JP2007086718A - External pasting film used for liquid crystal display panel and having visual field angle compensating function and its manufacturing method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an external pasting film capable of solving a gradation inversion phenomenon and having a visual field angle compensating function. <P>SOLUTION: The external pasting film includes a transparent substrate which can transmit light and a paste having a pasting agent and a light diffusion particle component and disposed uniformly on one surface of the transparent substrate. The transparent substrate can be pasted on the surface of an emission display screen of a display device by the paste. The external pasting film has the visual field angle compensating function by which a visual field angle of the emission display screen of the display device can be enhanced. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an external adhesive film having a viewing angle compensation function used for a liquid crystal display panel. More specifically, the present invention has a viewing angle compensation function for a liquid crystal display panel, in other words, a viewing angle compensation function that can expand the viewing angle of the liquid crystal display panel and can be directly attached to the liquid crystal display panel. It relates to the external patch membrane.

  Due to the intrinsic physical properties of liquid crystal displays, there is a slight change in screen quality when the user views from different angles. When the angle is rotated to change to a critical angle at which the screen quality is unacceptable when compared to the front view, it is referred to as the viewing angle of the display.

There are three types of viewing angle definitions.
1. Contrast ratio When the liquid crystal display is viewed from an oblique direction, the white portion becomes darker and the black portion becomes brighter than when viewed from the front, and the contrast ratio decreases. In general, the angle at which the contrast ratio drops to 10 is defined as the viewing angle of the display. That is, when the viewing angle is larger than this definition, black and white cannot be identified. Generally, this is often used as a definition for the viewing angle in the specifications of panel manufacturers and monitor manufacturers.

2. Tone Reversal In theory, the display should be brighter as the number of gray scales increases from 0 gray scale (black) to 255 gray scale (white). However, when viewing a liquid crystal display at a large angle, the lower gray scale may appear brighter than the higher gray scale. That is, a phenomenon such as black and white inversion is seen, and this is called gradation inversion. The maximum angle at which the gradation inversion phenomenon does not occur is defined as the viewing angle. That is, when the angle is exceeded, gradation inversion can be seen. Gradation inversion is an unacceptable image quality. The difference between this definition and the first definition is that when using the contrast ratio definition, only the 0 gray scale and the 255 gray scale are considered, but the gray scale inversion considers all gray scales.

3. Color difference When viewing the LCD from different angles, it can be seen that the color changes with angle. For example, the original is a white screen, but it turns relatively yellow or blue, or the color becomes relatively shallow. As the viewing angle increases, the angle is defined as the viewing angle when the color change increases to an unacceptable critical point.

  The most convenient way to meet the wide viewing angle requirements of liquid crystal displays (LCDs) is to attach a wide viewing cornea to the LCD polarizing plate, so optical film manufacturers have also actively developed various wide viewing corneas. ing. However, the wide viewing angle compensation film (Wide View Film, WV Film) used in TFT was developed by Fuji Film Co., Ltd. in 1996, and can be applied directly to the polarizing plate. As a result, it quickly became the leading role of wide viewing angle products. Fuji Film Co., Ltd. has become a manufacturer of exclusive patents, and is on the point of whether prices and lower manufacturers can ship smoothly. The wide viewing cornea is mainly composed of a discotic compound and triacetyl cellulose (TAC). However, this wide viewing cornea has not yet solved the problem of gradation inversion.

  The object of the present invention is to provide a viewing angle compensation function used for a liquid crystal display panel that is externally attached, such as the wide viewing cornea developed by Fuji Film Co., Ltd. An external patch membrane is provided.

  The external adhesive film having the viewing angle compensation function according to the present invention can be applied to various large, medium and small size liquid crystal display panels, and has been developed to meet the demand for wide viewing angle panels in the market. This is an external adhesive film that has a function, and this external adhesive film that has a viewing angle compensation function can also solve the gradation inversion phenomenon, and the external adhesive film that has this viewing angle compensation function can control the size of the viewing angle. The user can adjust as needed.

The technical features and problems to be solved of the present invention are as follows.
(1) With the external adhesive film having a viewing angle compensation function according to the present invention, it is possible to improve the viewing angle by the external adhesive method, and to solve the conventional gradation inversion phenomenon.
(2) The technology is simple, convenient to use, and the viewing angle can be selected as required.
(3) The visible angle and the contrast ratio have a proportional relationship and can be designed according to actual requirements.
(4) Simplify the LCD process and eliminate the process of incorporating an optical compensation film.

  Another object of the present invention is to form a sticking paste by dispersing the light diffusing particle component in the patch, to apply the obtained sticking paste on a transparent substrate, and to apply the sticking paste. A method for producing an external adhesive film having a viewing angle compensation function for use in a liquid crystal display panel including a step of baking a transparent substrate. This adhesive paste has different viewing angle compensation and contrast ratio effects depending on the preparation preparation, coating wet / dry thickness, optical atomization degree value, and transparency. By directly adhering this external adhesive film to the outermost layer on various large, medium and small size LCD panels, a viewing angle compensation effect including a wide viewing angle effect can be obtained, and a gradation inversion phenomenon is also caused. can be solved. In the current study, the viewing angle can achieve a viewing angle value more than twice as high as the original panel. Viewing angle visibility is improved by 5% to 350%.

  The present invention relates to a liquid crystal display device using an external adhesive film having the viewing angle compensation function defined above or an external adhesive film produced by the method for producing an external adhesive film having the viewing angle compensation function.

  FIG. 1 is a cross-sectional view showing a configuration of an external adhesive film having a viewing angle compensation function of the present invention. Referring to FIG. 1, the external adhesive film having a viewing angle compensation function of the present invention mainly includes a transparent substrate 1 and an adhesive paste 2.

  The transparent substrate is a transparent substrate that can transmit light and is made of polyethylene terephthalate (PET) or triacetyl cellulose (TAC), and has a thickness in the range of 20 to 150 μm. In some cases, the transparent substrate may have a surface treatment layer (not shown), for example, an antiglare layer, an antifouling layer, an antistatic layer, a hardness enhancing layer, or the like. The thickness of this surface treatment layer is in the range of 20 to 200 μm.

  The sticking paste has a patch and a light diffusing particle component, and the sticking paste is uniformly arranged on one surface of the transparent substrate, and the sticking paste removes the transparent substrate from the outside to the surface of the output display screen of the display device. The viewing angle of the emission display screen of the display device can be improved by the external adhesive film. The thickness range in which the paste is disposed on the surface is 5 to 100 μm. The patch includes a main agent, a solvent, and an additive. The main agent, solvent, and additive are an acrylic resin, methyl ethyl ketone (MEK) or acetate ester, and an acrylic solidifying agent, respectively. The main agent, light diffusing particles, solvent, and additive are 71% to 76%, 0.76% to 7.1%, 21.3% to 22.8%, and 0%, respectively, of all components of the paste. It accounts for 0.076% to 0.14%.

The light diffusion particles are polymer particles such as polymethyl methacrylate (PMMA) and polystyrene (PS), or inorganic particles such as titanium dioxide (TiO ₂ ) and silicon dioxide (SiO ₂ ), and the particle size distribution thereof. Is in the range of 300 nm to 50 μm.

  In one embodiment according to the present invention, the external adhesive film further includes an additional functional film installed on the surface of the emission display screen of the transparent substrate. The additional functional film is selected from an antiglare film, an antireflection film, and an antiglare / antireflection film.

  FIG. 2 is a manufacturing flowchart of an external adhesive film having a viewing angle compensation function of the present invention. Referring to FIG. 2, the production flowchart of the present invention is a process (step 3) in which a light diffusing particle component is dispersed in a patch to form a paste, and the obtained paste is applied onto a transparent substrate. The process (step 4) and the process (step 5) of baking the transparent substrate with which the sticking paste was apply | coated are included. The external adhesive film having the viewing angle compensation function can be applied to any type of liquid crystal display panel, for example, the outermost layer of TN mode, VA mode, or IPA mode, and a viewing angle compensation effect can be obtained.

  In the production flowchart of the present invention, the transparent substrate is, for example, triacetyl cellulose (TAC) or polyethylene terephthalate (PET). The thickness at which the adhesive paste is applied on the transparent substrate is, for example, in the range of 5 to 100 μm. The patch includes, for example, a main agent, a solvent, and an additive. The main agent, solvent, and additive are, for example, an acrylic resin, methyl ethyl ketone (MEK) or acetate ester, and an acrylic solidifying agent, respectively. The main agent, light diffusing particles, solvent, and additive are 71% to 76%, 0.76% to 7.1%, 21.3% to 22.8%, and 0%, respectively, of all components of the paste. It accounts for 0.076% to 0.14%.

  With the external adhesive film, the maximum value of the viewing angle of the output display screen of the display device can be doubled from the original viewing angle.

  In one embodiment according to the present invention, the manufacturing method further includes a step of installing the additional function film defined as described above on the surface of the emission display screen of the transparent substrate. As the additional function film, any one of an antiglare film, an antireflection film, and an antiglare / antireflection film can be selected.

  FIG. 3 shows an application example of an external adhesive film having a viewing angle compensation function of the present invention. Referring to FIG. 3, reference numeral 11 indicates an inner layer portion of a general liquid crystal display. For example, a liquid crystal layer is interposed between two glass substrates. Reference numerals 10 and 12 denote a lower polarizing plate and an upper polarizing plate, respectively. Reference numeral 13 denotes an external adhesive film having a viewing angle compensation function of the present invention.

  With the EZContrast test system (manufactured by France ELDIM), the viewing angle characteristics of the following various combinations are measured. This system uses a CCD photosensitive array cooled to 10 ° C below zero, and with a special optical lens, the chromaticity of light emission from the liquid crystal display in all directions within a viewing angle range of ± 80 degrees horizontally and vertically. And the brightness can be measured, and the result can be displayed by a color contour map. The degree to which the data point is far from the center point represents the size of the viewing angle (that is, the angle between the line of sight and the screen vertical line). At the center point, the line of sight is perpendicular to the screen, the viewing angle is 0 degree, and the viewing angle at the most marginal part is 80 degrees at the maximum. The horizontal direction in the figure corresponds to the horizontal viewing angle, and the vertical direction corresponds to the vertical viewing angle. All the figures reflect the change state of the contrast ratio of the screen on the screen viewed from all positions from the left side to the right side and from the upper end to the lower end of the screen, that is, the relationship between the viewing angle and the contrast ratio.

  FIG. 4A shows a measurement result of a combination of a polarizing plate without compensation film + LCD + a polarizing plate without compensation film, which is a comparative example. FIG. 4B shows a measurement result of a combination of a polarizing plate with a compensation film + LCD + a polarizing plate with a compensation film, which is a comparative example. FIG. 4C is a measurement result of surface treatment TAC + paste paste (high optical) + commercial panel. FIG. 4D shows the measurement results of surface-treated PET + paste paste (high optical) + commercial panel. FIG. 4E shows the measurement results of surface-treated PET + paste paste (medium optics) + commercial panel. FIG. 4F is a measurement result of general PET + paste paste (low optical) + commercial panel. The horizontal axis in the figure is the viewing angle.

  As can be seen from the measurement results, the viewing angles in FIGS. 4C to 4F are superior to those in FIGS. 4A and 4B. Although FIG. 4C and FIG. 4D have the same adhesiveness, the display is different because the outer layer film material is different. FIG. 4D and FIG. 4E have the same outer layer film material, but display is different because of different adhesiveness. In FIG. 4F, different effects can be obtained by simultaneously changing the outer layer film material and the adhesiveness, and there is a viewing angle improvement effect as compared with FIG. 4B.

  Therefore, the external adhesive film having a simple structure and process of the present invention and having a viewing angle compensation function has a clear improvement in the viewing angle of the liquid crystal display panel.

It is sectional drawing which shows the structure of the external sticking film | membrane which has a viewing angle compensation function of this invention. It is a manufacturing flowchart of the external patch film which has a viewing angle compensation function of this invention. It is an application example of the external sticking film | membrane which has a viewing angle compensation function of this invention. It is a measurement result of a different combination in the measurement coordinate of the viewing angle-chromaticity of a liquid crystal display device. It is a measurement result of a different combination in the measurement coordinate of the viewing angle-chromaticity of a liquid crystal display device. It is a measurement result of a different combination in the measurement coordinate of the viewing angle-chromaticity of a liquid crystal display device. It is a measurement result of a different combination in the measurement coordinate of the viewing angle-chromaticity of a liquid crystal display device. It is a measurement result of a different combination in the measurement coordinate of the viewing angle-chromaticity of a liquid crystal display device. It is a measurement result of a different combination in the measurement coordinate of the viewing angle-chromaticity of a liquid crystal display device.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Transparent substrate 2 Paste paste 3 Preparation process 4 Application | coating process 5 Baking process 10 Lower polarizing plate 11 Inner layer part 12 Upper polarizing plate 13 External adhesive film which has a viewing angle compensation function

Claims (7)

A transparent substrate that can transmit light;
Including a patch and a light diffusing particle component, and including a paste uniformly disposed on one surface of the transparent substrate,
Viewing angle compensation characterized in that the pasting paste allows the transparent substrate to be stuck on the surface of the output display screen of the display device from the outside, and the external adhesive film can improve the viewing angle of the output display screen of the display device. External patch film with function.   2. The external adhesive film having a viewing angle compensation function according to claim 1, wherein a thickness of the adhesive paste disposed on the surface is in a range of 5 to 100 [mu] m.   The external patch having a viewing angle compensation function according to claim 1, wherein the patch contains at least an acrylic resin, methyl ethyl ketone (MEK) or acetate, and an acrylic solidifying agent.   The acrylic resin, methyl ethyl ketone (MEK) or acetate ester, and the acrylic solidifying agent are 71% to 76%, 21.3% to 22.8%, and 0.076% to 0% of the total components of the adhesive paste, respectively. The external adhesive film having a viewing angle compensation function according to claim 3, which occupies .14%. The light diffusing particles are at least one selected from the group consisting of polymethyl methacrylate (PMMA), polystyrene (PS), titanium dioxide (TiO ₂ ), and silica (SiO ₂ ), and the light diffusing particles are The external adhesive film having a viewing angle compensation function according to claim 1, wherein the external adhesive film accounts for 0.76% to 7.1% of all components of the adhesive paste. A step of dispersing a light diffusing particle component in a patch to form a paste;
Applying the obtained paste on a transparent substrate;
A method for producing an external adhesive film having a viewing angle compensation function, including a step of baking a transparent substrate coated with the adhesive paste.   A liquid crystal display device using an external adhesive film having a viewing angle compensation function according to claim 1.

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