JP4701657B2 - Display panel lighting inspection method and lighting inspection apparatus - Google Patents

Description

  The present invention relates to a lighting inspection method and a lighting inspection device for a display panel that performs lighting inspection by inputting a lighting signal to the display panel before the driving circuit is mounted on a display panel such as a liquid crystal display or a plasma display. Is.

  Generally, a display panel such as a liquid crystal display or a plasma display is manufactured by mounting a driving circuit on the panel. In the manufacturing process, in order to prevent the defective panel from flowing out into the mounting process, a lighting signal is input to the panel before mounting the driving circuit, and a person performs a lighting inspection visually.

  Conventionally, it has been known to use a probe pin for lighting inspection for lighting inspection of a display panel. Instead of this probe pin for lighting inspection, a flexible printed circuit (FPC) used for connection between a circuit board and a panel is known. It is also conceivable to use the electrode formed in (2) as a contact (probe) for lighting inspection (see, for example, Patent Document 1).

  A conventional display panel lighting inspection apparatus will be described below with reference to FIG. 5 showing the overall configuration and FIG. 6 showing a partial configuration.

  In FIG. 5, reference numeral 1 denotes a display panel, and terminal electrodes are formed on the peripheral edge of the display panel 1. The display panel 1 is placed at a predetermined position on the panel receiving means 3 provided on the entire base 2. Further, a panel holding means 4 is attached to the entire base 2 to hold the display panel 1 and the panel receiving means 3, and a lighting signal applying means 5 is disposed on the short side of the display panel 1, and the display panel On the long side of 1, lighting signal applying means 6 is arranged.

  FIG. 6 is a configuration diagram in the vicinity of the portion where the lighting signal applying means 5 is arranged, and the portion where the lighting signal applying means 6 is arranged also has the same configuration. In FIG. 6, 7 is a lighting signal generating means for lighting the display panel 1, and the signal generated by the lighting signal generating means 7 is supplied to the display panel 1 by the signal transmission means 8. The end of the signal transmission means 8 is fixed at a predetermined position of the lighting signal application means 5, and the end of the signal transmission means 8 is configured to contact the terminal electrode of the display panel 1 and hold the state. ing.

Next, the operation will be described with reference to FIGS. When the display panel 1 to be inspected for lighting is mounted on the panel holding means 4 and inspected for lighting, the lighting signal applying means 5 and 6 are moved away from the panel receiving means 3 and the display panel 1 is mounted on the panel receiving means 3. Then, the lighting signal applying means 5 and 6 are moved in a direction approaching the display panel 1. Thereafter, the signal transmitting means 8 is pressed against the terminal electrode of the display panel 1 by the lighting signal applying means 5 and 6. Then, a signal from the lighting signal generating means 7 is applied to the terminal electrode of the display panel 1, the display panel 1 is turned on, and a lighting test is performed.
JP 2004-170242 A

  By the way, after the display panel 1 is turned on, the presence or absence of erroneous lighting due to a connection failure between the signal transmission means 8 and the terminal electrode of the display panel 1 is checked. If erroneous lighting occurs, the signal supply is stopped and connection adjustment is performed. After this, it is necessary to supply signals again and confirm the normal lighting before setting each signal for the lighting test. In particular, when adjacent terminal electrodes are short-circuited due to a connection failure, the signal supply must be stopped immediately upon application of a signal in order to prevent the lighting signal generating means 7 from being damaged.

  However, when considering lighting images of the display panel 1 with a camera and automating the lighting inspection by performing image processing, a connection failure between the signal transmission means 8 and the terminal electrodes of the display panel 1, particularly adjacent to each other. When detecting a short circuit between the terminal electrodes, it is necessary to set a proper signal for recognizing an image, and it takes time for image processing, so that the lighting signal generating means 7 is expected to be damaged. Therefore, the human intervention ratio is very large and it is difficult to automate.

  As a result, it has become difficult to automate the display panel lighting inspection, which has required a great deal of cost.

  The present invention has been made to solve such a problem, and the lighting signal generating means 7 causes a short circuit between adjacent terminal electrodes due to a connection failure between the signal transmitting means 8 and the terminal electrodes of the display panel 1. An object is to detect automatically before breakage and to enable an automatic lighting inspection of the display panel 1.

In order to achieve the above object, a display panel lighting inspection method according to the present invention includes a lighting signal generating means for lighting a display panel, and a signal transmission for transmitting a signal from the lighting signal generating means to the display panel. A lighting inspection method using a lighting inspection device having a means for supplying a signal when the signal transmission means is brought into contact with a terminal electrode of the display panel to supply a signal and perform a lighting inspection. A temperature change of the lighting signal generating means is detected, and a short circuit between adjacent terminal electrodes due to a connection failure between the signal transmitting means and the terminal electrode of the display panel is detected.

The display panel lighting inspection device of the present invention includes a lighting signal generating means for lighting the display panel, a signal transmitting means for transmitting a signal from the lighting signal generating means to the display panel, and the signal transmission. Contact connecting means for contacting the terminal electrode of the display panel, temperature detecting means for detecting the temperature of the lighting signal generating means, the signal transmitting means and the display panel based on the temperature detected by the temperature detecting means And a lighting inspection control means for controlling the lighting signal generating means by detecting a short circuit between adjacent terminal electrodes due to a connection failure with the terminal electrode.

  ADVANTAGE OF THE INVENTION According to this invention, in the lighting test | inspection of a display panel, automation of a lighting test | inspection can be achieved in the form which suppressed human intervention as much as possible.

The invention according to claim 1 of the present invention is a lighting inspection apparatus having a lighting signal generating means for lighting a display panel and a signal transmitting means for transmitting a signal from the lighting signal generating means to the display panel. A lighting inspection method using the lighting signal generation means generated by supplying the signal when the signal transmission means is brought into contact with the terminal electrode of the display panel to supply the signal and perform the lighting inspection. A display panel lighting inspection method characterized by detecting a temperature change and detecting a short circuit between adjacent terminal electrodes due to a connection failure between the signal transmission means and the terminal electrode of the display panel.

According to a second aspect of the present invention, there is provided a lighting signal generating means for lighting the display panel, a signal transmitting means for transmitting a signal from the lighting signal generating means to the display panel, and the signal. Contact connection means for bringing the transmission means into contact with the terminal electrodes of the display panel; temperature detection means for detecting the temperature of the lighting signal generation means; and the signal transmission means and the display based on the temperature detected by the temperature detection means A lighting inspection control device for a display panel, comprising: lighting inspection control means for detecting a short circuit between adjacent terminal electrodes due to a connection failure with a terminal electrode of the panel and controlling the lighting signal generating means.

  The invention described in claim 3 is the invention described in claim 2, characterized in that a thermocouple is used as the temperature detecting means.

  The invention according to claim 4 is the invention according to claim 2, wherein a radiation thermometer is used as the temperature detecting means.

  Hereinafter, an embodiment of the present invention will be described with reference to the drawings. In the drawings, the same parts as those shown in FIGS. 5 and 6 are denoted by the same reference numerals.

  FIG. 1 is a schematic configuration diagram showing an end portion of a display panel when a lighting signal is supplied in a lighting test of the display panel according to an embodiment of the present invention. For example, in a display panel 1 such as a plasma display panel (PDP), a plurality of electrodes 11 are formed in directions orthogonal to each other on the opposing surfaces of a pair of substrates 9 and 10 arranged opposite to each other. A plurality of terminal electrode blocks 13 having a plurality of terminal electrodes 12 formed by extending the electrodes 11 are arranged at the peripheral end portions of the substrates 9 and 10, and a lighting signal is sent to each terminal electrode block 13. The signal transmission means 8 for supply is held in contact. The signal transmission means 8 is composed of a flexible printed wiring board (FPC) in which a conductive pattern 15 such as a copper foil is formed between the insulating films 14, and exposes the tip of the conductive pattern 15 from the insulating film 14. Thus, an extraction electrode 16 is provided for making electrical contact with each of the terminal electrodes 12 formed on the end portions of the substrates 9 and 10.

  Next, a display panel lighting inspection apparatus according to an embodiment of the present invention will be described with reference to FIG. 2 showing the overall configuration and FIG. 3 showing a partial configuration.

  As shown in FIG. 2, panel receiving means 3 for placing the display panel 1 to be inspected for lighting is provided on the entire base 2. Further, a panel holding means 4 is attached to the entire base 2 to hold the display panel 1 and the panel receiving means 3, and a lighting signal applying means 5 is disposed on the short side of the display panel 1, and the display panel On the long side of 1, lighting signal applying means 6 is arranged. The lighting signal applying means 5 is movable in the direction of the arrow 17, and the lighting signal applying means 6 is movable in the direction of the arrow 18. The lighting signal applying means 5 and the lighting signal applying means 6 are each connected to a lighting inspection control means 19. In addition, a camera (imaging unit) 20 for capturing a lit image is disposed above the display panel 1, and the camera 20 is connected to an image processing unit 21 that performs image processing on the captured image. The means 21 is connected to the lighting inspection control means 19.

  FIG. 3 is a configuration diagram in the vicinity of the portion where the lighting signal applying means 5 is arranged, and the portion where the lighting signal applying means 6 is arranged also has the same configuration. In FIG. 3, the panel receiving means 3 holds a lighting signal generating means 7 for lighting the display panel 1, and a lighting inspection control means 19 is connected to the lighting signal generating means 7. The signal generated by the lighting signal generation means 7 is supplied to the display panel 1 by the signal transmission means 8. The end of the signal transmission means 8 is fixed to the holding means 22, so that the end of the signal transmission means 8 is at a height at which the extraction electrode 16 of the signal transmission means 8 and the terminal electrode 12 of the display panel 1 can contact each other. Retained. In addition, contact connection means 23 is provided for bringing the extraction electrode 16 of the signal transmission means 8 and the terminal electrode 12 of the display panel 1 into contact with each other and maintaining the state. The presser unit 23a and the receiving unit 23b are pivotally supported so as to be. By pressing the signal transmission means 8 against the display panel 1 by the presser unit 23a and the receiving unit 23b, the state in which the extraction electrode 16 of the signal transmission means 8 is in contact with the terminal electrode 12 of the display panel 1 is maintained. Yes. The holding means 22 and the contact connection means 23 constitute the lighting signal applying means 5. Further, a thermocouple 24 which is a temperature detecting means for detecting the temperature is mounted on the surface of the lighting signal generating means 7, and the thermocouple 24 is connected to the detected temperature feedback means 25 in the lighting inspection control means 19. It is connected.

  As shown in FIG. 3, in the lighting signal application unit 5, the signal transmission unit 8 is configured to contact the display panel 1 from below to above. This is because when the lighting inspection is performed, the terminal electrode 12 faces downward on the short side of the display panel 1 and the terminal electrode 12 faces upward on the long side of the display panel 1. The signal transmission means 8 is configured to contact the display panel 1 from above to below.

  Next, a method for performing a lighting inspection of the display panel 1 using this lighting inspection device will be described.

  First, after placing the display panel 1 to be inspected on the panel receiving means 3 with the lighting signal applying means 5 and 6 away from the panel receiving means 3, the lighting signal applying means 5 and 6 approach the display panel 1. Move in the direction. Thereafter, the end portion of the display panel 1 and the end portion of the signal transmission means 8 are sandwiched between the presser unit 23 a and the receiving unit 23 b of the contact connecting means 23. Thereby, the extraction electrode 16 of the signal transmission means 8 contacts the terminal electrode 12 of the display panel 1 and is electrically connected. Then, a signal (lighting signal) from the lighting signal generating means 7 is supplied to the terminal electrode 12 of the display panel 1 to light the display panel 1.

  When the display panel 1 is turned on, a signal from the thermocouple 24 is first received by the detected temperature feedback means 25 to detect the temperature of the lighting signal generating means 7, and the temperature of the lighting signal generating means 7 before the lighting signal is supplied. The lighting inspection control means 19 determines whether or not the temperature rises within a predetermined range. At this time, if the adjacent terminal electrodes 12 are short-circuited due to a connection failure between the signal transmitting means 8 and the terminal electrodes 12 of the display panel 1, the lighting signal generating means 7 generates heat and thus exceeds a predetermined temperature rise range. become. At that time, the lighting inspection control means 19 controls the lighting signal generation means 7 to immediately stop the supply of the lighting signal and issue an alarm. Further, if the temperature rise of the lighting signal generation means 7 is within a predetermined range, each signal setting for performing the lighting inspection is performed, a lighting image is taken by the camera 20, and the image processing means 21 is taken by the camera 20. The lighting image is inspected by performing image processing on the image. If a connection failure other than a short circuit is detected by the image processing means 21, an alarm is issued and readjustment is performed, and then a lighting inspection is performed again. If a defect is detected by the image processing means 21, it is determined as a defective product. .

  As described above, the temperature change of the lighting signal generation means 7 caused by supplying the lighting signal is detected, and the contact state between the signal transmission means 7 and the terminal electrode 12 of the display panel 1 is detected. Thereby, when the adjacent terminal electrodes 12 are short-circuited due to a connection failure between the extraction electrode 16 of the signal transmission means 8 and the terminal electrode 12 of the display panel 1, the short-circuit is caused before the lighting signal generation means 7 is damaged. Can be automatically detected. For this reason, the lighting inspection of the display panel can be automated except for the adjustment of connection failure, and the cost can be reduced.

  In the present embodiment, the case where the thermocouple 24 is used as the temperature detecting means of the lighting signal generating means 7 has been described. However, as another embodiment, a lighting signal is obtained using a radiation thermometer 26 as shown in FIG. The temperature of the generating means 7 may be detected. The configuration shown in FIG. 4 is the same as the configuration shown in FIG. 3 except that a radiation thermometer 26 is used instead of the thermocouple 24. By using the lighting inspection device of FIG. 4, it is possible to detect the infrared radiation amount of the lighting signal generating means 7 and to detect the temperature change of the lighting signal generating means 7 caused by supplying the lighting signal. When the adjacent terminal electrodes 12 are short-circuited due to a connection failure between the extraction electrode 16 of the signal transmission means 8 and the terminal electrode 12 of the display panel 1, the short-circuit is automatically detected before the lighting signal generating means 7 is damaged. can do. For this reason, the lighting inspection of the display panel can be automated except for the adjustment of connection failure, and the cost can be reduced.

  As described above, according to the present invention, it is possible to automate the lighting inspection in a manner that suppresses human intervention as much as possible in the lighting inspection of the display panel, which is useful when performing the lighting inspection of a display panel such as a PDP. .

The schematic block diagram which shows the edge part of the display panel at the time of the lighting test | inspection of the display panel by one embodiment of this invention The whole block diagram of the lighting inspection apparatus of the display panel in one embodiment of the present invention Configuration diagram showing a part of the lighting inspection device The block diagram which shows a part of lighting inspection apparatus of the display panel in other embodiment of this invention Overall configuration diagram of conventional display panel lighting inspection device Configuration diagram showing a part of the lighting inspection device

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Display panel 5, 6 Lighting signal application means 7 Lighting signal generation means 8 Signal transmission means 12 Terminal electrode 16 Extraction electrode 19 Lighting test control means 22 Holding means 23 Contact connection means 24 Thermocouple 25 Detection temperature feedback means 26 Radiation thermometer

Claims (4)

A lighting inspection method using a lighting inspection device having a lighting signal generation means for lighting a display panel and a signal transmission means for transmitting a signal from the lighting signal generation means to the display panel, wherein the signal When the transmission means is brought into contact with the terminal electrode of the display panel to supply a signal and perform a lighting test, a temperature change of the lighting signal generation means caused by supplying the signal is detected, and the signal transmission means and the A display panel lighting inspection method, comprising: detecting a short circuit between adjacent terminal electrodes due to a connection failure with a terminal electrode of a display panel. Lighting signal generating means for lighting the display panel, signal transmitting means for transmitting a signal from the lighting signal generating means to the display panel, and contact connection for contacting the signal transmitting means with terminal electrodes of the display panel Means, temperature detecting means for detecting the temperature of the lighting signal generating means, and adjacent terminal electrodes due to a connection failure between the signal transmitting means and the terminal electrodes of the display panel based on the temperature detected by the temperature detecting means And a lighting inspection control means for controlling the lighting signal generating means by detecting a short circuit between them. 3. The display panel lighting inspection apparatus according to claim 2, wherein a thermocouple is used as the temperature detecting means. 3. A display panel lighting inspection apparatus according to claim 2, wherein a radiation thermometer is used as the temperature detecting means.

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