KR20120111472A - A portable spectacle cleaner and a potable spectacle case having the same, and a method of cleaning spectacle - Google Patents

Abstract

PURPOSE: A hand-held glasses cleansing device, a hand-held glasses case including the same, and a method for cleaning glasses are provided to clean the glasses without the limit of place and time by forming the hand-held glasses cleansing device inside the hand-held glasses case. CONSTITUTION: A hand-held glasses cleansing device(210) comprises a vibration container(220), an ultrasonic wave generator(230), a driving circuit(240), a power supply device(250), a on and off switch(260), and a protective cover(270). The vibration container is mounted in a first internal space of a hand-held glasses case and accomodates rinse solution for cleaning glasses. The driving circuit is connected to the ultrasonic wave generator and controls oscillation of the ultrasonic wave generator. The power supply device is connected to the driving circuit and supplies electricity to the driving circuit. The on and off switch is provided between the driving circuit and the power supply device. The protective cover protects the driving circuit, the power supply device, and the on and off switch. [Reference numerals] (200) Glasses case

Description

A portable spectacle cleaner and a potable spectacle case having the same, and a method of cleaning spectacle}

The present invention relates to a portable spectacle cleaner, a portable spectacle cabinet having the same, and a method for cleaning the spectacles.

More specifically, the present invention provides a portable eyeglass cleaning device using ultrasonic waves integrally inside the portable optician, so that the user can remove any foreign matter attached to the spectacle lens at any time, and is a common cloth mainly used for eyeglass cleaning Compared to the remarkably superior washing power, and a portable eyeglasses that can wash the glasses very easily, and a portable eyeglasses provided with the same, and a method for cleaning the glasses.

In general, spectacle lenses are susceptible to contamination by dirt, moisture (eg, sweat, water, tears, etc.), oil, fingerprints, and the like (hereinafter referred to as "foreign matter"). Contaminated spectacle lenses not only interfere with the wearer's forward field of view, but also cause vision loss. Therefore, the spectacle lens should be washed frequently to remove foreign substances attached to the spectacle lens.

The cleaning of the spectacle lens is usually performed manually by using a cleaning cloth such as a cloth. That is, a method of removing foreign matter adhering to the surface of the lens by washing the surface of the spectacle lens by using a cleaning cloth is widely used.

However, in order to clean the spectacle lens attached to the foreign matter, you need to carry the cleaning cloth separately. In the absence of a cleaning cloth, paper, sleeves, or a tie may be used to clean the spectacle lens. In this case, not only the spectacle lens is hardly wiped, but also the coating layer formed on the spectacle lens surface is peeled off, thereby reducing the service life of the spectacles.

In addition, there is a problem in that the cleaning effect is insufficient, even if the spectacle lens using the cleaning cloth, such as some stains remain. In particular, there is a problem in that fine foreign matter or oil on the surface of the spectacle lens is not removed even if wiped with a cleaning cloth.

On the other hand, in consideration of the above-described problems when the spectacle lens is washed using the above-described cleaning cloth, an ultrasonic spectacle cleaner for cleaning the spectacles using ultrasonic waves has been proposed.

Figure 1a is a view showing a perspective view of the ultrasonic glasses cleaner according to the prior art, Figure 1b is a view showing a cross-sectional view of the ultrasonic glasses cleaner according to the prior art. The specific configuration and operation of the ultrasonic eyeglass cleaner according to the prior art are described by Korean Patent Application No. 10-2002-0062043 dated October 11, 2002 under the name of "ultrasound eyeglass cleaner and eyeglass cleaning method using the same" by Jae-Joon Ko. It is disclosed in detail in the Republic of Korea Patent Publication No. 2003-0031421 filed and published April 21, 2003.

1A and 1B, the ultrasonic spectacle cleaner according to the prior art has a housing 1 in which a door 3 is installed at the front thereof. A plurality of push buttons 3a, a display portion 3b, and a supply port 3c are arranged in the door 3 of the housing 1, and a controller 5 is provided inside the door 3. In addition, the upper surface of the housing (1) is provided with a cover (9) and is provided with an access opening (7) into which glasses can be inserted. The washing tank 10 is installed inside the housing 1. The washing tank 10 has a washing chamber 12 and has an open top aligned with the access opening 7 so as to accommodate the glasses S inserted into the access opening 7 of the housing 1. The washing tank 10 is configured to store the washing liquid so as to immerse the received glasses S in the washing liquid, and has an inlet 14 for introducing the washing liquid and an outlet 16 for discharging the stored washing liquid. . Here, the support net 18 is disposed in the washing tank 10 to support and support the glasses (S), the support net 18 is to support the glasses (S) in a state spaced apart from the bottom surface of the washing tank (10). It will play a role.

In addition, the ultrasonic spectacle washing machine according to the prior art washing liquid storage tank 20 each having a storage chamber 22 for storing the washing liquid, an inlet 24 for injecting the washing liquid, and an outlet 26 for discharging the stored washing liquid. , And washing liquid supply means for supplying the washing liquid stored in the washing liquid storage tank 20 to the washing tank 10. Equipped. The inlet 24 is provided with a cap 24a, and the outlet 26 is provided with a discharge valve 26a. As the washing liquid stored in the washing liquid storage tank 20, conventional water is used, and in some cases, detergent may be added to increase washing efficiency. The washing liquid supply means includes a pump 30 for pumping the washing liquid stored in the washing liquid storage tank 20, an output port 30a of the pump 30 and an introduction port of the washing tank 10 to supply the pumped washing liquid to the washing tank 10. It consists of the supply pipe 32 which connects 14. The washing liquid supplying means serves to pump the washing liquid of the washing liquid storage tank 20 and to supply the washing liquid to the washing chamber 12 of the washing tank 10 by pumping the pumped washing liquid into the inlet 14 of the washing tank 10. Do it.

On the other hand, the washing liquid supply means has a control means for controlling the washing liquid supply means to supply a predetermined amount of the washing liquid to the washing chamber 12 of the washing tank (10). The control means is a controller for controlling the pump 30 of the washing liquid supply means in accordance with the signal of the washing liquid level detection sensor 34 and the washing liquid level detection sensor 34 installed on the side wall of the washing chamber 12 of the washing tank 10 ( 5) is implemented. This control means detects the level of the washing liquid stored in the washing chamber 12 through the washing liquid level sensor 34, and then stops the pump 30 through the controller 5, thereby causing the washing liquid supplying means to be the same amount each time. It is configured to supply the washing liquid to the washing tank (10).

However, the ultrasonic glasses cleaner according to the related art described above also has an advantage that the cleaning effect is excellent by washing the glasses using ultrasonic waves, but the following problems occur.

1. The ultrasonic eyeglass cleaner according to the prior art is used in an optician who sells eyeglasses, and the eyeglass user has to visit an optician to wash the glasses, which is not only difficult to wash frequently but also very troublesome.

2. The ultrasonic eyeglass washing machine according to the prior art is a large sized and expensive equipment, and it is impossible to carry and use it by individual eyeglasses users.

Therefore, there is a need for a spectacle cleaning device that a spectacle user has a superior cleaning effect than a cleaning cloth such as a cloth and is portable at the same time.

Republic of Korea Patent Publication No. 2003-0031421

The present invention is to solve the above-mentioned problems of the prior art, by providing a glass cleaning device using ultrasonic waves integrally inside the portable glasses house, the user can remove any foreign matter attached to the spectacle lens at any time, for cleaning glasses The cleaning power is remarkably excellent compared to a conventional cloth mainly used, and to provide an improved portable optician and glasses cleaning method that can clean the glasses very easily.

The portable spectacles washer according to the first aspect of the present invention is mounted in the first interior space of the portable spectacles and includes a vibrating container containing a cleaning liquid for cleaning the spectacles; One or more ultrasonic oscillators mounted on an outer bottom surface of the vibrating vessel; A driving circuit connected to the one or more ultrasonic oscillators and controlling oscillation of the one or more ultrasonic oscillators; A power supply device connected to the driving circuit and supplying power to the driving circuit; An on / off switch provided between the driving circuit and the power supply device; And a protective cover for protecting the driving circuit, the power supply, and the on / off switch.

According to a second aspect of the present invention, a portable eyeglass collection includes: first and second cover members each having a first inner space and a second inner space for storing glasses; And a portable eyeglass cleaner provided in the first inner space, wherein the portable eyeglass cleaner is mounted in the first inner space and includes a vibrating container containing a cleaning liquid for cleaning the glasses; One or more ultrasonic oscillators mounted on an outer bottom surface of the vibrating vessel; A driving circuit connected to the one or more ultrasonic oscillators and controlling oscillation of the one or more ultrasonic oscillators; A power supply device connected to the driving circuit and supplying power to the driving circuit; An on / off switch provided between the driving circuit and the power supply device; And a protective cover for protecting the driving circuit, the power supply, and the on / off switch.

According to a third aspect of the present invention, there is provided a method of cleaning glasses, the method comprising the steps of: a) supplying a cleaning liquid into a vibrating container provided in one interior space of the portable eyeglasses; b) immersing spectacle lenses in the wash solution; c) turning the on / off switch from an off state to an on state to vibrate one or more ultrasonic oscillators mounted on an outer bottom surface of the vibrating vessel via a drive circuit in a power supply; And d) washing the spectacle lens by generating ultrasonic waves in the cleaning liquid according to the vibration of the one or more ultrasonic oscillators.

The following advantages are achieved by using the portable eyeglasses and the eyeglass cleaning method according to the present invention.

1. Since the portable eyeglass cleaning device using ultrasonic waves is provided in the portable eyeglasses house, the eyeglasses user can clean the glasses using the ultrasonic waves at any time without restriction of time and place.

2. The cleaning effect of the glasses is achieved compared to the cleaning of glasses using a cleaning cloth such as a conventional cloth.

3. Since the portable eyeglass cleaning device is provided as a unit in the portable eyeglasses house, the size of the eyeglasses cleaning device is small, so it is easy to carry and use.

4. The portable eyeglass washing apparatus is low in cost of manufacture and can be easily installed in a portable eyeglass shop.

Further advantages of the present invention can be clearly understood from the following description with reference to the accompanying drawings, in which like or similar reference numerals denote like elements.

Figure 1a is a view showing a perspective view of the ultrasonic glasses cleaner according to the prior art.
Figure 1b is a view showing a cross-sectional view of the ultrasonic glasses cleaner according to the prior art.
Figure 2a is a schematic diagram illustrating an exploded perspective view of a portable eyeglasses washing machine and a portable eyeglass house having the same according to an embodiment of the present invention.
FIG. 2B is a schematic perspective view of a combined perspective view of a portable eyeglass cleaner and a portable optician equipped with the same according to an embodiment of the present invention shown in FIG. 2A.
FIG. 2C schematically illustrates a driving circuit of an ultrasonic oscillator used in an ultrasonic glasses cleaner according to one embodiment of the present invention shown in FIGS. 2A and 2B.
3 is a flowchart of the spectacles cleaning method according to an embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to embodiments and drawings.

Figure 2a is a schematic view showing an exploded perspective view of a portable eyeglasses washing machine according to an embodiment of the present invention and a portable glasses house having the same, Figure 2b is a portable eyeglasses washing machine according to an embodiment of the present invention shown in Figure 2a And it is a diagram schematically showing a perspective view of a portable eyeglasses equipped with the same.

2A and 2B, the portable spectacles cleaner 210 according to an embodiment of the present invention is mounted in the first inner space 202 of the portable spectacles 200 and accommodates the washing liquid for washing the spectacles. Vibrating vessel 220; One or more ultrasonic oscillators 230 mounted to an outer bottom surface of the vibrating vessel 220; A driving circuit 240 connected to the one or more ultrasonic oscillators 230 and controlling the oscillation of the one or more ultrasonic oscillators 230; A power supply device 250 connected to the driving circuit 240 and supplying power to the driving circuit 240; An on / off switch 260 provided between the driving circuit 240 and the power supply device 250; And a protective cover 270 for protecting the driving circuit 240, the power supply device, and the on / off switch 260.

In addition, the portable eyeglasses 200 according to the exemplary embodiment of the present invention may include first and second cover members 201 and 203 respectively having a first inner space 202 and a second inner space 204 for storing glasses. ; And a portable glasses cleaner 210 provided in the first inner space 202, wherein the portable glasses cleaner 210 is mounted in the first inner space 202 and accommodates a cleaning liquid for washing the glasses. Vibration container 220 to be; One or more ultrasonic oscillators 230 mounted to an outer bottom surface of the vibrating vessel 220; A driving circuit 240 connected to the one or more ultrasonic oscillators 230 and controlling the oscillation of the one or more ultrasonic oscillators 230; A power supply device 250 connected to the driving circuit 240 and supplying power to the driving circuit 240; An on / off switch 260 provided between the driving circuit 240 and the power supply device 250; A protection cover 270 for protecting the driving circuit 240, the power supply device 250, and the on / off switch 260 is included.

Hereinafter, a detailed configuration and operation of the portable spectacles cleaner 210 and the portable spectacles 200 having the same according to an embodiment of the present invention will be described in detail.

Referring again to FIGS. 2A and 2B, a portable eyeglasses 200 according to an embodiment of the present invention may include a first having a first inner space 202 and a second inner space 204 for storing glasses, respectively. And second cover members 201 and 203. The portable eyeglasses 200 having the first and second cover members 201 and 203 may be implemented as a conventional portable eyeglasses. In addition, the portable spectacles 200 according to an embodiment of the present invention includes a portable spectacles cleaner 210 provided in the first internal space 202.

The portable spectacles cleaner 210 according to the embodiment of the present invention provided in the portable spectacles 200 described above includes a vibrating container 220 mounted in the first inner space 202 of the portable spectacles 200. The vibrating container 220 accommodates a cleaning liquid for cleaning the glasses. In this case, the vibrating container 220 is preferably made of a material having a waterproof function, specifically, a metal plate so that the cleaning liquid does not leak.

In addition, one or more ultrasonic oscillators 230 are mounted on the outer bottom surface of the vibrating vessel 220. The one or more ultrasonic oscillators 230 may be implemented as, for example, a piezo transducer made of PZT [Pb (Zr, Ti) O ₃ ], which is a piezoelectric ceramic material. 2A and 2B, two ultrasonic oscillators 230 are preferably used in consideration of two three spectacle lenses. However, those skilled in the art will fully understand that one or more than one ultrasonic oscillator 230 may be used.

In addition, the driving circuit 240 is connected to one or more ultrasonic oscillators 230. The driving circuit 240 controls the oscillation of one or more ultrasonic oscillators 230. The voltage applied to the driving circuit 240 of the ultrasonic oscillator 230 used in the portable spectacles cleaner 210 according to an embodiment of the present invention is 1.5 to 3V.

In addition, the driving circuit 240 is connected to the power supply device 250. For example, the power supply device 250 may be implemented as any one of rechargeable batteries such as a battery, a button battery, and a lithium battery, and supplies power to the driving circuit 240.

In addition, an on / off switch 260 is provided between the driving circuit 240 and the power supply device 250. In this case, the on / off button 262 provided to the on / off switch 260 may be used to turn on or off the supply of power supplied from the power supply device 250. The on / off button 262 may be operated in a left-right moving manner or a vertically moving bushing.

In addition, the driving circuit 240, the power supply device 250, and the on / off switch 260 are surrounded and protected by the protective cover 270. In this case, the on / off button 262 of the on / off switch 260 preferably protrudes out of the protective cover 270 for the user's operation.

FIG. 2C schematically illustrates a driving circuit of an ultrasonic oscillator used in an ultrasonic glasses cleaner according to one embodiment of the present invention shown in FIGS. 2A and 2B.

Referring to FIG. 2C, the drive circuit 240 of the ultrasonic oscillator 230 used in the ultrasonic glasses cleaner 210 according to an embodiment of the present invention is an inverter 244 connected to the on / off switch 260. And an amplifier 242 connected to the inverter 244 and the one or more ultrasonic oscillators 230, respectively. As the switch 260 is switched from the off state to the on state, the power (direct current power) supplied from the power supply device 250 is supplied to the inverter 244 and is converted into AC power in the inverter 244. The AC power is then amplified in the amplifier 242 to drive one or more ultrasonic oscillators 230.

In the portable glasses cleaner 210 according to the embodiment of the present invention as described above, first to remove the glasses built in the vibrating container 220 of the portable optician 200 to wash the glasses, the vibrating container 220 The washing liquid is supplied in the inside. Herein, the washing liquid may be water, or a mixed solution in which a separate detergent is added to water may be used. In addition, a washing solution in which detergent is added to water in advance may be used as the washing solution. Such washing liquids can be carried by the user in a separate washing liquid container such as eye drops, or can be directly carried by the user, tap water in a bathroom or a toilet in a subway station, water available in a drinking fountain in a park, or bottled water sold in a convenience store. Can also be used.

Thereafter, the spectacle lens is immersed in the cleaning liquid supplied into the vibrating container 220. In this case, it is preferable that the spectacle lens is immersed in the cleaning liquid with the legs extended. Thereafter, the on / off switch 260 in the off state is moved to the on state by moving the on / off button 262. When the on / off switch 260 is turned on, power (direct current power) is applied from the power supply device 250 to the driving circuit 240. As a result, the inverter 244 in the drive circuit 240 converts the DC power into AC power. The converted AC power is amplified by the amplifier 242 and applied to one or more ultrasonic oscillators 230 to vibrate one or more ultrasonic oscillators 230. As a result, ultrasonic waves are generated in the cleaning liquid contained in the vibrating vessel 220 equipped with one or more ultrasonic oscillators 230 to clean the spectacle lens. According to the cleaning of the spectacle lens using the ultrasonic wave, foreign matter attached to the spectacle lens is easily removed with a remarkable washing power.

When sufficient cleaning of the spectacle lens is performed by the cleaning liquid, the user switches the on / off switch 260 from the on state to the off state to stop the operation of the portable spectacle cleaner 210 according to an embodiment of the present invention. . Thereafter, the cleaned spectacle lens is wiped dry with a cleaning cloth such as, for example, a cloth to complete the cleaning of the spectacle lens. In addition, the used wash liquor of the vibrating vessel 220 may be discarded or put back into the wash liquor container for subsequent use.

As described above, when using the portable eyeglass cleaner 210 according to an embodiment of the present invention, the eyeglass user can clean the glasses using ultrasonic waves at any time without limitation of time and place, and also has a remarkable cleaning effect. Is achieved.

3 is a flowchart of the spectacles cleaning method according to an embodiment of the present invention.

Referring to Figure 3 in conjunction with Figures 2a to 2c, glasses cleaning method 300 according to an embodiment of the present invention is a) a vibrating vessel 220 provided in one internal space 202 of the portable eyeglasses 200 Supplying the washing liquid (310); b) immersing a spectacle lens in the wash solution (320); c) one or more ultrasonic oscillators mounted on the outer bottom surface of the vibrating vessel 220 through the drive circuit 240 in the power supply device 250 by switching the on / off switch 260 from the off state to the on state. Oscillating 230; And d) washing the spectacle lens by generating ultrasonic waves in the cleaning solution according to the vibration of the one or more ultrasonic oscillators 230.

Eyeglass cleaning method 300 according to an embodiment of the present invention described above is e) when the cleaning of the spectacle lens by the cleaning solution, the step of switching the on / off switch 260 from the on state to the off state 350; And f) wiping the washed spectacle lens with a cleaning cloth such as a cloth to complete the washing of the spectacle lens.

In addition, in the spectacle cleaning method 300 according to an embodiment of the present invention described above, water, a mixed solution in which a separate detergent is added to water, and a washing solution in which a detergent is previously added to water are used as the washing liquid. One can be used.

Various modifications may be made by those skilled in the art without departing from the spirit and scope of the invention as defined by the following claims. It is not. Accordingly, the scope of the present invention should not be limited by the above-described exemplary embodiments, but should be determined only in accordance with the following claims and their equivalents.

1: housing 3: door 3a: pushbutton 3b: display
3c: Payment slot 5: Controller 7: Access opening 9: Cover
10: washing tank 12: washing chamber 14: inlet 16, 26: outlet
18: support network 20: storage tank 22: storage room 24: inlet
24a: cap 26a: discharge valve 30: pump 30a: output stage
32: supply pipe 34: water level sensor 200: glasses collection 201,203: cover member
202, 204: internal space 210: glasses washer 220: vibrating vessel
230: ultrasonic oscillator 240: drive circuit 242: amplifier
244: inverter 250: power supply 260: on / off switch
262: on / off button 270: protective cover

Claims (10)

In the portable eyeglass washer,
A vibrating container mounted in the first inner space of the portable eyeglasses and containing a cleaning liquid for cleaning the glasses;
One or more ultrasonic oscillators mounted on an outer bottom surface of the vibrating vessel;
A driving circuit connected to the one or more ultrasonic oscillators and controlling oscillation of the one or more ultrasonic oscillators;
A power supply device connected to the driving circuit and supplying power to the driving circuit;
An on / off switch provided between the driving circuit and the power supply device; And
Protective cover for protecting the drive circuit, the power supply, and the on / off switch
Portable glasses washer comprising a. The method of claim 1,
The driving circuit includes an inverter connected to the on / off switch, and an amplifier connected to the inverter and the one or more ultrasonic oscillators, respectively.
The inverter converts DC power supplied from the power supply device into AC power,
The amplifier to amplify the AC power
Portable eyeglass washer. The method of claim 1,
The vibrating container is implemented by a metal plate having a waterproof function,
The at least one ultrasonic oscillator is implemented as a piezo transducer (Piezo Transducer),
The power supply device is implemented by any one of rechargeable batteries such as batteries, button batteries, and lithium batteries.
Portable eyeglass washer. 4. The method according to any one of claims 1 to 3,
Mixed solution to which a separate detergent is added to water and water as the washing liquid. And a hand-washing glasses cleaner in which one of the cleaning solutions to which the detergent is added in advance is used. In the portable eyeglasses,
First and second cover members each having a first inner space and a second inner space for storing the glasses; And
Portable eyeglass washer provided in the first inner space
Including,
The portable eyeglass washer
A vibrating container mounted in the first inner space and containing a washing liquid for washing the glasses;
One or more ultrasonic oscillators mounted on an outer bottom surface of the vibrating vessel;
A driving circuit connected to the one or more ultrasonic oscillators and controlling oscillation of the one or more ultrasonic oscillators;
A power supply device connected to the driving circuit and supplying power to the driving circuit;
An on / off switch provided between the driving circuit and the power supply device; And
Protective cover for protecting the drive circuit, the power supply, and the on / off switch
Containing
Portable glasses shop. 6. The method of claim 5,
The driving circuit includes an inverter connected to the on / off switch, and an amplifier connected to the inverter and the one or more ultrasonic oscillators, respectively.
The inverter converts DC power supplied from the power supply device into AC power,
The amplifier to amplify the AC power
Portable glasses shop. 6. The method of claim 5,
The vibrating container is implemented by a metal plate having a waterproof function,
The at least one ultrasonic oscillator is implemented as a piezo transducer (Piezo Transducer),
The power supply device is implemented by any one of rechargeable batteries such as batteries, button batteries, and lithium batteries.
Portable glasses shop. 8. The method according to any one of claims 5 to 7,
Mixed solution to which a separate detergent is added to water and water as the washing liquid. And a portable eyeglasses, wherein any one of a washing solution in which detergent is added to water in advance is used. In the method of washing glasses,
a) supplying the cleaning liquid into a vibrating container provided in one interior space of the portable eyeglasses;
b) immersing spectacle lenses in the wash solution;
c) turning the on / off switch from an off state to an on state to vibrate one or more ultrasonic oscillators mounted on an outer bottom surface of the vibrating vessel via a drive circuit in a power supply; And
d) washing the spectacle lens by generating ultrasonic waves in the cleaning liquid according to the vibration of the one or more ultrasonic oscillators
Glasses washing method comprising a. The method of claim 9,
How to wash the glasses
e) switching the on / off switch from an on state to an off state when the spectacle lens is washed by the cleaning liquid; And
f) wiping the cleaned spectacle lens with a cloth such as a cloth to complete the cleaning of the spectacle lens
Glasses washing method further comprising a.

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