KR100477192B1 - High contrast reflection screen - Google Patents

Abstract

According to the present invention, the structure of the screen is a triple structure of the surface structure of the semi-transmissive scattering surface, the back reflection film structure of the semi-transmissive reflecting surface, and the black rock reflecting film, thereby securing the left and right viewing angles of the screen with the amount of light scattered from the surface. The light reflected from the transmissive reflecting surface increases the brightness of the image, and the light reflected from the black rock reflecting film increases the darkness, widening the gap between the brightness and the darkness. Multiply by more than 50% -3 times and increase the blackness of the grayscale to increase the sharpness of the image, as well as to form the film thin film structure in front and rear symmetry, enabling both sides of the screen structure before and after It is a high gain, high contrast reflective screen.

Description

High Gain High Contrast Reflective Screen {HIGH CONTRAST REFLECTION SCREEN}

The present invention provides a high-gain high-contrast reflection characterized in that screens can be obtained on both sides of a projection screen, in particular, with high brightness, high contrast, and magnification of black and white gradation. It's about the screen.

Conventionally, Japanese Patent Application Laid-Open No. 07-020575 has a structure in which a transparent sheet such as glass is formed on a surface of a screen on a substrate sheet, and a reflective film is formed on the back surface thereof, but beads of such a structure are mainly used in traffic sign boards and the like. As a coating material, since the incident light and the reflection angle have the same retroreflection, the main light source is reflected toward the projector which is the incident light source, so that the brightness of the screen is reduced to 50% or less at the position of the viewer.

The basic conditions of image are brightness, contrast ratio, and natural color display.

The reflection by the bead layer reduces the contrast ratio, which is one of the basic conditions of the image, and significantly reduces the expression of clarity of the black or the image, and inhibits the natural color display, which is another important condition of the image when using the tinted beads.

Japanese Patent Application Laid-Open No. 9-114001 improves light diffusing characteristics by forming a triangular irregularities on the surface of the screen to balance the half-angle angle and the front luminance of the screen. The natural color is changed by the prism effect of the triangular prism of the screen surface, the brightness decreases in proportion to the spread of the viewing angle from side to side, only the brightness is increased by the aluminum reflective layer, and the accompanying monochrome expression and Contrast was lowered and the sharpness was reduced as the image of the high light source was projected.

As described above, the conventional technology attempts to vary the screen surface and reflects the screen brightness as the reflective surface, but the screen is black and grayscale and high gain to clear the outline of the image generated as the brightness of the screen increases. No attempt was made to achieve contrast.

In view of the above problems, some of the light is scattered or reflected on the surface of the screen, and some of the light is transmitted through the semi-transmissive reflective film, some of the light is transmitted again, some of the light is transmitted, and then transmitted Again forms the triple transflective layer absorbed by the rock reflector, the left and right viewing angles on the screen surface, the brightness of the transflective layer, and the light absorbed by the rock reflector, resulting in high contrast and vivid black and white In presenting the screen of the structure that represents a breakthrough.

In addition, the screen of the present invention is configured in a double-sided screen that can project the front and rear images with one screen, and the front and rear sides of the screen, so that the view angle and brightness, high contrast ratio and black and white gradation low image It is to suggest the structure that can be demonstrated.

In the present invention, when the refraction and diffusion material such as silica is contained in a known filmable surface screen material 2 such as polycarbonate and polyester as shown in FIG. 1, the incident image is refracted and diffused to form an image. When the surface of the surface screen material 2 is formed with an appropriate particle size, the image is reflected and scattered, and when the surface screen material 2 is formed into a thin film, the incident image is transmitted through the surface as well as the back surface to be reflected.

An aluminum vapor deposition film is formed on the back surface of the surface screen material 2, and when the thickness of the vapor deposition film is adjusted, a semi-transmissive reflective film 3 capable of partially transmitting and partially reflecting is formed.

The dark reflection structure 4 of the light absorption layer is comprised on the back surface.

When the structure is symmetrically formed in front and rear double-sided double structure, as shown in Figure 2, the triple transflective reflection and absorption structure as described above can be configured as a film before and after the screen, so that before and after the screen, It is possible to configure a double-sided screen (8) capable of viewing the image to the rear.

As shown in FIG. 1, the screen 1 includes a surface screen material 2 containing silica or the like, a transflective film 3, and a rock reflecting surface 4 on the front surface of the screen 1, and the rear screen material ( 2A), a rear semi-reflective film 3A, and a rear rock reflective film 4A.

As described above, the structure of the double-sided screen 8 having the double-sided structure of the screen 1 constitutes the rotary shaft 7 configured inside the roll case 6 as shown in FIG. 3, and the present invention is coupled to the rotary shaft 7. do. Of course, the structure of the screen 1 of the cross-sectional structure can also be configured in the same manner.

Is it possible to open and close the screen (1) and the double-sided screen (8) of the present invention by a power device such as a remote control by connecting the electric motor to one of the rotary shaft (7).

In this case, as shown in FIG. 3, the double-sided screen 8 of the present invention is installed at the center of the ceiling, and the projectors 8 are installed at the left and right sides thereof. .

The structure of the present invention as described above requires the invention to further increase the sharpness by increasing the contrast ratio and monochrome gradation for the purposes of the present invention.

This will be described in detail in the following technical configuration.

When the screen is used as a front and rear double-sided screen by one side of the screen, the image projected on one side is transmitted, so that the image can be displayed to the front and rear sides, but one side of the two-sided image has the disadvantage that the left and right of the screen is changed.

In the method of forming and projecting the projector in both front and rear, and forming the screen surface in the front and rear surfaces, the conventional conventional glass beads screen reflects at the same angle of incidence direction and reflection direction, so that the projector 9 projected from the ceiling to the screen. Is reflected back to the ceiling and the brightness is reduced by more than 50% at the actual observer position.

Therefore, the screen is usually composed of a screen used as a diffusion screen, but in this case, since the brightness efficiency is lowered, the screen is formed of a screen on which aluminum deposition is formed on the back surface of the screen.

In this case, when using the double-sided screen (8) there is a disadvantage to use the projector before and after two, there is an advantage that the left and right of the image is the same and can significantly increase the brightness efficiency more than 50%.

In general, various screen techniques for increasing brightness and viewing angle have been tried in conventional screen technologies, but there is no configuration for increasing contrast ratio, which is an important condition of sharpness.

Contrast is the ratio of the brightness when the entire screen is white and the brightness when the entire screen is black as shown in FIG.

Generally, the contrast ratio of a TV is 100: 1, and the larger the screen, the more the contrast ratio is required. The contrast ratio of a projector projected on the screen has recently been released up to 1000: 1.

However, no matter how high the contrast ratio of the projector is, there is no use if there is no function that the screen can accept. If the contrast ratio of the screen image is low, the image is not clear, the scene is in the evening, and the object is sharp. You won't be able to.

Black gradation is a fidelity of black as shown in Fig. 5, the projection image by the light source, such as a projector, the three primary colors are red (red), blue, green (green), if all three primary colors are combined (white) It becomes a color, and when all three primary colors are missing, it turns black.

Therefore, black appears as a spot color in addition to the three primary colors. If such black and white gradation is not clear, for example, black appears as gray, and the head of the person, the eyes of the person, etc. are not clear.

FIG. 5 is a diagram showing the fidelity shown by projecting such grayscales on the screen.

Accordingly, increasing the sharpness of the image by increasing the contrast ratio means widening the difference between the brightness of the black and the white of FIG. 4, so that the white is brighter and the black is darker in the screen 1.

In order to achieve this object, in the present invention, for example, 50% of the light sources incident on the surface screen material 2 on the surface of the screen 1 are scattered or reflected on the surface screen material 2, so that The left and right viewing angles are secured, and the remaining 50% transmitted from the surface screen material 2 is reflected by the semi-transmissive reflective film 3, of which 50% (25% as a whole) is reflected to the surface screen material 2 of the surface of the screen 1. ) Increases the brightness in accordance with the reflected and scattered light, and the remaining 50% (25% in total) passes through the semi-transmissive reflective film (3), causing it to reflect in the rock reflecting film (4).

That is, 50% of the total light amount is the basic light amount, 25% of which is reflected by the semi-transmissive reflecting film 3, and increases by 25% in the amount of surface light to increase the brightness, and the remaining 25% is the rock reflecting film 4 It reflects from and increases darkness.

In this process, the bright light image is increased by 50% to 25%, which is 1.5 times brighter, and the dark light image is reduced by 25% compared to 50%, which is 1.5 times lower, so the ratio between brightness and darkness is at least 50% -3 The gap is more than doubled, and the contrast effect is increased by 50% -3 times.

In this process, 25% of the light source of the image is reflected by the rock reflection layer, and black is more surviving when the black is reflected by the blackboard, so that black and white gradation of black is more than 25% overall.

If the black and white gradation of about 70% is expressed in the general screen as shown in Figure 5, in the present invention is increased to about 95% of the black increased by 25% in the present invention, because other black tones are also alive overall, for example, even at night scenes It is not crushed, and a clear outline comes out.

In the present invention, as shown in FIG. 1, S1, which is scattered and reflected on the surface of the screen 1, S2 reflected by the transflective film 3 and the rock reflecting film 4, as shown in FIG. Since the reflected light S3 is combined and displayed in the pixel unit 5 of the screen 1 image as shown in FIG. 1, the contrast ratio is improved, and the vivid image display in which black gradation is reproduced is possible.

The above description is a case where the transmittance and reflectance of the surface screen material 2 are set to 50:50, and the transmittance and reflectance of the transflective reflective film 3 are set to 50:50.

As such, when the reflectance and transmittance of the surface screen material 2 are set to 50:50, the surface screen material 2 is composed of surface particles scattering the surface, but the surface particle size is not limited thereto. In the case of including the refractive scattering particles such as silica in the screen 1, which is a film material which is not a surface particle, for the same purpose, this is not necessarily limited, but when it is usually 30,000-90, OOppm, 50% of reflection And transmittance can be obtained.

In the case where the transmittance and reflectance of the semi-transmissive reflective film 3 are also set to 50:50, the aluminum deposition thickness is preferably 1 to 10 mu m, but is not necessarily limited thereto.

The present invention can adjust the transmittance and reflectance by adjusting the surface particle size of the surface screen material (2) or the content of light refractive scattering particles such as silica, and the deposition thickness of the reflective material of the semi-transmissive reflective film (1). This can also adjust the transmittance and reflectance.

Since the structure of the present invention can be configured in a film state of a thin film as described above, when configured as a double-sided screen 8 of the front and rear double-sided symmetrical structure as shown in Figure 2, the roll case 6 of the ceiling as shown in Figure 3 The projector 9 is configured to the left and right in conjunction with the rotating shaft 7, thereby enabling simultaneous viewing of a clear image of both the contrast ratio and black gradation at the front and rear of the double-sided screen 2.

In particular, the structure of the present invention as shown in Fig. 1 "A" and "B" as the main light source S1 scattered or reflected by the light of the surface of the screen (1), thereby ensuring the viewing angle of the left and right viewing range, and half The light S2 reflected by the transmissive reflecting film 3 is matched on the surface of the screen 1 to increase the brightness of bright light, and the dark light S3 reflected by the rock reflecting film 4 is shown in FIG. By overlapping the pixel 5 unit of the image pixel as shown in the "C", the contrast ratio is 50%-3 times or more, and the grayscale can see a clear image with a significant increase of 25% or more.

In addition, since the invention is composed of a thin thin film, it can be configured in a symmetrical structure with the front and rear surfaces as shown in FIG.

Therefore, the present invention increases the contrast ratio by 50% -3 times or more, increases the sharpness of the image by 50% -3 times, simultaneously reproduces black vision more than 25%, and thins the screen itself. Since the structure can be used as a front and rear double-sided screen structure, it is a very practical invention as an advertising video device, a screen for high-definition video.

1 is a diagram illustrating the configuration of the present invention.

Figure 2 is an explanatory view of the operation and effect of the present invention and the double-sided screen structure

Figure 3 is an explanatory diagram in the application of the present invention

4 is an explanatory diagram of contrast ratio of the present invention

5 is an explanatory diagram of a black and white gradation of the present invention

Brief description of the designations for the symbols in the drawings

1. Screen 2. Surface Screen Material 2A. Rear screen material

3. Transflective film 3A. Rear transflective film

4. Rock Reflex 4A. Rear reflector 5. pixels

6. Roll Case 7. Rotating Shaft 8. Duplex Screen 9. Projector

Claims (2)

In screen structure for image The structure of the screen 1 makes the surface the surface screen material 2, On the back of the surface screen material 2, the transflective film 3 by aluminum deposition is comprised, Behind the semi-transmissive reflective film 3 is composed of a black reflective film 4, The surface screen material 2 is configured to reflect or scatter the incident image on the surface, and partially transmit the incident image, The transflective film 3 is configured to partially transmit light and partially reflect light of an image transmitted from the surface screen material 2, The rock reflection film 4 is configured to reflect light transmitted from the semi-transmissive reflective film 3 so that the reflection or scattered light of the surface of the screen screen material 2 on the surface of the screen 1 and the semi-transmissive reflective film 3 ) And the light reflected from the rock reflecting film 4 are matched on the surface of the screen 1 in units of pixels, The contrast ratio increases significantly, High-gain high-contrast reflective screen characterized by increased black and white gradation The screen 1 structure of claim 1 is configured in a front and rear symmetric structure, High-gain high contrast screen characterized by being able to function as a front and rear double-sided screen 8 in one screen structure