KR20090096995A - Characteristic inspection method for touch panel - Google Patents

Abstract

A touch panel characteristic detecting method replacing a test board according to an FPC pattern of a touch panel is provided to implement characteristic inspection about the touch panel having FPC of various patterns. A touch panel(1) is positioned in the arrival point of a transfer unit and senses the end of an FPC(Flexible Printed Circuit)(2). The end of FPC and touch panel is picked up. The touch panel picked up is fed into the test stage. The end of FPC is fixed to a test board(60). The test board has the same pattern [pattern] as FPC. The characteristic of the touch panel is tested. If the touch panel which the transfer method is supplied is the touch panel having FPC of the other pattern, the test board is replaced by the test board.

Description

Characteristic inspection method for touch panel corresponding to FPCs of various structures

The present invention relates to a touch panel characteristic inspection method for automatically inspecting the eligibility of the touch panel, and more particularly, after supplying the touch panel side with the FPC with a predetermined pattern to face the outside of the transfer means, Sensing the end of the FPC when the panel is located at the arrival point of the transfer means, and picking up the end of the touch panel and the FPC (S10); Feeding the touch panel picked up by the step (S10) to the test stage, and fixing one side of the touch panel as a reference of the test stage, and fixing the end of the FPC to a test substrate having the same pattern as the FPC ( S20); Inspecting and discharging characteristics of the touch panel (S30); If the touch panel supplied to the transfer means of the step (S10) is a touch panel having a different pattern of FPC (S40) to replace the test substrate having a pattern corresponding thereto (S40) of the various structures comprising a A touch panel characteristic inspection method corresponding to an FPC.

The touch panel characteristic checker supplies power to the signal lines of the FPC provided on one side of the touch panel before attaching the touch panel to the top of various displays, and then selectively presses several coordinates on the top of the touch panel, and then It is a device that determines the eligibility of the touch panel by analyzing the equipotential and equipotential values.

Meanwhile, the touch panel displays a flat panel display device such as an electronic notebook, a liquid crystal display device (LCD), a plasma dispaly panel (PDP), an electroluminescense (EL), and an image display device such as a cathode ray tube (CRT). It is installed on the surface, and replaces the existing input device (keyboard, mouse, digitizer, etc.) to allow the user to select the desired information by touching the hand while looking at the image display device.

Such touch panels can be classified into resistive type, capacitive type, and electromagnetic induction type according to the method of sensing a touch, and each type has a problem of signal amplification and resolution. Since the difference, the difficulty of design and processing technology, etc. are different, it is necessary to select a method that can take advantage of the advantages. The selection considerations include optical, electrical, mechanical, environmental, input, and durability. And economics.

In the basic structure of the resistive touch panel, an upper transparent substrate having an upper electrode formed on a surface facing each other and a lower transparent substrate having a lower electrode formed thereon are bonded to each other by a spacer. Therefore, when a certain input means such as a pen or a finger is brought into contact with the surface of the upper substrate, the upper electrode formed on the upper substrate and the lower electrode formed on the lower substrate are energized with each other, and outputted by the resistance value of the position. After changing the voltage and reading the changed voltage value, the control device finds the position coordinate according to the change of the potential difference.

In addition, the basic structure of the capacitive touch panel has a finger or a conductive pen by forming a transparent electrode on one substrate and applying a voltage to each corner or corner of the film to generate a uniform electric field on the transparent electrode. When the stylus is contacted, a voltage drop is generated to find the position coordinate.

On the other hand, one side of such a touch panel is attached to a flexible printed circuit board (FPCB) having flexibility to be connected to the above-described electrode, such FPC is a variety of patterns (eg, the distance between each electrode 0.8, 1 , 1.2, 1.5, 2.45mm, etc.) and any one of a variety of structures (eg, straight, “a” shaped, etc.) to select a particular portion of the side portion of the touch panel (one of points A to G of FIG. 1). ) Is attached.

On the other hand, the conventional feature checker of the touch panel has a problem in that it does not support the FPC of the various structures and patterns in the automatic check whether the touch panel is qualified.

Accordingly, the present invention has been made to solve the above problems, it is an object of the present invention to provide a touch panel characteristic inspection method corresponding to the FPC of various structures.

An object of the present invention as described above, in the touch panel characteristics inspection method for automatically checking the eligibility of the touch panel, after supplying the touch panel side with the FPC attached to the outside of the conveying means, Sensing the end of the FPC when the touch panel is located at the arrival point of the transfer means, and picking up the end of the touch panel and the FPC (S10); Feeding the touch panel picked up by the step (S10) to the test stage, and fixing one side of the touch panel as a reference of the test stage, and fixing the end of the FPC to a test substrate having the same pattern as the FPC ( S20); Inspecting and discharging characteristics of the touch panel (S30); If the touch panel supplied to the transfer means of the step (S10) is a touch panel having a different pattern of FPC (S40) to replace the test substrate having a pattern corresponding thereto (S40) of the various structures comprising a It is achieved by the touch panel characteristic inspection method corresponding to the FPC.

Here, the pattern of the test substrate is characterized in that it is provided perpendicular to the upper side of the substrate, horizontally on the left and right sides, respectively.

In addition, the step (S10) is characterized in that it further comprises a step (S15) of removing the wrinkles of the FPC before sensing the end of the FPC.

In addition, other features and advantages of the present invention will become more apparent from the detailed description of the detailed description for carrying out the invention according to the accompanying drawings.

According to the touch panel characteristic inspection method corresponding to the FPC of the various structures according to the present invention, even if the touch panel having a variety of structures and FPCs of various patterns, the characteristic inspection can be automatically performed.

Hereinafter, with reference to the accompanying drawings showing a preferred embodiment of the present invention will be described in detail, in adding reference numerals to the components of each drawing, the same components are possible even if displayed on different drawings It should be noted that the same reference numerals are used. In describing the present invention, when it is determined that the detailed description of the related known functions or configurations may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted. In addition, the terms or words used in the present specification and claims are consistent with the technical spirit of the present invention on the basis of the principle that the inventor can appropriately define the concept of the term in order to explain the invention in the best way. It must be interpreted as meaning and concept.

The present invention relates to a touch panel characteristic test for automatically checking whether the touch panel 1 is qualified and, more specifically, to a touch panel 1 property test corresponding to the FPC 2 having various structures.

To this end, in the present invention, after supplying the touch panel 1 side with the FPC 2 with a predetermined pattern (for example, the distance between the electrodes is 0.8 mm) to face the outside of the transfer means, the touch panel 1 is Sensing the end of the FPC 2 and picking up the ends of the touch panel 1 and the FPC 2 when located at the arrival point of the transfer means (S10); After feeding one side 1 ′ of the touch panel 1 picked up by the step S10 to the test stage 40 and fixing the touch panel 1 to be a reference of the test stage 40, the FPC Fixing the end of (2) to the test substrate 60 having the same pattern as the FPC 1 (S20); Inspecting and discharging the characteristics of the touch panel 1 (S30); If the touch panel (1) supplied to the transfer means of the step (S10) is a touch panel having a different pattern of FPC, the step (S40) to replace with a test substrate having a pattern corresponding thereto.

Here, the transport means may be a conventional conveyor. However, as shown in FIG. 2, it is preferable to use the conveyor 10 having a configuration that can vary the width direction of the conveyor according to the size of the touch panel 1. This is for easily sensing the end of the FPC 2 attached to the touch panel 1 as the sensing unit is provided on the outer side of the arrival point of the conveyor 10, and a slight relative to the touch panel 1 during the movement. Even if the flow is taken into account, the FPC 2 is always directed to the outside of the conveyor 10.

The sensing unit may be configured of a sensor 20 that detects when the touch panel 1 arrives at the arrival point of the conveyor 10, and a configuration 20 contacting a right angle portion of the end of the FPC 2. That is, when the touch panel 1 arrives at the arrival point of the conveyor 10, the sensor detects the FPC 2 and the FPC has a configuration 20 that abuts the right angle part of the end of the FPC 2 to pick up the end of the FPC 2. Detect the end of (2). The configuration 20 may consist of, for example, a portion 21 abutting with a right angled portion of the end of the FPC 2 and an apparatus 22 for moving it, where 21 is an intrinsic value 22 in contact with the FPC 2. The touch sensor may be further provided to stop.

And before sensing the end of the FPC (2) can be added to unfold the work of the FPC (2), which senses the end of the FPC (2) more accurately to facilitate pickup of the end of the FPC (2) To do this.

On the other hand, when the end of the FPC (2) is sensed in the same manner as described above, the end of the touch panel 1 and the FPC (2) is picked up by the adsorber 30, and then fed to the test stage 40, One side 1 ′ of the touch panel 1 is fixed to the reference point 41 of the test stage 40, and the end of the FPC 2 has the same pattern as that of the FPC 2. Secure in.

The reference point 41 of the test stage 40 is as shown in FIG. 4, and for fixing one side 1 ′ of the touch panel 1 to the reference point 41 of the test stage 40. As a method, for example, the controller for controlling the X-aligning device 51 and the Y-aligning device 52, the controller for controlling the X-aligning device 51, and the Y-aligning device 52 using the cylinder as shown in FIG. And guides 42 and 43. That is, with the X alignment device 51 driven by the X alignment device 51 controller, the X coordinate position of the touch panel 1 is placed in the guide 42, and Y driven by the Y alignment device 52 controller. The guide device 42 is guided by the alignment device 52 and positioned at the place 41 where the Y coordinate position of the touch panel 1 is a reference. At this time, the guide 43 is supported so that the Y alignment device 52 does not deviate from the reference point 41.

In addition, when one side 1 ′ of the touch panel 1 is positioned at the reference point 41 of the test stage 40 and positioned by the X alignment device 51 and the Y alignment device 52, FIG. 4. As shown in FIG. 2, the FPC 2 is positioned on the test substrate 60, and one side of the FPC 2 and one side of the touch panel 1 are fixed with an adsorption device (not shown). Carry out a characteristic test. Adsorption device is carried out to prevent shaking during the inspection of the touch panel (1).

At this time, the pattern provided on the test substrate 60 is provided vertically on the upper side of the substrate and horizontally on the left and right sides, as shown in FIG. 5, wherein the shape of the FPC 2 is “a” or It is the reverse shape, or prepared for a straight shape.

That is, if the shape of the FPC (2) is a "b" shape to make the FPC (2) in contact with the pattern provided on the left side of the test substrate 60, the opposite shape is in contact with the right side of the test substrate (60) If it is straight, it is to be in contact with the pattern provided on the upper side.

Therefore, even if the shape of the FPC 2 is different, the FPC 2 having various structures by the method of detecting and picking the end of the first FPC 2 and the test board 60 having patterns on the upper side, the left side, and the right side It is possible to inspect the characteristics of the touch panel (1). After the inspection is completed, the touch panel 1 is discharged. To discharge the touch panel 1, for example, the adsorber 30 which moves the touch panel 1 from the conveyor 10 to the test stage 40 can be used. have.

If the touch panel 1 supplied to the conveying means is a touch panel having a different pattern of FPC, the present invention may be replaced with a test substrate having a pattern corresponding thereto. If the pattern spacing of the FPC is 0.8 mm, for example, the characteristics of the touch panel 1 can be inspected using a pre-fabricated test board having 0.8 mm of upper and left and right patterns.

Although the present invention has been described in connection with the preferred embodiment, those skilled in the art will be able to easily make various changes and modifications without departing from the essential characteristics of the present invention. Therefore, the disclosed embodiments should be considered in descriptive sense only and not for purposes of limitation, and the true scope of the present invention is shown in the claims rather than the foregoing description, and all differences within the equivalent scope are included in the present invention. Should be interpreted as.

1 is a diagram illustrating an example of a touch panel with an FPC attached, which may be a variety of conventional structures in one drawing,

FIG. 2 is a view illustrating sensing of an FPC of a touch panel in a touch panel characteristic inspection method corresponding to an FPC having various structures according to an embodiment of the present invention.

3 is a view illustrating a state in which the touch panel of FIG. 2 is picked up by a pickup device;

4 is a view showing a test stage, an X, Y alignment device and a test substrate according to the present invention;

FIG. 5 is an enlarged view of the test substrate of FIG. 4.

<Description of Symbols for Major Parts of Drawings>

1: touch panel 2: FPC

10: conveyor 30: adsorber

40: test stage 51: X alignment device

52: Y alignment device 42, 43: guide

60: test board

Claims (3)

In the touch panel characteristic inspection method for automatically checking the eligibility of the touch panel, After supplying the touch panel attached to the FPC having a predetermined pattern toward the outside of the conveying means, when the touch panel is located at the arrival point of the conveying means, the end of the FPC is sensed, and the touch panel and the end of the FPC are picked up. Step S10; Feeding the touch panel picked up by the step (S10) to the test stage, and fixing one side of the touch panel as a reference of the test stage, and fixing the end of the FPC to a test substrate having the same pattern as the FPC ( S20); Inspecting and discharging characteristics of the touch panel (S30); If the touch panel supplied to the transfer means of step S10 is a touch panel having an FPC having a different pattern, replacing the test panel with a pattern corresponding thereto (S40); Touch panel characteristic inspection method corresponding to the FPC of various structures, characterized in that comprises a. The method of claim 1, The pattern of the test substrate is a touch panel characteristics inspection method corresponding to the FPC of the various structures, characterized in that each provided in the vertical to the upper side of the substrate, horizontally on the left and right sides. The method of claim 1, The step (S10) further comprises the step (S15) of removing the wrinkles of the FPC before sensing the end of the FPC touch panel characteristics test method corresponding to the FPC of the various structures.

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