Aerosol Generating Article

Abstract

An aerosol generating article. The article comprises a rod of aerosol generating material having a first end and a second end opposite to the first end, a filter attached at the first end of the rod, a paper wrap wound around the rod so as to provide an outer layer, and a non-ignitable insulation provided at the second end of the rod. The insulation is arranged to prevent ignition of the aerosol generating material at the second end, and the insulation allows transmission of microwave radiation such that the aerosol generating material at the second end can be heated by an external source of microwave radiation.

Claims

1. An aerosol generating article comprising: a rod of aerosol generating material having a first end and a second end opposite to the first end; a filter attached at the first end of the rod; a paper wrap wound around the rod so as to provide an outer layer; and a non-ignitable insulation provided at the second end of the rod, wherein the insulation is arranged to prevent ignition of the aerosol generating material at the second end, and wherein the insulation allows transmission of microwave radiation such that the aerosol generating material at the second end can be heated by an external source of microwave radiation.

2. The aerosol generating article according to claim 1, wherein the non-ignitable insulation is a sheet of ceramic material, arranged within the article so as to encircle a portion of the aerosol generating material at the second end of the rod.

3. The aerosol generating article according to claim 2, wherein the sheet of ceramic material has a thickness of between about 0.1 mm and about 0.5 mm.

4. The aerosol generating article according to claim 2, wherein the sheet of ceramic material is wound around the rod so as to encircle the portion of the aerosol generating material at the second end, and wherein the paper wrap is wound around the sheet of ceramic material such that the paper wrap encircles both the aerosol generating material and the insulation at the second end of the rod.

5. The aerosol generating material according to claim 1, wherein the non-ignitable insulation comprises one or more hollow ceramic cylinders, each cylinder surrounding a portion of the aerosol generating material at the second end of the rod.

6. The aerosol generating article according to claim 1, wherein the insulation extends a distance of between about 0.5 cm and about 1.0 cm along a length of the rod.

7. The aerosol generating article according to claim 1, wherein the aerosol generating material comprises tobacco, and the paper wrap comprises cigarette paper.

8. An aerosol generating system, comprising: an aerosol generating device having a heating chamber and a heater arranged to provide heat to the heating chamber, an aerosol generating article according to claim 1, engaged with the device such that at least a portion of the second end of the rod is inserted within the heating chamber, wherein the heater comprises a source of microwave radiation and is arranged to selectively provide microwave radiation to the article so as to heat the aerosol generating material in the article.

9. The aerosol generating system according to claim 8, wherein the heater is arranged to provide microwave radiation along the full length of the rod of the aerosol generating material.

10. A method of manufacturing an aerosol generating article, comprising the steps of: providing a rod of aerosol generating material; attaching a filter at a first end of the rod; providing a non-ignitable insulation at a second end of the rod; wrapping the rod, insulation and/or the filter with a paper wrap so as to form an outer layer, wherein the insulation is arranged to prevent ignition of the aerosol generating material at the second end, and wherein the insulation allows transmission of microwave radiation such that the aerosol generating material at the second end can be heated by an external source of microwave radiation.

11. The method according to claim 10, wherein the step of providing the non-ignitable insulation at the second end of the rod comprises: wrapping a portion of the aerosol generating material at the second end of the rod with a ceramic sheet, or positioning one or more hollow ceramic rings around a portion of aerosol generating material at the second end of the rod.

12. The aerosol generating material according to claim 5, wherein each of the one or more hollow ceramic cylinders has a radial thickness of between about 0.1 mm and about 0.5 mm.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0019] An example aerosol generating article will now be described by way of example with reference to the accompanying drawings, in which:

[0020] FIG. 1 schematically illustrates an example aerosol generating device in an assembled configuration.

[0021] FIG. 2 schematically illustrates the steps performed in an example aerosol generating article manufacture method.

DETAILED DESCRIPTION

[0022] An aerosol generating article 1 having a non-ignitable insulation 4 is generally illustrated in an assembled configuration in FIG. 1.

[0023] The aerosol generating article 1 comprises a rod of aerosol generating material 3 and a filter 5 attached at an end (the ‘filter end’) of the rod. A paper wrap 2 encircles and contains the aerosol generating material 3 and also partially or wholly the filter 5. Here, the aerosol generating article 1 is a ‘smoking article’, which is similar to a conventional cigarette, but which is intended for consumption using a heat-not-burn device. The rod of aerosol generating material 3 is therefore a rod comprising tobacco. In other examples, the aerosol generating article 1 can be a vapour generating device, such as an electronic cigarette, or alternatively the article can be a smoking article which employs other means than heat-not-burn techniques.

[0024] The aerosol generating article 1 further comprises a layer of non-ignitable insulation 4. In this example, the insulation 4 is a thin sheet consisting of non-flammable/ignitable material, in particular ceramic. The ceramic sheet layer is placed between the paper wrap 2 and the aerosol generating material 3, such that the sheet of insulation 4 encircles the aerosol generating material 3 at the position at which is it located. In this example the ceramic sheet is positioned at an end opposing the filter end, and extends along a length of the rod. In FIG. 1, dotted line 4a indicates the length which the ceramic sheet extends. In this example the distance between the distal end (i.e. end opposite the filter end) and the line 4a is about 0.5 cm. In other examples the dotted line 4a could be positioned at any point along the length of the article, for example it could be coincident with the joint between the rod of aerosol generating material 3 and filter 5 such that the insulation extends substantially along the full length of the rod. In other examples the insulation 4 can be positioned away from the distal end such that a portion of the rod is ‘exposed’ at the distal end. The size and position of the insulation layer 4 can be adjusted to provide differing effects. In other examples, the insulation 4 may be the outermost layer—i.e. the insulation 4 may encircle and surround both the aerosol generating material 3 and the paper wrap 2.

[0025] In use, at least a portion of the article 1 is heated by the application of heat from a heater, to volatilise an amount of aerosol generating material 3 thereby generating an aerosol. In some examples, an end of the rod 3 is heated in order to cause the aerosol generating material at the end to volatilise. Typically, a specified length of the rod is heated by heaters which are positioned proximal to that length. Typically, the article 1 is inserted into a heating chamber of an aerosol generating device.

[0026] More specifically, the article 1 is typically heated using a microwave heater. In use, the article 1 is radiated with microwave radiation. The ceramic insulation 4 allows the microwave radiation to pass and heat the aerosol generating material 3 encircled within. The aerosol generating material 3 is then heated to release an aerosol comprising the desired substance, which the user can inhale by drawing on the filter 5 at the filter end 5.

[0027] Whilst the aerosol generating material 3 will typically produce a gas or a solid and/or liquid suspension in gas when heated, it will be appreciated that the terms ‘vapour’ and ‘aerosol’ are generally used interchangeably here, and refer generally to the substance which is produced when the aerosol generating material 3 is heated.

[0028] Typically, the article 1 is inserted into a heating chamber of an aerosol generating device, such as an electronic cigarette. Such a device normally comprises a heater connected to a (rechargeable) power source which can be activated either by the user or upon detection of a user's draw through the article 1. In this case the heater is a microwave heater configured to emit microwave radiation to heat the aerosol generating material 3 in the article for heat-not-burn consumption. Typically the microwave heater will heat the aerosol generating material 3 at a temperature in the rage of about 200 to 350 degrees Celsius. The article 1 is normally shaped and sized such that at least a portion of the article 1 is complementary to the heating chamber of the aerosol generating device. In this case, the article 1 is substantially cylindrical in form and as such the heating chamber of the aerosol generating device is also generally cylindrical.

[0029] It should be understood that the electronic cigarette is an aerosol generation device which could equally be referred to as a “heated tobacco device”, a “heat-not-burn tobacco device”, a “device for vaporising tobacco products”, and the like, with this being interpreted as a device suitable for achieving these effects. The features disclosed herein are equally applicable to devices which are designed to vaporise any aerosol generating medium.

[0030] If a user mistakenly or otherwise attempts to light the distal end of the article 1, in order to consume the article as a traditional smoking article, the ceramic insulation 4 prevents the aerosol generating material 3 at the distal end from combustion. The portion which is covered by the insulation 4—i.e. the portion between the distal end and the dotted line 4a—cannot be accessed by an open flame and as such the article 1 cannot be consumed by the user as a traditional cigarette.

[0031] In addition to the abovementioned feature of preventing ignition, the insulation 4 creates an inner chamber within the article 1 which acts to contain heat energy in the inner volume of the insulation 4. As such, when the aerosol generating material 3 is heated, the heat energy is generally contained within the inner chamber created by the insulation 4 meaning less heat energy is dissipated or wasted to the surroundings. In other examples where the insulation 4 is not cylindrical or where it forms a different shape, the insulation 4 can still provide heat-containing characteristics to improve heat conduction within the article 1 when heated.

[0032] The aerosol generating article 1 described above can be manufactured in an integrated process. The flow diagram of FIG. 2 schematically illustrates an example method for manufacturing such an aerosol generating article 1. In a first step 10, aerosol generating material is provided. In this case, a rod of tobacco is provided to be integrated into the article 1. Then, a filter is positioned at one end of the rod. The filter can be affixed to the rod of aerosol generating material by means of a plug wrap in order to attach the filter. The non-ignitable insulation is then provided in the form of a thin ceramic sheet. The rod of aerosol generating material and/or the filter can be placed on to the ceramic sheet, or vice-versa. Then, the rod is wrapped for example by wrapping the ceramic sheet around the rod, and then encasing with a paper wrap, or by overlaying a paper wrap on top of the ceramic sheet and then wrapping the ceramic and paper at the same time over the rod of aerosol generating material. The paper wrap may be provided from a continuous roll of paper wrap positioned on a bobbin and then cut to size to encircle the article 1. Similarly, the ceramic sheet may also be provided as a continuous roll of ceramic sheet which is positioned on a bobbin and then spun out as required to be integrated within the article 1.