TW200804792A - Film adhesion test platform - Google Patents

Abstract

A film adhesion test platform includes a suction board, an auto-cutting device, and a rotational device. The suction board is a vacuum suction having several vacuum suction holes for fixing a test piece in any shape on the suction board. The area of the test piece is equal to the area of the vacuum suction holes. The rotational device includes a driving device for rotating the suction board to a proper angle. The auto-cutting device has a blade for cutting the test piece.

Description

200804792 IX. DESCRIPTION OF THE INVENTION: TECHNICAL FIELD OF THE INVENTION The present invention relates to a film attachment capability test platform, and more particularly to a test platform for testing the color filter film attachment capability. [Prior Art] # In today's various industries, the technology of laminating is often used, so the quality of the film is very good, which has a great impact on the quality of the finished product in the future. In the case of the panel process, due to the thin film transistor liquid crystal panel (Thin

Film Transistor Liquid Crystal Display (TFT-LCD) has the advantages of compact size, low power consumption, low radiation pollution, and image stabilization, which has become a common form of panel in current life. The reason why the thin film transistor liquid crystal panel can be colored is mainly from a color filter (C〇l〇r Filter, CF), and the liquid crystal panel changes the arrangement of the liquid crystal molecules by applying an electric field to form a gate to select a backlight. Whether the light penetrates or not, so that there is only a difference in the degree of light transmission of a kind of fortune, the color produced is only black, #white two colors. If color is to be formed, it needs to be formed by red, green and blue color resists. Pixel, therefore, the color filter containing the red, green and blue filter layers becomes a very important component in the thin film transistor liquid crystal panel. W & to ensure the quality of the final product, after the color filter is completed, it must be ^ Two test pieces for film adhesion test of color filter test pieces. The two elastic yellow lock pieces are pressed on the test piece and fixed by screws, and the piece to be tested is cut to complete the wire 77 preparation & you @ 2 /士,

The test method is as follows. First, the test piece is placed on a test platform, and the picker starts to cut ί test flat, in 5 200804792

It is easy to cause damage to Test 4 during business hours. When the test # is cut, if the cutting direction is, and the pattern * is oriented (the direction in which the pixels are arranged) is parallel, the cutting resistance is too small, and an accurate result cannot be known. Therefore, the cutting direction and the father angle k of the pattern on the test piece are preferably 45 degrees to ensure that the photoresist of different colors is cut during the cutting, and a more accurate result is obtained. Since the test platform of the prior art is a rectangular platform, it takes a lot of time to cut the test piece into a special shape before the cutting, in order to match the pattern of the fixed piece of the test platform and the pattern of the pure film. Therefore, a new test flat port is needed to improve the work efficiency during the test without affecting the original automatic cutting. [The present invention] Therefore, the object of the present invention is to provide a film adhesion test. The flat mouth is used to improve the work efficiency of the test. The sheep is reduced in the test piece when the test film is opened, especially the test piece which is easily broken. According to the above object of the present invention, a squirrel is provided with a membrane attachment capability test slab, a sputum attachment platform, an automatic cutting device, and a rotary device disposed under the adsorption platform. The adsorption, sheet, and rotating device rotates the adsorption platform to a position to fix a to-be-tested blade to cut the piece to be tested. = two. Automatic cutting device Light film. #色_光片呈# /, the sample to be tested can be a color filter. The color filter has a pattern of pixels. The blade and pattern run have a total of 45 degrees. The adsorption platform is a vacuum chuck/angle. This angle of intersection is an empty adsorption hole to fix the test piece. The suction cup contains a range of a plurality of true holes. The adsorption platform can be -C enclosed equivalent to vacuum adsorption / ° ° rotation to include a drive 200804792 moving device, configured for rotation, and the table is rotated to position. Drive tr, turn device, so that the adsorption flat platform contains a fixed shaft to = motor. Membrane adhesion test drive. ',,. 5 money platform, rotating device, and the other-stage sample of this seven-brightness test is one kind of test-flattening one of the test pieces. ^^3 is used to fix and attach +, and is arranged in the adsorption flat to turn your device to Adsorption flat a (four) ~ ft + one of the mouth under the mouth 处 舻 ^ ^ Turn to a 疋 position. The adsorption platform is always working and disk. The vacuum chuck contains a plurality of eight round ruts and a dry circumference with holes. The adsorption platform is a 0-shaped unit. The rotating device includes a drive to be placed under the rotating device, and a bovine adsorption platform is rotated to the position. The drive unit can be a feed motor. The test platform also includes a ^1 car to combine the adsorption platform, the 疋 疋 flat, and the drive unit. The film attachment capability test platform of the present invention can reduce the damage caused by the force of the S piece due to the fixing by using the rotary platform by using the rotary platform. The film of the invention can be used as a platform. If it is used on a color filter or a light sheet, the color of the color filter can be reduced and the preparation of the film can be effectively improved to improve the efficiency of the film of the color filter. BRIEF DESCRIPTION OF THE DRAWINGS The spirit of the present invention will be apparent from the following description of the preferred embodiments of the invention. It does not depart from the spirit and scope of the invention. 7 200804792 Referring to Figure i, a side view of a preferred embodiment of a test platform in accordance with the present invention is shown. The test platform 100 includes an adsorption platform i, and a rotating device 120 disposed below the adsorption platform no. The adsorption platform 11A is preferably a circular platform. A sample to be tested 13 is placed on the adsorption platform u〇. The adsorption platform 110 is a vacuum suction cup. For example, a negative pressure source can be provided from the outside or a vacuum pump can be provided to achieve vacuum adsorption. The role of the test piece 130. The rotating device 120 further includes a driving device

122 is set to rotate the test platform 1 to the desired position. Drive unit 122 is preferably a plunging motor for accurate positioning of the test platform. By using the test platform 100 of the present invention, the test piece 130 of any shape can be fixed by the adsorption platform ιι, and the test piece 13 is fixed by vacuum adsorption on the adsorption platform 110. Therefore, the test piece 13 can be reduced. When the reed is fixed, the force is uneven and the damage is broken. And by rotating the device 12 (^ can directly rotate the to-be-tested piece 13〇 to a suitable angle in the test, and then enter (4), without the conventional fixed platform, the 4130 to be tested is picked up and then repositioned. To the desired angle. Referring to Fig. 2, it will show a top view of a preferred embodiment of the test platform according to the present invention. The vacuum chuck of the adsorption flat UG has a plurality of vacuum adsorptions: 112' and the test piece 130 The vacuum adsorption hole 112 is fixed to the suction, the 'mouth 10' and the range of the #i3〇 to be measured is preferably equivalent to the range of the vacuum adsorption hole 1 1 2, and the Z is paid and η Ϊ is ensured to be tested. The sheet 130 can be completely adsorbed on the adsorption platform 110. Referring to Figure 3, there is a side view of a preferred embodiment of the film attachment capability test platform according to the present invention. The film attachment capability test platform of the present invention is 〇8 200804792

A test platform 100 is included, as well as an automatic cutting device 14A. The test platform 100 includes an adsorption platform 110, and a rotating device 12 is disposed under the suction platform 110. The adsorption platform 11 is preferably a circular platform. A test piece 130 is placed on the adsorption platform 11A. The rotating device 12A includes a drive unit 122 to rotate the test platform (10) to a desired angle. The drive-fit 122 car is also preferably a stepper motor for accurately positioning the test platform 100. The test platform 100 further includes a fixed shaft 124 for the junction. The adsorption platform 110, the rotating device 12A, and the driving device 122. The automatic cutting device 140 has a knife #142 for cutting the to-be-tested piece 13'' to perform the film-attaching ability test of the succeeding test piece 130. 4A and 帛4B BI' illustrate the film attachment capability test platform of the present invention - the preferred embodiment is applied to the upper view of the color filter. The test piece 130 in the figure is a color calender piece 132. Since the color layer in the color filter 132 is composed of a plurality of halogen elements 136, the pixels 136 are in a regular arrangement to form a regular pattern pattern 134. When the film adhesion capability test of the color filter 132 is performed, if the (four) direction of the blade 142 is parallel to the pattern direction 134, % is too small to cause the test result to be lost λ, and therefore, the blade 142 and the color calender sheet 132 are placed. The angle of intersection of the pattern strikes 134 is preferably 45 degrees' to obtain a more accurate handle test result. ―Multiple...Fig. 4 昼 136 136 is regularly arranged in a pattern direction 134, 2 a pixel 136 is composed of red, blue and green three color resists 136a. The film attachment capability of the inlet filter 132 is required to simultaneously cut the red, blue and green three colored lights a 136b, and 136c to obtain a higher value than the conventional test platform. For the above reasons, the color filter 132 must be cut into a special shape in accordance with the position of the original test platform and the blade 142 before the test in 200804792, so it takes a lot of time and effort to prepare in advance. The color filter 132 fixed to the adsorption stage 110 can be easily rotated to a desired angle by the rotating device 12 of Fig. 3, i.e., the pattern 134 of the color filter 132 is at an angle 138 with the blade 142. At 45 degrees. It will be apparent from the above-described preferred embodiments of the present invention that the test platform to which the present invention is applied has the following advantages. By using the adsorption platform of the invention, the sample to be tested can be fixed in any shape, and the vacuum adsorption method can be used to reduce the situation that the sample to be tested is damaged by the unevenness of the force when the sample is used. When in use, the test platform can be adjusted to a suitable angle by using a rotating device. Therefore, when changing the angle of the test piece, it is only necessary to rotate the test platform without lifting the sample to be repositioned. The invention is applied to the film-attaching ability of the color filter and the J-type adherence, and the complicated preparatory steps for cutting the test piece in the prior art can be omitted, and therefore, the test efficiency of the color filter can be effectively improved. Although the present invention has been described above in terms of a preferred embodiment, it is not intended to limit the invention, and the present invention may be modified and modified without departing from the scope of the invention. The scope of protection is subject to the definition of the scope of the patent application. BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features, advantages and embodiments of the present invention will become more apparent and understood. A preferred embodiment of the 200804792 side view. Figure 2 is a top plan view of a preferred embodiment of a test platform in accordance with the present invention. Figure 3 is a side elevational view of a preferred embodiment of a film attachment capability test platform in accordance with the present invention. 4A and 4B are views showing a preferred embodiment of the film attachment capability test platform of the present invention applied to a color filter. [Main component symbol description 100: Test platform 112: Vacuum adsorption hole 122: Driving device 130 = Test piece 134: Pattern direction 136a: Color photoresist 136c: Color photoresist 140: Automatic cutting device 144: Cut mark 110: Adsorption platform 120: Rotating device 12 4 · Fixed shaft 132 : Color filter 136 : Alizarin 136b : Color photoresist 138 : Intersection angle 142 : Blade 200 : Film attached capability test platform 11

Claims (1)

200804792 X. Patent application scope: 1 · A film attachment capability test platform, including: an adsorption platform for fixing a test piece to be tested, a rotating device, configured under the adsorption platform, rotating to a positioning; The platform is adsorbed to cut the test piece. An automatic cutting device having a blade 2. The film to be tested is a color filter as described in the patent application scope.祺 Attached to the capability test platform. 3. As described in the second paragraph of the patent application scope, the 暝 旎 旎 测试 test platform, the ^ / color filter has a pattern trend, the main η and r β pattern of the hanging gold are from the plural The pixels are arranged. • A film-attachment test platform as described in claim 3 of the patent application, wherein the blade has an angle of intersection with the pattern. & This application is 45 degrees in the film attachment energy described in item 4. 10. Declare the membrane-attachment test platform described in item 1 of the patent scope, in which the “Hai adsorption platform is a vacuum chuck”. 7) The film attachment capability test platform according to claim 6, wherein the / two suction cups comprise a plurality of vacuum adsorption holes to fix the test piece. 12 200804792 8. The film attachment capability test platform described in claim 7 is characterized in that the range of the swallow and the sputum is approximately equal to the range of the vacuum adsorption holes. For example, the membrane-attachment test platform described in claim i is a circular platform. '1() Μ 专利 专利 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ To the positioning. Δ u' is a film-attachment test flat as described in the scope of claim 1G, wherein the driving device is a boring motor. △ 12. The film-attaching capability test platform described in the patent _S1G, wherein the film-attaching capability test platform further comprises a fixed shaft for the adsorption platform, the rotating device, and the driving device. 13· a test platform comprising: an adsorption platform for fixing a test piece; and a rotating device disposed under the adsorption platform to test the platform of the adsorption platform B, wherein the suction 14 · The platform attached to the patent application scope is a vacuum chuck. The test platform of claim 14, wherein the vacuum chuck comprises a plurality of vacuum suction holes for fixing the test piece. / I6· As in the test platform described in claim 15, wherein the range of the test piece is approximately equal to the range of the vacuum adsorption holes. I7. The test platform of claim 13, wherein the suction platform is a circular platform. The test platform of claim 13, wherein the rotating device comprises a driving device disposed under the rotating device to drive the rotating device to rotate the adsorption platform to the positioning. 19. The test platform of claim 18, wherein the drive unit is a plunging motor. 20. The test platform of claim 8, wherein the test platform further comprises a fixed shaft to couple the adsorption platform, the rotating device, and the driving device. 14