KR101250785B1 - Method for compensating mura in liquid crystal panel and liquid crystal display device thereby - Google Patents

Abstract

The present invention relates to a method of compensating for a liquid crystal panel for compensating for an unevenness caused by a process, a design problem, or the like of a liquid crystal panel, and a liquid crystal display device employing the same, comprising: a backlight device for providing light; A liquid crystal panel spaced a predetermined distance from the front of the backlight device; And a stain compensating film for correcting a luminance difference by printing ink at the same coordinates as the spot when the spot of the liquid crystal panel occurs. In addition, the stain compensation method of the liquid crystal panel comprises the steps of inspecting the stain after the liquid crystal panel input; Measuring spot coordinates and luminance of the liquid crystal panel; Storing the coordinate and luminance data on a printer; Printing at least one ink on the film according to the data; Measuring the degree of compensation after loading the film on a liquid crystal panel; Feeding back to an initial stage when the degree of compensation is abnormal; And if the degree of compensation is good, characterized in that it comprises a step of proceeding to assemble the liquid crystal panel. On the other hand, the stain compensation film of the liquid crystal display device is a rectangular base film formed integrally; And an ink printed on a portion of the base film to vary the luminance difference.

Smear Compensation Film

Description

FIELD OF COMPENSATING MURA IN LIQUID CRYSTAL PANEL AND LIQUID CRYSTAL DISPLAY DEVICE THEREBY}

1 is an internal configuration diagram of a liquid crystal panel according to the prior art

2 is an exploded perspective view of a liquid crystal display according to the present invention.

FIG. 3A is a flowchart illustrating a method of compensating for stains of the liquid crystal panel illustrated in FIG. 2.

FIG. 3B shows an example of stains found in some steps of FIG. 3A

3C is a view showing a stain compensation film formed in some steps of FIG. 3A

FIG. 3D is a view showing a liquid crystal panel whose stain is compensated through a series of processes of FIG. 3A

Explanation of symbols on the main parts of the drawings

130: liquid crystal panel 130a: spots

132: compensation film 132a: stain compensation ink

The present invention relates to a stain compensating method of a liquid crystal panel and a liquid crystal display device to which the same is applied, and more particularly through a separate liquid crystal panel stain compensating method in order to compensate for the unevenness caused by the process and design problems of the liquid crystal panel. The present invention relates to a liquid crystal display device which manufactures a stain compensation film and applies the same.

Recently, with the development of new high-tech video devices such as high definition televisions (HDTVs), there is a demand for flat panel displays. The flat panel display has advantages such as thin, high definition, and light weight as compared to the CRT, which is a conventional display element, and also has advantages such as low power and high speed, which are not solved by conventional display elements. Is increasing.

Such flat panel displays are being actively researched, such as liquid crystal displays (LCDs), plasma display panels (PDPs), field emission displays (FEDs), and vacuum fluorescent displays (VFDs). Currently, liquid crystal displays are in the spotlight for their implementation.

Such a liquid crystal display includes a process of manufacturing a lower array substrate on which thin film transistors and pixel electrodes are arranged, a process of manufacturing an upper color filter substrate including a color filter and a common electrode, an arrangement of two manufactured substrates, and a liquid crystal material It is formed by a liquid crystal cell process consisting of the injection and encapsulation of a, and the attachment of a polarizing plate.

1 is a cross-sectional view schematically illustrating a liquid crystal panel structure of a general liquid crystal display device. As shown in the figure, the liquid crystal panel is composed of a lower plate 10 having a thin film transistor, an upper plate 20 having a color filter, and a liquid crystal layer 30 filled between the two substrates. First, as shown in the drawing, TFTs (Thin Film Transistors) 12 functioning as switching elements are formed on the lower plate 10 at the intersections of the gate lines and the data lines, respectively, and are in contact with the drain electrodes of the TFTs 12. Square pixel electrodes 14 are formed in a form surrounded by a gate and a data line, respectively.

Here, the other upper plate 20 facing the lower plate 10 on which the plurality of pixel electrodes 14 are formed has a BM (Black Matrix) 22, a color filter layer 24, and a common electrode 26 on the inner surface of the transparent substrate. ) Is formed. When one gate line and one data line of the liquid crystal panel having such a configuration are selected and a voltage is applied, only the TFT 12 to which the voltage is applied is turned on, and the turned on TFT 12 is turned on. Electric charges are accumulated in the pixel electrode 14 connected to the drain electrode of to change the angle of the liquid crystal molecules 30 with the common electrode 26.

In addition, a column spacer may be formed on the upper plate 20 or the lower plate 10 to maintain a constant cell gap, and the seal material may be coated on an outer portion of the upper plate 20. Afterwards, the lower plate 10 and the upper plate 20 are attached to each other by applying pressure.

Then, the liquid crystal 30 is injected through the liquid crystal inlet of the liquid crystal panel to which the upper plate 20 and the lower plate 10 are bonded, and the liquid crystal inlet is sealed to form a liquid crystal layer, and then the respective liquid crystal panels are inspected.

However, such a liquid crystal panel is uneven due to the gravity of the external pressure, touch failure or nonuniformity of the cell gap of the liquid crystal due to temperature changes. In addition, in recent years, as the size of the liquid crystal display device becomes larger and larger, unevenness occurs due to problems in design and process, thereby increasing the manufacturing cost by reducing the yield of the liquid crystal panel.

Therefore, in order to solve the above problems, the present invention derives the spot coordinates and the luminance difference of the liquid crystal panel using a separate luminance meter, and forms a pattern by printing an appropriate material on the film to correct the luminance difference. I want to do that.

And the achievement of this object can be further embodied by the present invention. That is, the liquid crystal display according to the present invention includes a backlight device for providing light; A liquid crystal panel spaced a predetermined distance from the front of the backlight device; And a spot compensation film for correcting a luminance difference of the liquid crystal panel so that the entire liquid crystal panel has the same brightness by printing ink based on the brightness calculated at the same coordinate as the spot by calculating the brightness and coordinates of the spot when the spot of the liquid crystal panel is spotted. Characterized in that comprises a.

In addition, the stain compensation method of the liquid crystal panel comprises the steps of inspecting the stain after the liquid crystal panel input; Measuring spot coordinates and luminance of the liquid crystal panel; Storing the coordinate and luminance data on a printer; Providing a film, and printing ink based on the luminance data in a region determined according to the luminance data; Measuring the degree of compensation after loading the film on a liquid crystal panel; Feeding back to the initial stage when the compensation degree is abnormal; And if the degree of compensation is good, characterized in that it comprises a step of assembling the liquid crystal panel.

On the other hand, the stain compensation film of the liquid crystal display device is a rectangular base film formed integrally; And an ink printed on a portion of the base film to vary the brightness difference, wherein the brightness difference is corrected by the color of the ink to be printed or the density of the ink to be printed.

This will be described in detail with reference to the drawings with respect to the above configuration and method. 2 is an exploded perspective view of a liquid crystal display according to the present invention. As shown in the figure, on the lower cover 100 made of aluminum (Al) or the like, a reflecting plate 102 for reflecting the light emitted from the plurality of lamps 106 as a light source to the front is attached. Then, the side support 104 which can fix a plurality of lamps 106 having both sides inserted into the lamp holder in a predetermined arrangement therein is fastened thereon. Then, a diffuser plate (not shown) for uniformly dispersing the light emitted directly from the lamps 106 and the light reflected through the reflector plate 102 to the front and through the diffuser plate (not shown) An optical sheet (not shown) is loaded so that the emitted light has additional properties.

As such, when the first fastening process is completed, the main support 120 is fastened to maintain the balance of the overall force in the liquid crystal display. Of course, the main support 120 here forms a pattern in consideration of the liquid crystal panel 130 loaded on the front surface.

In addition, the liquid crystal panel 130 mounted on the main support 120 is a crystal composed of many unit processes. In other words, the switching element includes an array substrate in which thin film transistors are arranged for each unit pixel, a color filter substrate on which a color filter representing color is formed, and a liquid crystal injected between the two substrates. .

However, the liquid crystal panel 130 may be accompanied by minute stains caused in a plurality of processes. Therefore, in the present invention, a separate stain compensation film 132 is loaded in order to compensate such spots of the liquid crystal panel 130 in harmony with its surroundings. This will be addressed later.

The upper cover 140 is also fastened to the lower cover 100 while surrounding the four surface edges of the liquid crystal panel 130 and the side surfaces of the main support 120.

Next, a method of compensating for spots on the liquid crystal panel 130 will be described in detail with reference to FIG. 3A. First, the step of inspecting the stain by putting the completed liquid crystal panel to the inspection equipment through a series of manufacturing processes. This process can of course be found by a test image in the inspection process of the liquid crystal panel 130, through which various types of irregular stains are derived (S301). For example, FIG. 3B shows spots 130a on the liquid crystal panel 130 found by such a test image.

Next, a step of measuring coordinates and luminance states of the various types of irregular spots is performed (S302). Of course, if the spots vary, the coordinates are also different, but measuring the luminance state may mean that the degree of transmission of light may vary depending on the cause of the irregular spots.

Therefore, this data is followed by the step of storing it in the memory of the printer separately prepared as a next step (S303). Of course, the printer (printer) here is to prepare a separate thin film (plate) or a little thick plate (plate), such film or plate is a poly-based polycarbonate (PC), polyethylene (polyethylene); PE) or polymethymethacrylate (PMMA), etc., may be integrally formed from a mold.

On the prepared film, ink is printed on a specific area according to the stored information, and appropriate ink such as red, green, blue, gray, black, etc. according to the brightness state is used. The type of color is selected and printed (S304). However, it is possible to compensate for the brightness by adjusting the color of the ink in this way, but on the other hand, it is possible to compensate for the brightness by increasing the density of the ink. It depends on what you do. For example, FIG. 3C shows a state in which the ink 132a is printed on the film 132 in the same form as a specific region on the liquid crystal panel through this step.

Then, the stain compensation film produced as described above is loaded on the liquid crystal panel, and then performing the step of checking the degree of compensation again (S305). Of course, in this step, as shown in the drawing, when an abnormality occurs, it is fed back to the first step and compensates again by the error, but if it is determined to be in a good state, the next step is continued.

For example, when it is determined that the compensation degree of the liquid crystal panel 130 in which the stain compensation film is loaded is good as shown in FIG. 3D, the liquid crystal panel enters an assembly step for configuring the liquid crystal display device.

As a result of the configuration up to now, the liquid crystal display device according to the present invention can increase the yield of the liquid crystal panel by compensating for the unevenness of the liquid crystal panel generated in the manufacturing process or the post-manufacturing process.

Claims (13)

A backlight device that provides light; A liquid crystal panel spaced a predetermined distance from the front of the backlight device; And When the spots of the liquid crystal panel is generated, the spot and film of the liquid crystal panel corrects the luminance difference of the liquid crystal panel to calculate the brightness and coordinates of the spot and print the ink based on the brightness calculated at the same coordinates as the spot Liquid crystal display comprising a. delete The liquid crystal display device of claim 1, wherein the stain compensating film is formed of poly-based polyethylene, polycarbonate, or polymethyl methacrylate. The liquid crystal display of claim 1, wherein the luminance difference is corrected by a color of ink to be printed. The liquid crystal display of claim 1, wherein the luminance difference is corrected by a density of ink to be printed. Square base film integrally formed; And It is composed of ink which is printed on a part of the base film to vary the luminance difference, And the luminance difference is corrected by the color of ink to be printed or the density of ink to be printed. The stain compensation film of claim 6, wherein the base film is poly-based polyethylene, polycarbonate, or polymethyl methacrylate. delete delete After the liquid crystal panel input, inspecting the stain; Measuring spot coordinates and luminance of the liquid crystal panel; Storing the coordinate and luminance data on a printer; Providing a film, and printing ink based on the luminance data in a region determined according to the luminance data; Measuring the degree of compensation after loading the film on a liquid crystal panel; Feeding back to the initial stage when the compensation degree is abnormal; And If the degree of compensation is good, the smear compensation method of the liquid crystal display device comprising the step of assembling a liquid crystal panel. 11. The method of claim 10, wherein the film is poly-based polyethylene, polycarbonate, or polymethyl methacrylate. 11. The method of claim 10, wherein the ink is printed with a different type of ink according to a difference in luminance of the ink. 11. The method of claim 10, wherein the ink varies printing density of the ink according to a difference in luminance of the ink.

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