EP3962308B1 - Aerosol generation device having a thermal bridge - Google Patents

Aerosol generation device having a thermal bridge Download PDF

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Publication number
EP3962308B1
EP3962308B1 EP20721257.2A EP20721257A EP3962308B1 EP 3962308 B1 EP3962308 B1 EP 3962308B1 EP 20721257 A EP20721257 A EP 20721257A EP 3962308 B1 EP3962308 B1 EP 3962308B1
Authority
EP
European Patent Office
Prior art keywords
generation device
aerosol generation
heating chamber
thermal bridge
casing
Prior art date
Legal status (The legal status 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 status listed.)
Active
Application number
EP20721257.2A
Other languages
German (de)
English (en)
French (fr)
Other versions
EP3962308A1 (en
Inventor
Layth Sliman BOUCHUIGUIR
Jon MASON
Marko Plevnik
Nathan Lyell
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
JT International SA
Original Assignee
JT International SA
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
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Application filed by JT International SA filed Critical JT International SA
Priority to EP23155074.0A priority Critical patent/EP4197377A1/en
Publication of EP3962308A1 publication Critical patent/EP3962308A1/en
Application granted granted Critical
Publication of EP3962308B1 publication Critical patent/EP3962308B1/en
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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
    • A24F40/40Constructional details, e.g. connection of cartridges and battery parts
    • A24F40/46Shape or structure of electric heating means
    • 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
    • A24F40/40Constructional details, e.g. connection of cartridges and battery parts
    • 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
    • A24F40/40Constructional details, e.g. connection of cartridges and battery parts
    • A24F40/42Cartridges or containers for inhalable precursors
    • 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
    • A24F40/70Manufacture
    • 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 disclosure relates to an aerosol generation device having a thermal bridge.
  • the thermal bridge may dissipate heat from a heating chamber of the aerosol generation device to a casing of the aerosol generation device or to the exterior of the aerosol generation device.
  • the disclosure is particularly, but not exclusively, applicable to a portable aerosol generation device, which may be self-contained and operate at low temperatures.
  • Such devices e.g., as described in EP 2 975 951 A1 , may be configured to heat but not burn tobacco or other suitable aerosolisable material by conduction, convection, and/or radiation, to generate an aerosol for inhalation.
  • reduced-risk or modified-risk devices also known as vapourisers
  • vapourisers have grown rapidly in the past few years as an aid to assist habitual smokers wishing to quit smoking traditional tobacco products such as cigarettes, cigars, cigarillos, and rolling tobacco.
  • Various devices and systems are available that heat or warm aerosolisable substances as opposed to burning tobacco in conventional tobacco products.
  • a commonly available reduced-risk or modified-risk device is a heated substrate aerosol generation device or heat-not-burn device.
  • Devices of this type generate an aerosol or vapour by heating an aerosol substrate that typically comprises moist leaf tobacco or other suitable aerosolisable material to a temperature typically in the range of 150°C to 300°C. Heating an aerosol substrate, but not combusting or burning it, releases an aerosol that comprises the components sought by the user but not the toxic and carcinogenic by-products of combustion and burning.
  • the aerosol produced by heating the tobacco or other aersolisable material does not typically comprise the burnt or bitter taste resulting from combustion and burning that can be unpleasant for the user and so the substrate does not therefore require the sugars and other additives that are typically added to such materials to make the smoke and/or vapour more palatable for the user.
  • the aerosol generation device In order to minimise the time between the user first activating the device and the user being able to draw the desired aerosol from the aerosol substrate, it is desirable to heat the aerosol substrate as rapidly as possible to a temperature at which the aerosol may be released. This involves the use of a powerful heater, which inevitably causes the aerosol generation device as a whole to become hot. Moreover, the user may typically use the aerosol generation device over a fairly prolonged period, exacerbating problems associated with heating the overall aerosol generation device. If the aerosol generation device becomes too hot, it may become uncomfortable for the user to hold it in their hand. Worse, if there is any a risk that the user may be injured by the heat, the aerosol generation device would become completely unsuitable for consumer use.
  • Aerosol generation devices include insulation intended to reduce the transfer of heat from the heating chamber to the outside of the aerosol generation device, with varying degrees of effectiveness.
  • aerosol generation devices have an opening or aperture through which the aerosol substrate is inserted into the heating chamber, and heat generated during the heating of the aerosol substrate is inclined to escape out of this opening by radiation, convection and/or conduction. This is hard to mitigate and can be particularly problematic in aerosol generation devices used by the user bringing their mouth and lips into close proximity with the opening during use, e.g. to draw the aerosol from the device.
  • an aerosol generation device comprising: a heating chamber into which an aerosol substrate is insertable for being heated to generate an aerosol; a casing in which the heating chamber is housed; an aperture through which the aerosol substrate is insertable into the heating chamber; insulation disposed at least partially between the heating chamber and the casing; and a thermal bridge arranged to dissipate heat from the heating chamber to the casing.
  • the thermal bridge may provide a way to conduct heat away from the heating chamber and around the casing, so it may be dispersed to the surroundings. Effectively, the thermal bridge may act as a heat sink. However, by conducting heat to the casing, the ability of the aerosol generation device to dissipate the heat may be further improved.
  • the heating chamber comprises a first end and a second end; wherein the first end is opposite the second end; wherein the aperture is located proximal to a first end of the heating chamber wherein the thermal bridge is arranged closer to the aperture than it is to the second end of the heating chamber.
  • the thermal bridge may provide a way to conduct heat away from the external surface of the aperture of the aerosol generation device, so it may be dispersed to the surroundings.
  • the thermal bridge at least partly defines the aperture.
  • the thermal bridge is arranged at least partly between the heating chamber and the aperture.
  • the thermal bridge comprises a heat dissipation surface facing outward from the aerosol generation device
  • the thermal bridge comprises a heat dissipation surface facing a heat dissipating wall of the casing.
  • the heat dissipation surface is in direct contact with the heat dissipating wall of the casing.
  • the thermal bridge is arranged at least partly to enclose the heating chamber.
  • the thermal bridge is in contact with the heating chamber, e.g. direct contact.
  • the thermal bridge comprises a first material and the insulation comprises a second material, the first material having a higher thermal conductivity than the second material.
  • the thermal bridge is better at conducting heat than the insulation.
  • the thermal bridge comprises a first material and the casing comprises a second material, the first material having a higher thermal conductivity than the second material.
  • the thermal bridge and the casing comprise the same material.
  • the thermal bridge may comprise metal, and preferably is essentially made of metal. More specifically, the thermal bridge may comprise aluminium, and more preferably is essentially made of aluminium.
  • the thermal bridge is externally ribbed.
  • the aerosol generation device further comprises a chassis; both the thermal bridge and chassis complementarily surrounding the heating chamber; the chassis being made of a material having a lower thermal conductivity than the thermal bridge.
  • the chassis is externally ribbed or the casing is internally ribbed.
  • the chassis is essentially made of plastic and the thermal bridge is essentially made of metal, preferably aluminium.
  • the casing covers the chassis.
  • the casing comprises metal, and preferably is essentially made of metal.
  • the thermal bridge comprises a/the first material and the aerosol generation device has an outer trim at least partially defining the aperture, the outer trim comprising a third material, the third material having a lower thermal conductivity than the first material.
  • the aerosol generation device further comprises a heater, and the insulation is arranged between the heater and the casing.
  • the insulation is also preferably arranged between the heater and the thermal bridge.
  • the heater may be electrically powered.
  • the aerosol generation device comprises a mounting element which extends from between the heating chamber and the insulation.
  • the mounting element cooperates with the chassis and the insulation to secure the insulation and the heating chamber in position in the aerosol generation device.
  • the heating chamber has a flange and the thermal bridge is located against a surface of the flange.
  • the thermal bridge is located against a surface of the flange of the heating chamber opposite to a surface of the flange at which the mounting element is located.
  • the thermal bridge comprises an aperture part and a casing part; the aperture part being preferably located proximate to the aperture and the casing part being preferably located between a portion of the length of the insulation and the casing.
  • the aperture part of the thermal bridge at least partially defines the aperture.
  • the aerosol generation device further comprises a spacing component between the heating chamber and the thermal bridge.
  • the spacing component comprises a heat resistant polymer material, preferably polyether ether ketone, PEEK.
  • an aerosol generation device comprising: a heating chamber into which an aerosol substrate is insertable for being heated to generate an aerosol; a casing in which the heating chamber is housed; insulation disposed at least partially between the heating chamber and the casing; an aperture through which the aerosol substrate is insertable into the heating chamber; a thermal bridge arranged in thermal contact with the casing and/or comprising a heat dissipation surface facing outward from the aerosol generation device, the at least part of the thermal bridge defining at least part of the aperture or being at least partly arranged between the heating chamber and the aperture.
  • an aerosol generation device comprising: a heating chamber into which an aerosol substrate is insertable for being heated to generate the an aerosol; a casing in which the heating chamber is housed; an aperture through which the aerosol substrate is insertable into the heating chamber; insulation disposed at least partially between the heating chamber and the casing; and a thermal bridge arranged to dissipate heat from the heating chamber to the exterior of the aerosol generation device.
  • aerosol shall mean a system of particles dispersed in the air or in a gas, such as mist, fog, or smoke. Accordingly the term “aerosolise” (or “aerosolize”) means to make into an aerosol and/or to disperse as an aerosol. Note that the meaning of aerosol/aerosolise is consistent with each of volatilise, atomise and vaporise as defined above. For the avoidance of doubt, aerosol is used to consistently describe mists or droplets comprising atomised, volatilised or vaporised particles. Aerosol also includes mists or droplets comprising any combination of atomised, volatilised or vaporised particles.
  • an aerosol generation device 100 comprises a casing 110 housing various components of the aerosol generation device 100.
  • An aperture 103 is provided through which an aerosol substrate can be inserted into a heating chamber 102.
  • the aerosol substrate is provided in a substrate carrier 104.
  • the substrate carrier 104 is generally elongate, and the aerosol substrate is located towards or at a first end of the substrate carrier 104.
  • the substrate carrier 104 provides a conduit, e.g. in the form of a tube of cardboard or plastics material, optionally with a filter provided along its length, e.g. at the second end of the substrate carrier 104.
  • Aerosol and/or vapour generated from the aerosol substrate as it is heated in the heating chamber 102 can be drawn through the conduit and inhaled by a user from the second end of the substrate carrier 102, which has sufficient length to protrude from the aperture 103 with the aerosol substrate located in the heating chamber 102 (as shown in Figure 3 ).
  • the aerosol generation device 100 may be described as a personal inhaler device, an electronic cigarette (or e-cigarette), vaporiser or vaping device.
  • the aerosol generation device 100 is a Heat not Burn (HnB) device.
  • HnB Heat not Burn
  • aerosol generation devices 100 that are envisaged in the disclosure more generally heat an aerosolisable substance to generate an aerosol for inhalation, as opposed to burning tobacco as in conventional tobacco products.
  • the aerosol substrate and substrate carrier 104 may be referred to as a consumable item.
  • the consumable item is in the form of a rod that contains processed tobacco material, e.g. a crimped sheet or oriented strips of Reconstituted ToBacco (RTB) paper impregnated with a liquid aerosol former.
  • the liquid aerosol former in the present embodiment comprises Vegetable Glycerin (VG) but may be a mixture of Propylene Glycol (PG) and VG.
  • the consumable item uses pure VG, which does not contain any flavourings or nicotine.
  • the consumable item has aerosol former containing nicotine and other flavourings.
  • the consumable item typically contains other solid porous matter to absorb the aerosol former liquid, for example a mousse formed with a gelling agent and a suitable binder which may or may not contain tobacco.
  • the casing 110 of the aerosol generation device 100 can be any shape and size suitable to fit the components of the aerosol generation device 100, but it is generally elongate.
  • the aperture 103 is provided at a first end 113 of the aerosol generation device 100, e.g. at one of the ends of the elongate shape of the casing 110.
  • the first end 113 is shown at the top.
  • a second end 115 of the aerosol generation device 100 is an end furthest from the aperture 103, and is shown at the bottom in the drawings. This is how the aerosol generation device 100 is generally oriented during use, so the first end 113 may be referred to as the top end and the second end 115 may be referred to as the bottom end.
  • a user typically orients the aerosol generation device 100 with the second end 115 downward and/or in a distal position with respect to the user's mouth and the first end 113 upward and/or in a proximate position with respect to the user's mouth.
  • the aerosol generation device 100 has a closure 109 arranged so as to be moveable between at least two positions, in particular between a closed position (as shown in Figure 1 ) and an open position (as shown in Figure 2 ).
  • a closed position as shown in Figure 1
  • an open position as shown in Figure 2
  • the closure 109 obstructs the aperture 103 so that materials cannot enter the heating chamber 102.
  • the aperture 103 is uncovered to allow access to the heating chamber 102 via the aperture 103.
  • the closure 109 is arranged to be moveable between the closed position and the open position by sliding.
  • the closure 109 is arranged to pivot between the closed position and the open position and/or to rotate between the closed position and the open position.
  • An indicator 101 is provided on the aerosol generation device 100, for indicating information to the user.
  • the indicator 101 comprises a light source, e.g. a Light Emitting Diode (LED) or (as in the present embodiment) a strip of LEDs, and the indicator 101 is provided on a side of the casing 110, e.g. between the first end 113 and the second end 115.
  • the information indicated to the user by the indicator 101 may include a status of the aerosol generation device 100, e.g. whether the aerosol generation device 100 is turned off, in a standby mode or turned on, a battery level, a temperature of the heating chamber 102 or an indication of a session time.
  • the aerosol generation device 100 comprises a chassis 107.
  • the chassis 107 provides the aerosol generation device 100 with structural integrity. It also allows components of the aerosol generation device 100 to be mounted using visible mountings, such as screws or snap fit connections, without taking significant account of impact upon the appearance of the chassis 107. Rather, the casing 110 fits around, e.g. covers, the chassis 107 and hence provides an outer or exterior surface of the aerosol generation device 100. This means that the casing 110 provides at least the majority of the visible surface of the aerosol generation device 100.
  • the chassis 107 comprises a plastics material and the casing 110 comprises a metal.
  • the chassis 107 being plastics material means it can be easily and cheaply formed by moulding. Plastics materials also tend to have much lower thermal conductivity than metals, meaning that the chassis 107 is generally more thermally insulating than the casing 110.
  • the casing 110 being metal allows the outer casing 110 to be pleasant for a user to hold. It can also be anodised, treated or coated, e.g. by powder coating, to have an attractive appearance and to resist scratches, wear, tarnishing or other deterioration.
  • chassis 107 being a plastics material and the casing 110 being a metal is not essential, and in other embodiments the chassis 107 and casing 110 are formed of other materials.
  • the chassis 107 comprises two parts. With the aerosol generation device 100 oriented with the aperture 103 facing towards the viewer, a left part 107a is on the left hand side and a right part 107b is on the right hand side. The left part 107a and the right 107b fit together at a plane that bisects the aerosol generation device 100. The plane is parallel to the length of the aerosol generation device 100, that length being in a direction between the first end 113 and the second end 115, and extending from front to back of the aerosol generation device 100 in the orientation described here. Effectively, the chassis 107 is split into two generally equal portions that are mirror images of one another, aside from minor differences, e.g. to accommodate small asymmetric features such as the indicator 101 being located on the right hand part 107b.
  • the chassis 107 comprises a wall 117 that has a generally uniform thickness over the majority of its extent, with ribs 124 provided on an outwardly facing surface of the wall 117.
  • the ribs are upstanding from the outwardly facing surface.
  • most of the ribs 124 extend around the casing 110 generally circumferentially with respect to the length of the aerosol generation device 100.
  • at least one of the ribs 124 extends along the length of the aerosol generation device 100, generally perpendicularly to the other ribs 124.
  • the chassis 107 has ribs 124 that cross one another, e.g. perpendicularly.
  • the ribs 124 increase the structural integrity of the chassis 107 in comparison to the wall 117 alone, without adding as much weight as may be added by making the wall 117 itself thicker.
  • the casing 110 fits directly to the chassis 107.
  • the casing 110 comprises two parts. With the aerosol generation device 100 oriented with the aperture 103 facing towards the viewer, a left part 110a is on the left hand side and a right part 110b is on the right hand side. The left part 110a and the right 110b fit together at the same plane as the plane that the left part 107a and right part 107b of the chassis 107 fit together. So, similarly to the chassis 107, the casing 110 is split into two generally equal portions that are mirror images of one another, aside from minor differences, e.g. to accommodate small asymmetric features such as the indicator 101 being located on the right hand part 110b.
  • both the inwardly facing and the outwardly facing surfaces of the casing 110 are smooth.
  • the inwardly facing surface is contoured to follow the outer extent of the chassis 107, e.g. in the illustrated embodiment the outer extent of the ribs 124.
  • the inwardly facing surface of the casing 110 fits flush with the outer extent of the chassis 107. This allows the casing 110 to be bonded to the chassis 107 securely, e.g. by glue.
  • spaces between the ribs 124 of the chassis 107 provide gaps between the wall of the chassis 107 and the inwardly facing surface of the casing 110. These gaps may be simply filled with air, which itself is a good insulator, having a thermal conductivity at atmospheric pressure lower than many plastics materials.
  • the ribs 124 of the chassis 107 therefore advantageously improve the insulating properties of the aerosol generation device 100 between the heating chamber 102 and the casing 110.
  • the internal surface of the casing has the ribs 124 and the chassis is externally smooth.
  • both the internal surface of the casing and external surface of the chassis are ribbed.
  • the casing 110 does not extend over the entirety of the first end 113 of the aerosol generation device 100, where the aperture 103 and the closure 109 are provided. Rather, the aerosol generation device 100 has a trim 111 at the first end 113.
  • the trim 111 extends at least partially, and in the illustrated embodiment entirely, around the aperture 103. In other words, the trim 111 at least partly defines the aperture 103. It also extends under the closure 109, that is between the closure 109 and the rest of the aerosol generation device 100.
  • the trim 111 comprises a plastics material, e.g. the same material as the chassis 107. It is retained between the left part 107a and the right part 107b of the chassis 107.
  • the trim 111 is the part of the aerosol generation device 100 that is in closest proximity to the mouth of the user during use.
  • the internal components of the aerosol generation device 100 can be seen most clearly in Figure 5 , in which the casing 110 and the right part 107b of the chassis 107 are removed, and in Figure 6 , in which the casing 110 and the entire chassis 107 are removed. It can be seen that the heating chamber 102 (or oven) is surrounded by insulation 121. The indicator 101 is also more visible, along with an electrical power source 112, e.g. cell or battery, of the aerosol generation device 100.
  • an electrical power source 112 e.g. cell or battery
  • the heating chamber 102 is located towards the first end 113 of the aerosol generation device 101.
  • the heating chamber 102 is generally cup shaped, with an open end 114 located towards the first end 113 of the aerosol generation device 100 through which open end 114 the aerosol substrate can pass into the heating chamber 102 (see Figure 7 ).
  • the aperture 103 of the aerosol generation device 100 coincides with the open end 114 of the heating chamber 102.
  • the aperture 103 is substantially circular, having a diameter slightly greater than that of the inner diameter of the heating chamber 102.
  • the aerosol substrate carrier 104 is substantially cylindrical, with a similar diameter to that of the inner diameter of the heating chamber 102, and can therefore pass through the aperture 103 and the open end 114 of the heating chamber 102 without difficulty.
  • the aperture 103 and aerosol substrate carrier 104 may be any shape or size so long as at least part of the aerosol substrate carrier 104 can be received through the aperture 103 into the heating chamber 102 so as to allow the aerosol substrate to be heated within the heating chamber 102.
  • the heating chamber 102 is mounted within the insulation 121. As can be seen most clearly in Figure 7 , the heating chamber 102 has a flange 116 protruding outwardly at the open end 114.
  • the flange 116 is annular, e.g. it extends all the way around the open end 114 of the heating chamber 102.
  • the flange 116 extends radially outward from a side wall of the heating chamber 102. In the illustrated embodiment, the flange 116 extends perpendicularly to the side wall, e.g. in a plane having a central axis of the heating chamber 102 as a normal to it.
  • a mounting element 108 is provided for mounting the heating chamber 102 in the insulation 121 and mounting the combination of the heating chamber 102 and the insulation 121 in the aerosol generation device, or more specifically to the chassis 107.
  • the mounting element 108 is generally annular, e.g. it extends around an outer periphery of the heating chamber 102 and the insulation 121 at the open end 114 of the heating chamber 102.
  • the mounting element 108 spaces the heating chamber 102 from the insulation 121. More specifically, the mounting element 108 is located between the heating chamber 102 and the insulation 121, at the open end 114 of the heating chamber 102.
  • the dimensions of the heating chamber 102 and the insulation 121 are such that the heating chamber 102 fits within a void defined by an internal wall of the insulation 121.
  • the mounting element 108 comprises polyether ether ketone (PEEK).
  • PEEK polyether ether ketone
  • Other materials could be used, such as other thermoplastics.
  • the insulation 121 surrounds the heating chamber 102 except at the open end 114 of the heating chamber 102.
  • the insulation 121 is fibrous or foam material, such as wool.
  • the insulation 121 comprises a pair of nested tubes or cups enclosing a cavity therebetween.
  • the cavity may be filled with a thermally insulating material, for example fibres, foams, gels or gases (e.g. at low pressure) and/or the cavity may comprise a vacuum.
  • a vacuum requires very little thickness to achieve high thermal insulation.
  • the insulation 121 surrounds the heating chamber 102 except at the open end 114. It therefore inhibits or restricts the flow of heat from the heating chamber 102 to the casing 110.
  • a heater (not shown) is typically located on an outside surface of the heating chamber 102, and the insulation 121 also surrounds this heater in a similar way.
  • the mounting element 108 extends from between the heating chamber 102 and the insulation 121, around an end of the insulation 121 proximate to the open end 114 of the heating chamber 102 to an outer surface of the insulation 121.
  • the mounting element 108 cooperates with the chassis 107 and the outer surface of the insulation 121 to secure the insulation 121 and the heating chamber 102 in position in the aerosol generation device 100.
  • An additional mounting element (not shown) is provided at an end of the insulation 121 opposite to the end proximate to the open end 114 of the heating chamber 102.
  • the insulation 121 is only in contact with the chassis 107 via the mounting element 108 and additional mounting element, and not elsewhere. This again improves thermal isolation of the heating chamber 102 with respect to the exterior of the aerosol generation device 100, e.g. the casing 110.
  • the heating chamber 102 and the insulation 121 are further held in position within the aerosol generation device 100 by a thermal bridge 119.
  • the thermal bridge 119 is located against a surface of the flange 116 of the heating chamber 102 opposite to a surface of the flange 116 at which the mounting element 108 is located.
  • the flange 116 is thus held between the thermal bridge 119 and the mounting element 108.
  • the thermal bridge 119 is itself mounted to the chassis 107 in the vicinity of the aperture 103, and acts to prevent movement of the heating chamber 102 and insulation 121 towards the first end 113 of the aerosol generation device 100.
  • the thermal bridge 119 comprises an aperture part 118 and a casing part 120.
  • the aperture part 118 of the thermal bridge 119 is located proximate to the aperture 103 and the casing part 120 is located between a portion of the length of the insulation 121 and the casing 110.
  • the aperture part 118 of the thermal bridge 119 at least partly defines the aperture 103, in particular an internal part of the aperture 103, of the aerosol generation device 100.
  • the aperture part 118 of the thermal bridge 119 extends all the way around the aperture 103 in this embodiment, although in other embodiments it extends only part of the way around the aperture 103.
  • aperture part 118 of the thermal bridge 119 has a hole therethrough that provides the aerosol generation device 100 with the aperture 103.
  • the casing part 120 of the thermal bridge 119 comprises a wall 123 with exterior ribs 124 that protrude from a surface of the wall 123 that faces outwardly with respect to the heating chamber 102.
  • the ribs 124 serve to increase the surface area of the casing part 120 of the thermal bridge 119.
  • the aperture part 118 and the casing part 120 of the thermal bridge 119 are a single contiguous piece.
  • the thermal bridge 119 comprises metal.
  • the metal is aluminium. Aluminium is used for its high thermal conductivity and because it is relatively lightweight and provides for easy manufacturing in comparison to other metals.
  • the thermal bridge 119 comprises an alloy of aluminium or some other metal or material, such as copper, iron, steel or any alloys thereof.
  • an outwardly facing surface of the casing part 120 of the thermal bridge 119 is in good thermal contact with the casing 110. This may be achieved by using a thermal paste or other suitable material between the casing part 120 of the thermal bridge 119 and the casing 110. In other embodiment, it is achieved only be ensuring close physical contact between the thermal bridge 119 and the casing 110.
  • the thermal bridge 119 is arranged to provide a path for heat to flow from the open end 114 of the heating chamber to the casing 110.
  • the casing 110 itself has relatively high thermal conductivity, e.g. because it comprises metal, heat flowing to the casing 110 from the open end 114 of the heating chamber via the thermal bridge 119 is conducted by the casing 110, and thereby spreads around the casing 110.
  • the casing 110 provides the exterior surface of the aerosol generation device 100, heat can then radiate away from the aerosol generation device 100 effectively.
  • this arrangement recognises that it is better to allow heat that escapes from the heating chamber 102 at the open end 114 to move away from the aperture 103 of the aerosol generation device 100. This prevents the aerosol generation device 100 becoming undesirably hot in the vicinity of the aperture 103 more effectively than arrangements the further attempt to trap heat in the heating chamber 102 at the open end 114.
  • the trim 111 covers the thermal bridge 119 at the first end 113 of the aerosol generation device 100.
  • the trim 111 comprises a material of lower thermal conductivity than the thermal bridge 119, heat from the open end 114 of the heating chamber is inhibited or restricted from flowing to the trim and hence to the exterior surface of the aerosol generation device 100 at the first end 113.
  • the heating chamber 102 of the aerosol generation device 100 was used in repeated cycles to heat an aerosol substrate in a room temperature environment so that the temperature of the aerosol generation device 100 reached an approximate steady state. It was found that, at point A shown in Figure 3 , the temperature of the outer surface of the aerosol generation device 100 reached approximately 37°C, point B of the outer surface of the aerosol generation device 100 reached approximately 35°C, point C of the outer surface of the aerosol generation device 100 reached approximately 33°C, point D of the outer surface of the aerosol generation device 100 reached approximately 29°C and point E of an inside surface of the chassis 107 reached approximately 46°C.
  • an aerosol generation device 100 is identical to the aerosol generation device 100 of the first embodiment, except that the thermal bridge 219 of the second embodiment is located in the position of the trim 111 and has a different form.
  • the thermal bridge 219 of the second embodiment does not extend around the insulation 121. Effectively, the casing part 120 of the thermal bridge 119 of the first embodiment is omitted, and the aperture part 118 of the thermal bridge 119 of the first embodiment is adapted to replace the trim 111 of the first embodiment.
  • the thermal bridge 219 of the second embodiment defines the aperture 103, at least in part. More specifically, the thermal bridge 219 extends all the way around the aperture 103 in this embodiment, although in other embodiments it extends only part of the way around the aperture 103. In the illustrated embodiment, the thermal bridge 219 has a hole therethrough that provides the aerosol generation device 100 with the aperture 103.
  • the thermal bridge 219 is held in position by the casing 110, that is the periphery of the thermal bridge 219 is in contact with the casing 110, e.g. between the left part 110a and the right part 110b of the casing 110.
  • a spacer 220 extends between the thermal bridge 219 and the flange 116 of the heating chamber 102.
  • the spacer 220 has a hole through it of similar dimensions to that of the thermal bridge 219, and the two holes are aligned so that they together further define the aperture 103.
  • the spacer 220 is generally tubular.
  • the spacer 220 comprises PEEK. PEEK is useful as it inhibits or restricts transfer of heat from the flange 116 of the heating chamber 102 to the thermal bridge 219 by conduction.
  • the thermal bridge 219 comprises metal, in this embodiment aluminium.
  • the thermal bridge 219 may alternatively comprise an alloy of aluminium. Other materials may also be used, such as copper, iron, steel or any alloy thereof.
  • the thermal bridge 219 of the second embodiment again seeks to allow heat escaping from the heating chamber 102 at the open end 114 to move away from the aperture 103 of the aerosol generation device 100. This is achieved by the thermal bridge 219 conducting heat away from the periphery of the aperture 103 towards the casing 110. Specifically, the thermal bridge 219 extends over the first end 113 of the aerosol generation device, around the aperture 103. It also extends under the closure 109, that is between the closure 109 and the rest of the aerosol generation device 100. It is retained between the left part 110a and the right part 110b of the casing 110.
  • the periphery of the thermal bridge 219 is in direct contact with the casing 110.
  • the location of the thermal bridge 219 e.g. on the outer or exterior surface of the aerosol generation device 100 at the first end 113, allows the thermal bridge 219 to radiate heat away from the aperture 103 into the surroundings.
  • heat can flow to the casing 110 from the thermal bridge 219 and spread around the casing 110, where it can be radiated away into the surroundings.
  • Surfaces of the thermal bridge 219 and casing 110 that are in contact with one another can be a tight fit and/or thermal paste or some other heat conductive medium can be applied between the surfaces, to ensure good thermal conduction from the thermal bridge 219 to the casing 110.
  • the heating chamber 102 of the aerosol generation device 100 was used in repeated cycles to heat an aerosol substrate in a room temperature environment so that the temperature of the aerosol generation device 100 reached an approximate steady state. It was found that, at point A shown in Figure 3 , the temperature of the outer surface of the aerosol generation device 100 reached approximately 36°C, point B of the outer surface of the aerosol generation device 100 reached approximately 33°C, point C of the outer surface of the aerosol generation device 100 reached approximately 32°C, point D of the outer surface of the aerosol generation device 100 reached approximately 29°C and point E of an inside surface of the chassis 107 reached approximately 49°C.
  • vapour means: (i) the form into which liquids are naturally converted by the action of a sufficient degree of heat; or (ii) particles of liquid/moisture that are suspended in the atmosphere and visible as clouds of steam/smoke; or (iii) a fluid that fills a space like a gas but, being below its critical temperature, can be liquefied by pressure alone.
  • vaporise means: (i) to change, or cause the change into vapour; and (ii) where the particles change physical state (i.e. from liquid or solid into the gaseous state).
  • aerosol shall mean a system of particles dispersed in the air or in a gas, such as mist, fog, or smoke. Accordingly the term “aerosolise” (or “aerosolize”) means to make into an aerosol and/or to disperse as an aerosol. Note that the meaning of aerosol/aerosolise is consistent with each of volatilise, atomise and vaporise as defined above. For the avoidance of doubt, aerosol is used to consistently describe mists or droplets comprising atomised, volatilised or vaporised particles. Aerosol also includes mists or droplets comprising any combination of atomised, volatilised or vaporised particles.

Landscapes

  • Containers And Packaging Bodies Having A Special Means To Remove Contents (AREA)
  • Resistance Heating (AREA)
  • Thermotherapy And Cooling Therapy Devices (AREA)
EP20721257.2A 2019-05-03 2020-04-30 Aerosol generation device having a thermal bridge Active EP3962308B1 (en)

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EP19172656 2019-05-03
PCT/EP2020/062054 WO2020225098A1 (en) 2019-05-03 2020-04-30 Aerosol generation device having a thermal bridge

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HUE062036T2 (hu) 2023-09-28
EA202192885A1 (ru) 2022-03-16
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EP4197377A1 (en) 2023-06-21
PT3962308T (pt) 2023-05-25
KR20220002980A (ko) 2022-01-07
JP2023089259A (ja) 2023-06-27
WO2020225098A1 (en) 2020-11-12
TWI740480B (zh) 2021-09-21
US20220202088A1 (en) 2022-06-30
EP3962308A1 (en) 2022-03-09
TW202041157A (zh) 2020-11-16
JP2022531252A (ja) 2022-07-06
CA3137372A1 (en) 2020-11-12
JP7269458B2 (ja) 2023-05-08
JP2023053248A (ja) 2023-04-12
PL3962308T3 (pl) 2023-07-10
JP7228718B2 (ja) 2023-02-24

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