CN219680932U - Atomizing device capable of being matched with traditional eyedrop bottle - Google Patents

Abstract

The utility model discloses an atomization device capable of being matched with a traditional eyedrop bottle, which comprises a shell and an atomizer body, wherein the shell comprises a containing cavity with a first opening upwards, the atomizer body is positioned in the containing cavity and is covered on the first opening, the atomizer body comprises a liquid containing cavity with a second opening upwards, the atomizer body is also provided with a liquid outlet communicated with the liquid containing cavity, the shell is also provided with a spray outlet, the liquid outlet is communicated with the spray outlet, the cavity wall at the second opening is provided with a connecting structure matched with the bottle mouth of the traditional eyedrop bottle, and the traditional eyedrop bottle is detachably connected with the atomizer body through the connecting structure. Compared with the prior art, when the medicine bottle needs to be replaced, the medicine bottle only needs to be detached from the atomizer body and replaced by a new medicine bottle, so that the replacement is convenient; secondly, the sprayed eyedrops are more convenient for medicine application and can reach eyeballs more easily; can prevent eye drops from being polluted and ensure the sanitation of the eye drops.

Description

Atomizing device capable of being matched with traditional eyedrop bottle

Technical Field

The utility model relates to the field of atomization devices, in particular to an atomization device which can be matched with a traditional eyedrop bottle.

Background

In recent years, various electronic devices have become a necessity in daily life and work of people, and the lifestyle and working conditions of people have been gradually changed. The activities of watching television, watching computer, playing mobile phone and the like lead the eye time of a user to be longer and longer, and eye fatigue, myopia, xerophthalmia and the like are easy to cause. Eye drops become main articles for relieving eye fatigue and solving the problem of dry eyes, and are also daily necessary medicines for a plurality of users.

Eye drops commonly found in daily life are administered by being instilled into the eyes. Specifically, in order to ensure that the eyedrops can enter eyes, a user needs to lean backwards or lie flat when dripping the eyedrops, then the upper eyelid and the lower eyelid are pulled upwards and downwards by fingers, the exposed area of the eyeballs is increased, the bottle mouth of the eyedrop bottle can be aligned with the eyeballs, and the user can make the eyedrops in the bottle drop into the eyes of the user by squeezing the eyedrop bottle. However, such a method of dropping an eye drop is not only troublesome, but also the mouth of the eye drop bottle is not easily aligned with the eyeball, and the eye drop is also difficult to enter the eye. In addition, pulling the upper and lower eyelids with fingers can cause discomfort to the eyes, even if the mouth of the eyedrop bottle is aimed at the eyeball, the upper and lower eyelids can blink involuntarily when eyedrops are being dropped, causing the eyedrops to drop onto the eyelashes or the eyelids. In the use of current eyedrops, always need aim at many times, many times the drip just can let eyedrops get into eyes, not only use and experience poor, extravagant eyedrop moreover. In addition, in order to enable the eyedrop water to face the eyeball, the mouth of the eyedrop bottle is usually close to the eyes of the user, and even contacts the eyes of the user, so that the eyedrop can be polluted on one hand, and the eyes of the user can be infected on the other hand.

The traditional eyedrop bottle can be adapted to the temporary atomizing device which is not available in the market, so that the technical problem of conveniently replacing the eyedrop bottle can be solved, liquid in the eyedrop bottle can be atomized and then sprayed, and meanwhile, the technical problem that the traditional dropping liquid is excessively troublesome to administrate is solved.

Therefore, there is a strong need for an atomization device that is convenient to replace and load an eyedrop bottle and that can be adapted to a conventional eyedrop bottle to overcome the above-mentioned drawbacks.

Disclosure of Invention

The utility model aims to provide an convenient eye drop bottle replacement and medicine feeding atomizing device which can be matched with a traditional eye drop bottle.

In order to achieve the above purpose, the atomization device capable of being matched with a traditional eyedrop bottle comprises a shell and an atomizer body, wherein the shell comprises a containing cavity with an upward first opening, the atomizer body is positioned in the containing cavity and is covered on the first opening, the atomizer body comprises a liquid containing cavity with an upward second opening, the atomizer body is further provided with a liquid outlet communicated with the liquid containing cavity, the shell is further provided with a spray outlet, the liquid outlet is communicated with the spray outlet, the cavity wall at the second opening is provided with a connecting structure matched with the bottle mouth of the traditional eyedrop bottle, and the traditional eyedrop bottle is detachably connected with the atomizer body through the connecting structure.

Compared with the prior art, the atomization device which can be matched with the traditional eyedrop bottle has the advantages that the atomizer body is provided with the liquid containing cavity with the second opening upwards, the cavity wall at the second opening is provided with the connecting structure matched with the bottle mouth of the traditional eyedrop bottle, and the traditional eyedrop bottle is detachably connected with the atomizer body through the connecting structure, so that when the eyedrop bottle needs to be replaced, the eyedrop bottle only needs to be detached from the atomizer body, and the replacement is convenient; the atomizer body is provided with a liquid accommodating cavity and a liquid outlet, the liquid outlet is communicated with the spray outlet, and eye drops are sprayed out through the spray outlet through atomization, so that the traditional medicine feeding mode requiring medicine dripping is changed, the eye drops can be prevented from being polluted, and the sanitation of the eye drops is ensured; secondly, the spray eye drops are more convenient to apply medicine and can reach eyeballs more easily.

Preferably, the bottle mouth of the traditional eyedrop bottle is of an external thread structure, and the connecting structure is of an internal thread structure; or, the bottle mouth of the traditional eyedrop bottle is connected with the atomizer body in a clamping way on the connecting structure; or the bottle mouth of the traditional eyedrop bottle is detachably connected with the connecting structure through magnetic adsorption.

Preferably, the atomizer body is detachably sealed to the first opening.

Preferably, the atomizer body comprises a first installation part and a liquid storage part from top to bottom in sequence, the first installation part is integrally connected with the liquid storage part, the first installation part is detachably sealed to cover the first opening, the liquid storage part is positioned in the accommodating cavity, and the liquid outlet is formed in the side wall of the liquid storage part.

Preferably, the outer side wall of the first installation part is provided with a protruding block protruding outwards, and the outer side wall of the first opening of the shell is provided with a slot for inserting and installing the protruding block along the up-down direction.

Preferably, the atomizing device capable of being matched with the traditional eyedrop bottle further comprises a first sleeve, wherein the first sleeve is sleeved outside the first mounting part and is positioned on the shell, and the first sleeve presses the first mounting part on the shell in the up-down direction.

Preferably, the periphery of the first installation part is concavely provided with a circle of groove, the bottom surface of the groove is flush with the top surface of the shell, the inner wall of the first sleeve part is concavely protruded inwards to form a circle of boss, and the boss is simultaneously pressed on the bottom surface of the groove and the top surface of the shell.

Preferably, the atomizer device capable of being matched with the traditional eyedrop bottle further comprises a second sleeve, the atomizer body further comprises a second installation part, the second installation part is connected above the first installation part and extends upwards out of the first opening, and the second sleeve is sleeved on the second installation part.

Preferably, an external thread structure is arranged on the outer side wall of the second installation part, a through hole with an internal thread structure is arranged in the middle of the second sleeve member, and the second sleeve member is sleeved with the second installation part through the external thread structure and the internal thread structure.

Preferably, the top surface of the second sleeve is flush with the top surface of the second mounting portion.

Preferably, the atomizing device capable of being matched with the traditional eyedrop bottle further comprises a cover body, wherein the cover body is provided with a containing space for containing the traditional eyedrop bottle, and the cover body is detachably connected to the shell, the atomizer body, the first sleeve or the second sleeve.

Preferably, the cover body is of a transparent structure; and/or the side wall of the cover body is penetrated with a visual hole which is arranged along the up-down direction.

Preferably, the atomization device capable of being matched with the traditional eyedrop bottle further comprises a gland, wherein the gland is arranged at the top of the cover body, a jack penetrating through the cover body is further arranged at the top of the cover body, a pressing arm is arranged at the bottom of the gland, and the pressing arm is inserted into the jack to extend into the accommodating space to press the traditional eyedrop bottle in the up-down direction.

Preferably, the atomization device capable of being matched with the traditional eyedrop bottle further comprises a movable push button, wherein the movable push button is movably arranged on the shell, the movable push button is provided with a first position for covering the spray outlet and a second position for exposing the spray outlet relative to the shell, and when the movable push button is positioned at the second position, the spray outlet sprays eyedrop; the movable push button is operated to switch between the first position and the second position so that the spray outlet sprays liquid or stops spraying liquid.

Preferably, the liquid outlet and the spray outlet are sequentially provided with an atomization sheet and an anti-overflow guide block, the atomization sheet covers the liquid outlet, the anti-overflow guide block is pressed on the atomization sheet, the middle part of the anti-overflow guide block is provided with a spray outlet which is penetrated, and the spray outlet is opposite to the spray outlet.

Preferably, the diameter of the fog outlet is gradually increased along the fog outlet direction.

Preferably, the atomizing device capable of being matched with the traditional eyedrop bottle further comprises a power supply element and a driving circuit board, wherein the power supply element and the driving circuit board are positioned in the accommodating cavity, and the power supply element, the driving circuit board and the atomizing sheet are electrically connected.

Preferably, the atomization device capable of being matched with the traditional eyedrop bottle further comprises a drainage column, wherein the drainage column is arranged in the liquid accommodating cavity, the top of the drainage column extends upwards into the bottle mouth of the traditional eyedrop bottle, and the diameter of the drainage column is gradually increased from top to bottom.

Drawings

Fig. 1 is a perspective view of a conventional eyedrop bottle.

Fig. 2 is a perspective view of the atomizing device adapted to a conventional eyedrop bottle of the present utility model after concealing the cap, the cover, and the conventional eyedrop bottle.

Fig. 3 is a perspective view of an atomizer device according to the present utility model that can be adapted to a conventional eyedrop bottle.

Fig. 4 is a perspective view of another view of the aerosolization device of the present utility model adaptable to a conventional eyedrop bottle.

Fig. 5 is a perspective cross-sectional view of an aerosolization device of the present utility model that can be adapted to a conventional eyedrop bottle.

Fig. 6 is an exploded perspective view of an atomizer device adaptable to a conventional eyedrop bottle according to the present utility model.

Fig. 7 is a perspective view of an atomizer body of an atomizer device adaptable to a conventional eyedrop bottle according to the present utility model.

Detailed Description

In order to describe the technical content and constructional features of the present utility model in detail, the following description will be made with reference to the embodiments in conjunction with the accompanying drawings.

Referring to fig. 1, a conventional eyedrop bottle 200 is shown. The bottle comprises a bottle body 201 and a sealing film (not shown in the figure), wherein a bottle opening 202 penetrating through the bottle body 201 is arranged at the bottom of the bottle body 201, and the sealing film is covered on the bottle opening 202 to seal liquid medicine in the bottle body 201. Specifically, the sealing film is made of an aluminum foil film, however, in other embodiments, PP, PE, PS, PET, PVC films and the like can be used, which is not limited thereto. The aluminum foil material is broken as soon as a stamp is made, and is well known to those skilled in the art, and thus is not described herein. It can be appreciated that the conventional eyedrop bottle 200 is made of plastic material and is disposable, and can be discarded after use and replaced with a new eyedrop bottle.

Referring to fig. 2 to 6, an atomizer 100 adaptable to a conventional eyedrop bottle according to the present utility model includes a housing 1 and an atomizer body 2. The housing 1 includes a housing cavity 12 with a first opening 11 facing upwards, and the atomizer body 2 is located in the housing cavity 12 and covers the first opening 11. Specifically, in the present embodiment, the atomizer body 2 is configured to detachably cover the first opening 11. Of course, in other embodiments, the atomizer body 2 and the housing 1 are integrally connected with each other by the connecting structure 24, and thus the present utility model is not limited thereto. The atomizer body 2 includes second opening 231 liquid accommodation chamber 23 up, and liquid outlet 232 that is linked together with liquid accommodation chamber 23 has still been seted up to atomizer body 2, and casing 1 still has spray outlet 13, and liquid outlet 232 is linked together with spray outlet 13, and the chamber wall of second opening 231 department has the connection structure 24 with the bottleneck 202 matched with of traditional eyedrop bottle 200, and traditional eyedrop bottle 200 is detachably connected atomizer body 2 through connection structure 24. More specifically, the following is:

referring to fig. 1 and fig. 5 to fig. 6, in the present embodiment, the bottle mouth 202 of the conventional eyedrop bottle 200 has an external thread 203, so the connecting structure 24 has an internal thread. The conventional eyedrop bottle 200 is fastened to the atomizing device 100 of the present utility model by rotating and tightening the conventional eyedrop bottle 200. Of course, in other embodiments, the bottle mouth 202 of the conventional eyedrop bottle 200 is connected to the atomizer body 2 by being clamped to the connecting structure 24. Specifically, the sidewall of the bottle mouth 202 of the conventional eyedrop bottle 200 has a protrusion (not shown), and the cavity wall at the second opening 231 has a longitudinal groove (not shown) and a transverse groove (not shown) communicating with the longitudinal groove. The longitudinal grooves and the transverse grooves are communicated with the liquid accommodating cavity 23. When the conventional eyedrop bottle 200 is required to be mounted, the protrusions are aligned with the longitudinal grooves to enter the liquid receiving chamber 23, and after reaching the bottom of the longitudinal grooves, the body of the conventional eyedrop bottle 200 is rotated, and after the protrusions enter the transverse grooves, the conventional eyedrop bottle 200 is stably mounted on the atomizing device 100 of the present utility model.

Of course, in other embodiments, the mouth 202 of the conventional eyedrop bottle 200 could also be detachably connected to the connecting structure 24 by magnetic attraction. Specifically, the cavity wall at the second opening 231 includes a first magnetic attraction member (not shown), the outer side wall of the bottle mouth 202 includes a second magnetic attraction member (not shown), when the bottle mouth 202 of the conventional eyedrop bottle 200 enters the second opening 231, the first magnetic attraction member and the second magnetic attraction member correspond to each other, and the first magnetic attraction member and the second magnetic attraction member have different magnetic properties. The first magnetic attraction and the second magnetic attraction attract each other so that the conventional eyedrop bottle 200 is stably held on the atomizing device 100 of the present utility model. Therefore, the specific connection between the conventional eyedrop bottle 200 and the atomizing device of the present utility model is merely illustrative, and should not be construed as limiting the content or scope of the present utility model of the atomizing device 100 that can be adapted to conventional eyedrop bottles. The conventional eyedrop bottle 200 may also be removably mounted to the second opening 231 of the aerosolization device 100 of the present utility model by a clearance fit or other means known to those skilled in the art.

Referring to fig. 5, the atomization device 100 capable of adapting to the conventional eyedrop bottle of the present utility model further includes a drainage column 233, wherein the drainage column 233 is disposed in the liquid accommodating cavity 23, and the top of the drainage column 233 extends upward into the bottle mouth 202 of the conventional eyedrop bottle 200, and the diameter of the drainage column 233 increases gradually from top to bottom. By means of the drainage column 233, when the conventional eyedrop bottle 200 is mounted on the atomizing device 100, the aluminum foil film covering the bottle mouth 202 is pierced by the drainage column 233, so that the liquid in the conventional eyedrop bottle 200 flows into the liquid accommodating cavity 23 along the drainage column 233. By means of the diameter setting of the drainage column 233, a smoother inflow of liquid is ensured.

Referring to fig. 5, 6 and 7, the atomizer body 2 includes a first mounting portion 21 and a liquid storage portion 22 from top to bottom. The first mounting portion 21 is integrally connected with the liquid storage portion 22, and the first mounting portion 21 is detachably configured to cover the first opening 11. The liquid storage portion 22 is located in the accommodating cavity 12, and the liquid outlet 232 is formed in a side wall of the liquid storage portion 22. Specifically, the first mounting portion 21 is engaged with and connected to the first opening 11. For example, the outer side wall of the first mounting portion 21 is provided with a protruding block 211 protruding outwards, and the outer side wall of the first opening 11 of the housing 1 is provided with a slot 14 for inserting and mounting the protruding block 211 in the up-down direction. The slot 14 is arranged along the vertical direction, and when the mounting is fixed, the protrusion 211 is aligned with the slot 14 and then applies downward force, so that the atomizer body 2 is connected to the housing 1 in a clamping manner.

With continued reference to fig. 5, 6 and 7, in this embodiment, preferably, the atomizing device 100 capable of adapting to a conventional eyedrop bottle of the present utility model further includes a first sleeve member 3, the first sleeve member 3 is sleeved outside the first mounting portion 21 and is located above the housing 1, and the first sleeve member 3 compresses the first mounting portion 21 on the housing 1 along the up-down direction. By means of the first sleeve 3, the robustness of the atomizer body 2 is thereby enhanced. Specifically, the outer periphery of the first mounting portion 21 is concavely provided with a circle of groove 212, the bottom surface of the groove 212 is flush with the top surface of the housing 1, the inner wall of the first sleeve member 3 protrudes inwards to form a circle of boss 31, and the boss 31 is simultaneously pressed against the bottom surface of the groove 212 and the top surface of the housing 1. Preferably, the outer side wall of the first sleeve 3 is flush with the outer side wall of the housing 1.

With continued reference to fig. 5, 6 and 7, in this embodiment, the atomizer device 100 capable of adapting to a conventional eyedrop bottle according to the present utility model further includes a second sleeve member 4, the atomizer body 2 further includes a second mounting portion 25, the second mounting portion 25 is integrally connected above the first mounting portion 21 and extends upwards out of the first opening 11, and the second sleeve member 4 is sleeved on the second mounting portion 25. The second sleeve 4 is sleeved on the second mounting part 25, so that the assembling stability of the atomizer body 2 mounted on the shell 1 is enhanced. It will be appreciated that the second sleeve 4 is located above the first sleeve 3. Specifically, the outer side wall of the second mounting portion 25 is provided with an external thread structure 251, the middle portion of the second sleeve member 4 is provided with a through hole 41 having an internal thread structure 42, and the second sleeve member 4 is sleeved with the second mounting portion 25 through the external thread structure 251 and the internal thread structure 42. It will be appreciated that after the second sleeve member 4 is sleeved on the second mounting portion 25, the top surface of the second sleeve member 4 is flush with the top surface of the second mounting portion 25. To enhance the simplicity and aesthetics. For example, the first set 3 is a box structure. The second sleeve 4 has a square outline, and the through hole 41 is a circular hole.

Referring to fig. 5 and 6, preferably, the atomizing device 100 capable of adapting to the conventional eyedrop bottle of the present utility model further includes a cover 5, the cover 5 has a receiving space 51 for receiving the conventional eyedrop bottle 200, and the cover 5 is detachably connected to the second set 4 and located above the first set 3. By means of the cover body 5, the conventional eyedrop bottle 200 is protected from external force, and the conventional eyedrop bottle 200 is prevented from being broken due to external factors. Specifically, the cover body 5 is connected with the second sleeve member 4 in a clamping manner, and after connection, the outer side wall of the cover body 5 is flush with the outer side wall of the housing 1. Thereby leading the whole to be beautiful and elegant. It will be appreciated that the cover 5 is in an interference fit with the second sleeve 4. Preferably, in order to facilitate observation of the remaining amount of the liquid in the liquid medicine bottle in the accommodating space 51, in this embodiment, the sidewall of the cover 5 is perforated with a visual hole 53 arranged in the up-down direction. Of course, in other embodiments, the cover 5 is provided in a transparent structure; alternatively, the cover 5 may be configured to be transparent, and the side wall of the cover 5 may be perforated with the visible holes 53 arranged in the vertical direction, which is not limited thereto.

Preferably, the atomizing device 100 capable of being matched with the traditional eyedrop bottle of the present utility model further comprises a pressing cover 6, the pressing cover 6 is arranged at the top of the cover body 5, the top of the cover body 5 is further provided with a jack 52 arranged in a penetrating manner, the bottom of the pressing cover 6 is provided with a pressing arm 61, and the pressing arm 61 is inserted into the jack 52 to extend into the accommodating space 51 so as to press the traditional eyedrop bottle 200 in the up-down direction. By means of the gland 6, the bottleneck 202 of the conventional eyedrop bottle 200 is prevented from loosening from the second opening 231, and meanwhile, the conventional eyedrop bottle 200 can be kept inclined, so that the medicinal liquid can be vertically flowed into the liquid accommodating cavity 23.

With continued reference to fig. 4 to 6, the atomization device 100 capable of adapting to a conventional eyedrop bottle of the present utility model further includes a movable push button 7, where the movable push button 7 is movably disposed on the housing 1. The movable push button 7 has a first position covering the spray outlet 13 and a second position exposing the spray outlet 13 relative to the housing 1, and when the movable push button 7 is located at the second position, the spray outlet 13 sprays eyedrops; the movable push button 7 is operated to switch between the first position and the second position so that the spray outlet 13 ejects liquid or stops ejecting liquid. Specifically, the movable push button 7 is slidably disposed on the housing 1, and the user pushes the movable push button 7 by hand to switch the movable push button 7 between the first position and the second position.

With continued reference to fig. 4 to 6, the liquid outlet 232 and the spray outlet 13 further include an atomizing plate 8 and an anti-overflow guide block 9 in sequence, the atomizing plate 8 covers the liquid outlet 232, the anti-overflow guide block 9 is pressed on the atomizing plate 8, the middle part of the anti-overflow guide block 9 is provided with a spray outlet 91 penetrating the spray outlet 13, and the spray outlet 91 is opposite to the spray outlet 13. By the atomizing sheet 8, the liquid is oscillated at a high frequency so that the liquid can be ejected in the form of mist. The structure and principle of the atomizing sheet 8 are well known to those skilled in the art, and thus are not described herein. By means of the spill-proof guide block 9, liquid is prevented from flowing into the interior of the housing 1. Preferably, in the present embodiment, the mist outlet 91 is provided with a diameter gradually increasing in the mist outlet direction. The direction of the mist outlet 91 is set to guide the mist outlet angle of the mist.

With continued reference to fig. 5, the atomizing device 100 of the present utility model, which is adaptable to a conventional eyedrop bottle, further includes a power supply element 10 and a driving circuit board 101, wherein the power supply element 10 and the driving circuit board 101 are disposed in the accommodating cavity 12, and the power supply element 10, the driving circuit board 101 and the atomizing sheet 8 are electrically connected. It is understood that the principle of electrical connection between the power supply element 10, the driving circuit board 101 and the atomizing plate 8 is well known to those skilled in the art, and thus will not be described herein.

It will be appreciated that in other simplified embodiments, the cap 5 and gland 6 may be eliminated, as shown in figure 2. Alternatively, the first sleeve 3 and the second sleeve 4 are further deleted, and thus the present utility model is not limited thereto.

The working principle of the atomizing device 100 adaptable to the conventional eyedrop bottle according to the present utility model will be described with reference to the accompanying drawings: before use, the bottle mouth 202 of the traditional eyedrop bottle 200 is aligned with the second opening 231 and is screwed in the atomizing device 100 in a rotating way, when the eyedrop bottle is installed, the drainage column 233 punctures the aluminum sealing film, and the liquid medicine in the traditional eyedrop bottle 200 flows into the liquid accommodating cavity 23 along the drainage column 233; then, cover the cover 5; next, the gland 6 is covered; next, the movable push button 7 is pushed, and the driving circuit board 101 responds, and the driving circuit board 101 drives the atomizing sheet 8 to atomize the liquid medicine at the liquid outlet 232, so that the atomized liquid medicine is discharged from the mist outlet 91 and the mist outlet 13.

Compared with the prior art, the atomization device 100 which can be matched with the traditional eyedrop bottle has the advantages that the atomizer body 2 is provided with the liquid containing cavity 23 with the second opening 231 upwards, the cavity wall at the second opening 231 is provided with the connecting structure 24 matched with the bottle mouth 202 of the traditional eyedrop bottle 200, and the traditional eyedrop bottle 200 is detachably connected with the atomizer body 2 through the connecting structure 24, so that when the eyedrop bottle needs to be replaced, the eyedrop bottle only needs to be detached from the atomizer body 2, and the replacement is convenient; by means of the liquid containing cavity 23 and the liquid outlet 232 of the atomizer body 2, the liquid outlet 232 is communicated with the spray outlet 13, and eye drops are sprayed out through the spray outlet 13 through atomization, so that the traditional medicine feeding mode requiring medicine dripping is changed, the eye drops can be prevented from being polluted, and the sanitation of the eye drops is ensured; secondly, the spray eye drops are more convenient to apply medicine and can reach eyeballs more easily.

The foregoing disclosure is only illustrative of the preferred embodiments of the present utility model and is not to be construed as limiting the scope of the utility model, which is defined by the appended claims.

Claims (18)

1. The utility model provides an atomizing device that can with traditional eye drop bottle adaptation, its characterized in that, includes casing and atomizer body, the casing includes that first opening is up accepts the chamber, the atomizer body is located accept the intracavity and the closing cap in first opening, the atomizer body includes that the second opening is up liquid holding chamber, the atomizer body still seted up with the liquid outlet that liquid holding chamber is linked together, the casing still has the spraying export, the liquid outlet with the spraying export is linked together, the cavity wall of second opening part have with traditional eye drop bottle's bottleneck matched with connection structure, traditional eye drop bottle is detachably connected through connection structure the atomizer body.

2. The atomizing device adaptable to a conventional eyedrop bottle of claim 1, wherein the mouth of the conventional eyedrop bottle is an external thread structure and the connecting structure is an internal thread structure; or, the bottle mouth of the traditional eyedrop bottle is connected with the atomizer body in a clamping way on the connecting structure; or the bottle mouth of the traditional eyedrop bottle is detachably connected with the connecting structure through magnetic adsorption.

3. The aerosol device of claim 1, wherein the atomizer body is removably capped at the first opening.

4. The atomizing device capable of being matched with a traditional eyedrop bottle according to claim 3, wherein the atomizer body comprises a first installation part and a liquid storage part from top to bottom in sequence, the first installation part is integrally connected with the liquid storage part, the first installation part is detachably used for sealing the first opening, the liquid storage part is positioned in the accommodating cavity, and the liquid outlet is formed in the side wall of the liquid storage part.

5. The atomizing device adaptable to a conventional eyedrop bottle of claim 4, wherein the outer sidewall of the first mounting portion is provided with a protruding block protruding outward, and the outer sidewall of the first opening of the housing is provided with a slot into which the protruding block is inserted and mounted in the up-down direction.

6. The aerosol device of claim 4, further comprising a first sleeve member that fits over the housing and over the first mounting portion, the first sleeve member compressing the first mounting portion against the housing in an up-down direction.

7. The atomizing device adaptable to conventional eyedrop bottle of claim 6, wherein a round of recess is concavely provided on the outer periphery of the first mounting portion, the bottom surface of the recess is flush with the top surface of the housing, the inner wall of the first sleeve projects inwardly to form a round of boss, and the boss is simultaneously pressed against the bottom surface of the recess and the top surface of the housing.

8. The aerosol device of claim 4, further comprising a second sleeve, wherein the aerosol body further comprises a second mounting portion, wherein the second mounting portion is connected to the top of the first mounting portion and extends upwardly out of the first opening, and wherein the second sleeve is sleeved on the second mounting portion.

9. The atomizing device adaptable to a conventional eyedrop bottle of claim 8, wherein an outer sidewall of the second mounting portion is provided with an external thread structure, a through hole having an internal thread structure is provided in a middle portion of the second sleeve, and the second sleeve is sleeved with the second mounting portion through the external thread structure and the internal thread structure.

10. The aerosol apparatus of claim 8, wherein the top surface of the second sleeve member is flush with the top surface of the second mounting portion.

11. The atomizing device adaptable to a conventional eyedrop bottle of claim 1, further comprising a housing having a receiving space for receiving the conventional eyedrop bottle, the housing being detachably connected to the housing or the atomizer body.

12. The aerosol apparatus of claim 11, wherein the cover is transparent; and/or the side wall of the cover body is penetrated with a visual hole which is arranged along the up-down direction.

13. The atomizing device adaptable to a conventional eyedrop bottle of claim 11, further comprising a pressing cover provided on the top of the cover, wherein the top of the cover is further provided with a through-hole, and the bottom of the pressing cover is provided with a pressing arm inserted into the hole so as to extend into the accommodating space to press the conventional eyedrop bottle in the up-down direction.

14. The aerosol apparatus of claim 1, further comprising a movable push button movably disposed on the housing, the movable push button having a first position covering the spray outlet and a second position exposing the spray outlet relative to the housing, the spray outlet spraying eye drops when the movable push button is in the second position; the movable push button is operated to switch between the first position and the second position so that the spray outlet sprays liquid or stops spraying liquid.

15. The atomizing device capable of being matched with a traditional eyedrop bottle according to claim 1, wherein an atomizing sheet and an anti-overflow guide block are further sequentially arranged between the liquid outlet and the spray outlet, the atomizing sheet covers the liquid outlet, the anti-overflow guide block is tightly pressed on the atomizing sheet, a fog outlet which penetrates through the anti-overflow guide block is formed in the middle of the anti-overflow guide block, and the fog outlet and the spray outlet are opposite to each other.

16. The aerosol apparatus of claim 15, wherein the aerosol outlet is configured to gradually increase in diameter in an aerosol direction.

17. The aerosol apparatus of claim 15, further comprising a power element and a drive circuit board, wherein the power element and the drive circuit board are disposed in the housing cavity, and wherein the power element, the drive circuit board and the aerosol sheet are electrically connected.

18. The atomizing device adaptable to a conventional eyedrop bottle of claim 1, further comprising a drainage post, wherein the drainage post is disposed in the liquid receiving chamber and has a top portion extending upwardly into the mouth of the conventional eyedrop bottle, and the drainage post is disposed with a diameter gradually increasing from top to bottom.