RU2849484C2 - Method for refilling a cigarette cartridge - Google Patents

Abstract

FIELD: electronic cigarettes.

SUBSTANCE: method includes providing a plurality of outer tube housings, wherein the first end of the plurality of outer tube housings has a sealing portion, loading tobacco from the second end opposite the first end of the outer tube housings, identifying the sealing end of each of the plurality of cooling tubes and loading each of the plurality of cooling tubes into the housing of the corresponding outer tube from the second end of the outer tube housing so that the sealing end of each of the plurality of cooling tubes is located adjacent to the tobacco, loading one of a plurality of filter elements into the outer tube housing from the second end of the outer tube housing so that the filter element is located adjacent to the corresponding cooling tube. Each of the plurality of cooling tubes has a sealing end and an open end opposite the sealing end.

EFFECT: improvement in the quality of the cigarette cartridge.

20 cl, 15 dwg

Description

This application claims priority to an earlier application with application number 202210302142.8, filed March 25, 2022, entitled "Method for filling a cigarette cartridge", the contents of which aforementioned earlier application are incorporated herein by reference.

Technical area

The present invention relates to the field of manufacturing electronic cigarettes, namely to a method for filling a cigarette cartridge.

State of the art

With the development of science and technology, more and more users are using heated non-combustible cigarette cartridges. In the process of preparing heated non-combustible cigarette cartridges by filling, the sealed cooling tube with one end has an unsealed end of the cooling tube adjacent to the tobacco filling during the filling process, so that the tobacco in the heated non-combustible cigarette cartridge enters the cooling tube, which affects the use of heated non-combustible cigarette cartridges, and also reduces the quality of heated non-combustible cigarette cartridges.

Document CN 215347041 U discloses an HNB cartridge based on tubular insulation, including an outer paper tube, wherein the inner cavity of the outer paper tube is sequentially formed with interconnected spray zone, cooling zone, and filtration zone. The outer paper tube is located on the inner wall of the spray zone and is covered with an aluminum film. The inner paper tube is installed coaxially in the cooling zone. The spray zone is filled with HNB tobacco material and covered with a first air-permeable paper film. The opening of the inner paper tube facing the spray zone is covered with a second air-permeable paper film and forms a barrier with the HNB tobacco material through the second air-permeable paper film. The filtration zone is filled with a filter, which is inserted into the opening of the inner paper tube.

The technical solution disclosed in document RU 2706810 C2 relates to a multi-component element for an aerosol-generating article, wherein the multi-component element comprises: a combustible heat source; an aerosol-forming substrate located downstream of the combustible heat source; and a wrapper surrounding the combustible heat source along at least part of its length; wherein the combustible heat source has at least one recess of a given shape on its outer surface, wherein the multi-component element further comprises an inorganic adhesive located between the combustible heat source and the wrapper, wherein the inorganic adhesive at least partially fills the recess of a given shape.

The technical solution disclosed in document RU 2674512 C1 relates to a multi-segment component for an aerosol-generating article, wherein the multi-segment component comprises: a combustible heat source; an aerosol-forming substrate located downstream of the combustible heat source; and a wrapper surrounding the combustible heat source along at least part of its length; wherein the multi-segment component further comprises an intumescent layer located between the combustible heat source and the wrapper and surrounding the combustible heat source, wherein the intumescent layer is formed from an intumescent inorganic adhesive.

The technical solution disclosed in document RU 2759936 C1 relates to an electronic cigarette cartridge. The e-cigarette cartridge contains an e-cigarette filler containing a non-tobacco plant, an aerosol-forming substance, menthol, and polyvinylpolypyrrolidone. The e-cigarette cartridge also includes a mouthpiece. The e-cigarette filler can be in the form of rectangular strips, rods, fibers, porous material, blocks, individual elements, plates, powder, granules, beads, or sheets. The aerosol is generated by heating the e-cigarette filler.

The technical solution disclosed in document US 10856570 B2 relates to systems, devices, and methods for assembling cartridges for aerosol delivery devices. Cartridges can be assembled by transporting carts between various substations, where the components are added to a base. In another assembly method, the base can move between multiple robots, which guide the base downward into contact with the components to connect them. An inspection system can inspect the cartridges at various stages of assembly.

The essence of the invention

The present invention provides a method for filling a cigarette cartridge. The method for filling a cigarette cartridge includes:

providing a plurality of outer tube bodies, wherein a first end of the plurality of outer tube bodies has a sealing portion;

loading tobacco from the second end, located opposite the first end of the outer tube bodies;

identifying the sealing end of the cooling tube and loading the cooling tube into the outer tube body from the second end so that the sealing end is located near the tobacco, wherein the cooling tube has a sealing end and an open end opposite the sealing end; and

loading the filter element into the outer tube body from the second end so that the filter element is located next to the cooling tube.

Description of the attached drawings

In order to more clearly illustrate the technical solutions of the methods for implementing the present invention, the accompanying drawings necessary for use in the methods for implementing the present invention will be described below.

Fig. 1 is a block diagram of a method for filling a cigarette cartridge according to a method for implementing the present invention.

Fig. 2 is a schematic representation of the structure of a cooling tube in the method of filling a cigarette cartridge according to the embodiment shown in Fig. 1.

Fig. 3 is a schematic representation of a method for filling a cigarette cartridge according to the embodiment shown in Fig. 1.

Fig. 4 is a block diagram of filling a cooling tube in a method for filling a cigarette cartridge according to the embodiment shown in Fig. 1.

Fig. 5 is a schematic representation of filling a cooling tube in a method for filling a cigarette cartridge according to the embodiment shown in Fig. 4.

Fig. 6 is a block diagram of identifying the orientation of the open end of the cooling tube in the method of filling a cigarette cartridge according to the embodiment shown in Fig. 4.

Fig. 7 is a block diagram of the sealing of the outer tube body in the method of filling a cigarette cartridge according to the embodiment shown in Fig. 1.

Fig. 8 is a block diagram of filling a filter element in a method for filling a cigarette cartridge according to the embodiment shown in Fig. 1.

Fig. 9 is a schematic representation of filling a filter element in a method for filling a cigarette cartridge according to the embodiment shown in Fig. 8.

Fig. 10 is a block diagram of the filling position of the filter element in the method of filling the cigarette cartridge according to the embodiment shown in Fig. 9.

Fig. 11 is a block diagram of packaging and control of a cigarette cartridge in a method of filling a cigarette cartridge according to the embodiment shown in Fig. 1.

Fig. 12 is a schematic representation of the structure of a cigarette cartridge of a method for filling a cigarette cartridge according to the embodiment shown in Fig. 11.

Fig. 13 is a partial enlarged view of location I in a cigarette cartridge according to the embodiment shown in Fig. 12.

Fig. 14 is a block diagram of the movement of the outer tube body in a given direction in the method of filling a cigarette cartridge according to the embodiment shown in Fig. 11.

Fig. 15 is a block diagram of the control of several cigarette cartridges in the method of filling a cigarette cartridge according to the embodiment shown in Fig. 11.

Specific methods of implementation

The present invention provides a method for filling a cigarette cartridge. The method for filling a cigarette cartridge includes:

providing a plurality of outer tube bodies, wherein a first end of the plurality of outer tube bodies has a sealing portion;

loading tobacco from the second end, located opposite the first end of the outer tube bodies;

identifying the sealing end of the cooling tube and loading the cooling tube into the outer tube body from the second end so that the sealing end is located near the tobacco, wherein the cooling tube has a sealing end and an open end opposite the sealing end; and

loading the filter element into the outer tube body from the second end so that the filter element is located next to the cooling tube.

In this case, “identifying the sealing end of the cooling tube and loading the cooling tube into the outer tube body from the second end so that the sealing end is located near the tobacco” includes:

moving a plurality of cooling tubes in a given direction;

identifying the orientation of the open ends of a plurality of cooling tubes;

when the open ends of the plurality of cooling tubes face a predetermined direction, changing the orientation of the cooling tubes so that the rotated sealing ends face the predetermined direction;

moving a plurality of cooling tubes toward a plurality of outer tube housings, wherein the sealing end is adjacent to the second end relative to the open end; and

loading the cooling tube into the outer tube body from the second end.

In this case, “identifying the orientation of the open ends of the plurality of cooling tubes” includes:

during the process of moving the plurality of cooling tubes, repeatedly identifying the orientation of the open ends of the plurality of cooling tubes.

In this case, “providing a plurality of outer tube housings” includes:

applying glue to the first ends of a plurality of outer tube bodies;

attaching first ends of a plurality of outer tube bodies to a sealing element;

heating and applying pressure to first ends of a plurality of outer tube bodies attached to the sealing members; and

cutting the sealing element along the outer contour of the plurality of outer tube bodies to form a sealing portion that seals the first ends of the plurality of outer tube bodies.

In this case, the time t for heating the first ends of the plurality of outer tube bodies attached to the sealing elements is: 5 s≤t≤8 s, temperature T: 120°C≤T≤200°C, pressure P applied to the outer tube body: 100 Pa≤P≤300 Pa.

In this case, “loading the filter element into the outer tube housing from the second end so that the filter element is located next to the cooling tube” includes:

providing multiple filter elements;

moving a plurality of filter elements toward a plurality of outer tube housings, wherein the center of the filter element is aligned with the outer tube housing and adjacent to the second end; and

loading the filter element into the outer tube body from the second end.

In this case, “loading the filter element into the outer tube housing from the second end” includes:

loading the filter element into the outer tube body from the second end located at a distance from the cooling tube, flush with the second end, wherein one end of the filter element, remote from the cooling tube, is flush with the second end.

Moreover, after “loading the filter element into the outer tube body from the second end so that the filter element is located next to the cooling tube,” the method of filling the cigarette cartridge also includes:

movement of a plurality of outer tube bodies in a given direction;

rolling the packages onto the outer surfaces of a plurality of outer tube bodies to form a plurality of cigarette cartridges;

control of multiple cigarette cartridges; and

storage of multiple cigarette cartridges after inspection.

In this case, “moving a plurality of outer tube housings in a given direction” includes:

moving a plurality of outer tube bodies along a first direction, wherein the direction of the length of the outer tube body corresponds to the first direction; and

changing the direction of movement of the plurality of outer tube bodies so that the plurality of outer tube bodies move along a given direction, wherein the direction of the length of the outer tube bodies is perpendicular to the given direction.

In this case, “control of multiple cigarette cartridges” includes:

sequential movement of multiple cigarette cartridges to a control point;

monitoring the peripheral sides, inner and opposite ends of a plurality of cigarette cartridges; and

rejection of cigarette cartridges that do not meet control requirements.

The sealing section includes at least one of the following: silk paper with a density of 10-50 g/ ^m2 , paper with high air permeability of 10-50 g/ ^m2 , or parchment paper with a density of 45-105 g/ ^m2 .

The sealing end has an air-permeable sealed section, wherein the air-permeable sealed section includes at least one of silk paper with a density of 10-50 g/ ^m2 , paper with high air permeability of 10-50 g/ ^m2 , or parchment paper with a density of 45-105 g/ ^m2 .

In this case, the air-permeable sealed section includes one or more through holes.

In this case, the sealing end is identified by visual control identification, sensory control identification or infrared induction control identification.

In this case, the sealing end comes into contact with the tobacco.

In this case, the sealing end is located at a distance from the tobacco.

In this case, one end of the filter element, located at a distance from the second end, is located at a distance from the open end.

In this case, one end of the filter element, remote from the second end, is adjacent to the open end.

In this case, one end of the filter element, located at a distance from the second end, rests against the open end and partially enters the cooling tube through the open end.

The plurality of cooling tubes may be moved, among other things, by one or more of the following methods: conveyor belts, guides, moving means, or robotic manipulators.

The following will be combined with the accompanying drawings in the embodiment of the present invention to clearly and completely describe the technical solutions of the embodiments of the present invention. It is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of them. Based on the embodiments of the present invention, all other embodiments obtained by persons skilled in the art without creative efforts fall within the scope of protection of the present invention.

The terms "first," "second," and the like in the description and claims of the present invention and in the accompanying drawings are used to distinguish between different objects and not to describe a specific sequence. Furthermore, the terms "includes" and "has," and any variations thereof, are intended to denote a non-exclusive inclusion. For example, a process, method, system, product, or device comprising a number of steps or blocks is not limited to the listed steps or blocks, but, if necessary, also includes steps or blocks not listed, or, optionally, other steps or elements inherent in such processes, methods, products, or devices.

Reference herein to an "embodiment" or "method of implementation" means that a particular feature, structure, or characteristic described in connection with the embodiment or method of implementation may be included in at least one embodiment of the present invention. The appearance of this phrase in various positions of the description does not necessarily refer to the same embodiment and does not constitute an independent or alternative embodiment that is mutually exclusive with other embodiments. Those skilled in the art will both expressly and implicitly understand that the embodiments described herein may be combined with other embodiments.

The embodiment method of the present invention provides a method for filling a cigarette cartridge 1. Please refer to Fig. 1, 2 and 3, Fig. 1 is a block diagram of the method for filling a cigarette cartridge according to the embodiment method of the present invention; Fig. 2 is a schematic illustration of the structure of a cooling tube in the method for filling a cigarette cartridge according to the embodiment method shown in Fig. 1; Fig. 3 is a schematic illustration of filling a cigarette cartridge of the method for filling a cigarette cartridge according to the embodiment method shown in Fig. 1. According to the present embodiment method, the method for filling a cigarette cartridge 1 includes providing a plurality of outer tube bodies 10. Wherein the first end 11 of the plurality of outer tube bodies 10 has a sealing portion 20. Tobacco 30 is loaded from the second end 12 located opposite the first end 11 of the outer tube bodies 10. The sealing end 41 of the cooling tube 40 is identified and the cooling tube 40 is loaded into the housing 10 of the outer tube from the second end 12 so that the sealing end 41 is located next to the tobacco 30. In this case, the cooling tube 40 has a sealing end 41 and an open end 42 opposite the sealing end 41. Also, the filter element 50 is loaded into the housing 10 of the outer tube from the second end 12 so that the filter element 50 is located next to the cooling tube 40.

According to the present embodiment method, a method for filling the cigarette cartridge 1 is used to manufacture the cigarette cartridge 1. In particular, the method for filling the cigarette cartridge 1 includes steps S1, S2, S3, and S4. Steps S1, S2, S3, and S4 will be described in detail below.

S1, providing a plurality of 10 outer tube housings.

According to the present embodiment, the first end 11 of the plurality of outer tube bodies 10 has a sealing portion 20. The sealing portion 20 is used to seal the first end 11 of the outer tube body 10, wherein the sealed portion is made of a food-grade material. For example, the sealing portion 20 comprises at least one of the following: 10-50 g/ ^m2 silk paper, 10-50 g/ ^m2 highly breathable paper, or 45-105 g/ ^m2 parchment paper. For the user of the cigarette cartridge 1, the first end 11 of the outer tube body 10 is the distal protruding end, and the second end 12 of the outer tube body 10, opposite the first end 11, is the near protruding end. A plurality of outer tube housings 10 are arranged vertically, with the first end 11 facing downwards, i.e. the second end 12 of the plurality of outer tube housings 10 is located above the first end 11.

According to the present embodiment method, for example, a plurality of outer tube bodies 10 can be held by a supporting unit having a plurality of supporting holes, in particular, a plurality of outer tube bodies 10 are located in a plurality of supporting holes, and one of the outer tube bodies 10 corresponds to one of the supporting holes, due to which the supporting unit can simultaneously hold several outer tube bodies 10, thereby improving the filling efficiency of the cigarette cartridge 1.

S2, loading of tobacco 30 from the second end 12, located opposite the first end 11 of the bodies 10 of the outer tubes.

According to the present embodiment, tobacco 30 may be, among other things, granulated, striped, or chunky. Tobacco 30 may, among other things, penetrate the body 10 of the outer tubes from the second end 12, at least under the effect of its own weight or an external force, and tobacco 30 will contact the surface of the sealing portion 20 facing the second end 12.

S3, identifying the sealing end 41 of the cooling tube 40 and loading the cooling tube 40 into the body 10 of the outer tube from the second end 12 so that the sealing end 41 is located next to the tobacco 30.

According to the present embodiment, the cooling tube 40 has a sealing end 41 and an open end 42 opposite the sealing end 41. The sealing end 41 has an air-permeable sealed section 43, wherein the air-permeable sealed section 43 is made of a food-grade material. For example, the air-permeable sealed section 43 comprises at least one of the following: silk paper of 10-50 g/ ^m2 , paper with high air permeability of 10-50 g/ ^m2 , or parchment paper of 45-105 g/ ^m2 . One or more through holes may also be made in the air-permeable sealed section 43 to increase the air permeability of the cooling part. In addition, the inner diameter of the through hole in the air-permeable sealed portion 43 is smaller than the outer diameter of the tobacco 30, in order to prevent the tobacco 30 from entering the cooling tube 40 and influencing the overall effect of the cigarette cartridge 1 when smoking.

According to the present embodiment method, by identifying the sealing end 41 of the cooling tube 40, the sealing end 41 can be identified, among other things, by means of identification by visual control, identification by sensor control, or identification by infrared induction control, provided that the sealing end 41 and the open end 42 can be distinguished.

According to the present embodiment, the cooling tube 40 is inserted into the outer tube body 10 from the second end 12 in such a way that the sealing end 41 is located near the tobacco 30. The sealing end 41 is used to prevent the tobacco 30 from entering the cooling tube 40, due to which the distribution of the tobacco 30 is uneven, which affects the heating effect of the tobacco 30. In addition, this prevents the tobacco 30 from entering the cooling tube 40, and also prevents the tobacco 30 from influencing the cooling effect of the cooling tube 40. According to one embodiment, the sealing end 41 contacts the tobacco 30. According to another embodiment, the sealing end 41 is located at a distance from the tobacco 30, due to which, when the cigarette cartridge 1 is inserted into the smoking device, the tobacco 30 has space to move, which prevents the tobacco 30 from being squeezed and increases the suction resistance.

S4, loading the filter element 50 into the body 10 of the outer tube from the second end 12 so that the filter element 50 is located next to the cooling tube 40.

According to the present embodiment, the filter element 50 is a porous loose material, such as polylactic acid (PLA). The filter element 50 is loaded into the housing 10 of the outer tubes from the second end 12 in such a way that the filter element 50 is located near the open end 42 of the cooling tube 40. According to one embodiment, one end of the filter element 50, located at a distance from the second end 12, is located at a distance from the open end 42. According to another embodiment, one end of the filter element 50, remote from the second end 12, adjoins the open end 42. According to yet another embodiment, one end of the filter element 50, remote from the second end 12, adjoins the open end 42 and partially enters the cooling tube 40 through the open end 42.

The present invention provides a method for filling a cigarette cartridge 1, wherein the method for filling the cigarette cartridge 1 first identifies the sealing end 41 of the cooling tube 40 before loading the cooling tube 40 into the outer tube body 10, after which the cooling tube 40 is loaded into the outer tube body 10 so that the sealing end 41 of the cooling tube 40 is located near the tobacco 30. The sealing end 41 can prevent the tobacco 30 from entering the cooling tube 40, therefore, the tobacco 30 in the cigarette cartridge 1 does not enter the cooling tube 40, due to which the quality of the cigarette cartridge 1 is high. Therefore, the heated non-combustible cigarette cartridges 1 produced by the method for filling the cigarette cartridge 1 provided by the present invention are of high quality.

Please refer to Fig. 4 and 5, Fig. 4 is a block diagram of filling the cooling tube in the method of filling the cigarette cartridge according to the embodiment shown in Fig. 1; Fig. 5 is a schematic illustration of filling the cooling tube in the method of filling the cigarette cartridge according to the embodiment shown in Fig. 4. According to the present embodiment, "identifying the sealing end 41 of the cooling tube 40 and loading the cooling tube 40 into the outer tube body 10 from the second end 12 so that the sealing end 41 is located near the tobacco 30" includes moving a plurality of cooling tubes 40 in a predetermined direction. The orientation of the open ends 42 of the plurality of cooling tubes 40 is identified. When the open ends 42 of the plurality of cooling tubes 40 face a given direction, the direction of the cooling tubes 40 is changed so that the turned sealing ends 41 face the given direction. The plurality of cooling tubes 40 are moved toward the plurality of outer tube housings 10, wherein the sealing end 41 adjoins the second end 12 relative to the open end 42. The cooling tube 40 is also loaded into the outer tube housing 10 from the second end 12.

According to the present embodiment method, by identifying the orientation of the open ends 42 of the plurality of cooling tubes 40, it is ensured that the open ends 42 of the cooling tubes 40 are loaded into the outer tube housing 10 from the second end 12 in the direction of the outer tube housing 10. In particular, the method for loading the plurality of cooling tubes 40 into the plurality of outer tube housings 10 includes steps S31, S32, S33, S34 and S35. Steps S31, S32, S33, S34 and S35 will be described in detail below.

S31, moving a plurality of cooling tubes 40 in a given direction.

According to the present embodiment, the predetermined direction refers to the direction in which the plurality of cooling tubes 40 move toward the plurality of outer tube housings 10. The movement of the plurality of cooling tubes 40 can be accomplished, among other things, by conveyor belts, guides, moving means, or robotic manipulators, etc., provided that the plurality of cooling tubes 40 can move in the predetermined direction. Furthermore, the plurality of cooling tubes 40 can also be moved in combination in various ways, for example, by conveyor belts, guides, moving means, or robotic manipulators.

S32, identifying the orientation of the open ends 42 of the plurality of cooling tubes 40.

According to the present embodiment, in order to identify the orientation of the open ends 42 of the plurality of cooling tubes 40, the sealing ends 41 can be identified, among other things, by visual inspection, sensory inspection, or infrared induction inspection, provided that the sealing end 41 and the open end 42 can be distinguished. In particular, the sealing end 41 has an air-permeable sealed section 43, and the open end 42 does not have a sealed section; the sealing end 41 and the open end 42 are identified by determining the presence of a sealed section at the end of the cooling tube 40.

S33, when the open ends 42 of the plurality of cooling tubes 40 face in a given direction, the direction of the cooling tubes 40 is changed so that the turned sealing ends 41 face in a given direction.

According to the present embodiment method, by identifying the open ends 42 and the sealing ends 41 of the plurality of cooling tubes 40, the orientation of the open ends 42 or the sealing ends 41 of the plurality of cooling tubes 40 is determined. When the sealing end 41 moves in a given direction, the reverse direction of the cooling tube 40 remains unchanged, and the movement continues in the given direction. When the open end 42 moves in a given direction, the direction of the cooling tube 40 changes such that the rotated sealing end 41 moves in a given direction.

S34, moving a plurality of cooling tubes 40 toward a plurality of outer tube housings 10, wherein the sealing end 41 adjoins the second end 12 relative to the open end 42.

According to the present embodiment, a plurality of cooling tubes 40 are moved toward a plurality of outer tube housings 10, one of the cooling tubes 40 corresponds to one of the outer tube housings 10, and the sealing end 41 of each cooling tube 40 adjoins the second end 12 relative to the open end 42. The plurality of cooling tubes 40 can be moved toward the plurality of outer tube housings 10 in one or more ways, for example, with the help of conveyor belts, guides, moving means or robotic manipulators, as a result of which the plurality of cooling tubes 40 are arranged in correspondence with the plurality of outer tube housings 10. As an example, we take the distance x0 from the sealing end 41 of the cooling tube 40 to the second end 12 of the outer tube housing 10.

S35, loading the cooling tube 40 into the outer tube body 10 from the second end 12.

According to the present method of implementation, the cooling tube 40 is loaded into the outer tube body 10 from the second end 12. In particular, when an external force is applied to force the cooling tube 40 to enter the outer tube body 10, the cooling tube 40 is pushed toward the outer tube body 10 by a stroke of y1=x0+x1, as a result of which the cooling tube 40 enters the outer tube body 10, and the sealing end 41 is located near the tobacco 30. Where x1=L1-18 mm, L1 is the length of the outer tube body 10, in particular, L1: 42 mm≤L1≤46 mm.

Please refer to Fig. 6, Fig. 6 is a flow chart of identifying the orientation of the open end of the cooling tube in the method of filling a cigarette cartridge according to the embodiment shown in Fig. 4. According to the present embodiment, “identifying the orientation of the open ends 42 of the plurality of cooling tubes 40” includes repeatedly identifying the directions of the open ends 42 of the plurality of cooling tubes 40 during the process of moving the plurality of cooling tubes 40.

According to the present embodiment, "identifying the orientation of the open ends 42 of the plurality of cooling pipes 40" includes step S321. In particular, the following step S321 will be described in detail.

S321, during the process of moving the plurality of cooling tubes 40, multiple identification of the orientation of the open ends 42 of the plurality of cooling tubes 40.

According to the present embodiment method, the orientation of the open end 42 of the plurality of cooling tubes 40 is identified multiple times, including, but not limited to, two, three or more times, in order to improve the accuracy of identifying the orientation of the open end 42 of the cooling tube 40, thereby reducing the error rate in the loading direction of the cooling tube 40 and improving the filling quality of the cigarette cartridge 1.

Please refer to Fig. 7, Fig. 7 is a block diagram of sealing the outer tube body in the method for filling a cigarette cartridge according to the embodiment shown in Fig. 1. According to the present embodiment, "providing a plurality of outer tube bodies 10" includes applying glue to the first ends 11 of the plurality of outer tube bodies 10. The first ends 11 of the plurality of outer tube bodies 10 are attached to the sealing element. Heating and applying pressure to the first ends 11 of the plurality of outer tube bodies 10 attached to the sealing elements are performed. And also, the sealing element is cut along the outer contour of the plurality of outer tube bodies 10 to form a sealing portion 20, which seals the first ends 11 of the plurality of outer tube bodies 10.

According to the present embodiment, a plurality of outer tube housings 10 must be sealed to form a sealing portion 20 for sealing the first ends 11, so that the plurality of outer tube housings 10 can be filled. Specifically, the process of sealing the plurality of outer tube housings 10 includes steps S11, S12, S13, and S14. Steps S11, S12, S13, and S14 will be described in detail below.

S11, applying glue to the first ends 11 of the plurality of outer tube bodies 10.

According to the present embodiment, the first ends 11 of the plurality of outer tube bodies 10 are coated with glue, wherein the glue is a food-grade glue, which prevents the glue from releasing harmful substances when heated. For example, the glue may be, among other things, glutinous rice glue, sealant glue, aspiration glue, white latex glue, and other food-grade glues. According to one embodiment, the first ends 11 of the outer tube bodies 10 are placed in glue such that the first ends 11 of the outer tube bodies 10 are coated with glue. According to another embodiment, a container in which the glue is stored is moved toward the plurality of outer tube bodies 10, and the glue contacts the first ends 11 of the plurality of outer tube bodies 10, due to which the first ends 11 of the outer tube bodies 10 are coated with glue.

S12, attaching the first ends 11 of the plurality of outer tube housings 10 to the sealing element.

According to the present embodiment method, the first ends 11 of the plurality of outer tube bodies 10 are attached to the sealing elements in such a way that the sealing element adjoins the first ends 11 of the plurality of outer tube bodies 10 and seals the first ends 11 of the plurality of outer tube bodies 10. The sealing element is made of a food-grade material. For example, the sealing element comprises at least one of the following: silk paper 10-50 g/ ^m2 , paper with high air permeability 10-50 g/ ^m2 or parchment paper 45-105 g/ ^m2 .

S13, heating and applying pressure to the first ends 11 of the plurality of outer tube housings 10, attached to the sealing elements.

According to the present method of implementation, the first ends 11 of the bodies 10 of the outer tubes are attached to the sealing elements for heating and creating pressure to increase the strength of the connection between the sealing element and the first ends 11.

S14, cutting the sealing element along the outer contour of the plurality of outer tube housings 10 to form a sealing section 20 that seals the first ends 11 of the plurality of outer tube housings 10.

According to the present embodiment, the sealing element is cut along the outer contour of a plurality of outer tube housings 10. In particular, according to one embodiment, a laser is used to cut the sealing element along the outer contour of a plurality of outer tube housings 10 to form a sealing section 20 that seals the first ends 11 of the plurality of outer tube housings 10. According to another embodiment, a cutter is used to cut the sealing element along the outer contour of a plurality of outer tube housings 10 to form a sealing section 20 that seals the first ends 11 of the plurality of outer tube housings 10.

According to one embodiment, in step S13, the heating time t of the first ends 11 of the plurality of outer tube bodies 10 attached to the sealing elements is: 5 s≤t≤8 s, temperature T: 120°C≤T≤200°C, pressure P applied to the outer tube body 10: 100 Pa≤P≤300 Pa.

According to the present embodiment, since the adhesive is a viscous mixture of solid and liquid at normal temperatures, the first end 11 with the adhesive adhered thereto is attached to the sealed element at normal temperatures, and the first end 11 and the sealed element cannot be firmly connected. According to the present embodiment, by heating the junction between the first end 11 and the sealed element, the adhesive at the junction between the first end 11 and the sealed element completely melts, and the moisture evaporates, thereby improving the strength of the adhesive bond. In addition, when the junction between the first end 11 and the sealed element is heated, the odor of the adhesive dissipates, due to which the junction between the first end 11 and the sealed element is odorless upon subsequent reheating. In addition, the junction between the first end 11 and the sealed element is under pressure, due to which the first end 11 and the sealed element fit more tightly to each other. After the junction between the first end 11 and the sealed member cools down, the adhesive at the junction of the first end 11 and the sealed member hardens and firmly connects the first end 11 and the sealed member due to the evaporation of moisture. Compared with before heating and pressurization, after heating and pressurization, the first end 11 and the sealed member fit together more tightly and are connected more firmly. Specifically, for example, the heating time t at the junction between the first end 11 and the sealed member is: 5 s≤t≤8 s, the temperature T: 120°C≤T≤200°C, and the pressure P applied to the outer tube body 10 is: 100 Pa≤P≤300 Pa. In this case, the heating time should not be too long, the heating temperature should not be too high, and the pressure should not be too great, so as to avoid damage to the outer tube body 10 and the sealing member. The heating time should not be too short, the heating temperature should not be too low, and the pressure should not be too small, so as to avoid insufficient heating of the adhesive, thereby preventing insufficient adhesion of the first end 11 to the sealing member.

Please refer to Fig. 8 and 9, Fig. 8 is a block diagram of filling the filter element in the method of filling the cigarette cartridge according to the embodiment shown in Fig. 1, Fig. 9 is a schematic illustration of filling the filter element in the method of filling the cigarette cartridge according to the embodiment shown in Fig. 8. According to the present embodiment, "loading the filter element 50 into the outer tube body 10 from the second end 12 so that the filter element 50 is located near the cooling tube 40" includes providing a plurality of filter elements 50. The plurality of filter elements 50 are moved toward the plurality of outer tube bodies 10, wherein the center of the filter element 50 is aligned with the outer tube body 10 and adjacent to the second end 12. And also, the filter element 50 is loaded into the outer tube body 10 from the second end 12.

According to the present embodiment, the process of loading the filter element 50 into the outer tube body 10 includes steps S41, S42, and S43. Steps S41, S42, and S43 will be described in detail below.

S41, providing a plurality of filter elements 50.

According to the present embodiment method, the outer diameter of the filter element 50 is larger than the inner diameter of the outer tube housing 10. In particular, the inner diameter d0 of the outer tube housing 10 is: 6.4 mm ≤ d0 ≤ 6.65 mm, and the outer diameter d1 of the filter element 50 is: 6.5 mm ≤ d1 ≤ 7 mm.

S42, moving a plurality of filter elements 50 to a plurality of outer tube housings 10, wherein the center of the filter element 50 is aligned with the outer tube housing 10 and adjoins the second end 12.

According to the present embodiment, the plurality of filter elements 50 may, among other things, be moved to the plurality of outer tube housings 10 in at least one of the following ways: using conveyor belts, guides, moving means or robotic manipulators, wherein the center of the filter element 50 is aligned with the outer tube housing 10 to improve the filling accuracy of the filter element 50.

S43, loading the filter element 50 into the housing 10 of the outer tube from the second end 12.

According to the present embodiment, the filter element 50 is a porous loose material, such as PLA, so that the filter element 50 is capable of being compressed after applying a force. Using the properties of the material of the filter element 50, an external force is applied to fill the filter element 50 to the second end 12 in the outer tube body 10, although the outer diameter of the filter element 50 is larger than the inner diameter of the outer tube body 10, however, when the filter element 50 is compressed under the action of an external force, the filter element 50 can be installed in the outer tube body 10, and after entering the outer tube body 10, the filter element 50 fits tightly to the outer tube body 10 due to its own expansion, and thereby sealing the second end 12.

Please refer to Fig. 9 and 10, Fig. 10 is a block diagram of the position of filling the filter element in the method of filling the cigarette cartridge according to the embodiment shown in Fig. 9. According to the present embodiment, "loading the filter element 50 into the outer tube body 10 from the second end 12" includes loading the filter element 50 into the outer tube body 10 from the second end 12, wherein the end of the filter element 50 located at a distance from the cooling tube 40 is flush with the second end 12.

According to the present embodiment method, “loading the filter element 50 into the outer tube body 10 from the second end 12” includes step S431, and step S431 will be described in detail below.

S431, loading the filter element 50 into the outer tube body 10 from the second end 12, located at a distance from the cooling pipe, flush with the second end, wherein one end of the filter element 50, remote from the cooling pipe 40, is flush with the second end 12.

According to the present embodiment method, in step S42, when the center of the filter element 50 is aligned with the outer tube body 10, the distance between one end of the filter element 50 adjacent to the second end 12 and the second end 12 is, for example, x2. The filter element 50 is pushed by an external force toward the outer tube body 10 with a stroke of y2, where y2=x2+L2. Where L2 is the length of the filter element 50, in particular, L2: 8 mm≤L2≤10 mm. Therefore, by controlling the pushing stroke of the filter element 50, it can be ensured that after the filter element 50 is loaded into the outer tube body 10, one end of the filter element 50, distant from the cooling tube 40, will be at the same level with the second end 12.

Please refer to Fig. 11, 12 and 13, Fig. 11 is a block diagram of packaging and checking a cigarette cartridge in the method of filling a cigarette cartridge according to the embodiment shown in Fig. 1; Fig. 12 is a schematic illustration of the structure of a cigarette cartridge of the method of filling a cigarette cartridge according to the embodiment shown in Fig. 11; Fig. 13 is a partial enlarged view of a location I in a cigarette cartridge according to the embodiment shown in Fig. 12. According to the present embodiment, after "loading the filter element 50 into the outer tube body 10 from the second end 12 so that the filter element 50 is located near the cooling tube 40", the method of filling the cigarette cartridge 1 further includes moving a plurality of outer tube bodies 10 in a predetermined direction. The rolling of packages 60 on the outer surfaces of the plurality of outer tube housings 10 is carried out, forming a plurality of cigarette cartridges 1. The plurality of cigarette cartridges 1 are inspected. The plurality of cigarette cartridges 1 are also stored after the inspection.

According to the present embodiment method, after completing step S4, a plurality of cigarette cartridges 1 can be formed by packing a plurality of outer tube housings 10, after which the plurality of cigarette cartridges 1 are subjected to quality control for ensuring the production quality of the plurality of cigarette cartridges 1. In particular, after "loading the filter element 50 into the outer tube housing 10 from the second end 12 so that the filter element 50 is located near the cooling tube 40", the method for filling the cigarette cartridge 1 also includes steps S5, S6, S7 and S8. Steps S5, S6, S7 and S8 will be described in detail below.

S5, moving a plurality of outer tube housings 10 in a given direction.

According to the present embodiment, the predetermined mode refers to the direction in which a plurality of outer tube housings 10 are moved toward the outer tube housing packaging station 10. The outer tube housing 10 may be moved, among other things, by one or more methods, such as conveyor belts, guides, handling means, or robotic manipulators.

S6, rolling the packages 60 along the outer surfaces of the plurality of outer tube housings 10 to form a plurality of cigarette cartridges 1.

According to the present embodiment method, the packages 60 are rolled onto the outer surfaces of a plurality of outer tube bodies 10 to form a plurality of cigarette cartridges 1. The package 60 is a food-grade material, which prevents the release of toxic substances from the package 60 when heated. In particular, the package 60 may be, among other things, tipping paper with a density of 32 to 40 g/ ^m2 . The surface of the package 60, which is attached to the outer tube body 10, is coated with adhesive, due to which the package 60 is configured to wrap the outer tube body 10. The outer tube body 10 is wrapped with the package 60, which allows for the blocking of dirt and traces of curling on the outer surface of the outer tube body 10.

S7, control of multiple cigarette cartridges 1.

According to the present embodiment, a plurality of cartridges 1 can be inspected by, among other things, visual inspection or infrared inspection. Specifically, the inspection includes checking whether the first end 11 of the outer tube housing 10 is sealed, whether the filter element 50 is in good condition, whether the packaging 60 is properly crimped and sealed, whether the outer surface of the packaging 60 is clean, whether tobacco 30 is missing from the cigarette cartridge 1, and whether the cooling tube 40 is correctly oriented.

S8, storing a plurality of cigarette cartridges 1 after inspection.

According to the present embodiment, the cigarette cartridge 1, having passed the inspection, is sent for storage. It should be noted that passing the inspection means that the characteristics of each component of the cigarette cartridge 1, subjected to inspection in step S7, are not impaired, in particular, the first end 11 of the outer tube 10 is completely sealed, the filter element 50 is normal, the crimping and fastening of the package 60 is good, the outer surface of the package 60 is not contaminated, tobacco 30 is in the cartridge 1, and the orientation of the cooling tube 40 is correct.

Please refer to Fig. 14, Fig. 14 is a block diagram of moving the outer tube body in a predetermined direction in the method for filling a cigarette cartridge according to the embodiment shown in Fig. 11. According to the present embodiment, "moving a plurality of outer tube bodies 10 in a predetermined direction" includes moving a plurality of outer tube bodies 10 along a first direction. In this case, the length direction of the outer tube body 10 corresponds to the first direction. And also, the direction of movement of the plurality of outer tube bodies 10 is changed so that the plurality of outer tube bodies 10 move in a predetermined direction. In this case, the length direction of the outer tube body 10 is perpendicular to the predetermined direction.

In the above embodiment, step S5 specifically includes steps S51 and S52. According to the present embodiment, the following steps S51 and S52 will be described in detail.

S51, moving the plurality of outer tube housings 10 in the first direction.

According to the present embodiment, the length direction of the plurality of outer tube housings 10 corresponds to the first direction. According to the present embodiment, a first conveyor belt is used to move the plurality of outer tube housings 10.

S52, changing the direction of movement of the plurality of outer tube housings 10 so that the plurality of outer tube housings 10 move in a given direction.

According to the present embodiment, the direction of the length of the outer tube body 10 is perpendicular to a predetermined direction in order to facilitate the wrapping of the package 60 around the outer tube body 10. According to the present embodiment, a second conveyor belt is used to move a plurality of outer tube bodies 10, and the direction of movement of the second conveyor belt is perpendicular to the direction of movement of the first conveyor belt. According to the present embodiment, the direction of movement of the plurality of outer tube bodies 10 is changed by moving the plurality of outer tube bodies 10 from the first conveyor belt to the second conveyor belt. For example, the plurality of outer tube bodies 10 can be moved from the first conveyor belt to the second conveyor belt by, among other things, gripping with a manipulator, suction with a suction device, or pushing with a pusher mechanism.

Please refer to Fig. 15, Fig. 15 is a block diagram of the inspection of several cigarette cartridges in the method of filling a cigarette cartridge according to the embodiment shown in Fig. 11. According to the present embodiment, "inspecting a plurality of cigarette cartridges 1" includes sequentially moving a plurality of cigarette cartridges 1 to an inspection point. The peripheral sides, inner and opposite ends of the plurality of cigarette cartridges 1 are inspected. And the cigarette cartridges 1 that do not meet the inspection requirements are rejected.

According to the present embodiment method, step S7 in the above-mentioned embodiment method specifically includes steps S71, S72, and S73. Steps S71, S72, and S73 will be described in detail below.

S71, sequentially moving a plurality of cigarette cartridges 1 to a control point.

According to the present method of implementation, a plurality of cigarette cartridges 1 are sequentially moved to the inspection point, as a result of which the cigarette cartridges 1 are inspected at the inspection point.

S72, controlling the peripheral sides, inner and opposite ends of a plurality of cigarette cartridges 1.

According to the present embodiment method, the peripheral side, the inner part, and the opposite ends of a plurality of cigarette cartridges 1 are inspected to determine whether the cigarette cartridges 1 meet the requirements or not. In particular, the inspection is carried out to determine whether the first end 11 of the outer tube body 10 is sealed, whether the filter element 50 is normal, whether the package 60 is well crimped and glued, whether the outer surface of the package 60 is not contaminated, whether tobacco 30 is missing from the cigarette cartridge 1, and whether the cooling tube 40 is correctly oriented.

S73, rejection of cigarette cartridges 1 that do not meet control requirements.

According to the present method of implementation, cigarette cartridges that do not meet the control requirements among a plurality of cigarette cartridges 1 are rejected, wherein the cigarette cartridges 1 that do not meet the control requirements among a plurality of cigarette cartridges 1 can be rejected by, among other things, being grasped by a manipulator, sucked by a suction device, or pushed by a pusher mechanism.

Although embodiments of the present invention have been shown and described above, it can be understood that the above-mentioned embodiments are illustrative and should not be considered as limitations of the present invention, those skilled in the art can make changes, improvements, replacements and variations in the above-mentioned embodiments within the scope of the present invention, and these improvements and modifications are also considered as the scope of protection of the present invention.

Claims (47)

1. A method for refilling a cigarette cartridge, characterized in that it includes: providing a plurality of outer tube bodies, wherein a first end of the plurality of outer tube bodies has a sealing portion; loading tobacco from the second end, located opposite the first end of the outer tube bodies; identifying the sealing end of each of the plurality of cooling tubes and loading each of the plurality of cooling tubes into the body of the corresponding outer tube from the second end of the body of the outer tube so that the sealing end of each of the plurality of cooling tubes is located near the tobacco, wherein each of the plurality of cooling tubes has a sealing end and an open end opposite the sealing end; and loading one of the plurality of filter elements into the outer tube body from the second end of the outer tube body so that the filter element is located near the corresponding cooling tube. 2. The method according to claim 1, characterized in that identifying the sealing end of each of the plurality of cooling tubes and loading each of the plurality of cooling tubes into the body of the corresponding outer tube from the second end of the body of the outer tube so that the sealing end of each of the plurality of cooling tubes is located near the tobacco, includes: moving a plurality of cooling tubes in a given direction; identifying the orientation of the open ends of a plurality of cooling tubes; when the open end of each of the plurality of cooling tubes faces the second end of the outer tube body, changing the orientation of each of the plurality of cooling tubes so that the rotated sealing ends of each of the plurality of cooling tubes face the second end of the outer tube body; moving a plurality of cooling tubes toward a plurality of outer tube housings, wherein the sealing end of each of the plurality of cooling tubes is adjacent to the second end of the outer tube housing relative to the open end of each of the plurality of cooling tubes; and loading each of the plurality of cooling tubes into a corresponding outer tube body from a second end of the outer tube body. 3. The method according to claim 2, characterized in that identifying the orientation of the open end of each of the plurality of cooling tubes includes: during the process of moving the plurality of cooling tubes, repeatedly identifying the orientation of the open end of each of the plurality of cooling tubes. 4. The method according to paragraph 1, characterized in that the provision of a plurality of outer tube housings includes: applying adhesive to a first end of each of the plurality of outer tube bodies; attaching a first end of each of the plurality of outer tube bodies to the sealing element; heating and applying pressure to a first end of each of the plurality of outer tube bodies attached to the sealing member; and cutting the sealing element along the outer contour of each of the plurality of outer tube bodies to form a sealing portion that seals the first end of each of the plurality of outer tube bodies. 5. The method according to item 4, characterized in that the heating time t of the first end of each of the plurality of outer tube bodies attached to the sealing element is 5 s≤t≤8 s, the heating temperature T of the first end of each of the plurality of outer tube bodies attached to the sealing element is 120°C≤T≤200°C, and the pressure P applied to the outer tube body is 100 Pa≤P≤300 Pa. 6. The method according to claim 1, characterized in that loading one of the plurality of filter elements into the outer tube body from the second end of the outer tube body so that the filter element is located next to the corresponding cooling tube, includes: providing multiple filter elements; moving a plurality of filter elements toward a plurality of outer tube housings, wherein the center of each of the plurality of filter elements is aligned with the corresponding outer tube housing and is adjacent to the second end of the outer tube housing; and loading each of the plurality of filter elements into the housing of the corresponding outer tube from the second end of the housing of the outer tube. 7. The method according to paragraph 6, characterized in that loading each of the plurality of filter elements into the housing of the corresponding outer tube from the second end of the housing of the outer tube includes: loading each of the plurality of filter elements into the housing of the corresponding outer tube from the second end of the housing of the outer tube, wherein one end of each of the plurality of filter elements, remote from the corresponding cooling tube, is flush with the second end of the housing of the outer tube. 8. The method according to claim 1, characterized in that after loading one of the plurality of filter elements into the outer tube body from the second end of the outer tube body so that the filter element is located next to the corresponding cooling tube, the method of filling the cigarette cartridge also includes: movement of a plurality of outer tube bodies in a given direction; rolling the packages onto the outer surfaces of each of the plurality of outer tube bodies to form a plurality of cigarette cartridges; control of multiple cigarette cartridges; and storage of multiple cigarette cartridges after inspection. 9. The method according to paragraph 8, characterized in that the movement of a plurality of outer tube housings in a given direction includes: moving a plurality of outer tube bodies along a first direction, wherein the direction of the length of the outer tube body corresponds to the first direction; and changing the direction of movement of the plurality of outer tube bodies so that the plurality of outer tube bodies move along a given direction, wherein the direction of the length of the outer tube bodies is perpendicular to the given direction. 10. The method according to paragraph 8, characterized in that the control of a plurality of cigarette cartridges includes: sequential movement of multiple cigarette cartridges to a control point; monitoring the peripheral side, the interior and two opposite ends of each of the plurality of cigarette cartridges; and rejection of cigarette cartridges that do not meet control requirements. 11. The method according to claim 1, characterized in that the sealing section includes at least one of the following: silk paper with a density of 10-50 g/ ^m2 , paper with high air permeability of 10-50 g/ ^m2, or parchment paper with a density of 45-105 g/ ^m2 . 12. The method according to claim 1, characterized in that the sealing end of each of the plurality of cooling tubes has an air-permeable sealed section, and the air-permeable sealed section includes at least one of the following: silk paper with a density of 10-50 g/ ^m2 , paper with high air permeability of 10-50 g/ ^m2 or parchment paper with a density of 45-105 g/ ^m2 . 13. The method according to claim 12, characterized in that the air-permeable sealed section includes one or more through holes. 14. The method according to claim 1, characterized in that the sealing end of each of the plurality of cooling tubes is identified by means of identification by visual control, identification by sensory control, or identification by infrared induction control. 15. The method according to claim 1, characterized in that the sealing end of each of the plurality of cooling tubes contacts the tobacco. 16. The method according to claim 1, characterized in that the sealing end of each of the plurality of cooling tubes is located at a distance from the tobacco. 17. The method according to claim 1, characterized in that one end of the filter element, remote from the second end of the outer tube body, is located at a distance from the open end of the corresponding cooling tube. 18. The method according to claim 1, characterized in that one end of the filter element, remote from the second end of the outer tube body, adjoins the open end of the corresponding cooling tube. 19. The method according to claim 1, characterized in that one end of the filter element, located at a distance from the second end of the outer tube body, adjoins the open end of the corresponding cooling tube and partially enters the corresponding cooling tube through the open end of the corresponding cooling tube. 20. The method according to claim 3, characterized in that the plurality of cooling tubes can be moved in one or more of the following ways: using conveyor belts, guides, moving means, or robotic manipulators.