CN219660944U - Oil leakage prevention atomizing device - Google Patents

Abstract

The utility model relates to an oil leakage prevention atomization device, which comprises a shell, an oil storage bin, an oil seepage bin, an atomization bin and an atomizer, wherein the oil storage bin and the oil seepage bin are arranged in the shell, the atomization bin is arranged in the oil seepage bin, the atomizer is arranged in the atomization bin, the atomizer comprises a shell and an atomization core arranged in the shell, a liquid inlet is formed in the periphery of the shell in a penetrating manner, an oil leakage prevention silica gel sleeve is sleeved outside the atomizer, the silica gel sleeve is provided with a chamfer, the chamfer is matched with the shell to form a closing groove, the small opening end of the closing groove is communicated with the liquid inlet, the silica gel sleeve is positioned below the closing groove and clings to the outer side wall of the shell, and the part close to the closing groove is embedded into the liquid inlet to reduce the opening area of the liquid inlet. The utility model has the effect of improving the problem that the oil stored in the atomizing device leaks through the inlet liquid Kong Zailiu and the airflow channel after the atomizing device is kept stand for a long time.

Description

Oil leakage prevention atomizing device

Technical Field

The utility model relates to the field of atomizers, in particular to an oil leakage preventing atomizing device.

Background

The atomizing device is a device capable of generating mist, has wide application and is commonly used in the fields of medicine and entertainment. In the entertainment field, atomizing devices are commonly used to atomize oil containing nicotine into a mist for human consumption.

Referring to fig. 1, the atomizing device includes a housing 1, a mist outlet 11 is provided through the top of the housing 1, and an air inlet is provided through the bottom of the housing 1. Wherein the passage between the air inlet and the mist outlet 11 is an air flow passage 24. An oil storage bin 13 and an oil seepage bin 14 are arranged in the shell 1, an atomization bin 141 provided with an atomizer 2 is arranged in the oil seepage bin 14, and an air flow channel 24 is communicated with the atomization bin 141. The atomizer 2 includes a housing 1 and an atomizing core mounted in the housing 1. The circumference of the shell 1 is provided with a liquid inlet 211 in a penetrating way, the atomization core heats and atomizes the oil flowing in from the liquid inlet 211 into mist, the mist enters the airflow channel 24 and flows out of the atomizer 2, and then the mist is sucked by a person through the mist outlet 11.

Due to the influences of the internal and external air pressure difference, temperature and the like of the atomizer, oil stored in the atomizer can leak through an air flow channel by the liquid inlet Kong Zailiu after the atomizer is kept stand for a long time, the atomizer is polluted, and meanwhile, the oil can be in contact with the outside air after the atomizer is kept stand for a long time, so that the oil is oxidized and deteriorated.

Disclosure of Invention

In order to solve the problem that oil stored in the atomization device can leak through the inlet liquid Kong Zailiu and the airflow channel after the atomization device is kept stand for a long time, the utility model provides an oil leakage prevention atomization device.

The utility model provides an oil leakage prevention atomization device, which adopts the following technical scheme:

the utility model provides an atomizing device of leak protection oil, includes the shell, sets up in the oil storage storehouse in the shell, the oil seepage storehouse, sets up in the oil seepage storehouse atomizing storehouse and set up the atomizer in the atomizing storehouse, and the atomizer includes the casing and sets up the atomizing core in the casing, and the week side of casing runs through the feed liquor hole that supplies the oil storage storehouse to flow into the casing, the atomizer overcoat is equipped with the silica gel external member of leak protection oil, the silica gel external member is provided with the chamfer, the chamfer forms the binding off groove with the casing cooperation, the tip and the feed liquor hole intercommunication of binding off groove, the silica gel external member is located the lateral wall of casing is hugged closely to the position below the binding off groove, is close to the part embedding feed liquor hole of binding off groove is in order to reduce the area of opening of feed liquor hole.

Through adopting above-mentioned technical scheme, when not using atomizing device, the feed liquor hole is blocked by the inboard of silica gel external member, only leaves binding off groove and feed liquor hole intercommunication. The closing-in groove prolongs the path of oil entering the liquid inlet hole, and reduces the contact area of the oil in the oil seepage bin and the liquid inlet hole. Because the area of the opening of the closing-in groove is small, compared with the surface tension of the oil liquid in the liquid inlet hole, the surface tension of the oil liquid in the opening of the closing-in groove is obviously increased. When the atomization device is not used, particularly when the atomization device is kept stand for a long time, oil is not easy to leak from the closing-in groove through the liquid inlet hole and then from the airflow channel. Thus, it helps to reduce the oil leakage. And the silica gel suite can be directly used for improving the existing atomizing device without replacing the original production equipment. When a user uses the atomization device, as the mist is sucked by the user, the air pressure of the air flow channel is reduced, the air flow channel can generate upward suction force, the suction force can break through the surface tension of the oil at the opening of the closing-in groove, and the oil can flow through the liquid inlet through the closing-in groove to be adsorbed by the liquid absorbing cotton and then be heated and atomized into the mist by the heating body.

Optionally, the chamfer angle is 60-80 °.

Through adopting above-mentioned technical scheme, the inclination of chamfer is 60-80, and at the area timing of feed liquor hole, the open-top area of binding off groove is little, compares in the surface tension of fluid at the feed liquor hole, and the surface tension of fluid at the open-ended of binding off groove obviously increases.

Optionally, the vertical height of the silica gel sleeve is higher than the vertical height of the liquid inlet hole.

Through adopting above-mentioned technical scheme, the vertical height of silica gel external member is higher than the vertical height of feed liquor hole, and the silica gel external member can cover the feed liquor hole, and then plays the effect of leak protection oil.

Optionally, anti-skidding lines are arranged at the bottom of the inner wall of the silica gel sleeve.

By adopting the technical scheme, the silica gel kit can be firmly arranged on the periphery of the atomizer.

Optionally, the silica gel external member includes outer silica gel ring and nestification in the inlayer silica gel ring in outer silica gel ring, and the high of outer silica gel ring is higher than the inlayer silica gel ring, and outer silica gel ring and inlayer silica gel ring nest form the silica gel external member of highly adjustable ring shape, can assemble the atomizer of different specifications.

Through adopting above-mentioned technical scheme, the nested ring-shaped silica gel external member that forms highly adjustable ring of outer silica gel ring and inlayer silica gel ring can assemble the atomizer of different specifications, need not to change current production facility just can improve atomizing device.

Optionally, the outer silica gel ring is formed by connecting a plurality of first silica gel blocks through a dovetail-shaped splicing structure.

Through adopting above-mentioned technical scheme, outer silica gel ring can splice, and atomizing device is convenient for assemble atomizing device during the production, and dovetail mosaic structure is comparatively firm, is difficult for droing.

Optionally, the inner layer silica gel ring is formed by connecting a plurality of second silica gel blocks through a dovetail-shaped splicing structure.

Through adopting above-mentioned technical scheme, inlayer silica gel ring can splice, and atomizing device is convenient for assemble atomizing device during the production, and dovetail mosaic structure is comparatively firm, is difficult for droing.

Optionally, the splicing position of the outer layer silica gel ring is staggered with the splicing position of the inner layer silica gel ring.

Through adopting above-mentioned technical scheme, the crisscross setting of concatenation position and the concatenation position of inlayer silica gel ring of outer silica gel ring has further increased the stability of the silica gel external member of concatenation.

In summary, the utility model has the following beneficial technical effects:

1. according to the utility model, the silica gel sleeve is adopted, so that the problem that oil stored in the atomizing device leaks through the air flow channel by the liquid inlet Kong Zailiu after the atomizing device is kept stand for a long time is solved;

2. the silica gel sleeve provided by the utility model adopts the outer silica gel ring and the inner silica gel ring to be nested to form the silica gel sleeve with adjustable height, and the outer silica gel ring and the inner silica gel ring are spliced silica gel rings, so that atomizers with different specifications can be conveniently assembled.

Drawings

Fig. 1 is a schematic structural view of an embodiment of the present utility model.

Fig. 2 is a schematic view of the structure of fig. 1 at another angle.

Fig. 3 is a partial cross-sectional view of the atomizing device of the present utility model taken along an axis.

Fig. 4 is a schematic structural view of the silicone kit.

Fig. 5 is an exploded view of fig. 4.

Reference numerals illustrate:

1. a housing; 11. a mist outlet; 13. An oil storage bin; 14. an oil seepage bin; 141. an atomization bin; 2. an atomizer; 21. a housing; 211. a liquid inlet hole; 22. liquid-absorbing cotton; 23. a heating element; 24. an air flow channel; 3. a silica gel kit; 31. an outer layer silica gel ring; 311. a first silicone block; 32. an inner layer silica gel ring; 321. a second silicone block; 322. anti-skid lines; 33. chamfering; 4. a closing-in groove;

Detailed Description

The present utility model will be described in further detail below.

The embodiment of the utility model discloses an oil leakage prevention atomization device, which comprises a shell 1, wherein a fog outlet 11 is formed in the top of the shell 1 in a penetrating manner, and an air inlet is formed in the bottom of the shell 1 in a penetrating manner, as shown in fig. 3. Wherein the passage between the air inlet and the mist outlet 11 is an air flow passage 24. Referring to fig. 3, an oil storage bin 13 for storing oil is arranged in the shell 1, an oil seepage bin 14 is arranged at the bottom of the oil storage bin 13, an atomization bin 141 is arranged in the oil seepage bin 14, and an air flow channel 24 is communicated with the atomization bin 141. The atomizer 2 for atomizing the oil containing nicotine into mist is installed in the atomization bin 141. The atomizer 2 includes a housing 21 and an atomizing core mounted in the housing 21. The shell 21 is in a cylindrical shape with two open ends, and the shell is detachably and fixedly connected with the atomizing core. The circumference of the casing 21 is perforated with a liquid inlet 211 for the oil in the oil storage bin 13 to flow into the casing 21, so that the oil enters the atomizing core and is heated and atomized by the atomizing core. Specifically, the atomizing core comprises liquid absorbing cotton 22 arranged in the shell 21 and a heating body 23 wrapped in the liquid absorbing cotton 22, and the heating body 23 is of a hollow cylindrical structure formed by rolling net-shaped heating wires. The heating body 23 heats and atomizes the oil into mist, and the mist enters the airflow channel 24 and flows out of the atomizer 2, and then passes through the mist outlet 11 to be sucked by people.

Referring to fig. 4 in combination with fig. 5, the outside of the liquid inlet 211 is sleeved with an oil leakage-proof silica gel sleeve 3. The silicone kit 3 includes an outer silicone ring 31 and an inner silicone ring 32 nested within the outer silicone ring 31. The outer layer silica gel ring 31 is higher than the inner layer silica gel ring 32 in height, the outer layer silica gel ring 31 and the inner layer silica gel ring 32 are nested to form a ring-shaped silica gel sleeve 3 with adjustable height, and atomizers 2 with different specifications can be assembled. The outer layer silica gel ring 31 is formed by connecting a plurality of first silica gel blocks 311 through a dovetail-shaped splicing structure. The inner silica gel ring 32 is formed by connecting a plurality of second silica gel blocks 321 through a dovetail-shaped splicing structure. The splicing position of the outer silica gel ring 31 and the splicing position of the inner silica gel ring 32 are arranged in a staggered mode, and stability of the spliced silica gel kit 3 is improved. The anti-slip patterns 322 are installed at the bottom of the inner wall of the inner layer silica gel ring 32, so that the spliced silica gel kit 3 can be firmly installed at the circumference side of the atomizer 2.

Referring to fig. 3, the vertical height of the silica gel sleeve 3 is higher than that of the liquid inlet 211, a chamfer 33 is arranged at the top of the silica gel sleeve 3, the chamfer 33 is matched with the shell 21 to form a closing-in groove 4, and the small opening end of the closing-in groove 4 is communicated with the liquid inlet 211. The inclination angle of the chamfer 33 is 60-80 degrees, when the area of the liquid inlet 211 is fixed, the area of the top opening of the closing-in groove 4 is small, and compared with the surface tension of the oil liquid in the liquid inlet 211, the surface tension of the oil liquid in the opening of the closing-in groove 4 is obviously increased. The part of the silica gel sleeve 3 below the closing-in groove 4 clings to the outer side wall of the shell 21, and the part close to the closing-in groove 4 is embedded into the liquid inlet 211 so as to reduce the opening area of the liquid inlet 211. When the atomizing device is not used, the liquid inlet 211 is blocked by the inner side of the silica gel sleeve 3, and only the top closing-in groove 4 is reserved to be communicated with the liquid inlet 211. The closing-in groove 4 reduces the contact area of the oil in the oil seepage bin 14 and the liquid inlet 211. Because the opening area of the closing-in groove 4 is small, compared with the surface tension of the oil in the liquid inlet 211, the surface tension of the oil in the opening of the closing-in groove 4 is obviously increased. When the atomizing device is not used, particularly when the atomizing device is kept standing for a long time, oil is not easy to leak from the closing-in groove 4 through the liquid inlet 211 and then from the air flow channel 24. Thus, it helps to reduce the oil leakage. When a user uses the atomization device, as mist is sucked by the user, the air pressure of the air flow channel 24 is reduced, the air flow channel 24 can generate upward suction force, the suction force can break through the surface tension of oil at the opening of the closing-in groove 4, and the oil flows through the liquid inlet 211 through the closing-in groove 4 so as to be adsorbed by the liquid absorbing cotton 22, and is heated and atomized into mist by the heating body 23.

The implementation principle of the oil leakage prevention atomization device provided by the embodiment of the utility model is as follows: when the atomizing device is not used, the liquid inlet 211 is blocked by the inner side of the silica gel sleeve 3, and only the top closing-in groove 4 is reserved to be communicated with the liquid inlet 211. The closing-in groove 4 reduces the contact area of the oil in the oil seepage bin 14 and the liquid inlet 211. Because the opening of the closing-in groove 4 is small, compared with the surface tension of the oil in the liquid inlet 211, the surface tension of the oil in the opening of the closing-in groove 4 is obviously increased. When the atomizing device is not used, particularly when the atomizing device is kept standing for a long time, oil is not easy to leak from the closing-in groove 4 through the liquid inlet 211 and then from the air flow channel 24. Thus, it helps to reduce the oil leakage. When a user uses the atomization device, as mist is sucked by the user, the air pressure of the air flow channel 24 is reduced, the air flow channel 24 can generate upward suction force, the suction force can break through the surface tension of oil at the opening of the closing-in groove 4, and the oil flows through the liquid inlet 211 through the closing-in groove 4 so as to be adsorbed by the liquid absorbing cotton 22, and is heated and atomized into mist by the heating body 23.

The above embodiments are not intended to limit the scope of the present utility model, so: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (8)

1. The utility model provides an atomizing device of leak protection oil, including shell (1), set up oil storage storehouse (13) in shell (1), oil seepage storehouse (14), set up atomizing storehouse (141) in oil seepage storehouse (14) and set up atomizer (2) in atomizing storehouse (141), atomizer (2) include casing (21) and set up the atomizing core in the casing, the week side of casing (21) runs through and has seted up feed oil storehouse (13) fluid inflow casing (21) feed liquor hole (211), its characterized in that: the utility model discloses a liquid inlet device, including atomizer (2), silica gel external member (3) of leak protection oil is equipped with to atomizer (2) overcoat, silica gel external member (3) are provided with chamfer (33), chamfer (33) and casing (21) cooperation form binding off groove (4), the inlet port end and the feed liquor hole (211) intercommunication of binding off groove (4), the lateral wall of casing (21) is hugged closely in the position that silica gel external member (3) are located below binding off groove (4), is close to the part embedding feed liquor hole (211) of binding off groove (4) is in order to reduce the opening area of feed liquor hole (211).

2. The oil leakage preventing atomizer according to claim 1, wherein: the inclination angle of the chamfer angle (33) is 60-80 degrees.

3. The oil leakage preventing atomizer according to claim 1, wherein: the vertical height of the silica gel sleeve (3) is higher than that of the liquid inlet hole (211).

4. The oil leakage preventing atomizer according to claim 1, wherein: the bottom of the inner wall of the silica gel sleeve (3) is provided with anti-slip patterns (322).

5. The oil leakage preventing atomizer according to claim 1, wherein: the silica gel external member (3) includes outer silica gel ring (31) and nestification inner silica gel ring (32) in outer silica gel ring (31), and the height of outer silica gel ring (31) is higher than inner silica gel ring (32), and outer silica gel ring (31) and inner silica gel ring (32) nest to form highly adjustable ring-shaped silica gel external member (3).

6. The oil leakage preventing atomizer according to claim 5, wherein: the outer layer silica gel ring (31) is formed by connecting a plurality of first silica gel blocks (311) through a dovetail-shaped splicing structure.

7. The oil leakage preventing atomizer according to claim 5, wherein: the inner layer silica gel ring (32) is formed by connecting a plurality of second silica gel blocks (321) through a dovetail-shaped splicing structure.

8. The oil leakage preventing atomizer according to claim 5, wherein: the splicing positions of the outer layer silica gel rings (31) and the inner layer silica gel rings (32) are staggered.