CN203705673U - Brightness enhancement film - Google Patents

Abstract

The utility model provides a brightness enhancement film, and belongs to the field of liquid crystal display. The brightness enhancement film comprises a substrate, a structural layer and an atomizing layer. The substrate is a PET backboard, the structural layer is arranged on one side of the PET backboard, the structural layer comprises at least two first prisms, at least five second prisms are arranged between any two adjacent first prisms, the distance between each first prism and the PET backboard is constant and is 14[mu]m-16[mu]m, the distance between each second prism and the PET backboard is constant and is 12[mu]m-14[mu]m, the atomizing layer is arranged on one side, of the PET backboard, being far from the structural layer, and the atomizing degree is 10%-40%. By employing the above structure, negative optical effects such as Newton rings and moire interference and the like can be effectively reduced, optical performance effects of the brightness enhancement film are relatively good, electrostatic pollution phenomena generated when the brightness enhancement film and a diffusion barrier are stacked up are reduced, by employing the atomizing layer, the diffusion effect, the luminance and the uniformity of light rays are improved, the first prisms and the second prisms are arranged in an intersected manner, and damages generated during touch and assembly processes are reduced.

Description

Brightness enhancement film

Technical field

The utility model relates to field of liquid crystal display, in particular to brightness enhancement film.

Background technology

At present, brightness enhancement film is widely used in illuminating module increases display brightness and the energy of saving display battery apparatus to be used for converging normal application brightness enhancement film (BEF) in the display devices such as the light that light source is sent, especially liquid crystal display.Traditional brightness enhancement film easily produces Newton ring and the negative optical effects such as line interference that change.

Utility model content

The utility model provides a kind of brightness enhancement film, is intended to solve traditional brightness enhancement film and easily produces Newton ring and the problem of the negative optical effects such as line interference repeatedly.

The utility model is achieved in that

A kind of brightness enhancement film, comprise substrate, structural sheet and atomizing layer, described substrate is PET backboard, described structural sheet is arranged on a side of described PET backboard, described structural sheet comprises at least two the first prisms, between adjacent described the first prism, be provided with at least five the second prisms, each described the first prism equates away from the distance of described PET backboard, be 14 μ m-16 μ m, each described the second prism equates away from the distance of described PET backboard, be 12 μ m-14 μ m, described atomizing layer is arranged on the side away from described structural sheet of described PET backboard, the degree of atomization of described atomizing layer is 10%-40%.

This structure can effectively reduce Newton ring and the generation of the negative optical effects such as line interference that change, optical appearance effect is better, the static contamination phenomenon producing while stacking between minimizing brightness enhancement film and diffusion barrier, atomizing layer can promote light diffusion effect, light fogging degree, briliancy and homogeneity, meanwhile, the first prism and the second prism damage that can reduce in touch, assembling process arranged in a crossed manner.

Further, the xsect of described the first prism and described the second prism is isosceles triangle, and the drift angle angle of described isosceles triangle is 85 °-95 °.Drift angle angle is 85 °-95 ° scopes that can control easily light.

Further, the drift angle of described isosceles triangle is circular-arc, and the arc radius of circular-arc drift angle is less than or equal to 2 μ m.Circular-arc drift angle reduces the scuffing in product stack, assembling process.

Further, the surface roughness Ra of described the first prism and described the second prism is all less than or equal to 20 μ m.Surface roughness Ra is less, can make the first prism and the second prism more smooth.

Further, described the first prism and described the second prism all uniformly-spaced arrange.Uniformly-spaced arrange and make distribution of light more even.

The beneficial effects of the utility model are: this structure can effectively reduce Newton ring and the generation of the negative optical effects such as line interference that change, the static contamination phenomenon producing while stacking between minimizing brightness enhancement film and diffusion barrier, atomizing layer can promote light diffusion effect, light fogging degree, briliancy and homogeneity, meanwhile, the first prism and the second prism damage that can reduce in touch, assembling process arranged in a crossed manner.

Brief description of the drawings

Fig. 1 shows the brightness enhancement film that the utility model the first embodiment provides;

Fig. 2 shows the brightness enhancement film that the utility model the second embodiment provides;

Fig. 3 shows the brightness enhancement film that the utility model the 3rd embodiment provides.

Embodiment

Fig. 1 shows the brightness enhancement film that the utility model the first embodiment provides, comprise substrate, structural sheet and atomizing layer 4, structural sheet is arranged on a side of PET backboard 1, substrate is PET backboard 1, structural sheet comprises two the first prisms 2, between adjacent the first prism 2, be provided with five the second prisms 3, each the first prism 2 equates away from the distance of PET backboard 1, be 14 μ m, each the second prism 3 equates away from the distance of PET backboard 1, be 12 μ m, atomizing layer 4 is arranged on the side away from structural sheet of PET backboard 1, and the degree of atomization of atomizing layer 4 is 30%.

This structure can effectively reduce Newton ring and the generation of the negative optical effects such as line interference that change, optical appearance effect is better, the static contamination phenomenon producing while stacking between minimizing brightness enhancement film and diffusion barrier, atomizing layer 4 can promote light diffusion effect, light fogging degree, briliancy and homogeneity, meanwhile, the first prism 2 and the second prism 3 damage that can reduce in touch, assembling process arranged in a crossed manner.

Fig. 2 shows the brightness enhancement film that the utility model the second embodiment provides, comprise substrate, structural sheet and atomizing layer 4, structural sheet is arranged on a side of PET backboard 1, substrate is PET backboard 1, structural sheet comprises two the first prisms 2, between adjacent the first prism 2, be provided with six the second prisms 3, each the first prism 2 equates away from the distance of PET backboard 1, be 16 μ m, each the second prism 3 equates away from the distance of PET backboard 1, be 14 μ m, atomizing layer 4 is arranged on the side away from structural sheet of PET backboard 1, and the degree of atomization of atomizing layer 4 is 10%; The xsect of the first prism 2 and the second prism 3 is isosceles triangle, and the drift angle angle of each isosceles triangle is 85 °.

The angle of drift angle is 85 °-95 ° scopes that can control easily light.

Fig. 3 shows the brightness enhancement film that the utility model the 3rd embodiment provides, comprise substrate, structural sheet and atomizing layer 4, structural sheet is arranged on a side of PET backboard 1, substrate is PET backboard 1, structural sheet comprises two the first prisms 2, between adjacent the first prism 2, be provided with five the second prisms 3, each the first prism 2 equates away from the distance of PET backboard 1, be 15 μ m, each the second prism 3 equates away from the distance of PET backboard 1, be 13 μ m, atomizing layer 4 is arranged on the side away from structural sheet of PET backboard 1, the degree of atomization of atomizing layer 4 is 40%, the xsect of the first prism 2 and the second prism 3 is isosceles triangle, the drift angle angle of each isosceles triangle is 95 °, the drift angle of isosceles triangle is circular-arc, and the arc radius of circular-arc drift angle 5 is 1.5 μ m, and the surface roughness Ra of the first prism 2 and the second prism 3 is all less than or equal to 20 μ m, and the first prism 2 and the second prism 3 all uniformly-spaced arrange.

Circular-arc drift angle 5 reduces the scuffing in product stack, assembling process, and surface roughness Ra is less, can make the first prism and the second prism more smooth, uniformly-spaced arranges and makes distribution of light more even.

The foregoing is only preferred embodiment of the present utility model, be not limited to the utility model, for a person skilled in the art, the utility model can have various modifications and variations.All within spirit of the present utility model and principle, any amendment of doing, be equal to replacement, improvement etc., within all should being included in protection domain of the present utility model.

Claims (5)

1. a brightness enhancement film, it is characterized in that, comprise substrate, structural sheet and atomizing layer, described substrate is PET backboard, described structural sheet is arranged on a side of described PET backboard, described structural sheet comprises at least two the first prisms, between adjacent described the first prism, be provided with at least five the second prisms, each described the first prism equates away from the distance of described PET backboard, be 14 μ m-16 μ m, each described the second prism equates away from the distance of described PET backboard, be 12 μ m-14 μ m, described atomizing layer is arranged on the side away from described structural sheet of described PET backboard, the degree of atomization of described atomizing layer is 10%-40%.

2. brightness enhancement film according to claim 1, is characterized in that, the xsect of described the first prism and described the second prism is isosceles triangle, and the drift angle angle of described isosceles triangle is 85 °-95 °.

3. brightness enhancement film according to claim 2, is characterized in that, the drift angle of described isosceles triangle is circular-arc, and the arc radius of circular-arc drift angle is less than or equal to 2 μ m.

4. brightness enhancement film according to claim 1, is characterized in that, the surface roughness Ra of described the first prism and described the second prism is all less than or equal to 20 μ m.

5. brightness enhancement film according to claim 1, is characterized in that, described the first prism and described the second prism all uniformly-spaced arrange.