CN-224219442-U - Double-bin atomizer

Abstract

The utility model provides a double-bin atomizer which comprises a first oil bin, a second oil bin, a first atomization component and a second atomization component, wherein a first atomization medium is stored in the first oil bin, a second atomization medium is stored in the second oil bin, a first airflow channel is arranged in the first oil bin, a second airflow channel is arranged in the second oil bin, the first airflow channel is communicated with the second airflow channel, the first atomization component is used for atomizing the first atomization medium to form aerosol into the first airflow channel, the second atomization component is used for atomizing the second atomization medium to form smokeless aerosol into the second airflow channel, and one or both of the first atomization component and the second atomization component work simultaneously. By arranging two oil bins, one of the oil bins is atomized to form smokeless aerosol, and the oil bin for switching work achieves the effect of smoke or no smoke. The smoke-free range-increasing device can meet the satisfaction of smoke generated when a user smokes, and can be switched to the smoke-free oil bin for atomization in a smoke-free area to continue using the smoking set, so that the application range is increased.

Inventors

• CHEN JIATAI
• ZHOU SHENGWEN
• ZHANG HUINA
• ZHU SONG

Assignees

• 深圳市赛尔美电子科技有限公司

Dates

Publication Date

20260512

Application Date

20250328

Claims (10)

1. 1. The utility model provides a two storehouse atomizers, its characterized in that includes first oil storehouse, second oil storehouse, first atomization component and second atomization component, store first atomization medium in the first oil storehouse, store second atomization medium in the second oil storehouse, be equipped with first air current passageway in the first oil storehouse, be equipped with second air current passageway in the second oil storehouse, first air current passageway with second air current passageway communicates with each other, first atomization component is used for atomizing first atomization medium forms smog aerosol and gets into in the first air current passageway, second atomization component is used for atomizing second atomization medium forms no smog aerosol and gets into in the second air current passageway, first atomization component with one or both work simultaneously in the second atomization component.
2. 2. The dual chamber atomizer of claim 1 wherein said second oil chamber has a volume less than a volume of said first oil chamber.
3. 3. The dual chamber atomizer of claim 1 wherein said first oil chamber is stacked up and down with said second oil chamber, said first air flow passage being coaxially connected up and down with said second air flow passage.
4. 4. The dual-bin atomizer of claim 1 wherein a first oil storage cotton is disposed in said first oil bin, a second oil storage cotton is disposed in said second oil bin, said first air flow passage extends through said first oil storage cotton, said second air flow passage extends through said second oil storage cotton, said first atomizing assembly is disposed within said first air flow passage, and said second atomizing assembly is disposed within said second air flow passage.
5. 5. The dual chamber atomizer of claim 4 further comprising a first seal, a second seal, and a third seal, said second seal being located between said first seal and said third seal, said first oil chamber being formed between said first seal and said second seal, said second oil chamber being formed between said second seal and said third seal.
6. 6. The dual-chamber atomizer of claim 5 wherein said first seal member has a first through hole therethrough, said second seal member has a second through hole therethrough, said third seal member has a third through hole therethrough, two ends of said first air flow passage are respectively connected to said first through hole and said second through hole, and two ends of said second air flow passage are respectively connected to said second through hole and said third through hole.
7. 7. The dual-bin atomizer of claim 5 further comprising a first oil bin housing and a second oil bin housing, said first oil storage cotton, said first air flow passage and said first atomizing assembly being disposed within said first oil bin housing, said second oil storage cotton, said second air flow passage and said second atomizing assembly being disposed within said second oil bin housing, a lower end of said first seal sealing an upper end of said first oil bin housing, an upper end of said second seal sealing a lower end of said first oil bin housing, a lower end of said second seal sealing an upper end of said second oil bin housing, and an upper end of said third seal sealing a lower end of said second oil bin housing.
8. 8. The dual chamber atomizer of claim 7 further comprising a mouthpiece disposed above said first seal and a battery disposed below said third seal, said battery for powering said first atomizing assembly and said second atomizing assembly.
9. 9. The dual-chamber atomizer of claim 8 further comprising a battery housing, said battery being disposed within said battery housing, a first collar disposed circumferentially about said second seal, a second collar disposed circumferentially about said third seal, said first collar being sandwiched between said first and second oil chamber housings, said second collar being sandwiched between said second oil chamber housing and said battery housing.
10. 10. The dual-chamber atomizer of claim 8 wherein said third seal member is provided with a post, said post is disposed in said second oil-retaining cotton, a wire passing hole is disposed in said post, and a wire of said first atomizing assembly is led out downwards through said wire passing hole and electrically connected to said battery.

Description

Double-bin atomizer Technical Field The utility model relates to the technical field of atomization, in particular to a double-bin atomizer. Background The main structure of the atomizer comprises a battery, an oil bin and an atomization component, wherein the battery provides electric energy required by the electronic cigarette in operation, and the oil bin and the atomization component are matched to provide smokable flavor smoke aerosol. The oil storage cotton in the inner cavity of the oil bin is used for absorbing and storing tobacco tar, the atomization assembly generates heat to heat the oil storage cotton when in operation, and the tobacco tar is evaporated and atomized to form smoke aerosol which is pumped by a user. However, in some situations, such as when the user is located in a smokeless area, the user has a need to smoke, but it is specified that smoke cannot be generated when the user smoke in the smokeless area, and the existing atomizer cannot meet the need that the user wants to smoke electronic cigarettes in the smokeless area. In order to solve the technical problems, a user needs to carry two kinds of electronic cigarettes, one kind of electronic cigarettes generates smoke during suction, the other kind of electronic cigarettes does not generate smoke during suction, and the electronic cigarettes are inconvenient to use and poor in experience. Under the circumstances, there is an urgent need for an atomizer capable of switching whether or not smoke is generated according to the use situation. Disclosure of utility model Therefore, the utility model aims to provide a double-bin atomizer, which can realize the effect of smoke or no smoke by arranging two oil bins, wherein one of the two oil bins forms smokeless aerosol after atomization, and switching the working oil bin. The smoke-free range-increasing device can meet the satisfaction of smoke generated when a user smokes, and can be switched to the smoke-free oil bin for atomization in a smoke-free area to continue using the smoking set, so that the application range is increased. The utility model provides a double-bin atomizer which comprises a first oil bin, a second oil bin, a first atomization component and a second atomization component, wherein a first atomization medium is stored in the first oil bin, a second atomization medium is stored in the second oil bin, a first airflow channel is arranged in the first oil bin, a second airflow channel is arranged in the second oil bin, the first airflow channel is communicated with the second airflow channel, the first atomization component is used for atomizing the first atomization medium to form smoke aerosol, the smoke aerosol enters the first airflow channel, the second atomization component is used for atomizing the second atomization medium to form smokeless aerosol, the smokeless aerosol enters the second airflow channel, and the first atomization component and one or both of the second atomization components work simultaneously. Further, the second oil sump has a volume less than the volume of the first oil sump. Further, the first oil bin and the second oil bin are arranged in a vertically stacked mode, and the first air flow channel and the second air flow channel are connected in a vertically coaxial mode. Further, a first oil storage cotton is arranged in the first oil bin, a second oil storage cotton is arranged in the second oil bin, the first air flow channel penetrates through the first oil storage cotton, the second air flow channel penetrates through the second oil storage cotton, the first atomization component is arranged in the first air flow channel, and the second atomization component is arranged in the second air flow channel. Further, the dual-chamber atomizer further comprises a first seal, a second seal, and a third seal, the second seal being located between the first seal and the third seal, the first oil chamber being formed between the first seal and the second seal, and the second oil chamber being formed between the second seal and the third seal. Further, a first through hole is formed in the first sealing piece in a penetrating mode, a second through hole is formed in the second sealing piece in a penetrating mode, a third through hole is formed in the third sealing piece in a penetrating mode, two ends of the first air flow channel are respectively communicated with the first through hole and the second through hole, and two ends of the second air flow channel are respectively communicated with the second through hole and the third through hole. Further, the double-bin atomizer further comprises a first oil bin shell and a second oil bin shell, wherein the first oil storage cotton, the first airflow channel and the first atomization component are arranged in the first oil bin shell, the second oil storage cotton, the second airflow channel and the second atomization component are arranged in the second oil bin shell, the lower end of the first seali