KR101400757B1 - Display panel inspection apparatus - Google Patents

Abstract

The present invention relates to a display panel inspection apparatus capable of providing a faster inspection speed for increasing the production efficiency of a display panel in a trend of enlargement and capable of uniformly and finely inspecting a full screen of a display, A lens disposed above the display panel to cover the entire or a part of the display panel and incident on the image of the surface shape output from the display panel; And a camera for acquiring a spectral image of a plane shape generated through the spectroscope, the spectral image being generated by a spectroscopic unit The specification acquired by the camera To determine the intensity for each wavelength in column image and detects whether the defect of the display panel.

Description

[0001] Display panel inspection apparatus [

The present invention relates to a display panel inspecting apparatus, and more particularly, to a display panel inspecting apparatus capable of providing a faster inspection speed in order to increase the production efficiency of a display panel in a trend of enlargement, To an inspection apparatus.

Generally, a semiconductor chip is composed of a plurality of layers made of different materials in the shape of a hexahedron, and finally a product is completed by forming an electrode pad. During the manufacturing process of the chip, foreign substances may be deposited on the surface, scratches may occur, and the shape of the electrode pad portion and the etching process may be defective.

Such defects are detected through an appearance inspection. For example, there is a vision inspection system in the form of a vision system which receives an image through an area scan camera and detects a defect of the display panel. At this time, in order to receive the continuous input of the image, the driving unit is necessarily required to move, and accordingly, a standby time is required for the camera to receive a clear image.

In recent years, display devices have become larger. Among the flat panel display devices, the electroluminescent display device is a self-luminous display device, and has a wide viewing angle, excellent contrast, and fast response speed, and is attracting attention as a next generation display device. In addition, the organic light emitting display device in which the material for forming the light emitting layer is composed of an organic material has excellent luminance, driving voltage, and response speed characteristics and is capable of multi-coloring as compared with an inorganic light emitting display device.

The organic light emitting display device includes a thin film transistor and an organic light emitting diode driven by the thin film transistor. The organic light emitting diode has a structure in which an anode layer, an organic layer, and a cathode layer are sequentially stacked.

Accordingly, when a voltage is applied between the anode layer and the cathode layer of the organic light emitting diode by the driving of the thin film transistor, a suitable energy difference is formed in the organic layer and is generated as light in the light emitting layer included in the organic layer .

Here, each layer of the organic light emitting device is formed through a deposition process. If the thickness of the organic light emitting device is not precise, the characteristics of light emitted may be different from the designed value. That way, you will not be able to achieve the exact color you want.

However, up to now, after the deposition process of the organic light emitting device has been completed and the sealing substrate for sealing has been installed, a light emission test has been carried out to discriminate between the parts of the product. Therefore, if defects are found, all of the panels on which the deposition process has been carried out until then are defective. Therefore, in order to reduce the defective rate, it is required to know in advance whether or not the organic light emitting element is defective.

An object of the present invention is to provide a display panel inspection apparatus that can provide a faster inspection speed to increase the production efficiency of a display panel and can uniformly and precisely inspect the entire screen of the display.

According to an aspect of the present invention, there is provided an apparatus for inspecting a display panel, the apparatus comprising: a lens disposed on an upper surface of the display panel and incident on an image of a plane shape output from the display panel; A spectroscope for generating a spectrum of a line-shaped image output from the slit, and a spectral image of a plane shape generated through the spectroscope, And an inspection unit in which a camera to be acquired is disposed on a coaxial axis to detect the intensity of each wavelength by the spectral image acquired by the camera to detect whether the display panel is defective or not.

According to an embodiment of the present invention, the entire area of the display panel may be inspected by further including a transporting unit that mounts the inspection unit and transports the inspection unit in the horizontal direction.

According to an embodiment of the present invention, the display panel is connected to an external power source and is energized, and the image output from the display panel is image data.

According to an embodiment of the present invention, there is further provided a light source for irradiating light toward the display panel from an upper portion or a lower portion of the display panel, wherein the lens is irradiated with light from the light source, The transmitted image is incident.

According to an embodiment of the present invention, the camera is provided with a line scan camera or an area scan camera.

According to the display panel inspection apparatus according to the present invention, a faster inspection speed is provided to increase the production efficiency of the display panel in a trend of becoming larger.

In addition, the spectrum image is acquired on a line-by-line basis, and information per wavelength is analyzed to uniformly and thoroughly check the entire screen of the display.

1 is a configuration diagram of a display panel inspection apparatus according to the present invention;
2 is a configuration diagram showing an inspection unit according to the present invention,
3 is a configuration diagram of a display panel inspection apparatus according to another embodiment of the present invention,
4 is a configuration diagram of a display panel inspection apparatus according to another embodiment of the present invention.

The present invention will now be described in detail with reference to the accompanying drawings. Here, the same reference numerals are used for the same components, and repeated descriptions and known functions and configurations that may obscure the gist of the present invention will not be described in detail. Embodiments of the present invention are provided to more fully describe the present invention to those skilled in the art. Accordingly, the shapes and sizes of the elements in the drawings and the like can be exaggerated for clarity.

1 is a configuration diagram of a display panel inspection apparatus according to an embodiment of the present invention.

Referring to FIG. 1, a display panel inspection apparatus according to an embodiment of the present invention is disposed on the display panel 10 to cover all or a part of a display panel 10 that outputs an image in the form of a plane, A lens 110 which is disposed above the lens 110 and which passes an image of a plane shape output from the lens 110 to an image in the form of a line, A spectroscope 130 for generating a spectrum of a line-shaped image output from the slit 120, a camera 140 for acquiring a spectral image of a surface shape generated through the spectroscope 130, And an inspection unit 150 disposed on a coaxial axis to detect intensity of each wavelength by the spectral image acquired by the camera 140 to detect whether the display panel 10 is defective.

First, the display panel 10 referred to in the present invention may be a liquid crystal display (LCD), an organic light emitting diode (OLED), a plasma display panel (PDP), an electro luminescent display (ELD), a vacuum fluorescent display (VFD) field emission display), and various known display panels.

The lens 110 is disposed so as to face the display panel 10 on the upper portion of the display panel 10 so as to cover all or a part of the display panel 10 outputting the image in the form of a plane, The image of the plane shape outputted from the light source is input.

That is, the lens 110 has an area corresponding to the area of the display panel 10, and one lens 110 covers at least one display panel 10, Can be covered by one lens 110. The lens 110 may be a condensing lens for condensing the image outputted from the display panel 10 and may be an imaging lens for imaging the inspection unit 150 to progress inspection.

2 is a configuration diagram showing an inspection unit according to the present invention. The inspection unit 150 includes a slit 120, a spectroscope 130, and a camera 140, wherein the elements are arranged coaxially. First, the slit 120 is disposed at an upper portion of the lens 110, and passes the image of the plane shape output from the lens 110 as a line-shaped image. The slit 120 forms a narrow gap to receive a planar image, outputs a line-shaped image through the gap, and blocks the remaining images.

The spectroscope 130 generates a spectrum of the line-shaped image output from the slit 120. Here, the spectroscope 130 includes a diffraction element, which may include any one of a diffraction grating, a prism, and a variable filter such as an AOTF (Acousto-Optic Tunable Filter). In addition, the spectroscope 130 may be provided with an ICCD 131 sensor. The ICCD 131 sensor generates an image spectrum from the image output from the slit 120.

That is, the intrinsic wavelength according to the color per one point of the image output from the display panel 10 is detected through the spectrum, the intensity of the wavelength is detected, and the color coordinates are checked and compared. A delicate tester can proceed.

The camera 140 acquires a spectral image of a plane shape generated through the spectroscope 130. [ The camera 140 may be a color camera or a plurality of cameras. The intensity of each wavelength is detected by the spectral image acquired by the camera 140 to detect whether the display panel 10 is defective or not. Accordingly, a computer 180 for analyzing the spectral image acquired by the camera 140 and determining whether the spectral image is defective may be additionally provided. The computer 180 compares the received spectrum with the previously set reference spectrum, and compares the peak wavelength position change, the minimum reflectance size change, and the half-width size change among the spectra, ) Can be determined.

According to an embodiment of the present invention, the entire area of the display panel 10 can be inspected by further including a conveying unit 160 for mounting the inspection unit 150 and transferring the inspection unit 150 in the horizontal direction. Since the slit 120 passes through the image of the planar shape outputted from the display panel 10 at a narrow interval to generate an image in the form of a line, in order to inspect the whole or a part of the display panel 10, 150 are mounted on the conveying means 160 and must be inspected throughout the display panel 10 while moving in the horizontal direction.

According to an embodiment of the present invention, the display panel 10 is connected to an external power source and is energized, and image data output from the display panel 10 is incident on the lens 110. In this case, it is preferable that the backlight, the liquid crystal panel, the polarizing filter or the color filter and the glass substrate are all assembled and then applied to the finished product of the pre-delivery stage. In other words, defective pixels are detected by comparing deviations between the central pixel and surrounding pixels located in the peripheral region after energization. When defective pixels are detected in the above process, correction is performed on the detected defective pixels May be separately provided.

FIG. 3 is a configuration diagram of a display panel inspection apparatus according to another embodiment of the present invention, and FIG. 4 is a configuration diagram of a display panel inspection apparatus according to another embodiment of the present invention.

According to an embodiment of the present invention, the display device may further include a light source 170 that irradiates light toward the display panel 10 from an upper portion or a lower portion of the display panel 10, 170 or reflected by the display panel 10 or an image transmitted through the display panel 10 is incident. The light source 170 may irradiate a line-shaped beam or a surface-shaped beam toward the display panel 10. In this case, since the display panel 10 is not an end product, it is not necessary to apply power, and is suitable for detecting surface defects of various display panels 10 including a glass substrate of transparent or translucent material.

According to one embodiment of the present invention, the camera 140 may be a line scan camera or an area scan camera, An area scan camera is used to check the shape of the spectrum.

According to the display panel inspection apparatus of the present invention as described above, it is possible to provide a faster inspection speed in order to increase the production efficiency of the display panel in the trend of enlargement, and to inspect the entire screen of the display uniformly and finely have.

It will be apparent to those skilled in the art that various modifications, substitutions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. will be. Therefore, the embodiments disclosed in the present invention and the accompanying drawings are intended to illustrate and not to limit the technical spirit of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments and the accompanying drawings . The scope of protection of the present invention should be construed according to the following claims, and all technical ideas falling within the scope of the same shall be construed as falling within the scope of the present invention.

10: Display panel
110: lens
120: slit
130: spectroscope
140: camera
150: Inspection unit
160: conveying means
170: Light source

Claims (5)

An apparatus for inspecting a display panel disposed on an upper portion of a display panel for outputting an image in the form of a plane to detect defects of the display panel,
A lens disposed above the display panel and adapted to receive a surface image output from the display panel;
A slit that is disposed at an upper portion of the lens and passes an image of a plane shape output from the lens as an image in a line shape; a spectroscope that generates a spectrum of the line shape image output from the slit; An inspection unit in which a camera for acquiring a spectral image of a form is arranged coaxially;
And transporting means for mounting the inspection unit and transporting the inspection unit in the horizontal direction,
The display panel is connected to an external power source, and image data output from the display panel is incident on the lens. The intensity of the spectral image acquired by the camera is detected by wavelength to determine whether the display panel is defective And the inspection unit inspects the entire area of the display panel while moving by the conveying means. delete delete The method according to claim 1,
And a light source that irradiates light toward the display panel from an upper portion or a lower portion of the display panel, wherein the light reflected from the display panel or transmitted through the display panel is incident on the lens, A display panel inspection apparatus. The method according to claim 1,
Wherein the camera is a line scan camera or an area scan camera.

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