JPH0458131A - Inspecting device for liquid crystal display panel - Google Patents

Abstract

PURPOSE:To perform efficient inspection in a short time by pressing bumps of the film carrier of a test head against external signal input terminals of the liquid crystal panel with low pressure and projecting an enlarged image of the liquid crystal display panel on a screen. CONSTITUTION:The respective bumps 16c provided to the film carrier 16b of the test head 16 are pressed against the external signal input terminals 35a of the liquid crystal display panel 30 supported on a panel support base 11 with the relatively small force to connect the both electrically. A specific driving signal is supplied to the liquid crystal display panel 30 through the bumps 16c and external signal input terminals 35a and the liquid crystal display panel 30 is placed in a specific state. This liquid crystal panel 30 is exposed to the light from a light source 12 and the light transmitted through the liquid crystal display panel 30 is enlarged and projected on the screen 15, where the image of the liquid crystal display panel 30 can be viewed. Consequently, accurate inspection can accurately and speedily be performed.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to an apparatus for inspecting a liquid crystal display panel before mounting a driving LSI chip or a film carrier containing a driving LSI. The present invention relates to a device for detecting defective picture elements of a liquid crystal display panel, disconnections or short circuits in scanning lines and signal lines, and the like.

(Prior Art) In a liquid crystal display device, before a driving LSI chip for driving each picture element of a liquid crystal display panel or a film carrier with a driving LSI is mounted on the liquid crystal display panel, defects in each picture element, scanning Lines and signal lines are visually inspected for breaks, shorts, etc.

In such a visual inspection, it is necessary to apply a drive signal to the liquid crystal display panel to drive the liquid crystal so that it is in a state where light can easily pass through. Since a driving LSI is not mounted on the liquid crystal display panel to be inspected, a predetermined wiring is connected to the external signal connection terminal pattern of the liquid crystal display panel, and a driving signal is given to the liquid crystal display panel. .

Then, with the liquid crystal display panel driven to a predetermined state, a light source (such as a fluorescent lamp) installed on the back of the liquid crystal display panel
By exposing the liquid crystal display panel to light and directly observing the liquid crystal display panel from the front, it is possible to detect defects in each pixel of the liquid crystal display panel, disconnections and short circuits in the scanning lines and signal lines, and The defect locations are being detected.

For wiring connected to external signal terminals of a liquid crystal display panel, a film carrier on which circuit wiring is printed is usually used.

(Problems to be Solved by the Invention) In recent years, the picture elements, signal lines, and scanning lines in liquid crystal display panels have become more precise and denser, and it is difficult to inspect liquid crystal display panels by direct viewing. It is not easy to detect defects in liquid crystal display panels, and it is especially difficult to detect defective picture elements and determine the cause thereof, and furthermore, it is not easy to accurately detect defective positions without overlooking them.

In addition, as the number of picture elements on LCD panels increases, the number of external signal input terminals also increases. Therefore, when inspecting LCD panels, a film carrier with circuit wiring printed on the external signal input terminals is applied with high pressure. If it is not crimped, there is a risk that all external signal input terminals and the film carrier will not be electrically connected. Therefore, as an inspection device, a pressurizing device for pressing the film carrier against the liquid crystal display panel at high pressure is required, which poses a problem of increasing the size of the inspection device.

The present invention solves the above-mentioned conventional problems, and its purpose is to make it possible to quickly and reliably give drive signals to a large number of external input terminals, and to accurately perform detailed inspections. It is an object of the present invention to provide a liquid crystal display panel inspection device that can be quickly inspected and is further miniaturized.

(Means for Solving the Problems) A liquid crystal display panel inspection apparatus of the present invention includes a panel support stand that supports a liquid crystal display panel to be inspected, and each external signal input of the liquid crystal display panel supported on the panel support stand. a test head having a film carrier provided with a plurality of bumps which are respectively pressed into contact with the terminals, and which applies a driving signal to the liquid crystal display panel in a state where each bump is in pressure contact with each external input terminal; a light source that irradiates light to a liquid crystal display panel supported on a panel support; and a means for magnifying and projecting the light emitted from the light source and transmitted through the liquid crystal display panel supported on the panel support onto a screen. The above object is thereby achieved.

(Function) The inspection device for a liquid crystal display panel of the present invention provides input signals to each external signal input terminal of the liquid crystal display panel supported on a slotted support base.
Each bump provided on the film carrier of the test head is pressed with a relatively small force to electrically connect the two. And the LCD display via the figure and external signal input terminal? A predetermined drive signal is given to the channel,
The liquid crystal display panel is brought into a predetermined state. The liquid crystal display panel is exposed to light from a light source, and the light transmitted through the liquid crystal display panel is projected onto the screen in an enlarged state. The liquid crystal display panel is inspected by visually observing the image of the liquid crystal display panel projected onto the screen.

(Example) Hereinafter, the present invention will be described in detail based on the drawings.

As shown in FIG. 2, the liquid crystal display panel inspection apparatus of the present invention has a panel support stand 11 on which a liquid crystal display panel 30 to be inspected is placed. The panel support stand 11 is provided with an opening 11a corresponding to the display section of the liquid crystal display panel 30, and the liquid crystal display panel is inserted so that the display section of the liquid crystal display panel 30 is aligned with the opening 11a. 30
is placed. A high-intensity light source 12 is arranged above the opening 11a. The light source 12 is connected to the panel support 1
Light is irradiated onto the display portion of the liquid crystal display panel 30 placed on the display panel 1 . A projection lens 13 is provided below the panel support 11, and a reflection mirror 14 is provided below the projection lens 13. The light that is irradiated onto the projection lens 13 and transmitted through the projection lens 13 is reflected by the reflection mirror 14 toward a screen 15 that is vertically disposed laterally.

As shown in FIG. 2, the liquid crystal display panel 30 to be inspected has a liquid crystal 34 hermetically sealed between glass substrates 31 and 32 facing each other with an appropriate interval between them using a sealing material 33. . One glass substrate 32 is larger than the other glass substrate 31, and the glass substrate 32 is larger than the other glass substrate 31.
It is placed on the panel support stand 11 of the inspection device with the lower side. The periphery of the lower glass substrate is located outward from the periphery of the upper glass substrate 31, and the side surface of the glass substrate 32 where the liquid crystal 34 is sealed has an ITO (In
A transparent electrode 35 such as dium tin oxide) is provided. The transparent electrode 35 extends onto the outer peripheral edge of the other glass substrate 31 of the glass substrate 32, and the liquid crystal display panel 3 is attached to the extended portion.
External signal input terminal 35 for inputting an external signal to 0
a is formed in a patterned manner.

A test head 16 is provided above the panel support stand 11 in the liquid crystal display panel inspection apparatus for applying a drive signal to the liquid crystal display panel 30 placed on the panel support stand 11. The test stand 16 has a master table 16a disposed facing a patterned external signal input terminal 35a provided on the substrate 32 of the liquid crystal display panel 30 placed on the panel support stand 11. have A plurality of bumps 16c are provided on the lower surface of the master table 16a.
A film carrier 16b having (protruding electrodes) is attached. Each bump 16c is provided corresponding to each external signal input terminal 35a on the liquid crystal display panel 30. In this embodiment, the diameter of each bump 16c is about 140 to
150 μm 1 The height is approximately 30 to 40 μm, and the connection resistance is approximately 2 to 7 Ω.

In the liquid crystal display panel inspection apparatus having such a configuration, the liquid crystal display panel 3o to be inspected is placed on the panel support stand 11. At this time, the liquid crystal display panel 30 is mounted on a panel support stand with the glass substrate 32 provided with the transparent electrodes 35 facing downward, and each external signal input terminal 35a of the transparent electrodes 35 facing the test head 16. 11. In this state, the test head 16 is lowered, and each bump 16c on the lower side is connected to each external signal input terminal 3 of the liquid crystal display panel 30 placed on the panel support stand 11.
5a, and the two are pressed together by a pressurizing device (not shown). In this case, usually 2 to 3
A relatively small pressure of about 100 g is applied.

In this state, a drive signal is input from the test head 16 to the liquid crystal display panel 30 via the bumps, and the liquid crystal 34 in the liquid crystal display panel 30 is brought into a state through which light can pass. At the same time, when the liquid crystal display panel 30 is irradiated with light from the high-intensity light source 12 to expose the liquid crystal display panel 3°, the light transmitted through the liquid crystal display panel 30 passes through the opening 11a of the panel support 11 and is projected onto the liquid crystal display panel 30. The light enters the lens 13 and passes through the projection lens 13. The light that has passed through the projection lens 13 is projected onto a screen 15 by a reflecting mirror 14 . As a result, an enlarged image of the liquid crystal display panel 30 is projected onto the screen 15.

In this embodiment, the image of the liquid crystal display panel 30 is projected onto the back surface of the screen 15. In this case, the viewing angle is determined by the screen 15, so the screen 15 has a Fresnel lens on its back surface and a lenticular lens on its front surface, and light is once collected by the Fresnel lens and distributed to the left and right by the lenticular lens.

The magnification rate of the image of the liquid crystal display panel projected onto the screen 15 is set depending on the resolution of the human eye. Normally, the smallest object that a person with visual acuity of 1.0 can recognize is an angle of 1.
minute (1"/60), so the liquid crystal display panel 3
When inspecting 0 by direct viewing, assuming that the distance between the display screen of the liquid crystal display panel and the eye is 30 cm, the perceivable pixel pitch of the liquid crystal display panel is approximately 87 μm. Therefore, if the pixel pitch of a liquid crystal display panel becomes 87 μm or less, inspection cannot be performed by direct viewing, but in this embodiment, the pixel pitch is expanded to about 0.5 μm pitch. Therefore, it can also be inspected visually.

In this way, the liquid crystal display panel 3 is displayed on the screen 15.
An enlarged image of 0 is projected, and the liquid crystal display panel is inspected using the enlarged image. Therefore, the exact location of defects in each pixel in the liquid crystal display panel, breaks or shorts in scanning lines or signal lines, etc. can be quickly detected. In addition,
In this embodiment, since the light transmitted through the liquid crystal display panel 3o projects an image of the liquid crystal display panel 30 on the back surface of the screen 15, it is necessary to block it from surrounding illumination light.

FIG. 3(a) shows another embodiment of the present invention.

In this embodiment, the light transmitted through the liquid crystal display panel 30 placed on the panel support 11 is reflected by the reflection mirror 1B, and is enlarged and projected onto the front surface of the screen 17 by the projection lens 19. Then, the liquid crystal display panel 30 is inspected by viewing the projected image of the screen 17 from the front of the screen F.

In this embodiment, there is no need to block the light transmitted through the liquid crystal display panel 30 from surrounding illumination light, and by increasing the size of the screen 17, the magnification rate of the projection lens 19 can be freely set.

Further, as shown in FIG. 3(b), a panel support stand 11 is installed so that the liquid crystal display panel 30 to be inspected can be held vertically.
The image of the liquid crystal display panel may be projected onto the front surface of the screen 17 without using a reflecting mirror. In this embodiment, the high-intensity light source 12, the liquid crystal display panel 30, the projection lens 19, and the screen 17 can be arranged on the same axis, and the optical system is simpler than in the previous embodiments.

(Effects of the Invention) As described above, the liquid crystal display panel inspection apparatus of the present invention presses the bumps of the film carrier in the test head onto the external signal input terminals of the liquid crystal display panel supported by the panel support with a low pressure. As a result, since the test head can be electrically connected, the pressurizing device of the test head can be downsized, and the entire testing device can be downsized. Moreover, the two can be pressed together in a short time. Furthermore, an enlarged image of the liquid crystal display panel is projected onto a screen, and the liquid crystal display panel is inspected based on the projected image. Inspection can be performed efficiently in a short time.

4. No. 8 Figure 1 is a sectional view of essential parts showing an example of the liquid crystal display panel of the present invention, Figure 2 is a schematic diagram of the entire device, and Figure 3 (a)
and (b) are schematic configuration diagrams of other embodiments of the liquid crystal display panel of the present invention.

11... Panel support stand, 12... Light source, 13.19
...Projection lens, 14...Reflection mirror 16...
Test head, 16b... Film carrier, 16c
...Bump, 15.17...Screen, 30...
・Liquid crystal display panel, 35...Transparent electrode, 35a...
External signal input terminal.

that's all

Claims (1)

[Claims] 1. A panel support stand that supports a liquid crystal display panel to be inspected, and a plurality of bumps that are respectively pressed into contact with external signal input terminals of the liquid crystal display panel supported by the panel support stand. a test head that applies a driving signal to the liquid crystal display panel with each bump being pressed against each external input terminal; and a test head that applies a driving signal to the liquid crystal display panel supported by the panel support stand; An inspection device for a liquid crystal display panel, comprising: a light source that irradiates light; and means for magnifying and projecting light emitted from the light source and transmitted through a liquid crystal display panel supported on a panel support onto a screen.