CN109917564B - Contact lens belt cleaning device - Google Patents

Abstract

The invention provides a contact lens cleaning device, which comprises a base and a shell, wherein an electrophoresis tank is arranged in the shell, and an electrophoresis electrode is arranged in the electrophoresis tank; the base is detachably connected with the shell; the electrophoresis device is characterized in that an electrode detachably connected with the electrophoresis electrode is arranged on the base, a lens placing frame or a through hole partition board is arranged on the upper portion of the electrophoresis tank, a plurality of through holes are formed in the through hole partition board, and the inner diameter of each through hole is smaller than the outer diameter of each lens. Compared with the cleaning machine in the prior art, the technical scheme of the invention has the advantages of double cleaning, small volume, portability, no damage to lenses and the like; bacteria and adhered proteins are removed by adopting an electrophoresis mode in combination with sterilized lens sterilizing liquid, so that the method is efficient, free of noise, free of contact with the lens and harmless; and the full-automatic mode of sterilization, deproteinization and lens flushing self-cleaning can be realized through program setting, the operation is simple, the lens can be directly worn or stored after cleaning is finished, and the use is convenient.

Description

Contact lens belt cleaning device

Technical Field

The present invention relates to a lens cleaning device, and more particularly to a lens cleaning device for contact lenses.

Background

At present, with the annual increase of the number of myopia, most young people choose to wear angle plastic lenses and contact lenses (including soft and hard) to control myopia increase, and other people pursue attractive wearing of pupil contact lenses, so that the pupil contact lenses are more attractive. The prior various contact lenses are inevitably cleaned by combining a manual cleaning mode with a single functional machine with a protein cleaning function, and the pollution of the lenses is difficult to avoid because of manual cleaning, and the lenses are sometimes damaged or destroyed because of the difficulty in controlling the strength of hands, so that the cleaning of the lenses cannot be ensured. The lens cleaning machine in the current market has single function and only has single sterilization function, and the lens washing after sterilization needs to be completed manually. The sterilization modes used are mainly modes of mechanically rubbing lenses, ultrasonic vibration, soaking in liquid medicine and the like, but the cleaning modes have problems.

(1) The mechanical rubbing lens is affected by the mechanical movement track, the surface of the lens is difficult to cover completely, and the sterilization and the cleaning are uneven and incomplete. And direct rubbing of the lens surface can cause wear of the lens surface, affecting the life of the lens.

(2) The ultrasonic vibration is to apply ultrasonic energy to make air dissolved in water form tiny bubbles on the surface of the lens, and the energy of bubble explosion is used for killing bacteria and cleaning the lens. Ultrasonic cleaning mode noise is big, and the blasting that ultrasonic wave bubble produced also can influence lens life-span.

(3) The liquid medicine soaking mode aims at the situation that the bacterial species range is narrow, long-time soaking is needed, and the liquid medicine soaking mode is not suitable for being used after washing.

(4) The existing contact lens cleaning machine has single function, and after the various sterilization modes are finished, purified water is manually used for further flushing, and then the contact lens cleaning machine can be used.

Disclosure of Invention

Aiming at the technical problems, the invention discloses a contact lens cleaning device which integrates the functions of electrophoresis sterilization, automatic flushing and lens storage, and the sterilization flushing is automatically completed, so that the use is more convenient.

In this regard, the technical scheme of the invention is as follows:

A contact lens cleaning device, characterized in that: the electrophoresis device comprises a base and a shell, wherein an electrophoresis tank is arranged in the shell, and an electrophoresis electrode is arranged in the electrophoresis tank; the base is detachably connected with the shell; the electrophoresis device is characterized in that an electrode which corresponds to the electrophoresis electrode in position and is detachably connected is arranged on the base, a lens placing frame or a through hole partition board is arranged on the upper portion of the electrophoresis tank, a plurality of through holes are formed in the through hole partition board, and the inner diameter of each through hole is smaller than the outer diameter of each lens.

By adopting the technical scheme, the shell containing the electrolytic tank and the base containing the control part are in a separated design, the electrode is consumed, the electrolytic tank is only required to be replaced, and the use and maintenance are more convenient.

Further, the electrode is a telescopic electrode or an elastic electrode.

As a further improvement of the invention, a clean water tank is arranged in the shell, a rotatable spray header is arranged on one side of the electrophoresis tank, a water outlet of the electrophoresis tank is connected with the water draining mechanism, and the clean water tank is connected with the spray header through a water suction pump.

Further, the contact lens cleaning device includes an upper cover that mates with the housing.

As a further improvement of the invention, a lens storage cavity for storing lenses is arranged in the shell. Further, a top cover is arranged at the mouth of the lens storage cavity.

As a further improvement of the invention, a forceps groove is arranged in the shell.

As a further improvement of the invention, the shell is provided with a mounting hole at one side of the electrophoresis tank, and the handle of the spray head stretches into the mounting hole and can rotate in a vertical plane.

As a further improvement of the invention, the handle of the spray header is L-shaped.

As a further improvement of the invention, when the spray header rotates to a horizontal state, the spray header cover is arranged at the mouth part of the electrophoresis tank. When the spray header rotates from the horizontal state to the vertical state, the spray header faces the electrophoresis tank, so that different angles of the spray header can be changed for cleaning in the cleaning process, and the use is more convenient. And is convenient for storage.

As a further development of the invention, the bottom shell is rotatably connected to the housing.

Further, the bottom shell is sleeved outside the shell.

As a further development of the invention, the bottom shell is rotatably connected to the housing by means of a telescopic element. By adopting the technical scheme, the bottom shell can be pulled out, so that the volume space of the bottom shell is emptied, and the waste water can be stored in the cleaning process.

Further, the maximum extension of the telescoping member is greater than the depth of the housing.

As a further improvement of the invention, the contact lens cleaning device comprises a start key and a control board, the drainage mechanism is a drainage pump, the start key is connected with the control board, and the control board is connected with the electrode, the water suction pump and the drainage pump.

Further, the contact lens cleaning device comprises a function key, an indicator light and a buzzer, wherein the function key, the indicator light and the buzzer are respectively connected with the control board.

As a further improvement of the present invention, the chip of the control board contains a control program, and the control steps of the control program are as follows: pressing a start key to enter a soaking stage, controlling an electrophoresis electrode to work after the soaking time is up, entering an electrophoresis stage, and starting a drainage pump to drain after the electrophoresis time is up; then a water suction pump is started to pump water in the clean water tank to a spray header for spraying, and the lens, the electrophoresis tank and the electrode are washed; in the flushing process, the drainage pump continues to work.

Further, the soaking time is 30-60 s; the electrophoresis time is 30-120 s.

As another scheme, further, it includes water drum and water drum lid, the oral area of water drum is connected with the upper portion detachable of casing to cover the electrophoresis tank, the both ends of water drum are the fretwork, the outside at the water drum is established to water drum lid cover the fretwork on water drum top. After the electrophoresis is completed, the water drum is connected with the shell, then clear water is added, the water drum cover is sleeved, the whole device is shaken, so that better cleaning can be realized after the electrophoresis is completed, no dead angle exists in cleaning, and the device is cleaner.

Further, the water cylinder cover is detachably connected with the outer side of the water cylinder. The connection can be rotary connection or nested connection.

Further, a boss is arranged on the outer side of the water drum, and the water drum cover is connected with the boss.

Further, the electrophoresis tank comprises a first electrophoresis tank and a second electrophoresis tank, a first electrophoresis electrode is arranged in the first electrophoresis tank, a second electrophoresis electrode is arranged in the second electrophoresis tank, the first electrophoresis electrode and the second electrophoresis electrode are symmetrically arranged in the shell, an anode electrode and a cathode electrode which are symmetrically distributed are arranged on the base, and the positions of the anode electrode and the cathode electrode correspond to the positions of the first electrophoresis electrode and the second electrophoresis electrode. By adopting the technical scheme, when the device does not work, other parts such as the base and the electrophoresis tank are in a separated state, when the device needs to work, the base is connected with the shell containing the electrophoresis tank, so that the anode electrode and the cathode electrode are respectively connected with the two electrophoresis electrodes, then the anode electrode can be connected with the first electrophoresis electrode, the cathode electrode is connected with the second electrophoresis electrode, and also can be connected with the second electrophoresis electrode, and the cathode electrode is connected with the first electrophoresis electrode, which is determined by the rotation position of the shell and the base. Thus, the electrode loss is uniform, and the service life of the electrolytic cell is prolonged. In the electrolysis process, the anode of the electrode is always in a loss state, and if the anode is not separated, the anode is always an electrode on one side of the fixed electrode, so that the electrode on the anode side is consumed, and the cathode electrode on the other side is intact. By adopting the split design, the left electrode is taken as the anode at this time, and the right electrode is taken as the anode possibly next time, so that the opportunity of taking the two side electrodes as the anode is the same, and the two side electrodes have uniform loss.

Further, the anode electrode and the cathode electrode are telescopic electrodes or elastic electrodes.

Further, the base is provided with an indicator light and a starting switch, a control board is arranged in the base, and the indicator light, the starting switch and the electrode are respectively and electrically connected with the control board.

Compared with the prior art, the invention has the beneficial effects that:

Compared with the traditional contact lens cleaning machine, the contact lens cleaning device adopting the technical scheme of the invention has the advantages of small volume, portability, no damage to the lens and the like; the electrophoresis mode is adopted to remove germs, so that the device is efficient, has no noise, is free from contact with lenses and has no harm; in addition, the full-automatic mode of sterilizing, deproteinizing and self-cleaning lens washing can be realized by replacing the sterilizing liquid of the contact lens with sterile distilled water through the control program setting of the control board, the operation is simple, the contact lens can be directly worn or stored after the cleaning is finished, and the use is convenient.

Drawings

Fig. 1 is a schematic structural view of embodiment 1 of the present invention.

Fig. 2 is a schematic structural view of the use state of embodiment 1 of the present invention.

Fig. 3 is a schematic view showing a structure in which a shower head is rotated to a vertical state according to embodiment 1 of the present invention.

Fig. 4 is a plan view of the shower head of embodiment 1 of the present invention rotated to a vertical state.

Fig. 5 is a schematic view showing an exploded structure of the cartridge and the cartridge cover according to embodiment 2 of the present invention.

FIG. 6 is a schematic view showing an exploded structure of the cartridge and the cartridge cover according to example 2 of the present invention.

The reference numerals include: 1-base, 2-shell, 3-upper cover, 4-clean water tank, 5-storage cavity, 6-electrophoresis tank, 7-lens placing frame, 8-spray header, 9-electrophoresis electrode, 10-tweezer tank, 11-handle of spray header, 12-start key, 13-indicator lamp and 14-bottom shell; 21-through hole partition board, 22-first electrophoresis tank, 23-second electrophoresis tank, 24-first electrophoresis electrode, 25-second electrophoresis electrode, 26-electrode, 27-anode electrode, 28-cathode electrode, 29-water drum and 30-water drum cover.

Detailed Description

Preferred embodiments of the present invention will be described in further detail below with reference to the accompanying drawings.

Example 1

As shown in fig. 1-4, a contact lens cleaning device comprises a base 1, a bottom shell 14, a shell 2 and an upper cover 3, wherein a water cleaning tank 4, a storage cavity 5 for storing lenses and an electrophoresis tank 6 are arranged in the shell 2, a lens placing frame 7 is arranged at the upper part of the electrophoresis tank 6, a rotatable spray head 8 is arranged at one side of the electrophoresis tank 6, and an electrophoresis electrode 9 is arranged in the electrophoresis tank 6; the water outlet of the electrophoresis tank 6 is connected with a drainage pump, and the clear water tank 4 is connected with a spray header 8 through a water suction pump; the base 1 is detachably connected with the shell 2, the base 14 is detachably connected with the shell of the base 1, and the base 1 is provided with an electrode 26 which corresponds to the electrophoresis electrode 9 in position and is detachably connected with the electrophoresis electrode. A tweezer groove 10 for placing soft rubber tweezer is arranged in the shell 2.

Further, the shell 2 is provided with a mounting hole at one side of the electrophoresis tank 6, and the handle 11 of the spray head extends into the mounting hole and can rotate in a vertical plane. The handle 11 of the spray header is L-shaped. When the spray header 8 rotates to a horizontal state, the spray header 8 covers the opening of the electrophoresis tank 6. When the spray header 8 rotates from the horizontal state to the vertical state, the spray header 8 faces the electrophoresis tank 6, so that different angles of the spray header 8 can be changed for cleaning in the cleaning process, and the multifunctional electric water heater is more convenient to use and convenient to store.

Further, the bottom shell 14 is sleeved outside the base 1. The bottom shell 14 is rotatably connected with the base 1 through a telescopic member. Further, the maximum extension of the telescopic member is greater than the height of the base 1 and the housing 2. In this way, the bottom shell 14 can be pulled out and turned so that the base 1 and the housing 2 rest on the base 1, so that the space of the bottom shell 14 can be emptied for storing the discharged waste water.

Further, the contact lens cleaning device comprises a start key 12 and a control board, wherein the control board is arranged on the base 1, and the electrode 26 is connected with the electrophoresis electrode 9 after the shell 2 is connected with the base 1. The electrode 26, the start key 12, the water pump, and the drain pump are connected to a control board.

Further, the contact lens cleaning device comprises a function key, an indicator 13 and a buzzer, wherein the function key, the indicator 13 and the buzzer are respectively connected with the control board.

The chip of the control board comprises a control program, and the control steps of the control program are as follows: pressing a start key to enter a soaking stage, controlling an electrophoresis electrode to work after the soaking time is up, entering an electrophoresis stage, and starting a drainage pump to drain after the electrophoresis time is up; then a water suction pump is started to pump water in the clean water tank to a spray header for spraying, and the lens, the electrophoresis tank and the electrode are washed; in the flushing process, the drainage pump continues to work. Further, the soaking time is 30-60 s; the electrophoresis time is 30-120 s.

The working process is as follows:

(1) The bottom shell 14 is withdrawn, rotated by about 45 degrees, the volume space of the bottom shell 14 is emptied, and the bottom shell 14 is used for storing the discharged waste water in the following steps by placing the base 1 on the bottom shell 14.

(2) The upper cover 3 is opened, the spray header 8 is pulled up, the lens is placed into the lens placing frame 7 by using silica gel tweezers, electrophoresis liquid is added into the electrophoresis tank 6, and then the spray header 8 is rotated, so that the spray header 8 covers the opening of the electrophoresis tank 6.

(3) Pouring purified water into the clean water tank 4, covering the upper cover 3, and pressing the start key 12.

(4) Soaking for about 30 seconds, entering an electrophoresis stage, and ending after electrophoresis for 1 minute. After the electrophoresis is completed, a drain pump is started to drain the electrophoresis liquid into the bottom casing 14.

(5) After the electrophoretic fluid is discharged, the washing stage is carried out, a water suction pump is started to pump purified water in the clear water tank 4 to the spray header 8 for spraying, and the lens, the electrophoresis tank 6 and the electrode are washed. In the flushing process, the drainage pump synchronously drains the flushed water into the base 1.

(6) After washing, the completion indicator lamp is on, and simultaneously the buzzer sends out a prompt sound to remind the whole lens to electrophorese, and washing is completed.

(7) After the bottom shell 14 is rotated by about 15 degrees, the bottom shell 14 can be removed and the waste water can be poured out. The rinsed lenses can be worn directly or put into a storage cavity 5 for storing the lenses and stored by using sterile liquid.

By adopting the technical scheme of the embodiment, compared with the traditional contact lens cleaning machine, the device has the advantages of small volume, portability, no damage to lenses and convenient realization of full automation of the cleaning process. The electrophoresis mode is adopted to remove germs, so that the device is efficient, has no noise, is free from contact with lenses and has no harm. The mechanism can automatically complete sterilization and flushing, and the flushed lenses can be worn directly or stored in the mechanism, so that the mechanism is convenient to use and carry and particularly suitable for students and office workers.

Example 2

As shown in fig. 5 and 6, a contact lens cleaning device comprises a base 1 and a shell 2, wherein an electrophoresis tank 6 is arranged in the shell 2, and an electrophoresis electrode 9 is arranged in the electrophoresis tank 6; the base 1 is detachably and rotatably connected with the shell 2; the base 1 is provided with an electrode 26 detachably connected with the electrophoresis electrode 9, and the upper part of the electrophoresis tank 6 is provided with a through hole baffle 21, wherein the through hole baffle 21 is provided with a plurality of through holes, and the inner diameter of each through hole is smaller than the outer diameter of the lens. Further, the electrode 26 is a telescopic electrode or an elastic electrode, so that the electrode 26 is connected with the electrophoresis electrode 9 as long as the base 1 and the housing 2 are mounted in place.

In this embodiment, the number of electrophoresis tanks 6 is two, namely a first electrophoresis tank 22 and a second electrophoresis tank 23, a first electrophoresis electrode 24 is arranged in the first electrophoresis tank 22, a second electrophoresis electrode 25 is arranged in the second electrophoresis tank 23, the first electrophoresis electrode 24 and the second electrophoresis electrode 25 are symmetrically arranged in the shell 2, an anode electrode 27 and a cathode electrode 28 which are symmetrically distributed are arranged on the base 1, and the positions of the anode electrode 27 and the cathode electrode 28 correspond to the positions of the first electrophoresis electrode 24 and the second electrophoresis electrode 25. By adopting the technical scheme, when the electrophoresis tank is not in operation, other components such as the base 1, the electrophoresis tank 6 and the like are in a separated state, when the electrophoresis tank is in operation, the base 1 is connected with the shell 2 containing the electrophoresis tank 6, so that the anode electrode 27 and the cathode electrode 28 are respectively connected with the two electrophoresis electrodes 9, then the anode electrode 27 can be connected with the first electrophoresis electrode 24, the cathode electrode 28 can be connected with the second electrophoresis electrode 25, or the anode electrode 27 can be connected with the second electrophoresis electrode 25, and the cathode electrode 28 is connected with the first electrophoresis electrode 24, which is determined by the rotation position of the shell 2 and the base 1. Thus, the electrophoresis electrode 9 is uniformly worn, and the service life of the electrolytic cell is prolonged. In the electrolysis process, the anode of the electrode is always in a loss state, and if the anode is not separated, the anode is always an electrode on one side of the fixed electrode, so that the electrode on the anode side is consumed, and the cathode electrode on the other side is intact. With this split design, the first electrophoresis electrode 24 on the left side is connected to the anode electrode 27, and the second electrophoresis electrode 25 on the right side is connected to the anode electrode 27, so that the opportunity of using the two side electrodes as anodes is the same, and the two side electrodes have uniform loss. The electrolytic cell has low replacement cost. By adopting the split design of the embodiment, the electrode is consumed, and only the electrolytic tank needs to be replaced. If not separated, the entire product needs to be purchased again.

As shown in fig. 6, the contact lens cleaning device includes a water drum 29 and a water drum cover 30, wherein the mouth of the water drum 29 is detachably connected with the upper portion of the housing 2 in a rotating manner, and covers the electrophoresis tank 6, two ends of the water drum 29 are hollowed out, and the water drum cover 30 is sleeved on the top and the outer side of the water drum 29, and covers the hollowed-out portion at the top end of the water drum 29. Further, the water drum cover 30 is detachably connected to the outer side of the water drum 29.

The base 1 is provided with an indicator lamp 13 and a start key 12, a control board is arranged in the base 1, and the indicator lamp 13, the start key 12, the anode electrode 27 and the cathode electrode 28 are respectively and electrically connected with the control board.

When cleaning is required, the housing 2 containing the electrophoresis tank is first placed on the base 1, so that the bottom of the electrophoresis electrode 9 is in good contact with the electrode 26 on the base 1. Then, the lenses are placed in the electrophoresis tank 6, the electrophoresis liquid is applied in the electrophoresis tank 6, and the through-hole spacers 21 are covered (the electrolyte is not so much applied so as not to overflow when the through-hole spacers 21 are covered). The start key 12 is turned on again, and the indicator lamp 13 blinks at this time. And (5) when the indicator lamp is normally on, finishing electrophoresis.

And (5) entering a rinsing state after cleaning. After electrophoresis is completed, the electrophoresis liquid is not required to be poured out urgently, and the lens is prevented from being poured out along with the electrophoresis liquid carelessly. The water drum 29 is screwed with the shell 2, the shell 2 and the water drum 29 are lifted from the base 1 together, and then the electrophoresis liquid can be poured out. At this time, the through holes of the through hole partition plate 21 correspond to a filter screen, preventing the lens from flowing out with the electrophoretic fluid.

After pouring off the electrophoretic fluid, approximately 2/3 of the clear water is added from the top of the water drum 29, the water drum cap 30 is screwed down, the whole product is shaken, and the residual electrophoretic fluid on the lenses is rinsed by shaking with a water stream. After shaking several times, the water drum cap 30 is unscrewed and the washed water is poured off. The washing may be repeated a plurality of times.

By adopting the technical scheme of the embodiment, the electrophoresis disinfection and the rinsing are carried out in the same electrolytic cell, and the electrolytic cell and the electrode are simultaneously cleaned together in the process of rinsing the lenses. The whole cleaning process has the advantages that the lenses are all in the electrolytic tank, the disinfection is carried out, the cleaning steps are simplified, and meanwhile, the lenses are prevented from being taken in and out, and secondary contamination is avoided. With the split design, the chance of water and electrolyte encountering the circuit is less throughout the operation. Wherein, during the rinsing process, the water and the circuit are completely separated. And the product is small and exquisite, and the split package carries more nimble. Can be carried together or separately. The above embodiments are preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, which is defined by the appended claims, but rather by the following claims.

Claims (5)

1. A contact lens cleaning device, characterized in that: the electrophoresis device comprises a base and a shell, wherein an electrophoresis tank is arranged in the shell, and an electrophoresis electrode is arranged in the electrophoresis tank; the base is detachably connected with the shell; the base is provided with an electrode which corresponds to the electrophoresis electrode in position and is detachably connected with the electrophoresis electrode, the upper part of the electrophoresis tank is provided with a lens placing frame or a through hole partition board, the through hole partition board is provided with a plurality of through holes, and the inner diameter of each through hole is smaller than the outer diameter of each lens;

a clear water tank is arranged in the shell, a rotatable spray header is arranged on one side of the electrophoresis tank, a water outlet of the electrophoresis tank is connected with a water draining mechanism, and the clear water tank is connected with the spray header through a water suction pump;

the shell is provided with a mounting hole at one side of the electrophoresis tank, and a handle of the spray header extends into the mounting hole and is rotatably connected with the shell in a vertical plane;

the handle of the spray header is L-shaped;

when the spray header rotates to a horizontal state, the spray header cover is arranged at the opening part of the electrophoresis tank;

The bottom shell is sleeved outside the base; the bottom shell is rotationally connected with the base through a telescopic member; the maximum extension length of the telescopic member is larger than the heights of the base and the shell; the bottom shell is pulled out and rotated, so that the base and the shell are placed on the base, and the space of the bottom shell can be emptied for storing the discharged wastewater.

2. The contact lens cleaning device of claim 1, wherein: and a lens storage cavity for storing lenses is arranged in the shell.

3. The contact lens cleaning device of claim 2, wherein: the water draining device comprises a starting key and a control board, wherein the water draining mechanism is a water draining pump, the starting key is connected with the control board, and the control board is connected with an electrode, a water draining pump and the water draining pump.

4. The contact lens cleaning device of claim 1, wherein: the novel water drum comprises a water drum and a water drum cover, wherein the opening of the water drum is detachably connected with the upper portion of a shell, two ends of the water drum are hollowed out, and the water drum cover is sleeved on the outer side of the water drum and covers the hollowed-out portion of the top end of the water drum.

5. The contact lens cleaning device of claim 4, wherein: the electrophoresis tank comprises a first electrophoresis tank and a second electrophoresis tank, a first electrophoresis electrode is arranged in the first electrophoresis tank, a second electrophoresis electrode is arranged in the second electrophoresis tank, the first electrophoresis electrode and the second electrophoresis electrode are symmetrically arranged in the shell, symmetrically distributed anode electrodes and cathode electrodes are arranged on the base, and the positions of the anode electrodes and the cathode electrodes correspond to the positions of the first electrophoresis electrode and the second electrophoresis electrode.