CN112438436A - Atomizing rod capable of being sucked - Google Patents

Abstract

The present invention provides a smokable wand for atomising a liquid comprising: a tube wall that houses the entire smokable atomizing rod; an end patch positioned at the front end of the smokable atomizing rod for sealing the aerosol-generating substrate within the tube rod; an atomizing section in which the aerosol-generating substrate is located; the breathable section at least comprises one breathable section which is positioned at the rear end of the atomization section, the smokable atomization rod further comprises a filter stick, the filter stick is positioned at the farthest end, corresponding to the end of the smokable atomization rod, when the breathable sections are two or more, the structures of the breathable sections can be the same structure or different structures, the breathable sections can be filled with contents or can not be filled with the contents, the contents filled in the breathable sections have the functions of increasing aroma or cooling, the airflow path is changed between the breathable sections or the breathable sections, the collision of airflow with the contents of the breathable sections, the contents of the breathable sections and the pipe wall is increased, and the function of reducing the temperature of atomized smoke is achieved.

Description

Atomizing rod capable of being sucked

Technical Field

The invention relates to the technical field of heating non-combustible cartridges, in particular to an atomizing rod capable of generating smoke during smoking.

Background

At present, a non-combustible heating type cigarette cartridge is heated by external heating equipment, the heating temperature is obviously lower than the combustion temperature of the traditional cigarette, and the aroma substances of the aerosol production matrix are roasted by lower temperature, so that the product smoking and physiological requirements of consumers are met.

Because the cigarette bullet of the type of non-combustible combustion of present heating, after being heated, if the consumer handles improperly, aerosol production matrix remains in the middle of heating the utensil easily, needs to the clearance of utensil, causes the consumption to experience relatively poor, simultaneously, the structure of this type of cigarette need add one section macromolecular material that has the cooling function, this kind of material is when the suction for reduce the temperature of flue gas, this macromolecular material releases some new harmful substance when the high temperature, produces potential harm. The invention provides a novel smokable atomization rod for solving the problems of residual aerosol production matrix in a heating cavity, overhigh smoke temperature and the like caused by improper operation after the cigarette is heated.

Disclosure of Invention

The present invention aims to overcome the above drawbacks and solve the above technical problems by providing a smokable rod structure with an air permeable section.

A smokable wand comprising: the tube wall accommodates the whole atomization rod; the atomizing rod structure is sequentially provided with an end paste, and the end paste is positioned at the front end of the smokable atomizing rod and used for sealing the aerosol generation substrate in the tube rod; an atomizing section in which the aerosol-generating substrate is located; the air permeable section at least comprises one air permeable section and is positioned at the rear end of the atomizing section.

In a specific embodiment, the smokable atomizing rod further comprises a filter rod positioned at the end of the smokable atomizing rod opposite to the farthest end.

In one embodiment, when the air-permeable section comprises two or more air-permeable sections, the structures of the air-permeable sections can be the same structure or different structures.

In one embodiment, when the gas permeable section comprises two or more gas permeable sections, the gas permeable sections may be in direct contact with each other, or a cavity section is left between the gas permeable sections.

In a specific embodiment, the ventilation section has a symmetrical structure at two ends, or an asymmetrical structure.

In one embodiment, the one or more gas permeable sections have the effect of modifying the flow of gas therethrough.

In one embodiment, the gas permeable section or sections may be filled with contents or not.

In one embodiment, when the air permeable section is filled with contents, the contents are particles, threads, pieces, irregular forms of flavored or unflavored fillable media.

In one embodiment, the end patch and the nearest adjacent breathable segment form an aerosolizing chamber, and the space filling rate of the aerosol-generating substrate in the aerosolizing chamber is between 50% and 96%.

In one embodiment, the aerosol-generating substrate in the aerosolizing segment is a powder, granules, filaments, flakes, irregular forms of fillable aerosolizing medium.

In one embodiment, the end patch has breathable properties and can be easily punctured.

In one embodiment, the rod may be used either with an external heating element or alone.

To sum up, the structure has various advantages, firstly, one or more air-permeable sections are added in the smokable atomization rod, or the air-permeable sections are filled with contents, so that the air-permeable sections or the air-permeable sections have the function of changing the flow path of the atomized air flow, the collision of the atomized air flow with the air-permeable sections, the contents in the air-permeable sections and the pipe wall is increased, the effect of reducing the temperature of the smoke is achieved, the air-permeable sections are filled with the flavoring contents, and the effects of increasing the amount of fog and increasing the flavor are achieved; secondly, the end of the atomizing rod capable of being sucked is added with an end paste with high air permeability, so that the air can flow in conveniently, and the residue of an atomizing medium in the heating element is avoided after the suction is finished; thirdly, the structure of the suction rod can be directly used as an ultralow temperature cigarette structure for suction.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic cross-sectional view of a first embodiment of the present invention;

FIG. 2 is a schematic cross-sectional view of a ventilation section according to a first embodiment of the present invention

FIG. 3 is a schematic cross-sectional view of a second embodiment of the present invention;

FIG. 4 is a schematic cross-sectional view of a third embodiment of the present invention;

FIG. 5 is a schematic cross-sectional view of a fourth embodiment of the present invention;

FIG. 6 is a schematic cross-sectional view of a fifth embodiment of the present invention;

FIG. 7 is a schematic cross-sectional view of a sixth embodiment of the present invention;

in the figure: 1-tube wall; 2-end sticking; 3-an atomization section; 4-a gas permeable section matrix; 5-an air inlet end; 6-airway; 7-air outlet end; 8-a cavity section; 9-filtering the filter stick; 10-side teeth; 11-a tooth flow channel; 12-side airflow channel; 13-arc-shaped air-permeable section matrix; 14-arc air inlet holes; 15-arc inlet end; 16-arc-shaped air outlet holes; 17-arc outlet end.

Detailed Description

The following detailed description of the embodiments of the present invention will be provided with reference to the drawings and examples, so that how to apply the technical means to solve the technical problems and achieve the technical effects can be fully understood and implemented.

Example 1

Fig. 1 and 2 show a schematic cross-sectional view of a structure and an air-permeable section of a smokable atomizing rod as an embodiment of the present invention, in this embodiment, the structure of the smokable atomizing rod includes a tube material outside the atomizing rod, and the tube wall 1 may be made of paper tube, fiber, plastic, etc. for accommodating all structures inside the smokable atomizing rod. One section of the smokable atomizing rod is an end sticker 2, starting from the end sticker 2, the structure of the smokable atomizing rod is an atomizing section 3, the structure of the smokable atomizing rod is a first air-permeable section which is in contact with the atomizing section 3 and consists of an air-permeable section base body 4, an air inlet end 5, an air passage 6, an air outlet end 7, a side tooth 10, a side tooth air flow channel 11 and the like (shown in figure 2), a cavity section 8 is arranged at the downstream of the first air-permeable section, a second air-permeable section is arranged at the downstream of the cavity section, the structure of the second air-permeable section is the same as that of the first air-permeable section, and a filter stick 9 is arranged at the downstream of the second air-permeable section.

In the embodiment, after the smokable atomizing rod is inserted into the external heater and after preheating is completed, the end of the filter stick 9 is smoked, smoke airflow enters from the end sticker 2 and then sequentially passes through the atomizing section 3, the airflow carrying atomized smoke generated by the atomizing section 3 respectively enters the air inlet end 5 and the two air inlet channels of the first air permeable section 11, and the airflow entering the air inlet end 5 flows into the air outlet end 7 through the air channel 6 and enters the cavity section 8; after the airflow entering the side tooth airflow channel 11 enters the air section 8 along the side tooth airflow channel 11 formed by the side tooth 10 and the pipe wall 1, the atomized smoke of the two airflow channels is mixed. Then the atomized smoke enters the second air permeable section, the airflow also enters airflow channels similar to the first air permeable section, and the atomized smoke enters the filter stick 9 for micropore flow distribution after being subjected to secondary flow distribution. After the atomized smoke is subjected to flow dividing-mixing-flow dividing-micropore flow dividing, the temperature of the atomized smoke is remarkably reduced compared with the temperature of the smoke which is not subjected to the step, the temperature can be reduced by 5-10 ℃ generally, and the temperature of the smoke inlet is more comfortable.

Example 2

Fig. 3 shows another configuration of a smokable atomizing rod according to an embodiment of the present invention, in which the configuration of the smokable atomizing rod is substantially the same as that of embodiment 1, and the difference from embodiment 1 is that the cavity section 8 is reduced in the embodiment, and the atomized smoke entering the air inlet end 5 flows into the air outlet end 7 through the air duct 6, and then the atomized smoke is mixed in the cavity formed by the air inlet end 5 of the second air permeable section and the air outlet end 7 of the first air permeable section; the atomized smoke entering the toothed airflow channel 11 of the first ventilation section directly enters the toothed airflow channel 11 of the second ventilation section, the atomized smoke flowing out is mixed with the atomized smoke flowing out from the air outlet end 7 of the second ventilation section, the temperature of the atomized smoke passing through the airflow channel is remarkably reduced compared with that of smoke not passing through the step, the temperature of the atomized smoke can be generally reduced by 4-8 ℃, and the temperature of a smoke inlet is more comfortable.

Example 3

Figure 4 shows as an example in the present invention a further configuration of a smokable atomising rod which is substantially the same as that of example 1 except that in this example a filter rod 9 has been reduced.

In this embodiment, after the smokable atomizing stick insert external heater, after being heated, the smokable atomizing stick of suction, flue gas air current from end subsides 2 back entering, in proper order through atomizing section 3, the air current carries the atomizing smog that atomizing section 3 produced to enter into two inlet channels of inlet end 5 and side tooth air current passageway 11 of first ventilative section respectively, the air current that enters into inlet end 5 flows into end 7 through air flue 6 and enters into cavity section 8, the air current that enters into side tooth air current passageway 11 enters into air section 8 along side tooth 10 and side tooth air current passageway 11 that pipe wall 1 formed after, two air current passageways mix. Then the atomized smoke enters the second air permeable section, the airflow also enters airflow channels similar to the first air permeable section, and the atomized smoke is mixed in the mouth of a smoker after being divided for the second time. After the atomized smoke is subjected to flow dividing-mixing-flow dividing, the temperature of the atomized smoke is remarkably reduced compared with that of the smoke which is not subjected to the step, the temperature of the atomized smoke can be reduced by 4-9 ℃ generally, and the temperature of the atomized smoke at the smoke inlet is more comfortable.

Example 4

Fig. 5 shows another structure of a smokable atomizing rod as an embodiment of the present invention, in which the structure of the smokable atomizing rod shown in this embodiment includes a pipe material outside the atomizing rod, and the pipe wall 1 may be made of paper, fiber, plastic, etc. for accommodating all the structures inside the atomizing rod. One end of the smokable atomizing rod is an end paste 2, the end paste 2 is a structure of an atomizing section 3 in sequence, and a first air permeable section in contact with the atomizing section 3 is formed by the end paste 2, the first air permeable section comprises a side air flow channel 12, an arc air permeable section base body 13, an arc air inlet hole 14, an arc air inlet end 15, an arc air outlet hole 16, an arc air outlet end 17 and the like, a cavity section 8 is formed at the downstream of the first air permeable section, a second air permeable section is formed at the downstream of the cavity section 8, the second air permeable section comprises an air permeable section base body 4, an air inlet end 5, an air channel 6, an air outlet end 7, a side tooth 10, a side tooth air flow channel 11 and the like, a filter stick 9 is formed at the downstream of the second air permeable section, and the smokable atomizing rod in the embodiment comprises six parts, and the end paste 2, the atomizing section 3, the first air permeable section, the cavity section 8, the second air permeable section and the filter.

In this embodiment, after the smokable atomizing rod is inserted into the external heater, and after preheating is completed, the end of the filter rod 9 is smoked, the smoke air flow enters from the end sticker 2, and then sequentially passes through the atomizing section 3, the air flow carries the atomized smoke generated by the atomizing section 3 to enter the arc-shaped air inlet end 15 of the first air permeable section, the smoke is mixed at the arc-shaped air inlet end 15, enters the side air flow channel 12 formed by the tube wall 1 and the arc-shaped air permeable section base body 13 through the arc-shaped air inlet hole 14, then enters the arc-shaped air outlet end 17 through the arc-shaped air outlet hole 16, and finally the atomized smoke is mixed in the cavity formed by the arc-shaped air outlet end 17 of the first air permeable section, the cavity section 8 and the air inlet end 5 of the second air permeable section, and then enters the second. After the atomized smoke enters the second air permeable section, the second air permeable section divides the atomized smoke, one part of the atomized smoke flows into the air outlet end 7 from the air inlet end 5 through the air passage 6, the other part of the atomized smoke enters the tooth airflow channel 11 formed by the tooth 10 and the tube wall 1, and the two parts of airflow are finally subjected to micropore division in the filter stick 9. After the atomized smoke is subjected to airflow change, mixing, shunting and micropore shunting, the temperature of the atomized smoke is remarkably reduced compared with the temperature of the smoke which is not subjected to the step, the temperature can be reduced by 5-10 ℃ generally, and the temperature of the smoke inlet is more comfortable.

In one embodiment, the first ventilation section and the second ventilation section can be exchanged in sequence, and the same technical effect can be achieved.

Example 5

Fig. 6 shows another structure of a smokable atomizing rod according to an embodiment of the present invention, in the structure of the smokable atomizing rod, the structure of the smokable atomizing rod is different from that in embodiment 4, in that the second air permeable section has the same structure as the first air permeable section, after passing through the two air permeable sections with the same structure, the atomized smoke is divided by micropores in the filter rod 9, and after "air flow change-mixing-air flow change-micropore division", the temperature of the atomized smoke is significantly reduced compared with the temperature of the smoke which has not undergone this step, and can be generally reduced by 5 to 10 ℃, and the temperature of the smoke inlet is more comfortable.

Example 6

Fig. 7 shows another configuration of a smokable rod according to an embodiment of the present invention, in which the configuration of the smokable rod differs from the configurations of embodiments 1 to 5 in that the air permeable section is a small tube with air permeable ends sealed, the small tube is nested in an external rod, and is filled with particles, filaments, sheets, and irregular content, the atomized smoke generated by heating the aerosol generating substrate of the rod passes through the gaps of the content in the air permeable section to form a shunting action, the heat is transferred to the content, the perfuming component in the content can be heated and diffused to increase the fragrance of the atomized smoke, reduce the temperature of the atomized smoke, the atomized smoke is mixed in the cavity of the rear section after coming out of the air permeable section, and then is shunted by the micropores in the filter rod, and is also subjected to "air shunting-mixing-micropore shunting-mixing", compared with the flue gas temperature which is not subjected to the step, the flue gas temperature is remarkably reduced, the temperature can be reduced by 6-12 ℃ generally, the inlet temperature of the flue gas is more comfortable, and the flue gas volume is increased.

The preferred embodiments of the present invention have been described in detail, however, the present invention is not limited to the specific details of the above embodiments, and various simple modifications may be made to the technical solution of the present invention within the technical idea of the present invention, and these simple modifications are within the protective scope of the present invention.

It should be noted that the various technical features described in the above embodiments can be combined in any suitable manner without contradiction, and the invention is not described in any way for the possible combinations in order to avoid unnecessary repetition.

Claims (10)

1. A smokable atomising rod, comprising: the tube wall accommodates the whole atomization rod; the atomizing rod structure is sequentially an end paste, and the end paste is positioned at the front end of the smokable atomizing rod and used for sealing the aerosol generating substrate in the tube rod; an atomizing section in which the aerosol-generating substrate is located; the air permeable section at least comprises one air permeable section and is positioned at the rear end of the atomizing section.

2. A smoking article according to claim 1, wherein the smoking article further comprises a filter plug positioned at the distal-most end of the smoking article.

3. A rod according to claim 1 wherein the configuration of the air-permeable sections may be the same or different for two or more air-permeable sections.

4. A smoking article according to claim 1, wherein the air-permeable sections are in direct contact with each other when the number of air-permeable sections is two or more, or a cavity section is left between the air-permeable sections.

5. A rod according to claim 1 wherein the gas permeable section is of symmetrical or asymmetrical configuration.

6. A smoking article according to claim 1, wherein the air-permeable section is either filled or not filled with contents.

7. A rod according to claim 1 wherein the air-permeable section, when filled with the contents, is a particulate, thread, tablet, irregularly shaped flavored or unflavored fillable medium.

8. A rod according to claim 1 wherein the end patch and the proximal adjacent gas permeable section define an aerosolization chamber therebetween, the aerosol-generating substrate is a powder, a granulate, a filament, a sheet, an irregular form of fillable aerosolization medium, and the space filling rate in the aerosolization chamber is between 50% and 96%.

9. A rod according to claim 1 in which the end patch is air permeable and can be easily pierced.

10. A smoking article according to claim 1, wherein the smoking article is adapted to be used either with an external heating element or alone.

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