KR101252103B1 - Eyeglasses for remedying eyesight - Google Patents

Abstract

The present invention relates to an eyeglass for correcting vision by actively performing eye movement by changing the diameter of the pinhole, and to adjust the diameter of the pinhole using an LCD (Liquid Crystal Display).
The present invention forms an eyeglass lens using an LCD, and forms an opaque printing unit by attaching a transparent film to the surface of the LCD to form a pinhole having a certain diameter, the liquid crystal of the LCD is the size of the pinhole formed in the printing unit A liquid crystal display source having a smaller size is formed, and the liquid crystal display source is driven by a microcomputer installed in the spectacle frame.

Description

Eyeglasses for Eye Correction {Eyeglasses for remedying eyesight}

The present invention relates to an eyeglass for correcting vision by actively performing eye movement by changing the diameter of the pinhole, and to adjust the diameter of the pinhole using an LCD (Liquid Crystal Display).

In general, the glasses for correcting vision 1 form a plurality of pinholes 5 in the non-destructive opaque lens 3 as shown in FIG. 1, so that the pinholes 5 may be worn when the glasses 1 are worn and the subject is viewed. By helping the eye to recover a number of foci by forming a plurality of foci, in this case, because the diameter of the pin hole (5) is fixed, eye movement was not possible.

In order to solve this problem, the inventors have registered a patent registration No. 10-1038556 and form a pinhole 5 having a predetermined diameter in the lens 3 as shown in FIGS. 2 to 4, but the pinhole 5 The opaque paint (6) is formed concentrically on the outside to form the discoloration portion (6), and the heating element (7) is provided outside the opaque paint (4) for forming the pinhole (5). 4) the heat of the heating element (7) is applied, but the power applied to the heating element (7) is provided separately through the eyeglass frame (2) while the control unit by the input of the temperature sensor for detecting the temperature of the lens (3) By controlling in the, the discoloration portion 6 is selected according to the temperature of the heating element (7) transparent and opaque the size of the pin hole (5) is changed, thereby maximizing the eye movement effect.

In the above method, the size of the pinhole 5 is changed by using heat applied to the discoloration part 6. When the discoloration part 6 maintains an opaque state, the pinhole 5 is closed as shown in FIG. 3. When the diameter decreases and the discoloration part 6 receives heat and maintains a transparent state, the diameter of the pinhole 5 may be increased as shown in FIG. 4, but in this case, a heating element for heating the discoloration part 6 may be used. 7) is not easy to install, and in particular, since the heat generating element 7 consumes a lot of power together with the problem that heat is generated in the heat generating element 7, it is difficult to use for a long time.

The present invention consumes a lot of power and heat to heat the discoloration part in the conventional method of changing the size of the pinhole by heating the discoloration portion formed on the outer periphery of the pinhole to change the diameter of the pinhole to make it transparent from opaque state. It is to solve the problem.

The present invention forms an eyeglass lens using an LCD, and forms an opaque printing unit by attaching a transparent film to the surface of the LCD to form a pinhole having a certain diameter, the liquid crystal of the LCD is the size of the pinhole formed in the printing unit A liquid crystal display source having a smaller size is formed, and the liquid crystal display source is driven by a microcomputer installed in the spectacle frame, and the spectacle frame is formed by installing a power supply which can be charged to supply power. When the display source is not displayed, the diameter of the pinhole is exposed as it is, and when the liquid crystal display source of the LCD is displayed, the diameter of the liquid crystal display source is exposed, thereby enabling eye movement.

In the present invention, the opaque printing unit may not be printed through the transparent film, but may be printed on the surface of the LCD.

According to the present invention, the pinhole of the lens for correcting vision can change various diameters to the eye by varying the diameter according to the driving of the liquid crystal of the LCD, so that the effect of correcting vision by smooth eye movement can be seen. The liquid crystal of is pre-programmed to display the liquid crystal display source so as to display the liquid crystal display source in the direction of enhancing the effect of eye movement.

1 is a perspective view of a conventional vision correction glasses
Figure 2 is an enlarged cross-sectional view of a portion of the conventional vision correction glasses
3 is a front view of the main portion of the state in which the size of the pinhole is changed
Fig. 4 is a sectional view of the main parts of the pin hole in an unchanged state;
5 is a perspective view of the corrective glasses of the present invention
Figure 6 is an enlarged cross-sectional view of the LCD of the pin hole is reduced in the present invention
7 is a front view of the LCD in the pin hole reduced state in the present invention
8 is an enlarged view illustrating main parts of FIG. 7;
Figure 9 is a cross-sectional view of the pin hole is not reduced in the present invention
10 is a front view of the LCD of the pin hole is not reduced in the present invention
11 is an enlarged view illustrating main parts of FIG. 10;
12 is a cross-sectional view of another embodiment LCD in the pin hole is reduced in the present invention
Figure 13 is a cross-sectional view of another embodiment LCD pin holes are not reduced in the present invention
14 is a perspective view of another embodiment of the present invention glasses

The present invention relates to glasses for correcting vision by eyeball movement by changing the diameter of the pin hole, while manufacturing a lens with the LCD attached to the transparent film on the surface of the LCD, the transparent film is printed to form a pin hole Forming an opaque printing unit, wherein the LCD is concentrically formed by applying power to the liquid crystal, but the liquid crystal display source represented by the liquid crystal has a central position such as a pinhole, and is inscribed in the pinhole. The liquid crystal is controlled by the microcomputer to become a liquid crystal display source, and the spectacle frame is provided by supplying power to the microcomputer and having a power supply unit for charging.

The present invention uses an LCD as a spectacle lens but forms an opaque printing unit to which a pinhole is printed by attaching a transparent film to recognize an object through a pinhole when wearing glasses, and to form a liquid crystal display source on the LCD, but the liquid crystal display The circle is to reduce the diameter of the pinhole.If the liquid crystal display source is displayed on the LCD, the diameter of the pin hole is reduced.If the liquid crystal display source of the LCD is not displayed, the circle allows the object to be recognized according to the diameter of the pinhole. To increase.

That is, the present invention controls the power supplied to the liquid crystal of the LCD to display or not display the liquid crystal display source on the LCD, but the liquid crystal display source is inscribed in the pin hole so that the liquid crystal display source is visible in the pin hole The object can be recognized by the internal diameter of the liquid crystal display source, and if the liquid crystal display source is not visible, the object can be recognized by the internal diameter of the pinhole, which controls the display of the liquid crystal display source of the LCD and passes through the pin hole. The amount of light changes and the effect of eye movements appears.

This embodiment of the present invention looks at in detail based on the accompanying embodiment drawings.

In the vision correcting glasses 10 of the present invention, the LCD 15 is inserted into the spectacle frame 11, the transparent film 17 is attached to the surface of the LCD 15, and the surface of the transparent film 17 An opaque printing unit 18 is formed by printing an opaque paint, but the pinhole 5 is formed in the opaque printing unit 18, and the liquid crystal of the LCD 15 is a donut-shaped liquid crystal display source 16 when power is applied. ) And the liquid crystal display source 16 is displayed in a form inscribed to the inner diameter of the pin hole 5, and supplies the microcomputer 21 and the charging power to control the driving of the liquid crystal display source 16. It is provided with a power supply unit 30.

LCD 15 is fitted to the spectacle frame 11 of the present invention, the LCD 15 is fitted like an eyeglass lens, and the transparent film 17 is attached to the surface of the LCD 15 after attaching the transparent film 17. An opaque paint is printed on the surface of 17, but the opaque printing unit 18 is formed so that the pinhole 5 is formed.

Therefore, when the object is seen wearing the spectacle frame 11, the object can be seen only through the pinhole 5 by the opaque printing unit 18, and the pinhole 5 is arranged at various intervals on the LCD 15. Make a dog.

The LCD 15 has an electrode for supplying a liquid crystal at the same time the liquid crystal is filled between the two glass plates, the LCD 15 of the present invention using a liquid crystal in the donut-shaped liquid crystal display source 16 To be displayed.

That is, the liquid crystal is displayed as a donut-shaped liquid crystal display source 16 by applying power to the liquid crystal of the LCD 15. When the supply of power is cut off, the display of the liquid crystal display source 16 is stopped, and the liquid crystal display The liquid crystal displaying the circle 16 does not penetrate light.

The liquid crystal display source 16 of the present invention is displayed in a form inscribed to the inner diameter of the pin hole 5, so that when the liquid crystal display source 16 is displayed, it is as if the inner diameter of the pin hole 5 is reduced ( The object is recognized through the inner diameter of 16, and if the liquid crystal display source 16 is not displayed, the LCD 15 transmits light, thereby recognizing the object through the entire inner diameter of the pinhole 5.

That is, when the liquid crystal display source 16 is not displayed, the object is recognized by the inner diameter of the pinhole 5, and when the liquid crystal display source 16 is displayed, the object is recognized by the inner diameter of the liquid crystal display source 16. The eye movement can be activated by controlling the display of the liquid crystal display source 16.

The liquid crystal of the LCD 15 is controlled by controlling the power applied to the electrode, in the present invention to control the electrode of the LCD 15 by using the microcomputer 21, the microcomputer 21 is a spectacle frame What is necessary is just to utilize the center of 11 and the empty space of the spectacle frame 11 to which LCD 15 is fitted.

The present invention controls the display of the liquid crystal display source 16 by controlling the supply of power to the electrodes of the LCD 15 by the control of the microcomputer 21, the microcomputer 21 of the present invention is a spectacle frame 11 It is built in a part of the fixed form.

The power supply unit 30 for supplying power to the microcomputer 21 is installed on the leg 12 of the spectacle frame 11, the power supply unit 30 is fitted to the leg 12 of the spectacle frame 11. When the power supply unit 30 is fitted to the spectacles 12, the power is supplied to the microcomputer 21, wherein the power applied from the power supply unit 30 to the microcomputer 21 is not shown in the switch Let it be used to select the drive of the LCD 15 using a switch.

The power supply unit 30 of the present invention can be charged using a USB port of a general charger or a computer, and can be charged by being inserted into a charger or a USB port, and the power supply unit 30 is charged. Is inserted into the leg 12 of the spectacle frame 11 to supply power, so that the power supply is selected through the switch.

The power supply unit 30 may be separated from the glasses 12 to be charged, or may be charged while being fitted to the glasses 12.

The present invention having such a configuration drives the liquid crystal of the LCD 15 so that the liquid crystal display source 16 is not displayed on the LCD 15. You see the transmitted light.

When the liquid crystal of the LCD 15 is driven, the liquid crystal display source 16 is displayed on the LCD 15, and the liquid crystal display source 16 is displayed in a form inscribed to the inner diameter of the pinhole 5. As a result, the person wearing the spectacle frame 11 sees light transmitted through the inner diameter of the liquid crystal display source 16 smaller than the inner diameter of the pinhole 5.

Herein, the liquid crystal display source 16 of the LCD 15 is displayed when the power of the power supply unit 30 is controlled by the microcomputer 21 and applied to the electrodes of the LCD 15 through a switch (not shown). 21, periodically, the power is applied to the electrodes of the liquid crystal display source 16 or blocked, so that a person wearing the eyeglass frame 11 sees a large amount of light supplied through the pinhole 5, A small amount of light supplied through the inner diameter of the liquid crystal display source 16 is seen.

Therefore, when the power is supplied after wearing the spectacle frame 11, the process of repeatedly viewing the object through the pinhole 5 or the object by the liquid crystal display source 16 is repeated, and thus the effect of eye movement can be seen.

Meanwhile, in the present invention, the opaque printing unit 18 may be directly printed on the surface of the LCD 15 to form the pinhole 5.

10: glasses for correcting eyesight 11: glasses frames
12: Legs 15: LCD
16 liquid crystal display source 17 transparent film
18: opaque printing section 21: microcomputer
30: power supply

Claims (5)

LCD 15 is fitted to the spectacle frame 11,
The transparent film 17 is attached to the surface of the LCD 15,
On the surface of the transparent film 17 by printing an opaque paint to form an opaque printing unit 18, the opaque printing unit 18 to form a pin hole 5,
The liquid crystal of the LCD 15 forms a donut shaped liquid crystal display source 16 when the power is applied, but the liquid crystal display source 16 is displayed to be inscribed in the inner diameter of the pin hole 5,
The spectacle frame 11 and the spectacles 12 are provided with a microcomputer 21 for controlling the driving of the liquid crystal display source 16 and a power supply unit 30 for controlling power to the microcomputer 21. Glasses for corrective vision. According to claim 1, wherein the eyeglasses (12) is detachably provided with a power supply unit 30, but when the power supply unit 30 is coupled to the power supplied to the LCD 15, the power supply unit 30 is Eyesight correction glasses, characterized in that the charge is made from the USB port by separating from the leg (12). According to claim 1, wherein the LCD 15 fitted to the spectacle frame 11 is characterized in that the supply of power applied to the electrode of the liquid crystal display source 16 through the microcomputer 21 installed in the spectacle frame 11 is controlled. Glasses for corrective vision. The liquid crystal display source 16 displayed by the liquid crystal in the LCD 15 does not pass light, and the liquid crystal display source 16 is displayed in a form inscribed in the inner diameter of the pinhole 5. Vision correction glasses, characterized in that the. The glasses for correcting vision according to claim 1, wherein an opaque printing unit (18) is formed on the surface of the LCD (15) to form a pinhole (5).

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