CN207604513U - Aerosol product product - Google Patents

Abstract

The utility model is related to a kind of aerosol product product.The aerosol product product and aerosol generating device in conjunction with and generate aerosol, the aerosol product product include：Tobacco rod；And cooling structure, the cooling structure include the one or more fibre bundles being woven together.

Description

Aerosol product product

Cross reference to related applications

This application claims respectively on December 16th, 2016, on April 11st, 2017, on April 28th, 2017, June 1 in 2017 Day, the August of on June 19th, 2017,2017 9 days and August in 2017 the Korean Patent Shen submitted to Korean Intellectual Property Office on the 9th It please No.10-2016-0172889,10-2017-0046938,10-2017-0055756,10-2017-0068665,10-2017- 0077586, the disclosure of the equity of 10-2017-0100888 and 10-2017-0101343, these South Korea patent applications is logical Reference is crossed to be integrally incorporated herein.

Technical field

One or more embodiments are related to aerosol product product.

Background technology

Burning type cigarette or non-combustion-type (hot type) cigarette include for filter specific components that aerosol includes or The filter tip of cooling aerosol.Recently, it is carrying out the component by changing filter tip or is changing the structure of filter tip to improve The research of the performance of this filter tip.

Utility model content

One or more embodiments are related to aerosol product product.In more detail, one or more embodiments are related to It is included in the element of specific components in aerosol for cooling down aerosol and filtering.

In addition aspect will be set forth in part in the description which follows and part will be obvious from the description, or Person can be understood by implementing embodiment of the present disclosure.

According to one or more, embodiment there is provided a kind of aerosol product product, the aerosol product product and gas Colloidal sol generation device in conjunction with and generate aerosol, the aerosol product product include：Tobacco rod；And cooling structure, it is described Cooling structure includes the one or more fibre bundles being woven together.

One or more fibre bundles can be manufactured by using biodegradable polymer material.

Biodegradable polymer material may include polylactic acid (PLA), poly butyric ester (PHB), acetate fiber In plain, poly- 6-caprolactone (PCL), polyglycolic acid (PGA), polyhydroxyalkanoates (PHA) and thermoplastic resin based on starch At least one.

Each of one or more fibre bundles can be manufactured by weaving an at least filament.

One or more fibre bundles can each include mainstream and multiple subflows.

The cooling structure may include for the aerosol by least one channel, and at least one channel can To be filled with predetermined material.

The cooling structure may include for the aerosol by least one channel, and it is described at least one logical It road can be equipped with another cooling structure for including at least one channel.

The cooling structure may include for the aerosol by least one channel, and it is described at least one logical Road can be filled with and crimp piece made of polylactic acid.

The length of cooling structure can be more than or equal to 5mm and be less than or equal to 20mm.

Aerosol product product can also include：First filter tip section is configured to contact tobacco rod and cooling knot Structure；And the second filter tip section, it is configured to contact cooling structure.

First filter tip section may include at least one hollow space.

The length of first filter tip section can be determined based on the length of aerosol product product.

Second filter tip section may include at least one capsule.

According to one or more, embodiment there is provided a kind of aerosols combined with aerosol product product to generate dress It sets, which includes：Battery；And it is configured to the heater by being heated from the electric power of battery supplied.

Heater can be further configured to be inserted into aerosol product product.

Description of the drawings

From the description below in conjunction with the accompanying drawings to embodiment, these and/or other aspects will be apparent and be easier Understand, in the accompanying drawings：

Fig. 1 shows the example that cigarette is inserted into aerosol generating device；

Fig. 2A and 2B is the figure for the construction for showing the cigarette according to embodiment；

Fig. 3 A and 3B show the example of the fibre bundle according to embodiment；

Fig. 4 shows the example of fibre bundle according to another embodiment；

Fig. 5 A and Fig. 5 B are the figures according to the cooling structure including the channel on longitudinal direction of embodiment；

Fig. 6 A to Fig. 6 C are the views according to the cooling structure including channel along longitudinal direction of another embodiment；

Fig. 7 A and Fig. 7 B are the views according to the cooling structure including channel along longitudinal direction of another embodiment；

Fig. 8 is the view for the cooling structure being filled according to the inside of embodiment；

Fig. 9 A and Fig. 9 B are the views for the cooling structure being filled according to the inside of another embodiment；

Figure 10 is the view for the cooling structure being filled according to the inside of another embodiment；

Figure 11 A and 11B are the figures according to the cooling structure including multiple channels of embodiment；

Figure 12 is the figure including multiple channels and the internal cooling structure being filled according to embodiment；

Figure 13 A to 13E are the figures according to the cooling structure including multiple channels of another embodiment；

Figure 14 is the view according to the chip cooling structure of embodiment；

Figure 15 A and Figure 15 B are the views according to the chip cooling structure of another embodiment；

Figure 16 is the view according to the granular pattern cooling structure of embodiment；With

Figure 17 A to Figure 17 C are the figures according to the cooling structure for being manufactured into prosthese of embodiment.

Specific implementation mode

The term used in the present specification allows for about the function of the disclosure and currently makes extensively in the art With those of generic term, but term can be according to new in the intention, precedent or this field of those of ordinary skill in the art Technology and change.In addition, applicant can arbitrarily select some terms, and in this case, it will be in the detailed of this specification Describe the meaning of selected term in thin description in detail.Therefore, term used herein must be based on the meaning of term with it is whole Description in a specification defines together.

When component " include " or " contain " element, unless there are opposite to that specific description, otherwise the component can be with Including other elements, however not excluded that other elements.Term as " ... unit " or " ... module " refers to executing extremely in addition, such as The unit of few functions or operations, and these units may be implemented as hardware or software, or be implemented as hardware and The combination of software.

The disclosure is described more fully with reference to the drawings, so that those skilled in the art can have no difficulty Ground executes the disclosure.However, the disclosure can embody in many different forms, and should not be construed as being limited to herein The embodiment of elaboration.

The disclosure is described more fully with referring now to the attached drawing there is shown with embodiment.

Fig. 1 shows the example that cigarette 3 is inserted into aerosol generating device.

As shown in Figure 1, cigarette 3 be inserted into aerosol generating device (hereinafter referred to as " retainer " or " holding meanss ", wherein " aerosol generating device, retainer and holding meanss are identical, therefore may be used interchangeably herein ") 1.When cigarette 3 is inserted into When, heater 130 is located in cigarette 3.Therefore, the aerosol of cigarette 3 generates the heater 130 that material is heated and heats, with life At aerosol.

Cigarette 3 can be similar to traditional burning type cigarette.For example, cigarette 3 may include generating material comprising aerosol The first section 310 and the second section 320, etc. including filter tip.Cigarette 3 according to an embodiment may include second Aerosol in section 320 generates material.It is inserted into for example, can material be generated the aerosol that formed with particle or capsule form Into the second section 320.

Entire first section 310 is inserted into retainer 1, and the second section 320 can be externally exposed.Or The only a part of first section 310 can also be inserted into retainer 1 by person, or can be by the first section 310 and second A part for section 320 is inserted into retainer 1.

User can in the state that the second section 320 is maintained between lip by user Inhaled Aerosol.In this feelings Under condition, aerosol is generated when extraneous air passes through the first section 310, and generated aerosol passes through the second section 320 It is transported in the mouth of user.

Extraneous air can be introduced into 420 by being formed at least one of retainer 1 air duct.For example, no matter The air duct being formed in retainer 1 is to open or close and/or whether the size of air duct can be adjusted by user. Therefore, amount of smoke and the feeling of smoking can be adjusted by user.

Alternatively, extraneous air can be introduced into 410 by least one hole formed in the surface of cigarette 3.

Fig. 2A and Fig. 2 B are the views for the construction for showing the cigarette 3 according to embodiment.

With reference to Fig. 2A and Fig. 2 B, cigarette 3 includes tobacco rod 310, the first filter tip section 321, cooling structure 322 and second Filter tip section 323.The first section 310 of Figure 11 includes tobacco rod 310, and the second section 320 of Figure 11 includes the first filter tip Section 321, cooling structure 322 and the second filter tip section 323.

With reference to Fig. 2A, cigarette 3 can be covered by five packing materials, for example, the first to the 5th packing material 341,342,343, 344 and 345.With reference to Fig. 2 B, cigarette 3 can be covered by six packing materials, such as first to fourth packing material, 341,342,343 and 344 and the 6th and the 7th packing material 346 and 347.Tobacco rod 310 is covered by the first packing material 341, and the first filter tip area Section 321 is covered by the second packing material 342.In addition, cooling structure 322 is covered by second package object 343, and the second filter tip area Section 323 is covered by the 4th packing material 344.

The 5th packing material 345 of Fig. 2A can surround the outer surface of the first packing material 341, the second packing material 342 outer surface, The outer surface of the outer surface of second package object 343 and the 4th packing material 344.In other words, cigarette 3 can be by the 5th packing material 345 are covered with dual mode.

The 6th packing material 346 of Fig. 2 B can surround the outer surface of the first packing material 341, the second packing material 342 appearance The outer surface in face and second package object 343.In other words, the tobacco rod 310 of cigarette 3, the first filter tip section 321 and cooling knot Structure 322 can be covered by the 6th packing material 346 with dual mode.In addition, the 7th packing material 347 of Fig. 2 B can surround third packet Fill the outer surface of at least part of outer surface and the 4th packing material 344 of object 343.In other words, the cooling structure of cigarette 3 322 at least part and the second filter tip section 323 can again be covered by the 7th packing material 347.

The diameter of cigarette 3 can be but not limited to about 5mm to about 9mm, and length can be but not limited to about 48mm.It is preferred that Ground, cigarette 3 can have but be not limited to the diameter of 5mm or 7.2mm.Moreover, tobacco rod 310 can have but be not limited to about 12mm's Length, the first filter tip section 321 can have but be not limited to the length of about 10mm, and cooling structure 322 can have but be not limited to big The length of about 14mm, the second filter tip section 323 can have but be not limited to the length of about 12mm.

The structure of the cigarette 3 of Fig. 2A and Fig. 2 B is example, and can be omitted some elements.For example, the first filter tip area One or more of section 321, cooling structure 322 and second filter tip section 323 can not be included in cigarette 3.

Tobacco rod 310 includes that aerosol generates material.For example, it may include glycerine, propylene glycol, second that aerosol, which generates material, At least one of glycol, dipropylene glycol, diethylene glycol (DEG), triethylene glycol, tetraethylene glycol and oleyl alcohol.

In addition, tobacco rod 310 may include other additives of flavoring agent, wetting agent and/or such as organic acid.Flavoring agent Example may include Radix Glycyrrhizae, sucrose, fructose syrup, isosweet (high pyroglutamate slurry), cocoa power, lavender, Chinese cassia tree, beans It is cool, celery, fenugreek, bitter fragrant skin, santal, bergamot, fish pelargonium, honey essence, attar of rose, vanilla, lemon oil, orange oil, thin Lotus oil, caraway, brandy, jasmine, camomile, menthol, Yilan, Salvia japonica, spearmint, ginger, tabernaemontanus bulrush certain herbaceous plants with big flowers and coffee.In addition, profit The example of humectant may include glycerine and propylene glycol.

For example, tobacco rod 310 can be filled with tobacco leaf.Tobacco leaf can be generated by tobacco sheet cutting fragmentates.

Alternatively, tobacco rod 310 can be filled with the more tobacco filaments obtained by fine cut tobacco sheet.For example, cigarette Strand 310 can be formed by the same direction (for example, parallelly) or randomly combine more tobacco filaments by.In detail, cigarette Strand 310 can be formed by combining more tobacco filaments, and can form multiple vertical passages, and heater 130 can lead to Multiple vertical passage can be passed through by crossing multiple vertical passage insertion or aerosol.In this case, according to tobacco filament Size and arrangement, vertical passage can be uniform or non-uniform.

Every tobacco filament can be made into rectangular shape, and horizontal length is about 0.5mm to about 2mm, vertical length range It is about 5mm to about 50mm, thickness (height) ranging from about 0.1mm to about 0.3mm, but not limited to this.Preferably, every tobacco filament It can be made with horizontal length 0.9mm, vertical length 20mm, the rectangular shape of thickness (height) 0.2mm, but not limited to this. Moreover, it is about 100g/m2 to about 250g/m2 that a tobacco filament, which can be made into base weight, but not limited to this.Preferably, tobacco filament can be with The base weight with 180g/m2 is made.

First filter tip section 321 can be cellulose acetate filter mouth.For example, the first filter tip section 321 can be The wherein tubular structure with hollow space.The length of first filter tip section 321 can be but not limited to about 4mm to about 30mm.Preferably, the first filter tip section 321 can have but be not limited to the length of 10mm.

The diameter range for the hollow space being formed in the first filter tip section 321 can be but not limited to about 3mm to about 4.5mm。

Second filter tip section 323 can also be cellulose acetate filter mouth.For example, the second filter tip section 323 can be with It is but not limited to recess filter tip.Second filter tip section 323 can have the length within the scope of from about 4mm to about 20mm.Example Such as, the second filter tip section 323 can have but be not limited to the length of about 12mm.

Second filter tip section 323 can provide fragrance by spraying seasoned liquid to the second filter tip section 323.Or Person, the fiber that can be coated with the separation of seasoned liquid are inserted into the second filter tip section 323.It is generated in tobacco rod 310 Aerosol be cooled when across cooling structure 322, and aerosol after cooling is defeated by the second filter tip section 323 Give user.Therefore, when that will season element and be added to the second filter tip section 323, the taste for being conveyed to user can be improved Persistence.

In addition, at least one capsule 324 can be included in the second filter tip section 323.Capsule 324 can have it In the structure surrounded by shell of the content liquid containing flavoring substance.For example, capsule 324 can have spherical or cylindrical shape Shape.

The aerosol that the cooling of cooling structure 322 is generated when heater 130 heats tobacco rod 310.Therefore, user can inhale Enter to be cooled to the aerosol of proper temperature.

Due to phase transformation activity, cooling structure 322 can cool down aerosol.For example, the material of cooling structure 322 can cause to need Absorb the phase transformation activity of thermal energy, such as melting transition or glass transition.Because entering the temperature of cooling structure 322 in aerosol Degree is lower to occur the endothermic reaction, so can be reduced by the temperature of the aerosol of cooling structure 322.

The length or diameter of cooling structure 322 can change according to the shape of cigarette 3.For example, cooling structure 322 can have The length of about 7mm to about 20mm.Preferably, cooling structure 322 can have the length of about 14mm, but not limited to this.

Cooling structure 322 can be manufactured by using polymer material or biodegradable polymer material.For example, Polymer material can include but is not limited to gelatin, polyethylene (PE), polypropylene (PP), polyurethane (PU), fluorinated ethylene propylene (FEP) and combinations thereof.Biodegradable polymer material can include but is not limited to polylactic acid (PLA), poly butyric ester (PHB), cellulose acetate, poly- 6-caprolactone (PCL), polyglycolic acid (PGA), polyhydroxyalkanoates (PHA) and be based on starch Thermoplastic resin.

Preferably, cooling structure 322 can only be made of pure PLA.For example, cooling structure 322 can have by using Three-dimensional (3D) structure shape of the one or more filament made of pure PLA (hereinafter referred to as " one or more filaments) " manufacture Shape.In this regard, filametntary thickness and length, the filametntary quantity of formation cooling structure 322 and filametntary shape It can change.Because cooling structure 322 is made of pure PLA, it is possible to prevent the process by cooling structure 322 in aerosol Middle generation predetermined substance.

Cooling structure 322 can be manufactured by one or more techniques, and can add thereto by using by Packing material made of paper or polymer material surrounds the technique of the outer surface of cooling structure 322.In this regard, polymer material Can include but is not limited to gelatin, PE, PP, PU, FEP, and combinations thereof.

Hereinafter, with reference to Fig. 3 A to Fig. 4, the example of filament and the fibre bundle being made of plurality of fibers silk will now be described.

Fig. 3 A and 3B show the example of the fibre bundle according to embodiment.

Fig. 3 A and 3B show to form the example of the fibre bundle of cooling structure.As shown in Figure 3A, cooling structure 1300 can be with It is made of one or more braided fiber beams 1310.As shown in Figure 3B, fibre bundle 1320 can be by an at least filament 1330 It is formed.For example, fibre bundle 1320 can be formed by twisted plurality of fibers silk (for example, 40 silks).

Cooling structure 1300 can be manufactured by weaving at least one fibre bundle 1310 or 1320.If desired, fiber Beam 1,310 1320 can be formed by the filament for being coated with baste.Alternatively, fibre bundle 1310 or 1320 can be by being coated with baste Individual filament and the filament 1330 made of PLA formed.Alternatively, filament 1330 can be dyed with predetermined color, And fibre bundle 1,310 1320 can be formed by coloured fibre silk 1330.

The benefit that the situation of cooling structure 1300 is manufactured by using fibre bundle 1310 or 1320 is as follows.

According to the first benefit, aerosol can flow between filament 1330, and can be according to cooling structure 1300 Shape formed whirlwind.The whirlwind of formation increases the area of cooling structure 1300 and aerosol exposure and increases aerosol and stops Stay in the time in cooling structure 1300.Therefore, the aerosol heated can be cooled efficiently.

According to second benefit, compared with general prosthese, by using the filament made of raw material (for example, PLA) The cooling structure 1300 of 1330 manufactures has high production rate.In other words, compared with general prosthese, by using filament 1330 The cooling structure 1300 of manufacture is easy cutting.It therefore, can be by cutting single cooling strand compared with the process of manufacture prosthese A large amount of filament 1330 is obtained, to which cooling structure 1300 has high production rate.

In addition, when the process for when manufacturing cooling structure, increasing cutting structure by extrusion forming, to reduce work The efficiency of skill.Moreover, there is limitation in manufacturing variously-shaped cooling structure.

According to third benefit, compared with membrane type cooling structure, by using the cooling structure of the manufacture of filament 1330 1300 in cigarette production process be advantageous.Stated differently, since membrane type cooling structure is easily crushed, thus be difficult to by Membrane type cooling structure is inserted into small cigarette 3.On the contrary, being easy to be inserted into using the cooling structure 1300 that filament manufactures fragrant In cigarette 3.

In addition, when in membrane type cooling structure inserted into cigarette 3, membrane type cooling structure may be crushed because of external impact. In this case, the aerosol cooling effect of cooling structure reduces.

Cooling structure 1300 according to the present embodiment manufactures (such as braiding) by using the fiber made of PLA, Therefore the risk that cooling structure 1300 is deformed or broken down due to external impact can be reduced.Moreover, by changing fiber The combined method of beam 1310 and 1320 can be manufactured with variously-shaped cooling structure 1300.

In addition, due to manufacturing cooling structure 1300 by using filament 1330, so increasing and aerosol exposure The area on surface.Therefore, the aerosol cooling effect of cooling structure 1300 can be further increased.

Fig. 4 shows the example of fibre bundle 1400 according to another embodiment.

As shown in figure 4, fibre bundle 1400 may include mainstream 1410 and multiple subflows 1420.In this regard, mainstream 1410 can have the shape formed by winding plurality of fibers silk.Moreover, subflow 1420 indicates that at least one filament exists It is combined in the space formed in mainstream 1410, and fibre bundle 1400 can be with the shape of feather of birds.

To formed the filametntary quantity of mainstream 1410 or subflow 1420 there is no limit.Therefore, the thickness of mainstream 1410 or The thickness of person's subflow 1420 can change according to filametntary quantity.

In addition, being connected to the subflow 1420 of mainstream 1410 may not be aligned along specific direction.In other words, when multiple subflows 1420 with mainstream 1410 when combining, multiple subflows 1420 can each of towards in different directions or multiple subflows 1420 Some can be towards different directions.

Back to Fig. 2A and 2B, at least one channel can be included in the cross section of cooling structure 322.Channel executes Aerosol can by channel function.In this respect, the direction in channel is not limited to longitudinal (that is, the axis of cooling structure 322 To), and channel can be formed in all directions.

The diameter in channel can differently be determined according to the process of manufacture cooling structure 322.The diameter in channel can be with base It is adjusted or the diameter in channel can be based on cooling structure 322 in the thickness and/or quantity of the fibre bundle of cooling structure 322 Weaving pattern adjust.

Uniform channel can be arranged in cooling structure 322.In other words, cooling structure 322 can be manufactured so that Channel can be evenly distributed in all cross sections.By doing so, the flowing of the aerosol through overcooling structure 322 can be Smoothly.

Hereinafter, with reference to Fig. 5 A to Fig. 7 B, showing for the cooling structure 322 including the channel on longitudinal direction will now be described Example.

Fig. 5 A and Fig. 5 B are the figures according to the cooling structure 1500 including the channel on longitudinal direction of embodiment.

With reference to Fig. 5 A, cooling structure 1500 can have cylindrical shape.For example, it includes one that cooling structure 1500, which can have, The cylindrical of the filter tip in a channel 1510.Fig. 5 B are the cross-sectional views of cooling structure 1500 shown in Fig. 5 A.Scheming In 5B, the hollow space 1520 of cooling structure 1500 corresponds to channel.

Fig. 6 A to Fig. 6 C be according to another embodiment include that the cooling structure 1600 in channel on longitudinal direction regards Figure.

Fig. 6 A to Fig. 6 C show the example of the cooling structure 1600 manufactured by weaving multiple fibre bundles.This point On, fibre bundle refers to the one or more filaments for weaving or gathering together.In more detail, Fig. 6 B and Fig. 6 C are shown cold But the cross section of structure 1600 at different locations.The hollow space 1610 of Fig. 6 B and the hollow space 1620 of Fig. 6 C correspond to respectively In channel.

For example, the quantity for forming the fibre bundle of cooling structure 1600 can at least but be not limited to 2.Included in fibre bundle Filametntary quantity can at least be but not limited to 1.In addition, the filametntary quantity for including in each fibre bundle can be each other It is identical or different.

As shown in Figure 6B, cooling structure 1600 can be manufactured by using 8 fibre bundles, but the present disclosure is not limited to This.For example, cooling structure 1600 can be manufactured by using 6 or 9 fibre bundles.

Fig. 7 A and Fig. 7 B be according to another embodiment include that the cooling structure 1700 in channel on longitudinal direction regards Figure.

Fig. 7 A and Fig. 7 B show the example of the cooling structure 1700 manufactured by weaving multiple fibre bundles.In more detail It says, Fig. 7 B show the cross section of cooling structure 1700 shown in Fig. 7 A.For example, cooling structure shown in Fig. 7 A and Fig. 7 B 1700 hardness can be different from shown in Fig. 6 A and 6B shown in cooling structure 1600 hardness.Moreover, the hollow portion of Fig. 7 B 1710 are divided to correspond to channel.

Space in the channel of cooling structure 1500,1600 and 1700 shown in Fig. 5 A to Fig. 7 B can be filled with pre- If material (for example, the sheet material made of PLA, using filament produce other structures, curling filament etc.).According to manufacture The process of cooling structure 1500,1600 or 1700 can differently determine the filling extent (filling of the predetermined material in channel Rate).

Filametntary quantity in space to be filled in cooling structure 1500,1600 or 1700 can be according to various Purpose is adjusted, and the shape of structure differently can be changed and be manufactured.For example, by change fiber the gross area or Filametntary arrangement can be manufactured with variously-shaped cooling structure 1500,1600 or 1700.

Hereinafter, with reference to Fig. 8 to Figure 10, will now be described internal cooling structure 1500 filled with predetermined material, The example of 1600 and 1700 (for example, another cooling structures).

Fig. 8 is the view for the cooling structure 1800 being filled according to the inside of embodiment.

Fig. 8 is shown in which showing for the cooling structure 1800 that the second minor structure 1820 is filled in the first minor structure 1810 Example.In this regard, the first minor structure 1810 can be the cooling structure for including at least one channel.For example, the first minor structure 1810 can be but not limited to above with reference to one of Fig. 5 A to 7B cooling structures 1500,1600 and 1700 described.Change sentence It talks about, the first minor structure 1810 can be manufactured by weaving at least one filament or at least one fibre bundle.

The second minor structure 1820 can be filled with by being formed at least one of the first minor structure 1810 channel.For example, Fig. 8 Show the curling chip filter tip as the second minor structure 1820.Chip filter tip is described below with reference to Figure 14.

Fig. 9 A and Fig. 9 B are the views for the cooling structure 1900 being filled according to the inside of another embodiment.

Fig. 9 A and Fig. 9 B are shown in which the cooling structure that the second minor structure 1920 is filled in the first minor structure 1910 1900 example.Fig. 9 B show the cross section of cooling structure 1900 shown in Fig. 9 A.First minor structure 1910 can be packet Include the cooling structure at least one channel.For example, the first minor structure 1910 can be but not limited to retouch above by reference to Fig. 5 A to 7B One of cooling structure 1500,1600 and 1700 stated.

The second minor structure 1920 being filled in the channel of the first minor structure 1910 can be by weaving multiple fibre bundles And the structure manufactured.For example, because the second minor structure 1920 is with identical with the diameter in channel of the first minor structure 1910 straight Diameter, so the second minor structure 1920 can be filled in the channel of the first minor structure 1910.With reference to Fig. 9 A and 9B, one is illustrated only A second minor structure 1920, but the present disclosure is not limited thereto.In other words, according to the diameter of the second minor structure 1920, multiple second Minor structure 1920 can be filled in the channel of the first minor structure 1910 of the first minor structure 1920.

Figure 10 is the view for the cooling structure 2000 being filled according to the inside of another embodiment.

Cooling structure 2000 shown in Figure 10 can have identical as cooling structure shown in Fig. 8 to 9B 1800 and 1900 Structure.In other words, cooling structure 2000 can have the channel 2010 that wherein another material is filled in the first minor structure In form.For example, channel 2010 can be filled with multiple filaments.In this regard, the filament of filling can have and not advise The shape (for example, a cotton) then assembled, but the present disclosure is not limited thereto.

With reference to shown in figure 5 above A to Figure 10, cooling structure may include channel along the longitudinal direction.However, the disclosure is not It is limited to this.In other words, cold in order to increase the surface area (that is, area with the surface of aerosol exposure) of per unit area But structure may include multiple channels, and the quantity in channel is unrestricted.Hereinafter, 1A to 13E referring to Fig.1, will now be described Include the cooling structure in multiple channels.

Figure 11 A and Figure 11 B are the figures according to the cooling structure 2100 including multiple channels 2110 of embodiment.

1A referring to Fig.1, cooling structure 2100 can be with the cylindricals for including multiple channels 2110.Such as Figure 11 A and Shown in 11B, cooling structure 2100 includes 13 channels 2110, but the quantity in channel is without being limited thereto.Moreover, Figure 11 B are Figure 11 A Shown in cooling structure 2100 sectional view.As shown in Figure 11 B, multiple hollow spaces 2120 of cooling structure 2100 correspond to respectively In channel.

For example, cooling structure 2100 can be by making the combination of cooling structure 1500 shown in multiple Fig. 5 A and 5B It makes.That is, the quantity in the channel 2110 being included in cooling structure 2100 can the quantity based on cooling structure 1500 come It determines.However, the method for manufacture cooling structure 2100 is not limited to the above.

Since cooling structure 2100 is fabricated by combining multiple cooling structures 1500, so adjacent to each other Space 2130 between cooling structure 1500 can execute the function in channel.Therefore, even if it is logical in multiple cooling structures 1500 Road is obstructed due to phase change, and aerosol can also easily pass through cooling structure 2100.

Figure 12 is the figure including multiple channels and the internal cooling structure 2200 being filled according to embodiment.

As shown in figure 12, cooling structure 2200 can be formed by combining multiple cooling structures 2210.For example, each Cooling structure 2210 includes a channel, and because cooling structure 2210 is combined, cooling structure 2200 may include Multiple channels.

For example, each cooling structure 2210 can be manufactured by using fibre bundle shown in Fig. 4 1400.In other words It says, each cooling structure 2210 can be manufactured by weaving multiple fibre bundles 1400, and the subflow 1420 of fibre bundle 1400 It can be placed in the channel of each cooling structure 2210.In this case, with each cooling structure of aerosol exposure 2210 cross-sectional area increases due to subflow 1420, can further increase aerosol cooling effect.

As shown in 1A to Figure 12 referring to Fig.1 above, cooling structure may include along the longitudinal direction with same shape Multiple channels.The multiple channels being formed in cooling structure are not limited to Figure 11 A to Figure 12.Hereinafter, 3A to 13E referring to Fig.1, now It include another example of the cooling structure in multiple channels by description.

Figure 13 A to 13E are the figures according to the cooling structure 2300 including multiple channels of another embodiment.

Figure 13 A to Figure 13 E show the example of the cooling structure 2300 including multiple channels.In more detail, Figure 13 B are extremely 13E shows the cross section of the cooling structure 2300 of Figure 13 A according to various embodiment variants.

As shown in FIG. 13A, each cross section of cooling structure 2300 may include multiple channels 2310.In addition, such as Figure 13 B Shown in 13D, channel 2320,2330 and 2340 respective positions and/or size can be according to the mistakes of manufacture cooling structure 2300 Journey and change.As shown in figure 13e, according to multiple channel respective positions, cooling structure 2300 can be manufactured into including one not Intermittent gas channel 2350.

Above with reference to as described in Fig. 5 A to Figure 13 E, cooling structure can be manufactured such that including at least one hollow channel.So And other than the shape including hollow channel, cooling structure can be manufactured with variously-shaped.

For example, cooling structure can be manufactured with sheet.Hereinafter, referring to Fig.1 4 to Figure 15 B, it will now be described and be manufactured into The example of the cooling structure of sheet.Moreover, cooling structure can manufacture in granular form.Hereinafter, with reference to figure 16, will now be described The example of the cooling structure manufactured in granular form.Moreover, cooling structure can be manufactured into the prosthese made of PLA.Hereinafter, The example for the cooling structure for being manufactured into prosthese will now be described in 7A to 17C referring to Fig.1.

By curing process, cooling structure 322 can have various types of hardness.

Figure 14 is the view according to the chip cooling structure 2400 of embodiment.

Cooling structure (also referred to as " chip cooling structure ") 2400 can be made with sheet.For example, chip is cold But structure 2400 can be, but not limited to be manufactured without the filament of specific direction by compressing intensive placement.

Predetermined material (for example, active carbon particle) can be inserted into chip cooling structure 2400.For example, can will preset Material is coated on the first chip cooling structure, and the second chip cooling structure is placed on the first chip cooling structure, Then the second chip cooling structure is compressed, so that predetermined material can be inserted into the chip cooling structure 2400 of compression In.However, the process of manufacture chip cooling structure 2400 is not limited to above-mentioned example.

Figure 15 A and 15 are the views according to the chip cooling structure 2500 of another embodiment.

Figure 15 A and 15B are the exemplary views of the internal cooling structure 2500 being filled.In more detail, Figure 15 B are shown The cross section of the cooling structure 2500 of Figure 15 A.For example, the cooling structure 2500 of Figure 15 A can be by being cooled down with another chip Structure covers the outer surface of the chip cooling structure of curling to manufacture.

Figure 16 is the view according to the granular pattern cooling structure 2600 of embodiment.

Figure 16 shows the granular pattern cooling structure by using at least one filament or the manufacture of at least one fibre bundle 2600 example.For example, cooling structure 2600 can be by gathering at least one filament or at least one fibre bundle one Or random braiding manufactures.

Figure 17 A to Figure 17 C are the figures according to the cooling structure 2710 for being manufactured into prosthese of embodiment.

As shown in Figure 17 A, cooling structure 2710 can be filled with each particle made of PLA, tobacco leaf or charcoal. Moreover, particle can each be made of the mixture of PLA, tobacco leaf and charcoal.Other than PLA, tobacco leaf, and/or charcoal, often A particle can further include the element for improving aerosol cooling effect.

As seen in this fig. 17b, cooling structure 2720 may include the first cross section 2721 and the second cross section 2722.

First cross section 2721 can be with the first filter tip section 321 shown in hookup 2A and 2B, and can have Aerosol is introduced into cavity therein.It second cross section 2722 can be with the second filter tip section shown in hookup 2A and Fig. 2 B 323, and can have the cavity for being released from aerosol.For example, although the first cross section 2721 and the second cross section 2722 In each can have there are one cavity, and the cavity of the first cross section 2721 and the second cross section 2722 can have phase Same diameter, the diameter and quantity of the cavity formed in the first cross section 2721 and the second cross section 2722 are without being limited thereto.

In addition, cooling structure 2720 may include with a plurality of cavities and being located at the first cross section 2721 and the second cross section Third cross section 2723 between 2722.For example, the diameter of each of a plurality of cavities formed in third cross section 2723 can With the diameter less than the cavity formed in each in the first cross section 2721 and the second cross section 2722.Moreover, being formed The quantity of cavity in third cross section 2723 can be more than every in the first cross section 2721 and the second cross section 2722 The quantity of the cavity of a middle formation.

In Figure 17 C, cooling structure 2730 may include 2731 He of the first cross section for contacting the first filter tip section 321 Contact the second cross section 2732 of the second filter tip section 323.Moreover, cooling structure 2730 may include one or more channels 2733.Channel 2733 can each of covered by micropore packaging material, and can be separately filled with filler (for example, above The particle of 7A descriptions referring to Fig.1) to increase aerosol cooling effect.

The aerosol across cooling structure can be cooled down according to the cooling structure of one or more embodiments.Particularly, Uniform channel is distributed in cooling structure, so that the flowing of aerosol can be stable, and aerosol cooling effect It can also improve.

In addition, cooling structure can filter the certain material included in aerosol.Since cooling structure is by pure PLA systems At, thus can prevent aerosol from passing through cooling structure when generate predetermined substance.

In addition, because generate whirlwind when aerosol passes through cooling structure, it is possible to improve the cooling, specific of aerosol The filtering etc. of material.

Although specifically illustrating and describing the disclosure with reference to the embodiments herein, embodiment and term are only used In the explanation disclosure, and it should not be construed as limited to the scope of the present disclosure being defined by the claims.These embodiments should Be to be considered only as it is descriptive rather than the purpose for limitation.Therefore, the scope of the present disclosure is not retouching in detail by the disclosure It states but is defined by the following claims, and all differences within the scope of this are to be interpreted as being included in the present disclosure.

Claims (10)

1. a kind of aerosol product product, the aerosol product product and aerosol generating device in conjunction with and generate aerosol, The aerosol product product include：

Tobacco rod；With

Cooling structure, the cooling structure include the one or more fibre bundles being woven together.

2. aerosol product product according to claim 1, wherein one or more of fibre bundles are by using can Biodegradable polymer material and manufacture.

3. aerosol product product according to claim 2, wherein the biodegradable polymer material includes poly- Lactic acid (PLA), poly butyric ester (PHB), cellulose acetate, poly-epsilon-caprolactone (PCL), polyglycolic acid (PGA), poly- hydroxyl alkane Acid esters (PHA) and at least one of thermoplastic resin based on starch.

4. aerosol product product according to claim 1, wherein each of one or more of fibre bundles are equal It is manufactured by weaving an at least filament.

5. aerosol product product according to claim 1, wherein each of one or more of fibre bundles are equal Including mainstream and multiple subflows.

6. aerosol product product as described in claim 1, wherein

The cooling structure include for the aerosol by least one channel, and

At least one channel is filled with predetermined material.

7. aerosol product product as described in claim 1, wherein

The cooling structure include for the aerosol by least one channel, and

At least one channel is equipped with another cooling structure for including at least one channel.

8. aerosol product product according to claim 1, wherein

The cooling structure include for the aerosol by least one channel, and

At least one channel is filled with and crimps piece made of polylactic acid.

9. aerosol product product according to claim 1, wherein the length of the cooling structure is equal to or more than 5mm And it is equal to or less than 20mm.

10. aerosol product product according to claim 1 further include at least one filter tip section.