KR20130053489A - Light diffusion sheet for a back light unit and the manufacturing method thereof - Google Patents

Abstract

PURPOSE: A light diffusion sheet for an LCD back light unit is provided to prevent the fault generation by suppressing the hot spot generation in the back light unit using an LED lamp by offering the diffusion and shielding function of the light to the light diffusion sheet for an LCD back light unit using the LED lamp. CONSTITUTION: A light diffusion sheet for a back light unit comprises a transparent polyester substrate film(3). The light diffusion sheet for a back light unit becomes a light diffusing layer formed in one side of film, and the light diffusing layer is formed in a plurality of layer of between a binder resin(1) by coating the particle(2) having different diameter with the binder resin.

Description

Light diffusion sheet for a back light unit and the manufacturing method

The present invention relates to a light diffusion sheet for a backlight unit and a method of manufacturing the same, and more particularly, to provide a multi-layered particle layer to evenly diffuse and shield the light emitted from the LED (LED) backlight LED using the LED lamp (LCD) backlight The present invention relates to a light diffusing sheet for an LCD backlight unit and a method of manufacturing the same, which have a function of preventing hot spots from the yut.

BACKGROUND ART Generally, light diffusion sheets for LCD backlight units are used for small and medium displays such as mobile phones, digital cameras, navigation, and the like, and notebooks, desktop monitors, and televisions.

Such LCD backlight units are classified into edge type backlight units provided with linear lamps on one end surface of the light guide plate, or side type backlight units provided with one or more lamps. The light diffusion sheet for LCD backlight unit has a concealing function to erase the shape of the diffused dot and V-shaped cross-section installed at the bottom of the light guide plate to obtain an angle to send light to the top of the light guide plate and unevenness from the light guide plate. The prism sheet protects the prism sheet, the prism sheet to increase the vertical light, and the diffuser sheet that functions to convert the light source into uniform light centered on the front of the backlight unit, and increases the vertical light to brighten the brightness. It can be broadly divided into an image diffusion sheet or the like that conceals a shape, and the lower diffusion sheet and the image diffusion sheet are collectively referred to as a light diffusion sheet.

Recently, CCFLs have been used, but the majority of LCD backlight units using LEDs, which have excellent environmental and light efficiency as a light source, account for most of them, and competition for slimming in the display industry is fierce. And by using the LED lamp to make the thickness of the backlight unit thin.

However, although the conventional light diffusion sheet for the LCD backlight unit as shown in Figure 1 is mainly used to form a light diffusion layer in a single layer of transparent organic particles or inorganic particles using a binder resin, recently the LCD backlight using the LED lamp When the existing light diffusion sheet is used in the unit, the light of the LED lamp is not diffused and shielded properly, causing a problem of contrast difference when the backlight is turned on. In addition, since the brightness of the LED lamp is continuously brightened and the number of uses decreases, the diffusion and shielding effect of the LED lamp (hot spot control) becomes very important.

By the way, to provide a hot spot control effect having the characteristics as described above, Korean Patent Application No. 2009-0028841 is to suppress the hot spots and bright lines generated in the light source and the light incident portion, and to improve the brightness and brightness uniformity In the light guide plate capable of emitting light incident from a side light source to an upper surface, a pattern portion layer having a plurality of optical patterns formed on at least one surface is provided, and a plurality of light diffusion particles are formed in the optical pattern of the pattern portion layer. It is disclosed that the light guide plate is dispersed, wherein the light diffusing particles have a hollow, and the light diffusing particles are made of a material having a refractive index smaller than that of the pattern portion layer.

Patent Document 1: Republic of Korea Patent Application No. 2009-0028841

Accordingly, the present invention has been made in view of the above-described conventional situation, and a first object of the present invention is to provide a light diffusion sheet for LED backlight unit using LED lamps and a light diffusion and shielding function in a backlight unit using LED lamps. An object of the present invention is to provide a light diffusion sheet for an LCD backlight unit, which can suppress occurrence of hot spots and prevent occurrence of defects.

Another object of the present invention is to provide a manufacturing method which can more easily produce a light diffusion sheet for an LCD backlight unit having the above characteristics.

The present invention may also be directed to accomplish these and other objects, which can be easily derived by those skilled in the art from the overall description of the present specification, in addition to the above-mentioned and obvious objects.

Light diffusion sheet for a backlight unit of the present invention for achieving the above object;

A transparent polyester base film,

The light diffusion layer is formed on at least one surface of the film, wherein the light diffusion layer is characterized in that the particles are formed in multiple layers between the binder resin by applying a mixture of particles having a particle diameter different from the binder resin.

According to another configuration of the invention, the refractive index of the particles is characterized in that formed using a 1.35 to 1.70.

According to another configuration of the present invention, the particles are characterized by using particles having an average particle diameter of 1 to 30㎛.

According to another configuration of the invention, the particles are characterized in that selected from acrylic, nylon, urethane, silicone or mixtures thereof.

According to another configuration of the present invention, the binder resin and the particle ratio of the composition is characterized in that 1: 0.75 to 1.25 by weight ratio.

In the light diffusing sheet for a backlight unit of the present invention configured as described above, particles having different particle diameters are formed in multiple layers on the surface of the base film by applying a mixture of binder resin and particles having different particle diameters, and evenly distributed between the particles. Since the binder resin is filled, the brightness and shielding effects are excellently improved, and thus the above-mentioned conventional problems are simply solved.

1 is a cross-sectional view of a conventional light diffusion sheet for an LCD backlight unit;
2 is a cross-sectional view of a light diffusion sheet for an LCD backlight unit to which an LED lamp according to a preferred embodiment of the present invention is applied.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in more detail by preferred embodiments with reference to the drawings, but these are only illustratively presented to illustrate the present invention more specifically, and the scope of the present invention is limited by these embodiments. It will be apparent to those of ordinary skill in the art.

2 is a cross-sectional view of a light diffusion sheet for an LCD backlight unit to which an LED lamp according to a preferred embodiment of the present invention is applied.

As shown in FIG. 2, in the light diffusion sheet according to the preferred embodiment of the present invention, the binder resin 1 and the refractive index on the surface of the base film 3 and at least one surface of the base film 3 are 1.35 to 1. It is preferable that it is comprised from the light-diffusion coating layer formed by the particle | grains 2 which are 1.70, and the said application layer is laminated | stacked in multiple layers using one or more types of particles mixed.

In addition, the light-diffusion sheet of the present invention forms a coating layer of binder resin (1) and particles (2) on the surface of the base film (3), the particles are laminated, the binder resin (1) between the particles (2) It is well filled to shield the LED lamp, and evenly spreads the light, thereby preventing the luminance decrease.

Preferably, in order to implement a light diffusion sheet having excellent brightness and shielding power, the particles 2 of the light diffusion layer are composed of particles having an average particle diameter in the range of 1 μm to 30 μm, It can be formed using mixed particles. If a particle size of 30 μm or more is used, precipitation of particles is severely generated, and coating is difficult to coat normally. In addition, it is preferable to apply the particles evenly in a multi-layer in order to obtain excellent shielding force, it is preferable to coat so that the binder resin is well filled between the particles and the particles. However, if particles smaller than 1 μm are used, particles are agglomerated with each other, making it difficult to disperse, and when particles less than 1 μm rise to the upper layer, it is not preferable. In addition, in order to improve the brightness characteristic while excellent shielding power, it is preferable to apply the spherical shape of the particle | grains of the uppermost layer as spherical as possible. In addition, in order to improve the shielding and brightness characteristics, it is effective to mix and use particles having a particle size smaller than the maximum particle size.

According to another preferred embodiment of the present invention, the composition of the coating liquid applied to the surface of the base film 3 is preferably 1: 0.75 to 1.25 in weight ratio of the binder resin and the particles. Too much or too little particles outside the above ratio is not preferable because the shielding power is significantly worse.

Here, it is preferable to use the refractive index of the particle | grains which form the said application layer 1.35-1.70, and particle | grains of the refractive index range other than this are difficult in manufacture, and are unpreferable.

In addition, the base film may preferably be a transparent polycarbonate film or polyethylene terephthalate film having a transmittance of 85% or more.

Preferably, the light diffusion sheet for the LCD backlight unit may have excellent haze of 80 to 95% and transmittance of 50 to 80%, and the thickness of the light diffusion layer may be 5 to 50 μm. desirable.

Moreover, it is preferable to use the said base film which is a transparent polycarbonate film and a polyethylene terephthalate film whose transmittance | permeability is 85% or more.

In addition, a transparent spherical particle is suitable as the light diffusing agent, and organic particles made of a material such as acrylic, styrene, and silicon, and inorganic particles such as silica and titanium dioxide may be used as the transparent spherical particle. Or it can mix and use 2 or more types.

In addition, the binder resin used in the light diffusion layer of the light diffusion film should be transparent, and may be used alone or in combination of two or more of resins such as acrylic, urethane, epoxy, polyester, and polyamide.

The light diffusing sheet and the back surface of the light diffusing layer formed on one side are provided with antistatic properties, to prevent foreign matters that may occur during sheet production, cutting and assembly, and to prevent slippage and distortion by providing slip property. A coating layer can be formed.

The light diffusion sheet for a backlight unit using the LED lamp manufactured by the present invention has an excellent shielding power and brightness compared to the existing high shielding light diffusion sheet when mounted on the backlight unit.

Hereinafter, the present invention will be described in more detail with reference to Examples. Particles (refractive index: 1.49) and binder resin (refractive index: 1.49) used in the following examples and comparative examples were all used the same kind, and the sample was prepared according to the binder resin and the particle content difference was evaluated.

Example 1

On one side of the transparent polyester film (Toray Advanced Materials, XG6PF2 188 μm), a coating layer having the composition 1 as described below was formed by using microgravure roll, and the coating liquid having the composition 2 was formed on the other side. The application layer is formed using micro gravure roll.

Composition of Coating Liquid1

   -Binder Resin (Aekyung Chemical Co., A-814): 20.0 wt%

   -Curing agent (Aekyung Chemical, DN-950): 2.0 wt%

   Particles (SOKEN, MX500S): 25.0 wt%

   Solvent (methyl ethyl ketone): 52.0 wt%

   Additive (BYK, BYK -110): 1.0 wt%

Composition of Coating Liquid 2

   -Binder Resin (Aekyung Chemical Co., A-184): 35.0 wt%

   -Hardener (Aekyung Chemical, DN-950): 3.5 wt%

   Particles (SOKEN, MR7HG): 0.1 wt%

   Solvent (methyl ethyl ketone): 60.4 wt%

Additive (KAO, KS-1248): 1.0 wt%

Comparative Example 1

On one side of the transparent polyester film (Toray Advanced Materials, XG6PF2 188㎛) as in Example 1, a coating layer having a composition as follows was formed using microgravure roll, and composition 2 was formed on the other side. The applied coating liquid is formed using a microgravure roll.

 Composition of Coating Liquid1

   -Binder Resin (Aekyung Chemical Co., A-814): 20.0 wt%

   -Curing agent (Aekyung Chemical, DN-950): 2.0 wt%

   Particles (SOKEN, MX500S): 30.0% by weight

   Solvent (methyl ethyl ketone): 47.0 wt%

   Additive (BYK, BYK -110): 1.0 wt%

Composition of Coating Liquid 2

   -Binder Resin (Aekyung Chemical Co., A-184): 35.0 wt%

   -Hardener (Aekyung Chemical, DN-950): 3.5 wt%

   Particles (SOKEN, MR7HG): 0.1 wt%

   Solvent (methyl ethyl ketone): 60.4 wt%

Additive (KAO, KS-1248): 1.0 wt%

Comparative Example 2

On one side of the transparent polyester film (Toray Advanced Materials, XG6PF2 188㎛) as in Example 1, a coating layer having a composition as follows was formed using microgravure roll, and composition 2 was formed on the other side. The applied coating liquid is formed using a microgravure roll.

 Composition of Coating Liquid1

   -Binder Resin (Aekyung Chemical Co., A-814): 20.0 wt%

   -Curing agent (Aekyung Chemical, DN-950): 2.0 wt%

   Particles (SOKEN, MX500S): 35.0 wt%

   Solvent (methyl ethyl ketone): 42.0 wt%

   Additive (BYK, BYK -110): 1.0 wt%

Composition of Coating Liquid 2

   -Binder Resin (Aekyung Chemical Co., A-184): 35.0 wt%

   -Hardener (Aekyung Chemical, DN-950): 3.5 wt%

   Particles (SOKEN, MR7HG): 0.1 wt%

   Solvent (methyl ethyl ketone): 60.4 wt%

Additive (KAO, KS-1248): 1.0 wt%

Comparative Example 3

On one side of the transparent polyester film (Toray Advanced Materials, XG6PF2 188㎛) as in Example 1, a coating layer having a composition as follows was formed using microgravure roll, and composition 2 was formed on the other side. The applied coating liquid is formed using a microgravure roll.

 Composition of Coating Liquid1

   -Binder Resin (Aekyung Chemical Co., A-814): 20.0 wt%

   -Curing agent (Aekyung Chemical, DN-950): 2.0 wt%

   Particles (SOKEN, MX500S): 40.0% by weight

   Solvent (methyl ethyl ketone): 37.0 wt%

   Additive (BYK, BYK -110): 1.0 wt%

Composition of Coating Liquid 2

   -Binder Resin (Aekyung Chemical Co., A-184): 35.0 wt%

   -Hardener (Aekyung Chemical, DN-950): 3.5 wt%

   Particles (SOKEN, MR7HG): 0.1 wt%

   Solvent (methyl ethyl ketone): 60.4 wt%

Additive (KAO, KS-1248): 1.0 wt%

Example 2

On one side of the transparent polyester film (Toray Advanced Materials, XG6PF2 188㎛) as in Example 1, a coating layer having a composition as follows was formed using microgravure roll, and composition 2 was formed on the other side. The applied coating liquid is formed using a microgravure roll.

 Composition of Coating Liquid1

   -Binder Resin (Aekyung Chemical Co., A-814): 30.0 wt%

   -Curing agent (Aekyung Chemical, DN-950): 3.0 wt%

   Particles (SOKEN, MX500S): 25.0 wt%

   Solvent (methyl ethyl ketone): 41.0 wt%

   Additive (BYK, BYK -110): 1.0 wt%

Composition of Coating Liquid 2

   -Binder Resin (Aekyung Chemical Co., A-184): 35.0 wt%

   -Hardener (Aekyung Chemical, DN-950): 3.5 wt%

   Particles (SOKEN, MR7HG): 0.1 wt%

   Solvent (methyl ethyl ketone): 60.4 wt%

Additive (KAO, KS-1248): 1.0 wt%

Example 3

On one side of the transparent polyester film (Toray Advanced Materials, XG6PF2 188㎛) as in Example 1, a coating layer having a composition as follows was formed using microgravure roll, and composition 2 was formed on the other side. The applied coating liquid is formed using a microgravure roll.

 Composition of Coating Liquid1

   -Binder Resin (Aekyung Chemical Co., A-814): 30.0 wt%

   -Curing agent (Aekyung Chemical, DN-950): 3.0 wt%

   Particles (SOKEN, MX500S): 30.0% by weight

   Solvent (methyl ethyl ketone): 36.0 wt%

   Additive (BYK, BYK -110): 1.0 wt%

 Composition of Coating Liquid 2

   -Binder Resin (Aekyung Chemical Co., A-184): 35.0 wt%

   -Hardener (Aekyung Chemical, DN-950): 3.5 wt%

   Particles (SOKEN, MR7HG): 0.1 wt%

   Solvent (methyl ethyl ketone): 60.4 wt%

Additive (KAO, KS-1248): 1.0 wt%

Example 4

On one side of the transparent polyester film (Toray Advanced Materials, XG6PF2 188㎛) as in Example 1, a coating layer having a composition as follows was formed using microgravure roll, and composition 2 was formed on the other side. The applied coating liquid is formed using a microgravure roll.

 Composition of Coating Liquid1

   -Binder Resin (Aekyung Chemical Co., A-814): 30.0 wt%

   -Curing agent (Aekyung Chemical, DN-950): 3.0 wt%

   Particles (SOKEN, MX500S): 35.0 wt%

   Solvent (methyl ethyl ketone): 31.0 wt%

   Additive (BYK, BYK -110): 1.0 wt%

Composition of Coating Liquid 2

   -Binder Resin (Aekyung Chemical Co., A-184): 35.0 wt%

   -Hardener (Aekyung Chemical, DN-950): 3.5 wt%

   Particles (SOKEN, MR7HG): 0.1 wt%

   Solvent (methyl ethyl ketone): 60.4 wt%

Additive (KAO, KS-1248): 1.0 wt%

Comparative Example 4

On one side of the transparent polyester film (Toray Advanced Materials, XG6PF2 188㎛) as in Example 1, a coating layer having a composition as follows was formed using microgravure roll, and composition 2 was formed on the other side. The applied coating liquid is formed using a microgravure roll.

 Composition of Coating Liquid1

   -Binder Resin (Aekyung Chemical Co., A-814): 30.0 wt%

   -Curing agent (Aekyung Chemical, DN-950): 3.0 wt%

   Particles (SOKEN, MX500S): 40.0% by weight

   Solvent (methyl ethyl ketone): 26.0 wt%

   Additive (BYK, BYK -110): 1.0 wt%

 Composition of Coating Liquid 2

   -Binder Resin (Aekyung Chemical Co., A-184): 35.0 wt%

   -Hardener (Aekyung Chemical, DN-950): 3.5 wt%

   Particles (SOKEN, MR7HG): 0.1 wt%

   Solvent (methyl ethyl ketone): 60.4 wt%

Additive (KAO, KS-1248): 1.0 wt%

Experimental Example

The physical properties of the sheets prepared in Experimental Examples 1 to 4 and Comparative Examples 1 to 4 were measured as shown in Table 1 below.

1. Measurement of thickness of coating layer

As a coating layer thickness of the sheets prepared in Examples 1 to 4 and Comparative Examples 1 to 4, a side pressure measuring instrument (Mitsutoyo Co., Model: ID-FF125) using a micrometer was used.

2. Haze & transmittance measurement

The haze of the sheets prepared in Examples 1 to 4 and Comparative Examples 1 to 4 was a haze meter (NIPPON DENSHOKU KOGYO Co. Ltd. model 1000) manufactured by Nippon Densoku Co., Ltd., based on ASTM D-1003.

3. Luminance Measurement

For the sheets prepared in Examples 1 to 4 and Comparative Examples 1 to 4, the vertical luminance on the backlight unit assembly was measured using the BM-7 equipment.

4. Adhesion Measurement

For the sheets prepared in Examples 1 to 4 and Comparative Examples 1 to 4, the coating layer was cut using a cross cutter (NITTO DENDKO Co., Ltd.) to make 100 square cells, and then the degree of peeling was measured using 3M magic tape. It was.

 O: Even if one square cell is not dropped

 X: If one square cell falls out

5. Check shielding power

The sheets manufactured in Examples 1 to 4 and Comparative Examples 1 to 4 were assembled to a backlight unit (V12 32 ″, a development model) using an LED lamp to check whether a hot spot was recognized.

 Excellent: If not hot spot recognition

 Good: If you are a weak hot spot.

Bad: Hot Spot Poet

division Thickness (㎛) Haze (%) Transmittance (%) Luminance (cd / cm ² ) Adhesion Shielding force Example 1 210 μm 89.6% 72.1% 9731 O Good Comparative Example 1 213 μm 89.4% 73.1% 9701 O Bad Comparative Example 2 213 μm 89.5% 73.5% 9630 O Bad Comparative Example 3 215㎛ 89.3% 74.1% 9639 O Bad Example 2 210 μm 89.5% 74.1% 9710 O Good Example 3 212 ㎛ 89.9% 75.2% 9787 O Excellent Example 4 212 ㎛ 89.4% 75.2% 9679 O Good Comparative Example 4 213 μm 88.7% 76.3% 9480 O Bad

As shown in Table 1, according to Examples 1 and 3, it can be seen that when the binder resin and the particles form a 1: 1 ratio, the luminance and shielding power tend to be excellent, and the amount of particles is increased at a constant amount of resin. Or, if the amount of resin increases at a certain particle amount it can be seen that the brightness and shielding power is lowered.

Although the invention has been described in detail only with respect to the specific examples and comparative examples described above, it will be apparent to those skilled in the art that various modifications and variations are possible within the scope of the invention, and such modifications and modifications belong to the appended claims. will be.

1 --- Binder Resin
2 --- particle
3 --- base film

Claims (5)

A transparent polyester base film,
A light diffusing layer formed on at least one surface of the film, wherein the light diffusing layer is formed by applying a mixture of particles having a particle diameter different from that of the binder resin, wherein the particles are formed in multiple layers between the binder resins. Diffusion sheet.
The light diffusing sheet of claim 1, wherein the particles have a refractive index of 1.35 to 1.70.
The light diffusing sheet for a backlight unit according to claim 1, wherein the particles use particles having an average particle diameter of 1 to 30 µm.
The light diffusion sheet of claim 1, wherein the particles are selected from acryl, nylon, urethane, silicone, or a mixture thereof.
The light diffusion sheet for a backlight unit according to any one of claims 1 to 5, wherein the composition ratio of the binder resin and the particles is 1: 0.75 to 1.25 by weight.

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