KR100294218B1 - Rear Projection Screen for Projectors_ - Google Patents

Abstract

The present invention includes a Fresnel lens sheet on which Fresnel Lenses are formed, and a convex lens group coated with a diffuser having a predetermined curvature of a predetermined size, a focal length of a predetermined length, and a predetermined thickness. It relates to a rear projection screen comprising an image forming screen; The image forming screen has a different directivity in which the light of the center and the peripheral portion of the image forming screen does not diffuse and goes straight in a direction so that the viewer's viewing angle is the same when the viewer views the center and the peripheral portion of the screen from the center of the screen. Each convex lens of the convex lens group is characterized in that the convex lens groups have different curvatures, different focal lengths, and different thicknesses of diffusion layers. Therefore, the viewer can be made by differentiating the directivity of the light transmitted from the image forming screen by varying the thickness of the diffusion layer (d), the curvature (r), and the focal length (f) of each convex lens formed on the image forming screen. When viewing the periphery in the center of the screen can improve the viewing angle of the periphery relatively than the center.

Description

Rear Projection Screen for Projectors

The present invention relates to a rear projection screen for a projector, and more particularly, the directivity of light transmitted from an image forming screen by varying the thickness, curvature, and focal length of each convex lens formed on the image forming screen is different from the center portion and the peripheral portion. And a rear projection screen for a projector which improves the viewing angle of the periphery of the screen by differently.

In general, a projection television (Projection Television) is a projector with a projection lens (4, 5, 6) attached to the rear projection screen 10 (hereinafter referred to as 'screen') at a predetermined interval as shown in FIG. (1, 2, 3) are installed, and each projector (1, 2, 3) emits green, red, and blue light to the screen (10). Project. The screen 10 includes Fresnel Lenses (Fresnel Lenses) so that the light from the projectors 1, 2, 3 is disposed in parallel on the surface facing the projection lenses 4, 5, 6 as shown in FIG. It is composed of a Fresnel lens sheet 11 having a 13) and an image forming screen 12 having a convex lens group 14.

And, inside the image forming screen 12 SiO ₂ , CaCO ₃ , TiO ₃ , BaSO ₄ , ZnO , Al (OH) ₃ A diffuser, such as fine powdered glass, forms a diffuser layer D having a predetermined thickness d on the surface of the image forming screen 12.

Meanwhile, the Fresnel lens group 13 serves as a field lens with respect to the image beam projected from the projection lenses 4, 5, and 6, and the image beam projected on the screen 10. Is focused toward the viewer, that is, the viewer. At this time, the projection image beam is distributed to some extent while passing through the image forming screen 12 by the diffusion layer. The degree of dispersion depends on the adjustment of the concentration or the thickness d of the diffusion agent or the diffusion layer, which is the desired angle of view. Field view).

The convex lens group 14 is dispersed by the above process, and the degree of dispersion is controlled by the curvature r and the focal length f of the convex lens group 14 and passes through the image forming screen 12. It serves to further distribute the projected image beam to the desired horizontal viewing angle in the horizontal direction, by this process the observer recognizes the projected image formed on the image forming screen (12).

However, according to such a conventional rear projection screen, the following problem occurs.

The thickness d of the diffusion layer formed on each convex lens of the image forming screen has the same thickness (both center and periphery) d ₀ = d ₁ = d _n ), And its curvature r and focal length f have the same curvature ( r ₀ = r ₁ = r _n Same focal length as f ₀ = f ₁ = f _n Because the viewer is looking at the screen because the directivity of the light transmitted from the screen (the property that light does not spread and goes straight in a certain direction) is the same in both the center and the periphery, so that the viewer is located at the center of the screen and looks at the screen. The viewing angle of the screen periphery is relatively less than the viewing angle of the screen center, making the screen periphery relatively invisible than the screen center.

Accordingly, an object of the present invention is to solve such a problem, and an object of the present invention is to provide an image by varying the diffusion layer thickness (d), curvature (r), and focal length (f) of each convex lens formed on the image forming screen. The directivity of the light transmitted from the forming screen is different from the central portion and the peripheral portion to improve the viewing angle of the screen peripheral portion relative to the central portion.

1 is a cross-sectional view showing the structure of a general projection TV,

2 is a partially enlarged view of FIG. 1;

3 is an enlarged cross-sectional view showing a rear projection screen for a projector to which the present invention is applied.

<Description of the code | symbol about the principal part of drawing>

1, 2, 3: projector 4, 5, 6: projection lens

10, 100: screen 11: Fresnel lens sheet

12, 110: image forming screen 13: Fresnel lens group

111: center convex lens 112, 113: peripheral convex lens

D: diffusion layer

Features of the present invention for achieving the above object is a Fresnel Lens Sheet (Fresnel Lens Sheet) formed with Fresnel Lenses, a curvature of a predetermined size, a focal length of a predetermined length and a diffusion layer of a predetermined thickness ( A rear projection screen comprising an image forming screen having a convex lens group coated with a diffuser; The image forming screen has different curvatures of different sizes and focal lengths of different lengths so that the convex lenses of the convex lens group have different sizes so as to maintain the same view angle of the center and periphery by different light directivity of the center and periphery of the image forming screen. And diffusion layers having different thicknesses are formed.

Here, the curvatures of different sizes have the curvature of the central convex lens formed in the center of the convex lens group of the image forming screen to have a certain curvature to improve the horizontal viewing angle, and the peripheral convex lenses of the convex lens group toward the center toward the center The size increases proportionally according to a predetermined ratio rather than a predetermined curvature of the central convex lens.

In addition, the focal lengths of different lengths have a certain focal length for the central convex lens to improve the horizontal viewing angle, and the peripheral convex lenses have a predetermined ratio than the focal length of the central convex lens toward the periphery of the central convex lens. As a result, the focal length is increased proportionally.

The diffusion layers of different thicknesses have a diffusion layer of a certain thickness so that the central convex lens improves the vertical viewing angle, and the peripheral convex lens has a predetermined ratio as compared to the diffusion layer of the predetermined thickness of the central convex lens toward the periphery of the central part. The thickness is increased proportionally.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. The same parts as in the prior art will be described with reference to the same reference numerals.

3 is a cross-sectional view showing a rear projection screen for a projector to which the present invention is applied.

Referring to FIG. 3, the screen 10 includes Fresnel Lenses 13 such that light from the projectors 1, 2, 3 is disposed in parallel on the surface facing the projection lenses 4, 5, 6. It is composed of a Fresnel Lens Sheet (11) having an image forming screen 100 having a convex lens group (110). In particular, the convex lens group 110 of the image forming screen 100 has different curvatures of different sizes so as to improve the viewing angle of the periphery by varying the directivity of the light of the center and the periphery of the image forming screen 100. r _{0 to} r _n ) And focal lengths of different lengths ( f _{0 to} f _n ) And different thicknesses ( d _{0 to} d _n ) Has a diffusion layer (D). Here, the central convex lens 111 of the convex lens group 110 has a curvature of a predetermined size to improve the horizontal viewing angle ( r ₀ ) And focal length ( f ₀ ), And the peripheral convex lenses 112 and 113 have a predetermined curvature (C) of the central convex lens 111 toward the periphery of the central convex lens 111. r ₀ ) And a certain focal length ( f ₀ Curvature (r) and focal length (f) increase proportionally to r ₀ ≺r ₁ ≺r _n , f ₀ ≺f ₁ ≺f _n )do. In addition, the central convex lens 111 may have a predetermined thickness to improve the vertical viewing angle. d ₀ ), And the peripheral convex lenses 112 and 113 have a predetermined thickness (C) of the central convex lens 111 toward the periphery of the central convex lens 111. d ₀ The thickness d is proportionally increased according to a predetermined ratio from the diffusion layer D of d ₀ ≺d ₁ ≺d _n )do.

Hereinafter, the operation of the rear projection screen for a projector according to the present invention will be described in detail with reference to FIGS. 3 and 4.

First, the process of projecting an image beam on the screen 100 is the same as above, but when the image beam projected on the image forming screen 110 projects the convex lens groups 111 to 113, the convex lens groups 111 to 113. ), The central convex lens 111 has a curvature of a certain size ( r ₀ ) And a certain focal length ( f ₀ And the peripheral convex lenses 112 and 113 have a predetermined curvature () of the central convex lens 111 as the peripheral convex lens centers toward the periphery of the central convex lens 111. r ₀ ) And a certain focal length ( f ₀ Proportionally increases in size and length by r ₀ ≺r ₁ ≺r _n , f ₀ ≺f ₁ ≺f _n Therefore, the directivity of the light beam of the image beam is different from the center portion and the peripheral portion, so that the horizontal viewing angle of the peripheral portion of the image forming screen 110 is relatively improved than the horizontal viewing angle of the central portion.

In addition, when the image beam projects the convex lens groups 111 to 113 as described above, the center convex lens 111 of the convex lens groups 111 to 113 may have a diffusion layer having a predetermined thickness ( d ₀ And the peripheral convex lenses 112 and 113 are diffused layers having a predetermined thickness of the central convex lens 111 toward the periphery of the central convex lens 111. d ₀ Proportionally increases by a percentage of d ₀ ≺d ₁ ≺d _n Therefore, the directivity of the light beam of the image beam is different from the center portion and the peripheral portion, so that the vertical viewing angle of the peripheral portion of the image forming screen 110 is relatively improved than the vertical viewing angle of the central portion.

Therefore, the viewing angle of the peripheral portion is relatively improved than the central portion of the image forming screen, so that the viewer can watch the projection TV without any difference between the central portion and the peripheral portion.

As described above, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined by the claims below and equivalents thereof.

As described above, according to the rear projection screen for a projector according to the present invention, the following advantages occur.

That is, by varying the thickness of the diffusion layer (d), the curvature (r) and the focal length (f) of each convex lens formed on the image forming screen, the directivity of the light transmitted through the image forming screen is different from the center portion and the peripheral portion. Improves the viewing angle of R2 relative to the center.

Claims (4)

Image formation including a Fresnel Lens Sheet on which Fresnel Lenses are formed, and a convex lens group coated with a diffuser having a predetermined curvature, a predetermined focal length, and a predetermined thickness. A rear projection screen comprising a screen; Each convex lens of the convex lens group is different from each other in curvature of different sizes so as to improve the horizontal viewing angle of the periphery of the image forming screen by varying the directivity of the center and periphery of the image forming screen. A rear projection screen for a projector, comprising the image forming screen having a focal length of a length and diffusion layers having different thicknesses. The method of claim 1, wherein the different sizes of curvature, The central convex lens formed in the center portion of the convex lens group of the image forming screen has a curvature of a predetermined size to improve the horizontal viewing angle, and the peripheral convex lenses of the convex lens group are centered on the center portion as the peripheral portion goes out. A rear projection screen for a projector, characterized in that the size is proportionally increased in accordance with a predetermined ratio than the curvature of the predetermined size of the central convex lens. The method of claim 1 or 2, wherein the focal lengths of the different lengths, The central convex lens has a focal length of a predetermined length to improve the horizontal viewing angle, and the peripheral convex lens has a predetermined ratio than the focal length of the predetermined length of the central convex lens as it goes toward the periphery of the central part. The rear projection screen for a projector according to claim 1, wherein the focal length is proportionally increased. The diffusion layer of claim 1 or 2, wherein the diffusion layers having different thicknesses The central convex lens has a diffusion layer having a predetermined thickness to improve a vertical viewing angle, and the peripheral convex lens has a thickness in accordance with a predetermined ratio as compared to the predetermined thickness of the diffusion layer of the central convex lens toward the periphery of the central part. A rear projection screen for a projector, characterized in that it is increased proportionally.