KR20030032326A - Tester of liquid crystal display panel - Google Patents

Abstract

PURPOSE: An apparatus for testing a liquid crystal display panel is provided to minimize errors in operating the apparatus, reduce causes for the errors, and improve the productivity. CONSTITUTION: A first frame(110) is formed in a square shape following a liquid crystal panel(100), having align keys(140). A second frame(120) is assembled by the first frame and the align keys. A PCB(121) for an interface, a PCB for driving a gate, a PCB(123) for driving data, TCP(Tape Carrier Package) blocks(124,125), and needles(126,127) are integratedly formed on the second frame according to a model of the liquid crystal panel. An external test pattern generating part(150) is connected with the PCB for the interface of the second frame through a cable(128c). In the case that the model of the liquid crystal panel, the second frame is disassembled to reassemble the second frame appropriate for the changed liquid crystal panel.

Description

Test device for liquid crystal display panel {TESTER OF LIQUID CRYSTAL DISPLAY PANEL}

The present invention relates to a test apparatus for a liquid crystal display panel, and more particularly, to a test apparatus for a liquid crystal display panel, which is suitable for minimizing replacement time of components for testing according to the size of the liquid crystal display panel.

In general, a liquid crystal display device is a display device in which an image corresponding to a data signal is displayed by individually supplying data signals to liquid crystal cells arranged in a matrix and adjusting light transmittance of the liquid crystal cells.

Accordingly, a liquid crystal display device includes: a liquid crystal panel in which liquid crystal cells forming a pixel unit are arranged in an active matrix form; A driver integrated circuit (IC) for driving the liquid crystal cells is provided.

At this time, the liquid crystal panel is arranged so that the common electrode is formed on one side of each inner side of the upper and lower substrates facing each other, and the pixel electrode is formed on the other side of the liquid crystal panel so as to face each other. An electric field is applied to the liquid crystal layer which is formed at the separation interval of the substrate. Such a pixel electrode is formed for each liquid crystal cell on the lower substrate, while the common electrode is integrally formed on the entire surface of the upper substrate.

Also, on the lower substrate of the liquid crystal panel, a plurality of data lines for transmitting a data signal supplied from a data driver integrated circuit to liquid crystal cells and a plurality of data lines for transmitting a scan signal supplied from a gate driver integrated circuit to the liquid crystal cells are provided. Gate lines are formed in directions perpendicular to each other, and an input pad to which data signals and scan signals supplied from the data driver IC and the gate driver IC are applied, respectively, at one end of the data lines and the gate lines, Liquid crystal cells are defined at each intersection of the data lines and the gate lines.

In this case, the gate driver integrated circuit sequentially supplies scan signals to a plurality of gate lines, so that the liquid crystal cells arranged in a matrix form are sequentially selected one by one, and a data driver is provided in the selected one line of liquid crystal cells. The data signal is supplied from the integrated circuit.

Each liquid crystal cell is formed with a thin film transistor used as a switching element, and in liquid crystal cells in which a scan signal is supplied to a gate electrode of the thin film transistor through the gate line, a conductive channel is formed between the source and drain electrodes of the thin film transistor. In this case, as the data signal supplied to the source electrode of the thin film transistor through the data line is supplied to the pixel electrode via the drain electrode of the thin film transistor, the light transmittance of the corresponding liquid crystal cell is adjusted.

Here, in the upper and lower substrates constituting the liquid crystal panel, a plurality of unit panels are formed on a large glass mother substrate, and in general, four or six are simultaneously formed and then cut into individual unit panels to improve yield. . A manufacturing process of such a liquid crystal display will be briefly described as follows.

First, a unit pixel including a thin film transistor, a pixel electrode, and a capacitor is formed in a matrix on a lower glass substrate.

The common electrode, the color filter, and the black matrix are patterned on the glass substrate of the upper plate.

Then, an alignment layer is formed on the lower plate and the upper plate, and then rubbing is performed. At this time, rubbing refers to a process of determining the initial alignment direction of the liquid crystal by rubbing the surface of the alignment film at a uniform pressure and speed using a cloth so that the polymer chains on the surface of the alignment film are aligned in a predetermined direction.

Then, a seal pattern is printed on the top plate. In this case, the seal pattern serves to provide a gap for injecting the liquid crystal and to prevent leakage of the injected liquid crystal.

Then, a spacer is distributed on the lower plate.

Then, the upper plate and the lower plate are bonded together. At this time, the alignment of the upper plate and the lower plate is determined by the margin given during the design process of the upper plate and the lower plate, and a precision of several μm is usually required, and when the margin is out of the margin, light is leaked out. The desired image quality characteristics of the device cannot be expected.

The bonded upper and lower plates are cut into unit panels. At this time, the cutting of the unit panel is composed of a scribe process of forming a cutting schedule line on the surface of the substrate with a diamond pen having a hardness higher than that of the glass substrate, and a break process of applying a mechanical force to cut.

Then, liquid crystal is injected into the cut unit panel, and the injection hole is sealed.

In general, in the manufacturing process of the initial liquid crystal display device, liquid crystals are injected into a plurality of liquid crystal panels and then cut into a unit panel. However, as the size of the unit panel increases, a method of cutting a unit panel and then injecting liquid crystals is used.

Since the unit panel has a gap of several μm in an area of several hundred cm 2, a vacuum injection method using a pressure difference between inside and outside of the unit panel is most commonly used to effectively inject liquid crystal.

When manufacturing of the unit panel of the liquid crystal display device is completed through the manufacturing process as described above, the unit panel is moved to a test facility in the same environment as the finished product in which the backlight assembly, the gate driver integrated circuit and the data driver integrated circuit are assembled. Proceed.

Since the same driving signal as the actual driving of the finished product is applied to the unit panel moved to the test facility, an image is displayed, and thus an area where a defect of the unit panel is generated can be easily identified.

Hereinafter, a unit panel of a liquid crystal display and a test apparatus thereof will be described in detail with reference to the accompanying drawings.

First, a schematic plan view of the unit liquid crystal panel 10 in which the lower plate 11 and the upper plate 12 are bonded to each other is shown in FIG. 1.

Referring to FIG. 1, the liquid crystal panel 10 includes an image display unit 13 in which liquid crystal cells are arranged in a matrix, a gate pad unit 14 and a data line connected to gate lines of the image display unit 13. And a data pad portion 15 to be connected with each other. In this case, the gate pad unit 14 and the data pad unit 15 are formed in the edge region of the lower plate 11 that does not overlap the upper plate 12, and the gate pad unit 14 is a scan supplied from the gate driver integrated circuit. The signal is supplied to the gate lines of the image display unit 13, and the data pad unit 15 supplies the image information supplied from the data driver integrated circuit to the data line of the image display unit 13.

Although not shown in detail in the drawing, data lines to which image information is applied and gate lines to which a scanning signal is applied are arranged to cross each other on the lower plate 11 of the image display unit 13, and the liquid crystal cell is disposed at an intersection thereof. Thin film transistors for switching them, a pixel electrode connected to the thin film transistor to drive a liquid crystal cell, and a protective film formed on the front surface to protect such electrodes and the thin film transistor.

In addition, the upper plate 12 of the image display unit 13 includes color filters separated and applied to each cell region by a black matrix, and a common transparent electrode serving as a counter electrode of the pixel electrode formed on the lower plate 11.

The lower plate 11 and the upper plate 12 configured as described above are spaced apart by a spacer to provide a cell gap therein, and the cell gap is filled with liquid crystal. The lower plate 11 and the upper plate 12 are bonded by the sealing portion 16 formed by applying a sealing material to the outer portion of the image display portion 13.

2 is a diagram illustrating a state in which the unit liquid crystal panel 10 of FIG. 1 is coupled to a test apparatus.

Referring to FIG. 2, a frame 20 having a rectangular band shape spaced apart from each other along a border of the liquid crystal panel 10 is provided.

In addition, a gate driving printed circuit board (PCB) 21 is provided at one side of the frame 20 facing the gate pad part 14 of the liquid crystal panel 10, and the liquid crystal panel 10 is provided. The data driving printed circuit board 22 is provided on the other side of the frame 20 opposite to the data pad unit 15 of FIG.

In addition, the frame 20 is provided with an interface printed circuit board 23 at an intersection area of the gate driving printed circuit board 21 and the data driving printed circuit board 22, and the interface printed circuit board ( 23 is connected to the gate driving printed circuit board 21 and the data driving printed circuit board 22 through the cables 24A and 24B, respectively, and is further connected to the outside of the frame 20 through another cable 24C. It is connected to a test pattern generator 40.

Meanwhile, one end of the gate driving printed circuit board 21 facing the gate pad part 14 may be connected to the liquid crystal panel 10 through a plurality of tape carrier package (TCP) blocks 25 and needles 26. Is connected to the gate pad portion 14 of the N-axis, and similarly, one end of the data driving printed circuit board 22 facing the data pad portion 15 is connected through the plurality of TCP blocks 27 and the needles 28. It is connected to the data pad part 15 of the liquid crystal panel 10.

In addition, each TCP block 25 connecting the gate driving printed circuit board 21 and the plurality of needles 26 to connect the gate driving printed circuit board 21 and the needles 26 with each other is provided. A flexible printed circuit (FPC) block 29; A gate driver integrated circuit unit 30 is provided to supply a scan signal applied from the gate driving printed circuit board 21 to the gate pad unit 14 through the needles 26.

In addition, each TCP block 27 connecting the data driving printed circuit board 22 and the plurality of needles 28 to connect the data driving printed circuit board 22 and the needles 28 to each other is provided. An FPC block 31; The data driver integrated circuit unit 32 is provided to supply the image information applied from the data driving printed circuit board 22 to the data pad unit 15 through the needles 28.

Meanwhile, reference numeral 50 in the drawing denotes an alignment key for allowing the frame 20, the gate driving printed circuit board 21, and the data driving printed circuit board 22 to be assembled.

Referring to the operation of the test device as described above in detail.

First, the gate driving printed circuit board 21 and the data driving printed circuit board 22 according to the model of the liquid crystal panel 10 to be tested are assembled on the frame 20 having a rectangular band shape. The printed circuit board 21 is assembled with an appropriate number of TCP blocks 25 and needles 26 according to the model of the liquid crystal panel 10 to be tested, and the test is also performed on the data driving printed circuit board 22. According to the model of the liquid crystal panel 10 to be advanced, an appropriate number of TCP blocks 27 and needles 28 are assembled.

In addition, the liquid crystal panel 10 is loaded into the rectangular band-shaped frame 20 so that the assembled needles 26 and 28 and the gate pad portion 14 and the data pad portion of the liquid crystal panel 10 ( 15).

At this time, the needles 26 and 28 are composed of a plurality of thin wires 41 protruding in one direction of the needle body 40 and bent downward as shown in the exemplary diagram of FIG. When the panel 10 is loaded, the thin wires 41 and the gate pad portion 14 and the data pad portion 15 of the liquid crystal panel 10 come into contact with each other, and the thin wires 41 are lifted by about 3 μm. Lose.

As described above, when the liquid crystal panel 10 is loaded and connected to the frame 20, an image to be supplied to the scan signal and data line for driving the gate line of the liquid crystal panel 10 from an external test pattern generator 50. The information is applied to the printed circuit board 23 for the interface via the cable 24C.

The scanning signal for driving the gate line of the liquid crystal panel 10 and the image information to be supplied to the data line are branched from the interface printed circuit board 23 to print the gate driving printed circuit board 21 and the data driving print. The circuit board 22 is applied via cables 24A and 24B, respectively.

Therefore, the scan signal supplied to the gate driving printed circuit board 21 is applied to the gate pad portion 14 of the liquid crystal panel 10 through the plurality of TCP blocks 25 and the needles 26. The image information supplied to the data driving printed circuit board 22 is applied to the data pad portion 15 of the liquid crystal panel 10 through the plurality of TCP blocks 27 and the needles 28.

In this case, a gate driver integrated circuit unit 30 is provided in the TCP blocks 25 connected to the gate driving printed circuit board 21 to scan signals required for the gate pad unit 14 of the liquid crystal panel 10. In the same way, the TCP block 27 connected to the data driving printed circuit board 22 is provided with a data driver integrated circuit unit 32, and is provided on the data pad unit 15 of the liquid crystal panel 10. It is possible to supply the required image information.

The test apparatus of the conventional liquid crystal display panel as described above includes the interface printed circuit board 23, the gate driving printed circuit board 21, and the data driving printed circuit according to the model of the target liquid crystal panel 10 to be tested. The substrate 22, the TCP blocks 25 and 27 and the needles 26 and 28 are separately assembled to test the target liquid crystal panel 10.

That is, since the size of the liquid crystal panel 10 varies depending on the model, the interface printed circuit board 23, the gate driving printed circuit board 21, and the data driving according to the liquid crystal panel 10 to be tested. The printed circuit board 22, the TCP blocks 25 and 27, and the needles 26 and 28 are assembled separately, and the interface assembled separately if the model of the liquid crystal panel 10 is changed in the next test. The printed circuit board 23, the gate driving printed circuit board 21, the data driving printed circuit board 22, the TCP blocks 25 and 27 and the needles 26 and 28, and then the test is performed again. The interface printed circuit board 23, the gate driving printed circuit board 21, the data driving printed circuit board 22, the TCP blocks 25 and 27 and the needle according to the model of the liquid crystal panel 10 to be performed. (26,28) must be assembled separately.

The conventional test apparatus takes about 6 hours even if a skilled technician replaces each component of the test apparatus according to the model of the liquid crystal panel 10, and thus the productivity decreases. There was a problem that the failure occurrence factors of the components can not be excluded.

Accordingly, the present invention has been made to solve the above-mentioned problems, and an object of the present invention is to minimize the replacement time of the parts for the test according to the model of the liquid crystal display panel and to minimize the mistakes of technicians The present invention provides a test apparatus for a liquid crystal display panel.

1 is a schematic plan view of a unit liquid crystal panel in which a lower plate and an upper plate are opposed to each other.

2 is an exemplary view showing a unit liquid crystal panel of FIG. 1 coupled to a test apparatus.

3 is an exemplary view showing in detail the needle of FIG.

4 is an exemplary view of a first embodiment of a test apparatus for a liquid crystal display panel according to the present invention;

5 is an exemplary view showing in detail the needle of FIG.

6 is an exemplary view of a second embodiment of a test apparatus for a liquid crystal display panel according to the present invention;

*** Explanation of symbols for main parts of drawing ***

100: liquid crystal panel 101: gate pad portion

102: data pad section 110: first frame

120: second frame 121: printed circuit board for the interface

122: printed circuit board for gate driving 123: printed circuit board for data driving

124,125: TCP blocks 126, 127: needle

128A, 128B, 128C: Cable 128, 130: FPC Block

129: gate driver integrated circuit unit 131: data driver integrated circuit unit

140: sort key 150: test pattern generator

First, the first embodiment of the test apparatus of the liquid crystal display panel for achieving the object of the present invention as described above is spaced apart a predetermined interval along the edge of the liquid crystal panel to be tested, the alignment key (align key) is A first frame having a rectangular band shape; A second assembly assembled by the first frame and the alignment key, wherein a printed circuit board for an interface, a gate driving printed circuit board, a data driving printed circuit board, TCP blocks and needles are integrally manufactured according to a model of a liquid crystal panel; A frame; And an external test pattern generator connected to the interface printed circuit board of the second frame via a cable.

In addition, according to the second embodiment of the test apparatus of the liquid crystal display panel for achieving the object of the present invention as described above, a predetermined interval is spaced along the edge of the liquid crystal panel to be tested, and the band is provided with an alignment key. A first frame of the form; A printed circuit board provided at one side of the first frame and connected to an external test pattern generator through a cable; The gate driving printed circuit board, which is assembled by the first frame and the alignment key, is connected to the printed circuit board for the interface in a socket manner, and in which TCP blocks and needles are integrally manufactured according to the model of the liquid crystal panel. And a printed circuit board for data driving.

Hereinafter, exemplary embodiments of a test apparatus for a liquid crystal display panel according to the present invention will be described in detail with reference to the accompanying drawings.

First, FIG. 4 is an exemplary view of a first embodiment of a test apparatus for a liquid crystal display panel according to the present invention.

Referring to FIG. 4, a first frame 110 having a rectangular band shape spaced apart from each other along an edge of the liquid crystal panel 100 and provided with an alignment key 140; Assembled by the first frame 110 and the alignment key 140, according to the model of the liquid crystal panel 100, an interface printed circuit board 121, a gate driving printed circuit board 122, data driving A second frame 120 in which the printed circuit board 123, the TCP blocks 124 and 125 and the needles 126 and 127 are integrally manufactured; An external test pattern generator 150 connected to the interface printed circuit board 121 of the second frame 120 and the cable 128C is provided.

In this case, reference numerals 128A and 128B in the drawing denote cables connecting the interface printed circuit board 121, the gate driving printed circuit board 122, and the data driving printed circuit board 123, respectively.

The gate driving printed circuit board 122 formed integrally with the second frame 120 is connected to the gate pad portion 101 of the liquid crystal panel 100 by TCP blocks 124 and needles 126. Similarly, the data driving printed circuit board 123 is also connected to the data pad unit 102 of the liquid crystal panel 100 by the TCP blocks 125 and the needles 127.

In addition, each of the TCP blocks 124 connecting the gate driving printed circuit board 122 and the plurality of needles 126 to connect the gate driving printed circuit board 122 and the needles 126 to each other is provided. FPC block 128; A gate driver integrated circuit unit 129 is provided to supply a scan signal applied from the gate driving printed circuit board 122 to the gate pad unit 101 of the liquid crystal panel 100 through the needles 126.

In addition, each TCP block 125 connecting the data driving printed circuit board 123 and the plurality of needles 127 to connect the data driving printed circuit board 123 and the needles 127 to each other is provided. FPC block 130; A data driver integrated circuit unit 131 is provided for supplying image information applied from the data driving printed circuit board 123 to the data pad unit 102 of the liquid crystal panel 100 through the needles 127.

As described above, the test apparatus for the liquid crystal display panel according to the first exemplary embodiment of the present invention fabricates the components of the test apparatus integrally on the second frame 120 in advance.

In this case, the second frame 120 in which each component of the test apparatus is integrally prepared is separately prepared according to the models of the liquid crystal panel 100.

Therefore, when the test of the liquid crystal panel 100 is performed, first, the second frame 120 corresponding to the model of the liquid crystal panel 100 is selected and assembled with the first frame 110 by the alignment key 140. .

After the first frame 110 and the second frame 120 are assembled, the liquid crystal panel 100 is loaded inside the first frame 110 having a rectangular band shape, thereby being integrated with the second frame 120. The manufactured needles 126 and 127 are connected to the gate pad portion 101 and the data pad portion 102 of the liquid crystal panel 100.

At this time, the needles (126, 127) is a plurality of fine wires (161) protruding in one direction of the needle body 160 and bent downward as shown in the exemplary diagram of FIG. A thin wire cover 162 is provided inside the upper portion of the needle body 160 to slide and cover the arc while drawing an arc on the upper portion of the plurality of thin wires 161.

Meanwhile, when the liquid crystal panel 100 is loaded, the thin wires 161 and the gate pad portion 101 and the data pad portion 102 of the liquid crystal panel 100 are in contact with each other, and the thin wires 161 are about 3 μm. Since it is raised about, the thin wire cover 162 when the covering the thin wires 161, it is preferable to be spaced about 1mm from the top of the thin wires (161).

The thin wire cover 162 protects the thin wires 161 of the relatively weak needles 126 and 127 when the components of the test device are integrally manufactured on the second frame 120, thereby extending the life of the test device as a whole. Will contribute.

According to the first embodiment of the test apparatus for the liquid crystal display panel according to the present invention as described above, the respective components of the test apparatus are integrally formed on the second frame 120 in advance according to the models of the liquid crystal panel 100. To make.

Therefore, the test of the liquid crystal panel 100 is performed by selecting the second frame 120 corresponding to the model of the liquid crystal panel 100 to be tested and assembling the first frame 110 by the alignment key 140. When the model of the liquid crystal panel 100 is changed in the next test, the second frame 120 is disassembled from the first frame 110 and then corresponds to the model of the changed liquid crystal panel 100. By selecting the second frame 120 and re-assembling with the first frame 110 by the alignment key 140 it is possible to test the changed liquid crystal panel 100.

6 shows an exemplary view of a second embodiment of a test apparatus for a liquid crystal display panel according to the present invention.

Referring to FIG. 6, a first frame 210 having a rectangular band shape spaced apart from each other along an edge of the liquid crystal panel 200 and provided with an alignment key 240; An interface printed circuit board 221 provided on one side of the first frame 210 and connected to an external test pattern generator 250 through a cable 228C; Assembled by the first frame 210 and the alignment key 240, and is connected to the interface printed circuit board 221 and the sockets (301, 302) method and according to the model of the liquid crystal panel 200 TCP block ( The gate driving printed circuit board 222 and the data driving printed circuit board 223 having the 224 and 225 and the needles 226 and 227 integrally formed thereon are provided.

The gate driving printed circuit board 222 is connected to the gate pad part 201 of the liquid crystal panel 200 by the integrated TCP blocks 224 and the needles 226, and likewise, data driving printing. The circuit board 223 is also connected to the data pad part 202 of the liquid crystal panel 200 by the integrated TCP blocks 225 and the needles 227.

In addition, each TCP block 224 connecting the gate driving printed circuit board 222 and the plurality of needles 226 to connect the gate driving printed circuit board 222 and the needles 226 to each other is provided. FPC block 228; A gate driver integrated circuit unit 229 is provided to supply a scan signal applied from the gate driving printed circuit board 222 to the gate pad unit 201 of the liquid crystal panel 200 through the needles 226.

In addition, the respective TCP blocks 225 connecting the data driving printed circuit board 223 and the plurality of needles 227 to connect the data driving printed circuit board 223 and the needles 227 to each other are provided. An FPC block 231; A data driver integrated circuit unit 230 is provided to supply image information applied from the data driving printed circuit board 223 to the data pad unit 202 of the liquid crystal panel 200 through the needles 227.

The test apparatus of the liquid crystal display panel according to the second embodiment of the present invention as described above is connected to an external test pattern generator 250 through a cable 228C on one side of the first frame 210 having a rectangular band shape. An interface printed circuit board 221 is provided.

In addition, the TCP blocks 224 and 225 and the needles 226 and 227 are integrally formed on the gate driving printed circuit board 222 and the data driving printed circuit board 223 of the test apparatus according to the model of the liquid crystal panel 200. Is produced.

In this case, the gate driving printed circuit board 222 and the data driving printed circuit board 223 in which the TCP blocks 224 and 225 and the needles 226 and 227 are integrally formed, respectively, may be manufactured according to the models of the liquid crystal panel 200. Prepared individually in advance.

Therefore, when the test of the liquid crystal panel 200 is performed, first, the gate driving printed circuit board 222 and the data driving printed circuit board 223 corresponding to the model of the liquid crystal panel 200 are selected, and the alignment key ( It is assembled with the first frame 210 by the 240, and is connected to the interface printed circuit board 221 and the socket (301, 302), respectively.

The first frame 210, the gate driving printed circuit board 222, and the data driving printed circuit board 223 are assembled, and the gate driving printed circuit board 222 and the data driving printed circuit board ( After the 223 and the interface printed circuit board 221 are connected, the liquid crystal panel 200 is loaded into the rectangular frame-shaped first frame 210 so that the gate drive printed circuit board 222 and the data are loaded. Needles 226 and 227 formed integrally with the driving printed circuit board 223 are connected to the gate pad 201 and the data pad 202 of the liquid crystal panel 200.

In this case, the needles 226 and 227 are prepared in the same manner as in the example of FIG. 5.

As described above, the second embodiment of the test apparatus for the liquid crystal display panel according to the present invention includes an external test pattern generator 250 and an external test pattern generator 250 connected to one side of the first frame 210 having a rectangular band. A printed circuit board 221 for an interface is provided, and the gate block printed circuit board 222 is integrated with the TCP blocks 224 and 225 and the needles 226 and 227 in advance according to the models of the liquid crystal panel 200. It is fabricated separately on the data driving printed circuit board 223.

Accordingly, the first frame 210 is selected by the alignment key 240 by selecting the gate driving printed circuit board 222 and the data driving printed circuit board 223 corresponding to the model of the liquid crystal panel 200 to be tested. And the gate driving printed circuit board 222 and the data driving printed circuit board 223 are connected to the interface printed circuit board 221 and the sockets 301 and 302 to test the liquid crystal panel 200. When the model of the liquid crystal panel 200 is changed in the next test, the gate driving printed circuit board 222 and the data driving printed circuit board 223 are disassembled from the first frame 210. In addition, the gate driving printed circuit board 222 and the data driving printed circuit board 223 are separated by the interface printed circuit board 221 and the sockets 301 and 302, and then the model of the changed liquid crystal panel 200 is applied. Gate driving printed circuit The board 222 and the data driving printed circuit board 223 are selected and assembled with the first frame 210 by the alignment keys 240, and the gate driving printed circuit board 222 and the data driving printed circuit are assembled. The substrate 223 may be connected to the interface printed circuit board 221 and the sockets 301 and 302 to test the changed liquid crystal panel 200.

In this case, the sockets 301 and 302 for connecting the interface printed circuit board 221, the interface printed circuit board 221, the gate driving printed circuit board 222, and the data driving printed circuit board 223 are liquid crystal. It should be designed to properly process the scan signal and the image information according to the model of the panel 200.

As described above, the test apparatus for the liquid crystal display panel according to the present invention has the following effects.

First, the test apparatus for the liquid crystal display panel according to the first embodiment of the present invention separately fabricates each component of the test apparatus into a second frame in advance in accordance with the models of the liquid crystal panel, and then the model of the liquid crystal panel to be tested. By selecting the second frame corresponding to the, and assembling with the first frame by the alignment key and connecting to the external test pattern generator, the test is performed, so that the operation can be minimized and the operator's mistake can be minimized. If the model of the liquid crystal panel is changed, it is necessary to disassemble the previous second frame and reassemble the second frame suitable for the changed liquid crystal panel. As it can proceed, the time required to replace the test apparatus due to the change of the liquid crystal panel can be greatly reduced. There is an effect that can improve the castle.

In addition, the test apparatus of the liquid crystal display panel according to the second embodiment of the present invention is provided with an interface printed circuit board connected to an external test pattern generator through a cable on one side of the first frame having a rectangular band, and a liquid crystal panel According to the models of the TCP blocks and the needles are integrated into the gate-driven printed circuit board and the data-driven printed circuit board separately, and then the gate-driven printed circuit board corresponding to the model of the liquid crystal panel to be tested and Select the data driving printed circuit board, assemble it with the first frame by the alignment key, and test the test by connecting the gate driving printed circuit board and the data driving printed circuit board with the interface printed circuit board in a socket manner. By doing so, the operation is simple and the operator's mistake can be minimized. If the model of the liquid crystal panel is changed, the previous gate driving printed circuit board and the data driving printed circuit board are disassembled, and then the gate driving printed circuit board and the data driving printed circuit board suitable for the changed liquid crystal panel are replaced. It is possible to proceed with the test of the changed liquid crystal panel through a simple replacement work to reassemble, it is possible to significantly reduce the time required to replace the test apparatus according to the change of the liquid crystal panel, there is an effect that can improve the productivity.

Meanwhile, in the first or second embodiment of the present invention, the second frame or the gate driving printed circuit board and the data driving printed circuit board are integrally manufactured and connected to the gate pad portion and the data pad portion of the liquid crystal panel. Needles are provided with a thin wire cover to protect a plurality of thin wires protruding in one direction of the needle body and bent downward, thereby protecting the thin wires of the relatively weak needle when each component of the test apparatus is made in one piece Overall, this has the effect of extending the life of the test apparatus.

Claims (7)

A first frame having a square band spaced apart from each other along an edge of the liquid crystal panel to be tested, and having an alignment key; A second assembly assembled by the first frame and the alignment key, wherein a printed circuit board for an interface, a gate driving printed circuit board, a data driving printed circuit board, TCP blocks and needles are integrally manufactured according to a model of a liquid crystal panel; A frame; And an external test pattern generator connected to the printed circuit board for interface of the second frame via a cable. According to claim 1, wherein one side of the TCP blocks and needles are integrally manufactured in the second frame connects the gate driving printed circuit board and the gate pad portion of the liquid crystal panel, the other side of the second frame integrally manufactured The TCP block and the needle is connected to the data driving printed circuit board and the data pad unit of the liquid crystal panel, the test apparatus of the liquid crystal display panel. 3. The LCD device of claim 2, wherein one side of the TCP blocks connecting the gate driving printed circuit board and the gate pad portion of the liquid crystal panel comprises: an FPC block for connecting the gate driving printed circuit board and one side needle; And a gate driver integrated circuit unit configured to supply a scan signal applied from the gate driving printed circuit board to a gate pad of the liquid crystal panel through one side needle. 3. The LCD of claim 2, wherein the other TCP blocks connecting the data driving printed circuit board and the data pad of the liquid crystal panel comprise: an FPC block for connecting the data driving printed circuit board and the other needle; And a data driver integrated circuit unit configured to supply image information applied from the gate driving printed circuit board to the data pad unit of the liquid crystal panel through the other needles. According to claim 1, The needles are integrally manufactured in the second frame and a plurality of fine wires protruding in one direction of the needle body and bent downward; And a thin wire cover provided on an inner side of the needle body and slidingly covering while covering an arc over the plurality of thin wires. The test apparatus of claim 5, wherein the thin wire cover is spaced apart by about 1 mm from an upper surface of the thin wire in a direction opposite to the bending direction of the thin wires. A first frame having a predetermined interval spaced apart from each other along an edge of the liquid crystal panel to be tested and having an alignment key; A printed circuit board provided at one side of the first frame and connected to an external test pattern generator through a cable; The gate driving printed circuit board, which is assembled by the first frame and the alignment key, is connected to the printed circuit board for the interface in a socket manner, and in which TCP blocks and needles are integrally manufactured according to the model of the liquid crystal panel. And a data driving printed circuit board.