CN201218846Y - Optical diffusion film and LCD device using the same - Google Patents

Abstract

The utility model claims an optical diffusion film and a liquid crystal display device using the optical diffusion film, characterized in that the film comprises a transparent base plate, on the upper surface of which an upper diffusion coat containing upper diffusion particles is mounted, the upper diffusion particles include macro-particles and small-particles which are provided with maximum geometrical sizes respectively ranging from 1 to 100 microns and 0.1 to 50 microns, geometrical sizes of the macro- and small-particles parallel to surface direction of the transparent base plate is 2:1-100:1, the macro- and small-particles are arranged with spaces, thickness of the upper diffusion coat after film forming is 1/2-7/8 of the maximum geometrical size of the macro-particles. Features thereof comprise: clearances among the macro-particles are replaced by small-particles by controlling size and shape of the macro- and small-particles and arranging them with spaces, thereby reducing loss of light source, increasing light gathering capability of films and reaching good atomization effect; furthermore, the display device of the film is applied with fewer number of combined assemblies and higher optical evenness and brightness.

Description

A kind of optical diffusion membrane and use the liquid crystal indicator of this optical diffusion membrane

Technical field

The utility model relates to a kind of optical thin film, especially relates to a kind of optical diffusion membrane and uses the liquid crystal indicator of this optical diffusion membrane.

Background technology

Existing optical diffusion membrane is widely used in liquid crystal indicator, advertising lamp box, lighting, mobile communication equipment button etc. and needs on the device of light source so that even illumination to be provided.In recent years along with the fast development of liquid crystal indicator and its widespread use in mobile communication equipment demonstration, laptop computer displays, desktop computer display and large scale liquid crystal TV, performance requirement to the optical diffusion membrane that is applied to liquid crystal indicator also improves day by day, mainly concentrates on and improves on brightness and the illumination uniformity.

Existing application mostly is figuratum organic film of single belt that adopts the production of calendering technology and the multilayer film that adopt application pattern to produce in the optical diffusion membrane of liquid crystal indicator, wherein contains the scattering particle of different size in the overlay of the multilayer film that adopt application pattern production.Fig. 7 is the structural representation of the optical diffusion membrane produced of traditional employing application pattern, and this optical diffusion membrane mainly comprises transparency carrier 10, last overlay 20 and go up scattering particle 40 and following overlay 30 reach under scattering particle 50.The optical diffusion membrane that traditional employing application pattern is produced mainly relies on the scattering particle of random scatter in the overlay and different size that the incident ray that enters in the coating is carried out abundant scattering, so that the direction stochastic distribution of emergent ray, thereby make the inhomogeneous light field homogenising of incident, and the flaw of film lower back optical mode set of pieces is hidden.Simultaneously, because the top of some larger-size particles protrudes in coating surface, formation has the curved surface 21 of certain optically focused effect to light, thereby makes this kind optical diffusion membrane have certain light gathering.Yet in this design, owing to have only the larger-size particle of minority to protrude in coating, and because the particle diameter of the particle of these large-sizes is bigger, make that the gap between particle and the particle is bigger, cause the part light source from the gap, to be missed, cause loss of light source, so the light gathering of this film is very limited.And the shape of particle, Size Distribution is very wide, though can increase the optics diffusivity of film, the light gathering of having lost film has simultaneously reduced luminance gain, makes that directly the brightness of the liquid crystal indicator of this film of use is not high.

Summary of the invention

Technical problem to be solved in the utility model provides a kind of liquid crystal indicator that can effectively improve the optical diffusion membrane of optics uniformity coefficient and brightness and use this optical diffusion membrane.

The utility model solves the problems of the technologies described above the technical scheme that is adopted: a kind of optical diffusion membrane, it comprises transparency carrier, the upper surface of described transparency carrier is provided with diffusion coating, described going up in the diffusion coating is provided with diffusion particle, the described diffusion particle of going up is distributed on the upper surface of described transparency carrier, the described diffusion particle of going up comprises macroparticle and small-particle, the biggest size of element of described macroparticle is 1～100 micron, the biggest size of element of described small-particle is 0.1～50 micron, the physical dimension that described macroparticle is parallel to described transparency carrier surface direction is 2: 1～100: 1 with the ratio that described small-particle is parallel to the physical dimension of described transparency carrier surface direction, described macroparticle and described small-particle are spaced, after the described film forming that goes up diffusion coating thickness be described macroparticle biggest size of element 1/2～7/8; The ratio of physical dimension that the physical dimension that is parallel to the transparency carrier surface direction when macroparticle and small-particle are parallel to the transparency carrier surface direction is during less than 2: 1, do not have closelypacked effect between macroparticle and the small-particle, and, on operating procedure, have bigger difficulty when their ratio during greater than 100: 1.

Described transparency carrier is that 1.4～1.75 optically transparent material is made by refractive index, described optically transparent material is glass, PET (Polyethylene Terephthalate, polyethylene terephthalate), PC (Polycarbonate, polycarbonate), PMMA (Polymethyl Methacrylate, polymethylmethacrylate) any and among the PS (Polystyrene, polystyrene); The described refractive index that goes up diffusion coating is 1.4～1.7.

Described macroparticle and described small-particle be shaped as sphere or elliposoidal, also can be pyramid and other multiaspect builds; The refractive index of described macroparticle and described small-particle is 1.4～2.0.

Described macroparticle and described small-particle be shaped as sphere, the particle diameter of described macroparticle is 2: 1～100: 1 with the ratio of the particle diameter of described small-particle.

The lower surface of described transparency carrier is provided with the anti-bonding coating with pattern structure, be provided with anti-bonding particle in the described anti-bonding coating, described anti-bonding particle does not contact mutually and disperses to be arranged on the lower surface of described transparency carrier, and the shared area sum of described anti-bonding particle prevents that with described the ratio of the area of bonding coating is 1/1000～1/100.

A kind of liquid crystal indicator, this device comprises and is used for the luminous light source assembly, liquid crystal panel assembly and a slice optical diffusion membrane at least, described optical diffusion membrane comprises transparency carrier, the upper surface of described transparency carrier is provided with diffusion coating, described going up in the diffusion coating is provided with diffusion particle, the described diffusion particle of going up is distributed on the upper surface of described transparency carrier, the described diffusion particle of going up comprises macroparticle and small-particle, the biggest size of element of described macroparticle is 1～100 micron, the biggest size of element of described small-particle is 0.1～50 micron, the physical dimension that described macroparticle is parallel to described transparency carrier surface direction is 2: 1～100: 1 with the ratio that described small-particle is parallel to the physical dimension of described transparency carrier surface direction, described macroparticle and described small-particle are spaced, after the described film forming that goes up diffusion coating thickness be described macroparticle biggest size of element 1/2～7/8.

Described light source assembly comprises light source, light guide plate and reflector plate, and described light source is arranged on the side of described light guide plate, and described light source is at least a in cold-cathode fluorescence lamp, external electrode fluorescent lamp, light emitting diode and the hot-cathode fluorescent lamp.

Described light source assembly comprises light source, diffuser plate and reflector plate, described light source is arranged between described diffuser plate and the described reflector plate, and described light source is at least a in cold-cathode fluorescence lamp, external electrode fluorescent lamp, light emitting diode and the hot-cathode fluorescent lamp.

Compared with prior art, advantage of the present utility model is by controlling the macroparticle in the diffusion coating and the size and the shape of small-particle, and macroparticle and small-particle be spaced, make the gap between the macroparticle be replaced like this by small-particle, not only make and enter the abundant scattering that the interior incident ray of diffusion coating obtains sized particles, reduced the loss of light source effectively, strengthened the light gathering of film, and can reach good atomizing effect, sized particles is spaced the use amount that this structure has effectively reduced particle simultaneously; The anti-bonding coating that is provided with anti-bonding particle makes optical diffusion membrane form a thin air layer when specifically being applied in the display device and between other elements; Used the liquid crystal indicator of optical diffusion membrane of the present utility model, it has less combine component quantity, and has higher optics uniformity coefficient and brightness.

Description of drawings

Fig. 1 is the diagrammatic cross-section of the optical diffusion membrane of the utility model embodiment one;

Fig. 2 is the diagrammatic cross-section of the optical diffusion membrane of the utility model embodiment two;

Fig. 3 is the diagrammatic cross-section of the optical diffusion membrane of the utility model embodiment three;

Fig. 4 is the structural representation of the liquid crystal indicator of the utility model embodiment four;

Fig. 5 is the structural representation of the liquid crystal indicator of the utility model embodiment five;

Fig. 6 is the structural representation of the liquid crystal indicator of the utility model embodiment six;

Fig. 7 is the diagrammatic cross-section of the optical diffusion membrane of prior art.

Embodiment

Embodiment describes in further detail the utility model below in conjunction with accompanying drawing.

Embodiment one:

As shown in Figure 1, a kind of optical diffusion membrane, this optical diffusion membrane 100 mainly comprises a transparency carrier 110, the upper surface of transparency carrier 110 is provided with one and goes up diffusion coating 120, be provided with diffusion particle in the last diffusion coating 120, last diffusion particle is distributed on the upper surface of transparency carrier 110, and last diffusion particle comprises the macroparticle 140 of spherical structure and the small-particle 150 of spherical structure.In this specific embodiment, the biggest size of element of macroparticle 140 can be in 1～100 micrometer range, when macroparticle 140 bigger, be that its biggest size of element is during greater than 100 microns, coated technique will compare difficulty, and when macroparticle 140 littler, when promptly its biggest size of element is less than 1 micron, will bring very big challenge to the configuration of last diffusion coating 120; The biggest size of element of small-particle 150 can be in 0.1～50 micrometer range, the value of the concrete physical dimension of macroparticle 140 and small-particle 150 can be mode value of choosing of 2: 1～100: 1 according to the ratio of the particle diameter of macroparticle 140 and the particle diameter of small-particle 150, and macroparticle 140 is spaced together with small-particle 150, make the gap between the macroparticle 140 be substituted by small-particle 150, thereby make the light 170 that transmits from below carry out abundant scattering by macroparticle 140 and small-particle 150, effectively avoid light leakage phenomena, reduced the loss of light source.The particle diameter of macroparticle 140 is 20 microns in the present embodiment, and the particle diameter of small-particle 150 is 5 microns.

After the film forming of last diffusion coating 120 thickness be strictly controlled at its inner macroparticle 140 biggest size of element 1/2, by thickness after the film forming of controlling diffusion coating 120, make optical diffusion membrane 100 can control the centre visual angle brightness and the angular field of view of output light.Macroparticle 140 has part to be buried in the diffusion coating 120, and another part exposes on last diffusion coating 120, forms the lens arrangement with spotlight effect, and the light 170 that transmits from below is assembled to the center.

In this specific embodiment, transparency carrier 110 is made by PET (Polyethylene Terephthalate, polyethylene terephthalate) material; The refractive index of last diffusion coating 120 is 1.4～1.7; The refractive index of macroparticle 140 and small-particle 150 is 1.4～2.0.

Embodiment two:

As shown in Figure 2, the structure of present embodiment and embodiment one is basic identical, difference only is that the lower surface of the transparency carrier 110 of present embodiment is provided with an anti-bonding coating 130 with pattern structure, be provided with the anti-bonding particle 160 of spherical structure in the anti-bonding coating 130, the particle diameter of anti-bonding particle 160 is slightly larger than thickness after the film forming of preventing bonding coating 130.The physical dimension of anti-bonding particle 160 is less, the particle diameter of anti-bonding particle is about 5 microns in the present embodiment, they are arranged on the lower surface of transparency carrier 110 by non-touching sparse dispersion at random, form a thin air layer when making optical diffusion membrane 100 in specifically being applied to module backlight and between other elements.The shared area sum of all anti-bonding particle 160 is 1/500 with the ratio of the area of anti-bonding coating 130.

Embodiment three:

As shown in Figure 3, the optical diffusion membrane 200 of present embodiment comprises that equally 210, one of transparency carriers include the last diffusion coating 220 of spherical macroparticle 240 and spherical small-particle 250 and one and include anti-bonding particle 260 and have the anti-bonding coating 230 of pattern structure.Be with embodiment two differences shown in Figure 2, the particle diameter of macroparticle 240 is 10 microns in the present embodiment, the particle diameter of small-particle 250 is 5 microns, macroparticle 240 is 2: 1 with the particle diameter ratio of small-particle 250, this optical diffusion membrane 200 (sized particles mix use) and the optical diffusion membrane that all adopts macroparticles (particle diameter is 10 microns) are made mist degree and brightness ratio, as can be seen from Table 1, the optical diffusion membrane 200 of present embodiment, can change the atomizing effect of going up diffusion coating 220, increase the brightness of optical diffusion membrane 200.

The optical diffusion membrane of table 1 present embodiment and all employings

The mist degree of the optical diffusion membrane of macroparticle and brightness comparison sheet

Particle diameter	Mist degree	Brightness
			10μm	90.21	1784.7
5 μ m (small-particle), 10 μ m (macroparticle)	91.68	1934.8

Embodiment four:

As shown in Figure 4, for using two above-mentioned optical diffusion membranes to be applied to the example of laptop computer displays.This device comprises and is used for luminous light source assembly, liquid crystal panel assembly 450 and two optical diffusion membranes 440.Light source assembly comprises transparent light guide plate 430 and the high efficiency reflector plate 420 in light source 410 (fluorescent tube), the laptop computer displays, and light source 410 (fluorescent tube) is arranged on the side of light guide plate 430.Light source 410 (fluorescent tube) can be at least a in cold-cathode fluorescence lamp, external electrode fluorescent lamp, light emitting diode and the hot-cathode fluorescent lamp.

In this specific embodiment, the macroparticle in the optical diffusion membrane 440 be shaped as elliposoidal.

Embodiment five:

As shown in Figure 5, for using two above-mentioned optical diffusion membranes to use the example of desktop computer display.Wherein, 410 is light source (fluorescent tube), and 420 is the high-level efficiency reflector plate, and 460 is the light guide plate in the desktop computer display, and 440 is optical diffusion membrane, and 450 is display panels.

In this specific embodiment, the macroparticle in the optical diffusion membrane 440 be shaped as elliposoidal.

Embodiment six:

As shown in Figure 6, for using two above-mentioned optical diffusion membranes to be applied to the example of lcd tv display.The light source assembly of this device comprises diffuser plate 470 and the high efficiency reflector plate 420 in light source 410 (fluorescent tube), the LCD TV, and light source 410 (fluorescent tube) is arranged between diffuser plate 470 and the reflector plate 420.Among the figure, 440 is optical diffusion membrane, and 450 is display panels.

In this specific embodiment, the macroparticle in the optical diffusion membrane 440 be shaped as elliposoidal.

It is pointed out that for various different types of display device, can satisfy the different brightness and the demand at visual angle by the optical diffusion membrane that uses individual or many anticipatory remarks utility model.

Claims (8)

1, a kind of optical diffusion membrane, it comprises transparency carrier, the upper surface of described transparency carrier is provided with diffusion coating, described going up in the diffusion coating is provided with diffusion particle, the described diffusion particle of going up is distributed on the upper surface of described transparency carrier, it is characterized in that the described diffusion particle of going up comprises macroparticle and small-particle, the biggest size of element of described macroparticle is 1～100 micron, the biggest size of element of described small-particle is 0.1～50 micron, the physical dimension that described macroparticle is parallel to described transparency carrier surface direction is 2: 1～100: 1 with the ratio that described small-particle is parallel to the physical dimension of described transparency carrier surface direction, described macroparticle and described small-particle are spaced, after the described film forming that goes up diffusion coating thickness be described macroparticle biggest size of element 1/2～7/8.

2, a kind of optical diffusion membrane according to claim 1 is characterized in that described transparency carrier is that 1.4～1.75 optically transparent material is made by refractive index, and described optically transparent material is any among glass, PET, PC, PMMA and the PS; The described refractive index that goes up diffusion coating is 1.4～1.7.

3, a kind of optical diffusion membrane according to claim 1, what it is characterized in that described macroparticle and described small-particle is shaped as sphere or elliposoidal, and the refractive index of described macroparticle and described small-particle is 1.4～2.0.

4, a kind of optical diffusion membrane according to claim 3 is characterized in that the sphere that is shaped as of described macroparticle and described small-particle, and the particle diameter of described macroparticle is 2: 1～100: 1 with the ratio of the particle diameter of described small-particle.

5, according to each described a kind of optical diffusion membrane of claim 1 to 4, the lower surface that it is characterized in that described transparency carrier is provided with the anti-bonding coating with pattern structure, be provided with anti-bonding particle in the described anti-bonding coating, described anti-bonding particle does not contact mutually and disperses to be arranged on the lower surface of described transparency carrier, and the shared area sum of described anti-bonding particle prevents that with described the ratio of the area of bonding coating is 1/1000～1/100.

6, a kind of liquid crystal indicator, this device comprises and is used for the luminous light source assembly, liquid crystal panel assembly and a slice optical diffusion membrane at least, described optical diffusion membrane comprises transparency carrier, the upper surface of described transparency carrier is provided with diffusion coating, described going up in the diffusion coating is provided with diffusion particle, the described diffusion particle of going up is distributed on the upper surface of described transparency carrier, the described diffusion particle of going up comprises macroparticle and small-particle, the biggest size of element of described macroparticle is 1～100 micron, the biggest size of element of described small-particle is 0.1～50 micron, the physical dimension that described macroparticle is parallel to described transparency carrier surface direction is 2: 1～100: 1 with the ratio that described small-particle is parallel to the physical dimension of described transparency carrier surface direction, described macroparticle and described small-particle are spaced, after the described film forming that goes up diffusion coating thickness be described macroparticle biggest size of element 1/2～7/8.

7, a kind of liquid crystal indicator according to claim 6, it is characterized in that described light source assembly comprises light source, light guide plate and reflector plate, described light source is arranged on the side of described light guide plate, and described light source is at least a in cold-cathode fluorescence lamp, external electrode fluorescent lamp, light emitting diode and the hot-cathode fluorescent lamp.

8, a kind of liquid crystal indicator according to claim 6, it is characterized in that described light source assembly comprises light source, diffuser plate and reflector plate, described light source is arranged between described diffuser plate and the described reflector plate, and described light source is at least a in cold-cathode fluorescence lamp, external electrode fluorescent lamp, light emitting diode and the hot-cathode fluorescent lamp.

Images