KR20050094771A - Automatic brightness optimizing machinee for lcd panel - Google Patents

Abstract

The present invention relates to a device for automatically optimizing brightness of an LCD panel, and more particularly, comprising: a base board for mounting and fixing an LCD panel and applying power; Luminance detection means for receiving a luminance signal from an LCD panel supplied with power by the LCD panel fixing means to an optical sensor; Brightness detecting means for receiving a brightness signal from the LCD panel supplied with power by the LCD panel fixing means to an optical sensor; And calculating the average value by analyzing the luminance signals of the three LCD panels received from the luminance detecting means, comparing the standard signal with the luminance value of the standard sample, and generating an output application signal according to the output application signal. Control computer for applying to the, characterized in that, including, in the OTP (One Touch Program) CHECK process, the optimal LCD panel brightness desired by the producer objectively data through the optical sensor to automatically determine the applied voltage This saves the work time required for inspection and applying the driving voltage and produces the LCD panel with equal quality. Therefore, the LCD panel is automatically optimized for the brightness of the LCD panel, which can improve product productivity and improve overall production process efficiency by minimizing defects. It is about.

Description

Automatic brightness optimization device of LCD panel {AUTOMATIC BRIGHTNESS OPTIMIZING MACHINEE FOR LCD PANEL}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device for automatically optimizing luminance of liquid crystal display (LCD) panels, and more particularly, to a refractive angle of a liquid crystal (TWIST ANGEL) in spite of a voltage applied equally by a slight thickness difference for each LCD panel. This is to solve the problem of the difference in brightness perceived by the human eye due to this change, and the brightness of the LCD panel that automatically finds the optimal voltage applied to the LCD panel to obtain the optimal brightness required in the LCD production process. Relates to an automatic optimization device.

In LCD panel production, even though the same voltage is applied due to a slight difference in thickness, the angles of refraction of the liquid crystals are different, resulting in a difference in brightness perceived by a person.

To correct this, each LCD product should be applied with a different voltage so that the brightness (luminance) perceived by humans is the same.

This process is referred to as the One Touch Program (OTP) checking process in the production line.

In the current LCD production process, in order to solve the difference in brightness caused by the difference in thickness of the LCD panel described above, a person perceives the reference brightness of the LCD and compares the brightness of the target LCD to be adjusted by the human eye with the brightness of the reference LCD. The voltage applied to the PANEL is determined.

This production method determines the minute brightness difference of LCD based on the human eye, which leads to deterioration of process capability due to quality difference according to worker skill level, excessive stress due to psychological pressure of worker, and increase of turnover rate. There is a problem of causing finger and wrist pain of the operator by proceeding through the S / W manipulation of the voltage applied to the human hand.

In addition, there is a problem such as causing a large amount of defects when the operator judgment error due to the operator's eyes.

Accordingly, the present invention is provided with an optical sensor and an air cylinder to automatically determine the applied voltage by objectively data-optimizing the LCD panel brightness desired by the manufacturer in order to solve the problems of the prior art as described above. By automatically performing inspections, it saves inspection time and produces LCD panels with equal quality. Therefore, it provides an automatic LCD panel brightness optimization device that can improve product productivity and improve overall production process efficiency by minimizing defects. The purpose is to.

In addition, it is possible to automatically recognize minute differences in brightness of the LCD, which makes it very easy to work by reducing operator fatigue, and to provide an automatic device for automatically optimizing luminance of LCD panels, which can reduce the time required for work. There is this.

According to an aspect of the present invention, there is provided an apparatus for automatically optimizing brightness of an LCD panel, the base board including mounting and fixing the LCD panel and applying power; Luminance detection means for receiving a luminance signal from an LCD panel supplied with power by the LCD panel fixing means to an optical sensor; And calculating a value of the luminance signal of the LCD panel inputted from the luminance detection means, comparing the standard sample luminance value, generating an output application signal corresponding thereto, and applying the same to the LCD panel with a driving voltage corresponding to the output application signal. Computer; characterized in that configured to include.

In addition, the base board according to the present invention, the support is installed vertically on one side end of the plate, the fixing plate is coupled to the upper side of the support, the air cylinder is installed in the vertical direction with two guide rods on the fixing plate, An LCD panel placed on the upper surface of the plate by having a push rod from the inside of the air cylinder, engaging a vertical reciprocating block to the tip of the push rod, and then operating the air cylinder to lower the vertical reciprocating block by the forward movement of the push rod; It is characterized by connecting and supplying power to light the panel.

In addition, the brightness detecting means according to the present invention comprises: an optical sensor; An optical sensor attachment bar in which the optical sensor is integrally installed; And an air cylinder coupled to a rotation shaft for rotating the optical sensor attachment bar up, down, left, and right with respect to the base board to rotate the rotation shaft according to the entrance and exit of the piston rod.

In addition, the optical sensor according to the invention is characterized in that it is provided with one or more.

In addition, the control computer according to the present invention, when the lifting cylinder of the LCD panel fixing means is lowered and presses the upper end of the LCD panel, the voltage is supplied to the LCD panel and receives the electrical signal and transmits to the brightness detecting means; ; An output applying signal which receives a reference luminance value after measuring standard sample luminance with an optical sensor, calculates an average value of two or more luminance values received from the luminance detecting means, and compares the standard sample luminance value to generate an output applying signal accordingly; Generation unit; And a driving voltage applying unit configured to apply the driving voltage corresponding to the output applying signal transmitted from the output applying signal generator to the LCD panel.

In addition, the output application signal generation unit according to the present invention is characterized in that for receiving two or more brightness values from the brightness detection means to calculate the average value and compare with the standard sample brightness value to generate the output application signal accordingly.

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

1 is a perspective view of a device for automatically optimizing brightness of an LCD panel according to the present invention, FIG. 2 is a front view of the main part of FIG. 1, FIG. 3 is a side view of the main part of FIG. 1, and FIG. 4 is a brightness according to the present invention. Fig. 5 is a side view of the main part of Fig. 4, and Fig. 6 is a block diagram showing a control operation in a control computer according to the present invention. .

Embodiments of the automatic brightness optimization device of the LCD panel according to the present invention can be largely configured in two ways to produce an LCD panel showing a constant brightness level.

First, the LCD panel converts the luminance value input into the optical sensor into an electrical signal, and digitally filters, amplifies, A / D converting, data input and signal processing, and secondly, an analog method using a comparator. It automatically finds and processes the applied voltage to obtain the optimal LCD brightness.

In the present invention, an embodiment of an automatic brightness optimization device for a digital LCD panel will be described.

1 to 5, the apparatus for automatically optimizing the brightness of the LCD panel according to the present invention includes a base board 10, a brightness detecting means 20, and a control computer 30.

The base board 10 is a device for fixing and applying a standard sample LCD panel 1 and an inspection LCD panel 2 supplied to an upper surface, and includes a plate 110, a support 120, and a fixing plate ( 130, the lifting cylinder 140, the guide rod 150, the up and down reciprocating block 160, and the switch 170.

The plate 110 is formed in a rectangular shape to support the bottom of the main body of the automatic brightness optimization device of the LCD panel according to the present invention, and a support 120 which is vertically erected is installed at one end of the plate 110.

The lifting cylinder 140 is vertically installed on the fixing plate 130 coupled to the upper side of the support 120, and includes a push rod 142 from the inside of the lifting cylinder 140.

Both guide rods 150 are fixed to the upper and lower reciprocating blocks 160 while penetrating the fixing plate 130 on which both guide rods 150 are supported.

Base board 10 of the present invention configured as described above, the LCD panel 1 and the LCD panel 2 to be inspected to be placed on the plate 110, the operation of the lifting cylinder with a switch and then push rod ( The upper and lower reciprocating blocks 160 fixed to 142 are lowered to be connected to the upper end of the LCD panel 2 placed on the upper surface of the plate to supply a DC voltage of 3.8V to light the panel.

The base board 10 is connected to the power supply unit of the control computer 30 and the cable 25 (FPC: Flexible Plate Cable), that is, LCD FPC.

Therefore, when the LCD panel 2 of the base board 10 is turned on, an electric signal is also sent to the control computer 30.

When electricity is supplied to the LCD panel 2 and lit by the control computer 30 based on this signal, it is found that it is placed on the correct position, and a command signal for the next operation is sent to the luminance detecting means 20.

The brightness detecting means 20 is a device which directly closes the optical sensor 210 to the LCD panel 2 in order to detect the luminance value of the LCD panel 2 by the command signal. , The rotating shaft 220, the optical sensor attachment bar 230 and the air cylinder 240 is composed of.

That is, when the brightness detecting unit 20 is lit on the LCD panel 2, the optical sensor 210 is integrally installed on the pivot shaft 220 which is erected perpendicularly to one end of the base to receive the brightness value. It is coupled to be rotated with the optical sensor attachment bar 230, the rotating shaft 220 is moved up and down and left and right by the air cylinder 240 to bring the light sensor 210 in close contact with the LCD panel 2 to improve the brightness of the light. It is installed to measure.

Here, the optical sensor 210 according to the present invention can receive the light generated from the LCD panel 2, one can be used, but it is preferable to prevent the error by installing two or more.

Each of the optical sensors 210 is connected to the control computer 30, and light of a predetermined wavelength is projected toward the LCD panel 2 from the optical sensor 210 by the command signal.

6 is a block diagram schematically showing a control computer 30 according to the present invention, wherein the control computer 30 is reflected from the LCD panel 2 and the microprocessor 310 which controls the entire apparatus. A signal amplifier 320 for amplifying a signal by detecting light as an electric signal and filtering the detected electric signal, an A / D converter 330 for converting the electric signal into a digital signal, and optical A data storage unit 340 for measuring and storing the luminance value of the standard sample and the luminance value of the LCD panel with a sensor, and the standard sample for comparing the luminance value of the standard panel 1 with the measured luminance value of the LCD panel 2. The comparator 350, an output application signal generator 360 for generating an application signal according to the standard luminance value of the standard sample, and an output application signal transmitted from the output application signal generator 360 as a driving voltage. Including a driving voltage applying unit 370 applied to the panel It is.

That is, the control computer 30, the light reflected from the LCD panel 2 by the optical sensor 210 in the filtering and signal amplification unit 320 detects an electrical signal, and the filtered signal through the filtering Amplify the signal.

Thereafter, the electrical signal input as an analog signal is converted into a digital signal by the A / D converter 330.

In addition, the control computer 30 first measures the brightness of the standard LCD panel 1 with an optical sensor 210 and compares the brightness value with the brightness value of the standard LCD panel 1, and then receives a standard brightness value and receives a data storage unit. Save to 340.

In this case, the standard luminance value is preferably set to two or more average values of the standard samples so as to exclude an error value.

That is, when three optical sensors 210 are provided, the luminance values of the optical sensors 1, 2, and 3 are measured, and the average of the three values is calculated. In this case, the luminance value is calculated by applying two averages.

In addition, the control computer 30 calculates the luminance value of the LCD panel 2 to be measured, and the luminance value is calculated by the standard sample comparator 350 so as to compare and analyze the luminance value thus calculated with the standard luminance value. To pass.

The standard sample comparison unit 350 receives a standard luminance value of the LCD standard panel 1 stored in the data storage unit 340, and receives the standard luminance value of the LCD panel 2 newly received from the luminance detection unit 20. The average value of three luminance values is computed.

That is, when the luminance value detected by the luminance detection unit 20 is input, the standard sample comparison unit 350 compares the overall value with the specification SPEC to check whether there is an error value.

As shown in Table 1 below, the error range of the luminance value can be set to a tolerance of 30 at 50 levels in multiple levels to prevent an error of the sensor.

TABLE 1

-3 -2 -One 0 +1 +2 +3 260 310 360 410 460 510 560

For example, the first level sets an error range by selecting an error range such as an error ± 30 for the luminance 260 and an error ± 30 for the second level, and determines the maximum and minimum values allowed.

That is, the tolerance range of the standard brightness is set by comparing with the standard luminance value of the LCD standard sample 1 defined at the above level, and the driving voltage applied to the LCD panel 2 is determined by comparing with the detected average value. Correction values to be set are automatically set by the control computer 30.

In this case, referring to the operation of the output application signal generator 360, for example, if the measured values of 350, 370, 360 are respectively measured by the three light sensors (Q1, Q2, Q3) these values are optical sensors It is divided by (3) numbers and has an average value of 360.

The average value thus set is fed back for setting a new driving voltage.

That is, the average value 360 fed back to the output application signal generator 360 generates the output application signal according to the error range in comparison with the standard luminance value.

Through this process, the output application signal automatically set by the control computer 30 is set to the driving voltage by the driving voltage applying unit 370 and is applied to the LCD panel 2 to obtain uniform luminance.

Herein, the driving voltage applying unit 370 adjusts the amount of voltage applied to the LCD panel 2 until the average luminance value of the photosensor 210 approaches an allowable error range from the standard luminance value preset by programming. Automatically increase or decrease

Therefore, when the brightness of the LCD panel 2 becomes equal to the standard brightness or approaches the error range, the driving voltage to be applied is determined to stop the signal processing, and the voltage is applied to the LCD panel 2.

In this case, the control computer 30 may further include a touch panel 380 capable of inputting a driving signal of a device and integrating a function with a peripheral device.

When all the applied voltage settings are completed, the control computer 30 operates the air cylinder 240 of the brightness detecting means 20 to raise the optical sensor attachment bar 230, and at this time, the inspector checks the base board 10. By unloading the LCD panel 2 seated on the), the brightness of the LCD panel is optimized.

As described above, the apparatus for automatically optimizing the brightness of the LCD panel according to the present invention automatically produces the LCD panel with an equal quality by automatically determining the applied voltage by objectively data-optimizing the brightness of the LCD panel desired by the producer through an optical sensor. Therefore, there is an effect of providing an automatic device for automatically optimizing the brightness of the LCD panel that can minimize the defects to improve the productivity of the product and improve the overall production process efficiency.

In addition, it is possible to automatically recognize minute differences in brightness of the LCD, which makes it very easy to work by reducing the fatigue of the operator, and has the effect of providing an automatic optimization device for the brightness of the LCD panel that can reduce the time required for work. have.

Although the present invention has been described with reference to the embodiments shown in the accompanying drawings, it is intended to be illustrative, and those skilled in the art will understand that various modifications and equivalent embodiments are possible from this. Therefore, the true scope of protection of the present invention should be defined only by the appended claims.

1 is a perspective view of an automatic brightness optimization device of the LCD panel according to the present invention

2 is a front view of the main part of FIG.

3 is a side view of the main part of FIG.

4 is a perspective view schematically showing a state in which an optical sensor attachment bar is lifted in the luminance detecting means according to the present invention;

Figure 5 is a side view of the main part of Figure 4

6 is a block diagram showing a control operation in a control computer according to the present invention.

* Explanation of symbols for main parts of the drawings

1. Standard Sample LCD Panel 2. LCD Panel

10. Base board 20. Luminance detection means

25. Cable 30. Control computer

110. Plate 120. Support

130. Retaining plate 140. Lifting cylinder

142. Push Rod 150.Guide Rod

160. Up and Down Round Trip Block 170. Switch

210. Optical sensor 220. Rotating shaft

230. Light sensor attachment bar 240. Air cylinder

310. Microprocessor 320. Signal Amplifier

330. A / D conversion unit 340. Data storage unit

350. Standard sample comparator 360. Output signal generator

370. Driving voltage applying unit 380. Touch panel

Claims (6)

A base board for seating and fixing the LCD panel and applying power; Luminance detection means for receiving a luminance signal from an LCD panel supplied with power by the LCD panel fixing means to an optical sensor; And The control computer which calculates the luminance signal value of the LCD panel input from the luminance detection means, compares it with the standard sample luminance value, generates an output application signal according to the luminance signal, and applies the driving voltage corresponding to the output application signal to the LCD panel. Automatic luminance device of the LCD panel, characterized in that configured to include. The method of claim 1, wherein the base board A support is installed vertically at one end of the plate, and the fixing plate is coupled to the upper side of the support, and an air cylinder is installed in the vertical direction together with two guide rods on the fixing plate, and includes a push rod from the inside of the air cylinder. After the vertical reciprocating block is coupled to the tip of the push rod, the air cylinder is operated so that the vertical reciprocating block is lowered by the forward movement of the push rod and connected to the LCD panel placed on the upper surface of the plate to supply power to light the panel. A device for automatically optimizing brightness of an LCD panel. The method of claim 1, wherein the brightness detecting means An optical sensor; An optical sensor attachment bar in which the optical sensor is integrally installed; And an air cylinder coupled to a rotating shaft for rotating the optical sensor attachment bar up, down, left, and right with respect to the base to rotate the rotating shaft according to the entrance and exit of the piston rod. The method of claim 3, wherein the optical sensor An automatic brightness optimization device for an LCD panel, characterized in that it comprises one or more. The computer of claim 1, wherein the control computer A microprocessor for controlling the entire apparatus; Light reflected from the LCD panel detects an electrical signal, and a signal amplifying unit for amplifying the signal through filtering the detected electrical signal; An A / D converter for converting the electrical signal into a digital signal; A data storage unit for measuring and storing the luminance value of the standard sample and the luminance value of the LCD panel using an optical sensor; An output application signal generation unit for comparing the standard luminance value with the measured luminance value of the LCD panel and generating an output application signal according thereto; And And a driving voltage applying unit configured to apply the driving voltage to the LCD panel at a driving voltage corresponding to the output applying signal transmitted from the applying signal generating unit. The method of claim 5, wherein the output signal applying unit And an average value is calculated by receiving two or more luminance values from the luminance detection means, and then compared with a standard sample luminance value to generate an output application signal.