EP4230062A1 - Produit de génération d'aérosol - Google Patents

Produit de génération d'aérosol Download PDF

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Publication number: EP4230062A1
Authority: EP; European Patent Office
Prior art keywords: aerosol; cavity; generating; generating product; matrix
Prior art date: 2022-02-17
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.): Pending

Application number

EP23156941.9A

Other languages

German (de)

English (en)

Inventor

Xu Wang

Jing Yang

Gangqiang XU

Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)

Shanghai Tobacco Group Co Ltd

Shanghai New Tobacco Products Research Institute Co Ltd

Original Assignee

Shanghai Tobacco Group Co Ltd

Shanghai New Tobacco Products Research Institute Co Ltd

Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)

2022-02-17

Filing date

2023-02-15

Publication date

2023-08-23

2023-02-15 Application filed by Shanghai Tobacco Group Co Ltd, Shanghai New Tobacco Products Research Institute Co Ltd filed Critical Shanghai Tobacco Group Co Ltd

2023-08-23 Publication of EP4230062A1 publication Critical patent/EP4230062A1/fr

Status Pending legal-status Critical Current

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Classifications

- A—HUMAN NECESSITIES
- A24—TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
- A24D—CIGARS; CIGARETTES; TOBACCO SMOKE FILTERS; MOUTHPIECES OF CIGARS OR CIGARETTES; MANUFACTURE OF TOBACCO SMOKE FILTERS OR MOUTHPIECES
- A24D1/00—Cigars; Cigarettes
- A24D1/20—Cigarettes specially adapted for simulated smoking devices
- A—HUMAN NECESSITIES
- A24—TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
- A24D—CIGARS; CIGARETTES; TOBACCO SMOKE FILTERS; MOUTHPIECES OF CIGARS OR CIGARETTES; MANUFACTURE OF TOBACCO SMOKE FILTERS OR MOUTHPIECES
- A24D1/00—Cigars; Cigarettes
- A24D1/22—Cigarettes with integrated combustible heat sources, e.g. with carbonaceous heat sources
- A—HUMAN NECESSITIES
- A24—TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
- A24D—CIGARS; CIGARETTES; TOBACCO SMOKE FILTERS; MOUTHPIECES OF CIGARS OR CIGARETTES; MANUFACTURE OF TOBACCO SMOKE FILTERS OR MOUTHPIECES
- A24D3/00—Tobacco smoke filters, e.g. filter tips or filtering inserts; Filters specially adapted for simulated smoking devices; Mouthpieces of cigars or cigarettes
- A24D3/17—Filters specially adapted for simulated smoking devices

Definitions

the present invention relates to the field of aerosol generation technology, in particular to an aerosol-generating product.
aerosol-generating products have received attention from a wide range of tobacco consumers and have rapidly emerged worldwide, driving a great change in the world's tobacco landscape.
the aerosol-generating products whose aerosol forming matrix such as the tobacco matrix, is heated rather than burned, have attracted much attention because of the significant advantage in reducing the release of harmful constituents.
the heat-not-burn tobacco products are mainly composed of two portions: a cigarette and a heating device, wherein the profile of the cigarette is not substantially different from that of a conventional cigarette, which conforms to the characteristics of the heat-not-burn tobacco, but the heating device needs to be carried, which brings inconvenience to consumers.
the existing self-heating non-combustion cigarette includes a self-heating source and a tobacco matrix, the self-heating source is located at the end of the cigarette, such as carbon, and the tobacco matrix and the self-heating source are wrapped by cigarette paper.
the cigarette paper consists of aluminum foil and a heat-not-burn tobacco paper layer, the aluminum foil wraps the tobacco matrix and the self-heating source, and the paper layer wraps the aluminum foil. After the carbon is ignited, the aluminum foil transfers the heat to the tobacco matrix. The tobacco matrix will not burn, but its internal volatile constituents will be released, condensed and atomized to form the aerosol for puffing.
the prior art records the improved cigarette paper which is adapt to the heat-not-burn tobacco
the Chinese patent document with the publication number CN104452479B discloses a composite cigarette paper.
the cigarette made of the cigarette paper is similar to the existing cigarette in appearance.
the cut tobacco is heated through the heat generated by the burning of the outer cigarette paper via the aluminum foil layer, and the volatile constituents, such as aroma constituents and nicotine, produced by the heating and volatilization of the cut tobacco enter the mouth during puffing, thereby making a unique new type of low-temperature non-combustion tobacco product.
the Chinese patent document with the publication number CN204224923U discloses a cigarette paper with a certain thickness and high air permeability and high gram weight. Then, the aluminum foil is compounded on the cigarette paper through a binder, and then laser, electrostatic or mechanical drilling is carried out, so that the cigarette made of the cigarette paper is similar to the existing cigarette in appearance. After the cigarette is rolled and formed, the aluminum foil layer directly contacts with the cut tobacco.
the aluminum foil When the cigarette is ignited, the aluminum foil is heated by the combustion of the cigarette layer and the heat is transferred to the cut tobacco, and the volatile constituents such as aroma constituents and nicotine produced by the heating and volatilization of the cut tobacco are pumped into the mouth, thus making a unique new type of tobacco product.
the main problems of the aerosol-generating products are less smoke and higher aerosol temperature.
the conventional solid cellulose acetate tows of traditional cigarettes have high aerosol retention rate, which leads to less release of the aerosol-generating products and affects consumer experiences.
the problems addressed by the present invention are that the aerosol-generating product has a poor aerosol fuming effect and the consumer puffing experience is poor.
the objective of the present invention is to provide an aerosol-generating product, including: an aerosol-generating matrix; a first portion having a first cavity penetrating through the first portion in a first direction; a second portion having a second cavity penetrating through the second portion in the first direction, wherein the first cavity communicates with the second cavity; and a third portion, wherein the aerosol-generating matrix, the first portion, the second portion, and the third portion are disposed in sequence along the first direction, an aerosol generated by the aerosol-generating matrix heated by a heating body is able to pass through the first portion, the second portion, and the third portion in sequence; and the pressure drop of the aerosol-generating matrix is P D 1 and the total pressure drop of the first portion, the second portion and the third portion is P D 2, wherein 0.5 ⁇ P D 1/P D 2 ⁇ 5.
the aerosol-generating matrix is heated by the heating body to produce an aerosol, which flows sequentially through the first cavity, the second cavity and the third portion and is then puffed by a user.
the fuming effect of the aerosol released by the aerosol-generating product may be effectively enhanced, and the user has a good consumption experience.
aerosol-generating product is used herein to describe a product including an aerosol-forming base material that can be heated to produce an aerosol and deliver it to the consumer.
aerosol-forming base material denotes a base material capable of releasing volatile compounds upon heating to generate an aerosol. During use, the volatile compounds are released from the aerosol-forming base material by heat transfer.
the term 'aerosol-forming matrix' means consisting of or including an aerosol-forming base material capable of releasing volatile compounds upon heating to generate an aerosol.
the aerosol-forming matrix may be a solid aerosol-forming matrix.
the aerosol-forming matrix may include a tobacco-containing material containing volatile tobacco flavour compounds which are released from the matrix upon heating.
the aerosol-forming matrix may include a non-tobacco material.
the aerosol-forming matrix may include an aerosol former.
the aerosol former may include at least one of glycerine and propylene glycol.
the solid aerosol-forming matrix may include one or more of powder, granules, pellets, shreds, spaghettis, strips or sheets containing one or more of herb leaves, tobacco leaves, sheets of tobacco ribs, reconstituted tobacco, homogenised tobacco, extruded tobacco and expanded tobacco.
the solid aerosol-forming matrix may be in a loose form.
the aerosol-forming matrix may include a rod of the solid aerosol-forming matrix.
the wrapper may wrap the rod of the solid aerosol-forming matrix.
the third portion is a non-cavity structure.
100Pa ⁇ P D 1 ⁇ 300Pa 100Pa ⁇ P D 1 ⁇ 300Pa.
100Pa ⁇ P D 1 ⁇ 200Pa 100Pa ⁇ P D 1 ⁇ 200Pa.
P D 2 ⁇ 250Pa In some possible embodiments, P D 2 ⁇ 250Pa.
P D 2 ⁇ 100Pa In some possible embodiments, P D 2 ⁇ 100Pa.
the outer surface of the second portion is provided with perforations communicating with the second cavity.
the outer surface of the second portion is provided with one or more rows of groups of perforations, with the groups of perforations of each row comprising of a plurality of the perforations.
the number of the perforations is N, wherein 1 ⁇ N ⁇ 10.
the equivalent diameter of the perforations is D, wherein 0.1 mm ⁇ D ⁇ 0.5 mm.
the first cavity is an equal-section body and the second cavity is an equal-section body.
the equivalent diameter of the first cavity is D1 and the equivalent diameter of the second cavity is D2, 1 ⁇ D2/D1 ⁇ 3.
the equivalent diameter of the first cavity is from 2mm to 4mm.
the equivalent diameter of the second cavity is from 4mm to 6mm.
the first portion and the second portion are both filter rods.
the present invention provides an aerosol-generating product including: an aerosol-generating matrix 1, a first portion 2, a second portion 3 and a third portion 4 sequentially disposed in a first direction (shown in the X-direction in FIG. 1 ).
the aerosol-generating matrix 1 includes, but is not limited to, a tobacco substance, an atomizing agent, a flavour substance, and the like, and the tobacco substance includes, but not limited to, cut tobacco, tobacco sheets, tobacco particles, and a combination thereof.
the order in which the aerosol-generating matrix 1, the first portion 2, the second portion 3 and the third portion 4 are combined in the manufacturing process is not limited.
the first portion 2, the second portion 3 and the third portion 4 are formed in one piece before being combined with the aerosol-generating matrix 1 into an aerosol-generating product.
the aerosol-generating matrix 1 and the first portion 2 are combined to form a first combination
the second portion 2 and the third portion 3 are combined to form a second combination
the first combination and the second combination are connected to form the aerosol-generating product.
the aerosol-generating matrix 1 abuts the first portion 2.
the first portion 2 abuts the second portion 3.
the second portion 3 abuts the third portion 4.
both ends of the first portion 2 abut the aerosol-generating matrix 1 and the second portion 3, respectively, and both ends of the second portion 3 abut the first portion 2 and the third portion 4, respectively.
the aerosol-generating matrix 1, the first portion 2, the second portion 3 and the third portion 4 are wrapped into an aerosol-generating product by a wrapper, for example, an aluminium foil paper, the aerosol-generating product being in the shape of a column, the extension direction of the aerosol-generating product coinciding with the first direction.
the aerosol-generating matrix 1 is a solid aerosol-forming matrix, containing tobacco constituents. Without combustion during puffing the aerosol-generating product, the release of large amounts of hazardous substances due to high temperature combustion can be greatly reduced.
the wrapper used for the outer layer of the aerosol-generating product is selected from an air-impermeable material. In some possible embodiments, there may also be no wrapping paper.
the first portion 2, the second portion 3 and the third portion 4 are made of cellulose acetate fibers.
the first portion 2, the second portion 3 and the third portion 4 are all filter rods.
the second portion 3 is a hollow tube, acting as a support.
the first portion 2, the second portion 3 and the third portion 4 constitute a filter portion of the aerosol-generating product.
the filter portion functions primarily to reduce the release of harmful substances as well as to reduce the temperature of the aerosol.
the filter portion may function to effectively reduce the release of harmful substances such as NNK, crotonaldehyde, phenol, HCN, ammonia and BaP.
the filter portion also minimizes the retention of flavors, nicotine, and the like.
the aerosol-generating matrix 1 is for insertion of a heating body (not shown) to generate an aerosol for puffing by a user, and the end of the third portion 4 not connected to the second portion 3 is the puffing end.
the first portion 2 has a first cavity 21 which penetrates through the first portion 2 in a first direction;
the second portion 3 has a second cavity 31 which penetrates through the second portion 3 in the first direction;
the third portion 4 is a non-cavity structure; the first cavity 21, the second cavity 31 are in communication.
the non-cavity structure described above is that the third portion 4 does not include a cavity extending in the first direction.
the aerosol-generating matrix 1 is heated by the heating body to produce an aerosol that flows through an aerosol passage for puffing by a user, i.e., the aerosol flows through the first cavity 21, the second cavity 31 and the third cavity 41 in sequence for puffing by a user, thus effectively enhancing the fuming effect of the aerosol released by the aerosol-generating product.
the pressure drop of the aerosol-generating matrix is P D 1 and the total pressure drop of the first portion 2, the second portion 3 and the third portion 4 is P D 2, i.e., the total pressure drop of the filter portion is P D 2.
the pressure drop of the aerosol-generating matrix is P D 1 and the total pressure drop of the first portion 2, the second portion 3 and the third portion 4 is P D 2, i.e., the total pressure drop of the filter portion is P D 2, and 0.5 ⁇ P D 1/P D 2 ⁇ 5.
the aerosol-generating matrix 1 provides sufficient tobacco substances, the filter portion (first portion 2, second portion 3, and third portion 4) retains hazardous substances, reduces the temperature of the aerosol, and delivers the tobacco substances to the consumer.
the pressure drops of the aerosol-generating matrix 1 and the filter portion (the first portion 2, the second portion 3 and the third portion 4) are designed within the above-mentioned pressure drop parameter ratio range, which allows for a synergistic effect of aerosol atomization and temperature reduction.
the ratio of P D 1/P D 2 is too small, that is, when in the case where the filter portion material and structure are unchanged, the resistance of the gas to flow through the aerosol-generating matrix 1 under the corresponding conditions is too small, and correspondingly, the total amount of tobacco substances in the aerosol-generating matrix 1 is too small, the tobacco substances in the aerosol-generating matrix are piled up loosely, which is easy to form quality defects such as tobacco matrix looseness or collapse, and also reduces the total amount of aerosol constituents released from the aerosol-generating product and the corresponding amount of the aerosol, thus affecting the puffing experience of the consumer.
the pressure drop is measured as follows: a tested sample is completely sealed in a measuring apparatus to ensure no air leakage according to the national standard of GB/T 22838 , when the sample is passed by a steady airflow and the flow rate at the output end is 17.5mL/s under standard conditions, the static pressure difference at both ends of the sample is measured.
100 Pa ⁇ P D 1 ⁇ 300Pa 100 Pa ⁇ P D 1 ⁇ 200 Pa.
P D 2 ⁇ 250 Pa In some possible embodiments, P D 2 ⁇ 100 Pa.
Materials used for the first portion 2, the second portion 3 and the third portion 4 include, but are not limited to, cellulose acetate tow, polypropylene tow, polylactic acid tow, paper and polymer.
the total pressure drop P D 2 of the first portion 2, the second portion 3 and the third portion 4 is brought within the above parameters by processing.
drilling the cavity portions of the aerosol-generating product may effectively reduce the temperature of the aerosol at the outlet of the aerosol-generating product.
air enters the interior of the aerosol-generating product through the small holes, thus reducing the temperature of the aerosol at the outlet of the aerosol-generating product by means of air dilution, gas condensation, etc., to provide a good puffing experience for the consumer.
the second cavity 31 of the aerosol-generating product is drilled.
the outer surface of the second portion 3 is provided with perforations (not shown) communicating with the second cavity 31.
the outer surface of the second portion 3 is provided with one or more rows of groups of perforations, the groups of perforations of each row including a plurality of perforations.
the shape of the perforations on the second cavity 31 includes, but is not limited to, a circle, an oval, a bar, etc.
the perforation arrangement includes, but is not limited to, a row of perforations or a plurality of rows of perforations
the perforation distribution includes a uniform distribution or a non-uniform distribution.
the number of the perforations is N, and 1 ⁇ N ⁇ 10. In some possible implementations, 2 ⁇ N ⁇ 8.
the equivalent diameter of the perforations is D, and 0.1 mm ⁇ D ⁇ 0.5 mm.
the equivalent diameter of the perforation is the diameter of the circular hole.
the area corresponding to the equivalent diameter of the perforation is equal to the area corresponding to the non-circular perforation or the irregular perforation.
the second cavity 31 is drilled in a manner including, but not limited to, a mechanical drilling form and an on-line laser drilling form. Exemplarily, the on-line laser drilling is used.
Drilling the second cavity 31 using the on-line laser drilling technique has the advantage that it is easier to adjust compared to the mechanical drilling, and the position, size, number, shape, etc. of the perforation can be quickly adjusted according to the actual situation.
the laser drilling apparatus needs a high power to penetrate through part of the wrapping paper of the second cavity 31 and the tube wall of the cavity so that it has a ventilating effect.
the high-energy laser passes through the laser-focusing head to focus the beam at the second cavity 31 to drill the second cavity 31.
the size and shape of the perforation in the second cavity 31 can be adjusted by controlling the time of the laser drilling apparatus, the speed of the cigarette machine and other parameters.
the number of perforations in each row in the circumferential direction in the second cavity 31 can be adjusted by controlling the laser drilling frequency. Multiple rows of perforations can be drilled by increasing the number of laser-focusing head of the laser drilling apparatus.
the length of the first cavity 21 coincides with the length of the first portion 2
the length of the second cavity 31 coincides with the length of the second portion 3
the length of the third cavity 41 coincides with the length of the third portion 4.
the second portion 3 has a sidewall upstream end portion and a sidewall downstream end portion in the aerosol flow direction, the sidewall upstream end portion of the second portion 3 being disposed facing the first portion 2, the sidewall downstream end portion of the second portion 3 being disposed facing the third portion 4.
the first cavity 21 is an equal-section body
the second cavity 31 is an equal-section body
the third cavity 41 is an equal-section body. That is, the first cavity 21 has a hollow cylindrical shape, the second cavity 31 has a hollow cylindrical shape, and the second cavity 31 has a hollow cylindrical shape.
the equivalent diameter of the first cavity 21 is D1 and the equivalent diameter of the second cavity 31 is D2.
the equivalent diameter of the cavity is the diameter of a circular cavity.
the area corresponding to the equivalent diameter of the cavity is equal to the area corresponding to the non-circular cavity or the irregular cavity.
the aperture of the second cavity 31 of the second portion 3 is larger than the aperture of the first cavity 21 of the first portion 2. That is, the first cavity 21 of the first portion 2 has a "small cavity structure” and the second cavity 31 of the second portion 3 has a "large cavity structure”.
D2/D1 When D2/D1 is too large, that is, D2 is too large or D1 is too small, the too large D2 may cause quality problems such as deformation or even fracture of the aerosol-generating product caused by the insufficient strength of the second portion 3 to support the insertion of a heating element into the aerosol-generating matrix 1. If D1 is too small, the wall thickness of the first portion is too thick, which will increase the retention effect on the aerosol, and the heat transfer resistance of the corresponding portion is too large, which is not conducive to the cooling of the aerosol, the temperature of the aerosol at the outlet is too high and the consumption experience is affected. When D2/D1 is too small, that is, the D2 and D1 are too large or too small synchronously, it may also cause insufficient strength of the aerosol-generating product, too strong aerosol retention effect and too high aerosol temperature at the outlet.
the equivalent diameter of the first cavity 21 is from 2 mm to 4 mm, including 2mm and 4mm. More exemplarily, the equivalent diameter of the second cavity 31 is from 4 mm and 6 mm, including 4mm and 6mm. Within such parameter ranges, the aerosol-generating product of the present invention has a good aerosol fuming effect.
the filter portion (first portion 2, second portion 3 and third portion 4) of the present application adopts the combination of "small cavity structure + large cavity structure + solid core structure” and uses laser drilling for aerosol temperature reduction.
the wall thickness and strength of the small cavity structure are capable of preventing axial displacement of the tobacco substances that may occur during insertion of the heating element into the aerosol-generating matrix 1.
the small thermal resistance corresponding to the thin wall of the large cavity structure is conducive to the temperature reduction of the aerosol.
the supplement of cold air during the puffing process can promote the condensation of water vapor in the aerosol to release heat in advance, thus further reducing the temperature of the aerosol system at the outlet of the filter portion to prevent the aerosol temperature from overheating.
the aerosol temperature at the outlet end of the filter portion is 40 °C to 70 °C, including 40 °C and 70 °C.
the present embodiment controls that the aerosol-generating matrix 1 is unchanged, the ratio of P D 1 and P D 2 is adjusted by changing the pressure drop of the filter portion, Samples 1 to 3 mainly adjust the pressure drop of the filter portion by drilling.
the sample 1 includes an aerosol-generating matrix 1, a first cavity 2, a second cavity 3 and a third portion 4.
the second cavity 3 is of a large hollow cellulose acetate filter rod structure, and the outer surface of the second cavity 3 is drilled with 3 perforations, each perforation having an aperture of 0.3 mm.
the third portion 4 is of a solid cellulose acetate filter rod structure.
the pressure drop P D 1 of the aerosol-generating matrix 1 is 180 Pa
the total pressure drop P D 2 of the filter portion is 50Pa
P D 1/P D 2 is 3.6.
the sample 2 includes an aerosol-generating matrix 1, a first cavity 2, a second cavity 3 and a third portion 4.
the second cavity 3 is of a large hollow cellulose acetate filter rod structure, and the outer surface of the second cavity 3 is drilled with 5 perforations, each perforation having an aperture of 0.3 mm.
the third portion 4 is of a solid cellulose acetate filter rod structure.
the pressure drop P D 1 of the aerosol-generating matrix 1 is 180 Pa
the total pressure drop P D 2 of the filter portion is 40Pa
P D 1/P D 2 is 4.5.
the sample 3 includes an aerosol-generating matrix 1, a first cavity 2, a second cavity 3 and a third portion 4.
the second cavity 3 is of a large hollow cellulose acetate filter rod structure, and the outer surface of the second cavity 3 is not drilled.
the third portion 4 is of a solid cellulose acetate filter rod structure.
the pressure drop P D 1 of the aerosol-generating matrix 1 is 180 Pa
the total pressure drop of the filter portion P D 2 is 60Pa
P D 1/P D 2 is 3.
the aerosol-generating product is used in conjunction with a heating appliance by putting the aerosol-generating products in the same heating appliance for puffing, the heating appliance is pressed for 2.4 s, the first puff starts after an interval of 14.6 s, each puff is for 2s, the next puff starts after an interval of 28 s, and after the 8th puff, the capture is completed, with 8 puffs captured per cigarette.
the aerosol-generating product described above is puffed on a puffing machine in conjunction with the heating appliance, the puffing machine adopts bell-wave puffing, the puffing solution is under the Health Canada Intensive Smoking Regime and the puffing capacity is 55 mL, while the aerosol is collected with a glass fiber filter aerosol trap and the aerosol trap is used for determining the content of nicotine and glycerol by gas chromatography.
thermocouple is attached to the center of the aerosol outlet of the aerosol-generating product and the thermocouple is connected to a temperature data acquisition system for determining the outlet temperature at the time of aerosol puffing.
the different drilling treatments of the three samples change the total pressure drop of the filter portion, thereby also affecting the value of P D 1/P D 2 and thus the aerosol content and the outlet temperature of the aerosol.
the above puffing procedure is repeated a number of times, and three samples are tested for key component content in the aerosol trap and aerosol outlet temperature. The results are averaged over the number of measurements. The results are shown in Table 1 below.
the maximum aerosol puff-by-puff temperatures at the aerosol outlets of Sample 1, Sample 2, and Sample 3 are shown in FIG. 2 .
the maximum aerosol puff-by-puff temperature is data measured using a thermocouple, i.e., each marked point in the graph, the line connecting each marked point is only illustrative of the temperature change and does not represent the true temperature change trend.
the filter portion is controlled unchanged and the pressure drop of the aerosol-generating matrix is varied to adjust the ratio of P D 1 and P D 2, and the control sample is sample 1.
Sample 4 includes an aerosol-generating matrix 1, a first cavity 2, a second cavity 3 and a third portion 4, the internal structure and manner of drilling being in accordance with sample 1.
the aerosol-generating matrix 1 has a pressure drop P D 1 of 210 Pa, the total pressure drop P D 2 of the filter portion is 50 Pa, and P D 1/P D 2 of 4.2.
the pressure drop of the aerosol-generating matrix 1 in sample 4 compared to sample 1 is increased by increasing the amount of tobacco substances.
the present embodiment controls that the aerosol-generating matrix 1 is unchanged, the ratio of P D 1 and P D 2 is adjusted by changing the pressure drop of the filter portion, and samples 5 and 6 adjust the pressure drop of the filter portion mainly by changing the structure of the second cavity 3 and the material of the third portion 4.
the sample 5 includes an aerosol-generating matrix 1, a first cavity 2, a second cavity 3 and a third portion 4.
the second cavity 3 is of a small hollow cellulose acetate filter rod structure, which is not drilled due to the thick filter wall of the cavity.
the third portion 4 is of a solid cellulose acetate filter rod structure.
the pressure drop P D 1 of the aerosol-generating matrix 1 is 180 Pa
the total pressure drop P D 2 of the filter portion is 150 Pa
P D 1/P D 2 is 1.2.
the sample 6 includes an aerosol-generating matrix 1, a first cavity 2, a second cavity 3 and a third portion 4.
the second cavity 3, similar to the sample 5, is of a small hollow cellulose acetate filter rod structure and is not drilled.
the third portion 4 is of a solid cellulose acetate filter rod structure with a greater pressure drop than sample 5.
the pressure drop P D 1 of the aerosol-generating matrix 1 is 180 Pa
the total pressure drop P D 2 of the filter portion is 220 Pa
P D 1/P D 2 of is 0.8.
sample 5 Compared with sample 1, sample 5 has a change in the filter portion structure and although only the structure of the second cavity 3 is changed, the P D 2 value is increased a lot. Further, the third portion 4 of sample 5 is increased in pressure drop to form sample 6, which has an increased P D 2 value.
Table 3 Comparison of content of key substances in aerosol release Name Aerosol collected mass (mg/cig) Nicotine (mg/cig) Glycerol (mg/cig) Aerosol outlet maximum temperature (°C) Sample 1 38.0 0.96 3.7 61.8 Sample 5 35.7 0.54 2.1 68.3 Sample 6 30.7 0.46 1.8 69.6

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EP23156941.9A 2022-02-17 2023-02-15 Produit de génération d'aérosol Pending EP4230062A1 (fr)

Applications Claiming Priority (1)

Application Number	Priority Date	Filing Date	Title
CN202210148073.XA CN116649614B (zh)	2022-02-17	2022-02-17	一种气溶胶生成制品

Publications (1)

Publication Number	Publication Date
EP4230062A1 true EP4230062A1 (fr)	2023-08-23

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EP23156941.9A Pending EP4230062A1 (fr)	2022-02-17	2023-02-15	Produit de génération d'aérosol

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