KR100823096B1 - Method for repairing of liquid crystal display - Google Patents

Abstract

A repair method of an LCD(Liquid Crystal Display) panel is provided to remove a light leaking phenomenon through a sub pixel indirectly. A TFT(Thin Film Transistor) substrate and a color filter substrate are manufactured and a liquid crystal cell process is performed(S10). Thereafter, a process for discriminating whether a bright defect is generated is performed(S20). When a bright defect is generated, the dark solution is coated(S30) on a polarizing panel attached at the upper side of the color filter substrate by means of a dispenser in order to make the sub pixel with the bright defect as a dark pixel. The dark solution coating portions in the polarizing panel are a sub-pixel portion having the generated bright defect, a pixel coincidence portion located at the position on the vertical line and a pixel adjacent portion adjacent to the pixel coincidence portion. The pixel adjacent portions include eight different sub pixels adjacent to the sub pixel having the bright defect and the portions located at the vertical line.

Description

Repair method of liquid crystal display panel

1 is a cross-sectional structural view of a general liquid crystal display panel.

2 is a flowchart illustrating a repair method of a liquid crystal display panel according to the present invention.

3 is a schematic diagram for explaining a positional relationship between a polarizing plate to which dark liquid is applied and a color filter pattern in which bright defects are generated according to the present invention.

The present invention relates to a repair method of a liquid crystal display panel, and in particular, after completing the liquid crystal cell process, by applying a dark liquid using a dispenser to a predetermined portion of the polarizing plate when bright defects occur on the color filter array, The present invention relates to a method for repairing a liquid crystal display panel that can indirectly remove a light leakage phenomenon through a sub pixel in which bright defects are generated.

In general, a display is an interface between an electronic device and a human, and is an information display device that converts electrical information signals output from various electronic devices into optical information signals so that humans can recognize them through vision. Among these displays, flat panel displays include liquid crystal displays (LCDs), plasma display panels (PDPs), field emission displays (FEDs), organic light emitting diodes (OLEDs), and the like. There are many kinds.

1 is a cross-sectional structural view of a general liquid crystal display panel.

As shown in FIG. 1, a general liquid crystal display panel includes a TFT array substrate, a polarizer, a pixel electrode, a storage capacitor, an alignment layer, a sealant, a spacer, a TFT, a liquid crystal, a common electrode (ITO), a color filter, a black matrix, and the like. .

The liquid crystal cell process is included in the process of manufacturing the liquid crystal display panel which consists of such a structure.

The liquid crystal cell process is a completed TFT substrate and a color filter substrate. The liquid crystal cell process is a process of manufacturing a unit liquid crystal cell in which signal driving is possible by adding a driving circuit. The liquid crystal cell process may be characterized as having relatively few repeating processes as compared to the TFT process or the color filter process.

The liquid crystal cell process may be roughly divided into an alignment layer forming process for forming liquid crystal molecules, a cell gap forming process, and a liquid crystal injection and polarizing plate attaching process. Each process is connected to different processes due to the nature of the process. This requires the formation of a polymer thin film, a rubbing process, and a liquid crystal injection process using a vacuum.

The liquid crystal display panel manufacturing process manufactured by the above process also includes the process of repairing a color filter array. In general, the process of repairing the color filter array is performed before proceeding with the liquid crystal cell process.

The conventional repair process as described above proceeds to a process of converting a sub-pixel in which light leakage occurs into a dark pixel using a laser or recovering a unique pixel. However, such a process is time-consuming, so the inefficient aspect is strong and the problem of efficiency decreases as the panel is enlarged.

On the other hand, there is no conventional method for repairing bright defects generated after the liquid crystal cell process attached to the polarizing plate.

The present invention was devised to solve the above problems of the prior art, and in particular, after completion of the liquid crystal cell process, when a bright defect occurs on the color filter array, a dark liquid is applied to a predetermined portion of the polarizing plate using a dispenser. It is an object of the present invention to provide a repair method of a liquid crystal display panel that can indirectly remove light leakage through a sub pixel in which the bright defect is generated.

In order to solve the above technical problem, the constituent means of the repair method of the liquid crystal display panel according to the present invention is to manufacture a TFT substrate and a color filter substrate, perform a liquid crystal cell process, and determine whether bright defects have occurred. And applying a dark liquid using a dispenser to a polarizer attached to an upper side of the color filter substrate in order to darken the sub-pixel in which the bright defect has occurred, as a result of the determination. Consists of including.

In addition, the dark liquid is applied to the polarizing plate is characterized in that the pixel matching portion existing in the vertical line position with the sub-pixel portion where the bright defect occurred, and the pixel adjacent portion adjacent to the pixel matching portion.

The pixel neighboring portion may be a portion existing at a vertical line with eight other subpixels adjacent to the subpixel having the bright defect.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the repair method of the liquid crystal display panel consisting of the above configuration means.

2 is a flowchart illustrating a repair method of a liquid crystal display panel according to an exemplary embodiment of the present invention. As shown in FIG. 2, the procedure of the repair method of the liquid crystal display panel is as follows.

First, a TFT substrate and a color filter substrate are manufactured by a general method, and a liquid crystal cell process including a process of bonding the TFT substrate and the color filter substrate is performed (S10).

After performing the liquid crystal cell process, it is determined whether a bright defect has occurred (S20). As a result of the determination, if the bright defect has occurred, the repair process is performed by darkening the sub-pixel (one of R, G, B, and BK (Black)) in which the bright defect has occurred (S30).

In this case, the determination of whether the bright defect has occurred may include particles, a gate open, a pixel to data line short, and an a-Si residue in a liquid crystal. ), Pixel channel short, TFT with bad character, bad pixel to pixel short across the data line, and data line residue under pixel Defect by one or more of line residue under pixel, No contact hole, S / D open, or Pixel to pixel short across the gate line Is generated, it is determined that a bright defect has occurred.

In the present invention, the process of dark pixelating the sub pixel in which the bright defect has occurred is performed by applying a dark liquid using a dispenser to a polarizer attached to an upper side of the color filter substrate. That is, when bright defects occur, repair is not performed directly on the corresponding subpixels, but indirectly by applying dark liquid on a polarizing plate positioned perpendicular to the corresponding subpixels on which the bright defects occur. Perform

As shown in FIG. 3, the portion where the dark liquid is applied to the polarizing plate is a portion 21 located at a vertical linear position with the sub pixel portion 11 (assuming G sub pixel among RGB) where the bright defect is generated. The pixel coincidence portion corresponds to the G subpixel) and the portion 23 adjacent to the pixel coincidence portion 21 (this is referred to as the pixel neighbor portion).

On the other hand, the pixel neighboring portion 23 corresponds to a portion which is in a vertical line position with eight other subpixels 13 adjacent to the subpixel 11 where the bright defect has occurred. Accordingly, the pixel adjacent portion 23 corresponds to eight regions (sub pixel size regions) adjacent to the pixel matching portion 21.

As described above, the light leakage phenomenon can be indirectly removed by applying the dark liquid onto the subpixel 11 where the bright defect has occurred and the polarizing plate positioned perpendicular to the other subpixel 13 adjacent thereto. In other words, the repair may be indirectly performed.

When the dark liquid is applied to a predetermined portion of the polarizing plate as described above, the light leakage phenomenon that can be seen even at a specific angle can be blocked at the source and the repair can be performed in an efficient process.

According to the repairing method of the liquid crystal display panel of the present invention having the above-described configuration and preferred embodiment, after the liquid crystal cell process is completed, when a bright defect occurs on the color filter array, a dispenser is used for a predetermined portion of the polarizing plate. Since the dark liquid is applied, there is an advantage of indirectly removing the light leakage phenomenon through the sub pixel in which the bright defect is generated.

In addition, as in the conventional repair process, the repair is performed by applying the dark liquid to the polarizing plate immediately without proceeding to the process of converting the subpixel where light leakage occurs into a dark pixel using a laser or recovering the original pixel. Therefore, the process time is reduced.

Claims (3)

Manufacturing a TFT substrate and a color filter substrate, performing a liquid crystal cell process, and determining whether bright defects have occurred; And As a result of the determination, if bright defects are generated, applying dark liquid by using a dispenser to a polarizer attached to an upper side of the color filter substrate to darken the sub-pixels having bright defects. Including; The dark liquid is applied to the polarizing plate is a pixel coincidence portion present at a position perpendicular to the sub pixel portion where the bright defect is generated, and a pixel adjacency portion adjacent to the pixel coincidence portion, and the pixel adjacency portion is A repair method for a liquid crystal display panel, characterized in that the portion exists at a vertical line position with eight other sub pixels adjacent to a sub pixel where a bright defect has occurred. delete delete

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