JP2002116306A - Optical diffusion sheet and backlight unit using the same - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an optical diffusion sheet which has high light diffusibility superior strength and durability, and which can be produced with high yield and a backlight unit which users it. SOLUTION: This is an optical diffusion sheet 1 made of synthetic resin and contains dispersed air bubbles 3.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a light diffusion sheet incorporated in a backlight unit of a liquid crystal display and a backlight unit using the same.

[0002]

2. Description of the Related Art In a liquid crystal display device, a backlight system in which a liquid crystal layer is illuminated from the back surface to emit light has become widespread, and a backlight unit is provided on a lower surface side of the liquid crystal layer. Generally, as shown in FIG. 4A, the backlight unit 30 includes a rod-shaped lamp 31 as a light source and a rectangular plate-shaped light guide plate 32 arranged so that an end thereof is along the lamp 31. And a plurality of optical sheets 33 laminated on the front side of the light guide plate 32. This optical sheet 3
Reference numerals 3 denote specific optical properties such as refraction and diffusion, and more specifically, a light diffusion sheet 34 provided on the surface side of the light guide plate 32 and a light diffusion sheet 34 provided on the surface side of the light diffusion sheet 34. The prism sheet 35 to be provided corresponds to this.

The function of the backlight unit 30 will be described. First, a light beam incident on the light guide plate 32 from the lamp 31 is reflected by a reflection dot or a reflection sheet (not shown) on the back surface of the light guide plate 32 and each side surface. The light is emitted from the surface of the light guide plate 32. Light emitted from the light guide plate 32 enters the light diffusion sheet 34, is diffused, and is emitted from the surface of the light diffusion sheet 34. Thereafter, the light beam emitted from the light diffusion sheet 34 enters the prism sheet 35 and is emitted by the prism portion 35a formed on the surface of the prism sheet 35 as a light beam having a distribution having a peak almost directly above. Thus, the light beam emitted from the lamp 31 is
The light is diffused by the light diffusion sheet 34, is refracted by the prism sheet 35 so as to show a peak almost directly above, and illuminates the entire liquid crystal layer (not shown) further above.

[0004] Although not shown, there is also a backlight unit in which a light diffusion sheet or a prism sheet is further disposed on the front surface side of the prism sheet 35 in consideration of the light-collecting characteristics of the prism sheet 35 described above.

[0005] As the light diffusion sheet 34 of the backlight unit 30 having the above-described structure, a structure in which a base material layer 36 and a light diffusion layer 37 as shown in FIG. The light diffusion layer 37 has a structure in which beads 39 made of a synthetic resin, glass, or the like are dispersed in a binder 38 made of a synthetic resin.

Although the backlight unit 30 is of a so-called edge light type, a light diffusion sheet is also used for a direct type backlight unit, and has a structure similar to that of the light diffusion sheet 34.

[0007]

In the conventional light diffusion sheet 34, poor adhesion between the binder 38 and the beads 39 is apt to occur, and there is a possibility that the beads 39 may be missing or the light diffusion sheet 34 may be whitened. Therefore, the conventional light diffusion sheet 34 has a low production yield.

Further, it is not easy to disperse the beads 39 in the binder 38 of the synthetic resin, and it is difficult to disperse them uniformly. For this reason, there is a possibility that the light diffusing property may vary in each region of the light diffusing sheet 34, and it is difficult to manufacture the light diffusing sheet 34 having a constant light diffusing property.

Further, in the light diffusing sheet 34, the refraction at the interface between the binder 38 and the beads 39 exclusively contributes to the light diffusing action, but it is necessary to increase the difference in the refractive index between the binder 38 and the beads 39. There is a material limitation, and as a result, there is a certain limitation in terms of the material in terms of improving the light diffusibility of the light diffusion sheet 34. Therefore, in order to improve the light diffusing property, it is necessary to increase the blending amount of the beads 39.
This causes a decrease in luminance.

The present invention has been made in view of these disadvantages, and a light diffusion sheet having high light diffusivity, light weight, excellent strength and durability, and good productivity, and a backlight unit using the same. The purpose is to provide.

[0011]

The invention made to solve the above-mentioned problem is a light diffusion sheet made of a synthetic resin, characterized in that it contains bubbles in a dispersed manner.
Here, the term “bubbles” is a concept including not only those inside the sheet but also those that are opened on the surface of the sheet.

According to the light diffusion sheet, it is possible to diffuse light rays transmitted through refraction and reflection at the interface between the dispersed and contained bubbles in various directions. As described above, since some gas is present in the bubbles that express the light diffusing ability of the light diffusing sheet and the base where the bubbles are dispersed is a synthetic resin, the light diffusing agent in the above-described conventional bead-type light diffusing sheet is used. The difference in the refractive index between the bubbles and the base synthetic resin is much larger than the difference in the refractive index between the beads and the binder. Therefore, according to the light diffusion sheet, the refraction angle at the interface between the bubbles is increased, and as a result, the light diffusion ability can be significantly increased as compared with the conventional bead-type light diffusion sheet.

Further, since the light diffusing ability is expressed by air bubbles as described above, there is no risk of chipping or whitening due to poor adhesion of beads as in the conventional bead type light diffusing sheet. Also, there is no risk of scratches due to projecting or missing beads. Therefore, the light diffusion sheet has high durability and handleability.

Further, since the dispersion of air bubbles into the matrix of a synthetic resin or the like is easier than the dispersion of beads, the light diffusion sheet can have a high uniformity of air bubble dispersion, and as a result, the light diffusion ability can be improved. The occurrence of unevenness can be reduced, and mass production of a light diffusion sheet having a constant light diffusion ability is facilitated.

Another invention made to solve the above-mentioned problem is a light diffusion sheet made of synthetic resin, comprising a transparent base material layer and a light diffusion layer, wherein bubbles are formed in the light diffusion layer. It is characterized by being dispersedly contained. According to the light diffusion sheet, since the strength surface as the light diffusion sheet can be secured by the base material layer, the light diffusion layer can be manufactured in consideration of only the light diffusion ability. Therefore, the material of the base constituting the light diffusion layer can be selected from the viewpoint of the dispersibility of the bubbles and the size of the refractive index, and the above-described effects such as productivity and light diffusion can be promoted.

The above-mentioned bubbles are preferably spherical bubbles.
By making the bubbles spherical as in this means, uniformity of diffusion can be promoted, and light diffusion can be controlled by adjusting the density and average diameter of the bubbles.

The average diameter of the bubbles is preferably 0.5 μm or more and 100 μm or less. By setting the average diameter of the bubbles in the above range, it is possible to promote the light diffusivity and the uniformity of diffusion while preventing a decrease in the total light transmittance.

The volume ratio of the bubbles is preferably from 1 vol% to 80 vol%. Here, the “volume ratio of air bubbles” means the volume ratio of air bubbles based on the layer in which the air bubbles exist. By setting the volume ratio of bubbles to the above range,
The light diffusion property can be secured while maintaining the strength and durability of the light diffusion sheet.

The density of the bubbles is preferably 20 / cm ² or more and 4 × 10 ⁶ / mm ² or less. Here, the “density” means the number of bubbles existing per unit area in the light diffusion sheet. By keeping the density of the bubbles in the above range, while preventing a decrease in the total light transmittance,
Light diffusion and uniformity of diffusion can be promoted.

In the light diffusion sheet, a sticking preventing layer in which beads are dispersed in a binder is provided on the surface and / or
Or it is good to laminate on the back. According to such means, a light guide plate disposed on the front side or the back side of the light diffusion sheet,
Sticking with a prism sheet or the like can be prevented.

Therefore, in a backlight unit for a liquid crystal display device comprising a linear lamp and an optical sheet for dispersing a light beam emitted from the lamp and guiding it to the front side, the light sheet of the present invention is used as the optical sheet. A diffusion sheet may be used. According to this backlight unit, the number of optical sheets provided can be reduced due to the high light diffusivity of the light diffusion sheet, and as a result, a reduction in thickness can be promoted. Further, a high-quality backlight unit without luminance unevenness can be provided due to the uniformity of the light diffusing ability of the light diffusing sheet.

[0022]

Embodiments of the present invention will be described below in detail with reference to the drawings as appropriate. FIG. 1 is a schematic cross-sectional view illustrating a light diffusion sheet according to an embodiment of the present invention, FIG. 2 is a schematic cross-sectional view illustrating a light diffusion sheet according to a form different from the light diffusion sheet of FIG. 1, and FIG. FIG. 3 is a schematic cross-sectional view showing a light diffusion sheet according to a mode different from the light diffusion sheets of FIGS. 1 and 2.

The light diffusing sheet 1 shown in FIG. 1 is a single-layer synthetic resin sheet composed of a base material layer 2, in which many fine bubbles 3 are dispersed.

The base material layer 2 is formed of a transparent, especially colorless and transparent synthetic resin because it is necessary to transmit light. The synthetic resin used for the base layer 2 is not particularly limited, and includes, for example, polyethylene terephthalate, polyethylene naphthalate, acrylic resin, polycarbonate, polystyrene, polyolefin, cellulose acetate, weather resistant vinyl chloride, and the like. . Although the thickness of the base material layer 2 is not particularly limited, for example, 10 μm or more and 500 μm or less, preferably 75 μm
It is not less than 250 μm. If the thickness of the base material layer 2 is less than the above range, inconveniences such as reduced strength and difficult handling occur. Conversely, if the thickness of the base material layer 2 exceeds the above range, the brightness of the liquid crystal display device may decrease, and the thickness of the backlight unit increases, which is contrary to the demand for thinning the liquid crystal display device. It will also be.

The base layer 2 may contain, for example, a plasticizer, a stabilizer, a deterioration inhibitor, a dispersant, a light diffusing agent, an inorganic filler, and the like, in addition to the above synthetic resin.

The bubble 3 is a minute portion containing some gas present in the base material layer 2 and its shape is not particularly limited, and for example, various shapes such as a spherical shape, a granular shape, a polyhedral shape, a spinous sugar shape, a random shape, a spindle shape, etc. Are possible. However, in order to control the uniformity of diffusion and the light diffusion, the shape of the bubbles 3 is preferably spherical. In addition, the bubbles 3 exist in principle in the base material layer 2, but there may be open bubbles 4 opened on the front and back surfaces of the base material layer 2, and the light diffusion is promoted by the open bubbles 4. You.

The gas contained in the bubbles 3 is determined by the method of forming the bubbles 3 and is not particularly limited. For example, when a foaming agent is used as described later, air, nitrogen gas, carbon dioxide, ammonia gas, or the like is filled depending on the type of the foaming agent.

The average diameter D of the bubbles 3 is preferably 0.5 μm or more and 100 μm or less, particularly preferably 5 μm or more and 50 μm or less. This is because if the average diameter D of the bubbles 3 is smaller than the above range, the density of the bubbles 3 must be increased in order to secure a predetermined light diffusing property, which may cause a decrease in the total light transmittance. On the contrary, if the average diameter D of the bubbles 3 exceeds the above range, the light diffusion property and the uniformity of the diffusion are impaired.

The volume ratio of the bubbles 3 to the base material layer 2 is preferably 1 vol% or more and 80 vol% or less.
Particularly preferably, the content is not less than vol% and not more than 60 vol%. If the volume ratio of the bubbles 3 is smaller than the above range, the light diffusing property required for the light diffusion sheet cannot be secured.
If the volume ratio exceeds the above range, strength and durability are reduced.

[0030] As the density of the bubble 3, preferably 20 U / mm ² or more 4 × 10 ⁶ U / mm ² or less, 50 co / mm ² or more 2
It is particularly preferably at most 10 ⁶ cells / mm ² . This is because if the density of the bubbles 3 is smaller than the above range, the light diffusibility required for the light diffusion sheet cannot be secured. Conversely, if the density of the bubbles 3 exceeds the above range, the total light transmittance is reduced. Because it is.

The method for manufacturing the light diffusion sheet 1 is as follows.
A foaming agent is added to and kneaded with the resin composition serving as a raw material of the matrix of the base material layer 2, and the resin composition is heated and melted, and the foaming agent is foamed to disperse bubbles in the molten resin composition. A method in which a molten resin composition is formed into a sheet by casting or press molding is used.

In the light diffusing sheet 1, the factor for exhibiting light diffusing property is bubbles 3, and the inside thereof is filled with gas. Therefore, the refractive index difference between the bubbles 3 functioning as a light diffusing agent and the synthetic resin of the matrix of the base material layer 2 is larger than that of the beads of the light diffusing agent in the conventional bead type light diffusing sheet. Therefore, the light diffusion sheet 1 can significantly promote the light diffusion property as compared with the conventional bead type light diffusion sheet. In addition, since the bubbles 3 exhibit light diffusivity, the problem of poor adhesion between the beads and the matrix, such as a bead-type light diffusion sheet, does not occur. Furthermore, since the bubbles 3 are easier to disperse in the matrix than the beads, the productivity is high, and the unevenness of light diffusion is dramatically reduced.

The light diffusion sheet 11 shown in FIG.
And a light diffusion layer 13 laminated on the surface of the base material layer 12. The base layer 12 is the same as the base layer 2 of the light diffusion sheet 1 except that bubbles are dispersed.

The light diffusion layer 13 is composed of a binder 14 formed in a layer and a number of fine bubbles 15 dispersed in the binder 14. The thickness of the light diffusion layer 13 is not particularly limited, but is, for example, about 1 μm or more and 30 μm or less.

The air bubbles 15 are the air bubbles 3 of the light diffusion sheet 1.
The average diameter, the volume ratio to the light diffusion layer 13 and the density are the same as those of the bubbles 3 of the light diffusion sheet 1.

The polymer used for the binder 14 includes, for example, acrylic resin, polyurethane, polyester, fluorine resin, silicone resin, polyamideimide, epoxy resin and the like. Further, in addition to the above-mentioned polymer, for example, a plasticizer, a stabilizer, an anti-deterioration agent, a dispersant, and the like may be added to the binder 14.

As a method for producing the light diffusion sheet 11, a foaming agent is added and kneaded into a resin composition containing a thermosetting resin as a main polymer, and the resin composition is coated on the surface of the base layer 12. Thereafter, a method of forming the light diffusion layer 13 in which the bubbles 15 are dispersed in the binder 14 by thermally curing the resin composition and foaming the foaming agent is adopted.

According to the light diffusion sheet 11, the base layer 1
2, the strength of the light diffusion sheet can be ensured.
In addition, a relatively soft polymer as described above can be selected. The dispersion of the bubbles 15 in the soft binder 14 is easier than the dispersion of the bubbles 3 in the base layer 2 of the light diffusion sheet 1. Therefore, in the light diffusion sheet 11, the bubbles 15 can be more uniformly dispersed, and as a result, the uniformity of diffusion can be further promoted. Further, the light diffusion sheet 11 has high productivity, and mass production of the light diffusion sheet 11 having a predetermined light diffusion property becomes easier.

The light diffusion sheet 21 shown in FIG.
A light diffusion layer 13 laminated on the surface of the base material layer 12 and a sticking prevention layer 22 laminated on the back surface of the base material layer 12
Consists of Since the base layer 12 and the light diffusion layer 13 are the same as the light diffusion sheet 11 in FIG. 2 described above, the same reference numerals are given and the description is omitted.

The anti-sticking layer 22 is composed of a binder 23 and beads 24 dispersed in the binder 23, and prevents sticking with a light guide plate or the like disposed on the back side by the beads 24 protruding from the binder 23. Things. The anti-sticking layer 22
Is the same as the binder 14 of the light diffusion layer 13 in the light diffusion sheet 11.

The beads 24 have a substantially spherical shape, and examples of the material include acrylic resin, polyurethane, polyvinyl chloride, polystyrene, polyacrylonitrile, polyamide and the like. The particle size of the beads 24 is 1 μm or more and 1
It is preferably at most 00 μm, particularly preferably at least 5 μm and at most 50 μm. If the particle size of the beads 24 is less than the above range, it becomes difficult to handle, particularly, it is difficult to protrude from the surface of the binder 23. Conversely, if the particle size exceeds the above range, the beads 24 This is because luminance unevenness may occur. The particle size of the beads 24 means an average particle size.

The amount of the beads 24 is relatively small.
Therefore, the beads 24 are dispersed in the binder 23 apart from each other. On the other hand, the thickness of the anti-sticking layer 22 (meaning the thickness of the portion of the binder 23 excluding the beads 24) is not particularly limited.
It is about 0 μm or less.

[0043]

As described above, according to the light diffusing sheet of the present invention, the light diffusivity can be remarkably increased, the luminance of the backlight unit can be improved, and the luminance unevenness can be prevented. In addition, the handleability and the product yield can be improved, and the cost can be reduced.
Furthermore, since air bubbles are used in place of light diffusing agents such as beads used in conventional light diffusion sheets, they are lighter in weight than conventional light diffusion sheets, and meet the demand for a lighter backlight unit. .

[Brief description of the drawings]

FIG. 1 is a schematic sectional view showing a light diffusion sheet according to one embodiment of the present invention.

FIG. 2 is a schematic sectional view showing a light diffusion sheet according to a mode different from the light diffusion sheet of FIG.

FIG. 3 is a schematic cross-sectional view showing a light diffusion sheet according to a form different from the light diffusion sheets of FIGS. 1 and 2.

4A is a schematic perspective view illustrating a general backlight unit, and FIG. 4B is a schematic cross-sectional view illustrating a general light diffusion sheet.

[Explanation of symbols]

 REFERENCE SIGNS LIST 1 light diffusion sheet 2 base layer 3 air bubble 4 open air bubble 11 light diffusion sheet 12 substrate layer 13 light diffusion layer 14 binder 15 air bubble 21 light diffusion sheet 22 sticking prevention layer 23 binder 24 beads

Claims (8)

[Claims] 1. A light diffusion sheet made of a synthetic resin, wherein the light diffusion sheet contains fine bubbles dispersed therein. 2. A light diffusion sheet made of a synthetic resin, comprising a transparent base material layer and a light diffusion layer, wherein the light diffusion layer contains bubbles in a dispersed manner. 3. The light diffusion sheet according to claim 1, wherein the air bubbles are spherical. 4. An average diameter of the bubbles is 0.5 μm or more and 10 μm or more.
The light diffusion sheet according to claim 1, 2 or 3, which has a thickness of 0 µm or less. 5. The volume ratio of the bubbles is 1 vol% or more and 80 or more.
5% by volume or less.
The light diffusion sheet according to item. 6. The density of the air bubbles is 20 cells / mm ² or more and 4 ×
The light diffusion sheet according to any one of claims 1 to 5, wherein the light diffusion sheet has a density of 10 ⁶ / mm ² or less. 7. The light diffusion sheet according to claim 1, wherein a sticking prevention layer in which beads are dispersed in a binder is laminated on the front surface and / or the back surface. 8. A backlight unit for a liquid crystal display device, comprising: a linear lamp; and an optical sheet for dispersing light rays emitted from the lamp and guiding the dispersed light to the front side, wherein the optical sheet is defined as one of claims 1 to 5. Any one of item 7
A backlight unit for a liquid crystal display device, wherein the light diffusion sheet according to the above item is used.