Invention content
In view of this, the utility model provides apparatus for aerosol creation, product and system so that user can be with when usingIt is more convenient.
In order to achieve the above object, the utility model provides a kind of apparatus for aerosol creation, for being generated with aerosolProduct coordinates, and the apparatus for aerosol creation includes evaporation component;The side wall of the evaporation component is equipped with the first air drain, describedThe side wall of evaporation component is used to be adjacent to the carrier for being contained in container assemblies that the aerosol generates product, the evaporation componentLength is set as being enough to puncture piercing for mouthpiece part one end setting of the container assemblies far from aerosol generation productSealing element is worn, and is inserted into the carrier through-hole of the carrier, first air drain is for guiding air and the gas in the carrier moltenGlue generation matrix evaporates formation evaporant after being heated enters the mouthpiece part.
The side wall is additionally operable to heat the aerosol generation matrix.
Apparatus for aerosol creation further includes heating element;The heating element is located at the bottom of the evaporation component, with instituteIt states evaporation component and forms heat transfer connection, for passing to the heat of generation to the evaporation component.
The width of the heating element is more than the width of the evaporation component.
The upstream section of first air drain is located at the bottom of the evaporation component, and the air is used for close to described in processEnter the upstream section of first air drain after heating element.
There is the second air drain, the air to pass through the heating along second air drain for the upper surface of the heating elementEnter the upstream section of first air drain after component.
The heating element is equipped with the first heating element stomata, and the upstream section of first air drain is located at the evaporation partThe bottom of part, the air are used for after the first heating element stomata, close to the surface by the heating element, soEnter the upstream section of first air drain afterwards.
The side wall of the evaporation component is equipped with a plurality of first air drain.
There is the third air drain extended along the evaporation component surface in the bottom sidewall of the evaporation component, it is a plurality of describedFirst air drain is connected to the third air drain, after the air is used to enter the third air drain, then is respectively enterd described in everyFirst air drain.
The side wall of the evaporation component is equipped with a plurality of first air drain, and the upper surface of the heating element is equipped with thirdAir drain, a plurality of first air drain are connected to the third air drain, after the air is used to enter the third air drain, then are distinguishedInto the first air drain described in every.
There is evaporation component air cavity and evaporation component stomata, the heating element to be equipped with second for the bottom of the evaporation componentHeating element stomata, the second heating element stomata pass through successively the evaporation component air cavity and evaporation component stomata with it is describedFirst air drain is connected to.
The side wall of the evaporation component is equipped with a plurality of first air drain, and the bottom of the evaporation component has multiple institutesEvaporation component stomata is stated, each evaporation component stomata is corresponding with first air drain to be connected to.
There is evaporation component air cavity and evaporation component stomata, the heating element to be equipped with second for the bottom of the evaporation componentHeating element stomata, the second heating element stomata pass through successively the evaporation component air cavity and evaporation component stomata with it is describedThird air drain is connected to.
First air drain is in the curve shape or rectilinear form extended along the evaporation component surface.
The apparatus for aerosol creation further includes:Power supply part, heating element and air intake;The power supply part is used forSupply electricity to the heating element;The heating element forms heat transfer with the evaporation component and connect, the heat for that will generateIt passes to the evaporation component;Air outside the apparatus for aerosol creation is used to give birth to from air intake into the aerosolAfter device, first air drain is entered back into after flowing through the power supply part, to radiate to the power supply part.
Air outside the apparatus for aerosol creation is used for after air intake enters the apparatus for aerosol creation, pointThe power supply part is not flowed through from the both sides of the power supply part.
The apparatus for aerosol creation further includes heat insulating member;The heat insulating member be set to the power supply part with it is describedBetween evaporation component;The air flows through enters the heat insulating member after the power supply part from the both sides of the heat insulating member,It passes through the heat insulating member and enters first air drain.
In order to achieve the above object, the utility model additionally provides a kind of aerosol generation system, including aerosol generatesDevice and aerosol generate product, and the apparatus for aerosol creation generates product cooperation, the aerosol life with the aerosolInclude at product:Mouthpiece part, aerosol generate matrix, carrier and container assemblies;The carrier is for carrying the aerosolMatrix is generated, the carrier has carrier through-hole;The container assemblies generate base for accommodating the carrier and the aerosolMatter, the container assemblies are set as being open in one end close to the mouthpiece part, and one end far from the mouthpiece part is arrangedThere are pierceable sealing element, the pierceable sealing element to cover the first end of the carrier through-hole, the second end of the carrier through-holePositioned at the opening side;The apparatus for aerosol creation includes evaporation component;The side wall of the evaporation component is equipped with firstAir drain;Wherein, when the evaporation component punctures the pierceable sealing element and is inserted into the carrier through-hole, the evaporation componentSide wall be adjacent to the carrier, first air drain evaporates shape for guiding air and the aerosol to generate after matrix is heatedAt evaporant enter the mouthpiece part.
The pierceable sealing element is equipped with indentation.
It is tobacco tar that the aerosol, which generates matrix,.
The tobacco tar is free of nicotine.
It further includes collapsing component that the aerosol, which generates product,;The gathering component is set to the carrier and the suction nozzleBetween component, the component that collapses includes through the gathering channel for collapsing component.
It further includes uniform piece that the aerosol, which generates product,;The uniform piece is set to the gathering component and suction nozzleBetween component, the uniform piece be used for make by gas cooling after enter back into mouthpiece part.
In order to achieve the above object, the utility model additionally provides a kind of aerosol generation product, including:Mouthpiece part,Aerosol generates matrix, carrier and container assemblies;The carrier generates matrix for carrying the aerosol, and the carrier hasCarrier through-hole;The container assemblies generate matrix for accommodating the carrier and the aerosol, and the container assemblies are closeOne end of the mouthpiece part is set as being open, and one end far from the mouthpiece part is provided with peelable sealing element, it is described canThe first end that sealing element covers the carrier through-hole is torn, the second end of the carrier through-hole is located at the opening side.
The peelable sealing element is equipped with tearable opening structure.
It further includes collapsing component that the aerosol, which generates product,;The gathering component is set to the carrier and the suction nozzleBetween component, the component that collapses includes through the gathering channel for collapsing component.
It further includes uniform piece that the aerosol, which generates product,;The uniform piece is set to the gathering component and suction nozzleBetween component, the uniform piece be used for make by gas cooling after enter back into mouthpiece part.
In order to achieve the above object, the utility model additionally provides a kind of aerosol generation system, including aerosol generatesDevice and aerosol generate product, and the apparatus for aerosol creation generates product cooperation, the aerosol life with the aerosolInclude at product:Mouthpiece part, aerosol generate matrix, carrier and container assemblies;The carrier is for carrying the aerosolMatrix is generated, the carrier has carrier through-hole;The container assemblies generate base for accommodating the carrier and the aerosolMatter, the container assemblies are set as being open in one end close to the mouthpiece part, and one end far from the mouthpiece part is arrangedThere are peelable sealing element, the peelable sealing element to cover the first end of the carrier through-hole, the second end of the carrier through-holePositioned at the opening side;The apparatus for aerosol creation includes evaporation component;The side wall of the evaporation component is equipped with firstAir drain;Wherein, the first of the carrier through-hole exposed after the evaporation component is torn via the peelable sealing elementWhen the carrier through-hole is inserted at end, the side wall of the evaporation component is adjacent to the carrier, and first air drain is for guiding airThe evaporant that formation is evaporated after being heated with aerosol generation matrix enters the mouthpiece part.
Advantageous effect:
In the case where this apparatus for aerosol creation and aerosol generate the cooperating of product, aerosol is generated, user has suckedAfterwards, product can be generated to aerosol to abandon, matrix is generated without generating product injection aerosol to aerosol, it is non-It is often convenient.
Specific implementation mode
In conjunction with attached drawing, elaborate to the preferred embodiment of the utility model.
As shown in Figures 1 to 4, in a kind of embodiment of aerosol generation system, it includes aerosol life that aerosol, which generates system,At product 100 and apparatus for aerosol creation 200, apparatus for aerosol creation 200 generates product 100 with aerosol and coordinates.AerosolGenerating means 200 include evaporation component 210, crust of the device 240 and accommodate the accommodating chamber 241 that aerosol generates product 100, dressIt sets shell 240 and is equipped with air intake 242.Aerosol generates product 100 and includes mouthpiece part 150, aerosol generation matrix, carriesBody 120 and container assemblies 110.
It refers to that can generate the substance of aerosol under certain condition that aerosol, which generates matrix, for the aerosol of liquid formFor generating matrix, it usually needs aerosol is made to generate matrix evaporation and form evaporant (such as gas under heating conditionsBody), which forms aerosol under certain condition after being mixed with air.It can be tobacco tar, tobacco tar that aerosol, which generates matrix,May include glycerine (glycerine), propylene glycol, essence (or fragrance) and nicotine (nicotine), in above-mentioned tobacco tar, nicotine and/or perfume (or spice)Essence can be substituted by tobacco extract.Tobacco tar can not also include nicotine.
Carrier 12 0 is used to carry aerosol and generates matrix (such as the aerosol of liquid form generates matrix), and carrier 12 0 hasIt is useful for the carrier through-hole 121 being inserted into for evaporation component 210.Carrier 12 0 may be used cotton (can be heat safe cotton),Porous ceramics, glass fibre etc. or other porous structures with certain absorption liquid ability.
The aerosol that container assemblies 110 are used to accommodate carrier 12 0 and be carried in carrier 12 0 generates matrix, container groupPart 110 is being set as opening 112 close to one end of mouthpiece part 150, and one end far from mouthpiece part is provided with pierceable sealingPart 111, can pierce the first end 1211 that sealing element 111 covers carrier through-hole 121, and the second end 1212 of carrier through-hole 121 is located atOpening 112.Container assemblies 110 preferably select aerosol to generate matrix and its evaporate the material that the evaporant formed cannot easily penetrateMaterial, such as metal (such as aluminium foil), plastics etc..
Pierceable sealing element 111 is easy to be evaporated the puncture of component 210, pierced position can show as being crushed, tear,Or the states such as fall off, to the position for alloing the air of the first air drain 211 to pass through pierceable sealing element 111 pierced.It can pierceIndentation can be equipped with by wearing on sealing element 111 can pierce sealing element 111 when pierceable sealing element 111 is evaporated the puncture of component 210It is easy to fall off from container assemblies 110 along indentation direction rupture or even pierceable sealing element 111.Pierceable sealing element 111Area can be lucky covering sealing first end 1211, can also be as shown in figure 3, pierceable sealing element 111 further includes covering to carryThe hermetic unit 1112 of 120 end of body, when pierceable sealing element 111 is punctured, hermetic unit 1112 can keep original state.It canIt pierces through sealing element 111 and heat safe metal foil (thin layer), such as aluminium foil etc. may be used.
The side wall 215 of evaporation component 210 is equipped with the first air drain 211, and the overall profile of evaporation component 210 can be in circleThe top of the shapes such as column, cuboid, square, evaporation component 210 can be in the sharp shapes such as coniform, pierceable close to pierce throughSealing 111.
Sealing element 111 is can pierce in use, evaporation component 210 is pierced through, then evaporation component 210 is from carrier through-hole 121First end 1211 be inserted into, then evaporation component 210 stretch out second end 1212.When the aerosol on carrier 12 0 generates matrix quiltWhen evaporation component 210 heats, aerosol generates evaporation after matrix is heated and forms evaporant and enter the first air drain 211, works as userFrom mouthpiece part air-breathing when, as illustrated by the arrows in fig. 1, air enters from the upstream section of the first air drain 211, by pierceablePosition that sealing element 111 is punctured, the first air drain 211, opening 112 enter mouthpiece parts 150.Air is in the first air drain 211With the evaporant mixing resulting mixture, then.The mixture ultimately forms aerosol, and the position that aerosol is formed may be at thisIn first air drain 211, or in the downstream of the first air drain 211 (other than the first air drain 211).
In the above-described embodiments, since evaporation component 210 is adjacent to carrier 12 0 to generate base to the aerosol in carrier 12 0Matter is heated, and heating effect is fine, while the first air drain 211 is equipped on the side wall of evaporation component 210 so that aerosol is given birth toBeing evaporated the evaporant of formation by heating at matrix it is molten can to ultimately form gas under the air driven for flowing through the first air drain 211Glue.If evaporation component 210 is not adjacent to carrier 12 0, heating effect will have a greatly reduced quality because evaporation component 210 and carrier 12 0 itBetween gap in can need to increase to reach preferable heating effect and steam by the air of flowing, to take away more heat transferThe temperature for sending out component 210, to cause the battery durable ability of apparatus for aerosol creation 200 to reduce.
In some embodiments, the length of evaporation component 210 is set as being enough to puncture container assemblies 110 far from mouthpiece partThe pierceable sealing element 111 of 150 one end setting, and it is inserted into carrier through-hole 121, in this way, the mixture can be via the first air drain211 and the position that is punctured of pierceable sealing element 111 enter mouthpiece part 150.
The heat of evaporation component 210 can be generated that (such as evaporation component 210 is conductor, and evaporation component is in 210 electricity by itselfSource generates heat in the case of powering), it can also be generated by other component and be transmitted to evaporation component by connection by heat transferOn 210.For example, heating element (such as resistance wire) can be arranged in the inside or outer surface of evaporation component 210.
In further embodiments, as shown in Fig. 1,2,7 to 10, apparatus for aerosol creation 200 further includes heating element220, heating element 220 is located at the bottom of evaporation component 210, and forming heat transfer with evaporation component 210 connect, heating element 220For conducting the heat of generation to evaporation component 210.
In some preferred embodiments, heating element 220 includes heating element ontology and is arranged in heating element ontologyOn heater (such as resistance wire), the width of heating element 220 is more than the width of evaporation component 210, typically, aerosolThe width for generating product 100 is preferably suitable with the width of common cigarette, therefore the width of evaporation component 210 is generally also smaller,It is larger that heater (such as resistance wire) difficulty is set on evaporation component 210.And by the way that above-mentioned width is arranged below evaporation component 210(such as on disk) heater is arranged in the heating element 220 for spending bigger more conducively on heating element 220.
In some embodiments, the upstream section of the first air drain 211 is located at the bottom of evaporation component 210, into aerosolThe air of generating means 200 is used to, close to the upstream section for entering the first air drain 211 after heating element 220, then again lead toCross the first air drain 211.In this way, air before reaching the first air drain 211 can heated member 220 preheat to a certain extent.As shown in Fig. 1,2,5,6,7,8 and 10, in some more preferably embodiment, in order to realize air close to by heating element 220,There is the second air drain 221, the second air drain 221 to be connected to the upstream section of the first air drain 211 for the upper surface of heating element 220, thisSample air can be along the second air drain 221 close to the upstream section for entering the first air drain 211 after heating element 220.
A plurality of first air drain 211 can be set as shown in Fig. 1,2,4,5 to 10, on the side wall of evaporation component 210, compared toOne the first air drain 211, a plurality of first air drain 211 are conducive to generate more aerosols within the same time.Correspondingly, Ke YisheThe second air drain 221 of respective numbers is set, every second air drain 221 is connected to corresponding one the first air drain 211, in this way, everyAir in second air drain 221 respectively enters corresponding first air drain 211.
As shown in Fig. 1,2,4 and 8, in other embodiments, also have along steaming in the bottom sidewall of evaporation component 210The third air drain 212 that parts surface extends is sent out, a plurality of first air drain 211 is connected to third air drain 212, and air enters third air drain(for example, second air drain 221 is only arranged in the upper surface of heating element 220, air is after the second air drain 221 passes through after 212Enter back into third air drain 212), then respectively enter every first air drain 211.As can be seen that third air drain 212 plays distribution skyEffect of the gas to the first different air drains 211.Third air drain 212 can be along the circumferencial direction in 210 bottom sidewall of evaporation componentExtend, according to the difference of length, third air drain 212 can be annular in shape, can also be in arc-shaped.
As it can be seen in figures 5 and 6, in other embodiments, above-mentioned third air drain 212 can also be arranged in heating elementOn 220 upper surface, after air enters third air drain 212, every first is respectively enterd again after the distribution of third air drain 212Air drain 211.In one embodiment, the upper surface of heating element 220 has above-mentioned second air drain 221 and third air drain simultaneously212, third air drain 212 is connected to the second air drain 221, and air passes through from the second air drain 221 and third air drain 212 successively, thenEnter back into the first air drain 211.
As shown in Figure 10, the air intake 242 of apparatus for aerosol creation 200, which can be arranged, is accommodating aerosol generation productAccommodating chamber 241 side wall, external air can pass through the air intake 242 and enter in apparatus for aerosol creation 200, and mostEnter the first air drain 211 (for example, air close to enter the first air drain 211 behind the upper surface of heating element 220) eventually.Such as figure1,2 and 5, shown in 7 to 10, apparatus for aerosol creation 200 can also be arranged in the air intake 242 of apparatus for aerosol creation 200Bottom, air enter from the air intake 242 and eventually enter into the first air drain 211.
As shown in Fig. 1,2,5,7 to 10, in some embodiments, between heating element 220 and crust of the device 240 be equipped with everyThermal part 230.As shown in Fig. 1,2,5,7 and 10, in some embodiments, which is equipped with the first heat insulating memberStomata 231, into the air in apparatus for aerosol creation 200 by the first heat insulating member stomata 231 after, then reach heating partThe upper surface of part 220, and eventually enter into the first air drain 211.Can have multiple first heat insulating member stomatas 231, each firstHeat insulating member stomata 231 is connected to corresponding one the first air drain 211, and air is respectively from each first heat insulating member stomata 231Into corresponding first air drain 211, for example, air passes through the first heat insulating member stomata 231, the second air drain 221 and third successivelyAir drain 212 enters corresponding first air drain 211.
As shown in FIG. 7 and 8, in other embodiments, it is equipped with the first heating element in the outer part on heating element 220Stomata 222, heat insulating member 230 is equipped with the second heat insulating member stomata 232, and (there are heat insulating members 230 below heating element 220In the case of), pass sequentially through the second heat insulating member stomata 232, first heating into the air in apparatus for aerosol creation 200After component stomata 222, then the second air drain 221 of the upper surface of heating element 220 is reached, and eventually enters into the first air drain 211.
As shown in figure 9, in another embodiment, heating element 220 is equipped with the second heating element stomata 223, evaporationThere is evaporation component air cavity 213 and evaporation component stomata 214, heat insulating member 230 to be equipped with third insulation part for the bottom of component 210Part stomata 233 (there are in the case of heat insulating member 230 below heating element 220), third heat insulating member stomata 233 passes through successivelyThe second heating element stomata 223, evaporation component air cavity 213 and evaporation component stomata 214 is crossed to be connected to the first air drain 211.IntoAir in apparatus for aerosol creation 200 passes through third heat insulating member stomata 233, the second heating element stomata 223, evaporation successivelyAfter component air cavity 213 and evaporation component stomata 214, into the first air drain 211 (when evaporation component 210 has third air drain 212,Air can enter above-mentioned third air drain 212 and then enter back into the first air drain 211).In some embodiments, evaporation component 210Bottom multiple evaporation component stomatas 214 can be set, each evaporation component stomata 214 respectively with corresponding first air drain211 connections, in this way, into evaporation component air cavity 213 air respectively by corresponding evaporation component stomata 214 reach some theOne air drain 211.
First air drain 211 can be in the curve shape that extends along evaporation component surface (such as along 210 table of evaporation componentSurface helix rises) or rectilinear form, the first air drain 211 of curve shape can provide more than the first air drain 211 of linear type shapeBig air resistance is presented as that user needs the suction of bigger when aspirating aerosol and generating product 100.
As illustrated in fig. 1 and 2, apparatus for aerosol creation 200 can also include power supply part 250, power supply part 250 and heatingHeat insulating member 230 is also equipped between component 220 or evaporation component 210.Power supply part 250 is used to carry out heating element 220Power supply, power supply part 250 include battery and related power supply circuit.The temperature of heating element 220 is higher when work, therefore this is heat-insulatedComponent 230 can reduce influence of the temperature of heating element 220 to power supply part 250.
When being heated to heating element 220 or evaporation component 210, power supply part 220 is easy fever, and aerosol generatesAir outside device 200 is after air intake enters apparatus for aerosol creation, followed by power supply part 250 and heat insulating memberAfter 230, the first air drain 211 is eventually entered into, during this, one side air radiates to power supply part 250, with to power supplyComponent 250 is protected, and the performance of power supply part 250 is maintained to stablize, and on the other hand, air is powered the heating of component 250, heatingAir afterwards enters in the first air drain 211, and the aerosol on ensureing carrier generates the evaporant that matrix is formed by heating evaporationIn the case of, the heating power of heating element 220 may not be needed original heating power (air do not flow through power supply part and byIn the case of heating) it is so high.
As shown in Figure 1, in another embodiment, the air outside apparatus for aerosol creation 200 is used for from air intakeAfter 242 enter apparatus for aerosol creation 200, respectively from the both sides of power supply part 250 (such as power supply part 250 and crust of the deviceGap between 240) flow through power supply part 250 after, after entering heat insulating member 230 from the both sides of heat insulating member 230, using everyEnter the first air drain 211 after thermal part 230.Power supply part 250 can more effectively radiate in this way, while air can also more fillGround is divided to be heated;Meanwhile open up the first heat insulating member stomata 231 by air in the both sides of heat insulating member 230, compared toThe centre position trepanning (such as third heat insulating member stomata 233) of heat insulating member 230, can reduce the heat of heating element 220Influence to power supply part 250.
As shown in Figure 10, in another embodiment, the crust of the device 240 beside heat insulating member is equipped with air intake242, the air outside apparatus for aerosol creation 200 flows through heat-insulated after air intake 242 enters apparatus for aerosol creation 200The first air drain 211 is entered back into after component 230.
As shown in figure 3, in one embodiment, it further includes collapsing component 130 that aerosol, which generates product 100, collapses component130 are set between carrier 12 0 and mouthpiece part 150, and it includes through the gathering channel for collapsing component 130 to collapse component 130131, evaporant is collapsed and/or be mixed with the mixture of air or aerosol.
As shown in figure 3, in one embodiment, it further includes uniform piece 140, uniform piece that aerosol, which generates product 100,140 are set to and collapse between component 130 and mouthpiece part 150, uniform piece 140 be used for by mixture or aerosolIt carries out entering back into mouthpiece part 140 uniformly, after cooling.
Mouthpiece part 150 can be columnar filter tip, and cigarette filter filter core may be used in the filter core of the filter tipMaterial, such as cellulose acetate etc., filter core can also use other materials.In one embodiment, collapse component 130, uniformlyComponent 140,150 shape of mouthpiece part are all the identical cylinders of outer diameter, and three stacks gradually.
As shown in figure 11, it is another embodiment of aerosol generation product 100, aerosol product as shown in figure 3100 the difference is that:Seal assembly 110 can not puncture sealing element 112 and peelable sealing element 111, that is to say, that evaporation partPart 210 is directly inserted into carrier through-hole 121.As shown in figure 12, it is another embodiment of aerosol generation product 100,Its aerosol product 100 as shown in figure 3 the difference is that:Seal assembly 110 can not puncture sealing element 112, that is to say, thatAfter peelable sealing element 111 is torn, evaporation component 210 is inserted through carrier through-hole 121.Implement in above-mentioned twoIn example, there is no play the effect pierced through for evaporation component 210.
As shown in figure 11, it is another embodiment of aerosol generation product 100, aerosol product as shown in figure 3100 the difference is that:Container assemblies 110 are without the pierceable sealing element 111, that is to say, that container assemblies 110 are opened including twoMouthful, evaporation component 210 can be inserted into carrier through-hole directed along the first end 1211 of carrier through-hole 121.
As shown in figure 12, it is another embodiment of aerosol generation product 100, aerosol product as shown in figure 3100 the difference is that:Container assemblies 110 include being located at carrier through-hole 121 without the pierceable sealing element 111, container assemblies 110The side of first end 1211 covering carrier 12 0 first seal 1112, be located at 1212 side of second end of carrier through-hole 121Covering carrier 12 0 second seal 1111 and positioned at 121 side wall of carrier through-hole cover carrier 12 0 third sealing element1113, first seal 1112, second seal 1111, third sealing element 1113 and outer seal 113 surround enclosure space,Matrix is generated with the aerosol in seal carrier and carrier.Have on side wall on evaporation component 210 and scratch structure, works as evaporationIt when component 210 is inserted into carrier along carrier through-hole 121, scratches structure and scratches third sealing element 1113, to which aerosol generates baseThe evaporant that matter is formed by heating evaporation can enter the first air drain 211 on evaporation component 210.
As shown in figure 13, it is another embodiment of aerosol generation product 100, aerosol product as shown in figure 3100 the difference is that:Pierceable sealing element is substituted by peelable sealing element 111.Peelable sealing element 111 is easy to be torn, and suppliesUser tears to expose the first end 1211 of carrier through-hole 121, and aluminium foil, plastic foil etc. may be used in peelable sealing element 111Thin layer.Peelable sealing element 111 preferably use can not pierceable material, it is more difficult broken in this way, more conducively store and transport.It canThe area for tearing sealing element 111 can be lucky covering sealing first end 1211, can also be as shown in figure 13, peelable sealing element111 further include the part 1112 for covering 0 end of carrier 12, and in one embodiment, peelable sealing element 111 can also have canTear structure, such as extension 11121, to facilitate user to tear.
In use, first tearing peelable sealing element 111, the first end 1211 of carrier through-hole 121 is exposed, and will evaporateComponent 210 is inserted into from the first end 1211 of carrier through-hole 121, and is stretched out from second end 1212.When the aerosol life on carrier 12 0When being evaporated the heating of component 210 at matrix, aerosol generates evaporation after matrix is heated and forms evaporant and enter the first air drain211, when user is from mouthpiece part air-breathing, as illustrated by the arrows in fig. 1, air enters from the upstream section of the first air drain 211First air drain 211.Air is with the evaporant mixing resulting mixture in the first air drain 211, and then the mixture is via the first gasSlot 211 enters mouthpiece part 140.
Peelable sealing element 111 is substituted according to sealing element can be punctured, sealing element can be punctured when evaporation component 210 pierces through thisAfterwards, then by aerosol generation product 100 when extraction from apparatus for aerosol creation 200, this, which can puncture sealing element, to fall offAnd remain in apparatus for aerosol creation 200, to need user to clear up apparatus for aerosol creation 200.And this implementationIn example, by using peelable sealing element 111 it is possible to prevente effectively from such case occurs.
It should be understood that above example is only to illustrate the technical solution of the utility model, it is rather than its limitations, rightFor those skilled in the art, it can modify to technical solution described in the above embodiment, or to which part skillArt feature carries out equivalent replacement;And all such modifications and replacement, it should all belong to the protection of the appended claims for the utility modelRange.