There is provided an aerosol generating device for use with a heat source and an aerosol-forming substrate. The aerosol generating device comprises an elongate body extending between an upstream end and a downstream end, the elongate body having an upstream recess for receiving an aerosol-forming substrate and a heat source. The aerosol generating device further comprises an annular cutting edge disposed at the upstream end of the upstream recess. The aerosol generating device further comprises an ejection element disposed within the elongate body, the ejection element being movable between a first position and a second position, the ejection element extending further into the upstream recess in the second position than in the first position. There is further provided a pack for use with the aerosol generating device.

A combustible heat source for an aerosol-generating article, the combustible heat source comprising: carbon; an alkaline earth metal peroxide ignition aid; and a binding agent comprising at least one non-cellulosic film-forming polymer.

A combustible heat source for an aerosol-generating article, the combustible heat source comprising: carbon; an alkaline earth metal peroxide ignition aid; and a binding agent comprising at least one non-cellulosic film-forming polymer.

A technique which, while avoiding excessive conduction of heat to the flavor source, reduces variance of heat conduction, and which makes it possible to reduce the weight and the cost of the flavor inhaler is disclosed. A flavor inhaler which, provided with a cylindrical holding member extending along a prescribed direction from a lighting end to a non-lighting end, includes a combustion-type heat source disposed at the lighting end, a flavor source which, in the prescribed direction, is arranged towards the non-lighting end with respect to the combustion-type heat source, and a cup-shape cup member which holds the flavor source and has a side wall and a bottom plate. The cup member is arranged with the bottom plate thereof disposed towards the non-lighting end with respect to the combustion-type heat source, and is inserted into the holding member oriented so as to open towards the lighting end or oriented so as to open towards the non-lighting end, and at least the side wall and the bottom plate configuring the cup member are configured from a material containing pulp, a binder and a metal soap.

A technique which, while avoiding excessive conduction of heat to the flavor source, reduces variance of heat conduction, and which makes it possible to reduce the weight and the cost of the flavor inhaler is disclosed. A flavor inhaler which, provided with a cylindrical holding member extending along a prescribed direction from a lighting end to a non-lighting end, includes a combustion-type heat source disposed at the lighting end, a flavor source which, in the prescribed direction, is arranged towards the non-lighting end with respect to the combustion-type heat source, and a cup-shape cup member which holds the flavor source and has a side wall and a bottom plate. The cup member is arranged with the bottom plate thereof disposed towards the non-lighting end with respect to the combustion-type heat source, and is inserted into the holding member oriented so as to open towards the lighting end or oriented so as to open towards the non-lighting end, and at least the side wall and the bottom plate configuring the cup member are configured from a material containing pulp, a binder and a metal soap.

An aerosol-generating article is provided, including: an aerosol-generating substrate including a homogenised star anise material including star anise particles, an aerosol former, an exogenous binder, and up to 15 percent by weight of fibres, on a dry weight basis; at least 70 micrograms of (E)-anethole per gram of the substrate, on a dry weight basis; at least 50 micrograms of epoxyanethole per gram of the substrate, on a dry weight basis; and at least 130 micrograms of benzyl isoeugenol ether per gram of the substrate, on a dry weight basis, and the fibres have lengths of greater than 400 micrometres. An aerosol-generating substrate, an aerosol-generating system, and a method of making an aerosol-generating substrate are also provided.

The invention relates to a conveying system comprising a conveyor rail configured for conveying heat sources for aerosol-generating articles. The system further comprises a heat source detector configured to detect heat sources conveyed by the conveyor rail. The system further comprises a moving actuator. The moving actuator is configured to move the conveyor rail in a direction perpendicular to the conveying direction. The moving actuator is configured to move the conveyor rail if the heat source detector detects absence of heat sources for a predetermined time.

The invention relates to a conveying system comprising a conveyor rail configured for conveying heat sources for aerosol-generating articles. The system further comprises a heat source detector configured to detect heat sources conveyed by the conveyor rail. The system further comprises a moving actuator. The moving actuator is configured to move the conveyor rail in a direction perpendicular to the conveying direction. The moving actuator is configured to move the conveyor rail if the heat source detector detects absence of heat sources for a predetermined time.

There is provided an aerosol generating article (2) comprising a combustible heat source (4) having an upstream portion and a downstream portion. The aerosol generating article further comprises an aerosol-forming substrate (10) downstream of the heat source (4) and a wrapper (36) circumscribing an upstream portion of the aerosol-forming substrate (10) and the downstream portion of the combustible heat source (4). The aerosol generating article (2) further comprises a non-combustible coating (42) provided on the upstream portion of the combustible heat source (4) and not on the downstream portion of the combustible heat source (4), the non-combustible coating having a thickness of between about 30 micrometres and about 250 micrometres.

There is provided an aerosol generating article (2) comprising a combustible heat source (4) having an upstream portion and a downstream portion. The aerosol generating article further comprises an aerosol-forming substrate (10) downstream of the heat source (4) and a wrapper (36) circumscribing an upstream portion of the aerosol-forming substrate (10) and the downstream portion of the combustible heat source (4). The aerosol generating article (2) further comprises a non-combustible coating (42) provided on the upstream portion of the combustible heat source (4) and not on the downstream portion of the combustible heat source (4), the non-combustible coating having a thickness of between about 30 micrometres and about 250 micrometres.