JP4417793B2 - Wiring board - Google Patents

Description

  The present invention relates to a wiring board suitable for conducting an energization test on a connected drive device.

  Conventionally, for example, a driving device such as a liquid crystal display panel and an external circuit such as a circuit board are electrically connected via a flexible wiring board such as COF (Chip on Film).

  Such a flexible wiring board has a plurality of conductors provided on one surface of a base substrate, and each conductor is covered with a cover substrate.

  One end of each conductor serves as a circuit side connection terminal for connection to an electrode of a circuit board (not shown), and a circuit side connection opening that exposes each circuit side connection terminal penetrates the base substrate and the cover substrate. It is provided to do. The other end of each conductor is a panel side connection terminal for connecting to an electrode of a liquid crystal display panel (not shown), and a panel side connection opening for exposing each panel side connection terminal is provided in the cover base material. ing.

  In such a flexible wiring board, for example, after electrically connecting the panel side connection terminal of each conductor exposed from the panel side connection opening to the electrode of the liquid crystal display panel, before connecting the flexible wiring board to the circuit board In addition, there has been a case where a lighting inspection of a liquid crystal display panel is performed. In this case, the lighting inspection of the liquid crystal display panel is performed by bringing the lighting inspection pins into contact with the circuit side connection terminals of the respective conductors exposed from the circuit side connection openings and energizing the respective conductors.

  Further, after connecting the flexible wiring board to the liquid crystal display panel and further electrically connecting the circuit side connection terminals of the respective conductors and the electrodes of the circuit board by soldering, a display defect of the liquid crystal display panel may be found. In such a case, in order to investigate the cause of the display defect, it is known to perform a lighting inspection of the liquid crystal display panel by removing the flexible wiring board from the circuit board and energizing each conductor of the flexible wiring board. ing.

  However, according to the flexible wiring board as described above, when the lighting inspection of the liquid crystal display panel is performed before the flexible wiring board is connected to the circuit board, the lighting inspection pins are brought into contact with the circuit side connection terminals of the respective conductors. Sometimes, each circuit side connection terminal may be damaged. Further, the circuit side connection opening is formed so that the base substrate and the cover substrate pass through, and each circuit side connection terminal is exposed and exposed. There was a problem that it was difficult to handle the wiring board.

  Further, when the flexible wiring board connected to the circuit board is removed from the circuit board and the lighting inspection is performed as described above, each circuit side connection terminal is exposed from the base base material and the cover base material. In many cases, the circuit side connection terminal is disconnected when removing. If even one conductor is cut in this way, it becomes impossible to energize the cut conductor, and as a result, a lighting inspection of the liquid crystal display panel can be performed in order to investigate the cause of display failure. It was difficult.

  The present invention has been made in view of these points, and is a wiring board that electrically connects an external circuit such as a circuit board and a driving device to a liquid crystal display panel or the like, and performs an energization test on the driving device. Provided is a wiring board that prevents a connection terminal of a conductor from being connected to an external circuit from being damaged, and that can perform an energization test on a drive device even when the connection terminal is cut. With the goal.

In order to achieve the object, the wiring board according to the first aspect of the present invention is characterized in that a plurality of conductors are provided on a base substrate, and the conductors are covered with a cover substrate. In the wiring board in which the connection opening exposing the conductor is provided in at least one of the conductors, the conductor is at a position that is one of the two base materials and does not overlap with the connection opening in a planar shape. inspection hole for exposing is provided, said inspection holes are in longitudinal examination is closed by a removable protective means, Ru is an exposed state is removed removable protective means at the time of inspection In the point.

  According to the first aspect of the present invention, after the other end portion of the wiring board is connected to the driving device and before the one end portion of the wiring board is connected to the external circuit, the energization inspection of the driving device is performed. Each conductor can be energized by bringing a lighting inspection pin into contact with the conductor exposed through the inspection hole.

In addition, after connecting the other end of the wiring board to the drive unit and connecting one end of the wiring board to the external circuit, the wiring board is removed from the external circuit and the drive unit is Even in the case of performing an inspection, it is possible to perform an energization inspection of the drive device by energizing each conductor through the conductor exposed through the inspection hole. Further, the inspection hole can be used as necessary by closing the inspection hole with a removable protective means. Furthermore, even when used in a high humidity environment, moisture and foreign matter can be prevented from entering the conductor. As a result, it is possible to prevent the conductor exposed through the inspection hole from being corroded.

Further, the wiring board according to a second aspect of the invention is characterized in that the removable protection means is a seal or a tape .

  Furthermore, the wiring board according to the invention described in claim 3 is characterized in that the surface of the conductor exposed by the inspection hole is plated.

  According to the third aspect of the present invention, the surface of the conductor exposed by the inspection hole is subjected to a plating treatment such as nickel and gold, so that the conductor can be energized while being energized. It is possible to protect the exposed portion and prevent the conductor from being defective.

  As described above, according to the wiring board of the present invention, it is possible to perform an energization inspection without bringing the inspection pins into contact with the conductor connection terminals, and to perform an energization inspection without damaging the connection terminals. It becomes possible.

  Further, the surface opposite to the surface of the conductor exposed by the inspection hole is covered with any base material, and the conductor is not in a state of being exposed from the base material. Has the effect of easy handling.

  Hereinafter, an embodiment of a wiring board according to the present invention will be described with reference to FIGS. Here, in the present embodiment, a description will be given using a flexible wiring board for electrically connecting a circuit board and a liquid crystal display panel as the wiring board.

  FIG. 1 is a schematic plan view showing a flexible wiring board according to the present embodiment, and FIG. 2 is a schematic cross-sectional view taken along line AA of FIG.

  As shown in FIG. 1, a flexible wiring board 1 has a long base material 2 made of a flexible material such as polyimide, and a conductive material such as copper is formed on one surface of the base material 2. A plurality of conductors 3 are provided by patterning. Furthermore, a flexible cover base 4 made of a resin material or the like is provided so as to cover each conductor 3.

  Both end portions of the flexible wiring board 1 are formed wider in width than the central portion, and the portions where the width dimensions are formed are connected to a circuit board and a liquid crystal display panel (not shown), respectively. Parts 5 and 6.

  A circuit-side connection opening 7 exposing one end of the conductor 3 penetrates the base substrate 2 and the cover substrate 4 in the base substrate 2 and the cover substrate 4 in the one connection portion 5 of the flexible wiring board 1. It is provided to do. A portion of each conductor 3 exposed from the circuit side connection opening 7 is a circuit side connection terminal 8, and the circuit side connection terminal 8 is exposed from the base base material 2 and the cover base material 4. . The circuit side connection terminal 8 is electrically connected to the electrode of the circuit board by soldering or the like.

  In order to energize each conductor 3 in the base substrate 2 in one connection portion 5 at a position opposite to the edge of the flexible wiring board 1 through the circuit side connection opening 7. Inspection holes 10 for exposing the respective conductors 3 from the base substrate 2 are provided corresponding to the respective conductors 3. A portion exposed from each inspection hole 10 in each conductor 3 is an inspection portion 11, and an opposite surface of the inspection portion 11 in each conductor 3 is covered with a cover base material 4.

  In the present embodiment, each inspection hole 10 is formed so that the planar shape is circular, but the shape of the inspection hole 10 is not limited to the shape of the present embodiment. Each inspection hole 10 is formed in the base substrate 2 in the connection portion 5 of the flexible wiring board 1, but is limited to the present embodiment as long as it does not overlap with the circuit side connection opening 7. is not. For example, the inspection hole 10 may be formed in the cover base 4, and the formation position of the inspection hole 10 may not be the connection portion 5.

  In the present embodiment, one connecting portion 5 of the flexible wiring board 1 has a length dimension of 12 mm from the edge of the flexible wiring board 1 in the length direction of the flexible wiring board 1, as shown in FIG. A width dimension of 63 mm is formed in the width direction of the substrate 1. Further, the circuit side connection terminal 8 of each conductor 3 is formed with a width dimension of 0.4 mm. Furthermore, the opening edge on the edge side of the flexible wiring board 1 in the circuit side connection opening 7 is arranged at a position of 1.3 mm in the length direction from the edge, and the circuit side connection opening 7 has the length It is formed with a dimension of 4 mm in the direction and 61 mm in the width direction. Further, each inspection hole 10 is formed with a diameter of 0.4 mm.

  The panel base connection opening 15 that exposes the end of each conductor 3 from the cover base material 4 is connected to the cover base material 4 in the other connection portion 6 in order to connect each conductor 3 and an electrode of a liquid crystal display panel (not shown). The portion exposed from the panel-side connection opening 15 in each conductor 3 is a panel-side connection terminal 16. The panel side connection terminal 16 is electrically connected to each electrode of the liquid crystal display panel using a conductive adhesive such as ACF.

  Next, the operation of this embodiment will be described.

  In this embodiment, after connecting the panel side connection terminal 16 to the electrode of the liquid crystal display panel using ACF or the like and before connecting the circuit side connection terminal 8 to the electrode of the circuit board, for example, the liquid crystal display panel When the lighting inspection is performed, each conductor 3 can be energized by bringing a lighting inspection pin into contact with the inspection portion 11 of the conductor 3.

  Further, in order to pursue the cause of the display defect after connecting the panel side connection terminal 16 of each conductor 3 to the electrode of the liquid crystal display panel and further connecting the circuit side connection terminal 8 of each conductor 3 to the electrode of the circuit board, Even when the flexible wiring board 1 is detached from the circuit board and the lighting inspection of the liquid crystal display panel is performed, the lighting inspection of the liquid crystal display panel can be performed by energizing each conductor 3 through the inspection unit 11. .

  Therefore, according to the flexible wiring board 1 according to the present embodiment, the lighting inspection of the liquid crystal display panel can be performed without bringing the lighting inspection pins into contact with the circuit side connection terminals 8 of the respective conductors 3. It becomes possible to perform a lighting inspection without damaging 8.

  Further, the opposite surface of each conductor 3 to the inspection portion 11 is covered with the cover base material 4, and the inspection portion 11 of each conductor 3 is not exposed from the base base material 2 and the cover base material 4. The flexible wiring board 1 can be easily handled during the lighting inspection.

  Further, when the flexible wiring board 1 is removed from the circuit board, even if the circuit side connection terminal 8 of the conductor 3 is cut, a lighting inspection pin is brought into contact with the inspection portion 11 of each conductor 3 to thereby connect each conductor 3. It is possible to perform a lighting test of the liquid crystal display panel by energizing the power supply.

  4 is a schematic plan view showing another embodiment of the wiring board according to the present invention, FIG. 5 is a schematic cross-sectional view taken along the line BB of FIG. 4, and as shown in FIGS. In the flexible wiring board 1, each inspection hole 10 is preferably sealed with a protective means 13 such as a seal, a tape, or a removable insulating thin film.

  As described above, the inspection holes 10 can be used as necessary by closing the inspection holes 10 with the removable protective means 13. Further, even when used in a high humidity environment, it is possible to prevent moisture and foreign matter from entering the inspection portion 11 of each conductor 3. Thereby, it can prevent that the test | inspection part 11 will corrode.

  Furthermore, it is preferable that the surface of the inspection portion 11 of each conductor 3 is plated using nickel, gold, or the like.

  Thus, by plating the surface of the inspection portion 11 of each conductor 3, the surface of the inspection portion 11 of each conductor 3 can be protected while the conductor 3 can be energized. 3 can be prevented from being defective.

  In addition, this invention is not limited to the said embodiment, A various change is possible as needed.

  For example, in the above-described embodiment, the inspection hole 10 is provided in the vicinity of the circuit side connection opening 7, but is not limited thereto, and may be formed in the vicinity of the panel side connection opening 15.

  Moreover, although the other end part of the flexible wiring board 1 of this embodiment is connected to a liquid crystal display panel, it is not limited to this, Even if it connects to another display panel In addition, various drive devices may be connected.

Schematic plan view showing a wiring board according to the present invention Typical sectional drawing in the AA line of FIG. Schematic enlarged view showing the connection portion on the circuit board side in FIG. Schematic plan view showing a wiring board according to another embodiment of the present invention. Typical sectional drawing in the BB line of FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Flexible wiring board 2 Base base material 3 Conductor 4 Cover base material 5 and 6 Connection part 7 Circuit side connection opening 8 Circuit side connection terminal 10 Inspection hole 11 Inspection part 13 Covering means 15 Panel side connection opening 16 Panel side connection Terminal

Claims (3)

A wiring substrate in which a plurality of conductors are provided on a base substrate, the conductor is covered with a cover substrate, and at least one of the substrates is provided with a connection opening for exposing the conductor. In
An inspection hole that exposes the conductor is provided at a position that does not overlap the connection opening in a planar shape in either one of the two base materials ,
Wiring board the inspection holes, before and after testing are closed by protective means removable, it is an exposed state is removed the removable protective means at the time of inspection, wherein Rukoto. The wiring board according to claim 1, wherein the removable protection means is a seal or a tape .   The wiring board according to claim 1, wherein the surface of the conductor exposed by the inspection hole is plated.