KR20180058152A - Sunglasses equipped color control - Google Patents

Abstract

The present invention relates to electronic sunglasses, of which a light emitting diode (LED) is built in a lens, and a frame is provided with a power supply for supply a power to the LED, and a switch for selectively operating the LED, thereby securing a clear view by turning on the LED, without replacing a lens in the daytime or at night. According to the sunglasses having the frame (10) and the lenses (12), the LED (14) for emitting light by a direct current is built in the lens (12), and a left leg of the frame (10) is provided with a charger (30) for supplying the power to the LED (14) and the switch (22) for operating the LED (14). A right leg of the frame is provided with a color tuning switch (20) for tuning a color of the LED and a color display portion (22) for display a tuned color.

Description

Sunglasses equipped with color control function [0002]

The present invention relates to an electronic sunglass and a driving method thereof, and more particularly, to an electronic sunglass capable of adjusting the brightness of a reagent of an electronic lens by adjusting the color of light emitted from the LED by adjusting the gradation voltage according to the intensity of the ambient light, .

In general, sunglasses are well known in the art as they give color to glass or transparent plastic material to prevent glare by the effect of coloring and to prevent the ultraviolet rays in the sunlight from reaching the eye by incorporating an ultraviolet absorber into the lens Has been used for the purpose of. These colored sunglasses contain only the effect of darkening the object and the field of view with the effect of coloring and the function of suppressing the ultraviolet ray penetration by including the ultraviolet absorbent (Absorbent), so that it can be used in the outdoor space where the sunlight shines. There is a disadvantage that the invisibility is dark. Especially when driving, it becomes very dangerous. Therefore, in response to the ultraviolet rays of the sunlight, the photochromic compound causes the lens to become darker in the outdoor space, and the color of the lens becomes brighter in a room where there is no ultraviolet light such as a room or a tunnel. And is commercially available. However, such a photodefractive discoloration sunglass lens has a long discoloration change rate (70% in 15 seconds, 95% in 30 seconds, 50% in 2 minutes and 80% in 5 minutes) ), When the windshield is coated on the windshield of automobile, discoloration function drops, and it is possible to block the glare of reflected polarized light, that is, the interference light (transversewave) entering the field of view by refraction refraction from the road, vehicle, There is no problem. Meanwhile, the polarized lenses shown in the above-mentioned different polarizing lenses have functions of not only colored lenses or optically reversible discoloration sunglasses, but also polarized dazzling interference rays entering the field of view while being refracted from the roads, vehicles, and other reflectors, And is interposed between the lenses to shield the transverse wave reflections more and more, and it is popular as a sunglass lens material which is one step further than the conventional lens. However, the polarizing lens is necessarily subjected to a process of dyeing with PVA (Polyvinylalchohol) at a certain concentration of iodine at the time of production. Since the chromaticity is fixed as a result of the soaking process, the objects or the field of view are dark There is a problem that visible phenomenon occurs.

 Disclosure of Invention Technical Problem [8] The present invention has been made to solve the above problems of the related art, and it is an object of the present invention to provide an optical pickup device capable of preventing a polarized dazzling interference ray coming into view with refraction from a road and other reflectors of a vehicle, And it is an object of the present invention to provide an electronic sunglass in which objects and fields of view are automatically controlled in tunnels and indoor spaces, and a method of driving the same.

According to an aspect of the present invention, there is provided an electronic sunglasses comprising: an ambient light sensor unit for detecting an ambient light intensity; A light amount control module for outputting a gray scale voltage using the ambient light intensity signal received from the ambient light sensor; An electronic lens unit for adjusting a light transmittance by the gradation voltage; And a power management unit for supplying power to the ambient light sensor unit, the light amount control module unit, and the electronic lens unit, and an LED for adjusting the brightness of the visual field.

 The light quantity control module includes a controller for detecting the ambient light intensity signal and outputting a control signal according to the magnitude of the ambient light intensity signal, and a polymer dispersed liquid crystal (PDLC) driver for outputting a gray scale voltage according to the control signal do.

 The electronic lens unit includes a polymer dispersed liquid crystal (PDLC) layer formed between a first electrode and a second electrode made of a transparent conductive material. The electronic lens unit separates the polymer dispersed liquid crystal (PDLC) layer on a transparent lens base material Or a polymer dispersed liquid crystal (PDLC) layer formed by dispersing liquid crystal droplets in a lens base material made of a polymer material.

 The power management unit may further include a power supply abnormality determination unit for generating an interrupt signal depending on whether the battery is low in power or charged.

 In addition, the electronic sunglasses according to the present invention may further include a mode selection unit for selecting one of a pedestrian mode and an operation mode, and a human body detection unit for determining whether the vehicle is worn and turning on / off the power, Layer, a hard coating layer, an anti-reflection layer, and a anti-fogging layer.

 According to another aspect of the present invention, there is provided an electronic sunglass driving method including: detecting an ambient light intensity using an ambient light sensor; Outputting a gradation voltage using the ambient light intensity signal received from the ambient light sensor; And adjusting the light transmittance of the electronic lens unit by the gradation voltage. In the step of adjusting the light transmittance of the electronic lens unit, the first electrode and the second electrode, which are made of a transparent conductive material,

(PDLC) layer by controlling a magnitude of a gray scale voltage applied between the first electrode and the second electrode of the electronic lens unit, which is formed of a polymer dispersed liquid crystal (PDLC) layer formed on the polymer dispersed liquid crystal (PDLC) layer.

 The method may further include the steps of generating an interrupt signal depending on whether the battery supplying the power source is low in power or charging, selecting one of the pedestrian mode and the operation mode, or, if the human body is sensed by the human body sensing unit, And shutting off the power when the human body is not detected for a predetermined period of time. In addition, the LED connected to the light intensity sensor can determine the brightness and color of the LED according to the brightness of the outside, so that it can be seen even in the dark place or the bright place.

According to the electronic sunglasses and the driving method thereof according to the present invention, the discoloration speed of the lens is fast according to the state of the ambient light, the polarized light entering the field of view while being refracted from the roads that the conventional sunglasses can not block in the sunlight, And at the same time, the user can adjust the brightness of the lens manually by judging the degree of brightness of the sunlight, even if the objects or the field of view do not appear dark in a tunnel or an indoor space at the same time.

1 is a schematic diagram showing a state of sunglasses when no voltage is applied to the electronic sunglass according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, it should be understood that the following embodiments are provided so that those skilled in the art will be able to fully understand the present invention, and that various modifications may be made without departing from the scope of the present invention. It is not.

10: sunglasses frame 12: lens of sunglasses 14: light emitting diode (LED) 20: sunglasses color control switch
22: Color display part 30: Power switch 32: Charger connection part

Claims (1)

In a known sunglass comprising a frame 10 and a lens 12, a light emitting diode 14 which emits light by a DC power source is inserted into the lens 12, A charging unit 30 for supplying power to the diode 14 and a switch 22 for operating the flashing of the LED 14 are provided on the right side of the frame 10, Characterized in that it comprises a switch (20) for displaying the color and a part (22) for displaying the color to be adjusted.

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