RU2021111752A - EVAPORATOR ASSEMBLY AND ITS COMPONENTS - Google Patents

Claims (44)

1. A vaporizer assembly for an electronic vaping device, the vaporizer assembly comprising heating element; a conduit assembly comprising one or more internal surfaces defining a conduit extending through the interior of the conduit assembly such that the conduit assembly is configured to direct air to flow through the conduit in fluid communication with the heating element; and a distribution interface assembly configured to be in fluid communication with both the channel and the reservoir holding the ready-to-evaporate composition, wherein the distribution interface assembly is configured to supply a limited amount of the ready-to-evaporate composition from the reservoir to the heating element wherein the distribution interface assembly comprises a first distribution interface element and a second distribution interface element, wherein the first distribution interface element passes through the channel and is connected to a heating element in the channel such that the first distribution interface element is in direct fluid communication with the channel and a heating element, a part of the second distribution element of the interface is open to the outer part of the evaporator assembly in such a way that the second distribution element of the interface is made with the possibility of being in immediate in a single fluid communication with the tank through a part of the second distribution interface element, the second distribution interface element is isolated from direct fluid communication with the heating element by the first distribution interface element, the first distribution interface element is isolated from direct fluid communication with the reservoir by the second distribution interface element , wherein the second distributing interface element is configured to limit the flow of the finished composition for evaporation from the reservoir to the first distributive interface element. 2. The evaporator assembly according to claim. 1, characterized in that the channel assembly contains a hollow cylindrical inner housing, the first distributive interface element passes in the transverse direction between the opposite internal surfaces of the hollow cylindrical inner housing, and the second distributive interface element contains a hollow cylindrical structure of the distribution interface element, which passes around the outer surface of the hollow cylindrical inner body, the inner surface of the hollow cylindrical structure of the distribution element of the interface is in direct contact with the surface of the first distribution element of the interface, the outer surface of the hollow cylindrical structure of the distribution element of the interface is open to the outer part of the evaporator assembly. 3. The evaporator assembly according to claim. 2, characterized in that it further comprises a cylindrical outer housing containing an opening passing through the cylindrical outer housing, a hollow cylindrical inner housing, the first distributive interface element and the second distributive interface element enclosed within the internal space formed by cylindrical outer body, wherein the hollow cylindrical structure of the distributing interface element is located in the annular space formed by the outer surface of the hollow cylindrical inner body and the inner surface of the cylindrical outer body, the cylindrical outer body being configured to open the annular space into the tank through the hole in such a way that the hollow the cylindrical structure of the distributing element of the interface inside the annular space is made with the possibility of being in direct fluid communication with the tank m through the hole. 4. Evaporator assembly according to any one of claims 1 to 3, characterized in that the first distributive interface element is in direct contact with the heating element. 5. Evaporator assembly according to any one of the preceding claims, characterized in that the second distribution interface element is in direct contact with the first distribution interface element. 6. The evaporator assembly according to any one of the preceding claims, characterized in that the second distributive interface element is isolated from direct fluid communication with the channel. 7. The evaporator assembly according to any one of the preceding claims, characterized in that the evaporator assembly is made with the possibility of a detachable connection with the tank. 8. Cartridge for an electronic device for vaping, and the cartridge contains a reservoir configured to hold the finished composition for evaporation; and an evaporator assembly connected to the reservoir, wherein the evaporator assembly is configured to draw the finished composition for evaporation from the tank, and the evaporator assembly is additionally configured to heat the drawn-in ready composition for evaporation with the formation of generated vapor, and the evaporator assembly comprises heating element; a conduit assembly comprising one or more internal surfaces defining a conduit extending through the interior of the conduit assembly such that the conduit assembly is configured to direct air to flow through the conduit in fluid communication with the heating element; and a distributing interface assembly configured to be in fluid communication with both the channel and the reservoir, wherein the distributive interface assembly is configured to supply a limited amount of ready-to-evaporate composition from the reservoir to the heating element, wherein the distributive interface element in assembly contains a first distribution interface element and a second distribution interface element, wherein the first distribution interface element passes through the channel and is connected to the heating element in the channel in such a way that the first distribution interface element is in direct fluid communication with the channel and the heating element, part of the second distributor interface is open to the outside of the evaporator assembly such that the second distribution interface is configured to be in direct fluid communication with the cut tank through a part of the second distribution interface element, the second distribution interface element is isolated from direct fluid communication with the heating element by the first distribution interface element, the first distribution interface element is isolated from direct fluid communication with the tank by the second distribution interface element, while the second distribution element interface is configured to limit the flow of the finished composition for evaporation from the tank to the first distributive interface element. 9. Cartridge according to claim 8, characterized in that the channel assembly contains a hollow cylindrical inner body, the first distributive interface element extends in the transverse direction between opposite inner surfaces of the hollow cylindrical inner body, and the second distributing interface element contains a hollow cylindrical structure of the distributing interface element, which passes around the outer surface of the hollow cylindrical inner body, the inner surface of the hollow cylindrical structure of the distributing interface element is in direct contact with the surface of the first distributive interface element, the outer surface of the hollow cylindrical structure of the distributing interface element is open to the outside of the evaporator assembly. 10. The cartridge according to claim 9, characterized in that the evaporator assembly further comprises a cylindrical outer housing containing an opening passing through the cylindrical outer housing, a hollow cylindrical inner housing, a first distributive interface element and a second distributive interface element enclosed within the internal space, formed by a cylindrical outer housing, while the hollow cylindrical structure of the distributing interface element of the second distributing interface element is located in the annular space formed by the outer surface of the hollow cylindrical inner housing and the inner surface of the cylindrical outer housing, the cylindrical outer housing being configured to open the annular space into the tank through the hole in such a way that the hollow cylindrical structure of the distributing interface element inside the annular space is made with the possibility of being in direct fluid communication with the tank through the opening. 11. The cartridge according to any one of paragraphs. 8-10, characterized in that the first distributive interface element is in direct contact with the heating element. 12. The cartridge according to any one of paragraphs. 8-11, characterized in that the second distributive interface element is in direct contact with the first distributive interface element. 13. The cartridge according to any one of paragraphs. 8-12, characterized in that the second distributive interface element is isolated from direct fluid communication with the channel. 14. The cartridge according to any one of paragraphs. 8-13, characterized in that the evaporator assembly is detachably connected to the reservoir. 15. An electronic vaping device, wherein the electronic vaping device comprises cartridge, wherein the cartridge contains a reservoir configured to hold the finished composition for evaporation, and an evaporator assembly connected to the reservoir, wherein the evaporator assembly is configured to draw the finished composition for evaporation from the tank, and the evaporator assembly is additionally configured to heat the drawn-in ready composition for evaporation with the formation of generated vapor, and the evaporator assembly comprises heating element; a conduit assembly comprising one or more internal surfaces defining a conduit extending through the interior of the conduit assembly such that the conduit assembly is configured to direct air to flow through the conduit in fluid communication with the heating element; and a distributing interface assembly configured to be in fluid communication with both the channel and the reservoir, wherein the distributive interface assembly is configured to supply a limited amount of ready-to-evaporate composition from the reservoir to the heating element, wherein the distributive interface element in assembly contains a first distribution interface element and a second distribution interface element, wherein the first distribution interface element passes through the channel and is connected to the heating element in the channel in such a way that the first distribution interface element is in direct fluid communication with the channel and the heating element, part of the second distributor interface is open to the outside of the evaporator assembly such that the second distribution interface is configured to be in direct fluid communication with the cut tank through a part of the second distribution interface element, the second distribution interface element is isolated from direct fluid communication with the heating element by the first distribution interface element, the first distribution interface element is isolated from direct fluid communication with the tank by the second distribution interface element, while the second distribution element the interface is configured to limit the flow of the finished composition for evaporation from the reservoir to the first distributive interface element; and a power supply assembly coupled to the cartridge, the power supply assembly comprising a power supply, the power supply assembly being configured to supply power from the power supply to the evaporator assembly. 16. An electronic vaping device according to claim 15, characterized in that the channel assembly contains a hollow cylindrical inner body, the first distributive interface element extends in the transverse direction between opposite inner surfaces of the hollow cylindrical inner body, and the second distributing interface element contains a hollow cylindrical structure of the distributing interface element, which passes around the outer surface of the hollow cylindrical inner body, the inner surface of the hollow cylindrical structure of the distributing interface element is in direct contact with the surface of the first distributive interface element, the outer surface of the hollow cylindrical structure of the distributing interface element is open to the outside of the evaporator assembly. 17. An electronic vaping device according to claim 16, characterized in that the evaporator assembly further comprises a cylindrical outer housing containing an opening passing through the cylindrical outer housing, a hollow cylindrical inner housing, a first distributive interface element and a second distributive interface element enclosed inside of the internal space formed by the cylindrical outer housing, while the hollow cylindrical structure of the distributive interface element of the second distributive interface element is located in the annular space formed by the outer surface of the hollow cylindrical inner housing and the inner surface of the cylindrical outer housing, and the cylindrical outer housing is configured to open the annular space in tank through the hole in such a way that the hollow cylindrical structure of the distributing element of the interface inside the annular space is made with the possibility of being in direct fluid communication with the tank through the hole. 18. An electronic vaping device according to any one of paragraphs. 15-17, characterized in that the first distributive interface element is in direct contact with the heating element. 19. An electronic vaping device according to any one of paragraphs. 15-18, characterized in that the second distributive interface element is in direct contact with the first distributive interface element. 20. An electronic vaping device according to any one of paragraphs. 15-19, characterized in that the second distributive interface element is isolated from direct fluid communication with the channel. 21. An electronic vaping device according to any one of paragraphs. 15-20, characterized in that the cartridge is detachably connected to the power supply assembly. 22. An electronic vaping device according to any one of paragraphs. 15-21, characterized in that the evaporator assembly is detachably connected to the tank. 23. An electronic vaping device according to any one of paragraphs. 15-22, characterized in that the power supply is a rechargeable battery.