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CN-224208339-U - Liquid molecular ion atomizer with inverted container

CN224208339UCN 224208339 UCN224208339 UCN 224208339UCN-224208339-U

Abstract

The application discloses an inverted container liquid molecular ion atomizer, which relates to the technical field of atomizers and comprises a cavity, wherein an atomization cavity is arranged in the cavity, the outer surface of the cavity is connected with a bottle body, a liquid outlet pipe and an air inlet pipe are connected in the cavity, the bottle body and the atomization cavity are both communicated with the liquid outlet pipe, the cavity is connected with a shell, an air cavity is formed between the shell and the cavity, the air cavity and the atomization cavity are both communicated with the air inlet pipe, the shell is connected with a pump valve, the pump valve is used for inflating into the air cavity, the liquid outlet end of the liquid outlet pipe corresponds to the air outlet end of the air inlet pipe, and the cavity is provided with an air outlet channel communicated with the atomization cavity. According to the application, the bottle body is arranged on the outer surface of the cavity, so that the problem that the volume and the liquid capacity are limited because the storage bottle is positioned in the atomizer in the prior art is effectively solved, and the bottle body with larger size is used, so that the liquid storage capacity is increased.

Inventors

  • WANG QING
  • ZHANG JUN
  • ZHOU CAI

Assignees

  • 杭州赤松光电科技有限公司

Dates

Publication Date
20260508
Application Date
20250425

Claims (10)

  1. 1. The liquid molecular ion atomizer with the inverted container is characterized by comprising a cavity (1), wherein an atomization cavity (111) is formed in the cavity (1), a bottle body (2) is connected to the outer surface of the cavity (1), a liquid outlet pipe (5) and an air inlet pipe (6) are connected to the cavity (1), the bottle body (2) and the atomization cavity (111) are communicated with the liquid outlet pipe (5), a shell (4) is connected to the cavity (1), an air cavity (41) is formed between the shell (4) and the cavity (1), the air cavity (41) and the atomization cavity (111) are communicated with the air inlet pipe (6), a pump valve is connected to the shell (4), the pump valve is used for inflating the air cavity (41), the liquid outlet end of the liquid outlet pipe (5) corresponds to the air outlet end of the air inlet pipe (6), and the cavity (1) is provided with an air outlet channel (117) communicated with the atomization cavity (111).
  2. 2. The inverted container liquid molecular ion atomizer of claim 1 wherein said liquid outlet tube (5) is provided with a liquid outlet end having an inner diameter dimension which decreases stepwise in a direction away from said liquid outlet tube (5), said air inlet tube (6) is provided with an air outlet end having an inner diameter dimension which decreases stepwise in a direction away from said air inlet tube (6).
  3. 3. The inverted container liquid molecular ion atomizer according to claim 1, wherein the cavity (1) is connected with a return pipe (7), one end of the return pipe (7) is positioned at the bottom of the atomization cavity (111), the other end of the return pipe penetrates through the cavity (1) and is positioned in the bottle body (2), and a liquid inlet of the liquid outlet pipe (5) is positioned between two ends of the return pipe (7).
  4. 4. The inverted container liquid molecular ion atomizer according to claim 1, wherein the bottle (2) is screwed with the cavity (1), and the cavity (1) is provided with a thread groove (112) for screw-fitting with the bottle (2).
  5. 5. The inverted container liquid molecular ion atomizer according to claim 4, wherein the cavity (1) is connected with a first sealing ring (3), the cavity (1) is provided with a mounting ring groove (113) for matching with the first sealing ring (3), and the mounting ring groove (113) is communicated with the thread groove (112).
  6. 6. The inverted container liquid molecular ion atomizer according to claim 1, wherein the cavity (1) comprises a shell (11) and a bottom cover (12) clamped on the shell (11), the atomizing cavity (111) is arranged on the shell (11), the bottom cover (12) is used for covering an opening of the atomizing cavity (111), the shell (11) is provided with a clamping groove (114) used for being matched with the bottom cover (12) in a clamping mode, and the clamping groove (114) is communicated with the atomizing cavity (111).
  7. 7. The inverted container liquid molecular ion atomizer according to claim 6, wherein said bottom cover (12) is provided with a positioning block (121), said housing (11) is provided with a positioning groove (115) for mating with said positioning block (121), and said engaging groove (114) is in communication with said positioning groove (115).
  8. 8. The inverted container liquid molecular ion atomizer according to claim 6, wherein the bottom cover (12) is connected with a second sealing ring (8), the bottom cover (12) is provided with a first limiting ring groove (122) for matching with the second sealing ring (8), the shell (11) is provided with a second limiting ring groove (116) for matching with the second sealing ring (8), and the second limiting ring groove (116) is communicated with the clamping groove (114).
  9. 9. The inverted container liquid molecular ion atomizer according to claim 6, wherein said housing (11) is connected with a liquid blocking plate (9), said liquid blocking plate (9) being located at an air inlet of said air outlet channel (117).
  10. 10. The inverted container liquid molecular ion atomizer according to claim 9, wherein the liquid blocking plate (9) is detachably connected with the housing (11), the housing (11) is provided with two limiting plates (118), the liquid blocking plate (9) is located between the two limiting plates (118), the housing (11) is connected with a clamping rod (119), the bottom cover (12) is provided with a clamping plate (123), and the liquid blocking plate (9) is clamped by the clamping rod (119) and the clamping plate (123).

Description

Liquid molecular ion atomizer with inverted container Technical Field The application relates to the technical field of atomizers, in particular to an inverted container liquid molecule ion atomizer. Background Molecular ion atomizers are devices for converting molecules in liquid samples into gaseous ions, which have a small floor area and an attractive appearance, and have a wide market prospect, and are currently widely applied to indoor, in-car and other environments. The prior Chinese patent with publication number of CN219941349U discloses a compact aromatherapy atomizer device, wherein a sleeve and a supporting seat form a closed space for accommodating a pump body, and a transmission path of noise is cut off, so that the noise generated by the pump body is reduced, the use experience of a user is improved, meanwhile, the sleeve limits the pump body to be used as a vibration generated when the pump body operates, the vibration generated by the pump body is reduced, the loosening risk is reduced, and meanwhile, the noise generated by the vibration can be reduced. However, the storage bottle is located in the atomizer, which limits the volume and liquid capacity of the storage bottle, and needs to be improved. Disclosure of utility model The application aims to provide an inverted container liquid molecular ion atomizer, which aims to improve the use capacity of liquid. The application provides an inverted container liquid molecular ion atomizer which adopts the following technical scheme that the inverted container liquid molecular ion atomizer comprises a cavity, wherein an atomization cavity is arranged in the cavity, the outer surface of the cavity is connected with a bottle body, a liquid outlet pipe and an air inlet pipe are connected in the cavity, the bottle body and the atomization cavity are both communicated with the liquid outlet pipe, the cavity is connected with a shell, an air cavity is formed between the shell and the cavity, the air cavity and the atomization cavity are both communicated with the air inlet pipe, the shell is connected with a pump valve, the pump valve is used for inflating the air cavity, the liquid outlet end of the liquid outlet pipe corresponds to the air outlet end of the air inlet pipe, and the cavity is provided with an air outlet channel communicated with the atomization cavity. Through adopting above-mentioned technical scheme, through setting up the bottle at the cavity external surface, effectively solved among the prior art storage bottle and be located inside the atomizer and lead to the limited problem of volume and liquid capacity, the great bottle of use size to the liquid memory space has been increased. The liquid outlet pipe and the air inlet pipe arranged in the cavity are respectively communicated with the bottle body and the atomization cavity, so that accurate conveying of liquid and efficient introduction of gas are realized. The air cavity design between shell and the cavity cooperates with pump valve to aerate the function, ensures that gas can get into the atomizing intracavity. The liquid outlet end of the liquid outlet pipe is correspondingly arranged with the gas outlet end of the gas inlet pipe, so that liquid and gas can be fully mixed in the atomization cavity, the atomization efficiency is further improved, and the gas outlet channel on the cavity is convenient for discharging the atomized gas. Optionally, the drain pipe is provided with out the liquid end, go out the internal diameter size of liquid end towards keeping away from the direction of drain pipe reduces step by step, the intake pipe is provided with out the gas end, the internal diameter size of giving vent to anger the end towards keeping away from the direction of intake pipe reduces step by step. Through adopting above-mentioned technical scheme, the drain end internal diameter size of drain pipe reduces step by step, can form finer liquid flow to improve atomization effect, make liquid molecule change into gaseous state ion more easily. The inner diameter of the air outlet end of the air inlet pipe is gradually reduced, so that the air flow can be accelerated, the impact of the air on the liquid flow is enhanced, and the atomization effect is further improved. Optionally, the cavity is connected with the back flow, the one end of back flow is located the bottom in atomizing chamber, and the other end runs through the cavity just is located in the bottle, the inlet of drain pipe is located between the both ends of back flow. Through adopting above-mentioned technical scheme, because gas gets into the atomizing intracavity through the intake pipe, make the atmospheric pressure in the atomizing intracavity be greater than the atmospheric pressure in the bottle, drive the unoccupied liquid of atomizing chamber bottom and flow back to the essential oil bottle through the back flow, avoid the liquid to remain and cause the waste. The liquid inlet of the liquid outlet pipe is p