CN215164180U - High-temperature-resistant tipping paper for heating non-combustible suction product - Google Patents

Abstract

The utility model provides a high temperature resistant tipping paper for heating incombustible suction article realizes improving filter rod wrapping material's high temperature stability when guaranteeing filter rod cooling effect to avoid flue gas temperature to the destruction of wrapping material's structure and functional layer and release bad gas, set up the temperature resistant structural layer in the front of raw paper layer, and, set up the cooling structural layer at the back of raw paper layer, the temperature resistant structural layer is from last to being temperature resistant waterborne gloss oil layer (2), temperature resistant waterborne printing ink layer (3), temperature resistant waterborne transfer glue layer (4), aluminize layer (5) and adhesive layer (6) down in proper order; comprises a plant fiber and acetate fiber blended paper layer (7) and heat absorption particles (8); the temperature resistance of the whole tipping paper reaches 140-190 ℃, the temperature resistance is higher than the highest temperature which can be reached by the tipping paper in the use process, and the tipping paper can not be adhered and can not release peculiar smell in the use process.

Description

High-temperature-resistant tipping paper for heating non-combustible suction product

Technical Field

The utility model relates to the technical field of cigarette, concretely relates to high temperature resistant tipping paper for heating incombustible smoking article.

Background

The transfer type tipping paper materials used in the prior art are all prepared by using conventional transfer base paper, water-based ink and water-based varnish, have poor temperature resistance, and are influenced to be mutually adhered in a short-time high-temperature environment in the production process or a long-time medium-high-temperature environment after being made into a finished product.

With the development of cigarette technology, a variety of novel tobacco products, such as short cigarettes and smoking products which are not burned by heating, appear, and the common characteristics of the two are as follows: the temperature of the filter segments is higher but the cause is different. Wherein, the lengths of the tobacco shred section and the filter tip section of the short cigarette are shortened, which results in poor cooling effect; although the smoking temperature of the heating non-combustion smoking article is much lower than that of the traditional cigarette, the temperature reduction effect of the filter section is limited, and the tobacco shred section is completely arranged in the heater, so that the heat exchange with the outside is little, and the smoke temperature is higher.

And the high temperature of the flue gas can bring about two adverse effects. Firstly, the suction discomfort is strong and the suction has burning sensation; secondly, the higher temperature has adverse effect on the existing tipping paper wrapping the filter tip, and firstly, the defects of layering, stripping, fading and the like of each structural layer of the tipping paper due to high temperature are generated; secondly, the adhesive, ink and the like of the tipping paper can change to a certain extent under the action of high temperature, so that peculiar smell is generated in the suction process.

In order to solve the above problems, related manufacturers mainly consider the implementation by reducing the temperature of the flue gas. For example: external cold air is introduced to neutralize and cool, the consumption of cooling materials is increased, and the like, but along with the development trend of the current novel cigarettes, namely short cigarettes and heating non-combustible smoking products, the cooling effect of a cooling section cannot be effectively improved by simply increasing the consumption of the cooling materials, and the cooling materials are deformed and collapsed to block an airflow channel and increase the smoking resistance; the method can not solve the problem of poor smoking experience of consumers caused by smoke temperature, and can not meet the requirements of smoking experience of consumers; the other solution is that the high-temperature stability of the wrapping material of the filter stick is improved while the cooling effect of the filter stick is ensured, so that the damage of the smoke temperature to the structure and the functional layer of the wrapping material and the release of bad gas are avoided.

The high-temperature-resistant tipping paper of the heating non-combustion smoking product, which is suitable for smoking and has good high-temperature stability, is provided, and is beneficial to adapting to the development of a novel tobacco product technology.

Disclosure of Invention

In order to solve the problem, the utility model provides a high temperature resistant connects dress paper for heating incombustible suction article.

The utility model adopts the following technical scheme: the high-temperature-resistant tipping paper is used for heating non-combustible suction products, is matched with forming paper to wrap tows to prepare a filter rod, and comprises a tipping paper raw paper layer 1.

The temperature-resistant structure layer comprises a temperature-resistant water-based gloss oil layer 2, a temperature-resistant water-based ink layer 3, a temperature-resistant water-based transfer adhesive layer 4, an aluminum plating layer 5 and an adhesive layer 6 from top to bottom in sequence; the manufacturing process comprises the steps of coating a temperature-resistant water-based transfer adhesive layer 4 on a 0.02 mm-thick biaxially oriented polyester film or a BOPP film serving as a transfer base material, and then directly spraying aluminum in vacuum to form an aluminum-plated layer 5; coating an adhesive layer 6 on the surface of the aluminized layer 5, compounding the aluminized layer with the tipping paper raw paper layer 1, and drying the aluminized layer through a drying tunnel; the temperature-resistant water-based transfer glue layer 4, the aluminized layer 5 and the adhesive layer 6 on the transfer base material are adhered to the front surface of the tipping paper base paper layer 1, the aluminized layer with metallic luster and the temperature-resistant water-based transfer glue layer 4 are peeled off from the transfer base material and are transferred to the whole surface of the tipping paper base paper layer 1 through gluing, then the temperature-resistant water-based ink layer 3 is printed on the temperature-resistant water-based transfer glue layer 4, and the temperature-resistant water-based varnish layer 2 is coated on the temperature-resistant water-based transfer glue layer.

The cooling structure layer is arranged on the back of the tipping paper raw paper layer 1 and comprises a plant fiber and acetate fiber blended paper layer 7 and heat absorption particles 8; the concrete structure is as follows: the blended paper layer 7 is attached to the back of the tipping paper raw paper layer 1 through an adhesive, wherein a plurality of semi-cylindrical tubular bulges 701 formed by embossing are uniformly distributed on the blended paper layer 7, a penetrating semi-circular space is formed between the semi-cylindrical tubular bulges 701 and the adhesive, and the heat absorption particles 8 are filled in the semi-circular space; the distance between the adjacent semi-cylindrical tubular protrusions 701 is adjustable and is determined according to the thickness of the final filter stick and the diameter of the semi-cylindrical tubular protrusions 701.

Preferably, the semi-cylindrical tubular protrusions 701 are vertically distributed on the back surface of the tipping paper base paper layer 1; the semi-cylindrical tubular protrusions 701 are transversely distributed on the back surface of the tipping paper base paper layer 1; the semi-cylindrical tubular protrusions 701 are spirally distributed on the back surface of the tipping paper base paper layer 1; the distance between adjacent semi-cylindrical tubular projections 701 is 0.5-1.5mm, and the diameter of a single semi-cylindrical tubular projection 701 is 0.5-1.0 mm.

Preferably, the heat absorption particles 8 are particles obtained by wrapping solid essence with phase change gel, the particle size is 30-60 meshes, the heat absorption particles are arranged on the back of the semi-cylindrical tubular protrusions 701 on the embossed blended paper layer 7 in advance, and after the blended paper layer 7 is attached to the back of the tipping paper raw paper layer 1, the heat absorption particles 8 are wrapped in the middle.

Preferably, the heat absorbing particles 8 are particles of glucomannan adhered liquid essence, marine polysaccharide and porous starch with the particle size of 40-60 meshes; mixing glucomannan and water for granulation, spraying liquid essence and marine polysaccharide on the surfaces of glucomannan particles after mixing, adhering porous starch after controlling the water content, arranging heat absorption particles 8 on the back of the semi-cylindrical tubular bulges 701 on the embossed blended paper layer 7 in advance, and wrapping the heat absorption particles 8 in the middle after the blended paper layer 7 is attached to the back of the tipping paper raw paper layer 1.

The principle is as follows: when a smoker sucks the smoke, part of the smoke flows along the outer ring of the tows and contacts with the inner surface of the tipping paper raw paper layer 1, the smoke exchanges heat with the heat absorption particles 8, and the particles undergo phase change or moisture evaporation according to different types or structures, wherein the phase change gel is changed from a solid state into a liquid state after being heated, absorbs the heat in the smoke and reduces the temperature of the smoke; secondly, the glucomannan with higher internal water content is heated to evaporate water, and the temperature is also reduced; in addition, the essence carried by the particles can absorb heat and be gasified, and flows along with the smoke, so that the auxiliary effect of reducing the temperature of the smoke is achieved.

After the temperature of the smoke is reduced, the smoke carries the fragrant substances to continue to move; in the process of cooling through the cooling particles, part of heat penetrates through the blended paper layer 7 and the tipping paper base paper layer 1, reaches the front surface of the tipping paper base paper layer 1, and contacts with the temperature-resistant structure layer, and due to the effect of the cooling structure layer, the temperature of the smoke is below 100 ℃, and the temperature-resistant water-based gloss oil layer 2, the temperature-resistant water-based ink layer 3, the temperature-resistant water-based transfer adhesive layer 4 and the adhesive layer 6 in the temperature-resistant structure layer can bear the temperature of 140-190 ℃ without deformation and delamination, and no volatile organic solvent is added therein, so that no harmful gas can be released.

Has the advantages that:

the temperature resistant structure layer and the cooling structure layer are arranged in the application respectively, the high temperature stability of the filter stick wrapping material is improved while the filter stick cooling effect is guaranteed, accordingly, the damage of the smoke temperature to the structure and the functional layer of the wrapping material and the release of harmful gas are avoided, the temperature resistance performance reaches 140-190 ℃, the temperature resistance performance is higher than the highest temperature which can be reached by tipping paper in the using process, and adhesion and peculiar smell release cannot occur in the using process.

Drawings

Figure 1 is the high temperature resistant connects horizontal cut-away view of dress paper.

Fig. 2 is a schematic structural view of the high temperature-resistant tipping paper in example 1.

Fig. 3 is a schematic structural view of the high temperature-resistant tipping paper in example 2.

Fig. 4 is a schematic structural view of the high temperature resistant tipping paper in example 3.

In the figure: the tipping paper comprises a tipping paper base paper layer 1, a temperature-resistant water-based varnish layer 2, a temperature-resistant water-based ink layer 3, a temperature-resistant water-based transfer glue layer 4, an aluminum-plated layer 5, an adhesive layer 6, a blended paper layer 7, a semi-cylindrical tubular projection 701 and heat-absorbing particles 8.

Detailed Description

The present invention will be further explained with reference to the drawings and examples.

Example 1

As shown in fig. 1 and 2, the high temperature resistant tipping paper for heating a non-combustible smoking article in the present embodiment includes a tipping paper raw paper layer 1, a temperature resistant structure layer disposed on a front surface of the raw paper layer, and a temperature lowering structure layer disposed on a back surface of the raw paper layer.

The temperature-resistant structure layer comprises a temperature-resistant water-based gloss oil layer 2, a temperature-resistant water-based ink layer 3, a temperature-resistant water-based transfer adhesive layer 4, an aluminum plating layer 5 and an adhesive layer 6 from top to bottom in sequence; the manufacturing process comprises the steps of coating a temperature-resistant water-based transfer adhesive layer 4 on a 0.02 mm-thick biaxially oriented polyester film or a BOPP film serving as a transfer base material, and then directly spraying aluminum in vacuum to form an aluminum-plated layer 5; coating an adhesive layer 6 on the surface of the aluminized layer 5, compounding the aluminized layer with the tipping paper raw paper layer 1, and drying the aluminized layer through a drying tunnel; the temperature-resistant water-based transfer glue layer 4, the aluminized layer 5 and the adhesive layer 6 on the transfer base material are adhered to the front surface of the tipping paper base paper layer 1, the aluminized layer with metallic luster and the temperature-resistant water-based transfer glue layer 4 are peeled off from the transfer base material and are transferred to the whole surface of the tipping paper base paper layer 1 through gluing, then the temperature-resistant water-based ink layer 3 is printed on the temperature-resistant water-based transfer glue layer 4, and the temperature-resistant water-based varnish layer 2 is coated on the temperature-resistant water-based transfer glue layer.

The cooling structure layer is arranged on the back of the tipping paper raw paper layer 1 and comprises a plant fiber and acetate fiber blended paper layer 7 and heat absorption particles 8; the concrete structure is as follows: the blended paper layer 7 is attached to the back of the tipping paper raw paper layer 1 through an adhesive, wherein a plurality of semi-cylindrical tubular protrusions 701 formed by embossing are uniformly distributed on the blended paper layer 7, and the semi-cylindrical tubular protrusions 701 are vertically distributed on the back of the tipping paper raw paper layer 1; a penetrating semicircular space is formed between the semi-cylindrical tubular projection 701 and the adhesive, and the heat absorbing particles 8 are filled in the semicircular space; the distance between the adjacent semi-cylindrical tubular protrusions 701 is adjustable and is determined according to the thickness of the final filter stick and the diameter of the semi-cylindrical tubular protrusions 701.

Example 2

As shown in fig. 3, the high temperature-resistant tipping paper for heating a non-combustible smoking article according to the present embodiment has a structure substantially identical to that described in example 1, except that: the semi-cylindrical tubular protrusions 701 are transversely distributed on the back of the tipping paper base paper layer 1, the heat absorption particles 8 are particles obtained by wrapping solid essence with phase change gel, the particle size is 30-60 meshes, the heat absorption particles are arranged on the back of the semi-cylindrical tubular protrusions 701 on the embossed blended paper layer 7 in advance, and after the blended paper layer 7 is attached to the back of the tipping paper base paper layer 1, the heat absorption particles 8 are wrapped in the middle.

Example 3

As shown in fig. 4, the high temperature-resistant tipping paper for heating a non-combustible smoking article according to the present embodiment has a structure substantially identical to that described in example 1, except that: the semi-cylindrical tubular protrusions 701 are spirally distributed on the back surface of the tipping paper base paper layer 1; the distance between adjacent semi-cylindrical tubular projections 701 is 0.5-1.5mm, and the diameter of a single semi-cylindrical tubular projection 701 is 0.5-1.0 mm; the heat absorbing particles 8 are particles of glucomannan adhered liquid essence, marine polysaccharide and porous starch with the particle size of 40-60 meshes; mixing glucomannan and water for granulation, spraying liquid essence and marine polysaccharide on the surfaces of glucomannan particles after mixing, adhering porous starch after controlling the water content, arranging heat absorption particles 8 on the back of the semi-cylindrical tubular bulges 701 on the embossed blended paper layer 7 in advance, and wrapping the heat absorption particles 8 in the middle after the blended paper layer 7 is attached to the back of the tipping paper raw paper layer 1.

Claims (7)

1. The high-temperature-resistant tipping paper is used for heating a non-combustible suction product, is matched with forming paper to wrap tows to prepare a filter rod, and comprises a tipping paper raw paper layer (1), and is characterized in that a temperature-resistant structure layer is arranged on the front side of the raw paper layer, and a cooling structure layer is arranged on the back side of the raw paper layer;

the temperature-resistant structure layer is sequentially provided with a temperature-resistant water-based gloss oil layer (2), a temperature-resistant water-based ink layer (3), a temperature-resistant water-based transfer adhesive layer (4), an aluminum coating layer (5) and an adhesive layer (6) from top to bottom;

the cooling structure layer is arranged on the back of the tipping paper raw paper layer (1) and comprises a plant fiber and acetate fiber blended paper layer (7) and heat absorption particles (8); the concrete structure is as follows: the blended paper layer (7) is attached to the back of the tipping paper raw paper layer (1) through an adhesive, wherein a plurality of semi-cylindrical tubular bulges (701) formed by embossing are uniformly distributed on the blended paper layer (7), a penetrating semi-circular space is formed between the semi-cylindrical tubular bulges (701) and the adhesive, and the heat absorption particles (8) are filled in the semi-circular space; the distance between the adjacent semi-cylindrical tubular bulges (701) is adjustable and is determined according to the thickness of the final filter stick and the diameter of the semi-cylindrical tubular bulges (701).

2. The high temperature-resistant tipping paper for heating noncombustible smoking articles according to claim 1, characterized in that the semi-cylindrical tubular projections (701) are vertically distributed on the back of the tipping paper base paper layer (1).

3. A high temperature resistant tipping paper for heating non-combustible smoking articles according to claim 1, characterized in that the semi-cylindrical tubular projections (701) are distributed transversely on the back of the tipping paper base layer (1).

4. A high temperature resistant tipping paper for heating non-combustible smoking articles according to claim 1, characterized in that the semi-cylindrical tubular projections (701) are helically distributed on the back side of the tipping paper base paper layer (1).

5. The high temperature-resistant tipping paper for heating noncombustible smoking articles according to any one of claims 1 to 4, characterized in that the spacing between adjacent semicylindrical tubular projections (701) is 0.5 to 1.5mm, and the diameter of the individual semicylindrical tubular projections (701) is 0.5 to 1.0 mm.

6. The high-temperature-resistant tipping paper for heating non-combustible smoking articles according to any one of claims 1 to 4, characterized in that the heat-absorbing particles (8) are particles obtained by wrapping solid essence with phase-change gel, have a particle size of 30-60 meshes, are arranged in advance on the back of the semicylindrical tubular projections (701) on the embossed blended paper layer (7), and the heat-absorbing particles (8) are wrapped in the middle after the blended paper layer (7) is attached to the back of the tipping paper raw paper layer (1).

7. The high temperature-resistant tipping paper for heating incombustible smoking articles according to any one of claims 1 to 4, characterized in that the endothermic particles (8) are particles of glucomannan-adhered liquid essence, marine polysaccharide, and porous starch having a particle size of 40 to 60 mesh; mixing glucomannan with water for granulation, spraying liquid essence and marine polysaccharide on the surfaces of glucomannan particles after mixing, adhering porous starch after controlling the water content, arranging heat-absorbing particles (8) on the back of semi-cylindrical tubular bulges (701) on a blended paper layer (7) subjected to embossing treatment in advance, and wrapping the heat-absorbing particles (8) in the middle after the blended paper layer (7) is attached to the back of a tipping paper raw paper layer (1).

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