RU2022119404A - CONSUMABLE PART FOR USE WITH NON-FLAMMABLE AEROSOL SUPPLY DEVICE - Google Patents

Claims (111)

1. A method of manufacturing a consumable part for use in a non-flammable aerosol supply device, including the steps of: providing a current-receiving structure comprising first and second current-receiving parts and a connector connecting the first and second current-receiving parts to each other, said first and second current-receiving parts being spatially separated from each other by said connector; forming a unit including a current-receiving structure and an aerosol-generating material; And separating the assembly, the separating including separating the connector and the aerosol generating material. 2. The method according to claim 1, wherein the separation is carried out using a cutting tool to cut the connector. 3. The method of claim 1 or 2, wherein the forming step includes at least partially embedding the current-receiving structure into the aerosol-generating material. 4. Method according to any one of paragraphs. 1-3, in which the formation stage includes: combining the current-receiving structure with an aerosol-generating material on the wrapper; And wrapping the wrapper around the current-receiving structure and the aerosol-generating material. 5. The method according to claim 4, in which the current-receiving structure is placed on the wrapper in front of the aerosol-generating material. 6. The method according to claim 4, in which the aerosol generating material is placed on the wrapper in front of the current collector structure. 7. A susceptor structure for use in a method for manufacturing a consumable part for use with a non-flammable aerosol supply device, comprising first and second susceptor parts and a connector connecting the first and second susceptor parts to each other, the first and second susceptor parts being spatially separated from each other by the connector . 8. The current-collecting structure according to claim 7, in which the connector contains a weakened area of the current-collecting structure. 9. The current-receiving structure according to claim 8, in which the current-receiving parts are made integral with the weakened area. 10. The current-receiving structure according to claim 9, containing at least one additional current-receiving part and at least one additional connector, and the specified current-receiving structure is designed so that it contains a repeating sequence of alternating current-receiving parts and connectors arranged one after another. 11. The current-receiving structure according to claim 7, in which the connector contains a supporting element to which the current-receiving parts are attached. 12. The current-receiving structure according to claim 11, containing at least one additional current-receiving part, wherein the first current-receiving part, the second current-receiving part and at least one additional current-receiving part are attached to the supporting element. 13. The current-receiving structure according to claim 11 or 12, in which the current-receiving parts are spatially separated from each other on the supporting element, and the supporting element contains a weakened area located between the current-receiving parts. 14. Current-receiving structure according to any one of paragraphs. 11-13, in which the support element contains a heated material that is capable of heating when an alternating magnetic field passes through it. 15. Current-receiving structure according to any one of paragraphs. 11-13, in which the supporting element does not contain a heated material that is capable of heating when an alternating magnetic field passes through it. 16. Current-receiving structure according to any one of paragraphs. 11-15, wherein the carrier member comprises one or more of paper, metal foil, metal alloy foil, and an aerosol generating material. 17. Method according to any one of paragraphs. 1-6 or current-collecting structure according to any one of paragraphs. 7-16, wherein the current-receiving structure includes a plurality of first current-receiving parts and a plurality of second current-receiving parts. 18. The method or susceptor structure of claim 17, wherein the connector connects each first susceptor portion to a corresponding second susceptor portion such that each first susceptor portion is spatially separated from the corresponding second susceptor portion by the connector. 19. The method or susceptor structure of claim 17, wherein the susceptor structure comprises a plurality of connectors, each of which connects a first susceptor portion to a corresponding second susceptor portion such that each first susceptor portion is spatially separated from a corresponding second susceptor portion by a corresponding connector. 20. The method or current-collecting structure of claim 19, wherein separating the assembly includes separating each connector and the aerosol-generating material. 21. Method or current-collecting structure according to any one of paragraphs. 17-20, wherein the first susceptor parts of the assembly are substantially uniformly spatially separated from each other, and/or the second susceptor portions of the assembly are substantially uniformly spatially separated from each other. 22. A unit for use in a method for manufacturing a consumable part for use with a non-flammable aerosol supply device, including a current-receiving structure according to any one of claims. 7-21 and an aerosol-generating material in thermal contact with the current-receiving structure; wherein the assembly is capable of being separated by a separation process including separation of the connector and the aerosol generating material. 23. Consumable part for use with a non-flammable aerosol supply device, manufactured by the method according to any one of paragraphs. 1-6 or 17-21. 24. Consumable part for use with a non-flammable aerosol supply device, containing: at least one current-receiving part and a connecting part attached to or integral with said or each of the current-receiving parts; And an aerosol generating material in thermal contact with said or each of the current receiving parts; wherein the connecting portion extends to at least one end of the aerosol generating material. 25. The consumable part according to claim 24, including a current-receiving structure containing at least one current-receiving part, and the connecting part contains a weakened area of the current-receiving structure. 26. The consumable part according to claim 25, in which the weakened area is integral with at least one current-receiving part. 27. The consumable part according to claim 24, in which the connecting part contains a supporting element to which at least one current-receiving part is attached. 28. Consumable part according to any one of paragraphs. 23-27, wherein said or each of the current receiving portions is at least partially embedded in the aerosol generating material. 29. Consumable part according to any of paragraphs. 23-28, in which said or each of the current receiving parts extends substantially coaxially with the central axis of the consumable part. 30. Consumable part according to any one of paragraphs. 23-29, containing a plurality of current receiving parts. 31. Method according to any one of paragraphs. 1-6 or 17-21, current-collecting structure according to any one of paragraphs. 7-21, the unit according to paragraph 22, or the consumable part according to any of paragraphs. 23-30, wherein said or each current receiving portion comprises one or more materials selected from the group consisting of: aluminum, gold, iron, nickel, cobalt, electrically conductive carbon, graphite, steel, non-alloy carbon steel, low carbon steel, stainless steel , ferritic stainless steel, molybdenum, silicon carbide, copper and bronze. 32. Method according to any one of paragraphs. 1-6, 17-21 or 31, current-receiving structure according to any one of paragraphs. 7-21 or 31, a unit according to paragraph 22 or 31, or a consumable part according to any of paragraphs. 23-31, wherein said or each of the current receiving parts contains nickel. 33. Method according to any one of paragraphs. 1-6, 17-21, 31 or 32, current-receiving structure according to any one of paragraphs. 7-21, 31 or 32, unit according to paragraph 22, 31 or 32, or consumable part according to any of paragraphs. 23-32, wherein said or each of the current receiving parts comprises nickel-plated steel. 34. Method according to any one of paragraphs. 1-6, 17-21 or 31-33, current-receiving structure according to any one of paragraphs. 7-21 or 31-33, unit according to paragraph 22 or 31-33, or consumable part according to any of paragraphs. 23-33, and the current-receiving structure contains perforations. 35. Method according to any one of paragraphs. 1-6, 17-21 or 31-34, current-receiving structure according to any one of paragraphs. 7-21 or 31-34, unit according to paragraph 22 or 31-34, or consumable part according to any of paragraphs. 23-34, and the current-receiving structure contains a weakened area. 36. Method according to any one of paragraphs. 1-6, 17-21 or 31-35, current-receiving structure according to any one of paragraphs. 7-21 or 31-35, unit according to paragraph 22 or 31-35, or consumable part according to any of paragraphs. 23-35, wherein the current-receiving structure contains first and second materials different from each other. 37. The method, current-collecting structure, assembly, or consumable part of claim 36, wherein said or each of the current-collecting parts includes a first region containing a first material and a second region containing a second material. 38. The method, current-collecting structure, assembly or consumable part according to claim 36 or 37, wherein the first and second materials have different electrical conductivity and/or magnetic conductivity. 39. Method, current-collecting structure, unit or consumable part according to any one of paragraphs. 36-38, wherein the first material comprises a material that is heated when an alternating magnetic field is passed through it, and the second material contains a material that does not heat up, or is substantially not heated, when an alternating magnetic field passes through it. 40. Method, current-collecting structure, unit or consumable part according to any one of paragraphs. 36-39, wherein one of the first and second materials is coated with another material of said first and second materials. 41. The method, current-collecting structure, assembly or consumable part according to claim 40, wherein the first material is coated with the second material. 42. Method, current-collecting structure, unit or consumable part according to any one of paragraphs. 36-41, wherein the first and second materials are such that, as a result of the passage of an alternating magnetic field through the first and second materials, a temperature difference occurs between the first and second materials during use. 43. Method, current-collecting structure, unit or consumable part according to any one of paragraphs. 36-42, the first and second materials having different thermal mass. 44. Method according to any one of paragraphs. 1-6, 17-21 or 31-43, current-receiving structure according to any one of paragraphs. 7-21 or 31-43, unit according to paragraph 22 or 31-43, or consumable part according to any of paragraphs. 23-43, wherein said or each current receiving portion comprises a main portion and an embedding portion for at least partial embedding into the aerosol generating material. 45. The method, current-collecting structure, assembly or consumable part according to claim 44, wherein the main part is generally flat. 46. The method, current-collecting structure, assembly or consumable part according to claim 44 or 45, wherein the main part is generally round. 47. Method, current-collecting structure, unit or consumable part according to any one of paragraphs. 44-46, the main part containing a material that is heated when an alternating magnetic field passes through it. 48. Method, current-collecting structure, unit or consumable part according to any one of paragraphs. 44-47, and the sealed part contains a thermally conductive material. 49. Method, current-collecting structure, unit or consumable part according to any one of paragraphs. 44-48, and the embedded part contains a material that is heated when an alternating magnetic field passes through it. 50. Method, current-collecting structure, unit or consumable part according to any one of paragraphs. 44-49, wherein the embedded portion comprises a material that does not heat up, or is substantially not heated, when an alternating magnetic field passes through it. 51. Method, current-collecting structure, unit or consumable part according to any one of paragraphs. 44-50, wherein the current-receiving structure contains first and second materials different from each other, and the embedded part contains the first and second materials. 52. Method, current-collecting structure, assembly or consumable part according to any one of paragraphs. 44-51, wherein said or each of the current receiving portions includes a first region containing a first material and a second region containing a second material, and the embedded portion contains the first and second materials. 53. Method, current-collecting structure, unit or consumable part according to any one of paragraphs. 44-51, wherein the first and second materials have different electrical conductivity and/or magnetic conductivity, and the embedded part contains the first and second materials. 54. Method, current-collecting structure, unit or consumable part according to any one of paragraphs. 44-51, wherein the first material comprises a material that is heated when an alternating magnetic field passes through it, and the second material contains a material that does not heat up or is substantially not heated when an alternating magnetic field passes through it, and the embedded portion comprises the first and second materials. 55. Method, current-collecting structure, unit or consumable part according to any one of paragraphs. 44-51, wherein one of the first and second materials is coated with another material of said first and second materials, and the embedded portion comprises the first and second materials. 56. Method, current-collecting structure, unit or consumable part according to any one of paragraphs. 44-51, wherein the first material is covered with a second material, and the embedded portion comprises the first and second materials. 57. Method, current-collecting structure, unit or consumable part according to any one of paragraphs. 44-51, wherein the first and second materials are such that, as a result of the passage of an alternating magnetic field through the first and second materials, a temperature difference occurs between the first and second materials in use, and the embedded portion comprises the first and second materials. 58. Method, current-collecting structure, unit or consumable part according to any one of paragraphs. 44-51, wherein the first and second materials have different thermal mass, and the embedded portion contains the first and second materials. 59. Method, current-collecting structure, unit or consumable part according to any one of paragraphs. 44-58, wherein the current-receiving structure contains first and second materials different from each other, and the embedded part contains one of the first and second materials, and the main part contains another of the first and second materials. 60. Method, current-collecting structure, assembly or consumable part according to any one of paragraphs. 44-58, wherein said or each of the current receiving portions includes a first region containing a first material and a second region containing a second material, and the embedded portion contains one of the first and second materials, and the main portion contains another of the first and second materials materials. 61. Method, current-collecting structure, unit or consumable part according to any one of paragraphs. 44-58, wherein the first and second materials have different electrical conductivity and/or magnetic conductivity, and the embedded portion contains one of the first and second materials, and the body portion contains another of the first and second materials. 62. Method, current-collecting structure, assembly or consumable part according to any one of paragraphs. 44-58, wherein the first material comprises a material that is heated when an alternating magnetic field is passed through it, and the second material contains a material that is not heated or substantially not heated when an alternating magnetic field is passed through it, and the embedded portion comprises one of the first and second materials, and the main part contains another of said first and second materials. 63. Method, current-collecting structure, unit or consumable part according to any one of paragraphs. 44-58, wherein one of the first and second materials is coated with another of said first and second materials, and the embedded portion comprises one of the first and second materials, and the body portion comprises another of said first and second materials. 64. Method, current-collecting structure, unit or consumable part according to any one of paragraphs. 44-58, wherein the first material is covered with a second material, and the embedded portion contains one of the first and second materials, and the body portion contains another of the first and second materials. 65. Method, current-collecting structure, unit or consumable part according to any one of paragraphs. 44-58, wherein the first and second materials are such that, as a result of the passage of an alternating magnetic field through the first and second materials, a temperature difference occurs between the first and second materials in use, and the embedded part contains one of the first and second materials, and the main part contains the other from the specified first and second materials. 66. Method, current-collecting structure, unit or consumable part according to any one of paragraphs. 44-58, wherein the first and second materials have different thermal mass, and the embedded portion comprises one of the first and second materials and the body portion comprises another of said first and second materials. 67. Method according to any one of paragraphs. 1-6, 17-21 or 31-66, current-receiving structure according to any one of paragraphs. 7-21 or 31-66, unit according to paragraph 22 or 31-66, or consumable part according to any of paragraphs. 23-66, wherein said or each current-receiving part is made hollow or perforated, or contains recesses, mesh or solid lattice metal. 68. Method according to any one of paragraphs. 1-6, 17-21 or 31-67, current-receiving structure according to any one of paragraphs. 7-21 or 31-67, unit according to paragraph 22 or 31-67, or consumable part according to any of paragraphs. 23-67, wherein said or each of the current-receiving parts comprises a rod, mesh or plate. 69. The method, current-receiving structure, assembly or consumable part according to claim 68, wherein said or each of the current-receiving parts contains a plurality of rods, meshes or plates. 70. Method according to any one of paragraphs. 1-6, 17-21 or 31-69, current-receiving structure according to any one of paragraphs. 7-21 or 31-69, unit according to paragraph 22 or 31-69, or consumable part according to any of paragraphs. 23-69, wherein said or each of the current receiving portions comprises a plurality of holes or recesses, said holes and/or recesses being filled with an aerosol generating material. 71. Method according to any one of paragraphs. 1-6, 17-21 or 31-70, current-receiving structure according to any one of paragraphs. 7-21 or 31-70, unit according to paragraph 22 or 31-70, or consumable part according to any of paragraphs. 23-70, wherein at least a portion of said or each of the current receiving parts has a tubular shape. 72. The method, susceptor structure, assembly or consumable part of claim 71, wherein said or each susceptor part comprises a plurality of tubular portions, wherein the tubular portions of each respective susceptor portion are preferably arranged generally concentrically with respect to each other. 73. Method according to any one of paragraphs. 1-6, 17-21 or 31-72, current-receiving structure according to any one of paragraphs. 7-21 or 31-72, unit according to paragraph 22 or 31-72, or consumable part according to any of paragraphs. 23-72, wherein the aerosol generating material is a non-liquid substance. 74. Method according to any one of paragraphs. 1-6, 17-21 or 31-73, current-receiving structure according to any one of paragraphs. 7-21 or 31-73, unit according to paragraph 22 or 31-73, or consumable part according to any of paragraphs. 23-73, wherein the aerosol generating material contains tobacco. 75. Method according to any one of paragraphs. 1-6, 17-21 or 31-74, current-receiving structure according to any one of paragraphs. 7-21 or 31-74, unit according to paragraph 22 or 31-74, or consumable part according to any of paragraphs. 23-74, wherein the pantograph extends over most of the length of the consumable part, preferably substantially along the entire length of the consumable part. 76. Non-flammable aerosol supply system, including: consumable part according to any one of paragraphs. 23-76; And a non-flammable aerosol supply device for heating the aerosol generating material of the consumable part to volatilize at least one component of the aerosol generating material; wherein the device comprises a heating zone for receiving the consumable part, and a magnetic field generator for generating an alternating magnetic field to pass through the current receiving portion of the consumable part when the consumable part is located in the heating zone to provide heating of the aerosol generating material. 77. The system of claim 76, wherein the apparatus is configured to heat the aerosol-generating material of the consumable part to volatilize at least one component of the aerosol-generating material without burning the aerosol-generating material. 78. The system of claim 76 or 77, wherein the magnetic field generator comprises at least one coil. 79. The system according to claim 78, in which the coil is made of a spiral. 80. The system of claim 78, wherein the coil is flat and may be a two-dimensional helix. 81. The system of claim 80, comprising a second coil, preferably a helical coil. 82. The system according to any one of paragraphs. 76-81, wherein said or each susceptor portion comprises a main portion and an embedded portion for at least partial embedding in the aerosol-generating material, and the magnetic field generator is configured to generate an alternating magnetic field to penetrate the main portion of the susceptor portion when the susceptible portion is at least partially located in the heating zone. 83. The system according to any one of paragraphs. 76-81, wherein the main portion is generally flat and the magnetic field generator is configured to generate an alternating magnetic field to penetrate the main portion of the current receiving portion when the consumable portion is at least partially located in the heating zone. 84. The system according to any one of paragraphs. 76-81, wherein the main part is generally circular, and the magnetic field generator is configured to generate an alternating magnetic field to penetrate the main part of the current receiving part when the consumable part is at least partially located in the heating zone. 85. The system according to any one of paragraphs. 76-81, in which the main part contains a material that is heated when an alternating magnetic field passes through it, and the magnetic field generator is configured to create an alternating magnetic field to penetrate the main part of the current-receiving part when the consumable part is at least partially located in the heating zone . 86. The system according to any one of paragraphs. 76-81, wherein the embedded portion contains a thermally conductive material, and the magnetic field generator is configured to generate an alternating magnetic field to penetrate the main portion of the current receiving portion when the consumable portion is at least partially located in the heating zone. 87. The system according to any one of paragraphs. 76-81, in which the embedded part contains a material that is heated when an alternating magnetic field passes through it, and the magnetic field generator is configured to create an alternating magnetic field to penetrate the main part of the current receiving part when the consumable part is at least partially located in the heating zone . 88. The system according to any one of paragraphs. 76-81, wherein the embedded portion comprises a material that does not heat up or is substantially not heated when an alternating magnetic field passes through it, and the magnetic field generator is configured to generate an alternating magnetic field to penetrate the main portion of the current receiving portion when the the portion is at least partially located in the heating zone. 89. The system according to any one of paragraphs. 76-81, wherein the current-receiving structure contains first and second materials different from each other, the consumable part contains the first and second materials, and the magnetic field generator is configured to generate an alternating magnetic field to penetrate the main part of the current-receiving part when the consumable part is at least partially located in the heating zone. 90. The system according to any one of paragraphs. 76-81, wherein said or each of the current receiving portions includes a first region containing a first material and a second region containing a second material, the embedded portion comprises the first and second materials, and the magnetic field generator is configured to generate an alternating magnetic field to penetration into the main part of the current receiving part, when the consumable part is at least partially located in the heating zone. 91. The system according to any one of paragraphs. 76-81, in which the first and second materials have different electrical conductivity and/or magnetic electrical conductivity, the embedded part contains the first and second materials, and the magnetic field generator is configured to create an alternating magnetic field to penetrate the main part of the current receiving part when the consumable part is at least partially located in the heating zone. 92. The system according to any one of paragraphs. 76-81, wherein the first material comprises a material that is heated when an alternating magnetic field passes through it, and the second material contains a material that does not or is not substantially heated when an alternating magnetic field passes through it, the embedded portion comprising the first and second materials, and the magnetic field generator is configured to create an alternating magnetic field to penetrate the main part of the current receiving part when the consumable part is at least partially located in the heating zone. 93. The system according to any one of paragraphs. 76-81, wherein one of the first and second materials is coated with another material of said first and second materials, the embedded portion comprises the first and second materials, and the magnetic field generator is configured to generate an alternating magnetic field to penetrate the main portion of the current receiving portion when the consumable part is at least partially located in the heating zone. 94. The system according to any one of paragraphs. 76-81, wherein the first material is coated with the second material, the sealing portion comprises the first and second materials, and the magnetic field generator is configured to generate an alternating magnetic field to penetrate the main portion of the current receiving portion when the consumable portion is at least partially located in the heating zone . 95. The system according to any one of paragraphs. 76-81, wherein the first and second materials are such that, as a result of the passage of an alternating magnetic field through the first and second materials, a temperature difference occurs between the first and second materials in use, the embedded portion comprises the first and second materials, and the magnetic field generator is configured to creating an alternating magnetic field to penetrate the main part of the current receiving part when the consumable part is at least partially located in the heating zone. 96. The system according to any one of paragraphs. 76-81, wherein the first and second materials have different thermal mass, the consumable portion comprises the first and second materials, and the magnetic field generator is configured to generate an alternating magnetic field to penetrate the main portion of the current receiving portion when the consumable portion is at least partially positioned in the heating zone. 97. The system according to any one of paragraphs. 76-81, in which the current-receiving structure contains first and second materials different from each other, the embedded part contains one of the first and second materials, and the main part contains another of said first and second materials, and the magnetic field generator is configured to create an alternating magnetic field to penetrate the main part of the current receiving part when the consumable part is at least partially located in the heating zone. 98. The system of claim 83, comprising a second coil, preferably a helical coil, wherein the coil is configured to generate an alternating magnetic field to penetrate the main portion of the current receiving portion when the consumable portion is at least partially located in the heating zone, wherein the second coil configured to generate an alternating magnetic field to penetrate the embedded part of the current receiving part when the consumable part is at least partially located in the heating zone. 99. The system of claim 98, wherein the second coil extends around the circumference of at least a portion of the embedded portion of the current collector portion.