew at any time, so that in the case where being changed without overall atomizer, user can be ensured The flue gas same or like with entity cigarette mouthfeel can keep certain concentration in the mixing smog sucked, it is to avoid mixing smog In the too low situation of flue gas concentration same or like with entity cigarette mouthfeel, extend the service life of atomizer, save mist Change the use cost of device.

The concrete structure of second smoke path provided below the present embodiment is illustrated：

Below in conjunction with being illustrated shown in Fig. 8 to a kind of set-up mode of second smoke path, wherein, Fig. 8 is this A kind of embodiment overall structure diagram for the component suction nozzle that utility model is provided.

One end side-walls that the component suction nozzle 101 is provided with the accommodating chamber 200 are provided with and the component suction nozzle 101 Outer surface is connected using the grooving 208 as second smoke path.

When the component suction nozzle 101 is attached on the nebulizer body 100, the grooving 208 is located at atomizer In main body 100, the two ends of the grooving 208 are connected with the atomization chamber 104 and the aerosol outlet port 102 respectively.

The grooving 208 is disposed an outwardly facing the accommodating chamber 200 and the notch 209 being connected with the accommodating chamber 200.

When being inserted with tobacco 201 in the accommodating chamber 200, the tobacco 201 covers the notch 209, so that atomization At least part smog when device works in atomization chamber 104, which bypasses the tobacco 201 and flows to the smog through the grooving 208, to be gone out Mouth 102.

Using the structure shown in the present embodiment, when setting second smoke path, without inside the atomizer The new device of increase, directly opens up the grooving 208 on the component suction nozzle 101, so that the product difficulty simplified, is carried The production efficiency of atomizer is risen.

Specifically, the component suction nozzle 101 is in tubular construction, the aerosol outlet port 102 is located at the component suction nozzle 101 One end, the accent 302 of described one end of accommodating chamber 200 is located at one end away from the aerosol outlet port 102 of the component suction nozzle 101 On end face, Longitudinal extending of the grooving 208 along the component suction nozzle 101 sets and runs through the side wall of the component suction nozzle 101.

More specifically, as shown in figure 8, the grooving 208 is in bar shaped.

More specifically, the number of the grooving 208 can be one or more.

If the number of the grooving 208 is multiple, it is provided between two groovings 208 of arbitrary neighborhood between presetting Every so that the smoke in the tobacco adjacent with grooving 208 is steamed out as much as possible.Tool of the present embodiment to the grooving 208 The size of body number and the predetermined interval is not construed as limiting.

Further as shown in figure 9, Fig. 9 shows for another embodiment cross-section structure of atomizer provided by the utility model It is intended to.

One end of the accommodating chamber 200 dorsad accent 302 is provided with for stopping the tobacco 201 towards away from described The limiting plate 303 of the direction of accent 302 motion.

Using the limiting plate 303 shown in the present embodiment, it can effectively stop that the position of the tobacco 201 becomes Change, be arranged on so that the tobacco 201 is firm inside the accommodating chamber 200, it is to avoid because of changing for the position of tobacco 201 Become and cause user to suck the possibility of tobacco.If the position-limiting action without the limiting plate 303, in the tobacco 201 are moved adjacent to the position of the aerosol outlet port 102, then when smoke flow is on the tobacco 201, the temperature of smog can drop Low, then the smog after temperature reduction can not sufficiently be heated to the tobacco 201, so that the cigarette of tobacco can not be steamed fully Taste.

The side towards the aerosol outlet port 102 of the limiting plate 303 is provided with to be coaxially disposed with the accommodating chamber 200 The 3rd smoke path 304, one end of the 3rd smoke path 304 is connected with the accommodating chamber 200, the 3rd smog The other end of passage 304 is connected with the aerosol outlet port 102.

Specifically, the length of grooving 208 described in the present embodiment be more than the limiting plate 303 to the accent 302 away from From the one end of the grooving 208 away from the accent 302 is connected with the 3rd smoke path 304.

Using the structure shown in the present embodiment, it can ensure that mixing smog can smoothly be conducted to the aerosol outlet port 102, and because use the 3rd smoke path 304, enable to flow in the 3rd smoke path 304 via described The smog of second smoke path flowing and the mixing smog flowed via first smoke path can be in the 3rd smog It is sufficiently mixed in passage 304, so that the aerosol outlet port 102 can export the smog of even concentration.

Below in conjunction with being illustrated shown in Figure 10 and Figure 11 to another set-up mode of second smoke path, its In, Figure 10 is a kind of embodiment overall structure diagram of component suction nozzle provided by the utility model.Figure 11 is that this practicality is new Another embodiment cross-sectional view for the atomizing component that type is provided.

In this kind of set-up mode, the component suction nozzle 101 is plugged in one end side-walls in the nebulizer body 100 It is provided with and is connected and as the through hole 305 of second smoke path with the outer surface of component suction nozzle 101.

It can be seen that, smog can be communicated to the aerosol outlet port 102 by the through hole as second smoke path.

Specifically, the through hole 305 is connected with the atomization chamber 104 and the aerosol outlet port 102, so that atomizer work When making, at least part smog in the atomization chamber 104 bypasses the accommodating chamber 200 and flows to the cigarette through the through hole 305 Mist outlet 102, i.e., described first smoke path is arranged at intervals with second smoke path, and the cavity wall of the accommodating chamber 300 is made For the isolated part between first smoke path and second smoke path.It is understood that being used as described first The structure of isolated part between smoke path and second smoke path is not specifically limited herein, as long as can isolate institute State the first smoke path and second smoke path.

The through hole 305, the accommodating chamber 200 shown in the present embodiment are turned on the atomization chamber 104 respectively, using this Structure shown in embodiment, the smog that the heating component 105 is atomized in the atomization chamber 104 divide into the first smog and Second smog, first smog can be flowed to inside the accommodating chamber 200, so that first smog can be aligned Heated in the tobacco in the accommodating chamber 200, the mixing smog formed after heating flows to the aerosol outlet port 102。

And second smog can bypass the accommodating chamber 200 and along second smoke path guiding (i.e. via The through hole 305) flow to the aerosol outlet port 102.

It can be seen that, using the structure shown in the present embodiment, user can be drawn into the mixing cigarette in the aerosol outlet port 102 Mist and second smog, using the structure described in the present embodiment, even if the tobacco is with the length of atomizer use time That spends is incremented by and contains suitable moisture, because being provided with the through hole 305, so as to ensure that the heating component 105 is atomized At least part smog can be conducted to the aerosol outlet port 102, blocked and can not be passed by the tobacco so as to avoid smog Transport to the appearance of the situation of the aerosol outlet port 102.Wherein, in order that the smoke of tobacco is distilled out of next, the appearance as far as possible Receive chamber 200 cavity wall on be additionally provided with the stomata 3051 being connected with the atomization chamber 104.

Specifically, one end away from the accent 302 of the accommodating chamber 200 is provided with for stopping the tobacco 201 Towards the limiting plate 303 moved away from the direction of accent 302.

Illustrating for limiting plate 303 shown in this kind of set-up mode please be referred to shown in above-described embodiment, do not gone to live in the household of one's in-laws on getting married specifically State.

The side towards the aerosol outlet port of the limiting plate 303 is provided with the 3rd be coaxially disposed with the accommodating chamber Smoke path 304, one end of the 3rd smoke path 304 is connected with the accommodating chamber 200, the 3rd smoke path 304 other end is connected with the aerosol outlet port 102.

Specifically, the distance of the through hole 305 to the accent 302 is more than the limiting plate 303 to the accent 302 Distance, the through hole 305 is connected with the 3rd smoke path 304.

Using the structure shown in the present embodiment, it can effectively ensure that the smog that flows out via the through hole 305 will not be through The tobacco 201 crossed in the accommodating chamber 200, so that the smog flowed out via the through hole 305 can directly flow To the aerosol outlet port 102, so that the tobacco 201 containing moisture is avoided to the barrier effect of smog, so as to ensure that user can Suck smog.

The second smog being atomized below to the heating component 105 in the atomization chamber 104 is how to flow to institute State illustrating for through hole 305：

Specifically, the component suction nozzle 101 inserts one end outer peripheral face of the nebulizer body 100 and the atomizer master Gap 306 is formed between body 100, the gap 306 is connected with the through hole 305 and the atomization chamber 104.

More specifically, the gap 306 be used at least part smog when atomizer works in the atomization chamber 104 around Cross the accommodating chamber 200 to flow into through hole 305 through the gap 306, then the aerosol outlet port is flowed to by the through hole 305 102。

Optionally, as shown in figure 4, being provided between the atomization chamber 104 and the accommodating chamber 200 for stopping the appearance The dividing plate 307 that the tobacco 201 received in chamber 200 moves towards the atomization chamber 104.

With reference to shown in Fig. 4 and Fig. 6, be provided with the dividing plate 307 at least one perforation 308, it is described perforation 308 with it is described Accommodating chamber 200 and the atomization chamber 104 are connected.

It can be seen that, using the dividing plate 307 shown in the present embodiment, so that the tobacco in the accommodating chamber 200 In the presence of the dividing plate 307, the accent of the direction accommodating chamber 200 of the atomization chamber 104 will not be blocked, so that Smog in the atomization chamber 104 flows to the accommodating chamber 200 via the perforation 308 of the dividing plate 307.

Optionally, with reference to shown in Fig. 4 and Fig. 6, one end of the nebulizer body 100 is provided with inserting groove 601.

One end of the component suction nozzle 101 is removably plugged in the inserting groove 601, and the dividing plate 307 is housed in It is detachably connected in the inserting groove 601 and with the cell wall of the inserting groove 601, so as to be dismantled by the component suction nozzle 101 After the dividing plate 307 can be taken out out of described inserting groove 601.

Optionally, the dividing plate 307 is in disk form, and the outer peripheral face of the dividing plate 307 is arranged with and the inserting groove 601 The sealing ring 602 that cell wall elasticity is abutted.

Optionally, the inserting groove 601 is located at forms the receiving between the dividing plate 307 and the component suction nozzle 101 Chamber, it is seen then that the stabilization of the atomizer structure can be lifted using the structure shown in the present embodiment.

Atomizer shown in the present embodiment can also avoid user from sucking tobacco, then concrete structure refers to Figure 12 institutes Show, wherein, Figure 12 show another embodiment cross-sectional view of atomizer provided by the utility model.

Illustrated in the present embodiment so that the accommodating chamber 200 is arranged on the inside of nebulizer body 100 as an example：

One end away from the accent 302 of the accommodating chamber 200 is provided with for stopping the tobacco 201 towards away from institute State the position-limit mechanism 603 of the direction of accent 302 motion.

Using the position-limit mechanism 603 shown in the present embodiment so that the position-limit mechanism 603 can be given positioned at described always 201 1 power towards the direction of accent 302 of the tobacco in accommodating chamber 200, then cause the tobacco 201 will not be towards remote From the direction of accent 302 motion, so that the smog flowed out from the atomization chamber 104 can be pointed to the receiving rapidly The tobacco 201 in chamber 200 is heated, it is to avoid smog heat to the tobacco 201 before do not heat It is lost in, improves the efficiency that smog is heated to tobacco.

And the position-limit mechanism 603 can also avoid tobacco 201 from moving to the component suction nozzle 101, so that effectively Avoid user from sucking tobacco 201 by the component suction nozzle 101, ensured using the atomizing component process shown in the present embodiment In safety.

Specifically, the position-limit mechanism 603 can be the limited step set around the cavity wall of the accommodating chamber 200.

The present embodiment is not construed as limiting to the concrete structure of the position-limit mechanism 603, as long as the position-limit mechanism 603 can be kept away Exempt from user and tobacco 201 is sucked by the component suction nozzle 101, ensured using during the atomizing component shown in the present embodiment Safety.

Optionally, lid is additionally provided with the accommodating chamber 200 shown in the present embodiment and is located at the accommodating chamber 200 towards institute The filter screen 604 of the one end of aerosol outlet port 102 is stated, the filter screen 604 is used to hinder the tobacco 201 and tobacco in the accommodating chamber 200 Particle enters access customer oral cavity, it is seen then that the filter screen 604 can filter out tobacco 201 and tobacco particle but can allow mixing cigarette Mist smoothly passes through, so that on the premise of not influenceing user to suck efficiency to mixing smog, it is to avoid user suck tobacco and The possibility of tobacco particle.

Below in conjunction with the concrete structure of the nebulizer body 100 is described in detail shown in Figure 12 and Figure 13：

Wherein, Figure 13 illustrates for a kind of embodiment confined explosion attachment structure of atomizer provided by the utility model Figure.

The nebulizer body 100 includes oil storage component and the atomization core assembly 702 being plugged in the oil storage component, institute State and the shoe cream room 103 is formed with oil storage component.

The atomization core assembly 702 includes atomization sleeve pipe 703, tobacco tar adsorption sleeve 705, upper dead ring 706, Top electrode 707 And heating wire 708.

Specifically, the fuel feed hole 704 being connected with the shoe cream room 103 is provided with the tube wall of the atomization sleeve pipe 703, The tobacco tar adsorption sleeve 705, which is set in the atomization sleeve pipe 703 and covered, sets the fuel feed hole 704, and the heating wire 708 is used as The heating component 105.It is understood that as long as the heating component 105 can be atomized tobacco tar, its structure is herein not It is specifically limited.

The explanation of the concrete function of the heating component 105 please be referred to shown in above-described embodiment.

The winding curl of heating wire 708 is simultaneously at least partly set in the tobacco tar adsorption sleeve 705, to be atomized State and the atomization chamber 104, the upper dead ring are formed with the tobacco tar in tobacco tar adsorption sleeve 705, the tobacco tar adsorption sleeve 705 706 are set in one end of the atomization sleeve pipe 703, and the Top electrode 707 is set in the dead ring 706, the electric heating One end of silk 708 is electrically connected with the Top electrode 707, and the other end of the heating wire 708 is electrically connected with the atomization sleeve pipe 703 Connect, to be electrically connected by the Top electrode 707 and the atomization sleeve pipe 703 with external power source.

Specifically, the atomization sleeve pipe 703 in one end of the Top electrode 707 is arranged with atomization core lid 709, institute State and sealing gasket 710 is arranged with outside atomization core cap 709, the atomization sleeve pipe 703 is outer to be also arranged with oil removal set 711, the oil removal set The gap for air inlet is formed between 711 and the atomization sleeve pipe 703, the atomization sleeve pipe 703 is provided with the fuel feed hole 704 surface covers 711 through hole (not indicated in figure) and the institutes for being brought into close contact and being covered by the oil removal 711 side walls with the oil removal Shoe cream room is stated to be connected.

The concrete structure of the oil storage component shown in the present embodiment is illustrated below：

Specifically, illustrated with reference to Figure 13 and Figure 14, wherein, Figure 14 is the one of atomizer provided by the utility model Plant embodiment confined explosion attachment structure schematic diagram.

The oil storage component includes oil storage module body 801 and is detachably inserted to the oil storage module body 801 1 The tamper component 802 at end.

The oil storage module body 801 includes fixed cover 8011, oil storage and covers the sealing of the 8012, first sealing gasket 8013, second Pad 8014, the first connector 8015, the second connector 8016, lower dead ring 8017 and bottom electrode 8018, the oil storage set 8012 It is set in the fixed cover 8011, first sealing gasket 8013 and second sealing gasket 8014 cover be located at the storage respectively The two ends of oil jacket 8012, first connector 8015 and second connector 8016 are plugged in the oil storage set 8012 respectively Two ends, the lower dead ring 8017 is plugged in the lower union joint, and the bottom electrode 8018 is set in the lower dead ring In 8017, first connector 8015 is used to be connected with the tamper component 802, the bottom electrode 8018 and second company Joint 8016 is used to electrically connect with external power source, and the bottom electrode 8018 and second connector 8016 constitute the atomizer Outside electrode assemblie, one end nebulizer body of the electrode assemblie.As long as it is understood that the oil storage component Tobacco tar can be stored, its structure is not especially limited herein.

The tamper component 802 includes regulating the qi flowing in the channels seat 803, elastic component 804 and removable cover 805, one end of the regulating the qi flowing in the channels seat 803 It is plugged in the oil storage module body 801 and with first connector 8015 of the oil storage module body 801 by spiral shell Line is connected, and the other end of the regulating the qi flowing in the channels seat 803 is extended to outside the oil storage module body 801, and the elastic component 804 is fixed on institute State on regulating the qi flowing in the channels seat 803 and flexibly supported with the removable cover 805, to be provided to the removable cover 805 towards away from the oil storage group The elastic force in the direction of part main body 801, the removable cover 805 covers the dorsad described oil storage module body 801 for being located at the tamper component One end on.

Hereinafter how the tamper component shown in the present embodiment is specifically avoided causing atomizer quilt because of maloperation That dismantles is described in detail：

With reference to shown in Figure 14 to Figure 16, wherein, Figure 15 is a kind of embodiment office of atomizer provided by the utility model Portion's structural representation, Figure 16 is a kind of embodiment part section structural representation of atomizer provided by the utility model.

The removable cover 805 is provided with engaging groove 806, the end face of the regulating the qi flowing in the channels seat 803 and is provided with for being nibbled with described Close the engaging tooth 807 that groove 806 coordinates.

When the atomizer shown in the present embodiment is in normal use state, the engaging groove 806 is away from the engaging tooth 807 pre-determined distances.

In the case where the engaging groove 806 is away from the pre-determined distance of engaging tooth 807, then user is anyway to the mist Change device and carry out torquing operations, the action of the dismounting to the atomizer can not be all performed, so as to avoid because of the maloperation of user The appearance for the situation that atomizer is dismantled, and children are avoided when accident is screwed to atomizer by the atomization Device is dismantled, so as to effectively avoid the possibility that children suck tobacco tar, it is seen then that using the atomizer energy shown in the present embodiment Enough lift the safety in utilization of atomizer structure, it is to avoid the situation of unexpected dismounting is carried out to atomizer.

When needing to dismantle the atomizer, i.e., when needing the regulating the qi flowing in the channels 803 from the oil storage part main body When pulling down, the power towards 803 directions of regulating the qi flowing in the channels seat need to be applied to the removable cover 805, until the engaging groove 806 and the engaging tooth 807 engagements, so that by rotating the removable cover 805 so that regulating the qi flowing in the channels seat 803 to be torn open from the oil storage module body 801 Unload, you can dismantle the tamper component from the oil storage module body 801.

Specifically, the atomization core assembly 702 is actively plugged in the oil storage component, specifically, the atomization core One end of component 702 is threadedly coupled with the tamper component, more specifically, and the one of the oil removal set 711 of the atomization core assembly 702 End is threadedly coupled with regulating the qi flowing in the channels seat 803, so that when the tamper component is taken out from the oil storage module body 801, The atomization core assembly 702 can take out together with the tamper component from the oil storage module body 801.

Using the structure of the atomizer shown in the present embodiment, when needing to dismantle the atomization core assembly 702, then need The removable cover 805 apply towards regulating the qi flowing in the channels seat 803 directions power until the engaging groove 806 engaged with the engaging tooth 807, and Need to apply on the removable cover 805 power screwed until the tamper component takes out from the oil storage module body 801, And then the tamper component is taken out together with the atomization core assembly 702 from described 801.

Optionally, inserting groove 808 is formed with the regulating the qi flowing in the channels seat 803 shown in the present embodiment, the component suction nozzle 101 can Releasably it is plugged in the inserting groove 808.

Optionally, breather pipe 809 is inserted with the regulating the qi flowing in the channels seat 803, the inner side of the removable cover 805 described in the present embodiment It is provided with air channel 810, the regulating the qi flowing in the channels seat 803 and is provided with passage 811.

When user needs that air inflow is adjusted, then rotary movable lid 805, controls the described logical of removable cover 805 Overlapping area between the passage 811 of air drain 810 and regulating the qi flowing in the channels seat 803, i.e., the air inflow of described atomizer with Overlapping area is incremented by and is incremented by between the passage 811 of the regulating the qi flowing in the channels seat 803.

It can be seen that, user's demand different to smokescope, Neng Gouman can be applicable using the atomizer shown in the present embodiment The sufficient user demand personalized to smog.

Below in conjunction with being illustrated shown in Figure 17 and Figure 18 to the concrete structure of the component suction nozzle, wherein, Figure 17 is this Another embodiment cross-sectional view for the atomizer that utility model is provided, Figure 18 is cigarette provided by the utility model A kind of embodiment overall structure diagram of careless fixed cover.

The nebulizer body 100 includes support tube 900, first sleeve 901, tobacco tar adsorption piece 902 and electrode assemblie 903, the support tube 900 is plugged in the first sleeve 901, and the heating component 105 is fixed on the support tube 900 It is interior, the atomization chamber 104 is formed in the support tube 900, institute is formed between the support tube 900 and the first sleeve 901 Shoe cream room 103 is stated, the tobacco tar adsorption piece 902 is set in outside the support tube 900 and in the shoe cream room 103, described Heating component 105 is electrically connected with the electrode assemblie 903, one end of the electrode assemblie 903 and the grafting of first sleeve 901 It is connected, the other end of the electrode assemblie 903 and to extend to the first sleeve 901 outer and be used to electrically connect with external power source, Wherein, in the present embodiment, the electrode assemblie 903 includes first electrically connected respectively with the two ends of the electric-heating assembly 105 Outside electrode 9031 and second electrode 9032, one end nebulizer body 100 of the electrode assemblie 903；

In the case where the external power source is powered, tobacco tar can be atomized to generate energy by the heating component 105 The enough smog heated to the tobacco.

The component suction nozzle 101 includes the second sleeve pipe 904, tobacco fixed cover 905 and suction nozzle cover 906.

The tobacco fixed cover 905 is arranged in second sleeve pipe 904, and the lid of suction nozzle cover 906 is located at described second On the end face of sleeve pipe 904, the accommodating chamber 200 and the air channel 310, described are provided with the tobacco fixed cover 905 Sleeve 901 is structure as a whole with second sleeve pipe 904.

One end away from the suction nozzle cover 906 of the accommodating chamber 200 is provided with the limited step 907 of annular, the limit Position step 907 be used for stop the tobacco 910 towards away from the direction of aerosol outlet port 102 motion, the limited step 907 towards The surface of the suction nozzle cover 906 be provided be connected with the air channel 310 and the atomization chamber 104 be used for supply smoke flow Groove 908.

Described above, above example is only to illustrate the technical solution of the utility model, rather than its limitations；Although ginseng The utility model is described in detail according to previous embodiment, it will be understood by those within the art that：It is still Technical scheme described in foregoing embodiments can be modified, or which part technical characteristic is equally replaced Change；And these modifications or replacement, the essence of appropriate technical solution is departed from each embodiment technical scheme of the utility model Spirit and scope.

Claims (24)

1. a kind of atomizer, including nebulizer body and component suction nozzle, the component suction nozzle be provided with for smog discharge for The aerosol outlet port that family is sucked, it is characterised in that shoe cream room, atomization chamber and heating component, institute are provided with the nebulizer body The one end for stating nebulizer body is provided with the electrode assemblie for electrically connecting and being used for electrically connect with external power source with the heating component, At least part of the electrode assemblie is exposed to outside the nebulizer body, is provided with the component suction nozzle and the atomization chamber And the accommodating chamber that the aerosol outlet port is connected, the accommodating chamber is for placing tobacco and as the first smoke path；

The heating component is arranged in the atomization chamber and for being atomized the tobacco tar in the shoe cream room to form smog, described The smog of the atomization formation of atomization chamber is used to heat the tobacco in the accommodating chamber, to generate mixing smog, so that During smoking, the mixing smog flows to the aerosol outlet port by first smoke path；

The second smoke path is additionally provided with the component suction nozzle, second smoke path and the smog of the component suction nozzle go out Mouthful and the atomization chamber be connected, second smoke path is used to shunting part smog in the atomization chamber and by the portion Smog is divided to be directed into the aerosol outlet port.

2. atomizer according to claim 1, it is characterised in that the component suction nozzle and the nebulizer body are detachable Connection, the accommodating chamber is connected and is formed with towards described with the surface towards the nebulizer body of the component suction nozzle The accent of nebulizer body, when the component suction nozzle is connected with the nebulizer body, the nebulizer body covers residence State accent；When the component suction nozzle is separated with the nebulizer body, tobacco can be held from accent insertion is described Receive and intracavitary or take out tobacco out of described accommodating chamber.

3. atomizer according to claim 2, it is characterised in that the component suction nozzle is provided with one end of the accommodating chamber Side-walls, which are provided with, to be connected with the component suction nozzle outer surface using the grooving as second smoke path, the grooving position In in nebulizer body, the two ends of the grooving are connected with the atomization chamber and the aerosol outlet port respectively, and the grooving is set The notch for being equipped with towards the accommodating chamber and being connected with the accommodating chamber；It is described when being inserted with tobacco in the accommodating chamber Tobacco covers the notch, so that at least part smog when atomizer works in the atomization chamber flows to institute through the grooving State aerosol outlet port.

4. atomizer according to claim 3, it is characterised in that in tubular construction, the smog goes out the component suction nozzle Mouth is located at one end of the component suction nozzle, and the accent of described accommodating chamber one end is located at going out away from the smog for the component suction nozzle On one end end face of mouth, Longitudinal extending of the grooving along the component suction nozzle sets and runs through the side wall of the component suction nozzle.

5. atomizer according to claim 4, it is characterised in that the component suction nozzle is provided with several groovings, And predetermined interval is provided between two groovings of arbitrary neighborhood, the grooving is in bar shaped.

6. atomizer according to claim 4, it is characterised in that one end of the accommodating chamber dorsad accent is provided with For stopping the tobacco towards the limiting plate moved away from the accent direction, the limiting plate towards the aerosol outlet port Side is provided with the 3rd smoke path being coaxially disposed with the accommodating chamber, and one end of the 3rd smoke path is accommodated with described Chamber is connected, and the other end of the 3rd smoke path is connected with the aerosol outlet port, and the length of the grooving is more than described Limiting plate is to the distance of the accent, and the one end of the grooving away from the accent is connected with the 3rd smoke path.

7. atomizer according to claim 2, it is characterised in that the component suction nozzle is plugged in the nebulizer body One end side-walls be provided with and be connected with the component suction nozzle outer surface and as the through hole of second smoke path, it is described Through hole is connected with the atomization chamber and the aerosol outlet port, during so that atomizer working, at least part in the atomization chamber Smog is through the flow therethrough to the aerosol outlet port.

8. atomizer according to claim 7, it is characterised in that one end away from the accent of the accommodating chamber is set Have for stopping the tobacco towards the limiting plate moved away from the accent direction, the limiting plate towards the aerosol outlet port Side be provided with the 3rd smoke path being coaxially disposed with the accommodating chamber, one end of the 3rd smoke path holds with described Chamber of receiving is connected, and the other end of the 3rd smoke path is connected with the aerosol outlet port, the through hole to the accent Distance is more than the limiting plate to the distance of the accent, and the through hole is connected with the 3rd smoke path.

9. atomizer according to claim 7, it is characterised in that the component suction nozzle inserts the one of the nebulizer body Gap is formed between end outer peripheral face and the nebulizer body, the gap is connected with the through hole and the atomization chamber, The gap is used at least part smog when atomizer works in the atomization chamber and flowed into through the gap in through hole, then passes through The flow therethrough is crossed to the aerosol outlet port.

10. atomizer according to claim 1, it is characterised in that be provided between the atomization chamber and the accommodating chamber For stopping that being provided with least one on the dividing plate that the tobacco in the accommodating chamber moves towards the atomization chamber, the dividing plate wears Hole, the perforation is connected with the accommodating chamber and the atomization chamber.

11. atomizer according to claim 10, it is characterised in that one end of the nebulizer body is provided with grafting Groove, one end of the component suction nozzle is removably plugged in the inserting groove, and the dividing plate is housed in the inserting groove simultaneously It is detachably connected with the cell wall of the inserting groove, so as to can insert the dividing plate from described after the component suction nozzle is dismantled Taken out in access slot.

12. atomizer according to claim 11, it is characterised in that the dividing plate is in disk form, the periphery of the dividing plate Surface cover is provided with the sealing ring abutted with the cell wall elasticity of the inserting groove.

13. atomizer according to claim 10, it is characterised in that one end of the nebulizer body is provided with grafting Groove, one end of the component suction nozzle is removably plugged in the inserting groove, and the dividing plate is housed in the inserting groove.

14. atomizer according to claim 2, it is characterised in that one end away from the accent of the accommodating chamber is set It is equipped with for stopping the tobacco towards the position-limit mechanism moved away from the accent direction.

15. atomizer according to claim 14, it is characterised in that the position-limit mechanism is the chamber around the accommodating chamber The limited step that wall is set.

16. atomizer according to claim 2, it is characterised in that lid is additionally provided with the accommodating chamber and is located at the appearance Cavity surface is received to the filter screen of described aerosol outlet port one end, the filter screen is used to hinder the tobacco in the accommodating chamber to enter access customer Oral cavity.

17. atomizer according to claim 1, it is characterised in that the heating component is unique in the atomizer Heater.

18. atomizer according to claim 1, it is characterised in that the nebulizer body includes oil storage component and plugged The shoe cream room, the one of the oil storage component are formed with atomization core assembly in the oil storage component, the oil storage component End is provided with the electrode assemblie；It is described atomization core assembly include atomization sleeve pipe, tobacco tar adsorption sleeve, heating wire, upper dead ring and The fuel feed hole being connected with the shoe cream room, the tobacco tar adsorption sleeve set are provided with Top electrode, the tube wall of the atomization sleeve pipe It is located in the atomization sleeve pipe and covers and set the fuel feed hole, the heating wire is used as the heating component, the heating wire winding Curl is simultaneously at least partly set in the tobacco tar adsorption sleeve, with the tobacco tar being atomized in the tobacco tar adsorption sleeve, the cigarette The atomization chamber is formed with oily adsorption sleeve, the dead ring is set in one end of the atomization sleeve pipe, the Top electrode set Be located in the dead ring, one end of the heating wire is electrically connected with the Top electrode, the other end of the heating wire with it is described Sleeve pipe electrical connection is atomized, to be electrically connected by the Top electrode and the atomization sleeve pipe with external power source.

19. atomizer according to claim 18, it is characterised in that the oil storage component includes oil storage module body and can The tamper component of described oil storage module body one end is releasably plugged in, the tamper component includes regulating the qi flowing in the channels seat, elastic component and work Dynamic lid；

One end of the regulating the qi flowing in the channels seat is plugged in the oil storage module body and is connected through a screw thread with the oil storage module body, The other end of regulating the qi flowing in the channels seat is extended to outside the oil storage module body, the elastic component be fixed on the regulating the qi flowing in the channels seat it is upper and with institute State removable cover to flexibly support, to provide towards the elastic force away from the oil storage module body direction, the activity to the removable cover Lid lid is located on one end of the dorsad described oil storage module body of the regulating the qi flowing in the channels seat, and the removable cover is provided with engaging groove, described The engaging tooth for coordinating with the engaging groove is provided with regulating the qi flowing in the channels seat, the engaging groove is away from the engaging tooth pre-determined distance；When Need by the tamper component from the oil storage part main body pull down when, need to apply to the removable cover towards regulating the qi flowing in the channels seat direction Power until the engaging groove is engaged with the engaging tooth so that by rotate the removable cover with by the tamper component from described Dismantled in oil storage module body.

20. atomizer according to claim 19, it is characterised in that the atomization core assembly is actively plugged in the storage In oily component, one end of the atomization core assembly is threadedly coupled with the tamper component so that by the tamper component from institute State when being taken out in oil storage module body, the atomization core assembly can be together with the tamper component from the oil storage module body Take out.

21. atomizer according to claim 1, it is characterised in that depression is formed with along institute at the cavity wall of the accommodating chamber The Longitudinal extending for stating accommodating chamber is set using the air channel as second smoke path, one end of the air channel and the mist Change chamber to be connected, the other end of the air channel is connected with the aerosol outlet port.

22. atomizer according to claim 21, it is characterised in that the nebulizer body includes first sleeve, tobacco tar Adsorption piece and support tube, the support tube are plugged in the first sleeve, and the heating component is fixed in the support tube, The atomization chamber is formed in the support tube, the shoe cream room, the cigarette are formed between the support tube and the first sleeve Oily adsorption piece is set in outside the support tube and in the shoe cream room, and the heating component is electrically connected with the electrode assemblie Connect, one end of the electrode assemblie is connected with the first sleeve grafting, the other end of the electrode assemblie extends to described Sleeve is outer and for being electrically connected with external power source；The component suction nozzle includes the second sleeve pipe, tobacco fixed cover and suction nozzle cover, institute State tobacco fixation to be set in second sleeve pipe, the suction nozzle cover lid is located on the end face of second sleeve pipe, the cigarette It is provided with careless fixed cover in the accommodating chamber and the air channel, the suction nozzle cover and is provided with the aerosol outlet port, described Sleeve is structure as a whole with second sleeve pipe.

23. atomizer according to claim 22, it is characterised in that one end away from the suction nozzle cover of the accommodating chamber The limited step of annular is provided with, the limited step is used to stop that the tobacco moves towards away from the aerosol outlet port direction, The limited step be provided with towards the surface of the suction nozzle cover be connected with the air channel and the atomization chamber be used for supply The groove of smoke flow.

24. atomizer according to claim 1, it is characterised in that first smoke path is led to second smog Road is arranged at intervals, and is provided with and is led to for isolating first smog between first smoke path and second smoke path Road and the isolated part of second smoke path.