KR100979382B1 - Jig and voltage applying method using the same - Google Patents

Abstract

The jig according to the present invention includes a jig lower plate on which an object to which a voltage is applied is located; A jig upper plate rotated in combination with one end of the jig lower plate; And a connection terminal formed at the other end of the jig upper plate and contacting the terminal formed on the object to apply a voltage. It includes.

In addition, the voltage application method using a jig according to the present invention comprises the steps of placing the object to be applied for voltage on the jig lower plate; Rotating the upper jig plate coupled to one end of the lower jig plate to contact the connecting terminal formed at the other end of the upper jig plate with the terminal formed at the object; And applying a voltage to the terminal of the object through the contact terminal of the jig upper plate. It includes.

According to the present invention, there is an advantage that the bias voltage and the test voltage can be stably applied to the liquid crystal display panel.

Description

Jig and voltage applying method using the same

1 is a view schematically showing the shape of a terminal for applying a driving signal formed in a general liquid crystal display panel.

2 is a view conceptually showing the shape of a conventional jig for applying a voltage to a liquid crystal display panel.

3 is a view for explaining a method of applying a voltage to the liquid crystal display panel using a conventional jig.

4 is a view conceptually showing the shape of a jig according to the present invention for applying a voltage to a liquid crystal display panel.

5 is a view for explaining a method of applying a voltage to the liquid crystal display panel using a jig according to the present invention.

<Explanation of symbols for the main parts of the drawings>

401 ... jig bottoms 403 ... jig tops

405 ... Terminal 410 ... Jig

501 ... lower board 502 ... upper board

510 ... LCD panel 520 ... Terminal

The present invention relates to a jig (JIG) for stably applying a bias voltage and a test voltage to a liquid crystal display panel and a voltage application method using the same.

In general, the CRT (or CRT: Cathode Ray Tube) has been the most used screen display device for displaying image information on the screen, which is inconvenient to use because it is bulky and heavy compared to the display area. Followed.

Accordingly, a thin film type flat panel display device having a small display area that can be easily used in any place even though the display area is large has been developed, and is gradually replacing the CRT display device. In particular, liquid crystal displays (LCDs) exhibit superior display resolutions than other flat panel displays, and exhibit fast response speeds in comparison with CRTs when implementing moving images.

As is known, the driving principle of the liquid crystal display device utilizes the optical anisotropy and polarization properties of the liquid crystal. Since the liquid crystal is thin and long in structure, the direction of the molecular arrangement can be controlled by artificially applying an electromagnetic field to the liquid crystal molecules having directionality and polarization in the molecular arrangement. Therefore, if the alignment direction is arbitrarily adjusted, light may be transmitted or blocked according to the alignment direction of the liquid crystal molecules by optical anisotropy of the liquid crystal, thereby displaying colors and images.                         

The active matrix liquid crystal display device adds an active element having a nonlinear characteristic to each pixel arranged in a matrix form, and controls the operation of each pixel by using the switching characteristics of the element. The memory function is implemented through.

In general, a manufacturing process of a liquid crystal display device includes a process of preparing a lower substrate as a thin film transistor array substrate, a process of preparing an upper substrate as a color filter array substrate, and a process of bonding the upper substrate and the lower substrate to each other. The process of injecting the liquid crystal, attaching the polarizing plate to the outer surfaces of the two bonded substrates, the module process and the like proceed in order.

In manufacturing a liquid crystal display device, a bare chip which is an electronic component which actually inspects a short circuit, display characteristics, etc. of signal lines provided in the liquid crystal display panel, and actually supplies driving signals only to the liquid crystal display panel that has passed the inspection. And so on. In addition, the inspection of the liquid crystal display panel is performed before attaching the polarizing plates to the outer surfaces of the two bonded substrates.

On the other hand, a scan line terminal and a data line terminal for driving signal application are formed in the liquid crystal display panel. In general, the scan line terminals are formed in the first direction edge region of the liquid crystal display panel, and the data line terminals are formed in the second direction edge region of the liquid crystal display panel. FIG. 1 is a view schematically illustrating a shape of a terminal for applying a driving signal formed in a general liquid crystal display panel. 1 illustrates only a partial region of the terminal 120 formed at one edge of the liquid crystal display panel 110 for convenience. Here, reference numeral 101 denotes a lower substrate and 102 denotes an upper substrate, respectively.

A jig as shown in FIG. 2 is used to apply a voltage for characteristic inspection or a bias voltage for securing stability to the liquid crystal display panel provided with the scan line terminal and the data line terminal. 2 is a view conceptually showing the shape of a conventional jig for applying a voltage to a liquid crystal display panel.

In the conventional jig 200, as shown in FIG. 2, a connection terminal 210 for contacting a scan line terminal or a data line terminal formed in a liquid crystal display panel is formed. 2 shows only some connection terminals 210 formed at one edge of the jig 200 for convenience, and the connection terminals 210 are formed at positions corresponding to terminals (scanning terminal and data line terminals) formed in the liquid crystal display panel. do. In addition, the jig 200 includes a bare chip (not shown) for supplying a driving signal to the scan line terminal or the data line terminal of the liquid crystal display panel through the connection terminal 210.

On the other hand, the connection terminal 210 formed on the jig 200 is brought into contact with the data line terminal or the scan line terminal formed on the liquid crystal display panel to be inspected, and has the same pitch as that of the data line terminal or the scan line terminal. pitch).

Next, a method of applying a voltage to the liquid crystal display panel using such a jig will be briefly described with reference to FIG. 3. 3 is a view for explaining a method of applying a voltage to the liquid crystal display panel using a conventional jig.

Conventionally, as shown in FIG. 3, the connection terminal 210 moves the liquid crystal display panel 110 downward from the top of the jig 200 provided on the upper surface thereof, thereby connecting the connection terminal 210 formed on the jig 200. The terminal 120 of the liquid crystal display panel is brought into contact with each other. Accordingly, a test voltage or a bias voltage can be applied to each terminal 120 of the liquid crystal display panel 110 through the connection terminal 210 of the jig 200.

However, when connecting the terminal 120 of the liquid crystal display panel 110 and the contact terminal 210 of the jig 200 through the above method, the terminal 120 of the liquid crystal display panel 110 Since it is formed in the downward direction, it is difficult to align and contact in a desired position. Accordingly, there is a problem that a large number of contact failures occur between the contact terminal 210 of the jig 200 and the terminal 120 of the liquid crystal display panel 110. In addition, a scratch may occur in the liquid crystal display panel 110 by the contact terminal 210 formed in the jig 200.

This problem has a greater effect as the interval between pitches of the pads constituting the contact terminal 210 of the jig 200 and the terminal 120 of the liquid crystal display panel 110 becomes smaller. .

An object of the present invention is to provide a jig capable of stably applying a bias voltage and a test voltage to a liquid crystal display panel and a voltage application method using the jig.

In order to achieve the above object, the jig according to the present invention,

A jig lower plate on which an object to which a voltage is applied is located;                     

A jig upper plate rotated in combination with one end of the jig lower plate; And

A connection terminal formed at the other end of the jig upper plate and contacting a terminal formed on the object to apply a voltage; Its features are to include.

In addition, the voltage application method using a jig according to the present invention to achieve the above object,

Placing an object on the jig lower plate for voltage application;

Rotating the upper jig plate coupled to one end of the lower jig plate to contact the connecting terminal formed at the other end of the upper jig plate with the terminal formed at the object; And

Applying a voltage to a terminal of the object through a contact terminal of the jig upper plate; Its features are to include.

According to the present invention, there is an advantage that the bias voltage and the test voltage can be stably applied to the liquid crystal display panel.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

4 is a diagram conceptually illustrating a shape of a jig according to the present invention for applying voltage to a liquid crystal display panel.

As shown in FIG. 4, the jig 410 according to the present invention includes a jig lower plate 401 in which an object to which a voltage is applied is located, and a jig upper plate 403 which is rotated in combination with one end of the jig lower plate 401. And a connection terminal 405 formed at the other end of the jig upper plate 403 and contacting a terminal formed on the object to apply a voltage.                     

Here, one end (see A region) to which the jig lower plate 401 and the jig upper plate 403 are coupled may be formed in a hinge structure, such that the jig upper plate 403 may be smoothly rotated. In addition, the jig lower plate 401 and the jig upper plate 403 may be formed of an elastic material, thereby facilitating control of up / down movement.

Next, a method of applying a voltage to the liquid crystal display panel using the jig according to the present invention will be described with reference to FIG. 5. 5 is a view for explaining a method of applying a voltage to the liquid crystal display panel using a jig according to the present invention.

First, as shown in FIG. 5, the target object for voltage application is positioned on the jig lower plate 401. Here, the liquid crystal display panel 510 will be described as an example as an object to which a voltage is applied.

The liquid crystal display panel 510 includes an upper substrate 502 and a lower substrate 501, and a terminal 520 is formed to apply a voltage. The terminal 520 is formed to have a predetermined pitch and includes a scan line terminal and a data line terminal for applying a driving signal.

Subsequently, the jig upper plate 403 rotated by being combined with one end of the jig lower plate 401 is rotated to connect the connection terminal 405 and the liquid crystal display panel 510 formed at the other end of the jig upper plate 403. The terminal 520 formed is brought into contact with each other. At this time, the pitch of the connecting terminal 405 of the jig upper plate 403 and the pitch of the terminal 520 of the liquid crystal display panel 510 are formed at equal intervals.

Accordingly, while checking the position and pitch spacing of the terminals 520 formed on the liquid crystal display panel 510, the connection terminals 405 formed on the jig upper plate 403 are aligned with the terminals 520. Can be contacted with.

In this contact state, a voltage is applied to the terminal 520 of the liquid crystal display panel 510 through the contact terminal 405 of the jig upper plate 403. In this case, a driving signal for testing an operating state of the liquid crystal display panel 510 may be applied to the voltage applied to the terminal 520 of the liquid crystal display panel 510. In addition, a bias voltage for securing stability of the liquid crystal display panel 510 may be applied to the voltage applied to the terminal 520 of the liquid crystal display panel 510.

When a voltage is applied to an object, for example, a liquid crystal display panel using a jig according to the present invention, there are advantages as follows.

1. It is possible to prevent a large number of poor contact that occurs when using a conventional jig when applying voltage.

2. Since the terminal is located above the object, it is possible to prevent scratches and short circuits between terminals due to poor contact.

3. It is possible to prevent the object, for example, the glass substrate of the liquid crystal display panel, from being damaged by the contact terminal.

4. Since the work can be carried out while visually confirming the position of the terminal, even if the pitch of the actual terminal is small, for example, even if the pitch interval is 2 mm or less, the position alignment between the terminals can be precisely performed.

 As described above, according to the jig and the voltage application method using the same according to the present invention, there is an advantage that the bias voltage and the test voltage can be stably applied to the liquid crystal display panel.

In addition, according to the present invention, by maintaining the contact between the pin of the jig for applying a voltage and the liquid crystal display panel terminal accurately and stably, it is possible to prevent the occurrence of scratches and short-circuit generated in the liquid crystal display panel. There are advantages to it.

Claims (8)

A jig lower plate on which an object to which a voltage is applied is located; A jig upper plate coupled to one end of the jig lower plate; And And a connection terminal formed at the other end of the jig upper plate and contacting the terminal formed on the object to apply a voltage. The jig | tool of the said jig upper board contacts with the terminal of the said to-be-connected object by rotation of the said jig upper board. The method of claim 1, Jig, characterized in that the hinge is further provided at one end of the jig lower plate and jig upper plate is coupled. The method of claim 1, The jig top plate and the jig bottom plate is jig, characterized in that formed of a resilient material. The method of claim 1, A jig, wherein the pitch formed at the connecting terminal of the jig and the pitch formed at the terminal of the object are equally spaced. Placing an object on the jig lower plate for voltage application; Rotating the jig upper plate coupled to one end of the jig lower plate to contact the connection terminal formed at the other end of the jig upper plate with the terminal formed at the object; And And applying a voltage to the terminal of the object through the connection terminal of the jig upper plate. The jig upper plate is rotated by a hinge provided at one end of the jig lower plate and the jig upper plate is coupled, voltage applying method using a jig. The method of claim 5, The pitch formed in the connection terminal and the pitch formed in the terminal of the object are equal intervals. The method of claim 5, And the voltage applied to the terminal of the object is a drive signal capable of testing the operation state of the object. The method of claim 5, The voltage applied to the terminal of the object is a voltage application method using a jig, characterized in that the bias voltage for ensuring the stability of the object.

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