WO2021249833A1 - Procédé et système d'identification d'articles de génération d'aérosol - Google Patents

Procédé et système d'identification d'articles de génération d'aérosol Download PDF

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Publication number
WO2021249833A1
WO2021249833A1 PCT/EP2021/064719 EP2021064719W WO2021249833A1 WO 2021249833 A1 WO2021249833 A1 WO 2021249833A1 EP 2021064719 W EP2021064719 W EP 2021064719W WO 2021249833 A1 WO2021249833 A1 WO 2021249833A1
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WO
WIPO (PCT)
Prior art keywords
article
aerosol
indicium
layers
generating
Prior art date
Application number
PCT/EP2021/064719
Other languages
English (en)
Inventor
Patrick Debergh
Original Assignee
Jt International S.A.
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Jt International S.A. filed Critical Jt International S.A.
Priority to JP2022576045A priority Critical patent/JP2023528685A/ja
Priority to EP21730188.6A priority patent/EP4164436A1/fr
Publication of WO2021249833A1 publication Critical patent/WO2021249833A1/fr

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Classifications

    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/50Control or monitoring
    • A24F40/51Arrangement of sensors
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/50Control or monitoring
    • A24F40/53Monitoring, e.g. fault detection
    • AHUMAN NECESSITIES
    • A24TOBACCO; CIGARS; CIGARETTES; SIMULATED SMOKING DEVICES; SMOKERS' REQUISITES
    • A24FSMOKERS' REQUISITES; MATCH BOXES; SIMULATED SMOKING DEVICES
    • A24F40/00Electrically operated smoking devices; Component parts thereof; Manufacture thereof; Maintenance or testing thereof; Charging means specially adapted therefor
    • A24F40/20Devices using solid inhalable precursors

Definitions

  • the present invention relates to the field of tobacco, in particular to reconstituted tobacco as well as aerosol-generating articles.
  • the present invention further relates to smoking devices, especially to an electrically heated e-liquid system or an electrically heated aerosol-generating system.
  • Heated tobacco inhaler devices are referred to as “heat-not-burn” systems (HNB). They provide a more authentic tobacco flavour compared to electronic cigarettes, which deliver an inhalable aerosol from heating of a liquid charge comprising aerosol formers, flavorants, and often nicotine.
  • the HNB system s working principle is to heat a tobacco material comprising an aerosol-forming substance (such as glycerine and/or propylene glycol) which vaporises during heating and creates a vapour that extracts nicotine and flavour components from the tobacco material.
  • the tobacco substance is heated to between 200 and 350°C, which is below the normal burning temperatures of a conventional cigarette.
  • the inhaler device is typically a hand-held heater, which is configured to receive rod-shaped consumable articles.
  • Illicit trade of aerosol-generating articles is a problem, as counterfeit articles in particular may be of inferior quality or, may not be suited to a specifically dedicated aerosol generating system.
  • a code or equivalent marking containing information about the article may be arranged onto an outer surface of the article, for it to be detected in use or prior use with a certain device. This allows to check for authenticity of the consumable article and in case of negative check, to provide an appropriate control, such as to power off the heating system with which it is used.
  • WO201 9185749 discloses an aerosol generating apparatus having a cavity for receiving an article (such as aerosol-generating consumable article).
  • the article has marker elements arranged in the form of lines on its outer surface.
  • the marker elements consist of an encoded parameter associated with the article.
  • the apparatus includes a sensor arrangement to monitor the marker elements (such as indicium) after the article has been inserted in the cavity, i.e. when the article does not undergo any movement anymore .
  • the apparatus comprises an optical sensor arrangement and a non-optical sensor arrangement such as capacitive sensor to monitor the presence of these markers. Due to lack of space only simple markers can be arranged over a small length , limited to low density information.
  • WO2017207442A1 discloses a tubular aerosol-generating article, marked with an identifier.
  • the identifier is arranged on the inner surface of the article or can be anywhere.
  • the tubular aerosol generating article comprises a mouthpiece, a proximal end and a distal end configured to receive the heating portion of the main unit.
  • the identity of the tubular aerosol-generating article comprises a sensor system and the detection is done by optical scanner and electric circuitry.
  • the system disclosed in WO2017207442A1 is limited to either a variation of an intensity or change of electrical current or resistive information when a stick has been introduced. For example, the system may detect a single resistance value that may be compared by values stored into a lookup table. Therefore, the system is limited to low density codes and would be easy to reproduce.
  • WO2019129378A1 discloses an inhaler for heated cigarette rods
  • Imaging optics to detect complex codes require most often complex or voluminous optical paths and optical parts, which lead to devices that are too heavy or which have unacceptable dimensions. Also, the use of chemicals, in the form of liquids or gases, to realize indicia have to be avoided during the manufacturing process of a consumable article.
  • the inventors of the present invention have found solutions to the above-discussed problems by providing an authentication method that simplifies the detection system required to detect indicia, by using the insertion movement of an aerosol-generating article into an aerosol-generating device.
  • the invention profits of the insertion movement of a consumable article into an aerosol- generating device, which is a movement that has to occur anyhow at consumption of an article.
  • the invention is achieved by a method to identify coded information arranged on an aerosol-generating consumable article.
  • the article defines an insertion direction Z and comprises at least one indicium containing coded information about the article arranged on or inside said article; the aerosol generating device comprising a heating cavity arranged for insertion of the article along the insertion direction and comprising an indicium detection system .
  • the method comprises the steps of: detecting said coded information in said indicium by the indicium detection system upon insertion of said aerosol-generating article in the cavity as the article moves in or through the cavity of said aerosol generating device, in particular during the lapse time of the movement of insertion of the of said aerosol-generating article in the cavity.
  • the detection may require the movement of insertion being an accelerated movement or a movement having a constant speed.
  • By detecting an indicium during the introduction movement of a coded indicium allows to use an indicium that may have a considerable length on a consumable. This allows to provide a distributed code that may be read by a simple and non-voluminous detector system that is arranged in a reduced space next to or along a cavity of an aerosol-generating device
  • the indicium may have a length that is much larger than the width of the detection area defined at a surface of a consumable.
  • optical sensors with relatively narrow field of view to detect the markers can be used or optical sensors that do not require focusing or redirecting optical elements, e.g. micro lenses or mirrors.
  • the indicium is made of an array of optical layers arranged in the insertion length of the article.
  • the layers may be aligned along a line parallel to the insertion direction.
  • the layers are separated by a distance which may be constant or variable between neighbouring layers.
  • the layers :
  • - may have different lengths
  • - may be crossing layers having an overlapping area; - may have any shape , defined in the plane of the layer, preferably a shape defined by a polynomial, such as a triangle, a pentagon, an ellipse, or an oblong shape; may comprise at least two branches, such as a layer having a Y shape; - comprise at least one aperture that may be a through aperture extending from one side of the layer to an opposite side;
  • - may be a layer that overlaps, over a certain length, another layer
  • variable width may be a series of continuous or discontinuous steps arranged over at least a portion of its length.
  • the indicium detection system may comprise several optical detectors. Using more than one indicium layer allows to enhance the authentication detection probability of a consumable.
  • indicia may be arranged in different orientations which must not be necessarily the direction of the insertion of an article.
  • the insertion length of the article corresponds to the longitudinal direction of extension of the article. If the article is a rod-shaped article, the longitudinal direction is the central axis of the article.
  • At least two of said optical layers have different optical transmission or reflection properties.
  • Such layers must not be parallel layers and may present an angle relative to each other.
  • the layers may also be crossing layers or layers arranged in a matrix arrangement, or layers that are arranged according to a helicoidal arrangement over a length on the circumference of an article.
  • an indicium or indicium layer may be made of an array of electrically conductive layers arranged in the length of said insertion direction Z and wherein said indicium detection system comprises at least one electrical detector. Similar detection methods as the ones used in the case of optical detection schemes may be applied, such as the use of conductive conical shaped indicia.
  • said conductive layers are metallic layers. Thin metallic layers such as thin wires may be easily integrated in an article. These layers may be arranged for example as an array of metallic wire parts. Metallic wires or layers may have a rigidifying function. Because of their rigidity metallic wires or layers may be easily introduced into the article for example in glue or bond or as separation layers on an article.
  • said conductive layers are conductive ink layers. Applying conductive ink layers may be applied by deposition that are easily adaptable to the manufacturing of articles. For example, the ink layers are deposited as thin metal film onto the surface of the article by evaporation under vacuum. Using ink layers allow to provide bar-code type indicia which may be read sequentially in the insertion direction of an article during its insertion in an aerosol-generating device. In variants, glue or seam or bond layers may comprise conducting dopants or particles to provide an at least partial electrically conductive property to the layer.
  • said conductive layers may be layers made of intrinsic conducting polymers (ICP). This allows to provide conductive layers that do not contain metallic compounds or metallic particles. In variants, different types of conductive layers may be implemented on or into the same consumable article 1.
  • ICP intrinsic conducting polymers
  • the detection may be based on the detection of electrical and/or magnetic properties of the indicium.
  • Electrical detection methods may be based on the detection or measurement of a capacitance, an inductance, or a resistance. Using electrical and/or magnetic detection of a moving indicium is simpler than optical detection because it requires less space.
  • the detector is configured to detect an electrical capacitance and/or an inductance effect between said conductive layers and said electrical detector.
  • a method to detect and measure electrical effects provided by an indicium one may provide simpler detection than optical detection, as they are less sensitive to surface contaminations.
  • optical detection may be combined with electrical detection.
  • said indicium detection system comprises more than one electrical detector and more than one optical detector.
  • said electrical detector is configured to detect an electrical resistance between said conductive layers and said electrical detector.
  • the electrical detector contacts the indicium for the detection of a resistance.
  • the electrical contacts may be flexible to ensure increased adaptability between the article and the detection system.
  • the indicium is made of an array of magnetic layers arranged in the length of said insertion direction Z, and wherein said indicium detection system comprises at least one magnetic detector configured to detect a magnetic field generated by said magnetic layers.
  • said indicium detection system comprises at least one magnetic detector configured to detect a magnetic field generated by said magnetic layers.
  • said article comprises an indicium made of at least a first and a second array of detectable layers that are parallel and extending in said the insertion direction Z.
  • the signals provided by each of the first and second arrays of detectable layers provide at least two signals S1 , S2 that may be detected by a single detector or a plurality of detectors.
  • a first detector is configured to provide a first signal S1 and a second detector is configured to provide a second signal.
  • said at least a first and a second array of detectable layers may be layers that present an angle relative to each other and may be crossing layers.
  • the signals S1 , S2 provided by each of the first and second arrays of detectable layers are detected by at least one optical detector and are superposed to provide a superposed signal S3 that provides a unique identification code identifying the aerosol-generating consumable article.
  • said indicium may comprise at least one electrically detectable layer and at least one optically detectable layer, both layers being separately arranged in parallel along the insertion direction Z, said indicium detection system comprising at least one electrical detector and at least one optical detector.
  • additional information on the article may be retrieved during the movement of withdrawal of the article 1 out of said aerosol-generating device.
  • an aerosol-generating device comprising, arranged in an outer body, a power supply section and a heating cavity, said body having an opening accessible at the outer body and being configured to receive a consumable article defining an insertion direction Z.
  • the heating cavity defines a cavity axis that is parallel to the insertion direction.
  • the aerosol-generating device further comprises an indicium detection system configured in the device to detect said readable code optically and/or electrically upon the insertion of said article in the cavity as said article moves through the cavity, Preferably the movement is executed from a proximal end to a distal end thereof.
  • the detection system may comprise a single detector and may comprise a slit arranged in front of the detector, allowing to provide a simple detection system that relies on the detection of varying optical and/or optical effects, such as varying light intensities provided by the passing of the indicium in front of the detector system.
  • the detector system comprises an imaging system to provide an image of the indicium or a portion of it while it passes in front of the detection system at the introduction of the consumable article in the aerosol-generating device.
  • the detector is an electric and/or magnetic detector and is configured to detect and/or measure the value or variation of: an electrical capacitance, an inductance a magnetic field, a resistance, an electric field, an electrical potential, an electrical current, a micro-electrical discharge.
  • the device comprises a microwave source and the detector is a microwave detector.
  • an aerosol-generating article for aerosol generating device comprising a cavity; the article defining an insertion direction Z and comprising at least one indicium containing coded information about the article, said indicium being arranged in the insertion direction Z, for being read by an indicium detection system of an aerosol-generating device upon insertion of said aerosol-generating article in the cavity as the article moves in or through the aerosol-generating device.
  • the article comprises different types of layers as described above.
  • a first layer is optical detectable
  • a second layer is electrically detectable by said detection system.
  • an optical detection signal may be provided, in function of time, before or after an electrical detection signal.
  • a layer is made of a fist layer comprising a plurality of first layer elements and a second layer comprising a second array of second layer elements.
  • the layer may be arranged as a sequence of successive first and second layer elements.
  • said first layer and said second layer are arranged on a common longitudinal axis, or in parallel in contact or in close proximity.
  • said first and/or second layer is partially optically detectable and partially electrically detectable.
  • the invention is also achieved by an aerosol-generating system comprising said aerosol-generating device and the at least partially inserted aerosol-generating article.
  • Figure 1 shows a schematic representation of an embodiment of an aerosol-generating article and an aerosol-generating device of the invention.
  • the device comprises an optical system to detect an elongated indicium during the insertion movement V of an article in a device;
  • Figures 2 illustrates a typical signal provided by a detection system of the device. The signal varies in function of the time of insertion and is provided by at least one detector that detects information provided by optical or non-optical effects provided by an indicium or array of indicia arranged on an article;
  • Figure 3 illustrates an article comprising at least two indicia that are detected, at least partially during the insertion of an article into a device;
  • Figures 4 and 5 illustrate typical signals provided by an indicium during the insertion movement of an article.
  • the indicium comprises at least two different indicia detected and identified during the insertion of an article into a device;
  • Figures 6 illustrates an article having a distributed indicium comprising a plurality and possibly different indicium elements, in particular detectable by different detection means e.g. electrical and optical detectors;
  • Figures 7 illustrates a detailed view of the superposition of two signals as provided by an embodiment of an article as illustrated in Figure 3 .
  • the figure illustrates that the shape of the superposed signals is independent of the acceleration of the insertion movement of an article into a device;
  • Figure 8 shows a wedge-shaped indicium according to the invention
  • Figure 9 illustrates a two-dimensional indicium comprising two orthogonal codes and the corresponding signals provided by the two orthogonal codes.
  • a first code is a bar-like code arranged along the insertion direction of an article and the second code is realized by the detection of the variation of the width or thickness of the indicium;
  • Figure 10 illustrates an indicium realized on a substrate layer.
  • the figure illustrates that indicia elements may have different heights or widths or lengths, said height being defined in a radial direction orthogonal to the insertion direction of the article;
  • Fig.11 illustrates an indicium comprising incoupling structures and outcoupling structures, the indicium being realized on a layer that has waveguiding properties.
  • the figure illustrates also the incoupling and outcoupling of a light beam into and out the indicium layer.
  • aerosol-generating consumable articles such as smoking articles, heat-not- burn articles, e-liquid cartridges and cartomizers, which comprises an aerosol generating substrate capable to generate an inhalable aerosol upon heating.
  • Aerosol-generating articles 1 of the invention are also defined herein as articles or consumables or consumable articles.
  • aerosol-generating material refers to a material capable of releasing upon heating volatile compounds, which can form an aerosol.
  • the aerosol generated from aerosol-generating material of aerosol generating articles described herein may be visible or invisible and may include vapours (for example, fine particles of substances, which are in a gaseous state, that are ordinarily liquid or solid at room temperature) as well as gases and liquid droplets of condensed vapours.
  • Detailed composition of the aerosol generating substance may be tobacco, aerosol formers, binders, flavouring agents, nicotine and combinations thereof.
  • An aerosol-forming substrate may be provided in a stable support. Such a support may be in the form of a powder, granules, strands, small strips, sheets or foam.
  • the term “wrapper” is defined broadly as any structure or layer that protects and contains a charge of aerosol-generating material, and which allows to handle them.
  • the wrapper 3 may preferably comprise a cellulose based material such as paper and/or cellulose acetate.
  • the wrapper 3 may also be made of a biodegradable polymer or may be made of glass or a ceramic, and/or cellulose acetate.
  • the wrapper 3 may be a porous material and may have a smooth or rough outer surface 5 and may be a flexible material or a hard material.
  • the manufactured aerosol-generating consumable article 1 may have a cross section of any regular or irregular shape, and can have, for example, an elliptical or circular cross-section, defined in a plane orthogonal to a longitudinal axis.
  • the term “indicium” is a broad term that encompasses any layer or structure or element or configuration or layer or any geometrical and/or physical and/or or chemical property that may be used to identify the aerosol generating article.
  • the indicium is meant to be an element applied to or part of the aerosol-generating article that has the ability to de detected or read by a detection device for providing a signal of analog or digital form.
  • the indicium of the invention is particularly configured to be readable during the introduction movement of the indicium in a device, by passing typically in front of or next to a detector system 100. It is understood that the indicium may comprise also additional information that is read when the indicium is not in movement, for example when an article has been introduced into a device and before, during or after its consumption.
  • Information in the indicium may be encoded in digital (e.g. binary) or analog manner.
  • an optical effect encompasses any of: a colour, an intensity, a polarisation, a spectral, an interferometric, a transmission, a deviation or a reflection effect.
  • the invention is achieved by a method to identify coded information arranged on an aerosol-generating consumable article 1.
  • the article 1 defines an insertion direction Z and comprises at least one indicium 10 containing coded information about the article 1 arranged on or inside said article 1.
  • the method comprises the steps of: inserting the aerosol-generating article along the insertion direction Z in a heating cavity 200 of an aerosol-generating device 2 for receiving an aerosol generating consumable article 1 said aerosol-generating device 2 comprising an indicium detection system 100; detecting said coded information in said indicium 10 by the indicium detection system during the movement of insertion of said aerosol-generating article 1 into the heating cavity 200 of said aerosol-generating device 2 from a proximal end 2a of the cavity 200 to a distal end 2b of the heating cavity 200.
  • a movement of the aerosol-generating article may be realized after the full insertion of the article in said cavity.
  • the movement may be, for example, any back-and-forward movement of the aerosol-generating article after it has been inserted in the cavity 200.
  • the detection of the indicium 10 is realized by any optical and/or electrical effect as defined before.
  • the detection of the indicium 10 is fully finished when the aerosol-generating article 1 does not move anymore. In variants additional information on the article 1 may be retrieved during the movement of withdrawal of the article 1.
  • Indicia 10 may have a continuous shape ( Figure 8, 10) in the length of an article or may be arranged according to a plurality of indicia elements 11-17 (Fig.1, 3, 6, 10)
  • said indicium 10 is made of an array of optical layers arranged in the length of said insertion direction Z, and wherein said indicium detection system 100 comprises at least one optical detector 130, 140 .
  • a detector system 100 may comprise two different detectors.
  • at least one of said two detectors 130,140 may be a non-optical detector.
  • a first detector is an optical detector and a second detector is an electrical detector, e.g. a capacitive, inductive or resistive detector.
  • Layers that may be used as a code or a support of an indicium 10 are advantageously chosen amongst article layers such as one of: glue layers, bond, seam, separation layers, joining layers, overlapping layers.
  • a layer may have also a single function as support layer of an indicium or array of indicia.
  • indicia 10 are realized onto or into layers that may have typically one of the functions of: - joining or adhesion;
  • Indicia may also be arranged on parts or inserts or layers that are incorporated into or onto an article for the mere purpose of proving an indicium.
  • a layer of an article may be used as an indicium 10.
  • typical manufacturing layers of an article 1 such as a paper wrapper or a glue layer, may be manufactured so that they conform to a predetermined shape, such as a triangular shape that may be identified during the introduction of an article in a device.
  • the shaped part of such a layer may thus be used as an indicium 10 without requiring an added indicium layer onto or into an article 1.
  • an indicium 10 may be formed by at least two straight lines or stripes that are arranged according to an angle relative to a longitudinal axis of an article 10.
  • an indicium 10 may comprise two thin lines or strips that are separated by a small distance or be in contact at the side of the consumable portion of an article, and having a greater separation at the side to the mouthpiece of an article.
  • Such lines or stripes may have a curved shape and/or have a variable width.
  • Said at least two straight lines or stripes may have an angle relative to each other or may even be crossing lines or stripes.
  • an indicium may comprise two thin lines that present a relative angle of less than 10°, preferably less than 5°, which is difficult to detect by the un-aided human eye.
  • Such variant can also be combined with the embodiment of Fig.8, further described, that comprises an additional longitudinal code, possible a bar code extending in the length of said two lines or strips.
  • the layers 10 may have at least one of the following characteristics:
  • - layers may comprise different parts having different lengths
  • a layer may overlap, at least partially, another layer that is also used as indicium 10; layers may have any 2D and/or 3D shape , the 2D shape being defined in the plane of the layer.
  • a shape is defined by a polynomial, such as a triangle, a pentagon, an ellipse, or an oblong shape;
  • - layers may comprise at least two branches, such as a layer having a Y shape; - layers comprise at least one aperture that may a through aperture extending from one side of the layer to an opposite side;
  • variable width may be a series of continuous or discontinuous steps arranged over at least a portion of its length.
  • Indicia 10 may also be formed by a chemical treatment of a portion of a layer of a consumable 1. For instance, a predetermined surface area of a wrapper may undergo a chemical etching or vapor deposition this partially etched or vapor deposited area may serve as an indicium 10. For example, etching may be used to realize a seam layer that has a variable width along a length of an article so that it may be detected when the article is introduced along a central axis 204 of a cavity of a device.
  • indicia 10 may be formed by a thickened predetermined area of a surface of an article 1 .
  • an indicium 10 may be formed by at least two optical or electrical layers 10, 10’ that have different optical transmission or reflection properties, or different electrical properties.
  • said indicium 10 is made of an array of successive conductive layers arranged in the length of said insertion direction Z and wherein said indicium detection system 100 comprises at least one electrical detector 110.
  • said conductive layers are metallic layers.
  • the layer is a graphite layer or a conductive ink layer.
  • a layer of an article may have a directional conductivity.
  • the conductivity may be different in two orthogonal directions. This may be realized for example by directional doping of the layers.
  • said conductive layers are conductive ink layers 10.
  • said conductive layers may be layers made of intrinsic conducting polymers (ICP). This allows to provide conductive layers that do not contain metallic compounds or metallic particles.
  • ICP intrinsic conducting polymers
  • different types of conductive layers may be implemented on or into the same consumable article 1.
  • said electrical detector is configured to detect at least electrical capacitance between said conductive layers and said electrical detector.
  • said electrical detector is configured to detect at least electrical inductance generated between said conductive layers 10 and said electrical detector.
  • an electrical detector 100 of the invention is configured to detect at least an electrical resistance between said conductive layers 10 and said electrical detector.
  • said indicium 10 is made of an array of magnetic layers 10 arranged in the length of said insertion direction Z, and wherein said indicium detection system 100 comprises at least one magnetic detector configured to detect a magnetic field generated by said magnetic layers.
  • said indicium 10 is made of at least a first array 10’ and a second array 10” of detectable layers that are both extending along or parallel to said insertion direction Z.
  • the signals S1 , S2 provided by the optical or electrical effect each of said at least a first array 10’ and a second array 10” of detectable layers are detected by at least one detector 110, 110’ and are superposed to provide a superposed signal S3 that provides a unique identification code identifying the aerosol-generating consumable article 1.
  • Said detector 110, 110’ may be an optical or electric or magnetic sensor but may also be a sensor that is configured to measure optical and electrical effects at the same time.
  • a sensor may detect a polarisation state and at the same time be configured as a Faraday effect sensor wherein the polarisation state changes upon an induced current, for example induced in a metallic layer or wire.
  • Fig.7 illustrates a detailed view of two superposed signals S1 , S2.
  • the signal shape of the superposed signal S1 +S2 presents a unique shape which is independent of the acceleration of the insertion movement of an article, as may be seen by comparing the shapes of the signal S1 +S2 at speeds different V1 and V2 as illustrated in Fig. 7.
  • the shape of the signal S1 +S2 at a speed V2, which is greater than the speed V1 is identical. For example, even if the introduction movement of the article in a device is an accelerated movement, it is still possible to determine the over-all shape of the superposed signal S1 +S2 , for example by counting the number of peaks and valleys.
  • detector schemes may be implemented to detect and correct for sudden backward movement , i.e. in the -Z direction, i.e. away from the end 2b of the cavity 200.
  • Such correction techniques are well known in the field of rotational or linear encoders and are not further described here.
  • said indicium detection system 100 comprises at least one electrical detector 130 and at least one optical detector 140.
  • said indicium 10 comprises at least one electrical detectable layer 10a and at least one optical detectable layer 10b, both layers being arranged along or parallel to said insertion direction Z, said indicium detection system 100 comprising at least one electrical detector 130 and at least one optical detector 140.
  • said indicium 10 comprises at least two different optical detectable layer 10a, 10b and the two detectors 130, 140 are different optical detectors.
  • a detector 130, 140 may be detector comprising a color filter or an interference filter.
  • an optical detection system 100 may comprise optical means to measure spectral characteristics, such as a spectrometer or refractive or diffractive dispersion elements.
  • An optical detection system may comprise mirrors to send collected light to a detector 130, 140 that is placed at a distance to the portion of the layer that provides optical information such as its spectral characteristic.
  • a detector may be arranged to a distal end 2b of the cavity 200.
  • the indicium may be made so that it comprises at least two codes that may be codes that have a predetermined angle.
  • Fig.8 illustrates a conical shaped indicium that has a varying width.
  • a code such as a bar-code
  • the code may be complexified by adding information on the variation of the width of the indicia, as illustrated schematically in Fig.8.
  • an indicium may have a wedge shape and at least one of its sides may comprise step structure such as illustrated in the example of Fig.9.
  • Fig.9 illustrates how a first signal Sz may be provided in relation with the longitudinal distribution of code elements 1001, 1004, 1007, 1010 of the indicium 10.
  • Fig.9 shows exemplary signals Sz1, Sz4, Sz7, Sz10 corresponding to longitudinal-oriented code elements 1001 , 1004, 1007, 1010.
  • the variations of the widths of the steps of the indicium may provide an addition signal Sy, which maxima area aligned with the centre of the steps as illustrated in Fig.9.
  • Sy which maxima area aligned with the centre of the steps as illustrated in Fig.9.
  • the sum of the signals Sx related to the longitudinal code elements and the signals Sy related to the information on the variation of width or presence of steps constitute a code signal S1+S2 that comprises much more information than simpler codes such as the one illustrated in Fig.1.
  • indicia elements may be provided, such as illustrated in Fig. 10.
  • the indicia elements are positioned in an array in the direction of direction Z, e.g. parallel to the longitudinal axis of the article as illustrated in Fig. 10.
  • the thickness of each element is determined orthogonally to the insertion direction Z or to a tangent to the surface of the article, e.g. radial to the surface of a rod-shaped article.
  • indicia elements 11 - 19 may be realized directly into the material of the layer 20.
  • Indicia may be realized inside or onto at least one side of the material of the layer 20 for example by a pressing tool during the manufacturing of an article.
  • the thickness may also vary between two parallel arrays of layers. For example, a first array may have layers with first thicknesses t1, t2, t3 and the second array have layers with second thicknesses t4, t5, t6.
  • Fig.11 illustrates an indicium that is made of a layer that is configured to provide internal reflected light, similar to the reflection inside a prism or a pentaprism. This allows to provide signals that depend on the way an article is introduced in a device, for example it may provide information on the depth of introduction of an article in a cavity 200.
  • the light source 300 and the detector system 100 in the embodiment of Fig.11 may be configured so that it detects a layer 10 arranged at the distal end of an article. For example, as long as the distal end comprising the layer does not provide a signal to the detector 110, the device 2 may not allow to trigger the start of use of the device 2.
  • indicia 10 of the invention may have optical properties such as light focusing, light diverging properties.
  • indicia may provide a signal related to changes of color, polarization and optical scattering effects, or a combination of such optical effects.
  • image processing techniques in the invention may be simple contrast enhancing techniques or very advanced. Image processing methods such as used in any high security detection systems, for example as used in banking or in fingerprint recognition.
  • 2D and/or 3D imaging may be used to detect and interpret the information imbedded in the indicium 10.
  • 3D imaging techniques may be used to detect the height variations of indicia elements, such as the elements 11-19 illustrated in Fig.10.
  • optical depth probes may be applied to detect the indicia.
  • Such probes are optical devices that provide information on a depth or a depth profile of a structures, here an indicium structure.
  • interferometric optical techniques may be used in the detection system 100, 100’ of the invention.
  • Image processing comprising feature extraction techniques are well known in the field of 2D and 3D image processing and are not further described here. It is referred therefor to the following publications that are incorporated herein in their entirety:
  • an aerosol-generating device 2 comprising, arranged in an outer body a power supply section (not illustrated) and a cavity 200 defining a cavity axis 204, said body having an opening accessible at the outer body and being configured to receive a consumable article 1 defining an insertion direction Z.
  • the aerosol-generating device 2 further comprises an indicium detection system 100 configured arranged in the device 2 to detect said readable code optically and/or electrically during the insertion movement of said article 1 into said cavity 200 from a proximal end 2a to a distal end 2b thereof.
  • an aerosol-generating article 1 defining an insertion direction Z and comprising at least one indicium 10 containing coded information about the article 1 , said indicium 10 and said coded information being arranged along or parallel to said insertion direction Z for being readable by an indicium detection system 100 of an aerosol-generating device 2 during the movement of insertion of said aerosol-generating article 1 into said aerosol-generating device 2.
  • an aerosol-generating system comprising an at least partially inserted aerosol-generating articles 1 and said aerosol-generating device 2.

Landscapes

  • Inspection Of Paper Currency And Valuable Securities (AREA)

Abstract

L'invention concerne un procédé pour identifier des informations codées disposées sur un article consommable de génération d'aérosol (1) qui comprend au moins un indice (10) contenant des informations codées concernant l'article (1), l'article (1) à consommer au moyen d'un dispositif de génération d'aérosol (2), le procédé comprenant les étapes consistant à - lire les informations codées dudit indice (10) par le système de détection d'indices (100) lorsque l'article est déplacé dans ou à travers une cavité (200) du dispositif de génération d'aérosol (2) - détecter lesdites informations codées pendant l'insertion dudit article de génération d'aérosol (1) dans ledit dispositif de génération d'aérosol (2). L'invention concerne également un dispositif de génération d'aérosol (2) comprenant un système de détection d'indice (100, 100') pour détecter ledit code lisible pendant le mouvement d'insertion d'un article (1). L'invention concerne en outre un article (1) qui comprend un indice (10) qui peut être lu lors de l'insertion dans ledit dispositif (2), et un système comprenant ledit dispositif (2) et ledit article (1).
PCT/EP2021/064719 2020-06-12 2021-06-01 Procédé et système d'identification d'articles de génération d'aérosol WO2021249833A1 (fr)

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JP2022576045A JP2023528685A (ja) 2020-06-12 2021-06-01 エアロゾル発生物品を識別するための方法及びシステム
EP21730188.6A EP4164436A1 (fr) 2020-06-12 2021-06-01 Procédé et système d'identification d'articles de génération d'aérosol

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WO2023160160A1 (fr) * 2022-02-24 2023-08-31 比亚迪精密制造有限公司 Élément d'induction électromagnétique, dispositif de chauffage et cigarette électronique

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