RU2781000C2 - Aerosol generating product and its manufacturing method - Google Patents

Abstract

FIELD: tobacco industry.

SUBSTANCE: group of inventions relates to aerosol generating products. The device contains a near end and a far end and includes an inner tubular element containing an inner wrapping sheet surrounding a combustible heat source placed near the far end of the aerosol generating product, an outer wrapping sheet for the formation of an outer tubular element of the aerosol generating product, when folding along the longitudinal axis. The outer wrapping sheet contains the first edge containing a near part and a far part. The near part contains a gluing section, wherein the far part passes from the near part at an acute angle relatively to the longitudinal axis.

EFFECT: creation of a conical shape of a product is prevented, a compressible part of the product for extinguishing is preserved, possibility of use of existing production processes and capacities is provided.

20 cl, 5 dwg

Description

The present invention relates to a wrapping paper pattern for an aerosol generating article having a compressible heat source for heating the aerosol generating substrate.

In the prior art, aerosol generating articles are known in which tobacco is heated rather than burned. The purpose of such "heated" products is to reduce the amount of certain smoke constituents resulting from the combustion and pyrolytic degradation of tobacco in conventional cigarettes. In a heated aerosol generating article of one known type, an aerosol is generated by transferring heat from a combustible heat source to an aerosol generating substrate, such as tobacco. The aerosol forming substrate may be located downstream of the combustible heat source. The outer wrap sheet of the aerosol generating article may be used to surround the aerosol generating substrate and at least a portion of the combustible heat source contained in the inner wrap sheet. In use, volatile compounds are released from the aerosol generating substrate by heat transfer from the combustible heat source and are entrained in air drawn through the heated aerosol generating article. As the released compounds cool, they condense to form an aerosol.

Some combustible heat sources may be difficult to extinguish, or it may be necessary to extinguish the heat source before it extinguishes itself. It is desirable to provide an aerosol generating article that can cover a combustible heat source to extinguish or shield the heat source. A way to achieve this is to position the outer wrap sheet such that it has an internal recess into which a combustible heat source can be drawn.

WO 2017/115196 discloses an aerosol generating article having a compressible structure to draw a heat source into an internal "void space". The disclosed structure comprises an internal tubular element that contains, in order from the far end towards the near end of the mouthpiece: a heat source, an aerosol generating substrate, a first dispersion element, an empty space, a second dispersion element, and an aerosol cooling element. In use, the inner tubular element is held within a tubular body that contains the mouthpiece filter element. The outer wrap sheet may be glued at the junction of the inner tubular to form a tubular body that holds the inner tubular within the tubular body. The inner tubular element contains a region of reduced strength, while the extreme end can be compressed inside the tubular body into an empty space.

Aerosol generating articles are typically made in a butt-to-butt configuration by rolling a wrapper sheet around a stem formed from first and second inner tubulars mounted on respective first and second mouthpiece filters. Mouthpiece filters may be combined to form a mouthpiece filter element. The wrapped rod can then be cut through the mouthpiece filter to produce two aerosol generating articles. This arrangement allows for a higher production line speed compared to wrapping individual aerosol generating articles. During the manufacture of compressible aerosol generating articles, it is contemplated that two wraps may be applied to the rod. The first wrap may be glued to the rod at the proximal end of the rod. For example, the first wrapper may attach the wrapper sheet to the mouthpiece filter and optionally to the proximal portion of the inner tubulars and mouthpiece filter. The second wrap may secure the outer wrap sheet to the first wrap. The second wrap may be attached along its entire length to the underlying first wrap. This can create an outer tubular that rigidly supports and protects the stem or inner tubular while allowing the inner tubular to collapse within the outer tubular and thus compress upon "quenching".

However, the adhesive application pattern proposed for use in gluing the overwrap sheet first to the stem and then to itself does not secure the ends of the overwrap sheet to the stem at all points, in particular during the application of the first wrap, because the application of the adhesive over the entire area of the outer wrap sheet for such a first wrap will reduce the compressibility of the inner tubular. Therefore, the outer wrapping paper is solely intended to be adhered to the filter by the mouthpiece and part of the first and second inner tubulars on the first wrapper. A rotating drum containing a vacuum to temporarily seal the outer wrap sheet to a rotating drum is a standard way of rolling an aerosol generating product. Since the adhesive is applied only to the center portion of the outer wrap sheet for the portion that forms the first wrap, only the center portion will be securely attached to the stem. The tops of the outer wrap sheet are not glued to the rod at this stage, and will accordingly be more disposed to remain attached to the rotating drum. Therefore, the off-center portions of the outer wrap sheet may remain attached to the rotating drum while the center portions are securely wrapped around the rod during the first rotation, which may result in uneven wrapping of the outer wrap sheet and formation of a conical aerosol generating article.

It would be desirable to provide an aerosol generating article that has a structure containing an outer sheet that would not cause the aerosol generating articles to be conical in shape while retaining a compressible portion. It would be desirable to provide an aerosol generating article that can be manufactured using existing manufacturing processes and that can be manufactured with existing manufacturing facilities.

According to the present invention, an aerosol generating article is provided having a proximal end and a far end, the aerosol generating article comprising:

- an inner tubular member containing an inner wrap sheet surrounding a combustible heat source located near the distal end of the aerosol generating article;

- an outer wrap sheet for forming an outer tubular element of an aerosol generating article when folded along a longitudinal axis, the outer wrap sheet comprising: a first edge containing a proximal portion and a distal portion, the proximal portion comprising an adhesive section, and the distal portion extending from the proximal part at an acute angle relative to the longitudinal axis.

According to a first aspect of the present invention, a wrap sheet is provided for forming a tubular member of an aerosol generating article when rolled about a longitudinal axis. The wrap sheet includes a first edge containing a proximal portion and a distal portion. The proximal part contains the gluing section. The distal part extends from the proximal part at an acute angle relative to the longitudinal axis.

The wrapper sheet according to the present invention advantageously provides an aerosol generating product that has a less conical profile than prior art products. This is partly due to the adhesive section at the proximal end of the first lip, which initially contacts the inner tubular during the wrapping procedure to form the aerosol generating article. This adhesive section allows the wrap sheet to be tightly wrapped around the inner tubular without any separation of the wrap sheet and the inner tubular during the first rotation. Additionally, the angled distal portion of the first edge provides engagement between the wrapper sheet and the inner tubular member as the wrapper sheet is wrapped around the inner tubular member. This causes the wrapper sheet to be attracted to the inner tubular member as the wrapper sheet is wrapped around the inner tubular member. This further reduces the likelihood of any separation between the wrap sheet and the inner tubular member.

In some embodiments, the proximal portion of the first edge is substantially parallel to the longitudinal axis.

In some embodiments, the wrap sheet further comprises a second edge opposite the first edge. The second edge contains the proximal part of the second edge and the distal part of the second edge, while the first and second edges define the width of the sheet. The proximal portion of the second edge may be substantially parallel to the proximal portion of the first edge. The proximal portion of the second edge may also be substantially the same length as the proximal portion of the first edge. The distal portion of the second edge may be substantially parallel to the distal portion of the first edge. The distal portion of the second edge may also be substantially the same length as the distal portion of the first edge. In some embodiments, the wrap sheet further comprises proximal and distal end edges extending between the first and second edges at their respective proximal and distal ends. The distance between the first and second edges may be constant along the length of the sheet. The edges of the proximal and distal ends may extend substantially perpendicular to the longitudinal axis.

In some embodiments, the first region is defined by the portion of the sheet between the proximal portion of the first edge and the proximal portion of the second edge. The first adhesive application pattern, which contains the adhesive section, is applied to the first area, thus forming a band of adhesive across the width of the sheet in the proximal part. The first adhesive application pattern may be applied over the entire length of the first region, for example in the form of a continuous adhesive layer. The adhesive application pattern may be discontinuous, for example, a series of stripes, stripes, dots, or the like, or an array of regular or irregular shapes.

In some embodiments, the second region is defined by the portion of the sheet between the distal portion of the first edge and the distal portion of the second edge. The second region is divided into a first region adjacent to the first edge and a second region adjacent to the second edge by a boundary line extending from the distal end edge to the first region. The second adhesive application pattern is applied to the second zone. The second adhesive application pattern may be applied along the entire length of the second zone. Like the first adhesive pattern, the second adhesive pattern may be applied in a continuous layer, or may be discontinuous, such as a series of stripes, stripes, dots, or the like, or in a pattern of regular or irregular shapes. Typically no adhesive is applied to the first zone.

The boundary line may be substantially parallel to the distal portion of the first edge.

In some embodiments, the first region extends a first distance from the edge of the proximal end, the first distance being in the range of 1 mm to 60 mm. The first distance is preferably in the range of 5 mm to 15 mm.

In some embodiments, the first zone extends a second distance from the distal portion of the first edge, the second distance being in the range of 10 mm to 40 mm. The second distance is preferably in the range of 10 mm to 25 mm.

This document discloses an aerosol generating article having a proximal end and a distal end. An aerosol generating article typically includes a mouthpiece filter at the proximal end. The aerosol generating article comprises an inner tubular member, typically having a heat source end located at the distal end of the aerosol generating article. The inner tubular member typically includes an inner wrap sheet surrounding a combustible heat source located near the distal end of the aerosol generating article. The inner wrap sheet generally surrounds the aerosol forming substrate downstream of the combustible heat source. The inner wrap sheet may surround the empty space between the aerosol forming substrate and the end of the mouthpiece. The combustible heat source, the aerosol-forming substrate, and, if present, the void space are provided in a coaxial arrangement. The outer tubular extends from the proximal end of the aerosol generating article towards its distal end. The outer tubular generally surrounds at least the mouth end of the inner tubular and a void. The outer tubular element typically terminates further downstream of the heat source. The outer tubular element contains a wrapping sheet in accordance with the aspect described above. The inner wrap sheet may include a compressible portion surrounding at least an empty space such that the distal end containing the combustible heat source and the aerosol generating substrate is slidable relative to the outer tubular member. The distal end is therefore slidable from an extended position, characterized by a first article length, to a retracted position, characterized by a second article length that is less than the first article length.

The width of the sheet between the first and second opposite edges is typically at least twice the circumference of the inner tubular around which it is wrapped. The boundary line may be spaced from the distal portion of the first edge at a distance (ie, second distance) at least equal to the circumference of the inner tubular element to be wrapped.

The first distance may be chosen such that, when folded into the shape of the outer tubular, the wrapper sheet is adhesively bonded to the inner tubular only at its proximal end for the first circular revolution with an adhesive strip formed in the form of the first adhesive application pattern, and adhered to itself substantially along the entire length for the second turn with the second adhesive application pattern of the second zone and along the adjacent remaining parts of the adhesive strip formed by the first adhesive application pattern, thus forming a strong seal over the aerosol generating article.

According to the present invention, there is provided a method for manufacturing an aerosol generating article, wherein the aerosol generating article has a proximal end and a distal end, the method for manufacturing an aerosol generating article comprising the steps of:

providing an inner tubular member comprising an inner wrap sheet surrounding a combustible heat source positioned near the distal end of the aerosol generating article;

providing an outer wrap sheet comprising a first edge comprising a proximal portion and a distal portion, the proximal portion comprising an adhesive section and the distal portion extending from the proximal portion at an acute angle relative to the longitudinal axis;

- wrapping at least part of the inner tubular element with an outer wrap sheet, starting from the first edge of the outer wrap sheet;

- adhesive connection of the proximal part of the first edge with the inner tubular element by ensuring contact of the adhesive section with the proximal end of the inner tubular element; and

- wrapping the outer wrap sheet around the inner tubular element by folding.

According to an aspect of the present invention, a method for manufacturing an aerosol generating article is provided. The method includes providing a wrapper sheet according to the aspect described above. The method further includes providing an inner tubular member. The method further includes wrapping at least a portion of the inner tubular element with a wrap sheet starting from a first edge of the wrap sheet; adhesive connection of the proximal part of the first edge with the inner tubular element; and wrapping the wrapper sheet around the inner tubular member by rolling. The connection of the proximal part of the first edge with the inner tubular element is achieved by ensuring contact of the gluing section with the proximal end of the inner tubular element.

In some embodiments, the wrapping procedure includes applying a wrapping sheet using a rotating drum. Wrapping may include wrapping the inner tubular by a constriction between a rotating drum on which the wrapping sheet is temporarily attached and a fixed guide plate, the sheet wrapping around the inner tubular as it passes through the constriction.

In some embodiments, the method includes fabricating a pair of aerosol generating articles end-to-end, including providing a single mouthpiece filter element having first and second ends corresponding to the initially combined first and second mouthpiece filters. Providing an inner tubular element includes providing first and second inner tubular elements that are mounted on respective first and second ends of a single mouthpiece filter element. Wrapping of the first and second inner tubular elements is carried out simultaneously using one wrapping sheet located symmetrically about the center of the filter element of the mouthpiece to form the initially combined first and second outer tubular elements. The method further includes cutting the combined outer tubular members and the mouthpiece filter element to separate the combined articles into first and second aerosol generating articles.

In certain embodiments, the method for manufacturing an aerosol generating article further includes providing an inner tubular member that includes a compressible portion. Optimally, the compressible portion of the inner tubular element surrounds at least the empty space of the aerosol generating element.

All scientific and technical terms used in this document have the meanings commonly used in the art, unless otherwise indicated. The definitions provided in this document are intended to facilitate understanding of certain terms commonly used in this document.

In this context, the term "aerosol generating article" refers to an article containing an aerosol generating substrate capable of releasing volatile compounds that can form an aerosol, for example, by heating, combustion or chemical reaction.

In the context of this document, the term "aerosol-forming substrate" is used to describe a substrate capable of releasing volatile compounds that can form an aerosol. The aerosols generated from the aerosol-forming substrates in the aerosol-generating articles of the present invention may be visible or invisible and may contain vapors (e.g., fine particles of substances in the gaseous state, which at room temperature are usually liquid or solid), and also gases and drops of liquid condensed vapors.

In the context of this document, the term "sheet" means a plate element having a width and length greater than its thickness.

The terms "upstream" and "downstream" refer to the relative positions of the elements of the aerosol-generating article, described with respect to the direction of the inhaled airflow as it is drawn through the body of the aerosol-generating article, from the distal end to the end of the mouthpiece. In other words, as used herein, the term "upstream" is defined in relation to the air flow during use of an aerosol generating article, the mouth end of the article being the downstream end through which air and spray can. The end opposite the mouthpiece end is the upstream end.

The words "preferred" and "preferably" refer to embodiments of the present invention that may provide certain advantages under certain circumstances. However, other embodiments may also be preferred under the same or different circumstances. Furthermore, the description of one or more preferred embodiments is not meant to imply that other embodiments are not useful, and is not intended to exclude other embodiments from the scope of the present invention, including the claims.

Throughout the description and claims of this specification, the words "comprises" and "comprises" and variations thereof mean "including, but not limited to", and are not intended to exclude other substances, additives, components, integers, or steps (and do not exclude them). Throughout the specification and claims of this specification, the singular encompasses the plural unless the context requires otherwise. In particular, when the singular form is used, the description of the invention should be understood to mean plurality as well as singularity, unless the context otherwise requires.

Hereinafter, embodiments of the invention are further described with reference to the accompanying drawings, in which:

in fig. 1 is a schematic representation of a prior art rod and a proposed outer wrap sheet;

in fig. 2 is a schematic representation of an example aerosol generating article;

in fig. 3 shows a schematic representation of a rod and an outer wrap sheet according to the present invention;

in fig. 4 is a schematic representation of an outer wrap sheet partially wrapped around a stem; and

in fig. 5 illustrates a side view of a wrap station used to wrap an outer wrap sheet around a rod.

The schematic drawings are not necessarily drawn to scale and are for purposes of illustration and not limitation. The drawings depict one or more of the aspects described in this disclosure. However, it should be understood that other aspects not depicted in the drawings fall within the scope of the present invention.

In FIG. 1 shows a schematic representation of a prior art stem 16 and a proposed outer wrap sheet 20. Stem 16 is arranged in an end-to-end configuration and includes a first 15' inner tubular member having a distal end 12' and a mouthpiece filter end 11'. The mouthpiece filter 10' is mounted on the first inner tubular member 15' at the end 11' of the mouthpiece filter. The stem 16 further comprises a second inner tubular 15'' which is a mirror image of the first 15' inner tubular, and like parts are identified by like reference numerals but superscripted by a double dash (''). The first 10' and second 10'' mouthpiece filters each have a proximal end, and the first 10' and second 10'' mouthpiece filters are connected at their proximal ends to form a mouthpiece filter element 10. Each of the first 15' and second 15'' internal tubular members contains a heat source, an aerosol forming substrate, and a space (see FIG. 2). The proposed outer wrap sheet 20 is shown in FIG. 1 in the form of a substantially rectangular sheet having a first edge 21, a first adhesive region 25, and a second adhesive region 30. By bringing the first edge 21 into contact with the stem 16, the first area 25 of adhesive can adhere the outer wrap sheet 20 to the first 15' and second 15'' inner tubes and mouthpiece filter element 10. However, the adhesive application pattern only links the outer wrap sheet 20 to the inner tubular members 15', 15'' near their respective mouthpiece filter ends 11', 11''; since no adhesive is present in the vicinity of the outer ends of the outer wrap sheet, at least during the initial stages of the wrapping process—i.e. at least during the first revolution around the inner tubular elements 15', 15''.

In the manufacture of an aerosol generating article in an end-to-end configuration, a series of outer wrap sheets are typically temporarily attached to a rotating drum, such as by vacuum, and respective rods 16 are brought into contact with the first edge of the bonded outer wrap sheet 20. As the rotation progresses, rotating drum, each rod 16 with attached outer wrap sheet 20 is rotated in the direction of the fixed guide plate. The rotating drum and the fixed guide plate create constriction and friction between the unwrapped aerosol generating article, the fixed guide plate and the rotating drum, causing the outer wrap sheet 20 to wrap around the stem 16, thereby forming the wrapped aerosol generating article. Although the outer wrap sheet 20 is initially wrapped around the stem 16 in the first revolution, only the portion of the outer wrap sheet that is adhered to the stem 16 remains firmly bonded to the stem 16 by the first region 25 of adhesive. The remainder of the outer wrap sheet 20 is not glued to the rod 16, so it can remain attached to the rotating drum. This can create tension along the first edge 21 where the adhesive pulls the outer wrap sheet 20 towards the stem 16 and the rotating drum pulls the outer wrap sheet 20 away from the stem 16. Therefore, aerosol generating rolled articles can be formed with a tapered profile, wherein the aerosol generating finished article has a smaller diameter at the mouthpiece filter end 11', 11'' compared to the distal end 12', 12''. Hereinafter, this will be referred to as the "cone effect". When manufactured in a butt-to-butt configuration, an outer wrap sheet member formed from two symmetrical outer wrap sheets 20 attached at respective proximal ends can be used to simultaneously form two combined outer tubular members (as shown in FIG. 1). The combined outer tubular may then be cut along centerline 35 to form separate first and second aerosol generating articles.

In FIG. 2 is a schematic representation of an exemplary aerosol generating article 100 related to aspects of the present invention. The aerosol generating article 100 extends between the proximal end 102 and the distal end 104 along the longitudinal axis 150 and includes an inner tubular member 105 having a mouthpiece end 107 and an opposite heat source end located at the distal end 104 of the aerosol generating article 100. The inner tubular member 105 comprises an inner wrap sheet 109 surrounding: a combustible heat source 115 located near the distal end 104 of the aerosol generating article 100, an aerosol generating substrate 120 located downstream of the combustible heat source 115, and void space 125 located between the substrate 120, forming an aerosol, and the end 107 of the mouthpiece. The combustible heat source 115, the aerosol forming substrate 120, and, if present, the void space 125 are provided in a coaxial arrangement. The portion of the inner wrap sheet 109 surrounding the empty space may be considered the compressible portion 109b. The mouthpiece filter 127 is provided at the proximal end 102 and is shown mounted on the inner tubular member 105 at the end 107 of the mouthpiece. A removable cover 110 may also be provided at the distal end of the inner tubular 105 to ensure that the aerosol generating substrate 115 is retained by forming a seal at the distal end 104 of the inner tubular 105.

Aerosol generating article 100 is shown further comprising an outer tubular member 130 extending from a proximal end 102 of aerosol generating article 100 toward its distal end 104. Outer tubular member 130 surrounds at least the mouthpiece end 107 of inner tubular member 105 and void space. 125 and is formed by wrapping an outer wrap sheet 200 around a mouthpiece filter 127 and a portion of an inner tubular 105. The outer tubular 130 terminates downstream of the heat source 115. The distal end 104, containing the combustible heat source 115 and the aerosol-forming substrate 120, is slidable relative to the outer tubular member 130 from an extended position characterized by a first article length, such as L1, to a retracted position characterized by a second article length that is less than the first length of the product, for example, L2. The aerosol generating article may be the length of a conventional cigarette. The aerosol generating article may be the diameter of a conventional cigarette. As a result of the sliding movement of the distal end 104 from the extended position to the retracted position, the empty space 125 is at least partially compressed into an axially compressed configuration. The slidable distal end containing the combustible heat source 115 and the aerosol forming substrate 120 allows the slidable distal end to collapse into empty space from an extended position to a retracted position. The retracted position may be such that the heat source is located within the outer tubular member. The retracted position can be achieved by applying pressure or force to the distal end of the aerosol generating article 100, for example, when performing a "blow off" action. The void space 125 need not be fully compressed when in the axially compressed configuration. As shown in FIG. 2, the inner tubular member 105 further comprises first 121a and second 121b displacement elements located at the ends of void space 125. The inner tubular element 105 may further comprise an additional displacement element 117 positioned between the combustible heat source 115 and the aerosol generating substrate 120. The void space 125 provides a recess within which the distal end can collapse to cover the combustible heat source 115. In embodiments, the white space need not be empty, but may alternatively contain any compressible region.

Although the outer tubular 130 of the aerosol generating article is shown to terminate downstream of the aerosol generating substrate 120, one of ordinary skill in the art will appreciate that such an arrangement is purely illustrative and that other arrangements are possible, such as when the outer a tubular member 130 terminating in an aerosol-forming substrate 120 will be equally included in this specification.

In FIG. 3 illustrates an outer wrap sheet 200 according to the present invention. Because the illustrated outer wrap sheet 200 is intended to wrap a pair of inner tubular members 105', 105'' at the same time end to end, the outer wrap sheet is symmetrical about the center line 155. For brevity, only the left side of the mirror symmetrical sheet will be described. Such one outer wrap sheet can be used to wrap one inner tubular 105'. As shown, the outer wrap sheet 200 has proximal 205 and distal 210 edges, the edges extending substantially perpendicular to the longitudinal axis 150, with the first 215 and second 220 edges extending therebetween parallel to the longitudinal axis 150. The width of the sheet 200 between the first 215 and the second 220 opposite edges, typically at least equal to twice the circumference of the first inner tubular element 105'. Intermediate line 225 extends between first edge 215 and second edge 220 and defines first 230 and second regions 240. Intermediate line 225 is spaced from proximal end edge 205 by a first distance. The first distance may be in the range of 1 mm to 60 mm, and preferably in the range of 5 mm to 15 mm. In this embodiment, the point where the intermediate line 225 connects to the first edge 215 divides the first edge 215 into the first edge proximal portion 215a and the first edge distal portion 215b. Intermediate line 225 may be spaced from distal end edge 210 by a distance in the range of 6 mm to 140 mm, and preferably 9 mm to 50 mm. However, in some embodiments, the start of the distal portion 215b of the first edge may not coincide with the intermediate line 228. The distal portion 215b of the first edge is shown as forming an acute angle α with the longitudinal axis 150. The angle α between the distal portion 215b of the first edge and the longitudinal axis 150 may be in the range from 1° to 40° and preferably in the range from 7° to 31°. When the intermediate line 225 is connected to the second edge 220, the second edge 220 may be divided into the proximal part 220a of the second edge and the distal part 220b of the second edge. The first region 230 is substantially coated with adhesive in the form of a first adhesive application pattern suitable for bonding the outer wrap sheet 200 to the stem 105 during the first rotation, and for bonding the proximal end of the outer wrap sheet corresponding to the first region to itself for the second rotation.

Further, a boundary line 235 is shown extending between the distal end edge 210 and the intermediate line 225. The boundary line 235 may be spaced from the distal portion 215b of the first edge by a second distance at least equal to the circumference of the inner tubular. The second distance may be in the range of 10 mm to 40 mm, and preferably in the range of 10 mm to 25 mm. The boundary line may be spaced from the distal portion 220b of the second edge by a distance in the range of 5 mm to 20 mm, and preferably in the range of 7 mm to 15 mm. Boundary line 235 is used to divide the second region 240 into first 240a and second 240b zones. The second zone 240b is substantially coated with adhesive in the form of a second adhesive pattern and may be considered the bonding area. The adhesive is suitable for bonding the outer wrap sheet 200 to itself during the second rotation. The adhesive applied to the first area 230 may be similar to or different from the adhesive applied to the second area 240b. The first zone 240a is left without adhesive and can be considered a non-adhesive area.

Although the proximal portion 215a of the first edge is shown in FIG. 3 as being parallel to the longitudinal axis 150, this is not required for the present invention. Although the distal portion 220b of the second edge preferably forms an acute angle with the longitudinal axis 150, this is not essential to the present invention. Although the proximal portion 220a of the second edge is shown as being parallel to the longitudinal axis 150, this is not essential to the present invention. While the distal portion 215b of the first edge is preferably parallel to the distal portion 220b of the second edge, this is not essential to the present invention. The point where the boundary line 235 extends from the intermediate line 225 may be in the range of 6 mm to 30 mm, and preferably in the range of 10 mm to 21 mm, from the proximal portion 220a of the second edge. The point where the boundary line 235 extends from the intermediate line 225 may be in the range of 9 mm to 35 mm, and preferably in the range of 13 mm to 26 mm, from the proximal portion 215a of the first edge. Although the distance between the first 215 and second 220 edges is preferably substantially constant, this is not required for the present invention. Although the boundary line 235 is shown as being parallel to the distal portion 215b of the first edge, this is not essential to the present invention.

As shown in FIG. 3 and 4, the outer wrap sheet 200 can be used to make aerosol generating articles in a butt configuration by providing symmetrical outer wrap sheets 200 fully attached at their respective proximal ends 205. This allows simultaneous wrapping of the rod 106 containing the first 105' and a second 105'' internal tubular elements, and a filter element 129 of the mouthpiece. Shown are first 105' and second 105'' inner tube members having respective mouthpiece filter ends 107', 107'' and distal ends 104', 104'' respectively. The first 105' and second 105'' internal tubular members are shown as mounted on the mouthpiece filter element 129 at respective ends 107', 107'' of the mouthpiece filter. The first 105' and second 105'' internal tubulars are also shown as containing the respective first 125' and second 125'' empty spaces. In the manufacture of aerosol generating articles in a butt configuration, a mouthpiece filter element 129 may be used comprising a combined first 127' and second 127' mouthpiece filters. As shown in FIG. 3, the second far edge 220b may form an acute angle with respect to the second near edge 220a. As shown in FIG. 3, the second far edge 220b may be parallel to the first far edge 215b. In other embodiments, the shape of the second edge may match the shape of the first edge. This eliminates waste when cutting. The size of the outer wrap sheet may be chosen such that the second edge is closer to the first edge when wrapped around the aerosol generating article. This can ensure that the outer wrap sheet has a uniform, constant diameter along its length on the finished aerosol generating product 100. However, while this arrangement is preferred, it will be apparent to those skilled in the art that such an arrangement is not essential to the present invention.

As the outer wrap sheet 200 wraps around the first inner tube 105' and the mouthpiece filter 127' during the first rotation (see also FIG. 5), the first inner tube 105' is initially attached to the outer wrap sheet 200e at the proximal portion 215a first edge with adhesive. If present, the mouthpiece filter 127' may also be attached to the outer wrap sheet 200. As the outer wrap sheet 200 wraps around the first inner tubular 105', the adhesive applied to the first region 230 adheres the outer wrap sheet 200 to a portion of the first inner tubular. 105' on the proximal portion 215a of the first edge. If present, the adhesive applied to the first region 230 may also adhere the outer wrap sheet 200 to the mouthpiece filter 127'. As the outer wrap sheet 200 wraps around the first inner tubular 105', the first distal edge 215b comes into contact with the first inner tubular 105' and the first non-adhesive zone 240a wraps around the next portion of the first inner tubular 105'. The non-adhesive area 240a of the outer wrap sheet 200 is not adhered to the inner tubular member 105'. As adhesive is applied along the length of the proximal portion 215a of the first edge, any tension generated along the first edge 215 due to the temporary attachment of the outer wrap sheet 200 to the rotating drum 320 will pull the distal edge 215b toward the first inner tubular 105', increasing contact between the non-adhesive zone 240a and the first inner tubular element 105'. The acute angle between the distal portion 215b of the first edge and the first proximal edge 215a further enhances the contact between the non-adhesive zone 240a and the first inner tubular member 105'. This is in contrast to prior art solutions where tension along the first edge 21 may cause the non-adhesive portion of the outer wrap sheet 200 to separate from the first inner tubular member 105' during the wrapping process. The present invention allows the non-adhesive portion 240a to be tightly wrapped around the first inner tubular member 105', reducing the cone effect seen in the prior art.

Although the manufacturing process has been described with a mouthpiece filter 127', it would be apparent to a person skilled in the art that this is not essential to the present invention. Although the method of manufacture has been described in the context of a single aerosol generating article 100, it will be apparent to one skilled in the art that this description will apply, all things being equal, to the manufacture of aerosol generating articles manufactured in a butt configuration, which may be preferred for process efficiency, while it is possible to produce two products at the same time on one production line.

By wrapping the outer wrap sheet 200 around the mouthpiece filter 127' and the first inner tubular 105' during the second rotation, the remaining adhesive applied to the first region 230 and the adhesive applied to the second region 240b causes the outer wrap sheet 200 to adhere to itself. along substantially its own length to form an outer tubular member. When manufactured in a butt configuration, connected first and second outer tubular members are formed.

In FIG. 5 is a side view of a wrapping station used to wrap an outer wrap sheet 200 around a stem 106. The wrapping station typically includes a first rotating drum 320, a passage or constriction 310 defined by the first rotating drum 320 and a fixed guide plate 330, and a second rotating drum. 340. The outer wrap sheet 200, having the described adhesive application pattern, is generally temporarily attached to the surface of the first rotating drum 320. This temporary attachment can be created by vacuum holding the outer wrap sheet 200 to the surface of the first rotating drum 320. This can be achieved by including an array of holes in the outer surface of the first rotating drum 320 through which air can be drawn to create a vacuum, as is known in the art. The stem 106 is also shown attached to the proximal portion 215a of the first edge of the outer wrap sheet 200. As the first rotary drum 320 rotates, the stem 106 and the outer wrap sheet 200 extend in the direction of the passage or constriction 310 defined by the first rotary drum 320 and the stationary guide plate 330. rod 106 through the constriction 310 due to the rotation of the first rotary drum 320, the rod 106 is rotated on the fixed plate 330, causing the outer wrap sheet 200 to wrap around the rod 106. it will be apparent to those skilled in the art that this is not essential to the present invention and other wrapping methods known in the art may be used.

After wrapping the outer wrap sheet 200 around the stem 106, an aerosol generating article 100 is formed, which can be removed from the constriction 310 by means of the second rotating drum 340. 310 by means of the second rotary drum 340. In this case, the combined outer tubulars may be cut along the center line 155 through the combined outer tubulars and the combined mouthpiece filter element 129 to form the first and second aerosol generating articles 100. This arrangement is advantageous because aerosol generating articles 100 can be manufactured using existing processes and existing line speeds. Although the wrapping process has been described in the context of the manufacture of aerosol generating articles in a butt configuration, it will be apparent to one skilled in the art that this description is equally applicable to the manufacture of aerosol generating articles in isolation, and that the manufacture of aerosol generating articles, in a butt configuration is not required for the present invention. The cutting of the combined outer tubulars and the combined mouthpiece filter element 129 can be performed at the wrapping station or at a separate cutting station.

The aerosol generating article 100 may have a length and diameter similar to that of a conventional cigarette. The second length L2 may be approximately 90% or less of the first length of the article. The second article length may be approximately 80% or less of the first article length. The second article length may be approximately 70% or less of the first article length.

Although the mouthpiece filter 127 and the mouthpiece filter element 129 have been included here for clarity, they are not essential to the present invention. Similarly, although the removable cover 110 has been described as a method of storing the aerosol-forming substrate, the removable cover 110 is not essential to the present invention. Likewise, although the moving element 117 has been described, it is not essential to the present invention. Although the adhesive has been described as a method of attaching the outer wrap sheet 200 to the inner tubular member 105 and to itself, this is not required for the present invention and other fixing methods, including mechanical fixing methods such as perforations or surface features, are included in the present description. Although the outer wrap sheet 200 is described as being glued to itself along substantially the entire length of the outer wrap sheet 200, this is not essential to the present invention. Adhesion along less than the entire length of the outer wrap sheet 200 can still provide the benefits of the present invention.

Features, integers, characteristics or groups described in relation to a particular aspect, embodiment or example of the present invention should be considered as applicable to any other aspect, embodiment or example described herein, except incompatible with it. All features disclosed in this specification (including any appended claims, abstract and drawings) and/or all steps of any method or process thus disclosed may be combined in any combination, except for combinations in which at least some of such features and/or steps are mutually exclusive. The present invention is not limited to the details of any of the above embodiments. The present invention extends to any new feature or any new combination of features disclosed in this specification (including any appended claims, abstract and drawings) or to any new step or any new combination of steps of any method or process disclosed therein.

Examples

1. A wrapping sheet for forming a tubular element of an aerosol generating article when rolled around a longitudinal axis, wherein the wrapping sheet contains:

a first edge comprising a proximal portion and a distal portion, the proximal portion comprising an adhesive section, the distal portion extending from the proximal portion at an acute angle relative to the longitudinal axis.

2. Wrap sheet according to example 1, in which the proximal part of the first edge is essentially parallel to the longitudinal axis.

3. Wrap sheet according to example 1 or example 2, additionally containing a second edge opposite the first edge and containing the proximal part of the second edge and the distal part of the second edge, while the first and second edges define the width of the sheet.

4. Wrap sheet according to example 3, in which the proximal part of the second edge is essentially the same length as the proximal part of the first edge, and essentially parallel to it.

5. Wrap sheet according to Example 3 or Example 4, wherein the distal portion of the second edge is substantially the same length as, and substantially parallel to, the distal portion of the first edge.

6. A wrap sheet according to any of Examples 3-5, further comprising proximal and distal end edges extending between the first and second edges at their respective proximal and distal ends.

7. A wrap sheet according to any of Examples 3-6, wherein the first region is defined by the area of the sheet between the proximal part of the first edge and the proximal part of the second edge, and wherein the first adhesive application pattern, which contains the adhesive section, is applied to the first region.

8. Wrap sheet according to example 7, in which the first pattern of application of glue is applied over the entire length of the first area.

9. A wrapper sheet according to any of Examples 3-8, wherein the second region is defined by the portion of the sheet between the distal portion of the first edge and the distal portion of the second edge, and wherein the second region is divided into a first region adjacent to the first edge and a second region adjacent with the second edge, by means of a boundary line extending from the distal end edge to the first region, and wherein the second adhesive application pattern is applied to the second region.

10. Wrap sheet according to example 9, in which the second pattern of application of glue is applied throughout the second zone.

11. Wrap sheet according to example 9 or example 10, in which the boundary line is essentially parallel to the distal part of the first edge.

12. A method of manufacturing an aerosol generating product, including:

- providing a wrapping sheet in accordance with any previous example;

- providing an internal tubular element;

- wrapping at least part of the inner tubular element with a wrapping sheet, starting from the first edge of the wrapping sheet;

- adhesive connection of the proximal part of the first edge with the inner tubular element by ensuring contact of the adhesive section with the proximal end of the inner tubular element; and

- wrapping the wrapping sheet around the inner tubular element by folding.

13. The method of Example 12, wherein the wrapping procedure includes applying a wrapping sheet using a rotating drum.

14. The method according to Example 13, wherein the wrapping includes wrapping the inner tubular by means of a constriction between a rotating drum on which the wrapping sheet is temporarily attached and a fixed guide plate, the sheet wrapping around the inner tubular while passing through the constriction.

15. A method according to any one of Examples 12-14, comprising making a pair of aerosol generating articles end-to-end, including providing a single mouthpiece filter element having first and second ends corresponding to the initially combined first and second mouthpiece filters, while providing an internal tubular element includes providing first and second internal tubular elements that are installed at the respective first and second ends of a single filter element of the mouthpiece, while wrapping the first and second internal tubular elements is carried out simultaneously using one wrapping sheet located symmetrically relative to the center of the filter element of the mouthpiece to form initially the combined first and second outer tubulars, the method comprising cutting the combined outer tubulars and a mouthpiece filter element to separate the combined articles into first and second articles, gene aerosol.

Claims (27)

1. An aerosol generating article having a proximal end and a distal end and comprising: an inner tubular member comprising an inner wrap sheet surrounding a combustible heat source positioned proximate a distal end of the aerosol generating article; an outer wrap sheet for forming an outer tubular member of an aerosol generating article when rolled along a longitudinal axis, the outer wrap sheet comprising: a first edge containing a proximal portion and a distal portion, the proximal portion comprising a bonding section, the distal portion extending from the proximal portion at an acute angle with respect to the longitudinal axis. 2. An aerosol generating article according to claim 1, wherein the proximal portion of the first edge is parallel to the longitudinal axis. 3. An aerosol-generating article according to claim 1 or 2, wherein the outer wrap sheet further comprises a second edge opposite the first edge and comprising a proximal portion of the second edge and a distal portion of the second edge, wherein the first and second edges define the width of the sheet. 4. The aerosol generating article of claim 3, wherein the proximal portion of the second edge is parallel to the proximal portion of the first edge and has the same length. 5. An aerosol generating article according to claim 3 or 4, wherein the distal portion of the second edge is parallel to the distal portion of the first edge and has the same length. 6. Product that generates an aerosol, according to any one of paragraphs. 3-5, wherein the outer wrap sheet further comprises proximal and distal end edges extending between the first and second edges at their respective proximal and distal ends. 7. Product that generates an aerosol, according to any one of paragraphs. 3-6, in which a first region is defined by a portion of the sheet between the proximal part of the first edge and the proximal part of the second edge, and the first adhesive application pattern is applied to the first region, which contains an adhesive section. 8. An aerosol generating article according to claim 7, wherein the first adhesive application pattern is applied over the entire length of the first region. 9. Product that generates an aerosol, according to any one of paragraphs. 3-8, wherein the second region is defined by a portion of the sheet between the distal portion of the first edge and the distal portion of the second edge, wherein the second region is divided into a first region adjacent to the first edge and a second region adjacent to the second edge by a boundary line extending from the distal end edge to the first region, wherein the second adhesive application pattern is applied to the second region. 10. The aerosol generating article of claim 9, wherein the second adhesive application pattern is applied over the entire length of the second zone. 11. An aerosol generating article according to claim 9 or 10, wherein the boundary line is parallel to the distal portion of the first edge. 12. An aerosol generating article according to any one of the preceding claims, wherein the outer tubular member extends from the proximal end of the aerosol generating article towards its distal end. 13. An aerosol generating article according to any one of the preceding claims, wherein at least a portion of the inner tubular is wrapped with an outer wrap sheet. 14. An aerosol generating article according to any one of the preceding claims, wherein the adhesive section of the proximal portion of the first edge is adhesively bonded to the proximal end of the inner tubular member. 15. An aerosol generating article according to any one of the preceding claims, wherein the aerosol generating article further comprises an empty space. 16. The aerosol generating article of claim 15, wherein the inner wrap sheet comprises a compressible portion surrounding at least a void space. 17. A method for manufacturing an aerosol-generating article having a proximal end, a distal end, and a longitudinal axis, comprising the steps: providing an inner tubular member comprising an inner wrap sheet surrounding a combustible heat source positioned near a distal end of the aerosol generating article; providing an outer wrap sheet comprising a first edge having a proximal portion and a distal portion, the proximal portion including an adhesive section, the distal portion extending from the proximal portion at an acute angle relative to the longitudinal axis; wrapping at least a portion of the inner tubular element with an outer wrap sheet starting from a first edge of the outer wrap sheet; adhesive connection of the proximal part of the first edge with the inner tubular element by contacting the adhesive section with the proximal end of the inner tubular element; and wrapping the outer wrap sheet around the inner tubular element by rolling. 18. The method of claim 17, wherein the wrapping procedure comprises applying an outer wrap sheet using a rotating drum. 19. The method of claim 18, wherein the wrapping comprises rolling the inner tubular by means of a constriction between a rotating drum on which the outer wrap sheet is temporarily attached and a fixed guide plate, the outer wrap sheet wrapping around the inner tubular element while passing through the constriction. 20. The method according to any one of paragraphs. 17-19, including manufacturing a pair of aerosol generating articles end-to-end, including providing a single mouthpiece filter element having first and second ends corresponding to the initially combined first and second mouthpiece filters, while providing an internal tubular element includes providing a first and second internal tubular elements that are installed at the respective first and second ends of a single filter element of the mouthpiece, and the wrapping of the first and second inner tubular elements is carried out simultaneously using one outer wrap sheet located symmetrically relative to the center of the filter element of the mouthpiece to form initially combined first and second outer tubular elements wherein the method includes cutting the combined outer tubular members and the mouthpiece filter element to separate the combined articles into first and second aerosol generating articles.

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