Method for filling aerosol generating product and prepared aerosol generating product

Abstract

A method for filling an aerosol generating product includes: preparing a tube body of the aerosol generating product; filling a filter element into the tube body, wherein the filter element is adjacent to a near-lip end of the tube body; installing a blocking and flow guide element from a far-lip end of the tube body; installing a fuming unit from the far-lip end of the tube body, where the fuming unit is located at the far-lip end of the tube body; and sealing the far-lip end of the tube body, and forming a sealing part on an end face of the far-lip end of the tube body. In the new method, each component is successively filled from the near-lip end to the far-lip end of the aerosol generating product, thereby effectively avoiding the pollution caused by the fuming unit on the tube body during the filling of the fuming unit.

Claims

1. A method for filling an aerosol generating product, comprising the following steps: step (1): preparing a tube body of the aerosol generating product; step (2): filling a filter element into the tube body, wherein the filter element is adjacent to a near-lip end of the tube body; step (3): installing a blocking and flow guide element from a far-lip end of the tube body; step (4): installing a fuming unit from the far-lip end of the tube body, wherein the fuming unit is located at the far-lip end of the tube body; and step (5): sealing the far-lip end of the tube body, and forming a sealing part on an end face of the far-lip end of the tube body.

2. The method of claim 1, wherein in step (2), the filter element is installed from the far-lip end of the tube body or from the near-lip end of the tube body.

3. The method of claim 1, wherein in step (2), a settlement unit is reserved between the filter element and an end face of the near-lip end of the tube body.

4. The method of claim 1, wherein in step (3), a cavity is reserved between the blocking and flow guide element and the filter element, and the cavity is used as a functional unit.

5. The method of claim 1, wherein between step (2) and step (3), the method further comprises the following step: installing a functional material from the far-lip end of the tube body, wherein the functional material located between the blocking and flow guide element and the filter element is referred to as a functional unit.

6. The method of claim 1, wherein the tube body is a tubular columnar three-dimensional structure, and a material of the tube body is selected from the group consisting of paper, ceramic, resin and clay; a material of the filter element is selected from the group consisting of paper, polylactic acid, cellulose acetate fibre, cotton and resin; a center of the blocking and flow guide element is provided with a vent hole (31) axially penetrating the blocking and flow guide element, and a material of the blocking and flow guide element is selected from the group consisting of resin, paper, ceramic, metal, inorganic material and wood; the fuming unit is fuming particles or fuming paste configured to be heated to generate aerosols; and a material of the sealing part is selected from the group consisting of paper, aluminum foil, and chemical fiber.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a schematic diagram of the structure of an aerosol generating product sample 1 according to Embodiment 1 of the present invention;

(2) FIG. 2 is a schematic diagram of the structure of an aerosol generating product sample 2 according to Embodiment 2 of the present invention;

(3) FIG. 3 is a schematic diagram of the structure of an aerosol generating product sample 3 according to Embodiment 3 of the present invention;

(4) FIG. 4 is a schematic diagram of the structure of an aerosol generating product sample 4 according to Embodiment 4 of the present invention;

(5) FIG. 5 is a schematic diagram of the structure of an aerosol generating product sample 5 according to Embodiment 5 of the present invention;

(6) FIG. 6 is a schematic diagram of the structure of an aerosol generating product sample 6 according to Embodiment 6 of the present invention;

(7) FIG. 7 is a production process of an aerosol generating product in the prior art; and

(8) FIG. 8 is a production process of an aerosol generating product in the present invention.

(9) In the figures: 1—tube body, 2—filter element, 3—blocking and flow guide element, 4—fuming unit, 5—sealing part, 6—settlement unit, 7—functional unit, 31—vent hole.

DETAILED DESCRIPTION OF THE EMBODIMENTS

(10) The present invention is further described in detail below in conjunction with the embodiments and the drawings, and the embodiments are only used to illustrate the present invention and not limit the present invention.

Embodiment 1

(11) This embodiment is a preparation of the aerosol generating product sample 1.

(12) As shown in FIG. 1, the aerosol generating product sample 1 includes the tube body 1, the filter element 2, the blocking and flow guide element 3, the fuming unit 4, and the sealing part 5. The filter element 2, the blocking and flow guide element 3, and the fuming unit 4 are successively arranged from a near-lip end to a far-lip end in the tube body 1, and the sealing part 5 is located on an end face of the far-lip end of the tube body 1.

(13) A method for filling the aerosol generating product sample 1 includes the following steps (FIG. 8): (1) preparing the tube body 1 of the aerosol generating product; (2) filling the filter element 2 into the tube body 1, where the filter element 2 is adjacent to an end face of the near-lip end of the tube body 1; (3) installing the blocking and flow guide element 3 from the far-lip end of the tube body 1, where the blocking and flow guide element 3 is tightly attached to the filter element 2; (4) installing the fuming unit 4 from the far-lip end of the tube body 1, where the fuming unit 4 is located at the far-lip end of the tube body 1; and (5) sealing the far-lip end of the tube body 1, and forming the sealing part 5 on the end face of the far-lip end of the tube body 1.

(14) The tube body 1 is a tubular columnar three-dimensional structure, and the material of the tube body 1 is selected from paper. The material of the filter element 2 is selected from polylactic acid. The center of the blocking and flow guide element 3 is provided with the vent hole 31 axially penetrating the blocking and flow guide element 3, and the material of the blocking and flow guide element 3 is selected from nickel. The fuming unit 4 is fuming particles configured to be heated to generate aerosols. The material of the sealing part 5 is selected from paper.

Embodiment 2

(15) This embodiment is a preparation of the aerosol generating product sample 2.

(16) As shown in FIG. 2, the aerosol generating product sample 2 includes the tube body 1, the settlement unit 6, the filter element 2, the blocking and flow guide element 3, the fuming unit 4, and the sealing part 5. The settlement unit 6, the filter element 2, the blocking and flow guide element 3, and the fuming unit 4 are successively arranged from a near-lip end to a far-lip end in the tube body 1, and the sealing part 5 is located on an end face of the far-lip end of the tube body 1.

(17) A method for filling the aerosol generating product sample 2 includes the following steps: (1) preparing the tube body 1 of the aerosol generating product; (2) filling the filter element 2 into the tube body 1, where the filter element 2 is adjacent to the near-lip end of the tube body 1, a certain cavity is reserved between the filter element 2 and an end face of the near-lip end of the tube body 1, and the cavity is used as the settlement unit 6; (3) installing the blocking and flow guide element 3 from the far-lip end of the tube body 1, where the blocking and flow guide element 3 is tightly attached to the filter element 2; (4) installing the fuming unit 4 from the far-lip end of the tube body 1, where the fuming unit 4 is located at the far-lip end of the tube body 1; and (5) sealing the far-lip end of the tube body 1, and forming the sealing part 5 on the end face of the far-lip end of the tube body 1.

(18) The tube body 1 is a tubular columnar three-dimensional structure, and the material of the tube body 1 is selected from clay. The material of the filter element 2 is selected from cotton. The center of the blocking and flow guide element 3 is provided with the vent hole 31 axially penetrating the blocking and flow guide element 3, and the material of the blocking and flow guide element 3 is selected from polyether-ether-ketone (PEEK) resin. The fuming unit 4 is fuming particles configured to be heated to generate aerosols. The material of the sealing part 5 is selected from paper.

Embodiment 3

(19) This embodiment is a preparation of the aerosol generating product sample 3.

(20) As shown in FIG. 3, the aerosol generating product sample 3 includes the tube body 1, the settlement unit 6, the filter element 2, the functional unit 7 in the form of cavity, the blocking and flow guide element 3, the fuming unit 4, and the sealing part 5. The settlement unit 6, the filter element 2, the functional unit 7 in the form of cavity, the blocking and flow guide element 3, and the fuming unit 4 are successively arranged from a near-lip end to a far-lip end in the tube body 1, and the sealing part 5 is located on an end face of the far-lip end of the tube body 1.

(21) A method for filling the aerosol generating product sample 3 includes the following steps: (1) preparing the tube body 1 of the aerosol generating product; (2) filling the filter element 2 into the tube body 1, where the filter element 2 is adjacent to the near-lip end of the tube body 1, a certain cavity is reserved between the filter element 2 and an end face of the near-lip end of the tube body 1, and the cavity is used as the settlement unit 6; (3) installing the blocking and flow guide element 3 from the far-lip end of the tube body 1, where a cavity is reserved between the blocking and flow guide element 3 and the filter element 2, and the cavity is used as a functional area, also referred to as the functional unit 7; (4) installing the fuming unit 4 from the far-lip end of the tube body 1, where the fuming unit 4 is located at the far-lip end of the tube body 1; and (5) sealing the far-lip end of the tube body 1, and forming the sealing part 5 on the end face of the far-lip end of the tube body 1.

(22) The tube body 1 is a tubular columnar three-dimensional structure, and the material of the tube body 1 is selected from ceramic. The material of the filter element 2 is selected from cellulose acetate fibre. The center of the blocking and flow guide element 3 is provided with the vent hole 31 axially penetrating the blocking and flow guide element 3, and the material of the blocking and flow guide element 3 is selected from wood. The fuming unit 4 is fuming paste configured to be heated to generate aerosols. The material of the sealing part 5 is selected from aluminum foil.

Embodiment 4

(23) This embodiment is a preparation of the aerosol generating product sample 4.

(24) As shown in FIG. 4, the aerosol generating product sample 4 includes the tube body 1, the filter element 2, the functional unit 7, the blocking and flow guide element 3, the fuming unit 4, and the sealing part 5. The filter element 2, the functional unit 7, the blocking and flow guide element 3, and the fuming unit 4 are successively arranged from a near-lip end to a far-lip end in the tube body 1, and the sealing part 5 is located on an end face of the far-lip end of the tube body 1.

(25) A method for filling the aerosol generating product sample 4 includes the following steps: (1) preparing the tube body 1 of the aerosol generating product; (2) filling the filter element 2 into the tube body 1, where the filter element 2 is adjacent to an end face of the near-lip end of the tube body 1; (3) installing a functional material from the far-lip end of the tube body 1, where the functional material (a cooling material) located between the blocking and flow guide element 3 and the filter element 2 is referred to as the functional unit 7; (4) installing the blocking and flow guide element 3 from the far-lip end of the tube body 1; (5) installing the fuming unit 4 from the far-lip end of the tube body 1, where the fuming unit 4 is located at the far-lip end of the tube body 1; and (6) sealing the far-lip end of the tube body 1, and forming the sealing part 5 on the end face of the far-lip end of the tube body 1.

(26) The tube body 1 is a tubular columnar three-dimensional structure, and the material of the tube body 1 is selected from hydrogenated petroleum resin. The material of the filter element 2 is selected from paper. The center of the blocking and flow guide element 3 is provided with the vent hole 31 axially penetrating the blocking and flow guide element 3, and the material of the blocking and flow guide element 3 is selected from diatomite. The fuming unit 4 is fuming paste configured to be heated to generate aerosols. The material of the sealing part 5 is selected from nylon.

Embodiment 5

(27) This embodiment is a preparation of the aerosol generating product sample 5.

(28) As shown in FIG. 5, the aerosol generating product sample 5 includes the tube body 1, the filter element 2, the functional unit 7 in a form of cavity, the blocking and flow guide element 3, the fuming unit 4, and the sealing part 5. The filter element 2, the functional unit 7 in a form of cavity, the blocking and flow guide element 3, and the fuming unit 4 are successively arranged from a near-lip end to a far-lip end in the tube body 1, and the sealing part 5 is located on an end face of the far-lip end of the tube body 1.

(29) A method for filling the aerosol generating product sample 5 includes the following steps: (1) preparing the tube body 1 of the aerosol generating product; (2) filling the filter element 2 into the tube body 1, where the filter element 2 is adjacent to an end face of the near-lip end of the tube body 1; (3) installing the blocking and flow guide element 3 from the far-lip end of the tube body 1, where a cavity is reserved between the blocking and flow guide element 3 and the filter element 2, and the cavity is used as a functional area, also referred to as the functional unit 7; (4) installing the fuming unit 4 from the far-lip end of the tube body 1, where the fuming unit 4 is located at the far-lip end of the tube body 1; and (5) sealing the far-lip end of the tube body 1, and forming the sealing part 5 on the end face of the far-lip end of the tube body 1.

(30) The tube body 1 is a tubular columnar three-dimensional structure, and the material of the tube body 1 is selected from ceramic. The material of the filter element 2 is selected from cellulose acetate fibre. The center of the blocking and flow guide element 3 is provided with the vent hole 31 axially penetrating the blocking and flow guide element 3, and the material of the blocking and flow guide element 3 is selected from wood. The fuming unit 4 is fuming paste configured to be heated to generate aerosols. The material of the sealing part 5 is selected from aluminum foil.

Embodiment 6

(31) This embodiment is a preparation of the aerosol generating product sample 6.

(32) As shown in FIG. 6, the aerosol generating product sample 6 includes the tube body 1, the settlement unit 6, the filter element 2, the functional unit 7, the blocking and flow guide element 3, the fuming unit 4, and the sealing part 5. The settlement unit 6, the filter element 2, the functional unit 7, the blocking and flow guide element 3, and the fuming unit 4 are successively arranged from a near-lip end to a far-lip end in the tube body 1, and the sealing part 5 is located on an end face of the far-lip end of the tube body 1.

(33) A method for filling the aerosol generating product sample 6 includes the following steps: (1) preparing the tube body 1 of the aerosol generating product; (2) filling the filter element 2 into the tube body 1, where the filter element 2 is adjacent to the near-lip end of the tube body 1, a certain cavity is reserved between the filter element 2 and an end face of the near-lip end of the tube body 1, and the cavity is used as the settlement unit 6; (3) installing a functional material from the far-lip end of the tube body 1, where the functional material (a cooling material) located between the blocking and flow guide element 3 and the filter element 2 is referred to as the functional unit 7; (4) installing the blocking and flow guide element 3 from the far-lip end of the tube body 1; (5) installing the fuming unit 4 from the far-lip end of the tube body 1, where the fuming unit 4 is located at the far-lip end of the tube body 1; and (6) sealing the far-lip end of the tube body 1, and forming the sealing part 5 on the end face of the far-lip end of the tube body 1.

(34) The tube body 1 is a tubular columnar three-dimensional structure, and the material of the tube body 1 is selected from hydrogenated petroleum resin. The material of the filter element 2 is selected from paper. The center of the blocking and flow guide element 3 is provided with the vent hole 31 axially penetrating the blocking and flow guide element 3, and the material of the blocking and flow guide element 3 is selected from diatomite. The fuming unit 4 is fuming paste configured to be heated to generate aerosols. The material of the sealing part 5 is selected from nylon.