CN116098315A - Filling shaped heating non-combustion smoke and multichannel cooling firmware thereof - Google Patents

Abstract

The application discloses a heating incombustible cigarette of filling shaping and multichannel cooling firmware thereof, wherein the multichannel cooling firmware of heating incombustible cigarette of filling shaping sets up two at least intercommunication passageways, wherein is being filled in a paper tube the numerical value of the modulus of elasticity of multichannel cooling firmware is in 20 ~ 45Mpa range.

Description

Filling shaped heating non-combustion smoke and multichannel cooling firmware thereof

Technical Field

The invention relates to a heating non-combustion smoke formed by filling, in particular to a heating non-combustion smoke formed by filling and a multi-channel cooling firmware thereof.

Background

The heating non-combustible cigarette generates smoke due to the fact that the heating perfume loaded on the tobacco sheets has a certain similarity to the traditional cigarette in the generation principle, and therefore the smoke taste is good in acceptance. The mainstream smoking set on the market at present is designed to provide heat energy required by heating for the non-burning smoke of the heating part, the central heating type heating cigarette is designed to enable a heating piece (or a needle) to be inserted into the core end of the cigarette, a supporting section for supporting is usually arranged for preventing the possibly caused backward movement of the smoking material during insertion, and the smoke is enriched when passing through the supporting section, so that the temperature of the smoke is temporarily increased, the difference between the smoke and the smoke of the traditional cigarette is caused, and the effect on the final sensory evaluation is also great.

In addition, in the manufacturing process of the heating non-combustion smoke, a unit with a cooling effect is generally added between the smoke generating section and the filter stick, so that excessive heat is prevented from being transferred to the end part of the filter stick when the smoke generating section of the heating non-combustion smoke is heated for smoke generation, and the user is further prevented from being scalded.

There are various modes of heating the non-burning smoke, and the common two modes are composite rolling and filling forming respectively. The two different processes are distinguished for different heated cigarette products; the composite rolling is suitable for binary, ternary and quaternary cartridges of main stream in the market, and the filling process is suitable for cartridges of granular materials.

Disclosure of Invention

One advantage of the present invention is to provide a molded heated non-combustible smoke and multi-channel cooling firmware thereof, wherein the multi-channel cooling firmware has a thin-wall multi-channel design, so that the overall weight can be reduced, and the filter rod compounding process is facilitated.

The invention further provides a heating non-combustion smoke and a multi-channel cooling firmware thereof, which are formed by filling, and the design of a plurality of small channels is adopted, so that the inflowing smoke can be dispersed in each channel to be dispersed into a plurality of stable airflows, and the stability of the heating non-combustion suction resistance is further ensured.

The invention has the advantages that the heating non-combustion smoke formed by filling and the multichannel cooling firmware thereof are provided, and the multichannel cooling firmware can reduce the temperature of the smoke and improve the stability of air flow, so that the suction experience of a user is improved.

In order to achieve at least one advantage of the present invention, the present invention provides a multi-channel cooling firmware for heating non-combustion cigarettes, wherein at least one communication channel is provided between two ends of the multi-channel cooling firmware for heating non-combustion cigarettes, and a cross-section of the communication channel of the multi-channel cooling firmware is a regular polygon, wherein a central axis of the communication channel of the regular polygon coincides with a central axis of the multi-channel cooling firmware.

According to an embodiment of the present invention, the volume ratio of the space occupied by the communication channel to the entire multichannel cooling firmware is between 20% and 50%.

According to an embodiment of the present invention, the multi-channel cooling firmware is further provided with the communication channel in which a plurality of cross sections opposite to each side of the regular polygon are implemented as a sector, wherein the sector is defined as a pattern on a sector excluding a triangle formed by connecting two points, which are arbitrarily taken at equal distances from a center of a circle on radii of two different lines of the sector, with the center of the circle, respectively.

According to an embodiment of the invention, the line formed by the points on the two radii of the fan-like shape is positioned as a straight line dividing line, and the dividing line on the cross section of each communication channel and one side on the cross section of the communication channel are opposite to each other.

According to an embodiment of the invention, the spacing between the dividing line in the cross section of each communication channel and the edge in the cross section of the communication channel is between 0.5mm and 1.0 mm.

According to an embodiment of the present invention, a line formed by points on two radii in a cross-sectional view of the communication channels in a fan-like shape is positioned as a straight line dividing line, an arc line opposite to the straight line dividing line is an arc line dividing line, and the arc line dividing line in the cross-sectional view of each communication channel in a fan-like shape is on the same circumference as the center of the cross-sectional view of the communication channel.

According to an embodiment of the invention, a distance between an arc boundary line in the cross-sectional view of each fan-shaped communication channel and the edge of the multi-channel cooling firmware is 1.2 mm-2.0 mm.

According to an embodiment of the present invention, the cross-sectional shape of the communication channel of the regular polygon is a regular hexagon.

According to an embodiment of the present invention, a cooling groove extending along an extending direction of the multi-channel cooling firmware is provided on an outer wall of the multi-channel cooling firmware.

According to another aspect of the present invention, there is provided a heated non-combustible aerosol for filling a mould, comprising:

a smoke generating section;

a filter section, wherein the filter section is provided with at least one flue gas channel, and the flue gas channels respectively form at least one outlet at two ends of the filter section;

a cooling section; and

the multi-channel cooling firmware according to any one of the above, wherein the communication channels are respectively provided with at least one communication port at two ends of the multi-channel cooling firmware, the communication ports on the multi-channel cooling firmware connected with the filtering section are communicated with the flue gas channel, and the communication ports on the multi-channel cooling firmware connected with the cooling section are arranged towards the cooling section.

Drawings

Fig. 1 shows a cross-sectional view of a heated non-combustible smoke formed by filling according to the invention.

Fig. 2 shows a schematic view of the filling forming of the present invention when the heated non-combustible fumes are heated by the heating means.

FIG. 3 illustrates a perspective view of one embodiment of the multi-channel cooling fixture of the present invention for a molded heated non-combustion cigarette.

Fig. 4 illustrates a perspective view of another embodiment of the multi-channel cooling fixture of the present invention for a molded heated non-combustion cigarette.

Fig. 5 shows a top view of the multi-channel cooling firmware of the present invention for a molded heated non-combustion smoke.

Fig. 6 illustrates a top view of another embodiment of the multi-channel cooling fixture of the present invention for a hot non-combustion cigarette.

Fig. 7 illustrates a top view of yet another embodiment of the multi-channel cooling fixture of the present invention for a hot non-combustion cigarette.

Fig. 8 illustrates a perspective view of yet another embodiment of the multi-channel cooling fixture of the present invention of fig. 7 for a pour-molded, heated non-combustible smoke.

Detailed Description

The following description is presented to enable one of ordinary skill in the art to make and use the invention. The preferred embodiments in the following description are by way of example only and other obvious variations will occur to those skilled in the art. The basic principles of the invention defined in the following description may be applied to other embodiments, variations, modifications, equivalents, and other technical solutions without departing from the spirit and scope of the invention.

It will be appreciated by those skilled in the art that in the present disclosure, the terms "longitudinal," "transverse," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," etc. refer to an orientation or positional relationship based on that shown in the drawings, which is merely for convenience of description and to simplify the description, and do not indicate or imply that the apparatus or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore the above terms should not be construed as limiting the present invention.

It will be understood that the terms "a" and "an" should be interpreted as referring to "at least one" or "one or more," i.e., in one embodiment, the number of elements may be one, while in another embodiment, the number of elements may be plural, and the term "a" should not be interpreted as limiting the number.

Referring to fig. 1 to 8, a heated non-combustible cigarette for filling in accordance with a preferred embodiment of the present invention will be described in detail below. Specifically, the heat non-combustion smoke of the filling molding comprises a smoke generating section 10, a filtering section 20, a multi-channel cooling firmware 30 and a cooling section 40. The filter segments 20 and the multichannel cooling firmware 30 form a filter rod.

After the heating non-combustion smoke is formed by filling, one end of the smoke generating section 10 and one end of the multi-channel cooling firmware 30 are respectively arranged at two ends of the filtering section 20. The cooling section 40 is located at the other end of the multi-channel cooling firmware 30.

By means of the filling, the smoke generating segment 10, the filter segment 20, the multi-channel cooling firmware 30 and the cooling segment 40 can form the filling heating non-burning smoke.

The filter section 20 is provided with at least one flue gas channel 201, wherein the flue gas channels 201 respectively form at least one outlet at each end of the filter section 20. After the smoke generating segment 10 is heated to form aerosol, the aerosol flows from the outlet of the smoke generating segment 10 connected to one end of the filter segment 20 through the smoke channel 201 to the outlet of the filter segment 20 connected to the other end of the multi-channel cooling firmware 30.

In one embodiment, the multi-channel cooling firmware 30 is formed into at least one communication channel 301 after being molded by filling. Each communication channel 301 forms at least one communication port 302 at two ends of the multi-channel cooling firmware 30. One of the communication ports 302 of the multi-channel cooling firmware 30 connected to the filter segment 20 is communicated with the flue gas channel 201 through the outlet of the filter segment 20. The other communication port 302 of the multi-channel cooling device 30 connected to the cooling section 40 is disposed toward the cooling section 40.

The cooling section 40 is made of acetate or polylactic acid. From the above description, it will be appreciated that when a user draws in the cooling section 40 and the smoke generating section 10 is heated, the smoke generated by the smoke generating section 10 can pass through the smoke passage 201 and the communication passage 301 in succession, and finally be inhaled by the user.

It is further noted that the elastic modulus of the multi-channel cooling firmware 30 filled in a paper tube has a value in the range of 20-45 Mpa.

In this way, when the raw materials of the multi-channel cooling firmware 30 are poured into the paper tube, the multi-channel cooling firmware 30 will not deform irreversibly after being pressurized, so that the multi-channel cooling firmware will not deviate from the axial direction of the filling channel, and the coaxiality between the multi-channel cooling firmware and the smoke generating section 10, the filtering section 20 and the cooling section 40 formed in the paper tube is ensured. Thus, the paper tube is not easily broken.

It should be noted that after the raw materials of the multi-channel cooling firmware 30 and the raw materials forming the smoke generating section 10, the filtering section 20 and the cooling section 40 are poured into the paper tube, the whole is dried, and the drying weight loss of the dried firmware material is within the range of 5% -10% (mass fraction).

Preferably, the volume ratio of the space occupied by the communication channel 301 on the multi-channel cooling firmware 30 to the entire volume of the multi-channel cooling firmware 30 is between 20% and 50%. If it is above this range, too many communication channels 301 of the multi-channel cooling firmware 30 are indicated, which makes it difficult to mold or shape the multi-channel cooling firmware 30 after molding to be uneven when manufacturing the multi-channel cooling firmware 30. If it is below this range, the cooling effect of the multi-channel cooling firmware 30 as a whole is reduced.

As shown in fig. 3, in one embodiment, the cross section of the plurality of communication channels 301 is circular, where the axes of the plurality of communication channels 301 are parallel to but not coincident with the axes of the multi-channel cooling firmware 30, and in the cross section view of the multi-channel cooling firmware 30, the circle centers of the cross sections of the plurality of communication channels 301 are distributed on a circle with the center of the multi-channel cooling firmware 30 as the circle center. In this way, the coaxiality between the multichannel cooling firmware and the filling and the smoke generating section 10, the filter section 20 and the cooling section 40 formed in the paper tube can be ensured.

As shown in fig. 4-6, in one embodiment, the cross section of the communication channel 301 is a regular polygon, wherein the central axis of the communication channel 301 of the regular polygon coincides with the central axis of the multi-channel cooling firmware 30. Through such design, the multi-channel cooling firmware 30 may be made of some plant pugs, especially when filling, because the cross section of the communication channel 301 is regular polygon, the multi-channel cooling firmware 30 may be uniformly stressed when filling, so as to ensure coaxiality between the multi-channel cooling firmware 30 and the paper tube, thereby preventing the multi-channel cooling firmware 30 from deviating from the axial direction to break the paper tube. Further, the multi-channel cooling firmware 30 is further provided with the communication channel 301 in which a plurality of cross sections opposite to each side of the regular polygon are implemented as a type of sector. The sector-like shape is defined as a shape of a sector excluding a triangle formed by connecting two points, which are arbitrarily taken at equal distances from a center of a circle, on radii of two different lines of the sector with the center of the circle, respectively, wherein a line formed by the points on the two radii of the sector-like shape is positioned as a straight line boundary, and an arc line opposite to the straight line boundary is an arc line boundary.

Further, the dividing line of the cross section of each communication passage 301 and one side of the cross section of the communication passage 301 are opposite to each other. Preferably, the spacing between the dividing line on the cross section of each communication channel 301 and the side on the cross section of the communication channel 301 is between 0.5mm and 1.0 mm.

It can be appreciated that, because the parting line on the cross section of each communication channel 301 and one edge on the cross section of the communication channel 301 are opposite to each other, when the multi-channel cooling firmware 30 is formed by extrusion, each part of the multi-channel cooling firmware 30 can be uniformly and symmetrically stressed, so that the multi-channel cooling firmware 30 is more compact, and the cooling effect of the multi-channel cooling firmware 30 is improved.

More preferably, the arc dividing line in the sectional view of each of the fan-like communication passages 301 is on the same circumference as the center of the sectional view of the communication passage 301. And, the interval between the arc boundary line in the cross-section of each fan-shaped communication channel 301 and the edge of the multi-channel cooling firmware 30 is 1.2 mm-2.0 mm.

This ensures the stability of the overall structure of the multichannel cooling firmware 30. And can effectively prevent the multi-channel cooling firmware 30 from being deformed due to too thin wall thickness between channels when the multi-channel cooling firmware 30 is produced by extrusion molding.

The communication channel 301 of the regular polygon may be a regular triangle, a regular quadrangle, etc.

As a preferred example, the communication channel 301 of the regular polygon may be a regular hexagon. Accordingly, the communication passages 301 of the fan-like shape are implemented as six. Through such setting, the holistic structure of multichannel cooling firmware 30 has good stability, multichannel cooling firmware 30 can play good cooling effect again.

In addition, the communication channels 301 of the multi-channel cooling firmware 30 are symmetrically arranged, so that when the smoke generating segment 10 is heated to generate aerosol, the aerosol can uniformly spread through the smoke generating channel 201, and further, when a user sucks, the aerosol cannot form suction resistance due to uneven distribution of the aerosol.

As a deformability, the communication channel 301 has a circular cross section. The central axis of one communication channel 301 coincides with the central axis of the multi-channel cooling firmware 30, as shown in fig. 7 and 8. While the cross section of the other communication channel 301 is implemented as a type of sector.

It will be appreciated that the multi-channel cooling firmware 30 may be implemented to be made from plant components that are plant powder materials.

The cooling section 40 is a three-dimensional net structure, and the longitudinal porosity of the cooling section is 50% -90%.

Preferably, the filter segment 20 has a three-dimensional net structure or a polymer rod structure having through holes formed by foaming using a foaming technique. Preferably, the cooling section 40 and the filter section 20 are acetate tow.

Preferably, a plurality of cooling grooves 302 extending along the length direction of the multi-channel cooling firmware 30 are provided on the outer wall of the multi-channel cooling firmware 30. By such design, the weight of the multi-channel cooling firmware 30 can be reduced, and the cooling effect can be improved by dispersing the air flow. As an example, the multi-channel cooling firmware 30 may also be symmetrically arranged.

It will be appreciated by persons skilled in the art that the embodiments of the invention described above and shown in the drawings are by way of example only and are not limiting. The advantages of the present invention have been fully and effectively realized. The functional and structural principles of the present invention have been shown and described in the examples and embodiments of the invention may be modified or practiced without departing from the principles described.

Claims (11)

1. The multi-channel cooling firmware is characterized in that at least one communication channel is arranged between two ends of the multi-channel cooling firmware for heating the non-combustion smoke, wherein the central axis of the communication channel of the regular polygon coincides with the central axis of the multi-channel cooling firmware, and the numerical value of the elastic modulus of the multi-channel cooling firmware filled in a paper tube is in the range of 20-45 Mpa.

2. The multi-channel cooling fixture for heating non-combustible smoke according to claim 1, wherein the cross-section of the communicating channel of the multi-channel cooling fixture is regular polygon or circular.

3. The multi-channel cooling firmware of the filled and formed heating non-combustible smoke according to claim 1, wherein the volume ratio of the space occupied by the communication channel to the whole multi-channel cooling firmware is 20% -50%.

4. The multi-channel cooling firmware of a heated non-combustible smoke according to claim 1 or 2, wherein said multi-channel cooling firmware is further provided with said communication channel in which a plurality of cross sections opposite to each side of said regular polygon are implemented as a sector, wherein said sector is defined as a pattern on a sector excluding a triangle formed by connecting two points on radii of two different lines of the sector, which are arbitrarily equidistant from a center of a circle, with the center of the circle, respectively.

5. The multi-channel cooling fixture for a heated non-combustible aerosol of claim 4, wherein a line formed by points on two radii of said fan-like shape is positioned as a line of demarcation, said line of demarcation on each of said cross-sections of said communicating channels facing one of said edges of said cross-sections of said communicating channels.

6. The multi-channel cooling fixture for heating non-combustion fumes of claim 5, wherein the spacing between the parting line on the cross section of each of the communication channels and the edge on the cross section of the communication channel is between 0.5mm and 1.0 mm.

7. The multi-channel cooling fixture for a heated non-combustible aerosol of claim 5, wherein a line formed by two radial points on a cross-sectional view of the communication channels in a fan-like shape is positioned as a straight parting line, and an arc opposite to the straight parting line is an arc parting line, and the arc parting line in the cross-sectional view of each communication channel in a fan-like shape is on the same circumference as the center of the cross-sectional view of the communication channel.

8. The multi-channel cooling fixture for heating non-combustible smoke according to claim 6, wherein the distance between the arc parting line of the cross-section of each fan-like communicating channel and the edge of the multi-channel cooling fixture is 1.2 mm-2.0 mm.

9. The multi-channel cooling firmware of a heated non-combustible smoke according to claim 1 or 2, wherein the cross-sectional shape of the communication channel of the regular polygon is regular hexagon.

10. The multi-channel cooling firmware of the filled and molded heating non-combustible smoke according to claim 1, wherein the outer wall of the multi-channel cooling firmware is provided with a cooling groove extending along the extending direction of the multi-channel cooling firmware.

11. A heated non-combustible smoke for filling forming, comprising:

a smoke generating section;

a filter section, wherein the filter section is provided with at least one flue gas channel, and the flue gas channels respectively form at least one outlet at two ends of the filter section;

a cooling section; and

the multi-channel cooling firmware according to any one of claims 1 to 10, wherein the communication channels respectively form at least one communication port at two ends of the multi-channel cooling firmware, the communication ports connected to the filter section on the multi-channel cooling firmware are communicated with the flue gas channel, and the communication ports connected to the cooling section on the multi-channel cooling firmware are arranged towards the cooling section.

Images