CN215694981U - Container for atomization and atomization device - Google Patents

Abstract

The utility model provides an atomizing container and an atomizing device, the atomizing container comprises a container body and an atomizer, a containing cavity is formed in the container body, the atomizer is positioned in the containing cavity, the atomizing container is also provided with an air inlet channel and a mist outlet channel, the air inlet channel is used for connecting an external air source and the atomizer and providing air flow for the atomizer, the atomizer is used for mixing and atomizing the air flow provided by the air inlet channel and liquid in the containing cavity to form aerosol, the mist outlet channel is used for discharging the aerosol out of the container body, and in a first state, the air inlet channel and the mist outlet channel are opened, so that the air flow of the external air source can enter the atomizer through the air inlet channel, and the aerosol formed by the atomizer can be discharged out of the outer space of the container through the mist outlet channel; in the second state, the air inlet channel and/or the fog outlet channel are closed; the container for atomization and the atomization device are provided with the atomizer, so that the use is more convenient.

Description

Container for atomization and atomization device

Technical Field

The utility model relates to the field of atomization equipment, in particular to an atomization container and an atomization device.

Background

Along with the continuous improvement of living standard, more and more people pay more attention to the quality of life, people not only need beautiful clean life workplace, still need clean air that does not have the flavor pollution. In order to improve the air environment, people mostly adopt methods of spraying perfume or essential oil in a room to improve the air quality in the room, so that the air in the room is kept fresh, peculiar smell is eliminated, and the effects of sterilization and disinfection are achieved. However, it is troublesome to spray perfume or essential oil in a room, and it is necessary to spray the perfume frequently to maintain the fragrance, and the spray of perfume has large particles and a small floating range, so that the method has low efficiency and much waste. Based on this, one has invented an atomizer which can spray automatically.

The existing atomizer generally comprises a solution bottle and an atomizing head, wherein the solution bottle is connected with the atomizing head. Generally, the solution bottle comprises a bottle body and a cover body, essential oil is filled in the solution bottle, when the solution bottle is used, the cover body is removed, then the atomizing head is installed at a bottle opening of the solution bottle to be used, namely, the cover body needs to be discarded when the solution bottle is used, and then the atomizing head is replaced.

SUMMERY OF THE UTILITY MODEL

Accordingly, there is a need for an atomizing container with an atomizer and an atomizing device.

The utility model provides an atomizing container, which comprises a container body and an atomizer, wherein a containing cavity is formed in the container body, the atomizer is positioned in the containing cavity, the atomizing container is also provided with an air inlet channel and a mist outlet channel, the air inlet channel is used for connecting an external air source with the atomizer and providing airflow for the atomizer, the atomizer is used for mixing and atomizing the airflow provided by the air inlet channel and liquid in the containing cavity to form aerosol, the mist outlet channel is used for discharging the aerosol out of the container body, and in a first state, the air inlet channel and the mist outlet channel are opened, so that the airflow of the external air source can enter the atomizer through the air inlet channel, and the aerosol formed by the atomizer can be discharged out of the outer space of the container through the mist outlet channel; in the second state, the intake passage and/or the mist outlet passage are closed.

As a further improvement to the above embodiment, the container for atomization further includes a first cover body, the first cover body is connected to the container body to close the opening of the container body, the atomizer is connected to the first cover body, and the air inlet channel and the mist outlet channel are disposed on the first cover body.

As a further improvement to the above embodiment, the first cover is further provided with a first valve body and a second valve body, the first valve body is engaged with the air inlet passage to open or close the air inlet passage, the second valve body is engaged with the mist outlet passage to open or close the mist outlet passage, and the first valve body and the second valve body are closed in a free state.

As a further improvement to the above embodiment, the first valve body includes a first sealing member and a first elastic member, the first elastic member is connected to the first sealing member, the second valve body includes a second sealing member and a second elastic member, the second elastic member is connected to the second sealing member, when the first elastic member and the second elastic member are in a free state, the first sealing member closes the air inlet passage, the second sealing member closes the mist outlet passage, an external force presses down the first sealing member and the second sealing member, the air inlet passage communicates the atomizer with an outer space of the container, and the mist outlet passage communicates the accommodation chamber with the outer space of the container.

As a further improvement to the above embodiment, a hollow mounting cylinder is arranged in the first cover body, the upper end and the lower end of the mounting cylinder are open, the mist outlet channel is formed in the mounting cylinder, the air inlet channel is also located in the mounting cylinder, and the mist outlet channel is located on the peripheral side of the air inlet channel; the atomizer is fixed in the lower end opening of the mounting cylinder, the second valve body is movably mounted in the mounting cylinder, the second valve body comprises a vent pipe and a sealing body fixed on the outer peripheral side of the vent pipe, the upper end of the vent pipe penetrates through the opening at the upper end of the mounting cylinder and protrudes outwards, the sealing body is tightly matched with the inner wall of the mounting cylinder, in a first state, the sealing body enables the mist outlet channel to be opened, and the mist formed by the atomizer can be discharged out of the atomizing container through the mist outlet channel; in a second state, the sealing body blocks the mist outlet passage, and the mist generated by the atomizer cannot be discharged out of the atomizing container through the mist outlet passage; the communicating cavity is formed in the vent pipe, and the first valve body is arranged in the communicating cavity.

As a further improvement to the above embodiment, the upper section of the vent pipe is tapered and is in clearance fit with the opening at the upper end of the mounting cylinder, the side wall of the mounting cylinder is provided with a connecting through hole, the second valve body can move relative to the connecting through hole under the action of external force, in a first state, the mist outlet channel is opened, and the mist formed by the atomizer can be discharged out of the atomizing container through the mist outlet channel; in the second state, the mist outlet passage is blocked, and the mist generated by the atomizer cannot be discharged outside the atomizing container through the mist outlet passage.

As a further improvement to the above embodiment, the container for atomization further includes a third cover, where the third cover is a sealed cover, and the third cover covers an upper portion of the container body to seal the atomizer in the accommodating chamber.

As a further improvement to the above embodiment, the mist sprayer further comprises a second cover body, wherein the second cover body is provided with a top pillar, an auxiliary air inlet channel, an auxiliary mist outlet channel and a mist outlet, the mist outlet is communicated with the auxiliary mist outlet channel, and when the second cover body is fixed on the first cover body, the top pillar presses down the first valve body and the second valve body to communicate the auxiliary air inlet channel with the air inlet channel, and the auxiliary mist outlet channel is communicated with the mist outlet channel.

As a further improvement to the above embodiment, an annular sealing groove is disposed at an end of the top pillar close to the first sealing member, and the second valve body is provided with an annular sealing portion, so that when the first cover body is pressed down, the annular sealing portion is hermetically connected to the sealing groove, and the air inlet channel and the auxiliary air inlet channel are isolated from the mist outlet channel and the auxiliary mist outlet channel.

As a further improvement to the above embodiment, a communication cavity is provided in the second sealing element, one end of the communication cavity is communicated with the air intake channel, the other end is communicated with the auxiliary air intake channel, and the first sealing element is located in the communication cavity; a gap is arranged at the contact position of the top column and the first sealing element, and the first sealing element is a spherical sealing element; when the top pillar presses down the first sealing element, the air inlet channel is communicated with the auxiliary air inlet channel through the notch.

As a further improvement to the above embodiment, the container body includes a bottle body portion and a bottle mouth portion, the diameter of the bottle mouth portion is smaller than the diameter of the bottle body portion, one end of the bottle body portion close to the bottle mouth portion is provided with a bottle body clamping groove, and the bottle mouth is opened on the bottle mouth portion; the bottle opening clamping and fixing device is characterized in that a bottle opening clamping and fixing part and a bottle body clamping and fixing groove are formed in the second cover body, the bottle opening clamping and fixing part is connected and fixed with the bottle opening in a clamping mode, and the bottle body clamping and fixing groove is connected and fixed with the bottle body clamping and fixing groove in a clamping mode.

As a further improvement to the above embodiment, the atomizer has a gas passage and a liquid passage, the gas passage has a gas inlet and a gas outlet which are communicated with each other, the liquid passage has a liquid inlet and a liquid outlet which are communicated with each other, the gas outlet is adjacent to the liquid outlet, the atomizer further includes a pipette, one end of the pipette extends to the bottom of the accommodating cavity, the other end of the pipette is communicated with the liquid inlet, the gas inlet is connected with the gas passage, the gas outlet is located above the liquid level in the accommodating cavity, and the gas flow provided by the gas passage is mixed with the liquid in the accommodating cavity and atomized in the vicinity of the gas outlet and discharged into the accommodating cavity.

As a further improvement to the above embodiment, the atomizer includes an atomizer body and a blocking member, the atomizer body is provided with a liquid passage and a gas passage; the tail end of the liquid channel is provided with a liquid outlet, the tail end of the gas channel is provided with a gas outlet, and the liquid outlets are distributed on the periphery of the gas outlet; the blocking piece is arranged opposite to the air outlet and the liquid outlet at a preset distance, the blocking piece enables the air flow sprayed out of the air outlet to be refracted, and the liquid outlet is positioned at the downstream of the air outlet in the refraction direction; the atomization device body comprises a first body and a second body, the first body and the second body are detachably connected, and the second body is sleeved on the outer side of the first body; the gas channel is arranged on the first body, and the liquid channel is arranged on the second body or the outer wall of the first body.

As a further improvement to the above embodiment, the liquid channel includes a plurality of branch channels and a main flow channel, the plurality of branch channels are all communicated with the main flow channel, and a liquid outlet is arranged at the end of each branch channel; or,

the liquid channel comprises a main flow channel and a branch flow channel, the branch flow channel is arranged in an annular shape, the liquid outlet is also in an annular shape, and the gas outlet is positioned in the middle of the annular liquid outlet; furthermore, the liquid outlet is circular, and the difference between the outer diameter and the inner diameter of the circular liquid outlet is 0.2-0.5 mm.

As a further improvement to the above embodiment, the second body includes a main body portion and a fitting portion, a connecting rod is disposed between the main body portion and the fitting portion, and the main body portion and the fitting portion are fixedly connected by the connecting rod; the blocking piece is fixed on the matching part; the distance between the barrier and the air outlet is 0.1mm-1 mm; the inlet of the main flow channel is arranged on the matching part, and the main flow channel penetrates through the connecting rod and extends to the main body part.

As a further improvement to the above embodiment, the second body is provided with a holding hole, a groove having the same extending direction as the holding hole is formed around the holding hole, and the groove extends to the liquid outlet; after the first body is inserted into the clamping hole, the groove forms the branch channel; the first clamping part is arranged in a conical shape, and the liquid channel is also arranged in a conical shape; the liquid outlet of the liquid channel and the liquid outlet of the gas channel are positioned on the same plane.

As a further improvement to the above embodiment, the chucking holes include a first chucking hole and a second chucking hole communicating with the first chucking hole, the second chucking hole has a larger cross-sectional area than the first chucking hole, a first step is formed between the first chucking hole and the second chucking hole, the inlet of the branch flow channel is located on the step, and the outlet of the main flow channel is also located on the first step; the first body comprises a first clamping part and a second clamping part, the first clamping part is matched with the first clamping hole, and the second clamping part is matched with the second clamping hole; a second step is formed between the first clamping part and the second clamping part, a gap is formed between the first step and the second step, and the main flow channel is communicated with the branch flow channels through the gap.

The utility model also provides an atomization device which is characterized by comprising a compressed air source and the atomization container, wherein the air outlet of the compressed air source is communicated with the air inlet channel.

The container for atomization and the atomization device are provided with the atomization head, so that the container for atomization is more convenient to use.

Drawings

The foregoing and other objects, features and advantages of the utility model will be apparent from the following more particular description of preferred embodiments of the utility model, as illustrated in the accompanying drawings. Like reference numerals refer to like parts throughout the drawings, and the drawings are not intended to be drawn to scale in actual dimensions, emphasis instead being placed upon illustrating the principles of the utility model.

FIG. 1 is a cross-sectional view of an atomizing container in accordance with a preferred embodiment of the present invention;

FIG. 2 is a sectional view showing a state of use of an atomizing container according to a preferred embodiment of the present invention;

FIG. 3 is a cross-sectional view of a second cover of the preferred embodiment of the present invention;

FIG. 4 is a cross-sectional view of a first cover of the preferred embodiment of the present invention;

FIG. 5 is an overall structural view of an atomizer in accordance with a preferred embodiment of the present invention;

FIG. 6 is an exploded view of the atomizer of the preferred embodiment of the present invention;

fig. 7 is an overall structural view of a second body of the preferred embodiment of the present invention;

fig. 8 is an overall structural view of a first body of a preferred embodiment of the present invention;

fig. 9 is a sectional view of an atomizer in accordance with a preferred embodiment of the present invention.

In the figure: 1000. an atomizer; 10. a gas channel; 101. an air outlet; 20. a liquid channel; 201. a liquid inlet; 202. a liquid outlet; 203. a main flow channel; 204. a branch channel; 100. an atomizer body; 1. a first body; 11. a chucking section; 111. a first retaining part; 112. a second chucking part; 12. a second step; 13. a protrusion; 14. a third step; 15. a connecting portion; 2. a second body; 21. a chucking hole; 211. a first holding hole; 212. a second holding hole; 22. a first step; 23. positioning a groove; 24. a main body portion; 25. a fitting portion; 3. a blocking member; 4. a connecting rod; 5. a container body; 51. a body portion; 511. the bottle body is clamped in the groove; 52. a finish portion; 6. a first cover body; 61. an air intake passage; 62. a mist outlet channel; 63. an annular seal portion; 64. a bottle mouth clamping part; 65. mounting the cylinder; 7. a second cover body; 71. an auxiliary intake passage; 72. an auxiliary mist outlet channel; 73. a mist outlet; 74. a top pillar; 741. an annular seal groove; 8. an elastic member; 81. a first elastic member; 82. a second elastic member; 9. a seal member; 91. a first seal member; 92. a second seal member; 921. a communicating cavity; 922. a breather pipe; 9221. a connecting through hole; 923. and a sealing body.

Detailed Description

The following detailed description of the present invention is provided in connection with the accompanying drawings and specific embodiments for the purpose of better understanding and enabling those skilled in the art to practice the present invention, which are not intended to limit the present invention.

Referring to fig. 1 to 9, the present invention provides an atomizing container, which includes a container body 5 and an atomizer 1000, wherein a receiving cavity is formed in the container body 5, the atomizer 1000 is located in the receiving cavity, and the atomizer can be partially or completely located in the receiving cavity, and whether the atomizer is partially or completely located in the receiving cavity, it falls into the protection scope of the present invention. The atomizing container 5 further has an air inlet passage 61 and an mist outlet passage 62, and the air inlet passage 61 is used for connecting an external air source to the atomizer 1000 and supplying an air flow to the atomizer 1000. The atomizer 1000 is used for mixing and atomizing the air flow provided by the air inlet channel 61 and the liquid in the accommodating cavity to form an aerosol. The mist outlet passage 62 is connected to the housing chamber for discharging the mist out of the container body 5. In the first state, the air inlet channel 61 and the mist outlet channel 62 are opened, so that the airflow of an external air source can enter the atomizer through the air inlet channel, and the mist formed by the atomizer can be discharged out of the space outside the container through the mist outlet channel, generally to the outside air; at this time, the atomizing container is generally used, and the liquid is atomized by the high-pressure gas entering from the gas inlet passage 61, and the formed gas mist is diffused from the mist outlet passage 62. In the second state, the air inlet channel 61 and/or the mist outlet channel 62 are closed, and the container for atomizing is normally in a non-use state, so that the liquid in the container body 5 is prevented from flowing out.

As a further improvement to the above embodiment, the container for atomization further includes a first lid 6, the first lid 6 is connected to the container body 5 to close the opening of the container body 5, the atomizer 1000 is connected to the first lid 6, and the air inlet channel 61 and the mist outlet channel 62 are disposed on the first lid 6. Of course, in other embodiments, the air inlet passage 61 and the mist outlet passage 62 may be provided on the atomizer 1000 or the container body 5 or other components.

As a further improvement to the above embodiment, the first cover 6 is further provided with a first valve body and a second valve body, the first valve body is engaged with the air inlet passage 61 for opening or closing the air inlet passage 61, and the second valve body is engaged with the mist outlet passage 62 for opening or closing the mist outlet passage 62. In the free state, the first valve body and the second valve body are closed, and at this time, the atomizing container is in a non-use state, and liquid can be prevented from leaking from the container main body 5.

As a further improvement to the above embodiment, the first lid 6 is connected to the opening of the container body 5, and the second lid 7 is movably connected to the second lid 7. An air inlet channel 61 and a mist outlet channel 62 are arranged in the first cover body 6; the second cover 7 is provided with a top pillar 74, an auxiliary air inlet channel 71, an auxiliary mist outlet channel 72 and a mist outlet 73, the first cover 6 is further provided with an elastic member 8 and a sealing member 9, the elastic member 8 is connected with the sealing member 9, specifically, the elastic member 8 is arranged at the lower part of the sealing member, and the second cover 7 can enable the elastic member to contract by pressing the sealing member 9. In the first state, the air intake passage 61 and the auxiliary air intake passage 71 are blocked by the seal, and the mist discharge passage 62 and the auxiliary mist discharge passage 72 are also blocked by the seal 9, and at this time, the bottle is in a non-use state. In the second state, the cap 74 applies pressure to the sealing member, the air inlet passage 61 and the auxiliary air inlet passage 71 are communicated, and the mist outlet passage 62 and the auxiliary mist outlet passage 72 are also communicated, at which time the bottle is in the use state.

Referring to fig. 1 to 4, as a further modification to the above embodiment, the elastic member 8 includes a first spring 81 and a second spring 82, and the seal member 9 includes a first seal member 91 and a second seal member 92. The first valve body includes a first sealing member and a first elastic member, the second valve body includes a second sealing member and a second elastic member, the first spring 81 is connected to the first sealing member 91, the second spring 82 is connected to the second sealing member 92, and the auxiliary intake passage 71 extends through the top pillar 74. When the second lid 7 is moved toward the first lid 6, the knock pin 74 presses the first seal 91 and the second seal 92, so that the air intake passage 61 and the auxiliary air intake passage 71 communicate with each other, and the mist discharge passage 62 and the auxiliary mist discharge passage 72 also communicate with each other. When the second cover 7 is moved away from the first cover 6 (e.g. the second cover 7 is unscrewed), the first spring 81 and the second spring 82 recover their deformation, the first sealing member 91 and the second sealing member 92 can also function as a sealing partition, so that the air inlet channel 61 and the auxiliary air inlet channel 71 are partitioned, and the mist outlet channel 62 and the auxiliary mist outlet channel 72 are also partitioned. When the first elastic member 81 and the second elastic member 82 are in a free state, the first sealing member 91 closes the air inlet passage 61, the second sealing member 92 closes the mist outlet passage 62, the first sealing member 91 and the second sealing member 92 are pressed down by an external force, the air inlet passage 61 communicates the atomizer 1000 with the space outside the container, and the mist outlet passage 62 communicates the accommodating chamber with the space outside the container.

Referring to fig. 4, as a further modification to the above embodiment, a hollow mounting tube 65 is provided in the first cover 6, the upper and lower ends of the mounting tube 65 are open, a mist outlet passage 62 is formed in the mounting tube 65, the air inlet passage 61 is also located in the mounting tube 65, and the mist outlet passage 62 is located on the peripheral side of the air inlet passage 61. In some embodiments, the air inlet channel 61 is the gas channel 10 of the atomizer, and in other embodiments, the air inlet channel 61 may also be a gas channel communicating with the gas channel 10. The atomizer 1000 is fixed in the lower extreme opening of installation section of thick bamboo 65, and the second valve body is movably installed in installation section of thick bamboo 65, and the second valve body includes breather pipe 922 and the sealing 923 that is fixed in the periphery side of breather pipe 922, and the opening that the upper end of installation section of thick bamboo 65 was passed to the upper end of breather pipe 922 is outside protrusion, and sealing 923 closely cooperates with the inner wall of installation section of thick bamboo 65, makes it can seal the connecting through-hole 9221 on the installation section of thick bamboo 65. In the first state, the seal body 923 opens the mist outlet passage 61, and the mist generated by the nebulizer 1000 can be discharged to the outside of the container for atomization through the mist outlet passage 61; in the second state, the seal body 923 blocks the mist outlet passage 61, and the mist generated by the nebulizer 1000 cannot be discharged to the outside of the atomizing container through the mist outlet passage 61; a communication chamber 921 is formed in the vent pipe 922, and the first valve body is disposed in the communication chamber 921.

As a further improvement to the above embodiment, the upper section of the vent pipe 922 is tapered, and is in clearance fit with the opening at the upper end of the mounting cylinder 65, so that pressing the vent pipe 922 downward is smoother, and the opening clearance between the vent pipe 922 and the side wall of the mounting bar 65 is larger, the side wall of the mounting cylinder 65 is provided with a connecting through hole 9221, the second valve body can move relative to the connecting through hole 9221 under the action of external force, and in the first state, the mist outlet channel 62 is opened, and the mist formed by the atomizer 1000 can be discharged out of the container for atomization through the mist outlet channel 62; in the second state, the mist outlet passage 61 is blocked, and the mist generated by the atomizer 1000 cannot be discharged to the outside of the atomizing container through the mist outlet passage 62.

As a further improvement to the above embodiment, the container for atomization further includes a third cover (not shown), and the third cover is a sealed cover, that is, the container for atomization can be sealed after the third cover is connected to the container body 5 or the first cover 6. The third cover covers the upper portion of the container body 5 to enclose the atomizer 1000 in the accommodating cavity, and it should be noted that the third cover may directly or indirectly cover the upper portion of the container body 5, that is, the third cover may be directly connected to the container body 5, or other components may be disposed between the container body 5 and the third cover, and the third cover is indirectly connected to the container body 5, so long as the third cover may still enclose part or all of the atomizer in the atomizing cavity, the scheme thereof falls within the protection scope of the present application. During transportation or sale, the third cover body covers the upper part of the container body 5, so that the first valve body and/or the second valve body can be prevented from being opened by mistake, and liquid can be prevented from flowing out of the container body; when the container for atomization is used for atomization, the third cover body is removed and reused.

Referring to fig. 1-3, as a further improvement to the above embodiment, an annular sealing groove 741 is disposed at an end of the top pillar 74 close to the sealing member, the first sealing member 91 is disposed with an annular sealing portion 63, when the second cover 7 is pressed downward (the second cover is pressed downward, and can be pressed downward directly, or can be moved downward by screwing the second cover), the annular sealing portion 63 is connected with the annular sealing groove 741 in a sealing manner, the air inlet channel 61 and the auxiliary air inlet channel 71 are used for flowing high-pressure air, the mist outlet channel 62 and the auxiliary mist outlet channel 72 are used for flowing mist atomized by the atomizer, the annular sealing portion 63 is connected with the annular sealing groove 741 in a sealing manner, so that the air inlet channel 61 and the auxiliary air inlet channel 71 are isolated from the mist outlet channel 62 and the auxiliary mist outlet channel 62, that the air inlet channel 61 and the auxiliary air inlet channel 71 are communicated to form one channel, and the mist outlet channel 62 and the auxiliary mist outlet channel 72 are communicated to form another channel, the two passages are isolated to isolate the high pressure gas from the aerosol. Specifically, a communication port is provided in the mist outlet passage 62, and the second sealing member 92 penetrates through the communication port; in the first state, the second seal 92 is sealingly connected to the side wall of the communication port; in the second state, a gap is formed between the second seal 92 and the side wall of the communication port, and the mist outlet passage 62 and the auxiliary mist outlet passage 72 are communicated with each other.

As a further modification to the above-described embodiment, referring to fig. 4, a communication chamber 921 is provided in the second seal member 92, one end of the communication chamber 921 communicates with the intake passage 61, the other end of the communication chamber 921 communicates with the auxiliary intake passage 71, and the first seal member 91 is located in the communication chamber 921; in the first state, the first seal 91 blocks the communication cavity 921; in the second state, the intake passage 61, the communication chamber 921, and the auxiliary intake passage 71 are communicated in order. Specifically, a notch is provided at a contact position of the top pillar 74 and the first sealing member 91, the first sealing member 91 is a spherical sealing member, the first sealing member 91 may be a conical sealing member or a hemispherical sealing member, in this embodiment, the lower end of the top pillar is provided in a shape with one long side and one short side, so that a gap is provided when the top pillar 74 and the first sealing member 91 are in contact. When the first seal member 91 seals with the side wall of the communication chamber 921, the intake passage 61 and the auxiliary intake passage 71 are sealed; when a gap is formed between the first seal member 91 and the side wall of the communication chamber 921, the top pillar 74 seals with the second seal member 92, and the mist outlet passage and the auxiliary mist outlet passage communicate with each other. The diameter of the end of the first sealing member 91 close to the top pillar 74 is gradually reduced, and when the first sealing member 91 seals the side wall of the communication chamber 921, the second sealing member 92 seals the communication opening, and when a gap is formed between the second sealing member 92 and the communication opening, the second sealing member 92 is sealingly connected to the top pillar 74.

As a further improvement to the above embodiment, the container body 5 includes a bottle body portion 51 and a bottle mouth portion 52, the diameter of the bottle mouth portion 52 is smaller than that of the bottle body portion 51, one end of the bottle body portion 51 close to the bottle mouth portion 52 is provided with a bottle body retaining groove 511, and the bottle mouth is opened on the bottle mouth portion 52; the first cover 6 is provided with an annular sealing portion 64 and a bottle body holding groove 511, the annular sealing portion 64 is fixedly connected to the bottle mouth, and the bottle body holding groove 511 is fixedly connected to the bottle body holding groove 511. Specifically, first lid 6 has elastic plastics or plastic material to make, through holding fixed connection, and makes its interference fit, also plays sealed effect when can playing the connection effect.

As a further improvement to the above embodiment, the mist outlet channel 62 and/or the auxiliary mist outlet channel 72 are/is curved, so that the large-particle mist drops can fall back into the container body 5 during the mist outlet process, and the large-particle mist drops are prevented from falling around the container body 5 to cause pollution. Be provided with the screw thread of mutually supporting on first lid 6 and the second lid 7, first lid 6 and second lid 7 pass through threaded connection fixed, connect more firmly. The mist outlet 73 has a mist outlet direction inclined upward (the upward inclination means that when the container is normally placed on a table, the height of the free end of the mist outlet is larger than the height of other positions of the mist outlet), and large-particle mist drops falling on the mist outlet 73 can flow back to the solution bottle.

As a further improvement to the above embodiment, the liquid guiding device further includes an atomizer, the atomizer 1000 is disposed in the air inlet channel 61, the mist outlet 73 of the atomizer 1000 is communicated with the mist outlet channel 62, and the atomizer is connected with a liquid guiding member, such as a cotton core or a liquid guiding capillary.

Referring to fig. 5-9, as a further modification to the above embodiment, the atomizer 1000 includes an atomizer body 100 and a blocking member 3, the atomizer body 100 is provided with a liquid passage 20 and a gas passage 10, in use, the liquid passage 20 is filled with liquid to be atomized, and the gas passage 10 is filled with high-pressure gas. The tail end of the liquid channel 20 is provided with a liquid outlet 202, the tail end of the gas channel 10 is provided with a gas outlet 101, and the liquid outlets 202 are distributed on the periphery of the gas outlet 101; the blocking member 3 is disposed opposite to the air outlet 101 and the liquid outlet 202 and spaced a predetermined distance from each other, and the blocking member 3 refracts the air flow ejected from the air outlet 101, that is, after the air flow hits the blocking member, the moving direction of the air flow is changed by the blocking member like the refraction of light. The liquid outlet 202 is located downstream of the refraction direction of the gas outlet 101, i.e. the gas flow can be refracted and then hit on the liquid outlet 202. The high-pressure gas is sprayed on the blocking piece 3 after coming out from the gas channel 10, the blocking piece 3 enables the high-pressure gas to diffuse all around, so that the liquid coming out from the liquid outlet 202 is scattered and atomized, the atomized fog diffuses all around along with the airflow of the high-pressure gas, and the diffusion speed of the atomized aroma phase is fast due to the high flow speed of the high-pressure gas.

Referring to fig. 9, as a further modification to the above embodiment, the atomizer body 100 includes a first body 1 and a second body 2, the first body 1 and the second body 2 are detachably connected, and the second body 2 is sleeved on the outer side of the first body 1; the gas channel 10 opens onto the first body 1 and the liquid channel 20 opens onto the second body 2 or onto the outer wall of the first body 1.

Referring to fig. 5 and 9, as a further modification of the above embodiment, the liquid channel 20 includes a main flow channel 203 and a branch channel 204, the branch channel 204 is provided in plural, and the plural branch channels 204 are all communicated with the main flow channel 203. The main flow channel 203 is divided into a plurality of branch flow channels 204, and a small amount of liquid or one liquid inlet 201 can realize that liquid is supplied to the liquid outlet 202, so that the number of the main flow channels 203 is reduced, and the processing is convenient. The end of each branch channel 204 is provided with the liquid outlet 202, and the number of the main flow channels 203 is small, so the aperture of the main flow channels 203 can be relatively large, and the situation that the liquid channel 20 is blocked is reduced. In another embodiment, the liquid channel 20 comprises a main flow channel 203 and a branch flow channel 204, the branch flow channel 204 is annular, the liquid outlet 202 is also annular, and the gas outlet is located in the middle of the annular liquid outlet. The liquid outlet 202 is circular, the difference between the outer diameter and the inner diameter of the circular liquid outlet 202 is 0.2-0.5mm, preferably, the difference between the outer diameter and the inner diameter of the circular liquid outlet 202 is 0.3mm, the outer diameter is only the diameter of the outer edge of the circular liquid outlet, and the inner diameter is the diameter of the inner edge of the circular liquid outlet.

Referring to fig. 6 and 7, as a further modification to the above embodiment, the second body 2 includes a main body portion 24 and a fitting portion 25, a connecting rod 4 is provided between the main body portion 24 and the fitting portion 25, the main body portion 24 and the fitting portion 25 are fixedly connected by the connecting rod 4, and the main body portion 24 and the fitting portion 25 are in communication with the outside for diffusing the spray. Specifically, the main body portion 24 and the fitting portion 25 are open except for the connecting rod 4, and facilitate the dispersion of mist. The barrier 3 is fixed on the fitting portion 25, and the distance between the barrier 3 and the air outlet 101 is 0.1mm-1mm, specifically, the distance between the barrier 3 and the air outlet 101 is 0.2mm, 0.3mm, 0.4mm, 0.5mm, 0.6mm, 0.7mm, 0.8mm or 0.9 mm.

Referring to fig. 9, as a further modification to the above embodiment, an inlet of the main flow passage 203 is provided on the fitting portion 25, and the main flow passage 203 extends through the connecting rod 4 to the main body portion 24.

Referring to fig. 6 and 7, as a further improvement of the above embodiment, the second body 2 is provided with a holding hole 21, a groove having the same extending direction as the holding hole is formed on the peripheral side of the holding hole 21, and the groove extends to the liquid outlet 202. After the first body 1 is inserted into the chucking hole, the groove is formed as a branch passage 204. The diameters of the liquid channel 20 and the gas channel 10 are small, and particularly the liquid channel 20 cannot suck out liquid by negative pressure if the diameter is too large, and the processing is difficult if the diameter is too small. The mode of arranging the liquid channel 20 and the gas channel 10 makes the arrangement of the liquid channel 20 and the gas channel 10 simpler, the gas outlet 101 of the gas channel 10 is small, the cross section of the gas position is large, the processing is convenient, and the cleaning is easy. Because the branch channel 204 can not be arranged too large, the scheme adopts the mode that the first body 1 and the second body 2 are matched together to form the branch channel 204, so that the arrangement of the branch channel 204 is simple, and the branch channel 204 is easy to clean.

Referring to fig. 6 to 8, as a further modification of the above embodiment, the chucking holes 21 include a first chucking hole 211 and a second chucking hole 212 communicating with the first chucking hole 211, the second chucking hole 212 having a larger cross-sectional area than the first chucking hole 211, a first step 22 formed between the first chucking hole 211 and the second chucking hole 212, an inlet of the branch flow passage 204 being located on the step, and an outlet of the main flow passage 203 being also located on the first step 22. Referring to fig. 4, the first body 1 includes a chucking part 11 and a connecting part 15, and the connecting part 15 protrudes from the chucking hole for connection with an external air pump. The chucking part 11 includes a first chucking part 111 and a second chucking part 112, the first chucking part 111 is matched with the first chucking hole 211, and the second chucking part 112 is matched with the second chucking hole 212. A second step 12 is formed between the first and second catches 111 and 112, a gap is formed between the first and second steps 22 and 12, and the main flow channel 203 and the plurality of branch flow channels 204 communicate through the gap. The first clamping part 111 is inserted into the first clamping groove, the first clamping part 111 is attached to the side wall of the first clamping groove, so that the groove on the peripheral side of the first clamping groove forms a branch channel 204, and the first body 1 and the second body 2 can be fixed. The second clamping portion 112 is in interference fit with the side wall of the second clamping groove, so that the connection between the first body 1 and the second body 2 is further stable.

As a further improvement to the above embodiment, a third step 14 is provided between the connecting portion 15 and the retaining portion, and the third step 14 cooperates with the second portion to limit the length of the retaining portion inserted into the retaining hole, so that the gap formed by the first step 22 and the second step 12 is not too small, or there is no gap between the first step 22 and the second step 12.

As a further modification to the above embodiment, the positioning groove 23 is provided on the second chucking hole 212, the protrusion 13 engaged with the positioning groove 23 is provided on the second chucking part 112, and the outlet of the main flow passage 203 is located in the positioning groove 23. The relative positions of the first body 1 and the second body 2 are fixed, so that the first body 1 cannot rotate in the clamping groove of the second body 2.

As a further improvement to the above embodiment, the first clamping portion 111 is disposed in a conical shape, and the liquid passage 20 is also disposed in a conical shape, so that a groove is conveniently formed, the processing is convenient, and the liquid outlet 202 of the liquid passage 20 is as close as possible to the gas outlet 101, so that the atomization effect is better. The liquid outlet 202 of the liquid channel 20 and the liquid outlet 202 of the gas channel 10 are located on the same plane, and the air flow whose flow direction is changed by the blocking member 3 directly acts on the liquid coming out of the liquid outlet 202, and is not blocked by other objects, otherwise, the flow rate of the air flow is affected, and the atomization effect is also affected.

The baffle 3 opposite to the gas outlet 101 is arranged, the liquid outlets 202 are arranged around the gas outlet 101, and high-pressure gas impacting on the baffle 3 is diffused around, so that liquid coming out of the liquid outlets 202 is scattered, and the purpose of spraying around is achieved.

The utility model also provides an atomization device which comprises a compressed air source and any one of the atomization containers, wherein the compressed air source is communicated with the air inlet channel of the atomization container. In particular, the compressed gas source may be a gas pump or a compressed gas tank.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (18)

1. An atomizing container is characterized by comprising a container body and an atomizer, wherein a containing cavity is formed in the container body, the atomizer is located in the containing cavity, the atomizing container is further provided with an air inlet channel and a mist outlet channel, the air inlet channel is used for connecting an external air source with the atomizer and providing air flow for the atomizer, the atomizer is used for mixing and atomizing the air flow provided by the air inlet channel and liquid in the containing cavity to form aerosol, the mist outlet channel is used for discharging the aerosol out of the container body, and in a first state, the air inlet channel and the mist outlet channel are opened, so that the air flow of the external air source can enter the atomizer through the air inlet channel, and the air flow formed by the atomizer can be discharged out of a space outside the container through the mist outlet channel; in the second state, the intake passage and/or the mist outlet passage are closed.

2. The container of claim 1, further comprising a first cover coupled to the container body to close the opening of the container body, wherein the atomizer is coupled to the first cover, and wherein the air inlet channel and the mist outlet channel are disposed on the first cover.

3. The container for atomizing as set forth in claim 2, wherein said first lid body is further provided with a first valve body and a second valve body, said first valve body being engaged with said air inlet passage for opening or closing said air inlet passage, said second valve body being engaged with said mist outlet passage for opening or closing said mist outlet passage, said first valve body and said second valve body being closed in a free state.

4. The container for atomizing as set forth in claim 3, wherein the first valve body includes a first sealing member and a first elastic member, the first elastic member is connected to the first sealing member, the second valve body includes a second sealing member and a second elastic member, the second elastic member is connected to the second sealing member, the first sealing member closes the air inlet passage and the second sealing member closes the mist outlet passage when the first and second elastic members are in a free state, the first sealing member presses down the first sealing member and the second sealing member, the air inlet passage communicates the atomizer with a space outside the container, and the mist outlet passage communicates the accommodating chamber with a space outside the container.

5. The container for atomizing as set forth in claim 3, wherein a hollow mounting tube is provided in the first lid body, the mounting tube being open at both upper and lower ends thereof, the mounting tube having the mist outlet passage formed therein, the air inlet passage also being provided in the mounting tube, and the mist outlet passage being provided on a peripheral side of the air inlet passage; the atomizer is fixed in the lower end opening of the mounting cylinder, the second valve body is movably mounted in the mounting cylinder, the second valve body comprises a vent pipe and a sealing body fixed on the outer peripheral side of the vent pipe, the upper end of the vent pipe penetrates through the opening at the upper end of the mounting cylinder and protrudes outwards, the sealing body is tightly matched with the inner wall of the mounting cylinder, in a first state, the sealing body enables the mist outlet channel to be opened, and the mist formed by the atomizer can be discharged out of the atomizing container through the mist outlet channel; in a second state, the sealing body blocks the mist outlet passage, and the mist generated by the atomizer cannot be discharged out of the atomizing container through the mist outlet passage; the communicating cavity is formed in the vent pipe, and the first valve body is arranged in the communicating cavity.

6. The container as claimed in claim 5, wherein the upper section of the vent pipe is tapered to fit with the opening at the upper end of the mounting cylinder with clearance, the side wall of the mounting cylinder is provided with a connecting through hole, the second valve body is movable relative to the connecting through hole under the action of external force, and in the first state, the mist outlet passage is opened, and the mist generated by the atomizer can be discharged out of the container through the mist outlet passage; in the second state, the mist outlet passage is blocked, and the mist generated by the atomizer cannot be discharged outside the atomizing container through the mist outlet passage.

7. The container for atomizing as set forth in any one of claims 1 to 6, further comprising a third lid member, said third lid member being a sealing lid member, said third lid member covering an upper portion of said container body to enclose said atomizer in said accommodating chamber.

8. The container for atomizing as set forth in claim 2, further comprising a second cover body, wherein the second cover body is provided with a top pillar, an auxiliary air inlet channel, an auxiliary mist outlet channel, and a mist outlet, the mist outlet is communicated with the auxiliary mist outlet channel, and when the second cover body is fixed to the first cover body, the top pillar presses down the first valve body and the second valve body to communicate the auxiliary air inlet channel with the air inlet channel, and the auxiliary mist outlet channel is communicated with the mist outlet channel.

9. The container as claimed in claim 8, wherein an annular seal groove is formed at an end of the top pillar adjacent to the first seal member, and the second valve body is provided with an annular seal portion which is sealingly coupled to the seal groove when the first cover body is depressed, thereby isolating the air inlet passage and the auxiliary air inlet passage from the mist outlet passage and the auxiliary mist outlet passage.

10. The container for atomizing as set forth in claim 9, wherein a communicating chamber is provided in the second sealing member, one end of the communicating chamber communicates with the air intake passage and the other end communicates with the auxiliary air intake passage, and the first sealing member is located in the communicating chamber; a gap is arranged at the contact position of the top column and the first sealing element, and the first sealing element is a spherical sealing element; when the top pillar presses down the first sealing element, the air inlet channel is communicated with the auxiliary air inlet channel through the notch.

11. The container for atomizing as set forth in claim 1, wherein the container body includes a body portion and a mouth portion, the diameter of the mouth portion is smaller than the diameter of the body portion, a bottle body retaining groove is provided at an end of the body portion adjacent to the mouth portion, and the mouth is opened at the mouth portion; the bottle opening clamping and fixing device is characterized in that a bottle opening clamping and fixing part and a bottle body clamping and fixing groove are formed in the second cover body, the bottle opening clamping and fixing part is connected and fixed with the bottle opening in a clamping mode, and the bottle body clamping and fixing groove is connected and fixed with the bottle body clamping and fixing groove in a clamping mode.

12. The container for atomizing as set forth in any one of claims 1 to 6 and 8 to 11, wherein the atomizer has a gas passage having a gas inlet and a gas outlet communicating with each other and a liquid passage having a liquid inlet and a liquid outlet communicating with each other and adjacent to the liquid outlet, the atomizer further comprising a pipette having one end extended to the bottom of the accommodating chamber and the other end communicating with the liquid inlet, the gas inlet being connected to the gas inlet passage, the gas outlet being located above the liquid surface in the accommodating chamber, and the gas flow supplied from the gas inlet passage being mixed with the liquid in the accommodating chamber and atomized in the vicinity of the gas outlet and discharged into the accommodating chamber.

13. A container for atomizing as set forth in claim 12, wherein said atomizer comprises an atomizer body provided with a liquid passage and a gas passage, and a blocking member; the tail end of the liquid channel is provided with a liquid outlet, the tail end of the gas channel is provided with a gas outlet, and the liquid outlets are distributed on the periphery of the gas outlet; the blocking piece is arranged opposite to the air outlet and the liquid outlet at a preset distance, the blocking piece enables the air flow sprayed out of the air outlet to be refracted, and the liquid outlet is positioned at the downstream of the air outlet in the refraction direction; the atomization device body comprises a first body and a second body, the first body and the second body are detachably connected, and the second body is sleeved on the outer side of the first body; the gas channel is arranged on the first body, and the liquid channel is arranged on the second body or the outer wall of the first body.

14. The container for atomizing as set forth in claim 13, wherein the liquid passage includes a trunk passage and a plurality of branch passages, the plurality of branch passages are connected to the trunk passage, and each branch passage has a liquid outlet at a distal end thereof; or,

the liquid channel comprises a main flow channel and a branch flow channel, the branch flow channel is arranged in an annular shape, the liquid outlet is also in an annular shape, and the gas outlet is positioned in the middle of the annular liquid outlet; furthermore, the liquid outlet is circular, and the difference between the outer diameter and the inner diameter of the circular liquid outlet is 0.2-0.5 mm.

15. The container for atomizing as set forth in claim 13, wherein the second body includes a main body portion and a fitting portion, a connecting rod being provided between the main body portion and the fitting portion, the main body portion and the fitting portion being fixedly connected by the connecting rod; the blocking piece is fixed on the matching part; the distance between the barrier and the air outlet is 0.1mm-1 mm; the inlet of the main flow channel is arranged on the matching part, and the main flow channel penetrates through the connecting rod and extends to the main body part.

16. The container for atomizing as set forth in claim 13, wherein the second body is provided with a retaining hole, a groove extending in the same direction as the retaining hole is provided on a peripheral side of the retaining hole, and the groove extends to the liquid outlet; after the first body is inserted into the clamping hole, the groove forms the branch channel; the first clamping part is arranged in a conical shape, and the liquid channel is also arranged in a conical shape; the liquid outlet of the liquid channel and the liquid outlet of the gas channel are positioned on the same plane.

17. The atomizing container according to claim 16, wherein the catch hole includes a first catch hole and a second catch hole communicating with the first catch hole, the second catch hole having a larger cross-sectional area than the first catch hole, a first step being formed between the first catch hole and the second catch hole, the inlet of the branch flow passage being located on the step, and the outlet of the main flow passage being located on the first step; the first body comprises a first clamping part and a second clamping part, the first clamping part is matched with the first clamping hole, and the second clamping part is matched with the second clamping hole; a second step is formed between the first clamping part and the second clamping part, a gap is formed between the first step and the second step, and the main flow channel is communicated with the branch flow channels through the gap.

18. An atomising device comprising a source of pressurised gas and an atomising container as claimed in any one of claims 1 to 17, the outlet of the source of pressurised gas communicating with the inlet passage.

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