KR101830606B1 - Auto-probe block of shorting bar type auto-probe apparatus - Google Patents

Abstract

The present invention relates to an auto-probe block of a Schotzinger type auto-probe apparatus capable of improving the inspection efficiency while reducing the cost by changing the structure of the auto-probe block directly connected to the image display panel during inspection of the image display panel, A circuit film on which a driving integrated circuit for driving an image display panel is mounted; A connection pad portion directly connected to the image display panel on an extension of the circuit film; A flat plate for flattening the connection pad portion; A pressing portion provided in the block body portion forming the outer shape to press the connection pad portion through the flat plate; And a signal transmission cable for applying a driving control signal to the driving integrated circuit through the circuit film.

Description

{AUTO-PROBE BLOCK OF SHORTING BAR TYPE AUTO-PROBE APPARATUS}

The present invention relates to a sorting bar type auto-probe apparatus, and more particularly, to a shorting bar type autoclaving apparatus capable of improving the inspection efficiency and reducing the cost by changing the structure of the auto- Type auto-probe apparatus.

Description of the Related Art [0002] In recent years, lightweight thin flat panel displays have been mainly used as image display devices used in monitors for personal computers, portable terminals, and various information devices. Examples of such flat panel display devices include a liquid crystal display, an organic light emitting diode display, a plasma display panel, a field emission display, .

Each of the image display panels, that is, the liquid crystal panel, the organic light emitting display panel, etc. constituting the flat panel display device is judged whether or not the image display panel is defective through a lighting inspection process before the module assembly process is assembled with a separate driving circuit unit or a power supply unit . Such defective inspection is carried out by using an inspection apparatus such as an auto-probe apparatus or the like to judge whether each display panel is driven and whether image quality is defective or not.

The auto-probe apparatus temporarily connects a drive circuit or a backlight unit set in advance to a completed image display panel, and drives the image display panel for a predetermined time period, thereby determining whether or not each display panel is defective. Such an auto-probe apparatus can be broadly divided into a sorting bar type auto-probe apparatus and a connector type auto-probe apparatus according to a connection structure connected to drive an image display panel during inspection of an image display panel. This is different depending on the type of image display panel to be inspected and the pad type applied to each image display panel.

The connector type auto-probe device has a driving integrated circuit for driving an image display panel and is connected to an image display panel through an FPC cable (Flexible Printed Circuit Cable) and a connector. The auto-probe device of the Schottenba type is a structure that connects a separate drive signal output unit and the image display panel through the FPC cable and the probe block.

In the conventional automatic probe apparatus of the present invention, the probe block connected to the pad portion of the image display panel is formed as a needle type and classified as a consumable part. Due to the needle type, The damage rate of the pad portion is frequently increased. In other words, when the needle-type probe block is connected to the pad portion of the image display panel, the fine needle connected to the pad portion is often damaged such as bent or broken, . In particular, when the needle is damaged, the probe block is classified as a consumable item which must be broken, and thus the cost for inspection of the image display panel has increased, and the inspection efficiency has also been reduced.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems and it is an object of the present invention to provide a shorting bar type which can improve the inspection efficiency and reduce the cost by changing the structure of the auto-probe block directly connected to the image display panel during inspection of the image display panel And an object thereof is to provide an auto-probe block of an auto-probe apparatus.

According to another aspect of the present invention, there is provided an auto-probe block of a Schottinger-type auto-probe device including: a circuit film on which a driving integrated circuit for driving an image display panel is mounted; A connection pad portion directly connected to the image display panel on an extension of the circuit film; A flat plate for flattening the connection pad portion; A pressing portion provided in the block body portion forming the outer shape to press the connection pad portion through the flat plate; And a signal transmission cable for applying a driving control signal to the driving integrated circuit through the circuit film.

The circuit film is characterized in that a connection pad portion is integrally formed on one side thereof and a signal transmission cable is electrically connected to the other side thereof by a TAB (Tape Automated Bonding) method.

Wherein a plurality of connection bumps or a plurality of connection terminals are formed in the connection pad portion integrally formed with the circuit film so as to correspond to a plurality of connection bumps or a plurality of connection terminals of the pad portion formed in the image display panel, The driving signals are transmitted through a plurality of connection bumps or a plurality of connection terminals corresponding to each other.

Wherein the circuit film and the signal transmission cable are formed with a plurality of signal transmission patterns electrically connected to signal input / output bumps or signal input / output terminals of the driving integrated circuit, And a drive signal from the output bump or signal output terminals of the drive integrated circuit is supplied to the plurality of connection bumps or the plurality of connection terminals provided in the connection pad portion .

Wherein a plurality of signal transmission patterns formed on the circuit film are formed so as to be branched so that the number of output signal patterns to the connection pad portion is increased by a certain number or more than the number of output signal patterns from the signal transmission cable.

Wherein the driving integrated circuit includes a shorting line corresponding to a plurality of signal transmission patterns formed on the circuit film so that the input / output bumps or input / output terminals of the driving integrated circuit are connected So as to be able to be used.

The flat plate is provided on the connection pad portion and a constant pressure is continuously applied to the connection pad portion by locating the pressing portion formed on the block body portion forming the outer shape of the auto-probe block on the flat plate. do.

The auto-probe block of the Schotinger-bar type auto-probe device of the present invention having various technical features as described above is changed to a form capable of mounting a driving integrated circuit and is formed of a film type connection structure not a conventional needle type The inspection efficiency of the image display panel can be further improved. In addition, by allowing the auto-probe block to be used semi-permanently rather than as a consumable item, the inspection cost of the image display panel can also be reduced.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing a Schotinger-bar type auto-probe apparatus and auto-probe blocks according to an embodiment of the present invention; FIG.
FIG. 2 is a view showing a connection structure between the image display panel and the auto-probe block shown in FIG. 1. FIG.
FIG. 3 is an exploded perspective view showing the auto-probe block of FIG. 2 in detail. FIG.
FIG. 4 is a perspective view of the auto-probe block of FIG. 3 assembled; FIG.
5 is another exploded perspective view showing the auto-probe block 2 in detail.
6 is a diagram showing a back surface shape of an auto-probe block having a circuit film on which a driving integrated circuit is mounted and a signal transmission cable;
7 is a view showing a circuit film on which a driving integrated circuit is mounted;
8 is a diagram specifically showing a circuit film in which a driving integrated circuit is not mounted;
9 is a view showing an example of a pattern formed in the driving integrated circuit of Fig. 8;
FIG. 10 is a diagram specifically showing a connection structure of the image display panel and the auto-probe block of FIG. 2; FIG.

Hereinafter, an auto-probe block of a Schotinger-type auto-probe apparatus according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram schematically showing a Schotinger-type auto-probe apparatus and an auto-probe block according to an embodiment of the present invention.

The auto-probe blocks PB corresponding to the pads 30 and 31 of the image display panel 20 are respectively provided in the shorting bar type auto-probe device shown in FIG. Such a sorting bar type auto-probe device may be a flat panel type image display panel, for example, a liquid crystal display panel, an organic light emitting diode display panel, a plasma display panel ) Will be described below. Hereinafter, only the case of inspecting the liquid crystal display panel will be described as an example for convenience of explanation.

When the image display panel 20 is loaded on the Schottenba type auto-probe device, the data pad unit 30 connected to the pad units 30 and 31 of the image display panel 20, that is, the data lines DL1 to DLm, And the corresponding gate electrode pads 31 connected to the gate lines GL1 to GLn are connected to the respective auto-probe blocks PB. Each of the auto-probe blocks PB drives the image display panel 20 by supplying a gate driving signal, a data driving signal, a driving power, and the like to each of the pad units 30 and 31.

The auto-probe blocks PB correspond to the respective pad portions 30 and 31 of the image display panel 20. Each of the auto-probe blocks PB is provided with its own drive integrated circuit, 20, respectively.

In general, the Schottenba type auto-probe device only supplies control signals supplied from the outside for driving the image display panel 20 to the image display panel 20 through the respective auto-probe blocks PB. In this case, each of the auto-probe blocks (PB) provided becomes a consumable item and can not be disposed of when a fault occurs in a connection portion with the image display panel 20 or a signal transmission cable. However, when each of the auto-probe blocks PB itself includes a driving integrated circuit and generates control signals for driving the corresponding video display panel 20, only the connection failure with the video display panel 20 If it is prevented, it can be used semi-permanently. If the driving integrated circuits provided in the respective auto-probe blocks PB can be replaced according to the corresponding video display panel 20, the auto-probe blocks PB can be used to correspond to the video display panel 20, .

FIG. 2 is a view showing a connection structure between the image display panel and the auto-probe block shown in FIG. FIG. 3 is an exploded perspective view showing the auto-probe block of FIG. 2, and FIG. 4 is a perspective view of the auto-probe block of FIG. 3 assembled. 5 is another exploded perspective view showing the auto-probe block 2 in detail.

2 to 4, an auto-probe block according to the present invention includes a circuit film 6 on which a driving integrated circuit for driving an image display panel 20 is mounted; A connection pad portion 8 directly connected to the image display panel 20 on an extension of the circuit film 6; A flat plate 4 for flattening the connection pad portion 8; A pressing portion 5 provided on the block body portion 2 forming the outer shape and pressing the connection pad portion 8 through the flat plate 4; And a signal transmission cable 12 for applying a drive control signal to the drive integrated circuit through the circuit film 6. [

A gate or a data driving integrated circuit is mounted on the circuit film 6. A TCP (Tape Carrier Package) film or a COF (Chip On Flexible Printed Circuit) film is used as the circuit film 6. [ Here, on the back surface of the circuit film 6, a plurality of signal transmission patterns corresponding to the driving integrated circuit are formed.

The circuit film 6 on which the driving integrated circuits are mounted is integrally formed with the connection pad portion 8 on one side thereof and the signal transmission cable 12 is electrically connected to the other side thereof by a TAB (Tape Automated Bonding) do. Thus, the drive integrated circuit is supplied with various control signals necessary for driving through the signal transmission pattern formed on the signal transmission cable 12 and the circuit film 6. [ The driving integrated circuit generates driving signals for driving the image display panel 20 and supplies the driving signals to the connection pad unit 8 through a signal transmission pattern formed on the circuit film 6. [

The connection pad portion 8 is directly connected to one of the pad portions 30 and 31 formed on the image display panel 20. [ More specifically, a plurality of connection bumps or a plurality of connection terminals are formed in the connection pad portion 8 integrally formed with the circuit film 6 by a plurality of connection bumps or pads of the pad portions 30, 31 formed on the image display panel 20 And transmits driving signals through a plurality of connection bumps or a plurality of connection terminals corresponding to each other when the video display panel 2 is inspected.

The signal transmission cable 12 connected to the other side of the circuit film 6 may be a flexible printed circuit or a flexible flat cable and may be an anisotropic conductive film It is possible. This signal transmission cable 12 supplies control signals from the outside to a driving integrated circuit through a connector or the like not shown.

The flat plate 4 is provided on a part of the circuit film 6, in particular, on the connection pad portion 8 to support the connection pad portion 8 in a flat shape. On the flat plate 4, the pressing portion 5 formed on the block body portion 2 forming the outer shape of the auto-probe block is positioned, and constant pressure is constantly applied to the connection pad portion 8. The pressing portion 5 is formed of rubber or the like and is fixed to the block body portion 2. The pressing body portion 5 is fixed to the connecting pad portion 8 by a fixed form of the block body portion 2 and a self- Will continue to be authorized.

The circuit film 6 and the signal transmission cable 12 may be further provided with a backside body 10 for supporting the circuit film 6 and the signal transmission cable 12 on the backside. The back body 10 supports the circuit film 6 and the signal transmission cable 12 while its upper outer surface is in contact with a part of the back surface of the block body 2 and is connected to the block body 2 ). ≪ / RTI >

6 is a diagram showing a back surface shape of an auto-probe block having a circuit film on which a driving integrated circuit is mounted and a signal transmission cable. 7 is a view showing a circuit film on which a drive integrated circuit is mounted, and Fig. 8 is a view showing a circuit film on which a drive integrated circuit is not mounted.

6 to 8, the circuit film 6 on which the driving integrated circuit (D-IC) is mounted and the signal transmission cable 12 are provided with signal input / output bumps or signal input / output bumps of the driving integrated circuit (D-IC) A plurality of signal transmission patterns electrically connected to the terminals are formed to supply control signals from the outside to the input bumps or signal input terminals of the driving integrated circuit D-IC, Or the signal output terminals to the plurality of connection bumps or the plurality of connection terminals provided in the connection pad portion 8. [

8, the plurality of signal transmission patterns formed on the circuit film 6 are arranged such that the number of output signal patterns to the connection pad portion 8 is increased by a certain number or more than the number of the input signal patterns from the signal transmission cable 12 As shown in FIG. For example, when the input signal pattern from the signal transmission cable 12 is formed from 6 lines to 36 lines, the output pattern may be formed in the form of a shorting bar pad formed from 960 lines to 1836 lines . In this case, the driving integrated circuit (D-IC) provided in each of the auto-probe blocks PB can be replaced according to the corresponding video display panel 20, Blocks (PB) can be used, which makes the utilization even higher.

9, a shorting line corresponding to a plurality of signal transmission patterns formed on the circuit film 6 is formed in the driving integrated circuit (D-IC) Output bumps or input / output terminals of the integrated circuit (D-IC) can be connected corresponding to the signal transmission patterns of the circuit film (6).

10 is a view showing a more detailed connection structure of the image display panel and the auto-probe block of FIG. 2

10, the connection pad portion 8 is directly connected to one of the pad portions 30 and 31 formed on the image display panel 20. [ A plurality of connection bumps or a plurality of connection terminals are formed on the connection pad portion 8 integrally formed with the circuit film 6 to connect the plurality of connection bumps or the plurality of connection terminals of the pad portions 30, And at the time of inspecting the image display panel 2, driving signals are transmitted through a plurality of connection bumps or a plurality of connection terminals corresponding to each other. The connection pad portion 8 according to the present invention is less likely to be damaged when connected to the pad portions 30 and 31 formed on the image display panel 20 and therefore the circuit film 6 and the data integration circuit D- IC) can be used semi-permanently unless it has been replaced.

Therefore, the auto-probe block PB of the present invention is provided with its own drive IC (D-IC) to generate and supply control signals for driving the corresponding image display panel 20, Itself may be semi-permanently usable. Since the drive integrated circuit D-ID and the circuit film 8 provided in each of the auto-probe blocks PB can be replaced according to the model of the image display panel 20 in the inspection process, And the use of the auto-probe blocks PB can be further improved.

As described above, the auto-probe block PB of the Schotinger-bar type auto-probe device of the present invention having various technical features is changed to a form capable of mounting a driving integrated circuit (D-IC) The inspection efficiency of the image display panel 20 can be further improved by forming the connection structure of a film type rather than a needle type. Also, since the auto-probe block PB can be used semi-permanently instead of being a consumable item, the inspection cost of the image display panel 20 can also be reduced.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the general inventive concept as defined by the appended claims and their equivalents. Will be clear to those who have knowledge of.

Claims (7)

A circuit film on which a driving integrated circuit for driving an image display panel is mounted;
A connection pad portion directly connected to the image display panel on an extension of the circuit film;
A flat plate for flattening the connection pad portion;
A pressing portion provided in the block body portion forming the outer shape to press the connection pad portion through the flat plate; And
And a signal transmission cable for applying a drive control signal to the drive integrated circuit through the circuit film,
The circuit film has a plurality of signal transmission patterns electrically connected to the signal input / output bumps or the signal input / output terminals of the driving integrated circuit so as to output control signals from the outside to the input bumps or signal input terminals of the driving integrated circuit And a drive signal from the output bumps or signal output terminals of the drive integrated circuit is supplied to a plurality of connection bumps or a plurality of connection terminals provided in the connection pad portion,
Wherein the driving integrated circuit includes a shorting line corresponding to the plurality of signal transmission patterns formed on the circuit film so that input / output bumps or input / output terminals of the driving integrated circuit can be connected to the plurality of signal transmission patterns Wherein the auto-probe block of the shorting bar type auto-probe apparatus is configured such that the auto-probe block of the shorting bar type auto- The method according to claim 1,
The circuit film
And a signal transmission cable is electrically connected to the other side of the connection pad by TAB (Tape Automated Bonding) method. 3. The method of claim 2,
The connection pad portion formed integrally with the circuit film
A plurality of connection bumps or a plurality of connection terminals are formed so as to correspond to a plurality of connection bumps or a plurality of connection terminals of a pad portion formed on the image display panel, And the driving signal is transmitted through the connection terminal of the auto-probe block of the shorting bar type auto-probe device. The method of claim 3,
The signal transmission cable
A plurality of signal transmission patterns electrically connected to the signal input / output bumps or signal input / output terminals of the driving integrated circuit are formed to supply control signals from the outside to the input bumps or signal input terminals of the driving integrated circuit, Wherein the output bumps of the drive integrated circuit or the drive signals from the signal output terminals are supplied to the plurality of connection bumps or the plurality of connection terminals provided in the connection pad portion. block. 5. The method of claim 4,
The plurality of signal transmission patterns formed on the circuit film
Wherein an output signal pattern to the connection pad portion is branched by a number greater than the number of output signal patterns from the signal transmission cable to the connection pad portion. delete The method according to claim 1,
The flat plate
And a constant pressure is continuously applied to the connection pad portion by locating the pressing portion formed on the block body portion forming the outer shape of the auto-probe block on the flat plate. Auto-probe block of auto-probe device.

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