JP5522807B2 - Scratch resistant prism sheet - Google Patents

Description

The present invention relates to a scratch-resistant prism sheet used for a backlight or the like of a liquid crystal display device, and more specifically, even when the prism structure surface is rubbed against another optical element, it is difficult to be scratched. The present invention relates to a scratch-resistant prism sheet that is not noticeable and does not cause moiré.

  In recent years, liquid crystal display devices have been used in various fields, and various performances are required depending on the respective applications. OA equipment, personal computers, word processors, liquid crystal televisions, etc. are strongly demanded to be lighter, thinner, and higher in image quality. Furthermore, liquid crystal display devices are required to have a wider field of view, wider screen, and higher brightness. Is getting stronger.

  In order to meet these requirements, the backlight for liquid crystal display devices uses a diffusion sheet or diffuser plate to make the difference in brightness and glare of the emitted light inconspicuous, or changes the directivity of light to avoid unnecessary directions. It is common to use a lens sheet such as a fly-eye lens sheet or a prism sheet that has a function of changing the direction of the light and condensing it on the front of the observer (these are collectively referred to as an optical sheet). . In particular, the prism sheet concentrates light that diffuses in the vertical direction, which is not very important for image observation, in the front, and does not collect the light that diffuses in the horizontal direction. Can be used widely.

  These optical sheets, including diffusion sheets, are usually used in a stack of two or more. However, the optical sheets are contacted or rubbed due to vibration during assembly or transportation of a liquid crystal display device or the like. Therefore, when a lens sheet is used, the lens structure surface is easily scratched, making handling extremely difficult. Furthermore, the back side needs to be handled with care as well. When an optical sheet with such a scratch is incorporated into a liquid crystal display device or the like, the scratch is visually recognized by an observer, so a high-quality image cannot be obtained.

  As a method for solving this drawback, a method has been proposed in which prisms having different heights are mixed on the lens structure surface, particularly the prism surface, the tip of the high prism is blunted, and the sharp tip of the low prism is protected (for example, a patent). Reference 1). However, the area to be dulled needs to be increased in order to sufficiently protect it, and in some cases, the condensing function of the lens may be hindered or visually recognized by an observer.

Special table 2007-517256

The present inventors have found that if a protrusion is provided on the surface of the optical sheet, the surface is difficult to be scratched, and even if the top of the protrusion is scratched, it is difficult to visually recognize this and is inconspicuous. . Furthermore, it has been found that since the protrusion is a spot, the function of the prism structure is hardly deteriorated.
However, when applying this projection, for example, a prism sheet, the light incident on the provided protrusions are refracted at different specific direction from the prism sheet original optical effects, moire which interferes with the prism sheet original optical effect And the quality of the image is significantly reduced.
Therefore, as a result of continuing diligent research to solve such drawbacks, the present inventors have found that if the arrangement of the protrusions is irregular, light incident on the protrusions and refracted in a direction different from the original is generated. However, it was found that these lights hardly interfere with the original optical effect of the prism sheet and moire does not occur, and the present invention has been achieved.
That is, the present invention provides a scratch-resistant prism sheet that is less likely to be scratched on the prism structure surface, is not noticeable even if it is scratched, has high image quality without moire, and is inexpensive. It is for the purpose.

Furthermore, if the back surface of the prism sheet is also scratched in the same manner as the prism structure surface, it may be visually recognized by an observer. In order to prevent this, it can be prevented by the same method as the prism structure surface, and both surfaces of the prism sheet can be made scratch resistant.

The invention according to claim 1 of the present invention is a prism sheet arranged in parallel so that the major axes of the tops of a large number of prism structures are parallel to each other on one surface, and is 5 to 5 from the top of the prism structures. A large number of spot-like protrusions are irregularly arranged at a height of 100 μm and at a substantially constant height, the bottom surface of the protrusion is a circle having a diameter of 20 to 500 μm , or a square having a side of 20 to 500 μm, and all the protrusions are adjacent to each other. The scratch-resistant prism sheet is characterized in that it is disposed across the prism structure, and the ratio of the total installation area of the protrusions to the total area of the prism sheet is 0.3 to 20%.

In the invention according to claim 2 of the present invention, irregularly a large number of back surface protrusions having a height of 5 to 100 μm and a substantially constant height are arranged on the other surface, and the bottom surface of the back surface protrusion has a circular shape with a diameter of 20 to 500 μm. , or one side a square 20 to 500 [mu] m, scratch according to claim 1, the ratio of the total footprint of the back projection to the total area of the prism sheet is characterized in that it is a 0.3 to 20% The content is a functional prism sheet.

The invention according to claim 3 of the present invention is constituted by a resin mixed with a diffusing agent, and has a haze of 35 to 82%, scratch resistance according to claim 1 or claim 2 The content is a prism sheet.

Since the prism sheet of the present invention is provided with a lot of spot-like protrusions at a substantially constant height 5 to 100 μm higher than the top of the prism structure on the surface having the prism structure, the prism sheet is in contact with or rubbed with another optical sheet or the like. Even if there is, the other optical sheet is in contact with only the top of the projection in the prism sheet of the present invention, and is not in direct contact with the top of the prism structure, so it is difficult to be scratched, and the top of the projection is scratched. Is not conspicuous. Furthermore, if the back surface of the prism sheet is also scratched like the prism structure surface, it may be visually recognized by an observer. To prevent this, the height is 5 to 100 μm and has a substantially constant height as in the prism structure surface. Many protrusions can be provided, and both surfaces of the prism sheet can be made scratch resistant.
Both the projection provided on the prism structure surface or the back projection provided on the back surface exhibit sufficient scratch resistance by setting the ratio of the total installation area of the projection to the total area of the prism sheet to 0.3 to 20%, A prism sheet with excellent front luminance can be obtained. Furthermore, the arrangement of the projections is irregular, and the projections are arranged across adjacent prism structures, so that the direction in which the light incident on the projections is emitted is substantially irregular, and the diffused light as a whole is changed. Since they are equal, they do not interfere with the original optical effect of the prism sheet, and moire does not occur.

  If the bottom surface of the protrusion and / or the back protrusion is a circle having a diameter of 20 to 500 μm or a square having a side of 20 to 500 μm, a protrusion having a necessary height can be formed by a normal method using a normal transparent resin. Also, the front brightness does not decrease.

If the prism sheet is made of a resin mixed with a diffusing agent, the protrusions on the prism structure surface and the back surface are more difficult to see, moire is less likely to occur, and there is no need to arrange a separate diffusion sheet, etc., so the structure is simple In addition, the assembly cost is reduced. The diffusing material is preferably blended in the resin so that the haze is in the range of 35 to 82%.

It is a schematic top view which shows the abrasion-resistant prism sheet of this invention. It is AA sectional drawing of FIG. It is a schematic explanatory drawing which shows another abrasion-resistant prism sheet of this invention. (A) is a schematic explanatory drawing which shows the arrangement | sequence of the protrusion in a unit division, (b) is a schematic explanatory drawing which shows the arrangement | sequence of a protrusion and a unit division.

Prism sheet 1 of the present invention, as shown schematically in FIGS. 1 and 2, the long axis of a large number of the top of the prism structure 2 are arranged in parallel so as to be parallel to each other on one surface (prism structure plane) In addition, a large number of spot-like protrusions (semispherical) 3 having a height of 5 to 100 μm and a substantially constant height are provided from the top of the prism structure surface, and the protrusions 3 are arranged across the adjacent prism structures 2. The ratio of the total installation area of the protrusions to the total area of the prism sheet is 0.3 to 20%.

In the present invention, the prism structure 2 is arranged on the prism structure surface .
As the prism structure, it is possible to select a shape having a triangular prism cross-sectional shape that easily exhibits light condensing ability and a vertex angle of 60 degrees to 120 degrees. Preferably, it is in the range of 70 degrees to 110 degrees. The shape of the triangle is not particularly limited and may be either an equal side or an unequal side, but an isosceles triangle is preferable in terms of improving the light collecting performance in the normal direction of the prism sheet 1, and is therefore adjacent to the base opposite to the top. Then, it is preferable that adjacent isosceles triangles are sequentially arranged and arranged such that the major axes of the apexes are substantially parallel to each other.

The protrusion 3 provided on the prism structure surface of the present invention prevents other optical members, such as a diffusion sheet and a liquid crystal module, disposed on the prism structure surface side of the prism sheet of the present invention from contacting the surface of the prism structure. For this reason, even when the prism sheet of the present invention and another optical member are rubbed together, the surface of the prism structure is protected, and the scratch is attached only to the top of the projection 3 and is hardly visible.

Moreover, in this invention, as shown in FIG. 3, the back surface protrusion 5 can also be provided in a back surface. Backside projection 5, when the back surface of the prism sheet of the present invention was superimposed another optical sheet is intended to prevent the optical sheet that direct contact with the prism sheet back surface of the present invention, which by the prism of the present invention Even if the sheet 1 and another optical sheet come into contact with each other or rub against each other, the scratches are applied only to the top side of the back projection 5 and the other parts are not scratched.

The shape of the protrusion 3 and the back surface protrusion 5 is not particularly limited except that it is a spot shape, and can be various shapes such as a cube, a rectangular parallelepiped, a quadrangular pyramid, a quadrangular pyramid, a cylinder, a cone, a hemisphere, and a truncated cone.
The protrusion 3 is installed such that its height is 5 to 100 μm higher than the top of the prism structure . When the height of the protrusion 3 is less than 5 μm, the surface of the prism structure cannot be sufficiently protected, and scratches on the surface of the prism structure may be visible to a person with good vision. . When the thickness exceeds 100 μm, the degree of obstructing the optical effect of the prism structure surface increases, and the front luminance decreases. Similarly, the back surface protrusion 5 is installed so as to be 5 to 100 μm higher than the back surface of the prism sheet.
Further, the size of the bottom surface of the protrusion 3 and the back surface protrusion 5 is not particularly limited, but the diameter is preferably when the bottom surface is circular, and the length of one side is preferably about 20 to 500 μm when the bottom surface is square. If the diameter or the length of one side is less than 20 μm, depending on the viscosity of the transparent resin to be used and the type of mold, it becomes difficult to form the protrusion 3 having a sufficient height, and the scratch resistance effect tends to be reduced. Yes, there is a particular tendency for the front luminance for machining accuracy deteriorates prismatic structures it is necessary to create a prismatic structure lower than the projection 3 is small when the projection 3, exceeds 500 [mu] m, optical prism structure surface The degree of hindering the effect increases and the front luminance tends to decrease, and the protrusion 3 or the back protrusion 5 may be seen with the naked eye.

In the present invention, the ratio of the total installation area of the protrusion 3 and the back protrusion 5 to the total area of the prism sheet 1 is 0.3 to 20%, preferably 2 to 6%, more preferably 3.5 to 4.5%. is there. If this ratio is less than 0.3%, the sheet between the prism sheet 1 and another optical sheet may not be maintained, and these sheets may come into contact with each other, and the prism sheet 1 cannot be sufficiently supported. In some cases, the prism structure 2 may come into contact with another optical sheet, and the scratch resistance effect is reduced. If the ratio exceeds 20%, the degree of obstructing the optical effect of the prism structure surface increases, and the front luminance decreases.
The total installation area of the protrusions 3 or the back surface protrusions 5 is the sum of the areas of the portions where the bottom surfaces of the protrusions 3 or the back surface protrusions 5 are installed on the prism sheet 1.

In the present invention, the arrangement of the protrusions 3 and the back surface protrusions 5 (hereinafter simply referred to as the protrusions 3 and 5) is irregular, and the most important point is that the protrusions 3 are arranged across adjacent prism structures. . When the protrusions 3 and 5 are regularly arranged, for example, in a lattice shape, the emission directions of the light incident on the protrusions 3 and 5 are aligned in a specific direction and emphasize each other. strong, this is moire occurs interferes with optical effects of the prism structure surface, the protrusions 3,5 irregularly arranged, when arranged over the adjacent prism structures projections 3 Accordingly, the projections 3, Since the emission directions of the light incident on 5 are not aligned and cancel each other, the optical effect due to the protrusions 3 and 5 does not occur, and moire does not occur.

The method for forming the irregular array is not particularly limited. For example, the fine particles are dispersed on a flat surface by spraying, the flat surface is photographed by a photographer, etc., and gold is deposited according to the fine particle image array described in the image. An example is a method in which a female mold of protrusions 3 and 5 is engraved on the mold and transferred to a resin.
Also, instead of the above image, a predetermined number of coordinates (f _(x) , f _(y) ) with respect to the origin are created using functions f _(x) and f _(y) that generate random numbers, The female molds of the protrusions 3 and 5 may be engraved on the mold according to the coordinates.
However, the arrangement of the protrusions 3 and 5 is not completely random, and it is preferable to adjust so that the distance between the protrusions is not too short. When the interval between the protrusions 3 and 5 is shorter than about 10 μm, these protrusions 3 and 5 are recognized as if they are one protrusion 3 and may be visible to the naked eye.
The appropriate distance varies depending on the ratio of the installation area of the protrusions 3 and 5 to the total area of the prism sheet 1, but for example, when the installation area of the protrusions 3 and 5 is about 4% of the total area of the prism sheet, 170 to The pitch is about 800 μm.

The above irregular arrangement does not need to be created all at once on the entire back surface of the prism sheet 1, and the irregular arrangement is formed only in the unit section 4 having a shape that can be laid as shown in FIG. An irregular array that can be used in the present invention can be obtained by preparing and arranging a large number of the unit sections 4 as shown in FIG. Here, the shape of the unit section 4 is not limited as long as it is continuous on the plane and can be laid without gaps. Not only the square as shown in FIG. 4 but also a rectangle, a right triangle, an isosceles triangle. It may be a regular hexagon.

When a large number of unit sections 4 are arranged as described above, the unit sections 4 themselves are regularly arranged, so that the entire arrangement of the protrusions 3 and 5 is also partly regular, and very little. A pattern may occur. Specifically, when the coordinate data is input to the computer in order to engrave the female molds of the protrusions 3 and 5 on the mold with the current technology, the relationship between the capacity of the storage device and the calculation speed of the processing device In this case, only coordinate data of a relatively narrow unit section 4 of 5 to 10 mm square can be input, and the arrangement of the protrusions 3 becomes a regular repetition of the unit section 4, which causes a pattern. There is.
Such a slight pattern (pattern) can be eliminated by using a resin mixed with a diffusing material. The kind and amount of the diffusing material are not particularly limited, but may be blended so that the haze of the prism sheet 1 is 35 to 82%. When the haze of the prism sheet 1 is less than 35%, a person with good vision tends to feel a slight moire, and the image quality tends to decrease. When the haze exceeds 82%, the luminance tends to decrease.
Since the prism sheet is thus bent the light incident in parallel with the normal to the predetermined angle, it is not possible to measure directly haze in the method specified in JIS K7136, in the present invention, and said prism sheet Haze is measured for a sheet made of the same material and having a thickness obtained by removing the prism structure 2 and the protrusions 3 and 5 from the prism sheet and having both surfaces flat.

The material of the prism sheet 1 is not particularly limited as long as it is a transparent material, and a normal optical transparent resin can be used. Specific examples of optically transparent resins include acrylic resins, polycarbonate, polystyrene, polyvinyl chloride, polypropylene, polyolefins such as polymethylpentene, cyclic polyolefin, polyethylene terephthalate, polybutylene terephthalate, polyester resins such as polyethylene naphthalate, Examples thereof include thermoplastic resins such as polyamide resins, polyarylate, and polyimide, and curable resins that are cured by ionizing radiation such as acrylic resins.

Examples of the diffusing agent include inorganic particles such as aluminum silicate, calcium silicate, silica, alumina, calcium carbonate, and organic particles such as crosslinked polyacrylate, crosslinked MS resin (MMA and styrene copolymer), and silicon resin. it can.
The amount of the specific diffusing agent, clarity of the diffusing agent, the particle diameter, refractive index, the refractive index of the transparent resin constituting the prism sheet 1, can not be said sweepingly because it changes the thickness and the like of the prism sheet 1 For example, when acrylic particles having an average particle diameter of 2 to 10 μm are used as a diffusing agent, the transparent resin constituting the prism sheet 1 is polycarbonate, and the thickness of the prism sheet 1 is 240 μm, 0.20 to 100 g of the transparent resin. When about 1.5 g is blended, the haze of the prism sheet 1 is about 35 to 82%.

As a method of forming the prism structure 2 and the protrusion 3 on the prism structure surface of the prism sheet 1 and forming the back surface protrusion 5 on the back surface, there are a method using a thermoplastic resin and a method using a curable resin. In the case of a thermoplastic resin, a normal molding method can be used, and a method of injection molding into a desired mold or compression molding of a sheet-like material with a mold is possible.
In extrusion molding, the material extruded into a sheet is embossed under heating, pressed against a mold roll during melt extrusion, or released in advance as described in Japanese Patent No. 2925069. The mold can be transferred to a mold sheet (molded sheet) and molded. When simultaneously forming the prism structure 2, the protrusion 3, and the back surface protrusion 5, for example, one side can be formed by a release sheet and the other side can be formed by a mold roll.
Further, in the case of curable resin, in the case of using ionizing radiation, it is usual to use an ultraviolet curable resin. In general, after applying a curable resin on a transparent support, it is molded by irradiating ultraviolet rays in a mold.
The prism structure 2 and the protrusion 3 on the prism structure surface and the back surface protrusion 5 on the back surface may be integrally formed at the same time, or may be formed separately and bonded together.

The thickness of the prism sheet 1 of the present invention is arbitrary, but from the viewpoint of handling at the time of assembling the liquid crystal television, it is usually preferably from 50 μm to 500 μm, and from the viewpoint of continuous production, preferably from 100 μm to 400 μm.

  EXAMPLES Hereinafter, the present invention will be specifically described with reference to examples, but the present invention is not limited to these examples.

(Adjustment of resin used)
Polycarbonate transparent resin “Panlite L-1225Y” (manufactured by Teijin Kasei Co., Ltd.) and polycarbonate transparent resin “X-0398” (manufactured by Teijin Kasei Co., Ltd.) blended with a diffusing material alone or in a predetermined ratio Used as a mixture. “Panlite L-1225Y” is Resin A, “X-0398” is Resin D, Resin A and Resin D are mixed at a 3: 1 weight ratio, and Resin B is a 2: 1 weight ratio. Resin C was used as resin C.

(Manufacture of prism sheets)
Example 1
A prism sheet is manufactured by extruding resin A in a sheet form from a die at a resin temperature of 295 ° C. for melt extrusion, and narrowing the extruded sheet-shaped molten resin between a release sheet (molding sheet) and a cooling roll. did.
With release sheet female flop rhythm structure in is pre typed on a side unit compartment female is engraved projections of irregular arrangement Some 10mm square is no gap sequence Yes.
Prismatic structures carved as female to said release sheet is an isosceles triangle corners 45 degrees of cross-sectional shape with base in apex angle of 90 degrees, the prism structure of the height at the bottom surface width 25μm is 12 [mu] m 2 (the following examples and comparative examples, and varying the height of the prismatic structures by varying the bottom width) is used to create a prism sheet are arranged.
Further, the protrusion engraved as a female mold on the releasable sheet has a square bottom of 98 μm per side, a height of 19 μm, and a height difference of 7 mm from the top of the prism structure (in the following examples and comparative examples) The height difference is a quadrangular pyramid shape (shown in Table 1), and the total installation area is adjusted to be 4% of the total area of the prism sheet.
On the surface of the cooling roll, unit sections in which female dies with irregularly arranged rear surface protrusions are engraved in a square with a side of 10 mm are arranged without gaps, and the protrusions are square with a bottom surface of 98 μm on one side. It is a quadrangular pyramid with a height of 19 μm, and the total installation area is adjusted to be 4% of the total area of the prism sheet.
The thickness of the portion excluding the prism structure, the protrusions, and the back surface protrusions (hereinafter simply referred to as thickness) from the obtained sheet was 260 μm. The scratch resistance test results and optical characteristics of the obtained prism sheet were measured and determined by the methods described below. The measurement / judgment results are shown in Table 1 together with those of other examples and comparative examples.

Example 2
A prism sheet was prepared in the same manner as in Example 1 except that the thickness was 320 μm.

Examples 3 and 4
A prism sheet was prepared in the same manner as in Examples 1 and 2 except that a cooling roll having a flat surface was used and no back projection was provided.

Example 5
A prism sheet was prepared in the same manner as in Example 1 except that resin B was used as the material and the thickness was 180 μm.

Example 6
A prism sheet was prepared in the same manner as in Example 5 except that the thickness was 320 μm.

Examples 7 and 8
A prism sheet was prepared in the same manner as in Examples 5 and 6 except that a cooling roll having a flat surface was used and no back surface protrusion was provided.

Example 9
A prism sheet was prepared in the same manner as in Example 5 except that resin C was used as the material.

Example 10
A prism sheet was prepared in the same manner as in Example 9 except that the thickness was 320 μm.

Examples 11 and 12
A prism sheet was prepared in the same manner as in Examples 9 and 10 except that a cooling roll having a flat surface was used and no back projection was provided.

Example 13
A prism sheet was prepared in the same manner as in Example 5 except that resin D was used as the material.

Examples 14 and 15
A prism sheet was prepared in the same manner as in Example 13 except that the thicknesses were 260 μm and 280 μm, respectively.

Examples 16-18
A prism sheet was prepared in the same manner as in Examples 13 to 15 except that a cooling roll having a flat surface was used and no back projection was provided.

Example 19, Comparative Examples 1 and 2
The ratio of the total installation area of the protrusions to the total area of the prism sheet (hereinafter sometimes simply referred to as area ratio) is 0.1% (Comparative Example 1), 0.3% (Example 19), 31% (Comparative Example) A prism sheet was prepared in the same manner as in Example 18 except for 2). Since the comparative example 1 has an area ratio that is too small, the scratch resistance is poor. On the contrary, the comparative example 2 has an excessively large area ratio, and thus has low luminance.

Example 20
A prism sheet was prepared in the same manner as in Example 18 except that the bottom surface of each protrusion was a square with a side of 200 μm, the height was 40 μm, and the height of the prism structure was 25 μm.

Example 21
Except that a 35μm height of the prism structures, created a prism sheet in the same manner as in Example 20.

Examples 22 and 23
A prism sheet was prepared in the same manner as in Example 20 except that the area ratio was 10% (Example 22) and 15% (Example 23).

Comparative Example 3
A prism sheet was prepared in the same manner as in Example 18 except that the bottom surface of each protrusion was a square having a side of 70 μm, the height was 13 μm, and the height of the prism structure was 12 μm. Since the height of the prism structure and the height of the protrusion are only 1 μm, the scratch resistance is poor.

Comparative Example 4
A prism sheet was prepared in the same manner as in Comparative Example 3 except that the same cooling roll as in Example 1 was used and a back surface protrusion was provided. Since the height of the prism structure and the height of the protrusion are only 1 μm, the scratch resistance is poor.

Comparative Example 5
Except that a 25μm height of the prism structures, created a prism sheet in the same manner as in Comparative Example 3. Since the prism structure is higher than the protrusion, the scratch resistance is poor.

Comparative Example 6
A prism sheet was prepared in the same manner as in Comparative Example 5 except that the bottom surface of each protrusion was a square having a side of 98 μm and a height of 19 μm. Since the prism structure is higher than the protrusion, the scratch resistance is poor.

Comparative Example 7
Except that the sequence of the projections provided on the prism structure plane is a lattice shape, created a prism sheet in the same manner as in Example 2. Moire occurs because the arrangement of the protrusions is regular.

Example 24
A prism sheet was prepared in the same manner as in Example 2 except that the bottom surface of each protrusion was a square with a side of 50 μm, the height was 10 μm, and the height of the prism structure was 5 μm.

Comparative Example 8
A prism sheet was prepared in the same manner as in Example 2 except that the bottom surface of each protrusion was a square with a side of 50 μm, the height was 11 μm, and the height of the prism structure was 10 μm. Since the height of the prism structure and the height of the protrusion are only 1 μm, the scratch resistance is poor.

Example 25
A prism sheet was prepared in the same manner as in Example 15 except that the bottom surface of each protrusion was a square having a side of 20 μm, the area ratio was 1%, the height was 10 μm, and the height of the prism structure was 5 μm.

Example 26
A prism sheet was prepared in the same manner as in Example 15 except that the bottom surface of each protrusion was a square having a side of 500 μm, the height was 50 μm, and the height of the prism structure was 25 μm.

Example 27
A prism sheet was prepared in the same manner as in Example 15 except that the bottom surface of each protrusion was a square having a side of 15 μm, the height was 8 μm, and the height of the prism structure was 3 μm.

Example 28
A prism sheet was prepared in the same manner as in Example 15 except that the bottom surface of each protrusion was a square having a side of 600 μm, the height was 120 μm, and the height of the prism structure was 25 μm.

Example 29
A prism sheet was prepared in the same manner as in Example 15 except that the bottom surface of each protrusion was a square having a side of 200 μm, the height was 60 μm, and the height of the prism structure was 10 μm.

Example 30
A prism sheet was prepared in the same manner as in Example 15 except that the thickness was 320 μm, the bottom surfaces of the protrusions were each 500 μm square, the height was 110 μm, and the prism structure height was 15 μm.

Example 31
A prism sheet was prepared in the same manner as in Example 15 except that the thickness was 400 μm, the bottom surface of each protrusion was a square having a side of 75 μm, the height was 25 μm, and the height of the prism structure was 20 μm.

(Abrasion resistance test)
[Diffusion sheet friction test]
The prism structure surface and the back surface thereof were rubbed against the diffusion sheet, and the surfaces were observed and evaluated.
Test method: The prism sheets of the above examples and comparative examples are fixed with the prism structure surface or back surface facing up, and the diffusion film BS-702 (manufactured by Eiwa Co., Ltd.) is placed on the uneven surface down. Further, a 50 g weight was placed thereon, and the diffusion film was pulled at a speed of 5 m / min.
Evaluation method: Five panelists were allowed to visually observe the prism structure surface or the back surface of the prism sheet from an oblique direction, and the number of panelists who had scratches was determined according to the following criteria.
○: 0 people △: 1-2 people ×: 3-5 people

(Measurement / judgment method of optical characteristics)
The brightness difference of the prism sheet can be measured by measuring the luminance of each part of the backlight by reducing the light receiving surface of the luminance meter and calculating the difference. However, the quality of the surface light source must be judged by the naked eye.
Further, the quality of the backlight is characterized by the presence or absence of light rays that are strongly emitted in a specific direction, which can be determined by the naked eye as glare.
Therefore, the measurement with a luminance meter and the presence or absence of moire with the naked eye were determined, and the optical characteristics were evaluated.

Measurement of brightness increase rate:
A light diffusion plate “Optmax” (manufactured by Sumitomo Bakelite Co., Ltd.) having a thickness of 2 mm was placed on a backlight (32-inch direct type, Sharp Corporation, LC32D10B). Further thereon, the prism sheets obtained in the examples and comparative examples were placed so that the prism structure surface was the emission surface side and the major axis direction of the prism structure coincided with the major axis direction of the cathode ray tube.
The luminance at the center point of the installed prism sheet was measured at a distance of 500 mm above the surface on which the prism sheet was installed using a luminance meter Minolta CA-1500 (manufactured by Konica Minolta Co., Ltd.) with a measurement area of 4.8 cm ² .
Without placing the prism sheet as a "control", with only the light diffusing plate was measured luminance, by dividing the luminance at the time of placing the prism sheet luminance of the "subject", and the result luminance increase rate did.

Existence of moiré:
A diffusion film D124Z (manufactured by Tsujiden Co., Ltd.) is placed on a backlight (32-inch direct type, manufactured by Sharp Corporation, LC32D10B) with the concavo-convex surface facing up, and obtained on Examples and Comparative Examples on this. Panelists set up the prism sheet so that its back surface is in contact with the uneven surface of the diffusion film, and then visually observes the light emitted from the backlight through the prism sheet to see if moire can be observed. Was visually judged. The evaluation was made according to the following criteria based on the number of panelists who were able to observe moire.
○: 0 people △: 1-2 people ×: 3-5 people

As the ordination, the prism sheet of the present invention is a prism sheet long axis of the top portion are arranged parallel so as to be parallel to each other in a large number of prism structures on one side, 5 from the top of the prism structure A large number of spot-like protrusions are irregularly arranged with a height of approximately 100 μm and a substantially constant height, and the protrusions are arranged across adjacent prism structures, and the ratio of the total installation area of the protrusions to the total area of the prism sheet is By being 0.3 to 20%, the prism structure surface is hardly scratched, and even if it is scratched, it is difficult to visually recognize it, and moire does not occur. Therefore, it is useful as a prism sheet for liquid crystal display devices and the like.

DESCRIPTION OF SYMBOLS 1 Abrasion-resistant prism sheet 2 Prism structure 3 Protrusion 4 Unit division 5 Back surface protrusion

Claims (3)

A prism sheet arranged in parallel so that the major axes of the tops of a large number of prism structures are parallel to each other on one surface, and is 5 to 100 μm higher than the tops of the prism structures and is spot-shaped at a substantially constant height. A plurality of irregular projections are arranged, the bottom surface of the projection is a circle with a diameter of 20 to 500 μm, or a square with one side of 20 to 500 μm, and all the projections are arranged across adjacent prism structures, and the prism sheet A scratch-resistant prism sheet, wherein a ratio of a total installation area of protrusions to a total area of 0.3 to 20%. On the other side, a large number of back surface protrusions having a height of 5 to 100 μm and a substantially constant height are irregularly arranged, and the bottom surface of the back surface protrusion is a circle having a diameter of 20 to 500 μm, or a square having a side of 20 to 500 μm. The scratch-resistant prism sheet according to claim 1, wherein the ratio of the total installation area of the back surface protrusions to the total area of the prism sheet is 0.3 to 20%. The scratch-resistant prism sheet according to claim 1 or 2, wherein the scratch-resistant prism sheet is made of a resin mixed with a diffusing agent and has a haze of 35 to 82%.

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