MULTI-SECTION HEAT-NOT-BURN PRODUCT HAVING HEMP COMPONENTS AND PREPARATION METHOD THEREOF

Abstract

A multi-section heat-not-burn product having hemp components includes a fuming product used for being heated and baked rather than being suctioned after the fuming product is lighted. The fuming product is composed of a plurality of different units integrally filled from a lip proximity end to a lip far end by a tubular material having a fixed specification, which includes four or more different units including a filtering unit, a gel cooling and spice unit, a hollow specific particle unit, a hollow supporting unit, a cavity unit, a barrier sheet unit, an atomizing unit having hemp components and a sealing unit. The present disclosure can obtain a finished fuming unit product after sealing the heat-not-burn product having hemp components, and reliably solve problems of a single type of smoke bomb and a complicated processing technology in the heat-not-burn field by mixing with smoke agents with different flavors of spice components.

Description

CROSS REFERENCE TO RELATED APPLICATIONS

The present application is a Continuation-in-part application of PCT Application No. PCT/CN2019/111193 filed on Oct. 15, 2019, which claims the benefit of Chinese Patent Application No. 201910479561.7 filed on Jun. 4, 2019. All the above are hereby incorporated by reference. the contents of which are incorporated herein by reference in their entirety.

TECHNICAL FIELD

The present disclosure generally relates to heat-not-burn fuming products field, and especially relates to a multi-section heat-not-burn product having hemp components and a preparation method thereof.

BACKGROUND ART

Tobacco products are consumer goods made from tobacco leaves, such as cigarettes, so that heat generated by burning a carbonaceous heat source is transferred to a spice section to produce fragrance smoke. Such cigarette can't produce smoke around it and the heat is transferred from the heat source to the spice section by convection and radiation.

Comparing with conventional cigarettes, a unique feature of a new tobacco product is attracted a lot of attention by consumers. A heat-not-burn tobacco is configured to heat the tobacco by using external heat sources rather than lighting the tobacco so that it is for less release and higher security relative to a conventional tobacco. However, a single type of smoke bomb in a conventional heat-not-burn product is mostly composed of smoke agents with a single spice component, and a processing technology is complicated so that it can't play as a positive and effective role in a suction process for greatly limiting the sale of the heat-not-burn products. Therefore, a multi-section heat-not-burn product having hemp components and a preparation method thereof are provided for solve problems above mentioned.

SUMMARY OF THE INVENTION

The technical problems to be solved: in view of the shortcomings of the related art, the present disclosure relates to a multi-section heat-not-burn product having hemp components and a preparation method thereof which can have advantages of abundant types of smoke bombs and conveniently process a fuming product, and solve problems that a single type of smoke bomb in a conventional heat-not-burn product is mostly composed of smoke agents with a single spice component, and a processing technology is complicated so that it can't be played as a positive and effective role in the suction process for greatly limiting the sale of the heat-not-burn products.

The technical solution adopted for solving technical problems of the present disclosure is:

A multi-section heat-not-burn product having hemp components which includes a fuming product used for being heated and baked rather than being suctioned after the fuming product is lighted. The fuming product includes a lip proximity end and a lip far end, and is composed of a plurality of different units integrally filled from the lip proximity end to the lip far end by a tubular material having a fixed specification, which includes four or more different units. The four or more different units includes a filtering unit, a gel cooling and spice unit, a hollow specific particle unit, a hollow supporting unit, a cavity unit, a barrier sheet unit, an atomizing unit having hemp components and a sealing unit.

Preferably, the tubular material has a thickness of 0.1 mm-0.5 mm and is configured to absorb and store a large amount of heat and dissipate a temperature through radiation and convection before an inlet being formed thereon; a filling process of the tubular material is a smoke bomb forming filling process, which is piecewise filling and integrated forming of various tubular materials and characteristic units so that it is completely different from a composite coil forming process.

Preferably, a form of the atomizing unit having hemp components is:

Step S1, after crushing a residue of a hemp to 20˜250 mesh, wherein the residue is obtained after completely extracting effective components from the hemp during natural extraction; and adding filler, adhesive, fragrance agent and smoke agent for granulation drying, and then supplementing the effective components of the hemp by adding spice; or

Step S2, crushing leaves and flowers of the hemp with a full form, and adding the filler, the adhesive, the fragrance agent and the smoke agent for granulation drying, and supplementing the effective components of the hemp by the way of adding spice.

Preferably, the form of the atomizing unit having hemp components includes, but not limited to, particles, flakes, creams or reconstituted flakes.

A preparation method of a multi-section heat-not-burn product having hemp components of the present disclosure, comprising the following steps:

step s1, firstly selecting a waste residue of a hemp as a carrier, wherein the waste residue of the hemp is obtained after completely extracting effective components from the hemp during natural extraction, obtaining a formed waste residue carrier after processing the waste residue used as the carrier by a granulation process, and then mixing the formed waste residue carrier with incense making extract, smoke agent, adhesive and wrapping agent to obtain a primary atomizing unit having hemp components; or firstly selecting flowers and leaves of a hemp as a carrier, obtaining a formed hemp flower and leaf carrier after processing the flowers and the leaves of the hemp used as the carrier, and then mixing the formed hemp flower and leaf carrier with incense making extract, smoke agent, adhesive and wrapping agent to obtain a primary atomizing unit having hemp components;

step s2, the primary atomizing unit having hemp components used for fully absorbing a material solution for 12 hours in a sterile environment, and then sending to a drying equipment for drying about 0.2-2 hours, wherein moisture test is qualified;

step s3, adding a prepared spice component in a form of a cigarette perfuming to the primary atomizing unit having hemp components after the step s2, and evenly stirring to obtain a semi-finished product of the atomizing unit having hemp components, and then adding package agent to seal its fragrance according to different types of semi-finished products, to obtain a finished product of the atomizing unit having hemp components. Preferably, in the step s1, when the flowers and the leaves of the hemp are selected as the carrier, the flowers and leaves of the hemp are processed by a granulation process, a lamination molding process or a paste molding process, and the effective components of the hemp are added in the form of the cigarette perfuming. Preferably, the granulation process includes, but not limited to, a pressure forming granulation process, a stirring and rolling granulation process, a hot melt and cooling granulation process, a spray drum granulation process and a spray fluidized bed granulation process. The lamination molding process includes, but not limited to, a roller pressing process, a paper-making process and an impregnation process. The paste molding process includes, but not limited to, an extrusion molding process and a rapid accumulation molding process.

Preferably, a drying mode of the atomizing unit having hemp components includes, but not limited to, a cold air drying mode, a heating tube drying mode, a hot air drying mode, a low temperature freeze-drying mode and a microwave drying mode. If using the hot air drying mode, a control temperature is 50° C.-150° C., and a drying time of the heat-not-burn product having hemp components is 12-120 minutes, and a detection range of qualified moisture index of the atomizing unit is 8%˜15%.

Preferably, the effective components of the hemp in the form of a cigarette spray perfuming are added for 1-2 times to the primary atomizing unit having hemp components after the step s2, and then evenly stirred to obtain a semi-finished product of the atomizing unit having hemp components.

Preferably, the effective components of the hemp include a mixture consisted of CBD, CBC, CBN, CBG and their propyl homologues THCV, CBDV, CBCV and CBGV.

Comparing to the related art, the multi-section heat-not-burn product having hemp components and a preparation method thereof of the present disclosure provides the advantages as below.

First, the present disclosure can obtain a finished fuming unit product after sealing the heat-not-burn product having hemp components, and reliably solve problems of a single type of smoke bomb and a complicated processing technology in the heat-not-burn field by mixing with smoke agents with different flavors of spice components.

Second, the present disclosure can achieve a homogenization of the hemp components by quantitatively and uniformly adding the effective components of the hemp into the heat-not-burn product, at the same time, the hemp industry can be industrialized due to the booming development of the heat-not-burn field, and a sealing smoke bomb can be more easily carried by users.

Third, the present disclosure can expand the booming development of the heat-not-burn field and the application of industrial hemps in the field of electronic cigarettes by adding the hemp components and combining the hemp components and the heat-not-burn product, wherein the hemp components include hemp flowers and hemp leaves and the waste residue after extracting the hemp. Furthermore, the present disclosure can have a good smoking effect, and the effective components of the extracted hemp can be fully volatilized without being burned, so that it is of anti-inflammatory, anti-anxiety and anti-spasmodic effects.

Fourth, as a new type of tobacco products, the heat-not-burn cigarette of the present disclosure can be characterized with non-burn tobacco to provide smoke and flavoring substances for consumers by heating fuming materials so that the release of harmful components is significantly reduced so as to use safer. Generally, a heating temperature is lower than 350° C., with only a small amount of side-flow smoke.

BRIEF DESCRIPTION OF THE DRAWINGS

The sole FIGURE is a schematic view of a fuming product in accordance with an exemplary embodiment.

DETAILED DESCRIPTION OF EMBODIMENTS

Reference will now be made in detail to embodiments, examples of which are illustrated in the accompanying drawings. In the following detailed description, numerous specific details are set forth in order to provide a thorough understanding of the subject matter presented herein. Obviously, the implementation embodiment in the description is a part of the present disclosure implementation examples, rather than the implementation of all embodiments, examples. According to the described exemplary embodiment of the present disclosure, all other embodiments obtained by one of ordinary skill in the related art on the premise of no creative work are within the protection scope of the present disclosure.

In a specific embodiment of the present disclosure, referring to the sole FIGURE, a multi-section heat-not-burn product having hemp components includes a fuming product used for being heated and baked rather than being suctioned after the fuming product is lighted. The fuming product includes a lip proximity end and a lip far end, and is composed of a tube-shaped material filled with a plurality of different units. The tubular material has a certain thickness of preferably 0.1 mm˜0.5 mm, and is configured to absorb and store a large amount of heat and dissipate a temperature through radiation and convection before an inlet being formed thereon. A filling process of the tubular material is a smoke bomb forming filling process, shown in FIGURE. The plurality of different units is piecewise filled and integrated in a forming paper tube, which is completely different from a composite coil forming process.

The plurality of different units includes four or more different units which include a filtering unit 1, a gel cooling and spice unit 2, a hollow specific particle unit 3, a hollow supporting unit 6, a cavity unit 5, a barrier sheet unit 4, an atomizing unit having hemp components 7 and a sealing unit.

A preparation method of the atomizing unit having hemp components 7 includes:

Step s1, after crushing a residue of a hemp to 20˜250 mesh, wherein the residue is obtained after completely extracting effective components from the hemp during natural extraction; and adding filler, adhesive, fragrance agent and smoke agent for granulation drying, and then supplementing the effective components of the hemp by adding spice. Furthermore, a waste residue material of the hemp is the waste residue after completely extracting most of the effective components during natural extraction of the hemp. Or, step s2, crushing leaves and flowers of the hemp with a full form, and adding the filler, the adhesive, the fragrance agent and the smoke agent for granulation drying, and supplementing the effective components of the hemp by the way of adding spice.

Furthermore, the effective components of the hemp include a mixture consisted of CBD, CBC, CBN, CBG and their propyl homologues THCV, CBDV, CBCV and CBGV.

A form of the atomizing unit having hemp components 7 includes, but not limited to, particles, flakes, creams or reconstituted flakes.

In a specific embodiment of the present disclosure, a preparation method of a multi-section heat-not-burn product having hemp components of the present disclosure, comprising the following steps:

Step s1, firstly selecting a waste residue of a hemp as a carrier, wherein the waste residue of the hemp is obtained after completely extracting effective components from the hemp during natural extraction, obtaining a formed hemp waste residue carrier after processing the waste residue used as the carrier preferably by a granulation process, and then mixing the formed hemp waste residue carrier with incense making extract, smoke agent, adhesive and wrapping agent to obtain a primary atomizing unit having hemp components; or firstly selecting flowers and leaves of a high-quality hemp as a carrier, obtaining a formed hemp flower and leaf carrier after processing the flowers and the leaves of the hemp used as the carrier, and then mixing the formed hemp flower and leaf carrier with incense making extract, smoke agent, adhesive and wrapping agent to obtain a primary atomizing unit having hemp components;

Step s2, the primary atomizing unit having hemp components mentioned above is used for fully absorbing a material solution for 12 hours in a sterile environment, and then sending to a drying equipment for drying the primary atomizing unit about 0.2-2 hours, wherein moisture test is qualified. Preferably, a drying mode of the atomizing unit having hemp components includes, but not limited to, a cold air drying mode, a heating tube drying mode, a hot air drying mode, a low temperature freeze-drying mode and a microwave drying mode. If using the hot air drying mode, a control temperature is 50° C.-150° C., and a drying time of the heat-not-burn product having hemp components is 12-120 minutes, and a detection range of qualified moisture index of the atomizing unit is 8%˜15%.

Step s3, adding a prepared spice component in a form of a cigarette perfuming to the primary atomizing unit having hemp components after the step s2, and evenly stirring to obtain a semi-finished product of the atomizing unit having hemp components, and then adding package agent to seal its fragrance according to different types of semi-finished products, to obtain a finished product of the atomizing unit having hemp components.

In the step s3, the effective components of the hemp in the form of a cigarette spray perfuming are added for 1-2 times to the primary atomizing unit having hemp components after the step s2, and then evenly stirred to obtain a semi-finished product of the atomizing unit having hemp components.

In a specific embodiment of the present disclosure, the effective components of the hemp include a mixture consisted of CBD, CBC, CBN, CBG and their propyl homologues THCV, CBDV, CBCV and CBGV.

In a specific embodiment of the present disclosure, in the preparation step of the atomizing unit having hemp components, the step of processing the flowers and leaves of the hemp via a certain process includes: the flowers and leaves of the hemp are processed by a granulation process, a lamination molding process or a paste molding process, and the effective components of the hemp are added in the form of the cigarette perfuming. The granulation process of the flowers and leaves of the hemp includes, but not limited to, a pressure forming granulation process, a stirring and rolling granulation process, a hot melt and cooling granulation process, a spray drum granulation process and a spray fluidized bed granulation process. The lamination molding process of the flowers and leaves of the hemp includes, but not limited to, a roller pressing process, a papermaking process and an impregnation process. The paste molding process of the flowers and leaves of the hemp includes, but not limited to, an extrusion molding process and a rapid accumulation molding process.

The present disclosure provides the advantages as below: First, the present disclosure can obtain a finished fuming unit product after sealing the heat-not-burn product having hemp components, and reliably solve problems of a single type of smoke bomb and a complicated processing technology in the heat-not-burn field by mixing with smoke agents with different flavors of spice components. Second, the present disclosure can achieve a homogenization of the hemp components by quantitatively and uniformly adding the effective components of the hemp into the heat-not-burn product, at the same time, the hemp industry can be industrialized due to the booming development of the heat-not-burn field, and a sealing smoke bomb can be more easily carried by users. Third, the present disclosure can expand the booming development of the heat-not-burn field and the application of industrial hemps in the field of electronic cigarettes by adding the hemp components and combining the hemp components and the heat-not-burn product, wherein the hemp components include hemp flowers and hemp leaves and the waste residue after extracting the hemp. Furthermore, the present disclosure can have a good smoking effect, and the effective components of the extracted hemp can be fully volatilized without being burned, so that it is of anti-inflammatory, anti-anxiety and anti-spasmodic effects. Fourth, as a new type of tobacco products, the heat-not-burn cigarette of the present disclosure can be characterized with non-burn tobacco to provide smoke and flavoring substances for consumers by heating fuming materials so that the release of harmful components is significantly reduced so as to use safer. Generally, a heating temperature is lower than 350° C., with only a small amount of side-flow smoke. In a word, the multi-section heat-not-burn product having hemp components and the preparation method thereof of the present disclosure can have the advantages of abundant smoke bomb types and conveniently processing a fuming product, and solve problems that a single type of smoke bomb in conventional heat-not-burn products are mostly composed of smoke agents with a single spice component, and a processing technology is complicated so that it can't be played as a positive and effective role in the suction process for greatly limiting the sale of the heat-not-burn products.

Although the features and elements of the present disclosure are described as embodiments in particular combinations, each feature or element can be used alone or in other various combinations within the principles of the present disclosure to the full extent indicated by the broad general meaning of the terms in which the appended claims are expressed. Any variation or replacement made by one of ordinary skill in the related art without departing from the spirit of the present disclosure shall fall within the protection scope of the present disclosure.

Claims

1. A multi-section heat-not-burn product having hemp components, comprising a fuming product used for being heated and baked rather than being suctioned after the fuming product is lighted, wherein the fuming product comprising a lip proximity end and a lip far end, and composed of a tubular material integrally filled with a plurality of different units integrally; and

the plurality of different units comprises a filtering unit, a gel cooling and spice unit, a hollow specific particle unit, a hollow supporting unit, a cavity unit, a barrier sheet unit, an atomizing unit having hemp components, and a sealing unit configured to seal the atomizing unit.

2. The multi-section heat-not-burn product having hemp components as claimed in claim 1, wherein the tubular material has a thickness of 0.1 mm˜0.5 mm and is configured to absorb and store a large amount of heat and dissipate a temperature through radiation and convection before an inlet being formed thereon; the plurality of different units is piecewise filled in the tubular material and integrated in one piece.

3. The multi-section heat-not-burn product having hemp components as claimed in claim 1, wherein the atomizing unit having hemp components is formed in the following steps below:

step s1, after crushing a residue of a hemp to 20˜250 mesh, wherein the residue is obtained after completely extracting effective components from the hemp during natural extraction; and adding filler, adhesive, fragrance agent and smoke agent for granulation drying, and then supplementing the effective components of the hemp by a way of adding spice; or

step s2, crushing leaves and flowers of the hemp with a full form, and adding the filler, the adhesive, the fragrance agent and the smoke agent for granulation drying, and supplementing the effective components of the hemp by the way of adding spice.

4. The multi-section heat-not-burn product having hemp components as claimed in claim 1, wherein the atomizing unit having hemp components are selected from any one of particles, flakes, creams or reconstituted flakes.

5. A preparation method of a multi-section heat-not-burn product having hemp components comprising the following steps:

step s1: firstly selecting a waste residue of a hemp as a carrier, wherein the waste residue of the hemp is obtained after completely extracting effective components from the hemp during natural extraction, obtaining a formed waste residue carrier after processing the waste residue used as the carrier by a granulation process, and then mixing the formed waste residue carrier with incense making extract, smoke agent, adhesive and wrapping agent to obtain a primary atomizing unit having hemp components; or firstly selecting flowers and leaves of a hemp as a carrier, obtaining a formed hemp flower and leaf carrier after processing the flowers and the leaves of the hemp used as the carrier, and then mixing the formed hemp flower and leaf carrier with incense making extract, smoke agent, adhesive and wrapping agent to obtain a primary atomizing unit having hemp components;

step s2: the primary atomizing unit having hemp components used for fully absorbing a material solution for 12 hours in a sterile environment, and then sending to a drying equipment for drying, wherein moisture test is qualified; and

step s3: adding a prepared spice component in a form of a cigarette perfuming to the primary atomizing unit having hemp components after the step s2, and evenly stirring to obtain a semi-finished product of the atomizing unit having hemp components, and then adding package agent to seal its fragrance according to different types of semi-finished products, to obtain a finished product of the atomizing unit having hemp components.

6. The preparation method as claimed in claim 5, wherein in the step s1, when the flowers and the leaves of the hemp are selected as the carrier, the flowers and leaves of the hemp are processed by a granulation process, a lamination molding process or a paste molding process, and the effective components of the hemp are added in the form of the cigarette perfuming.

7. The preparation method as claimed in claim 6, wherein the granulation process comprises a pressure forming granulation process, a stirring and rolling granulation process, a hot melt and cooling granulation process, a spray drum granulation process and a spray fluidized bed granulation process; the lamination molding process comprises a roller pressing process, a papermaking process and an impregnation process; the paste molding process comprises an extrusion molding process and a rapid accumulation molding process.

8. The preparation method as claimed in claim 5, wherein the drying equipment comprises a plurality of drying modes selected from any one of a cold air drying mode, a heating tube drying mode, a hot air drying mode, a low temperature freeze-drying mode and a microwave drying mode.

9. The preparation method as claimed in claim 5, wherein in the step s2, a drying temperature of the drying equipment is 50° C.-150° C., a drying time is 12-120 minutes, and a qualified range of the moisture test is 8%˜15%.

10. The preparation method as claimed in claim 5, wherein the effective components of the hemp in the form of a cigarette spray perfuming are added for 1-2 times to the primary atomizing unit having hemp components after the step s2, and then evenly stirred to obtain a semi-finished product of the atomizing unit having hemp components.

11. The preparation method as claimed in claim 3, wherein the effective components of the hemp comprise a mixture consisted of CBD, CBC, CBN, CBG and their propyl homologues THCV, CBDV, CBCV and CBGV.

12. The preparation method as claimed in claim 5, wherein the effective components of the hemp comprise a mixture consisted of CBD, CBC, CBN, CBG and their propyl homologues THCV, CBDV, CBCV and CBGV.

13. The preparation method as claimed in claim 6, wherein the effective components of the hemp comprise a mixture consisted of CBD, CBC, CBN, CBG and their propyl homologues THCV, CBDV, CBCV and CBGV.

14. The preparation method as claimed in claim 10, wherein the effective components of the hemp comprise a mixture consisted of CBD, CBC, CBN, CBG and their propyl homologues THCV, CBDV, CBCV and CBGV.