CN114632642B

CN114632642B - Dual atomizing type aerosol valve

Info

Publication number: CN114632642B
Application number: CN202210162847.4A
Authority: CN
Inventors: 施永忠; 邓炬文
Original assignee: Zhongshan Gaolinmei Packing Technology Co ltd
Current assignee: Zhongshan Gaolinmei Packing Technology Co ltd
Priority date: 2020-11-05
Filing date: 2020-11-05
Publication date: 2023-12-01
Anticipated expiration: 2040-11-05
Also published as: CN114471992B; CN112588473B; CN114471992A; CN114632642A; CN112588473A

Abstract

The application relates to the technical field of aerosol products, in particular to a double-atomization type aerosol valve which comprises an aerosol valve body, wherein the aerosol valve body comprises an aerosol valve inlet, an aerosol valve outlet and an atomization chamber arranged between the aerosol valve inlet and the aerosol valve outlet, and a first atomization device for converting liquid into mist and a second atomization device for converting the mist liquid discharged from the first atomization device into mist liquid with smaller particles are sequentially arranged in the atomization chamber along the mist outlet direction. According to the dual-atomization type aerosol valve, the dual atomization device is arranged, so that liquid is atomized for the first time through the first atomization device and is atomized further through the second atomization device, so that the liquid, particularly oil or viscous liquid which is not easy to atomize, forms smaller and more uniform atomization particles, the atomization requirement of an external nozzle is weakened, the atomization requirement of using inert gas as a propellant is met, and the environmental protection performance and safety are enhanced.

Description

Dual atomizing type aerosol valve

The application relates to a double atomization type aerosol valve and an aerosol valve bag, which are applied separately, the application number of the original application is 202011221392.6, the application date is 11/5/2020.

[ field of technology ]

The application relates to the technical field of aerosol products, in particular to a double atomization type aerosol valve.

[ background Art ]

Aerosol valves have long been an important part of aerosol product development as a key component of aerosol product performance.

In order to meet different requirements of aerosol spraying modes, the spray head matched with an aerosol valve is mainly relied on at present. The aerosol valve cannot realize an atomization function, and for a plurality of more viscous liquids, the atomization effect of a common spray head is poor; on the other hand, in order to meet the environmental protection requirement, on the premise of ensuring the functional requirement of aerosol products, more and more aerosol products hope to replace LPG or dimethyl ether with compressed air or nitrogen and the like as a propellant, however, due to the fact that inert gas is insoluble in the content of the products, the conventional aerosol valve cannot realize the function of the aerosol products which is equivalent to that of the LPG or the dimethyl ether as the propellant due to insufficient atomization capability.

[ application ]

The application aims to provide a double atomization type aerosol valve, by arranging a double atomization device, liquid is atomized for the first time through the first atomization device and is atomized further through the second atomization device, so that the liquid, particularly oil or viscous liquid which is not easy to atomize, forms smaller and more uniform atomization shape of particles, the atomization requirement of an external nozzle is weakened, the atomization requirement of using inert gas and the like as a propellant is met, and the environmental protection performance and the safety are enhanced.

The application is realized by the following technical scheme:

the double-atomization type aerosol valve comprises an aerosol valve body, wherein the aerosol valve body comprises an aerosol valve inlet, an aerosol valve outlet and an atomization chamber arranged between the aerosol valve inlet and the aerosol valve outlet, and a first atomization device for converting liquid into mist and a second atomization device for converting the mist liquid discharged from the first atomization device into mist liquid with smaller particles are sequentially arranged in the atomization chamber along the mist outlet direction;

the first atomization device comprises an atomization connector and an inlet connector which are embedded up and down, and a first installation cavity with an upper opening is arranged at the upper end of the atomization connector;

the second atomization device comprises a top head arranged at the upper part of the first installation cavity, a second installation cavity with an opening at the upper end is arranged in the top head, a valve rod is arranged in the second installation cavity, and the valve rod is positioned in the second installation cavity and forms a second rotating channel with the peripheral wall of the second installation cavity for liquid to pass through; the valve rod is internally provided with a mist outlet channel, the bottom of the second installation cavity is provided with a second cyclone groove, and the second rotary channel is communicated with the mist outlet channel after passing through the second cyclone groove.

The double atomization type aerosol valve is characterized in that a plurality of vertical protrusions are arranged on the outer peripheral wall of the plug at intervals, the plug and the inner wall of the first installation cavity are separated by the vertical protrusions to form a middle rotating channel, a sealing piece is arranged above the plug, the middle rotating channel is blocked from the second rotating channel when the plug is pushed upwards to press the sealing piece, and the middle rotating channel is communicated with the second rotating channel when the plug is moved downwards.

As described above, the dual atomizing aerosol valve is characterized in that an elastic element is arranged between the plug and the bottom of the first installation cavity.

The double atomization type aerosol valve is characterized in that a first cyclone groove is formed in the bottom of the first installation cavity, the first cyclone groove is formed by sequentially laminating a plurality of rotary blades along the circumference, and the notch of the first cyclone groove is larger than that of the second cyclone groove.

As for the double atomization type aerosol valve, the upper end of the atomization connecting body is provided with the plurality of elastic claw teeth which are arranged at intervals along the periphery of the opening, and the upper end of the periphery of the elastic claw teeth protrudes outwards.

The dual atomization type aerosol valve further comprises a sealing cup, a concave cavity is formed in the sealing cup, and the elastic claw teeth of the atomization connecting body are clamped in the concave cavity and enable the valve rod to extend out after penetrating through the sealing cup.

Compared with the prior art, the application has the following advantages:

1. the dual atomizing aerosol valve realizes first atomization through the first atomization device and further atomization through the second atomization device by arranging the dual atomization device, so that liquid, particularly oil or viscous liquid which is not easy to atomize, forms smaller and more uniform atomization particles, the atomization requirement of a peripheral spray head is weakened, the atomization requirement of inert gas and the like serving as a propellant is met, the environmental protection performance and the safety are enhanced, and the cost is reduced.

2. In the first atomization device, liquid can form a vortex-shaped outflow direction when passing through the first cyclone groove, in the second atomization device, the liquid is extruded to pass through the second cyclone groove after entering from the second rotary channel, then is sprayed out through the mist outlet channel, and smaller and more uniform atomization of particles is further realized on the liquid after the first atomization device breaks and atomizes.

[ description of the drawings ]

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present application, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic cross-sectional view of an aerosol valve pouch according to an embodiment of the present application.

Fig. 2 is a schematic cross-sectional view of a dual atomizing aerosol valve according to an embodiment of the present disclosure.

Fig. 3 is a schematic perspective view of a dual atomizing aerosol valve according to an embodiment of the present disclosure.

Fig. 4 is a front view of the first atomizing device according to the embodiment of the present application.

Fig. 5 is a schematic cross-sectional view of a first atomizer according to an embodiment of the present application.

Fig. 6 is a schematic perspective view of a second atomization device according to an embodiment of the application.

Fig. 7 is a schematic cross-sectional view of a second atomizing device according to an embodiment of the present disclosure.

Fig. 8 is a schematic perspective view of a plug according to an embodiment of the present application.

[ detailed description ] of the application

In order to make the technical problems, technical schemes and beneficial effects solved by the application more clear, the application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the application.

As shown in fig. 1 to 8, an embodiment of the present application provides a dual-atomizing aerosol valve, which includes an aerosol valve body 100, wherein the aerosol valve body 100 includes an aerosol valve inlet 1, an aerosol valve outlet 2, and an atomizing chamber 3 disposed between the aerosol valve inlet 1 and the aerosol valve outlet 2, and a first atomizing device 4 for converting a liquid into a mist and a second atomizing device 5 for converting the mist liquid discharged from the first atomizing device 4 into a mist liquid with smaller particles are sequentially disposed in the atomizing chamber 3 along a mist discharge direction.

The dual atomizing aerosol valve realizes first atomization through setting up dual atomizer, liquid process first atomizer 4, and then pass through second atomizer 5 further atomizes, makes the less more even atomizing form of liquid especially difficult atomizing oil or viscous liquid formation granule, has not only weakened the atomizing requirement of peripheral hardware shower nozzle, and has satisfied the atomizing requirement that uses inert gas etc. as the propellant, reinforcing feature of environmental protection and security, also reduced the cost simultaneously.

Correspondingly, the first atomizing device 4 comprises an atomizing connector 41 and an inlet connector 42 which are embedded up and down, a first installation cavity 411 with an upper opening is arranged at the upper end of the atomizing connector 41, and a first cyclone groove 412 is arranged at the bottom of the first installation cavity 411.

Further, an inlet passage 413 is formed at the lower end of the atomization connecting body 41, a central column 43 is disposed below the first cyclone groove 412 in the inlet passage 413, and a first rotating passage 44 for passing liquid is formed between the central column 43 and the peripheral wall of the inlet passage 413.

In the first atomizing device 4, the liquid forms a swirling outflow direction when passing through the first cyclone 412, and the liquid in the first rotating channel 44 is also guided to flow out in a swirling shape, so that the formation of a vortex is enhanced, the outflow speed of the liquid and the uniformity of rotating stirring are enhanced, the crushing effect of the liquid when passing through the first cyclone 412 is greatly enhanced, and the atomization degree of the liquid is further enhanced.

The second atomizing device 5 includes a plug 52 disposed at an upper portion of the first mounting cavity 411, a second mounting cavity 521 with an open upper end is disposed in the plug 52, a valve rod 51 is disposed in the second mounting cavity 521, and the valve rod 51 is disposed in the second mounting cavity 521 and forms a second rotating channel 522 with a peripheral wall of the second mounting cavity 521 for passing through liquid; the valve rod 51 is provided with a mist outlet passage 511, a second cyclone groove 512 is provided at the bottom of the second installation cavity 521, and the second rotating passage 522 is communicated with the mist outlet passage 511 after passing through the second cyclone groove 512.

In the second atomizing device 5, the liquid is extruded through the second cyclone 512 after being rotated from the second rotating passage 522, and then is sprayed out through the mist outlet passage 511, and the liquid is atomized further to be smaller and more uniform after being crushed and atomized by the first atomizing device 4.

Still further, a plurality of vertical protrusions 5211 are disposed on the outer peripheral wall of the plug 52 at intervals, the vertical protrusions 5211 divide the plug 52 from the inner wall of the first mounting cavity 411 to form a middle rotating channel 533, a sealing member 62 is disposed above the plug 52, when the plug 52 pushes the sealing member 62 upwards, the middle rotating channel 533 is blocked from the second rotating channel 522, and when the plug moves downwards, the middle rotating channel 533 is communicated with the second rotating channel 522.

In this embodiment, since the valve stem 51 is depressed to start the aerosol discharge operation, the seal 62 functions as a switch, and the spray passage is opened and closed when the plug 52 moves upward or downward.

In order to enable automatic resetting after pressing, an elastic member 7 is disposed between the top 52 and the bottom of the first mounting cavity 411. Specifically, the elastic member 7 is a spring.

In this embodiment, the first cyclone groove 412 is formed by stacking a plurality of rotary blades in sequence along the circumference, and the second cyclone groove 512 is also formed by stacking a plurality of rotary blades in sequence along the circumference, but the notch of the first cyclone groove 412 is larger than the notch of the second cyclone groove 512. Among the rotating blades which are sequentially stacked, a clearance opening is arranged between every two adjacent rotating blades, and the orientation of the clearance opening is spiral upwards so as to guide liquid to form a vortex shape and atomize the liquid at the same time.

Correspondingly, a plurality of elastic claw teeth 415 are arranged at intervals along the periphery of the opening at the upper end of the atomization connecting body 41, and the upper end of the periphery of the elastic claw teeth 415 is outwards protruded.

More preferably, the dual atomizing aerosol valve further comprises a sealing cup 6, a concave cavity 61 is arranged on the sealing cup 6, and the elastic claw teeth 415 of the atomizing connector 41 are clamped in the concave cavity 61, and the valve rod 51 extends out after penetrating through the sealing cup 6. The seal 62 is fitted between the bottom of the cavity 61 and the tips of the resilient fingers 415 and the plug 52. The material of the resilient pawl 415 is plastic. The elastic claw 415 is embedded into the concave cavity 61 when contracted, and then bounces off and is clamped after entering, so that the assembly is convenient.

The embodiment also provides an aerosol valve bag, which comprises a bag body 10 with a bag opening, wherein the bag opening is packaged with the dual atomization type aerosol valve, an aerosol valve inlet 1 of the dual atomization type aerosol valve is provided with a suction pipe 20, and the suction pipe 20 extends into the bag body 10.

In order to better understand the technical scheme of the embodiment, the working process is described as follows:

in this embodiment, the power of liquid spraying is a propellant such as inert gas, the valve rod 51 and the plug 52 are pressed down, and the channel between the second cyclone groove 512 and the mist outlet channel 511 is opened, so that the whole mist spraying channel is opened, and the liquid spraying process is as follows: after the atomized liquid enters from the aerosol valve inlet 1, the atomized liquid sequentially passes through the first atomization device 4 and the second atomization device 5, specifically passes through the first rotating channel 44, the first cyclone groove 412, the transit rotating channel 533, the second rotating channel 522, the second cyclone groove 512, the mist outlet channel 511 and the aerosol valve outlet 2, and is sprayed out, and the atomized liquid is subjected to multiple-time rotating stirring and atomization in the atomization process, so that atomized liquid with smaller particles and more uniform stirring is obtained.

In summary, the present application has the following beneficial effects, but is not limited to:

1. the dual atomizing aerosol valve realizes first atomization through setting up dual atomizer, liquid process first atomizer 4, and then pass through second atomizer 5 further atomizes, makes the less more even atomizing form of liquid especially difficult atomizing oil or viscous liquid formation granule, has not only weakened the atomizing requirement of peripheral hardware shower nozzle, and has satisfied the atomizing requirement that uses inert gas etc. as the propellant, reinforcing feature of environmental protection and security, also reduced the cost simultaneously.

2. In the first atomizing device 4, the liquid forms a swirling outflow direction when passing through the first cyclone 412, and the liquid in the first rotating channel 44 is also guided to flow out in a swirling shape, so that the formation of a vortex is enhanced, the outflow speed of the liquid and the uniformity of rotating stirring are enhanced, the crushing effect of the liquid when passing through the first cyclone 412 is greatly enhanced, and the atomization degree of the liquid is further enhanced.

3. In the second atomizing device 5, the liquid is extruded through the second cyclone 512 after being rotated from the second rotating passage 522, and then is sprayed out through the mist outlet passage 511, and the liquid is atomized further to be smaller and more uniform after being crushed and atomized by the first atomizing device 4.

It should be understood that the terms "first," "second," and the like are used herein to describe various information, but such information should not be limited to these terms, which are used merely to distinguish one type of information from another. For example, a "first" message may also be referred to as a "second" message, and similarly, a "second" message may also be referred to as a "first" message, without departing from the scope of the application. Furthermore, references to orientations or positional relationships of the terms "center," "upper," "lower," "left," "right," "vertical," "horizontal," "inner," "outer," etc. are based on the orientation or positional relationships shown in the drawings, are merely for convenience in describing the present application and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be configured and operated in a particular orientation, and thus should not be construed as limiting the present application.

The foregoing description of one or more embodiments provided in connection with the specific disclosure is not intended to limit the practice of the application to such description. The method, structure, and the like similar to or identical to those of the present application, or a plurality of technical deductions or substitutions are made on the premise of the conception of the present application, and are considered to be the protection scope of the present application.

Claims

1. The double-atomization type aerosol valve is characterized by comprising an aerosol valve body (100), wherein the aerosol valve body (100) comprises an aerosol valve inlet (1), an aerosol valve outlet (2) and an atomization chamber (3) arranged between the aerosol valve inlet (1) and the aerosol valve outlet (2), a first atomization device (4) for converting liquid into mist and a second atomization device (5) for converting the mist liquid discharged from the first atomization device (4) into mist liquid with smaller particles are sequentially arranged in the atomization chamber (3) along the mist outlet direction;

the first atomization device (4) comprises an atomization connector (41) and an inlet connector (42) which are embedded up and down, a first installation cavity (411) with an upper opening is arranged at the upper end of the atomization connector (41), and a first cyclone groove (412) is arranged at the bottom of the first installation cavity (411);

the second atomizing device (5) comprises a plug (52) arranged at the upper part of the first mounting cavity (411), a second mounting cavity (521) with an opening at the upper end is arranged in the plug (52), a valve rod (51) is arranged in the second mounting cavity (521), and the valve rod (51) is positioned in the second mounting cavity (521) and forms a second rotating channel (522) for liquid to pass through with the peripheral wall of the second mounting cavity (521); the valve rod (51) is internally provided with a mist outlet channel (511), the bottom of the second installation cavity (521) is provided with a second cyclone groove (512), and the second rotary channel (522) is communicated with the mist outlet channel (511) after passing through the second cyclone groove (512).

2. The dual atomizing aerosol valve of claim 1, wherein a plurality of vertical protrusions (5211) are provided on the outer peripheral wall of the plug (52) at intervals, the vertical protrusions (5211) divide the plug (52) from the inner wall of the first mounting cavity (411) to form a middle rotating channel (533), a sealing member (62) is provided above the plug (52), the middle rotating channel (533) is blocked from the second rotating channel (522) when the plug (52) pushes the sealing member (62) upwards, and the middle rotating channel (533) is communicated with the second rotating channel (522) when the plug moves downwards.

3. A double-atomizing aerosol valve according to claim 2, characterized in that an elastic member (7) is provided between the plug (52) and the bottom of the first mounting chamber (411).

4. The dual aerosol valve of claim 1, wherein the first cyclone groove (412) is formed by stacking a plurality of rotary vanes in sequence along a circumference, and a notch of the first cyclone groove (412) is larger than a notch of the second cyclone groove (512).

5. The dual atomizing aerosol valve of claim 1, wherein the upper end of the atomizing connector (41) is provided with a plurality of elastic claw teeth (415) arranged at intervals along the circumference of the opening, and the upper end of the outer circumference of the elastic claw teeth (415) is protruded outwards.

6. The dual atomizing aerosol valve of claim 5, further comprising a seal cup (6), wherein a cavity (61) is provided in the seal cup (6), and the elastic claw teeth (415) of the atomizing connector (41) are clamped in the cavity (61) and extend the valve rod (51) after passing through the seal cup (6).