RU2022101810A - INDUCTION HEATING SYSTEM WITH SEGMENTED INDUCTION HEATING ELEMENT - Google Patents

Claims (48)

1. An induction heating element for an aerosol generating system, comprising: the first pantograph, which is a tubular pantograph and forming an internal cavity to accommodate the substrate that forms the aerosol; the second pantograph, which is a tubular pantograph and forming an internal cavity to accommodate the substrate that forms the aerosol; a gap between the first pantograph and the second pantograph, the gap thermally insulating the first pantograph from the second pantograph. 2. The induction heating element according to claim 1, characterized in that the induction heating element further comprises an intermediate element located between the first pantograph and the second pantograph, and the intermediate element contains heat-insulating material for thermal insulation of the first pantograph from the second pantograph. 3. An induction heating element according to claim 2, characterized in that the intermediate element contains an electrically insulating material for electrically insulating the first current collector from the second current collector. 4. An induction heating element according to claim 2 or 3, characterized in that the intermediate element is a tubular intermediate element forming an internal cavity. 5. Induction heating element according to any one of paragraphs. 2-4, characterized in that the intermediate element is attached to the end of the first pantograph. 6. An induction heating element according to claim 5, characterized in that the intermediate element is attached to the end of the second current collector. 7. Induction heating element according to any one of paragraphs. 1-6, characterized in that the first current collector comprises a tubular support body formed from a heat-insulating material and a current collector layer on an inner surface of the tubular support body; the second pantograph contains a tubular support body formed from a heat-insulating material and a current collector layer on the inner surface of the tubular support body. 8. An induction heating system, comprising: induction heating element according to any one of paragraphs. 1-7; the first induction coil; And the second induction coil, while the first induction coil is positioned relative to the induction heating element such that a varying electrical current supplied to the first induction coil generates a changing magnetic field that heats the first current collector of the induction heating element; A the second induction coil is positioned relative to the induction heating element such that the varying electric current supplied to the second induction coil generates a changing magnetic field which heats the second current collector of the induction heating element. 9. The induction heating system according to claim 8, characterized in that: the first induction coil is a tubular coil having an internal cavity, the first current collector being located inside the internal cavity of the first induction coil; the second induction coil is a tubular coil having an internal cavity, the second current collector being located inside the internal cavity of the second induction coil. 10. The induction heating system according to claim 9, characterized in that it further comprises a flux concentrator located around the first induction coil and the second induction coil, and the flux concentrator is configured to deform the changing magnetic field generated by the first induction coil in the direction of the first current collector and deformation of the changing magnetic field generated by the second induction coil in the direction of the second current collector. 11. The induction heating system according to claim 10, characterized in that part of the flow concentrator passes into the intermediate element between the first pantograph and the second pantograph. 12. The induction heating system according to claim 9, characterized in that it additionally contains: a first flux concentrator located around the first induction coil, the first flux concentrator being configured to deform the changing magnetic field generated by the first induction coil towards the first current collector; And a second flux concentrator located around the second induction coil, the second flux concentrator being configured to deform the changing magnetic field generated by the second induction coil towards the second current collector. 13. The induction heating system according to claim 12, characterized in that at least one of: part of the first flow concentrator passes into the intermediate element between the first pantograph and the second pantograph; And part of the second flow concentrator passes into the intermediate element between the first pantograph and the second pantograph. 14. An aerosol generating device comprising an induction heating system according to any one of paragraphs. 8-13. 15. An aerosol generating device, comprising: a device body defining a device cavity for receiving an aerosol-generating substrate; an induction heating system comprising: an induction heating element comprising: the first current collector located around the first part of the cavity of the device; a second current collector located around the second part of the cavity of the device; a gap between the first pantograph and the second pantograph, the gaps thermally insulating the first pantograph from the second pantograph; the first induction coil located around at least part of the first pantograph and the first part of the cavity of the device; a second induction coil located around at least part of the second current collector and the second part of the cavity of the device; a power supply connected to the induction heating system and configured to supply a varying electric current to the first induction coil and the second induction coil, wherein when the changing electric current is applied to the first induction coil, the first induction coil generates a changing magnetic field that heats the first current collector; when a changing electric current is applied to the second induction coil, the second induction coil generates a changing magnetic field which heats the second current collector. 16. An aerosol generating system, comprising: an aerosol generating article comprising: the first substrate forming an aerosol; a second substrate forming an aerosol; an aerosol generating device according to claim 15, wherein when the aerosol-generating article is located in the cavity of the device, at least a part of the first aerosol-generating substrate is located in the first part of the device cavity, and at least a part of the second aerosol-generating substrate is located in the second part of the device cavity.