CN114192497A

CN114192497A - Portable ultrasonic cleaning device for contact lenses

Info

Publication number: CN114192497A
Application number: CN202111500420.2A
Authority: CN
Inventors: 李平
Original assignee: Individual
Current assignee: Shenzhen Dekang Cleaning Electric Appliance Co ltd
Priority date: 2021-12-09
Filing date: 2021-12-09
Publication date: 2022-03-18
Anticipated expiration: 2041-12-09
Also published as: CN114192497B

Abstract

The invention belongs to the field of ultrasonic cleaning, and particularly relates to a portable ultrasonic cleaning device for contact lenses, which comprises a shell, wherein a cleaning cavity with an opening facing one side is arranged in the shell, a timer and a battery are arranged on the side, away from the cleaning cavity, in the shell, a sealing cover is arranged at the opening of the shell in a flip manner, a specified cleaning mechanism is arranged in the cleaning cavity, a power mechanism for specifying the power of the cleaning mechanism is arranged in the shell, a filtering mechanism for filtering impurity bacteria in nursing liquid is arranged in the specified cleaning mechanism, a contact-preventing mechanism for preventing mistaken touch is arranged at the closing part of the sealing cover and the shell, a sealing gasket is arranged at the closing part of the shell and the sealing cover, because the eye secretions and dust can float to the lens care liquid level, the contact lens can be completely isolated from the pollutants, the contact lens is fixed by the water inlet pipe during cleaning, so that the contact lens can be prevented from running to a place which is not easy to take out in the cleaning process or the movement process.

Description

Portable ultrasonic cleaning device for contact lenses

Technical Field

The invention belongs to the field of ultrasonic cleaning, and particularly relates to a portable ultrasonic cleaning device for contact lenses.

Background

The contact lens brings great improvement to patients with ametropia such as myopia, hyperopia, astigmatism and the like from the aspects of appearance and convenience. The contact lens cleaning method is generally characterized in that the contact lens coated with the cleaning solution is lightly wiped by hands, and the contact lens is washed by normal saline or a lens care solution, and the prior cleaning method has the following problems:

the direct hand cleaning is not only inconvenient in sanitary operation, but also troublesome, and the contact lenses are very small and easy to wash away in the washing process;

secondly, after the existing contact lens cleaning device cleans the contact lenses, the cleaning liquid on the contact lenses cannot be removed;

the existing contact lens cleaning device can not fix the lens when cleaning the lens, and the lens is easy to be washed to a place which is not easy to take out in the cleaning process.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides an ultrasonic cleaning device which is convenient to carry and clean contact lenses.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a portable contact lens ultrasonic cleaning device, includes the shell, be equipped with the washing chamber of opening towards one side in the shell, keep away from in the shell wash the chamber side and be equipped with time-recorder and battery, opening part flip on the shell is equipped with sealed lid, it is equipped with regulation wiper mechanism to wash the intracavity, be equipped with in the shell and be used for the power unit of regulation wiper mechanism power, be equipped with the filter mechanism who is arranged in filtering the nursing liquid impurity bacterium in the regulation wiper mechanism, sealed lid with the closed department of shell is equipped with prevents that the mistake bumps and touches the mechanism, the shell with the department of closing the lid of sealed lid is equipped with sealed the pad.

Preferably, the specified cleaning mechanism comprises a interlayer plate fixedly arranged in the middle of the cleaning cavity, two arc-shaped convex blocks are arranged on the interlayer plate, a micro ultrasonic meter is fixedly arranged on each convex block, the cleaning cavity is divided into sliding grooves by the interlayer plate close to the timer side, two air cylinders are fixedly arranged on the inner wall of each sliding groove close to the timer, two water dragging plates are fixedly arranged on inner shafts of the two air cylinders together, the water dragging plates slide on the side walls of the sliding grooves in a sealing manner, the water outlet cavities are divided between the sliding grooves and the cleaning cavity by the water dragging plates, water inlet pipes for communicating the water cavities and the cleaning cavity are arranged in the middle of the two symmetrical side walls of the water cavities, a single-row pressure valve is arranged at the position of the cleaning cavity, and the two air cylinders are symmetrically arranged relative to the water inlet pipes.

Preferably, the specified cleaning mechanism further comprises a fixed air cavity with an opening facing the interlayer plate and arranged in the shell and close to the connecting side of the sealing cover and the shell, a fixed piston is arranged in the fixed air cavity in a sliding manner, a wire wheel groove is arranged in the shell and close to the sealing cover, a wire wheel shaft is rotatably arranged on the side wall of the wire wheel groove, a double-groove wire wheel is arranged on the wire wheel shaft, the wire wheel groove is provided with a torsion spring groove with an opening facing the wire wheel groove and arranged at the two ends of the wire wheel shaft, the wire wheel shaft is connected to the side wall of the torsion spring groove through a torsion spring, the fixed piston is connected to the inner wall of the fixed air cavity close to the wire wheel shaft through a power spring, a trigger wire rope and a tension wire rope are wound on the double-groove wire wheel in the same direction, the tension wire rope is connected to the fixed piston, and the trigger wire rope is connected to the sealing cover, an air pipe connected in the interlayer plate is arranged at the opening of the fixed air cavity, a penetrating water inlet pipe is arranged in the middle of each micro-ultrasonic instrument, and each water inlet pipe is connected to the air pipe.

Preferably, the filtering mechanism comprises a sealing groove which is arranged in the shell and is far away from the fixed air cavity side, the opening of the sealing groove faces the cleaning cavity, a sealing plug is arranged in the sealing groove in a sliding manner, the sealing plug is connected to the inner wall of the sealing groove, which is close to the sealing cover side, of the sealing groove through a sealing spring, a fixing plate is fixedly arranged on the partition plate, which is close to the sealing groove side, a filter screen, a filter plate and a nano photocatalyst decomposition net are fixedly arranged on the fixing plate, which is close to the water cavity side, the filter screen is positioned on the innermost side of the fixing plate, the nano photocatalyst decomposition net is positioned on the outermost side of the sealing plug fixing plate, a through hole is arranged in the middle of the fixing plate, the through hole is sealed at the through hole of the fixing plate, a filtering sealing plate is arranged on the through hole in a sealing manner, and two filtering sealing grooves are symmetrically arranged on the fixing plate about the through hole, every the inner wall of filtering the seal groove all is in through filtering sealing spring coupling filtering on the closing plate, the sealing plug is located sealed inslot department is close to sealed end fixed seal post that is equipped with, seal post runs through the shell supports sealed covering is last, sealed spring housing is lived on the seal post, the shell is located be equipped with the sealing plate groove in the sealed opening part of living the groove, sealing plate inslot sealing slip is equipped with the closing plate, the sealing plug runs through to be fixed on the closing plate.

Preferably, the shell is located sealed live inslot side is in sealed post symmetry is equipped with two openings towards the power of sealed lid and presses the post groove, every the power is pressed the post inslot and is all slided and be equipped with power and press the post, every the power is pressed the post groove and is all pressed the spring coupling through power and press on the inner wall that corresponds the power and press the post groove, be located every in the shell power is pressed post groove department and all is equipped with a pressure chamber, every the pressure chamber all slides and is equipped with power piston plate, every the power is pressed the post and is all fixed on the power piston plate that corresponds, every the pressure chamber all communicates on the cylinder that corresponds through the breather pipe.

Preferably, the anti-touch mechanism comprises a button groove, wherein the sealing cover is close to the sealing column side and provided with an opening facing the shell, the opening deviates from the side where the sealing cover is connected with the shell, an elastic button is arranged in the button groove in a sliding manner and is connected onto the inner wall of the button groove through a button spring, a clamping groove with an opening facing the sealing cover is arranged at the position corresponding to the button groove in the shell, the elastic button is clamped in the clamping groove, the elastic button is far away from the sealing column sliding groove with an opening facing the shell in the shell side, an anti-touch clamping groove with an opening facing the sealing column sliding groove is arranged on the side wall corresponding to the button groove and the sealing column sliding groove, a clamping column is arranged in the sealing column sliding groove in a sliding manner and is connected onto the inner wall of the sealing column sliding groove through a sealing column spring, the clamping column is clamped in the anti-touch clamping groove, and a connecting column is fixedly arranged on the side of the clamping column far away from the button spring, the connecting column is fixedly provided with a push plate, and the push plate is arranged on the elastic button in a sliding manner.

Has the advantages that: because the secretion of eyes and dust can float to the lens nursing liquid level, can keep apart contact lens and pollutant completely, because the inlet tube is fixed with contact lens when wasing, can prevent that contact lens can run to the place that is difficult for taking out in the cleaning process or motion process.

Cover sealed lid and make elastic button receive the resistance of shell and make elastic button elastic deformation, the card is in the draw-in groove, avoids sealed lid simultaneously when opening loaded down with trivial details sealed pad can be sealed with the contact department of sealed lid with the shell, prevents to wash the glasses care solution of intracavity and spills when carrying.

The through hole of the fixing plate can be sealed by the filtering sealing plate, and filtered sundries are prevented from returning to the nursing liquid.

Drawings

FIG. 1 is a schematic external view of the present invention;

FIG. 2 is a schematic diagram of a structural implementation of the present invention;

FIG. 3 is a schematic view of FIG. 2 taken along line A-A;

FIG. 4 is a schematic view of the direction B-B in FIG. 2;

FIG. 5 is an enlarged view of FIG. 2 at C;

FIG. 6 is an enlarged view of FIG. 2 at D;

FIG. 7 is an enlarged view of E in FIG. 2;

FIG. 8 is an enlarged view of FIG. 2 at F;

fig. 9 is a schematic view in the direction of G-G in fig. 6.

In the figure, a housing 10; a timer 11; a battery 12; a slide groove 13; a cylinder 14; a mop plate 15; a water chamber 16; a cleaning chamber 17; a seal gasket 18; a seal cover 19; a micro-sonicator 20; a water inlet pipe 21; a division plate 22; a seal plate groove 23; a breather pipe 24; an air pipe 26; a button slot 27; a single line pressure valve 28; a pressure chamber 29; a power piston plate 30; a power pressing column 31; a power pressing post groove 32; a power pressing spring 33; a sealing plug 34; sealing the groove 35; sealing the spring 36; a fixed air chamber 37; a stationary piston 38; a pulley groove 39; a line shaft 40; a torsion spring groove 41; a torsion spring 42; a double grooved pulley 43; a power spring 44; triggering the wire rope 45; a tensile steel cord 46; a nano photocatalyst decomposing mesh 47; a filter plate 48; a strainer 49; a clamp column 50; a fixed plate 51; a filter sealing plate 52; a filter seal groove 53; a filter seal spring 54; 55; a sealing plate 56; a card slot 57; a resilient button 58; a button spring 59; a sealing post 60; a tamper-proof slot 61; a sealing post runner 62; a seal post spring 63; a connecting post 64; a push plate 65; a prescribed cleaning mechanism 90; a power mechanism 91; a filter mechanism 92; a touch prevention mechanism 93; .

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

In the description of the present invention, it should be noted that the terms "inside", "below", and the like refer to orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships that the products of the present invention conventionally place when used, and are used only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

Referring to fig. 2, the portable ultrasonic cleaning device for contact lenses comprises a shell 10, a cleaning cavity 17 with an opening facing one side is arranged in the shell 10, a timer 11 and a battery 12 are arranged on the side, away from the cleaning cavity 17, of the shell 10, a sealing cover 19 is arranged on the opening of the shell 10 in a flip manner, a specified cleaning mechanism 90 is arranged in the cleaning cavity 17, a power mechanism 91 used for specifying the power of the cleaning mechanism 90 is arranged in the shell 10, a filtering mechanism 92 used for filtering foreign bacteria in nursing liquid is arranged in the specified cleaning mechanism 90, a contact preventing mechanism 93 for preventing mistaken contact is arranged at the closed position of the sealing cover 19 and the shell 10, and a sealing gasket 18 for sealing is arranged at the closed position of the shell 10 and the sealing cover 19.

Further, referring to fig. 2, it is specified that the cleaning mechanism 90 includes a interlayer plate 22 fixedly disposed at a middle position of the cleaning cavity 17, two arc-shaped bumps are disposed on the interlayer plate 22, a micro-ultrasonic device 20 is fixedly disposed on each bump, the cleaning cavity 17 is divided into a sliding groove 13 by the interlayer plate 22 near the timer 11, two air cylinders 14 are fixedly disposed on an inner wall of the sliding groove 13 near the timer 11, a mop plate 15 is fixedly disposed on inner shafts of the two air cylinders 14 together, the mop plate 15 slides on a side wall of the sliding groove 13 in a sealing manner, the mop plate 15 divides a water outlet cavity 16 between the sliding groove 13 and the cleaning cavity 17, a water inlet pipe 21 communicating the water cavity 16 and the cleaning cavity 17 is disposed at a middle position on two symmetrical side walls of the water cavity 16, a single-way pressure valve 28 is disposed at a position of the cleaning cavity 17, and the two air cylinders 14 are symmetrically disposed about the water inlet pipe 21.

Further, with reference to fig. 6 and 9, the specified cleaning mechanism 90 further includes a fixed air chamber 37 with an opening facing the interlayer plate 22 and disposed in the housing 10 near the connection side of the sealing cover 19 and the housing 10, a fixed piston 38 slidably disposed in the fixed air chamber 37, a pulley groove 39 disposed in the housing 10 near the sealing cover 19 and disposed in the fixed air chamber 37, a pulley shaft 40 rotatably disposed on the sidewall of the pulley groove 39, a double-grooved pulley 43 disposed on the pulley shaft 40, a torsion spring groove 41 with an opening facing the pulley groove 39 and disposed at the two ends of the pulley shaft 40, the pulley shaft 40 connected to the sidewall of the torsion spring groove 41 through a torsion spring 42, the fixed piston 38 connected to the inner wall of the fixed air chamber 37 near the pulley shaft 40 through a power spring 44, a trigger wire 45 and a tension wire 46 wound in the same direction on the double-grooved pulley 43, the tension wire 46 connected to the fixed piston 38, the trigger wire 45 connected to the sealing cover 19, an air pipe 26 connected in the interlayer plate 22 is arranged at the opening of the fixed air cavity 37, a water inlet pipe 21 penetrating through is arranged in the middle of each micro-ultrasonic instrument 20, and each water inlet pipe 21 is connected to the air pipe 26.

Further, referring to fig. 7 and 4, the filtering mechanism 92 includes a sealing groove 35 with an opening facing the cleaning chamber 17, which is disposed on the side of the housing 10 away from the fixed air chamber 37, a sealing plug 34 is slidably disposed in the sealing groove 35, the sealing plug 34 is connected to the inner wall of the sealing groove 35 close to the sealing cover 19 through a sealing spring 36, a fixing plate 51 is fixedly disposed on the side of the interlayer plate 22 close to the sealing groove 35, a filter screen 49, a filter plate 48, and a nano-photocatalyst decomposing screen 47 are fixedly disposed on the fixing plate 51 close to the water chamber 16, the filter screen 49 is disposed on the innermost side of the fixing plate 51, the nano-photocatalyst decomposing screen 47 is disposed on the outermost side of the fixing plate 51, a through hole is disposed in the middle of the fixing plate 51, the 34 is sealed at the through hole of the fixing plate 51, a filtering sealing plate 52 is sealingly disposed on the side of the through hole of the fixing plate 51 close to the filter screen 49, two filtering sealing grooves 53 are symmetrically disposed on the fixing plate 51 about the through hole, the inner wall of each filtering sealing groove 53 is connected to the filtering sealing plate 52 through a filtering sealing spring 54, the sealing plug 34 is located in the sealing groove 35 and is fixed to be provided with a sealing column 60 close to the sealing cover 19 end, the sealing column 60 penetrates through the shell 10 to abut against the sealing cover 19, the sealing spring 36 is sleeved on the sealing column 60, the shell 10 is located in the opening of the sealing groove 35 and is provided with a sealing plate groove 23, a sealing plate 56 is arranged in the sealing plate groove 23 in a sealing and sliding mode, and the sealing plug 34 penetrates and is fixed to the sealing plate 56.

Further, referring to fig. 2 and 4, the housing 10 is symmetrically provided with two power pressing post grooves 32 opening toward the sealing cover 19 in the side of the sealing groove 35 with respect to the sealing post 60, each power pressing post groove 32 is slidably provided with a power pressing post 31, each power pressing post groove 32 is connected to the inner wall of the corresponding power pressing post groove 32 through a power pressing spring 33, a pressure chamber 29 is provided in each power pressing post groove 32 in the housing 10, a power piston plate 30 is slidably provided in each pressure chamber 29, each power pressing post 31 is fixed to the corresponding power piston plate 30, and each pressure chamber 29 is communicated with the corresponding cylinder 14 through a vent pipe 24.

Further, with reference to fig. 8, the anti-touch mechanism 93 includes a button groove 27, which is provided on the side of the sealing cover 19 close to the sealing post 60 and has an opening facing the housing 10 and an opening deviating from the side of the sealing cover 19 connected to the housing 10, an elastic button 58 is slidably provided in the button groove 27, the elastic button 58 is connected to the inner wall of the button groove 27 through a button spring 59, a slot 57, which is provided in the housing 10 and has an opening facing the sealing cover 19, is provided at a position corresponding to the button groove 27, the elastic button 58 is locked in the slot 57, a sealing post sliding slot 62, which is provided in the side of the elastic button 58 away from the housing 10 and has an opening facing the housing 10, an anti-touch slot 61, which is provided on the side wall of the button groove 27 corresponding to the sealing post sliding slot 62 and has an opening facing the sealing post sliding slot 62, a clamping post 50 is slidably provided in the sealing post sliding slot 62, the clamping post 50 is connected to the inner wall of the sealing post sliding slot 62 through a sealing post spring 63, the clamping post 50 is provided in the anti-touch slot 61, a connecting post 64 is fixedly provided on the side of the clamping post 50 away from the button spring 59, a push plate 65 is fixedly arranged on the connecting column 64, and the push plate 65 is arranged on the elastic button 58 in a sliding manner.

Initial state: the sealing spring 36 and the power pressing spring 33 are in a compressed state, the torsion spring 42 is in a normal state, the filtering sealing spring 54 is in a slightly stretched state, the sealing spring 36 is in a compressed state, the button spring 59 is in a normal state, the sealing column spring 63 is in a normal state, and the power spring 44 is in a state.

The working principle is as follows: pushing the push plate 65, the push plate 65 drives the clamping column 50 to slide out of the anti-touch clamping groove 61, the sealing column spring 63 is compressed, the elastic button 58 is pressed, the button spring 59 is compressed, the elastic button 58 slides out of the clamping groove 57, the sealing cover 19 is opened, the push plate 65 is loosened, the sealing column sliding groove 62 restores to drive the clamping column 50 to restore, the button spring 59 restores to drive the elastic button 58 to restore, the sealing spring 36 restores to drive the sealing plug 34 to slide when the sealing cover 19 is opened, the through hole of the fixing plate 51 is opened, the power pressing spring 33 restores to drive the power pressing column 31 to drive the power piston plate 30 to slide, air in the air cylinder 14 is pumped into the pressure cavity 29 through the vent pipe 24, the inner shaft of the air cylinder 14 is contracted to drive the water dragging plate 15 to slide away from the sealing cover 19, meanwhile, the sealing cover 19 pulls the trigger steel wire rope 45 to drive the double-grooved pulley 43 to rotate, and the torsion spring 42 is compressed, and put down the steel wire rope 46 of pulling force, the power spring 44 extends after the fixed piston 38 loses the pulling force of the steel wire rope 46 of pulling force, make the fixed piston 38 slide, add the eye nursing liquid in the cleaning chamber 17, because the pressure in the water cavity 16 diminishes when dragging the water board 15 to slide, attract the filtering sealing plate 52, open the through hole of the fixed plate 51, make the eye nursing liquid in the cleaning chamber 17 flow into the water cavity 16, the eye nursing liquid is added to the surface of the division plate 22 close to the cleaning chamber 17 and can, put the contact lens taken off on two miniature ultrasonic meters 20 separately, cover the gland bonnet 19.

After the sealing cover 19 is covered, the torsion spring 42 recovers to enable the trigger wire rope 45 and the pull wire rope 46 to be wound on the double-grooved wire wheel 43 again, the pull wire rope 46 pulls the fixed piston 38 to slide towards the double-grooved wire wheel 43, the power spring 44 is compressed, the contact lenses are sucked on the micro-ultrasonic instrument 20 through the air pipe 26 and the water inlet pipe 21, meanwhile, the sealing cover 19 presses the sealing column 60 to slide with the power pressing column 31, the inner shaft of the air cylinder 14 extends out, the water dragging plate 15 enables the lens care solution to sink the contact lenses in the cleaning cavity 17, the sealing column 60 drives the sealing plug 34 to seal the through hole of the fixed plate 51, as the middle part of the elastic button 58 is designed as a thin plate, the elastic button 58 is elastically deformed by the resistance of the shell 10 when the sealing cover 19 is covered, the elastic button 58 is clamped in the clamping groove 57, the trouble caused when the sealing cover 19 is covered is avoided, and the sealing gasket 18 can seal the contact part of the sealing cover 19 and the shell 10, the contact lens cleaning device has the advantages that the contact lens nursing liquid in the cleaning cavity 17 is prevented from leaking when the contact lens cleaning device is carried, the micro-ultrasonic instrument 20 is started, ultrasonic waves generated by the micro-ultrasonic instrument 20 vibrate the contact lens to clean up eye secretion and dust on the contact lens in a vibrating mode, the eye secretion and the dust float to the liquid level through the nursing liquid, the timer 11 controls the micro-ultrasonic instrument 20 to be closed after the contact lens is cleaned for a certain time, the contact lens can be completely isolated from pollutants because the eye secretion and the dust can float to the lens nursing liquid level, and the contact lens is fixed through the water inlet pipe 21 during cleaning, so that the contact lens can be prevented from running to a place which is not easy to take out in the cleaning process or the moving process.

When taking out the contact lens, after the sealing cover 19 is opened, the through hole of the fixing plate 51 is opened, the lens nursing liquid in the cleaning cavity 17 is subjected to dynamic filtration of the sealing plate 52 and sequentially passes through the filter screen 49, the filter plate 48 and the nano photocatalyst decomposition screen 47 return to the water cavity 16, the filter screen 49 can filter dust, the nano photocatalyst decomposition screen 47 can filter bacteria, the contact lens is taken out, when the sealing cover 19 is covered, the through hole of the fixing plate 51 can be sealed by the filtering sealing plate 52, and filtered impurities are prevented from returning to the nursing liquid.

The above description is only an 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

1. A portable contact lens ultrasonic cleaning device comprising a housing (10), characterized in that: be equipped with washing chamber (17) of opening orientation one side in shell (10), keep away from in shell (10) washing chamber (17) side is equipped with time-recorder (11) and battery (12), opening part flip on shell (10) is equipped with sealed lid (19), be equipped with regulation wiper mechanism (90) in washing chamber (17), be equipped with in shell (10) and be used for regulation wiper mechanism (90) power unit (91) of power, be equipped with in regulation wiper mechanism (90) and be arranged in filtering nursing liquid impurity bacterium's filter mechanism (92), sealed lid (19) with the closed department of shell (10) is equipped with prevents touching mechanism (93) of mistake, shell (10) with the lid department of closing of sealed lid (19) is equipped with sealed pad (18).

2. The portable ultrasonic cleaning device for contact lenses of claim 1, wherein: the specified cleaning mechanism (90) comprises a interlayer plate (22) fixedly arranged in the middle of the cleaning cavity (17), two arc-shaped convex blocks are arranged on the interlayer plate (22), a micro-ultrasonic instrument (20) is fixedly arranged on each convex block, the cleaning cavity (17) is divided into a sliding groove (13) by the interlayer plate (22) close to the timer (11), two air cylinders (14) are fixedly arranged on the inner wall of the sliding groove (13) close to the timer (11), a water dragging plate (15) is jointly and fixedly arranged on inner shafts of the two air cylinders (14), the water dragging plate (15) slides on the side wall of the sliding groove (13) in a sealing manner, a water cavity (16) is divided between the sliding groove (13) and the cleaning cavity (17) by the water dragging plate (15), and water inlet pipes (21) communicated with the water cavity (16) and the cleaning cavity (17) are arranged in the middle of the two symmetrical side walls of the water cavity (16), the inlet tube (21) is located wash chamber (17) department and be equipped with single file pressure valve (28), two cylinder (14) about inlet tube (21) symmetry sets up.

3. The portable ultrasonic cleaning device for contact lenses of claim 2, wherein: the specified cleaning mechanism (90) further comprises a fixed air cavity (37) with an opening facing a interlayer plate (22) and arranged in the shell (10) close to the connecting side of the sealing cover (19) and the shell (10), a fixed piston (38) is arranged in the fixed air cavity (37) in a sliding manner, a wire wheel groove (39) is arranged in the shell (10) and positioned at the side of the fixed air cavity (37) close to the sealing cover (19), a wire wheel shaft (40) is rotatably arranged on the side wall of the wire wheel groove (39), a double-grooved wire wheel (43) is arranged on the wire wheel shaft (40), a torsion spring groove (41) with an opening facing the wire wheel groove (39) is arranged at the two ends of the wire wheel groove (39) and positioned at the wire wheel shaft (40), the wire wheel shaft (40) is connected to the side wall of the torsion spring groove (41) through a torsion spring (42), and the fixed piston (38) is connected to the inner wall of the fixed air cavity (37) close to the wire wheel shaft (40) through a power spring (44), a trigger steel wire rope (45) and a pull steel wire rope (46) are wound on the double-grooved wire wheel (43) in the same direction, the pull steel wire rope (46) is connected to the fixed piston (38), the trigger steel wire rope (45) is connected to the sealing cover (19), an air pipe (26) connected to the inside of the interlayer plate (22) is arranged at an opening of the fixed air cavity (37), a penetrating water inlet pipe (21) is arranged in the middle of each micro ultrasonic instrument (20), and each water inlet pipe (21) is connected to the air pipe (26).

4. The portable ultrasonic cleaning device for contact lenses of claim 3, wherein: filtering mechanism (92) include keep away from in shell (10) fixed air cavity (37) side is equipped with opening towards the sealed groove (35) of wasing chamber (17), it is equipped with sealing plug (34) to slide in sealed groove (35), sealing plug (34) are connected through sealed spring (36) sealed groove (35) are close to on the inner wall of sealed lid (19) side, division board (22) are close to sealed groove (35) side is fixed and is equipped with fixed plate (51), be close to on fixed plate (51) water cavity (16) side is fixed and is equipped with filter screen (49), filter plate (48), nanometer light catalyst and decompose net (47), filter screen (49) are located the most inboard of fixed plate (51), nanometer light catalyst decomposes net (47) and is located the outside of fixed plate (51), the intermediate position of fixed plate (51) is equipped with the through-hole, the sealing plug (34) is sealed at the through hole of the fixing plate (51), the through hole of the fixing plate (51) is close to the side seal of the filter screen (49) and is provided with a filtering sealing plate (52), the fixing plate (51) is provided with two filtering sealing grooves (53) symmetrically relative to the through hole, the inner wall of each filtering sealing groove (53) is connected to the filtering sealing plate (52) through a filtering sealing spring (54), the sealing plug (34) is positioned in the sealing groove (35) and is close to the sealing cover (19) end, a sealing column (60) is fixedly arranged, the sealing column (60) penetrates through the shell (10) and is abutted to the sealing cover (19), the sealing spring (36) is sleeved on the sealing column (60), the shell (10) is positioned in the opening of the sealing groove (35) and is internally provided with a sealing plate groove (23), the sealing plate groove (23) is internally provided with a sealing plate (56) in a sealing and sliding manner, the sealing plug (34) is fixed on the sealing plate (56) in a penetrating way.

5. The portable ultrasonic cleaning device for contact lenses of claim 4, wherein: the shell (10) is located seal up groove (35) side interior relation to sealed post (60) symmetry is equipped with two openings and presses post groove (32) towards the power of sealed lid (19), every power is pressed and is all slided in post groove (32) and is equipped with power and presses post (31), every power is pressed post groove (32) and all is connected on the inner wall that corresponds power and presses post groove (32) through power pressure spring (33), lie in every in shell (10) power is pressed post groove (32) department and all is equipped with a pressure chamber (29), every all slides in pressure chamber (29) and is equipped with power piston plate (30), every power is pressed post (31) and is all fixed on corresponding power piston plate (30), every pressure chamber (29) are all through breather pipe (24) intercommunication on corresponding cylinder (14).

6. The portable ultrasonic cleaning device for contact lenses of claim 5, wherein: the anti-touch mechanism (93) comprises a sealing cover (19) close to a button groove (27) of the side where the sealing post (60) is connected with a shell (10) through an opening which is arranged towards the shell (10) and deviates from the sealing cover (19) and the shell (10), an elastic button (58) is arranged in the button groove (27) in a sliding manner, the elastic button (58) is connected to the inner wall of the button groove (27) through a button spring (59), a clamping groove (57) of the opening towards the sealing cover (19) is arranged in the shell (10) corresponding to the button groove (27), the elastic button (58) is clamped in the clamping groove (57), the elastic button (58) is far away from the sealing post sliding groove (62) of the opening towards the shell (10) in the side of the shell (10), the button groove (27) and the side wall corresponding to the sealing post sliding groove (62) are provided with an anti-touch clamping groove (61) of the opening towards the sealing post sliding groove (62), slide in sealed post spout (62) and be equipped with card post (50), card post (50) are connected through sealed post spring (63) on the inner wall of sealed post spout (62), card post (50) card prevent touching in draw-in groove (61), keep away from on the card post (50) button spring (59) side is fixed and is equipped with spliced pole (64), fixed push pedal (65) that are equipped with on spliced pole (64), push pedal (65) slide and establish on elastic button (58).