RU2021112628A - HEATING ELEMENT - Google Patents

Claims (51)

1. Cartridge for vaporizer, containing: a reservoir configured to hold the volatilized material; and a heating element configured to heat the vaporized material, the heating element comprising: capillary structure, which includes many rigid parts, wherein the pairs of the plurality of rigid parts are arranged at a distance from each other to define a capillary gap therebetween, wherein the capillary gap is configured to draw vaporizable material from the reservoir into the heating region of the heating element for heating, and the aerosol is generated by heating the vaporizable material drawn into the heating region heating element. 2. The cartridge according to claim. 1, in which the set of rigid parts of the capillary structure contains: upper hard part; and a lower rigid part formed integrally with the upper rigid part and located at a distance from the upper rigid part by a gap that defines a capillary gap. 3. The cartridge according to claim. 1, in which the set of rigid parts of the capillary structure contains: an upper end portion configured to be in fluid communication with the reservoir; a lower end portion containing a heater; lower rigid part; and an upper rigid part integrally formed with a lower rigid part, the upper rigid part comprising: many elements continuing upwards, wherein the capillary gap is formed between adjacent upwardly extending members of the plurality of upwardly extending members. 4. The cartridge according to claim. 1, in which the set of rigid parts of the capillary structure contains: an inner rigid part defining a channel; and an outer rigid part surrounding the inner rigid part and located at a distance from the inner rigid part by a gap that defines the capillary gap. 5. Cartridge according to claim. 1, in which the heating element is located at least partially in the reservoir. 6. The cartridge according to claim 1, in which the upper rigid part of the plurality of rigid parts contains an upper evaporation section having a plurality of upper gaps, and the lower rigid part of the plurality of rigid parts contains a lower evaporation section having a plurality of lower gaps, and moreover, a plurality of upper gaps are located with lateral offset from a plurality of bottom gaps. 7. The cartridge of claim 1, further comprising an air inlet configured to direct the air flow over the heated area such that when the heating element is activated, vaporizable material drawn into the capillary gap in the heated area vaporizes into the air stream. 8. Cartridge according to claim. 1, in which the heating element contains an electrically conductive layer. 9. Cartridge according to claim 8, wherein the electrically conductive layer comprises a conductive track structure. 10. Cartridge according to claim. 1, in which the heating element contains nichrome. 11. The cartridge of claim 1, further comprising an atomizer chamber body that surrounds at least a portion of the heating element, the atomizer chamber body comprising a cut-out area. 12. The cartridge of claim. 11, in which the cut area is made with the ability to receive a porous material, made with the ability to absorb volatilized material. 13. The cartridge of claim 2, wherein the heating element forms a single rigid portion that is folded to define an upper rigid portion and a lower rigid portion. 14. Cartridge according to claim. 2, in which the upper rigid part is parallel to the lower rigid part. 15. Cartridge according to claim. 1, in which the heating element contains a plurality of perforations, allowing evaporation of the evaporated material through them. 16. Evaporative device, containing: body of the evaporator; and cartridge according to item 1. 17. Evaporative device containing: a reservoir configured to hold the volatilized material; and a heating element configured to heat the vaporized material, the heating element comprising: capillary structure, which includes many rigid parts, wherein the pairs of the plurality of rigid parts are arranged at a distance from each other to define a capillary gap therebetween, wherein the capillary gap is configured to draw vaporizable material from the reservoir into the heating region of the heating element for heating, and the aerosol is generated by heating the vaporizable material drawn into the heating region heating element. 18. The evaporation device according to claim 17, in which the plurality of rigid parts of the capillary structure contains: upper hard part; and a lower rigid part formed integrally with the upper rigid part and located at a distance from the upper rigid part by a gap that defines a capillary gap. 19. The evaporator device according to claim 17, in which the plurality of rigid parts of the capillary structure contains: an upper end portion configured to be in fluid communication with the reservoir; a lower end portion containing a heater; lower rigid part; and an upper rigid part integrally formed with a lower rigid part, the upper rigid part comprising: many elements continuing upwards, wherein the capillary gap is formed between adjacent upwardly extending members of the plurality of upwardly extending members. 20. A method comprising: drawing through the capillary gap formed between the two rigid parts of the heating element, the evaporated material from the reservoir of the evaporation device into the heating area, and the heating element is partially located in at least part of the reservoir, and each of the two rigid parts has an evaporation section; heating at least a portion of the evaporation of the two rigid parts to cause the evaporation of the material to be evaporated; and entrainment of the evaporated evaporable material in the air stream along the air flow channel to the mouthpiece of the evaporator device.