CN216493506U - Structure of heating non-combustion herbal cigarette bullet - Google Patents

Abstract

The utility model provides a structure that heating does not burn herbaceous cigarette bullet, has included a section of fuming that contains iron-nickel alloy material, thereby this section of fuming makes iron-nickel alloy material's sheetmetal generate heat wherein reach the effect of generating heat through electromagnetic induction, simultaneously section of fuming and cooling section, filter pulp section constitution complete cigarette bullet. The cartridge of the utility model can reduce the loss of smoking articles and the residue after heating of the cartridge, so that the cartridge has stronger applicability in the market. The structure that the heating does not burn this grass cigarette bullet is applicable to electromagnetic induction heating utensil, and the section of fuming heating of this cigarette bullet leans on iron-nickel alloy piece heating wherein, compares with traditional smoking set and is difficult for by the oxidation, and the heating is more even, and the more abundant residue of burning still less, and the flue gas is more balanced, and the flue gas quality is higher, has promoted the suction of cigarette bullet and has experienced.

Description

Structure of heating non-combustion herbal cigarette bullet

Technical Field

The utility model relates to a heating non-combustible product, in particular to a structure for heating non-combustible herbal smoke cartridges.

Background

It is well known that smoking is harmful to health, but as a traditional big smoking country in China, smoking becomes a daily life requirement of people, and as the quality of life of people is improved, the consumption concept of consumers is changed, and the harm reduction of tobacco becomes a necessary trend. Therefore, a new type of heating non-combustion (HNB) for tobacco products has emerged, and the problems existed in HNB have been discovered as the heating non-combustion products are gradually popularized and applied to the market.

In the prior art, a heater for heating a non-combustible product heats through needles or sheets in the heater, and researches show that the non-combustible product is uneven in heating, easy to oxidize and unstable in fragrance, and a large amount of heated residues are left, so that the residues not only influence the smoking experience, but also remain on the heated needles or sheets, and the heating is more uneven and the heat dissipation is insufficient.

Therefore, there are problems to be solved in the prior art.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems of uneven heating and unstable aroma of products which are not combusted during heating in the prior art, which cause poor smoking experience, the utility model adds the iron-nickel alloy sheet into the smoking section, and the iron-nickel alloy sheet is heated in an electromagnetic induction mode, so that the smoke bomb is heated uniformly, the aroma is more stable, and heating residues are less, thereby improving the smoking feeling of a user. Meanwhile, the heating part is the iron-nickel alloy sheet in the cigarette cartridge, and compared with the common heating part of the smoking set which is the heating needle or sheet of the smoking set, the heating part of the smoking set has no residue and oxidation problems, so that the cigarette cartridge is applied to the electromagnetic induction heating smoking set, the use efficiency is higher, and the service life is longer.

The purpose of the utility model is realized by the following scheme:

a structure for heating a non-combustible herbal bomb comprises a smoking section, wherein the smoking section comprises an iron-nickel alloy sheet.

The structure of the heating non-combustion herbal smoke bomb is characterized in that the iron-nickel alloy sheet is made of an alloy consisting of iron and nickel and is a metal sheet with the length of 3-20mm, the width of 2-5mm and the thickness of 0.1-0.4 mm.

The heating does not burn the structure of the herbal smoke bomb, wherein the iron-nickel alloy sheet is embedded in the center of the smoking section.

The heating structure of not burning herbal cigarette bullet, wherein, the iron-nickel alloy piece is the cuboid shape, the section of fuming is the cylinder shape, the iron-nickel alloy piece is inlayed the axle center position of section of fuming.

The heating does not burn the structure of the herbal smoke bomb, wherein the structure further comprises a cooling section and a filtering section, and the smoking section, the cooling section and the filtering section are sequentially connected.

The structure of the tobacco bomb which does not burn the herbal medicines by heating is characterized in that the size of the structure is 8-18mm long in the smoking section, 16-30mm long in the cooling section and 5-12mm long in the filtering section.

The heating non-combustion herbal cigarette bullet structure is characterized in that the smoking section is made of sheets which are made by slicing and then shredding in a rolling connection mode, and finally the iron-nickel alloy sheet is inserted into the center of the smoking section.

The structure of the tobacco bomb without burning the herbal materials is heated, wherein the material of the cooling section is one or more of silica gel, polylactic acid particles, polylactic acid films, zeolite, molecular sieves and bentonite.

The structure of the heating non-combustion herbal bomb, wherein the material of the filter section is cotton.

The smoking section is formed by cutting the sheet into sheets with the same size and length and combining the sheets with the iron-nickel alloy sheets, and the electromagnetic induction heating smoking set can ensure that a smoke cartridge is heated more fully and uniformly, the aroma is more stable, heating residues are less, the residue problem caused by oxidation of the heating part of the smoking set is avoided, the smoking set has higher use efficiency and longer service life, and the smoking experience of a user is also improved. Most harmful needs of residues produced by insufficient combustion of the smoke bomb heating often clean the smoking set, so the novel smoke bomb and the electromagnetic induction heating mode are more healthy and environment-friendly, and have better application prospect.

Drawings

FIG. 1 is a perspective view of a smoke generation segment of a structure for heating non-combustible herbal cartridges in accordance with the present invention;

FIG. 2 is an axial cross-sectional view of a smoke generation segment in the construction of a heat not combustible herbal cartridge according to the utility model;

FIG. 3 is a radial cross-sectional view of a smoke generation segment in the construction of a heat not combustible herbal cartridge according to the utility model;

FIG. 4 is a perspective view of an embodiment of the construction of a heat not burn herbal cartridge of the present invention;

FIG. 5 is an axial sectional view of an embodiment of the structure of the heat not burn herbal cartridge of the present invention;

FIG. 6 is a respective radial sectional view of three-stage structures in one embodiment of the structure for heating a non-combustible herbal pellet of the present invention;

FIG. 7 is a perspective view of another embodiment of the construction of a heat not burn herbal cartridge of the present invention;

FIG. 8 is an axial cross-sectional view of another embodiment of the construction of a heat not burn herbal cartridge of the present invention;

FIG. 9 is a radial cross-sectional view of each of three-stage structures in another embodiment of the structure for heating a non-combustible herbal pellet of the present invention.

Detailed Description

In order to more clearly illustrate the technical solution of the present invention, the present invention is further described below with reference to the accompanying drawings and examples.

The utility model provides a smoking section and a cartridge structure suitable for an electromagnetic induction heating appliance, as shown in fig. 1, 2 and 3, the smoking section is composed of a thin sheet and an iron-nickel alloy sheet, the size and the shape of the thin sheet are the same, and the smoking section is manufactured by a rolling connection mode. The iron-nickel alloy sheet is an alloy sheet composed of iron, nickel and other metals, and is a metal sheet with the length of 3-20mm, the width of 2-5mm and the thickness of 0.1-0.4 mm.

As shown in fig. 4 and 7, the whole cartridge is composed of a smoking section, a cooling section and a filtering section. The structure sizes are respectively 8-18mm of a smoking section, 16-30mm of a cooling section and 5-12mm of a filtering section. The smoking segment is made by slicing, shredding and rolling, and finally inserting an iron-nickel alloy sheet into the center of the smoking segment. The material of the cooling section is one or more of silica gel, polylactic acid particles, polylactic acid films, zeolite, molecular sieves and bentonite. The material of the filter segment is cotton. The cigarette bullet structure is formed by connecting paper on the surface of the cigarette bullet and a paper tube outer package. The smoking section is wrapped by paper, the cooling section and the filtering section are wrapped by a paper tube to form the whole cigarette cartridge, and the thickness of the paper and the paper tube is 0.1-0.2mm, and the thickness of the paper tube is 0.2-0.5 mm. Wherein, the filter segment can also be added with flavor blasting beads to make the flavor more intense.

Specifically, the utility model discloses a structure for heating a non-burning herbal cartridge, which comprises a smoking section 100.

As shown in fig. 1, the smoking segment 100 includes a sheet 110 of iron-nickel alloy, a sheet 120 and a wrapper 130. The iron-nickel alloy sheet 110 is an alloy sheet composed of iron and nickel, and the iron-nickel alloy sheet 110 is embedded in the center of the smoking segment 100. Further, the iron-nickel alloy sheet 110 is a rectangular sheet in a rectangular parallelepiped shape, the smoking segment 100 is a cylindrical shape, and the iron-nickel alloy sheet 110 is embedded in the axial position of the smoking segment 100. Optionally, the iron-nickel alloy sheet 110 is a rectangular sheet with a length of 3-20mm, a width of 2-5mm, and a thickness of 0.1-0.4 mm. More preferably, the iron-nickel alloy sheet 110 has a length of 13mm, a width of 3mm, and a thickness of 0.18 mm. In the process of smoking, make through electromagnetic induction the iron-nickel alloy piece 110 generates heat to guarantee the heating of section 100 of fuming is more even, and fragrance is more stable, reduces the residue, thereby improves user's smoking and experiences.

As shown in fig. 2 and 3, the smoking segment 100 is filled with the thin sheets 120, the thin sheets 120 are thin sheets with the same shape and size, the smoking segment 100 is formed by wrapping the thin sheets 120 with wrapping paper 130, and the iron-nickel alloy sheet 110 is fixed at the center of the smoking segment 100, so that when the iron-nickel alloy sheet 110 is heated, all the thin sheets 120 can be heated at the same time and uniformly heated, the fragrance can be stably output, meanwhile, the residues generated by heating the thin sheets 120 are reduced, the service life of the smoking segment 100 is longer, and the smoking experience of a user is improved. Preferably, the sheet 120 is cut into pieces of equal size and length during manufacture, and the smoking segment 100 is formed by wrapping the sheet 120 with the wrapper 130. Optionally, the wrapper paper 130 has a thickness of 0.1-0.2mm, and the smoking segment 100 formed by wrapping the wrapper paper 130 has a length of 8-18mm and a diameter of 6-9 mm. Preferably, the wrapper paper 130 has a thickness of 0.1mm, and the smoking segment 100 wrapped by the wrapper paper 130 has a length of 13mm and a diameter of 7.4 mm.

Further, the structure of the non-burning heating herbal bomb further comprises a cooling section 200 and a filtering section 300, wherein the smoking section 100, the cooling section 200 and the filtering section 300 are connected in sequence to form the non-burning heating herbal bomb.

Specifically, as shown in fig. 4 and 7, the cooling section 200 and the filter section 300 are both in a cylindrical shape, and the cooling section 200 and the filter section 300 are formed by filling a hard paper tube 220, wherein the hard paper tube 220 has a circular tube shape. Specifically, the temperature reduction section material 230 fills the cardboard tube 220 to form the temperature reduction section 200, and the filter section material 320 fills the cardboard tube 220 to form the filter section 300. During smoking, the Inconel sheet 110 heats the lamina 120 such that the smoking segment 100 produces smoke that is smoked by the user through the cooling segment 200 and the filter segment 300 in sequence, thereby providing smoke at a suitable temperature and free of impurities. Optionally, the cardboard tube 220 has a thickness of 0.2-0.5mm and a length of 21-42 mm; the cooling section 200 is 16-30mm in length and 6-9mm in diameter; the length of the filtering section 300 is 5-12mm, and the diameter is 6-9 mm. Preferably, the thickness of the cardboard tube 220 is 0.2mm, and the length of the cardboard tube 220 is 32 mm; the cooling section 200 is 24mm in length and 7.4mm in diameter; the filter segment 300 has a length of 8mm and a diameter of 7.4 mm.

Specifically, as shown in fig. 5 and 6, the cooling section material 230 is left empty at the axial position of the cooling section 200 to form a smoke channel 210 for smoke formed by the smoking section 100 after the iron-nickel alloy sheet 110 is heated to pass through. Optionally, the smoke channel 210 has a length of 16-30mm and a diameter of 2-5 mm. Preferably, the smoke channel 210 has a length of 24mm and a diameter of 2.8 mm. Optionally, the cooling section material 230 is one or more of silica gel, polylactic acid particles, polylactic acid film, zeolite, molecular sieve and bentonite, so as to assist in cooling when smoke passes through the smoke channel 210, and bring better smoking experience to a user.

Specifically, as shown in fig. 8 and 9, the filter segment 300 is provided with a bead 310 at a position close to the cooling segment 200, the filter segment material 320 wraps and fixes the bead 310, and the bead 310 is at the axial position of the cooling segment 200 and corresponds to the position of the smoke channel 210. Optionally, the bead 310 has a diameter of 2-5 mm. Optionally, the popping beads 310 are flavor popping beads, and the filter segment material 320 is cotton, so as to filter impurities in the smoke when the smoke passes through, and make the aroma in the smoke stronger, which brings better smoking experience to users.

Fig. 4-6 show an embodiment of the present invention for heating a non-combustible herbal bomb. In this embodiment, the smoking segment 100 is connected to one end of the cooling segment 200, and the other end of the cooling segment 200 is connected to the filter segment 300. The smoke channel 210 in the cooling section 200 is in a circular tube shape, the diameter of the smoke channel 210 is 2.8mm, and is smaller than the width of the iron-nickel alloy sheet 110 by 3mm, so as to ensure that the formed smoke flows to the filter section 300 through the smoke channel 210 when the iron-nickel alloy sheet 110 heats the sheet 120. Further, the bead 310 in the filter segment 300 is disposed corresponding to the outlet of the smoke channel 210, and the diameter of the bead 310 is 2.8mm to correspond to the smoke channel 210. Thus, the thin sheet 120 is heated by the iron-nickel alloy sheet 110, so that the heating is more sufficient and uniform, the fragrance is more stable, and the heating residues are less; then the temperature of the flue gas is reduced to a proper temperature after passing through the cooling section 200; finally, impurities are filtered out through the filter segment 300, and fragrance is increased through the popping beads 310, thereby providing the best smoking experience to the user.

Another embodiment of the present invention is shown in fig. 7-9, which is a structure for heating a non-combustible herbal bomb. In this embodiment, the smoking segment 100 is connected to one end of the cooling segment 200, and the other end of the cooling segment 200 is connected to the filter segment 300. The smoke channel 210 in the cooling section 200 is in the shape of a fan blade, and includes a circular tube-shaped channel located at the axis and fan-shaped channels symmetrically arranged on the circumference of the circular tube-shaped channel. Wherein, the diameter of the circular tube-shaped channel part of the smoke channel 210 is 2.5mm, the diameter of the fan-shaped channel part is 4.8mm, and the interval between the adjacent fan-shaped channels is 0.5mm, so as to provide a larger contact area, thereby ensuring that when the iron-nickel alloy sheet 110 heats the thin sheet 120, the formed smoke can fully contact with the cooling section material 230 through the smoke channel 210, and improving the cooling efficiency. Further, the bead 310 in the filter segment 300 is disposed corresponding to the outlet of the smoke channel 210, and the diameter of the bead 310 is 2.8mm to correspond to the smoke channel 210. Thus, the thin sheet 120 is heated by the iron-nickel alloy sheet 110, so that the heating is more sufficient and uniform, the fragrance is more stable, and the heating residues are less; then the temperature of the flue gas is reduced to a proper temperature after passing through the cooling section 200; finally, impurities are filtered out through the filter segment 300, and fragrance is increased through the popping beads 310, thereby providing the best smoking experience to the user.

The heating non-combustible herbal smoke bomb provided by the utility model is applied to an electromagnetic induction heating appliance, and compared with the traditional smoking appliance, the heating non-combustible herbal smoke bomb is not easy to oxidize, is more uniform in heating, is more sufficient in combustion, has fewer residues, is more balanced in smoke, has higher smoke quality, and improves the smoking experience of the smoke bomb.

The following description will be made with reference to specific examples of the assembling method and the using effect of the non-combustible cartridge.

Example 1

The smoking section of the cigarette bullet is formed by rolling 20 g of lotus leaves, 2 g of tartary buckwheat powder, 2 g of ginkgo leaves, 10 g of glycerol and 10 g of rose extract into sheets, cutting the sheets into slices by a corrugated knife and rolling the slices into a column by cigarette paper. Wherein the cooling section is a silica gel hollow column, and the filtering section is cotton. The whole smoke generating section of the cigarette is wrapped by cigarette paper, the cooling section and the filtering section are wrapped by the paper tube, and the smoke generating section, the cooling section and the filtering section are connected to form the whole cigarette.

Meanwhile, the smoke generating section is manufactured by the same method, and then the iron-nickel alloy sheet is added into the smoke generating section to manufacture the electromagnetic induction smoke bomb containing the iron-nickel alloy sheet by the same method. The ordinary smoke cartridge is sucked by a needle-shaped or sheet-shaped heating device, the electromagnetic induction smoke cartridge is sucked by the electromagnetic induction heating device, and the two are compared to draw a conclusion: the effect is experienced better in the suction of electromagnetic induction cigarette bullet, and the fragrance is richened to the flue gas, and balanced fine and smooth, and the condition of fuming is better, and the residue is less, and the smoking set temperature is lower, and the heat dissipation is faster.

Example 2

The smoking section of the cigarette bullet is formed by rolling 20 g of sweet osmanthus, 2 g of dandelion, 2 g of ginkgo leaf, 10 g of glycerol and 10 g of rose extract into sheets, cutting the sheets into slices and rolling the slices into columns by using cigarette paper. Wherein the cooling section is a silica gel hollow column, and the filtering section is cotton. The whole smoke generating section of the cigarette is wrapped by cigarette paper, the cooling section and the filtering section are wrapped by the paper tube, the smoke generating section, the cooling section and the filtering section are connected to form the whole cigarette, and blasting beads are added into the filtering section.

Meanwhile, a fuming section is manufactured by the same method, then an iron-nickel alloy sheet is added into the fuming section, and the electromagnetic induction smoke bomb containing the iron-nickel alloy sheet is manufactured by the same method, wherein an exploding bead is added into the filter section. The ordinary smoke cartridge is sucked by a needle-shaped or sheet-shaped heating device, the electromagnetic induction smoke cartridge is sucked by the electromagnetic induction heating device, and the two are compared to draw a conclusion: the effect is experienced better in the suction of electromagnetic induction cigarette bullet, and the cigarette is fragrant abundanter, and the flue gas is balanced thick and heavy, and the condition of fuming is better, and the residue is less, and the smoking set temperature is lower, and the heat dissipation is faster.

In conclusion, the utility model provides a novel smoking section formed by a novel heating material, which is formed by slicing sheets obtained by slicing sheets into thin sheets with the same size and length and iron-nickel alloy sheets. Most harmful needs of residues produced by insufficient combustion of the smoke bomb heating often clean the smoking set, so the novel smoke bomb and the electromagnetic induction heating mode are more healthy and environment-friendly, and have better application prospect.

It should be understood that the applications provided by the present invention are not limited to the examples described above. Modifications and variations will occur to those skilled in the art in light of the foregoing description, and it is intended that all such modifications and variations be included within the scope of the present invention as defined by the appended claims.

Claims (9)

1. The structure of the heating non-combustion herbal smoke bomb is characterized by comprising a smoking section, wherein the smoking section comprises an iron-nickel alloy sheet.

2. The structure of a non-combustible heated herbal bomb as claimed in claim 1, wherein said iron-nickel alloy sheet is made of an alloy consisting of iron and nickel, and is a metal sheet having a length of 3-20mm, a width of 2-5mm and a thickness of 0.1-0.4 mm.

3. The structure of a heated non-combustible grass cartridge according to claim 1 wherein the iron-nickel alloy sheet is embedded in the central position of the smoking section.

4. The structure of claim 3, wherein the iron-nickel alloy sheet is rectangular parallelepiped, the smoking section is cylindrical, and the iron-nickel alloy sheet is embedded in the axial center of the smoking section.

5. The structure of a heated non-combustible herbal bomb as claimed in claim 1 further comprising a cooling section and a filtering section, said smoking section, said cooling section and said filtering section being connected in series.

6. The structure of a heated non-burning herbal bomb as claimed in claim 5, wherein the structure is sized such that the smoking section is 8-18mm long, the cooling section is 16-30mm long, and the filter section is 5-12mm long.

7. The structure of a heated non-combustible herbal cartridge as in claim 5 wherein the smoking section is made by a rolled up sheet of cut tobacco and then inserted with the iron-nickel alloy sheet in the center of the smoking section.

8. The structure of the tobacco cartridge capable of not burning herbal medicine through heating as claimed in claim 5, wherein the material of the temperature reduction section is one or more of silica gel, polylactic acid particles, polylactic acid film, zeolite, molecular sieve and bentonite.

9. The structure of a heated non-burning herbal cartridge as recited in claim 5, wherein the material of the filter section is cotton.

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