US20230079988A1 - Embedded Electrodes - Google Patents

Embedded Electrodes Download PDF

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Publication number
US20230079988A1
US20230079988A1 US17/802,428 US202117802428A US2023079988A1 US 20230079988 A1 US20230079988 A1 US 20230079988A1 US 202117802428 A US202117802428 A US 202117802428A US 2023079988 A1 US2023079988 A1 US 2023079988A1
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US
United States
Prior art keywords
capsule
seal
holder
electrodes
heating element
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.)
Pending
Application number
US17/802,428
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English (en)
Inventor
Kentaro MATSUDA
Peter Loveday
Manabu Yamada
Shen Pifa
Rui Cao
Masafumi Tarora
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
Application filed by JT International SA filed Critical JT International SA
Assigned to JT INTERNATIONAL S.A. reassignment JT INTERNATIONAL S.A. ASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS). Assignors: CAO, Rui, PIFA, Shen, MATSUDA, Kentaro, YAMADA, MANABU, LOVEDAY, Peter, TARORA, MASAFUMI
Publication of US20230079988A1 publication Critical patent/US20230079988A1/en
Pending legal-status Critical Current

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    • 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
    • A24F40/10Devices using liquid 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
    • A24F40/40Constructional 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
    • A24F40/46Shape or structure of electric heating means

Definitions

  • the present invention relates to personal vaporizing devices, such as electronic cigarettes.
  • the invention relates to capsules having embedded electrodes, the capsules to be used with an electronic cigarette.
  • Electronic cigarettes are an alternative to conventional cigarettes. Instead of generating a combustion smoke, they vaporize a liquid, which can be inhaled by a user.
  • the liquid typically comprises an aerosol-forming substance, such as glycerin or propylene glycol that creates the vapor.
  • Other common substances in the liquid are nicotine and various flavorings.
  • the electronic cigarette is a hand-held inhaler system, comprising a mouthpiece section, a liquid store, a power supply unit. Vaporization is achieved by a vaporizer or heater unit which typically comprises a heating element in the form of a heating coil and a fluid transfer element. The vaporization occurs when as the heater heats up the liquid in the wick until the liquid is transformed into vapor.
  • the electronic cigarette may comprise a chamber in the mouthpiece section, which is configured to receive disposable consumables in the form of capsules. Capsules comprising the liquid store and the vaporizer are often referred to as “cartomizers”.
  • Conventional cigarette smoke comprises nicotine as well as a multitude of other chemical compounds generated as the products of partial combustion and/or pyrolysis of the plant material.
  • Electronic cigarettes deliver primarily an aerosolized version of an initial starting e-liquid composition comprising nicotine and various food safe substances such as propylene glycol and glycerine, etc., but are also efficient in delivering a desired Nicotine dose to the user.
  • the aerosol generated by an electronic cigarette is generally referred to as a vapor.
  • liquid leaking from the liquid store may travel to the power supply, or other electronics, and could cause the electrical circuitry to short out. This is dangerous and could potentially lead to injury of a user.
  • a capsule for an electronic cigarette having a first end configured to engage with an electronic cigarette device and a second end having a vapour outlet.
  • the capsule comprises a liquid store configured to contain a liquid to be vaporized, a vaporizer housing arranged to house at least a part of a heating element and a part of a fluid transfer element wherein the fluid transfer element is arranged to deliver liquid from the liquid store to the heating element, the heating element being configured to vaporize the received liquid and generate a vapor.
  • the capsule further comprises a seal arranged to hold the vaporizer housing, a holder arranged to attach to the seal, a main gas flow channel extending between the vaporizer housing and the vapor outlet to allow the generated vapor to flow from the vaporizer housing to the vapor outlet, and a pair of electrodes, wherein the electrodes are at least partially embedded within the structure of the holder, and wherein the electrodes are arranged to provide an electrical connection between the first end of the capsule and an electronic cigarette device.
  • the electrodes do not protrude into the internal portion of the capsule. This means that internal space within the capsule is not being taken up by end portions of the electrode, which serve no function. Since only a contact surface is required in order to provide an electrical connection between the capsule and an electronic cigarette, it is unnecessary to have a large protruding electrode which takes up valuable space within the capsule. Instead, by embedding the electrodes within a part of the capsule itself, a sufficient electrical connection can be provided whilst ensuring there is plenty of space within the capsule for the other components of the capsule.
  • each electrode is arranged with a part exposed at the external surface of the holder to provide the electrical connection between the first end of the capsule and an electronic cigarette device.
  • the main gas flow channel extends from the holder, through the seal, to the vaporizer housing.
  • the main gas flow channel therefore extends along the whole length of the capsule. This ensures that air is drawn through the length of the capsule to the mouthpiece, allowing the generated vapor to flow from the vaporizer housing to the vapor outlet.
  • the holder may comprise a plurality of channels located within an internal surface of the holder.
  • the internal surface may be part of a base surface of the holder.
  • the internal surface may therefore comprise a system of channels at least some of which may be in fluid communication with each other.
  • These channels may advantageously collect fluid that has leaked from the fluid transfer element onto the internal surface of the holder. Through capillary action, the channels may capture and direct the leaked fluid away from important components within the capsule, for example they may direct the captured fluid away from electronics within the capsule. This reduces the chance of leaked fluid within the capsule causing short circuits.
  • An interface may be formed between an internal surface of the seal and an internal surface of the holder.
  • the heating element comprises first and second lead wires, and preferably the first and second lead wires of the heating element are located at the interface between the seal and the holder.
  • the interface may therefore act to hold the first and second lead wires of the heating element between the seal and the holder.
  • the interface therefore acts to hold or squeeze in place the first and second lead wires of the heating element.
  • the heating element comprises a heating coil in contact with the fluid transfer element, which may also be referred to as a wick.
  • the heating coil is connected (for example soldered or connected by connectors) to a plurality of lead wires, typically two lead wires, which form the first and second ends of the heating coil.
  • the first and second lead wires may also be referred to as first and second ends of the heating element.
  • the heating coil is not connected directly to the electrodes. Instead the heating coil is indirectly connected to the electrodes via the lead wires which act as intermediates between the heating coil and the electrodes. The heating element is therefore indirectly connected to the electrodes.
  • the lead wires are made of a material that does not transfer the heat to the electrodes.
  • the first and second ends of the heating element are compressed between the seal and the holder at the interface. Compressing the first and second ends between the seal and the holder ensures that the first and second ends of the heating element are securely held at the interface, reducing the likelihood of the first and seconds of the heating element becoming loose within the capsule.
  • Each electrode may comprise a first end and a second end.
  • the first ends of each electrode are located at the interface between the seal and the holder.
  • the interface may therefore act to hold the first ends of each of the electrodes between the seal and the holder.
  • this construction reduces the need for separate joining, or attachment, components (for example welds) to secure the electrodes within the capsule.
  • the overall number of parts provided is reduced, resulting in a simpler capsule device.
  • the seal may be formed of a rubber or thermoplastic elastomer material such as silicone rubber.
  • the first lead wire (also known as the first end) of the heating element and the first end of a first electrode are located at a first point on the interface between the seal and the holder.
  • the second lead wire (also known as the second end) of the heating element and the first end of a second electrode are located at a second point on the interface between the seal and the holder.
  • the first end of the heating element and the first end of a first electrode are held together at a first position and the second end of the heating element and the first end of a second electrode are held together at a second position.
  • an electrical connection can be provided without the need for welds or electrical connection points between the heating element and the electrode. Instead, the electrical connection is provided as a result of an external surface of the heating element being in contact with, and being held against, an external surface of the electrode.
  • each electrode is held within the main body of the holder.
  • the second ends of each electrode may therefore be thought of as being embedded within the holder.
  • Each electrode can advantageously be securely held within the holder without additional components or connection points to secure the electrode to the holder, proving a simpler capsule.
  • Each electrode may have a substantially rectangular cross-section. This may provide a relatively large surface area on each electrode, which may help to provide a better electrical connection between the electrode and the heating element. Furthermore, a rectangular cross-section may provide an electrode having a relatively thin width, meaning that the electrode does not extend substantially into the main body of the capsule. This means that the electrode does not take up space within the capsule that may be used by other components.
  • the holder comprises a pair of apertures and preferably a portion of each electrode is arranged to extend across each aperture.
  • extend we mean that a portion of each electrode extends across the aperture in a direction perpendicular to a longitudinal axis of the aperture.
  • the portion of the electrode that extends through the aperture may be thought of as covering or blocking off the aperture.
  • the portion of the electrode that extends through the aperture may be used to provide the electrical connection between the capsule and the electronic cigarette.
  • the capsule may further comprise a pair of cover portions.
  • Each cover portion may be located within each aperture and preferably arranged to substantially cover the portion of each electrode which extends through each aperture.
  • the cover portions may protect the electrode portion from coming into contact with any fluid that may have leaked from the fluid transfer element. The cover portions therefore prevent any leaked fluid from potentially causing short circuits within the capsule. The cover portions may therefore seal the apertures of the holder from fluid leaks.
  • the capsule may comprise a sealing arrangement, the sealing arrangement comprising a first seal and a second seal.
  • the sealing arrangement may be configured to hold the fluid transfer element between the first and second seals.
  • the first seal may comprise a first surface shaped to correspond to an outer surface of the fluid transfer element.
  • the first surface may be substantially curved.
  • the second seal may comprise a second surface shaped to correspond to an outer surface of the fluid transfer element.
  • the second surface may be substantially curved.
  • the fluid transfer element may be located between the first surface and the second surface.
  • the first seal may comprise at least one sealing protrusion.
  • the second seal may comprise at least one sealing portion.
  • the sealing protrusion may be configured to cooperate with the sealing portion.
  • the sealing portion may comprise a U-shaped seat for receiving the liquid transfer element and the sealed protrusion.
  • the sealing protrusion may be sized and shaped to correspond to the profile of the sealing portion such that the sealing protrusion may slot into the sealing portion.
  • the sealing protrusions and sealing portion may be configured to compress the liquid transport element, in particular to reduce its cross section locally.
  • the liquid transport element can be made of compressible capillary material such as cotton fiber.
  • a capsule for an electronic cigarette having a first end configured to engage with an electronic cigarette device and a second end having a vapor outlet, the capsule further comprising:
  • an electronic cigarette comprising a main body and a capsule wherein the main body comprises a power supply unit, electrical circuitry, and a capsule seating configured to connect with the capsule, wherein the capsule is a capsule according to any of the above-described capsules.
  • the electronic cigarette may be configured to connect with a capsule according to any of the previously described capsules.
  • FIG. 1 a is a schematic perspective view of an electronic cigarette
  • FIG. 1 b is a schematic perspective side view of the electronic cigarette of FIG. 1 a;
  • FIG. 1 c is a schematic cross-sectional view of the electronic cigarette of FIGS. 1 a and 1 b;
  • FIG. 2 a is a schematic perspective view of the electronic cigarette in FIGS. 1 a and 1 b , wherein the capsule has been disconnected from the electronic cigarette;
  • FIG. 2 b is a schematic perspective view of a capsule seating
  • FIG. 3 a is a schematic view of a capsule
  • FIG. 3 b is a schematic side view of the capsule of FIG. 3 a;
  • FIG. 4 is an exploded schematic view of a capsule
  • FIG. 5 is an exploded schematic view of capsule seals
  • FIG. 6 is a schematic cross-sectional view of FIG. 5 in an assembled state
  • FIG. 7 is a schematic perspective view of FIG. 6 .
  • FIG. 8 a is a perspective view of a capsule seal
  • FIG. 8 b is a sideways view of a capsule seal
  • FIG. 8 c is a cross-sectional view of FIG. 8 b;
  • FIG. 9 a is a perspective view of the internal structure of a capsule part
  • FIG. 9 b is a perspective view of the internal structure of an alternative capsule part
  • FIG. 10 is a cross-sectional view of the internal structure of a capsule
  • FIG. 11 are perspective views of a part of a capsule seal
  • FIG. 12 are views of a capsule seal
  • FIG. 13 is a top down view of part of a capsule seal.
  • FIG. 14 is a cross-sectional view of part of a capsule seal.
  • an aerosol for smoking may refer to an aerosol with particle sizes of 0.5-7 microns. The particle size may be less than 10 or 7 microns.
  • the electronic cigarette may be portable.
  • an electronic cigarette 2 for vaporizing a liquid L is illustrated.
  • the electronic cigarette 2 can be used as a substitute for a conventional cigarette.
  • the electronic cigarette 2 has a main body 4 comprising a power supply unit 6 , electrical circuitry 8 and a capsule seating 12 .
  • the capsule seating 12 is configured to receive removable capsules 16 comprising a vaporizing liquid L.
  • the liquid L may comprise an aerosol-forming substance such as propylene glycol and/or glycerol and may contain other substances such as nicotine and acids.
  • the liquid L may also comprise flavorings such as e.g. tobacco, menthol or fruit flavor.
  • the capsule seating 12 is preferably in the form of a cavity configured to receive the capsule 16 .
  • the capsule seating 12 is provided with a connection portion 21 configured to hold the capsule 16 firmly to the capsule seating 12 .
  • the connection portion 21 could for instance be an interference fit, a snap fit, a screw fit, a bayoneted fit or a magnetic fit.
  • the capsule seating 12 further comprises a pair of electrical connectors 14 configured to engage with corresponding power terminals 45 on the capsule 16 .
  • the capsule 16 comprises a housing 18 , a liquid store 32 , a vaporizing unit 34 and power terminals 45 .
  • the housing 18 has a mouthpiece portion 20 provided with a vapor outlet 28 .
  • the mouthpiece portion 20 may have a tip-shaped form to correspond to the ergonomics of the user's mouth.
  • another connection portion 22 is located on the opposite side of mouthpiece portion 20 .
  • the mouthpiece connection portion 22 is configured to connect with the connection portion 21 in the capsule seating 12 .
  • the connection portion 21 on the capsule 16 may comprise a metallic plate, configured to magnetically connect to a magnetic surface in the capsule seating 12 .
  • the capsule housing 18 may be in a transparent material, whereby the liquid level of the capsule 16 is clearly visible to the user.
  • the housing 18 may be formed in a polymeric or plastic material, such as polyester.
  • the capsule 16 may be assembled from a plurality of different parts.
  • the illustrated embodiment is schematic and it is also possible to combine some of the parts to single units which will be apparent to a person skilled in the art.
  • the present configuration of a plurality of different parts enables an efficient assembly of the capsule 16 .
  • the capsule housing 18 may be formed from a top housing 18 a and a bottom housing 18 b or a base 18 b .
  • the parts can be assembled together by a friction fit between the top housing 18 a and a bottom housing 18 b .
  • the top housing 18 a and a bottom housing 18 b can be joined together by ultrasonic welding.
  • the top housing 18 a may comprise the mouthpiece portion 20 as a separate part that is assembled to the top housing 18 a of the capsule.
  • the vaporizing chamber 30 is located at the opposite distal end of the capsule 16 to the mouthpiece portion 20 and houses the vaporizing unit 34 .
  • a main vapor channel 24 is defined which may have a tubular cross-section.
  • the main vapor channel 24 can be formed from a tube or chimney 24 which extends distally away from the mouthpiece where it may be sealingly connected to the vaporizing chamber 30 .
  • the tube or chimney 24 can formed integrally with the top housing. This part can for instance be produced by injection molding or molding.
  • the vaporizing chamber 30 is surrounded by the liquid store 32 . It is sealed such that it only receives liquid through a liquid delivery channel 33 , receives intake air from an air inlet 35 , and delivers vapor through the main vapor channel (via tube or chimney 24 ). To this effect, the vaporizing unit 34 is accommodated inside a tubular vaporizer housing 40 .
  • liquid leaking from the liquid store 32 and into the capsule 16 it is important to prevent liquid leaking from the liquid store 32 and into the capsule 16 . It is also important to prevent liquid leaking from the capsule 16 and into the capsule seating 12 .
  • Liquid may also leak from the liquid store 32 or from the fluid transfer element 38 into the air inlet 35 and out through the capsule 16 and potentially into the capsule seating 12 in which the electrical circuitry 8 is housed. This could potentially cause the electrical circuitry 8 to short out.
  • first 50 and second 44 seals are provided.
  • the vaporizer housing 40 has an upper rim 42 a and a lower rim 42 b , the upper rim 42 a being in contact with the first seal 50 , which may also be referred to as an upper gasket 50 , and the lower rim 42 b being in contact with the second seal 44 , which may also be referred to as a lower gasket 44 .
  • the first and second seals 44 , 50 are typically made of a resilient or compressible material, for example silicon, to minimize leakage through the connections.
  • the lower and upper gaskets 44 , 50 are configured to seal around the outer circumference of the tubular vaporizer housing 40 .
  • the vaporizing unit 34 comprises a heating element 36 and a fluid transfer element 38 .
  • the fluid transfer element 38 is configured to transfer the liquid L by capillary action from the liquid store 32 to the heating element 36 .
  • the fluid transfer element 38 can be a fibrous or porous element such as a wick made from twined cotton or silica. Alternatively, the fluid transfer element 38 can be any other suitable porous element.
  • the vaporizing chamber 30 is fluidly connected to the liquid store 32 by the fluid transfer element 38 .
  • the liquid inlet to the vaporization chamber 30 is provided solely through the fluid transfer element 38 and through the passages 33 formed from the porous structures of the fluid transfer element 38 .
  • the fluid transfer element 38 has a first end 38 a and a second end 38 b .
  • the fluid transfer element 38 is provided with an elongated and substantially straight shape. Typically, the fluid transfer element 38 is arranged with its longitudinal extension perpendicular or traverse to the longitudinal direction of the cartridge 16 .
  • the fluid transfer element 38 has a liquid uptake portion 39 a located inside the liquid store 32 and a liquid delivery portion 39 b in contact with the heating element 36 inside the vaporization chamber 30 .
  • the liquid uptake portion 39 a corresponds to the first end 38 a and a second end 38 b of the fluid transfer element 38 .
  • the heating element 36 is positioned on the liquid delivery portion 39 b of the fluid transfer element 38 .
  • the liquid delivery portion 39 b corresponds to the center portion of the elongate fluid transfer element 38 .
  • the heating element 36 is provided on the outside circumference of the fluid transfer element 38 .
  • the vaporizer housing 40 is further provided with a pair of cutouts 48 through which the first and the second ends 38 a , 38 b of the fluid transfer element 38 are received.
  • the first seal 50 is located in the connection between the vaporization chamber 30 and the fluid transfer element 38 .
  • the first seal 50 has a contact surface S 1 that corresponds to the shape of the upper rim 42 a of the vaporizer housing 40 .
  • the first seal 50 is further provided with an aperture 51 through which the vapor can flow from the vaporization chamber 30 to the main vapor flow channel.
  • the first seal 50 comprises a pair of radially extending shoulder portions 52 , which extend in a direction substantially perpendicular to a longitudinal axis of the electronic cigarette 2 .
  • the shoulder portions 52 are generally curved in shape, for example taking the form of an arc or semi-circle, and having an inwardly curving surface 52 a , which may be thought of as a concave surface 52 a , and an outwardly curving surface 52 b , which may be thought of as a convex surface 52 b .
  • the concave surface 52 a is located below the convex surface 52 b such that the shoulder portions may be described as substantially “n”-shaped.
  • the inwardly curved surface 52 a of the shoulder portions 52 is shaped to correspond to the shape of the first and second ends 38 a , 38 b of the fluid transfer element 38 .
  • the curvature of the first and second ends of the fluid transfer element 38 substantially corresponds to the curvature of the inwardly curving surface 52 a of the shoulder portions 52 .
  • Having curved surfaces that substantially corresponds to each other ensures a close fit between the two neighboring surfaces, which in this case are the surface of the fluid transfer element 38 and the concave surface of the shoulder portion 52 , when the electronic cigarette 2 is constructed. This is important for preventing leakage, as any gaps or “wiggle room” created through loose fitting parts creates a potential pathway for liquid to travel along and leak from the capsule 16 .
  • the shoulder portions 52 are configured to be received in the cutouts 48 of the vaporizer housing 40 and to press against, i.e. apply pressure to, the fluid transfer element 38 when the capsule 16 is assembled.
  • the first seal 50 is configured to compress the fluid transfer element 38 in the radial direction of the fluid transfer element 38 .
  • the tight fit achieved by having complementary adjacent surfaces of the ends of the fluid transfer element 38 and the concave surfaces 52 a of the seal 50 improves the ability of the seal 50 to apply a suitable pressure to the fluid transfer element 38 .
  • the second seal 44 also comprises a pair of shoulder portions 44 a , 44 b which extend radially away from the main body of the second seal 44 . That is to say, the pair of shoulder portions 44 a , 44 b extend in a direction substantially perpendicular to a longitudinal axis of the electronic cigarette 2 , as can be seen in FIGS. 5 and 7 .
  • these shoulder portions 44 a , 44 b on the second seal 44 are generally curved in shape, for example taking the form of an arc or semi-circle.
  • these shoulder portions 44 a , 44 b have an inwardly curving surface 43 , which may be thought of as a concave surface 43 .
  • the concave surface 43 may be described as substantially “u”-shaped.
  • the inwardly curved surface 43 is shaped to correspond to the shape of the first and second ends 38 a , 38 b of the fluid transfer element 38 . That is to say, the curvature of the first and second ends of the fluid transfer element 38 substantially corresponds to the curvature of the inwardly curving surface 43 of the shoulder portions 44 a , 44 b .
  • Providing curved surfaces that substantially correspond to each other ensures a close fit between the two neighboring surfaces, which in this case are the surface of the fluid transfer element and the concave surface of the shoulder portion 44 a , 44 b , when the electronic cigarette 2 is constructed.
  • a close or tight fit is important for preventing leakage, because any gaps between components which are loosely fitting creates a potential flow path for liquid to travel along and leak from the capsule 16 .
  • the shoulder portions 44 a , 44 b of the second seal 44 are also configured to cooperate with the shoulder portions 52 of the first seal 50 .
  • the first and second seals are in contact with each other. This ensures that the fluid transfer element 38 is tightly held between the first and second seals, helping prevent fluid from leaking from the fluid transfer element 38 into the electronic cigarette 2 .
  • This tight seal can be seen more clearly in FIGS. 8 a - 8 c .
  • the first seal 50 is able to apply a sufficient compressive force to the fluid transfer element 38 when the fluid transfer element 38 is held between the first and second seals, helping prevent leakage from around the seals.
  • FIGS. 11 and 12 show an alternative example of a sealing arrangement, formed by the first 50 and second 44 seals.
  • the arrangement shown in FIG. 11 does not comprise shoulder portions.
  • the fluid transfer element 38 is held between, and therefore sealed by, the first and second seals 50 , 44 by way of complementary grooves in the first and second seals 50 , 44 which are shaped to receive the fluid transfer element 38 .
  • the lower seal 44 comprises a groove into which the fluid transfer element 38 is located and the upper seal 50 comprises a sealing protrusion fitting within the groove of the lower seal to seal against the fluid transfer element 38 .
  • the sealing protrusion of the upper seal has preferably a concave profile that matches the profile of the fluid transfer element 38 , as will be described in more detail below.
  • the first seal 150 comprises a pair of axially extending sealing protrusions 152 , which extend in a direction substantially parallel to a longitudinal axis of the electronic cigarette 2 .
  • the sealing protrusions 152 can be thought of as an extension of the main body of the first seal 150 .
  • Each tip of the sealing protrusion has a generally curved profile, for example taking the form of an arc or semi-circle and having an inwardly curving surface 152 a , which may be thought of as a concave surface 152 a.
  • the inwardly curved surfaces 152 a of the sealing protrusions 152 form receiving seats for the fluid transfer element 38 and are shaped to correspond to the shape of the first and second ends 38 a , 38 b of the fluid transfer element 38 , as can be seen in FIG. 11 .
  • the curvature of the first and second ends of the fluid transfer element 38 substantially corresponds to the curvature of the inwardly curving surface 152 a of the sealing protrusions 152 .
  • Having curved surfaces that substantially correspond to each other ensures a close fit between the two neighboring surfaces, which in this case are the surface of the fluid transfer element 38 and the concave surface of the sealing protrusions 152 , when the electronic cigarette 2 is constructed. This is important for preventing leakage, as any gaps or “wiggle room” created through loose fitting parts creates a potential pathway for liquid to travel along and leak from the capsule 16 .
  • the sealing protrusions 152 of the first seal 150 are configured to press against, i.e. apply pressure to, the fluid transfer element 38 when the capsule 16 is assembled.
  • the first seal 50 is configured to compress the fluid transfer element 38 in the radial direction of the fluid transfer element 38 .
  • the tight fit achieved by having complementary adjacent surfaces of the ends of the fluid transfer element 38 and the concave surfaces 152 a of the seal 150 improves the ability of the seal 150 to apply a suitable pressure to the fluid transfer element 38 .
  • the second seal 144 also comprises a pair of sealing portions 144 a which form part of the main body of the second seal 144 , as can be seen in FIG. 12 .
  • the sealing portions 144 a on the second seal 144 take the form of an elongate groove, extending in a direction substantially parallel to the longitudinal axis of the electronic cigarette 2 , having an entry point 144 b .
  • the sealing portion 144 a comprise a generally curved shape, for example taking the form of an arc or semi-circle, having an inwardly curving surface 143 , which may be thought of as a concave surface 143 .
  • the concave surface 143 may be described as substantially “u”-shaped.
  • the inwardly curved surface 143 is shaped to correspond to the shape of the first and second ends 38 a , 38 b of the fluid transfer element 38 .
  • the inwardly curved surface 143 is narrower than the diameter of the fluid transfer element 38 , in order to exert a compressing or squeezing force on the fluid transfer element 38 as shown in FIG. 14 .
  • the curved surface 43 has a constant-width U-shape which is narrower than the width of the fluid transfer element, so that the fluid transfer element 38 is squeezed locally.
  • the fluid transfer element has a diameter of about 1.90-2.10 mm and the U-shaped curved surface 143 has a width of 1.70 mm.
  • the curvature of the first and second ends of the fluid transfer element 38 may substantially correspond to the curvature of the inwardly curving surface 143 of the sealing portion 144 a , or preferably may be dimensioned smaller than the curvature of the inwardly curving surface 143 of the sealing portion 144 a .
  • Providing a sealing curved surface that is substantially equal or smaller than the curved surface of the fluid transfer element ensures a close fit between the two neighboring surfaces, which in this case are the surface of the fluid transfer element and the concave surface of the sealing portion 144 a when the electronic cigarette 2 is constructed. As before, a close or tight fit is important for preventing leakage, because any gaps between components which are loosely fitting creates a potential flow path for liquid to travel along and leak from the capsule 16 .
  • the sealing portion 144 a of the second seal 144 is also configured to cooperate with the sealing protrusions 152 of the first seal 150 .
  • the sealing protrusions 152 are sized and shaped to be inserted into, and held within, the entry point 144 b of the sealing portion 144 a .
  • the entry point 144 b may be shaped with truncated surfaces complementary to the surfaces at the base of the protrusions 152 to improve the contact with the surface of the first seal.
  • the protrusions 152 have substantially parallel side walls sized to engage closely between the parallel surfaces of the upper rectilinear portion of the surface 143 .
  • the parallel surfaces of the entry point 144 b acts to guide the protrusions 152 into the sealing portion 144 a . This has the effect that there is a snug, or tight, fit between the first seal 150 and second seal 144 such that relative movement between the two components is limited, when constructed.
  • the sealing protrusions 152 comprise inwardly angles sides and the entry points 144 b comprise outwardly angled sides.
  • the first seal 150 can therefore slot into the second seal 144 , compressing the fluid transfer element 38 between the two seals. This ensures that the fluid transfer element 38 is tightly held between the first and second seals, helping prevent fluid from leaking from the fluid transfer element 38 into the electronic cigarette 2 .
  • the first seal 150 is able to apply a sufficient compressive force to the fluid transfer element 38 when the fluid transfer element 38 is held between the first and second seals, helping prevent leakage from around the seals. Further, by providing a sealing arrangement in which the first seal 150 is able to slot into the second seal 144 , the two seals are in alignment with each other helping prevent fluid leakage as well as providing more accurate assembly of these two component of the electronic cigarette 2 .
  • the second seal 144 comprises inclined grooves 180 at the lower surface of the second seal 144 which faces the heating holder 70 , the inclined grooves arranged to receive the ends (i.e. lead wires) of the heating element 36 as shown in FIG. 13 .
  • a silicon plate may be inserted between the mouthpiece 20 and the housing 18 , as shown in FIG. 4 .
  • the second seal 44 comprises a base portion 44 c which acts to house components of the capsule such as the vaporizer housing 40 .
  • the base portion 44 c can therefore be thought of as defining an internal cavity portion.
  • the base portion 44 c is configured to receive, and retain, a heating holder 70 such that the heating holder 70 is at least partially located within the base portion 44 c .
  • the base portion 44 c of the second seal 44 is for receiving the vaporizer housing 40 , acting as a support for the vaporizer housing 40 , as shown in FIGS. 6 and 7 .
  • the lower rim 42 b of the vaporizer housing 40 is received by the second seal 44 so that the vaporizer housing 40 is held firmly and in its correct position within the capsule 16 .
  • the heating holder 70 is received and retained by the second seal 44 such that an interface 60 is formed between an internal surface of the base portion 44 c of the second seal 44 and the heating holder 70 .
  • the heating element has first and second ends 36 a , 36 b which are held between the base portion 44 c and the heating holder 70 at the interface 60 between the base portion 44 c and the heating holder 70 .
  • the first and second ends 36 a , 36 b of the heating element are therefore clamped, or squeezed, between the base portion 44 c and the heating holder 70 . This ensures that the heating element 36 is held firmly in place within the capsule 16 .
  • the ends of the heating element 36 are prevented from coming in to contact with the electrical circuitry 8 in the main body 4 .
  • This configuration reduces the likelihood of any unwanted liquid which may be present in the heating element 36 to come into contact with the electrical components which can leads to short circuits.
  • the heating holder 70 is arranged to be connected to the base portion 44 c of the second seal 44 for example by a push fit or snap fit connection.
  • the heating holder 70 comprises a pair of through holes 72 or apertures 72 which are arranged to receive a pair of electrodes 80 , as can be seen in FIG. 7 .
  • Each electrode 80 takes the form of a wire which has been substantially flattened such that each electrode 80 has a ribbon-like structure. In other words, each electrode 80 has a substantially rectangular cross section.
  • Each electrode 80 comprises a first end 81 , a second end 83 , and a middle portion 82 as shown in FIGS. 6 and 7 .
  • the first end 81 of each electrode 80 is located, or held, between the base portion 44 c and the heating holder 70 at the interface 60 between the base portion 44 c and the heating holder 70 .
  • Each of the first ends 81 of the electrodes 80 are therefore clamped, or squeezed, between the base portion 44 c and the heating holder 70 . This ensures that each electrode 80 is held firmly and securely in place within the capsule 16 , without the need for any additional parts to secure the first end of the electrode 80 .
  • Using a clamping action between components of the capsule 16 also avoids the need for welding, or other similar attachment processes, which helps reduce the complexity of the capsule 16 .
  • first and second ends 36 a , 36 b of the heating element are also held, or clamped, between the base portion 44 c and the heating holder 70 .
  • each electrode 80 extends across each aperture 72 .
  • a length of each middle portion 82 of each electrode 80 extends across the aperture 72 in a direction perpendicular to a longitudinal axis of the aperture 72 .
  • the portion of the electrode 80 that extends across the aperture 72 may be thought of as covering or blocking off the aperture 72 .
  • the electrodes 80 therefore act as electrical connectors for the transfer of current between the capsule seating 12 and the capsule 16 .
  • the electrodes 80 are made of any suitable material which is able to transfer current, for example a metal such as copper.
  • the pair of apertures 72 in the heating holder 70 allows the transfer of current between the capsule seating 12 and the capsule 16 .
  • each electrode is secured within the heating holder 70 , as shown in FIG. 7 .
  • the electrodes 80 may therefore be thought of as being embedded within the heating holder 70 .
  • a portion of the electrode between the first end 81 and the exposed portion 82 may also be secured within the heating holder 70 .
  • the electrode 80 may be partially embedded by molding the heating holder 70 partially over the electrode 80 .
  • the molding operation of the heating holder 70 may be plastic injection molding.
  • the heating holder 70 comprises a further air hole 71 , in the form of a through bore passing through the main body of the heating holder 70 , arranged to allow air to flow into the vaporizing chamber 30 via the air inlet 35 in the vaporizer unit 34 .
  • This air hole 71 therefore comprises part of the main vapor channel 24 .
  • the air hole 71 is located substantially centrally within the heating holder 70 , as shown in FIG. 6 , and the air hole 71 is arranged to have sufficient length such that it extends into the vaporizing chamber 30 of the vaporizer housing 40 .
  • the air hole 71 protrudes vertically upwards, i.e.
  • the air hole 71 may therefore be thought of as having a chimney-like structure as so in some cases may be referred to as a chimney.
  • the chimney 71 will be integrally formed with the main body of the heating holder 70 . Providing an air hole 71 which extends sufficiently far into the vaporizing chamber 30 ensures that intake air is delivered to the appropriate part of the capsule i.e. the vaporizing chamber 30 .
  • the combination of a central protruding air hole 71 and embedded electrodes 80 means there is a lot of space between the fluid transfer element 38 , the air hole 71 , and the internal base surface of the heating holder 70 . This helps ensure that there is sufficient air flow around the fluid transfer element such that the generated vapor can flow from the fluid transfer element 38 up the main vapor channel 24 to the mouthpiece 20 .
  • FIG. 9 shows the internal structure of the heating holder 70 in more detail.
  • the air hole 71 comprises a number of grooves 90 or recesses on the external surface of the chimney 71 .
  • the grooves 90 are evenly spaced apart from each other and extend longitudinally long the length of the chimney 71 from the base of the chimney 71 to the top of the chimney 71 .
  • These grooves 90 act to collect any fluid that might leak from the fluid transfer element 38 to the top of the chimney 71 .
  • This fluid will be drawn into the grooves 90 as a result of capillary action so that the fluid preferentially flows along the grooves 90 rather than along the surface of the chimney 71 .
  • the captured fluid can then be collected at the base of the chimney and drained from the heating holder 70 .
  • the internal base surface of the heating holder 70 also comprises a number of grooves 92 forming a channel-like structure.
  • the multiple channels 92 are fluidly connected to each other so that fluid present in one part of the channel-like structure can flow into another part.
  • the grooves 90 on the surface of the chimney 71 are also fluidly connected to the channels 92 at the base of the chimney, as shown in FIG. 9 b , so that fluid within the grooves 90 can flow into the channels 92 .
  • these channels are arranged to collect fluid that make leak from the fluid transfer element 38 .
  • the channels 92 capture the fluid, via capillary action, and allow the fluid to be drained from the heating holder 70 .
  • the depth of these channels 92 can be maximized so that the channels act as a reservoir for the leaked fluid before the fluid is drained from the inside of the capsule.
  • each aperture 72 in the heating holder 70 comprises a cover 94 which has the form of a substantially planar surface shaped to correspond to the cross-section of the aperture 72 such that the cover 94 is able to seal the aperture 72 from any leaked fluid.
  • Each cover 94 is therefore arranged to cover the exposed middle portion 82 of the respective electrode 80 , as can be seen in FIG. 10 , so that a barrier is formed between the electrode 80 and any fluid present within the heating holder 70 .
  • the cover 94 is made from plastic material, but any other suitable material could be used that prevents the transfer of fluid through the aperture 72 .
  • the cover 94 acts to seal the electrode 80 from any fluid that may have leaked from the fluid transfer element 38 and collect within the heating holder 70 .
  • the cover 94 may be thought of as a seal.
  • the heating element 36 comprises a heating wire which is wound around the fluid transfer element 38 , and so takes the form of a heating coil.
  • the heating element 36 is not directly connected to the electrodes 80 but is instead indirectly connected to the electrodes 80 via a plurality of lead wires, which act as an intermediate between the heating element 36 and the electrodes 80 .
  • the heating element 36 is connected to the lead wires generally near the fluid transfer element 38 .
  • the heating element 36 therefore comprises the heating wire (also known as a heating coil) and lead wires, typically two lead wires.
  • the heating wire is generally connected to each lead wire by spot welding or clipper.
  • the lead wires, specifically first and second lead wires, of the heating element may also be referred to as first and second ends of the heating element.
  • the heating wire is configured to heat the fluid transfer element 38 by resistive heating.
  • the material of the heating wire can be titanium. Titanium has a steep resistance to temperature curve in comparison with e.g. stainless steel or nickel. Hence, the resistance of the heating wire increases relatively rapidly with an increasing coil temperature.
  • other materials such as Stainless steel, Nickel, Chrome or Aluminium or alloys thereof are also possible.
  • the main body 4 is configured to supply power to the heating element 36 of the capsule and to control the overall operation of the vaporization.
  • the main body 4 can be configured as a compact device in comparison to most prior art electronic cigarettes.
  • the device is provided with a dimension that it will fit into the palm of a hand.
  • the electrical circuitry 8 of the main body 4 is configured to operate the electronic cigarette 2 and may comprise a flow sensor 10 or a manual activation switch, a memory 11 and a controller 13 .
  • the electrical circuitry 8 may advantageously be grouped onto a main printed circuit board.

Landscapes

  • Packaging Of Annular Or Rod-Shaped Articles, Wearing Apparel, Cassettes, Or The Like (AREA)
  • Catching Or Destruction (AREA)
US17/802,428 2020-02-28 2021-02-25 Embedded Electrodes Pending US20230079988A1 (en)

Applications Claiming Priority (5)

Application Number Priority Date Filing Date Title
CN2020077284 2020-02-28
CNPCT/CN2020/077284 2020-02-28
EP20202410 2020-10-16
EP20202410.5 2020-10-16
PCT/EP2021/054768 WO2021170767A1 (fr) 2020-02-28 2021-02-25 Électrodes noyées

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US17/802,428 Pending US20230079988A1 (en) 2020-02-28 2021-02-25 Embedded Electrodes

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US (1) US20230079988A1 (fr)
EP (1) EP4110113A1 (fr)
CN (1) CN115209756A (fr)
WO (1) WO2021170767A1 (fr)

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US20230114975A1 (en) * 2020-02-28 2023-04-13 Jt International Sa Airflow Chimney

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Publication number Priority date Publication date Assignee Title
US11660403B2 (en) * 2016-09-22 2023-05-30 Juul Labs, Inc. Leak-resistant vaporizer device
US20210298357A1 (en) * 2018-08-10 2021-09-30 Jt International S.A. Electronic Cigarette And Capsule For An Electronic Cigarette
CN209090053U (zh) * 2018-09-07 2019-07-12 深圳市爱卓依科技有限公司 电子烟烟弹
CN209768989U (zh) * 2018-11-29 2019-12-13 深圳麦克韦尔科技有限公司 雾化装置及电子雾化设备

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EP4110113A1 (fr) 2023-01-04
CN115209756A (zh) 2022-10-18

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