KR100693325B1 - Rear projection screen - Google Patents

Abstract

The present invention provides a rear projection screen (1) in which a light beam is projected from the rear surface so that an image can be viewed from the front side, wherein the screen (1) is thermocompressed to the transparent plate (3) and the rear surface of the transparent plate (3). And the angle (α) (β) (γ) with respect to the back side of the transparent plate 3 is arranged in successive parallel to the left and right to protrude forward by refracting the light beam up and down in the range of 5 ~ 65 degrees The optical sheet 8 is formed with a plurality of biangular microprisms 5 which are continuously changed to have a gradient, and adhered to the front surface of the transparent plate 3 and the front and rear surfaces of the transparent film 2. Diffusion film 20 having a diffusion layer 6 in which light rays refracted through the optical sheet 8 are scattered and diffused in each direction, and anisotropic microprisms of the optical sheet 8 on the upper surface of the diffusion layer 6. (5) Shading formed to be parallel to each other horizontally between The back comprises a swaecheung (4) provides a projection screen (1).

As described above, the rear projection screen according to the present invention has no reflection of reflection on the surface of the observation side even in bright environment such as sunlight, and can obtain a high-definition color image of a high black level, The screen can be configured at a low price, and in particular, there is an effect of preventing distortion of an image due to a ghost phenomenon.

Rear Projection Screen, Gradient, Shading Imprint Layer, Contrast, Viewing Angle, Angle Micro Prism

Description

Rear projection screen

1 illustrates an arrangement of a rear projection screen according to an embodiment of the present invention.

2 is a longitudinal sectional view of a rear projection screen according to an embodiment of the present invention;

3 is a view showing an angled microprism optical sheet and its operation of a rear projection screen according to an embodiment of the present invention.

4 is a view showing a light-shielding printed layer of a rear projection screen and its function according to an embodiment of the present invention.

5 is a perspective view of an angle microprism optical sheet of a rear projection screen according to an embodiment of the present invention;

※ Explanation of code about main part of drawing ※

1: rear projection screen 2: transparencies

3: transparent plate 4: shading printed layer

5: Anisotropic microprism 6: Diffusion layer

7: adhesive layer 8: optical sheet

20: diffusion film

P: projector

The present invention relates to a rear projection screen, and more particularly, an angle at which each angle is changed so that the image of the projector is received from the rear side and the whole has a gradient in the vertical direction. The present invention relates to a rear projection screen which allows an image to be viewed through the front surface by first refracting through the optical sheet on which the microprisms are formed and then diffusing in the diffusion layer on the front optical film.

In order to obtain a projected image by a projector or the like, a projection screen is widely used. This projection screen includes a transmissive rear projection screen and a reflective projection screen. Two important elements are required for such a projection screen. The first is that there is no surface reflection due to the low surface reflection of external light (sunlight or ambient light) on the image observer, and the second is that high contrast ratio is secured by securing black level.

The present invention is a method of a transmissive screen for projecting a projection image of a projector on an inner surface of a display window or a glass window, and projects the projector image toward the rear of the screen. This has been put into practical use as a rear transmissive screen for reproducing guidance, advertisements, video information and the like.

However, such a conventional screen cannot cope with the intensity of the reflected image or the external light reflected from the observer's glass surface under bright light such as sunlight, and the projected image seen from the observer's side is an unclear image with a weak contrast. There is a problem that becomes.

In addition, as the large-screen video display device, a structure in which LED lamps are conventionally arranged over a display area is widely used, but has a problem that it is very expensive and takes a lot of installation work.

In order to solve the above problems, the inventors of the present invention in the rear projection screen filed with the same as the present patent application, in the rear projection screen to receive the light beam from the rear to view the image from the front, the The screen is bonded to the transparent plate, the back of the transparent plate and the optical sheet formed with a plurality of micro-prism protruding to the rear in parallel to the left and right to refract light and to guide the front, the transparent film is bonded to the front of the transparent plate A diffuser film having a diffusion layer in which light rays refracted through the optical sheet are scattered in each direction and diffused in front and rear surfaces of the diffusion sheet, and formed on a top surface of the diffusion layer to form a horizontal parallel line between the microprisms of the optical sheet. It has been proposed a rear projection screen comprising a light shielding printing layer.

However, the microprisms formed on the optical sheet of such a rear projection screen are affected by the microprism because the light rays reaching each point on the projection screen are continuously changed according to the installation position (height) of the projector relative to the screen. The refracted light rays are horizontal to each other and do not face forward, but the direction to which the image is directed is different, so that a ghost phenomenon in which an image of multiple images is formed may appear.

Accordingly, the present invention was created to solve the above problems, and an object of the present invention is to provide a rear projection screen which prevents ghosting by using an optical sheet made of a microprism having an angle continuously changing in the vertical direction. It is.

The above object is a rear projection screen for projecting a light beam from the rear to view an image from the front side, wherein the screen is thermally compressed on the back of the transparent plate and the transparent plate and the left and right to refract the light to guide forward An optical sheet in which a plurality of angle microprisms are formed such that an angle with respect to the rear surface of the transparent plate which is continuously arranged in parallel to the rear surface and continuously changes vertically in a range of 5 to 65 degrees to have a gradient thereon; A diffusion film formed on a front surface of the transparent plate and having a diffusion layer on the front and rear surfaces of the transparent film scattered in each direction by the light beams scattered in each direction, and between the bipolar microprisms of the optical sheet on the upper surface of the diffusion layer; It can be achieved by including a light shielding printing layer formed to form a horizontal parallel line between the Can be.

In the rear projection screen to receive the light beam from the rear surface of the present invention for achieving the above object, the screen is a transparent plate, and the thermo-compression on the back of the transparent plate and refracted A plurality of angle microsprisms, in which the angle of the back surface of the transparent plate which is continuously arranged in parallel to the left and right to guide the front, is continuously changed vertically in the range of 5 to 65 degrees so that the whole has a gradient. A diffusion film having an optical sheet formed thereon, a diffusion film formed on a front surface of the transparent plate and having a diffusion layer scattered in each direction by light rays refracted through the optical sheet on front and rear surfaces of the transparent film, and on the upper surface of the diffusion layer. It includes a light shielding printed layer formed to form a horizontal parallel line between the angle between the micro-prisms of the It is configured by.

Here, the diffusion layer formed on the diffusion film is characterized in that formed by coating and drying a solution of a mixture of white particles and an acrylic binder.

In addition, the white particles are characterized in that the titanium dioxide, silica, calcium carbonate and aluminum hydroxide alone or a plurality of selected and mixed.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in detail. While many specific details are set forth in order to provide a more general understanding of the invention, such as the following description and the annexed drawings, these specific details are illustrated for the purpose of illustrating the invention and are not meant to limit the invention thereto. And a detailed description of known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted.

1 is a view showing the arrangement of a rear projection screen according to an embodiment of the present invention, wherein reference numeral 1 designates a rear projection screen according to a preferred embodiment of the present invention, and reference numeral 5 designates a plurality of densely in the lateral direction. An angle microsprism formed at regular intervals is shown, and reference numeral 4 denotes a light shielding printed layer which is also densely formed in the lateral direction.

The observer is outdoors based on a window (show window), and the rear projection screen 1 according to the embodiment of the present invention is installed indoors, and the projector P that shoots light beams for making an image is behind the screen 1. It is highly installed on the ceiling off. Thus, the observers see the image projected on the screen 1 through the window.

2 is a longitudinal cross-sectional view of a rear projection screen according to an embodiment of the present invention, the rear projection screen 1 of the present invention is 50 ~ 150㎛ transparent plate 3 and the thermocompression bonding to the back of the transparent plate 3 It is arranged in parallel to the left and right in order to refract the light forward to the front and has a size of 50 ~ 500㎛ (the gap between the base of the triangular cross section or the edge of the neighboring microprism) and the transparent plate 250 to 500 in which a number of angle microprisms 5 are formed in which the angle α (β) (γ) with respect to the back side of (3) continuously changes up and down in the range of 5 to 65 degrees so that the whole has a gradient. The optical sheet 8 having a thickness of μm and the light beams adhered to the front surface of the transparent plate 3 and refracted by the optical sheet 8 on the front and rear surfaces of the transparent film 2 are scattered in each direction and diffused. Diffusion film having a thickness of 50 ~ 150㎛ formed diffusion layer 6 20 and a light shielding printed layer 4 having a thickness of 10 to 15 μm formed horizontally parallel to the upper surface of the diffusion layer 6 between the angle microprisms 5 of the optical sheet 8. It may be configured to include).

The transparent plate 3 preferably uses a high light transmittance such as a polymethyl methacrylate (PMMA) sheet, and uses a flexible material for both the diffusion film 2 and the optical sheet 8. By doing so, it is preferable that the rear projection screen 1 according to the present invention be rolled up and stored as a whole.

However, the adhesive layer 7 between the transparent plate 3 and the diffusion film 20 may form an adhesive layer using an adhesive, in this case, the diffusion film 20 and the optical sheet around the transparent plate 3. (8) Since it is possible to attach and detach, using the glass plate of the window as it is transparent plate 3 as it is, and the diffusion film 20 formed with the diffusion layer 6 and the light-shielding printing layer (4) is adhered to the outdoor side of the window, The optical sheet 8 on which the biangular microprism 5 is formed may be adhered or adhered to the indoor side of the window using a separate adhesive or an adhesive to serve as the rear projection screen 1.

In addition, the diffusion layer 6 of the diffusion film 20 is formed by coating and drying a solution of a mixture of white particles and an acrylic binder, which is a general method. And as the transparent plate 3, a thing like polyethylene terephthalate (PET) or polycarbonate (PC) can be used.

The white particles may be a mixture of titanium dioxide, silica, calcium carbonate and aluminum hydroxide alone or in plurality.

3 is a view showing an angle microprism optical sheet and its operation of the rear projection screen according to an embodiment of the present invention, Figure 5 is a perspective view of the angle microprism optical sheet, the light emitted from the projector (P) is the optical It can be seen that due to the biangular microprisms 5 of the sheet 8, each prism 5 has a regular arrangement at regular intervals on the optical sheet 8, and the transparent plate 3 It can be seen that the angle (α) (β) (γ) formed with the rear surface of) is continuously changed to have a gradient as a whole. In the present embodiment, as the shape of α> β> γ, the lower microprisms 5 protrude more sharply so that the lower optical sheet 8 is formed as a whole, so that the screen 1 is tilted as a whole to have a gradient. Formed.

By using such anomalous microprisms 5, the light beam from the projector P, which is a point light source, can be refracted to be more precisely forward, because it reaches the screen 1 from the point light source. The angle of incidence of the light beam changes continuously depending on the position of the point light source and the position on the screen 1, so that the angle of each microprism 5 must be changed accordingly to a different angle so that the light beam at all positions is directed to the front. This is because it can be refracted. This serves to make the image of the screen 1 brighter.

4 is a view illustrating a light shielding printing layer of a rear projection screen according to an embodiment of the present invention and its operation, wherein sunlight (external light) is transmitted through the front surface of the rear projection screen 1 according to an embodiment of the present invention. Without reflecting, it is mostly absorbed by the light-shielding printed layer 4, thereby preventing the viewer from seeing the image properly.

Therefore, the light rays emitted from the projector P pass through the transparent plate 3 by being folded by the biangular microprisms 5 of the optical sheet 8, and the light passing through the transparent plate 3 passes through the diffusion film. Image formation is performed in the diffusion layer 6 having a white color (2), and the image of the projector P is wide-angled and diffused by the diffusion layer 6 so that the viewer has an image having a wide viewing angle. Will be provided.

As described above, the rear projection screen according to the present invention has no reflection of reflection on the surface of the observation side even in bright environment such as sunlight, and can obtain a high-definition color image of a high black level, The screen can be configured at a low price, and in particular, there is an effect of preventing distortion of an image due to a ghost phenomenon.

Claims (3)

In a rear projection screen (1) in which a light beam is projected from the rear surface so that an image can be viewed from the front, the screen (1) is thermally compressed to the transparent plate (3) and the rear surface of the transparent plate (3), The angle α (β) (γ) with respect to the back side of the transparent plate 3 which is arranged in parallel to the left and right and protrudes to the rear side in order to refract and guide forward is continuously up and down in the range of 5 to 65 degrees. The optical sheet 8 is formed with a plurality of biangular micro-prisms (5) to change and have a gradient as a whole, and the optical sheet (bonded to the front surface of the transparent plate 3, the front and rear surfaces of the transparent film 2) 8, a diffusion film 20 having a diffusion layer 6 in which light rays refracted through 8 are scattered and diffused in each direction, and the biangular microprisms 5 of the optical sheet 8 on the upper surface of the diffusion layer 6. Shading printing layer (4) formed so as to form a parallel parallel line between the Rear projection screen (1), characterized in that it comprises a. The rear projection screen (1) according to claim 1, wherein the diffusion layer (6) of the diffusion film (20) is formed by applying a solution in which a mixture of white particles and an acrylic binder is mixed and dried. 3. The rear projection screen (1) according to claim 2, wherein the white particles are a mixture of titanium dioxide, silica, calcium carbonate and aluminum hydroxide, alone or in combination.

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