JP3341223B2 - Lens sheet for transmission screen - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a lens sheet used as a transmission screen of a rear projection type projection television.

[0002]

2. Description of the Related Art Heretofore, a combination of a circular Fresnel lens sheet 4 and a lenticular lens sheet 6 has been known as a transmissive screen 7 used in a rear projection type projection television. When projecting image light on the transmission screen 7, FIG.
As shown in FIG. 1 when viewed from the side, the light source light L ₁ from the light source 5 is usually designed to enter the screen 7 at a substantially right angle at the center position of the screen 7. However, the transmissive screen 7 has a disadvantage that image quality is degraded due to stray light generated inside the circular Fresnel lens sheet 4. That is, as shown in the enlarged partial cross-sectional view in FIGS. 8 and 9, when the source light L ₁ to the Fresnel lens sheet 4 is incident, the Fresnel lens surface 3
At the same time the outgoing light L ₂ in the desired direction as parallel light rays from a is emitted, some of the stray light reflected by the Fresnel lens surface 3a. The stray light is reflected again by the Fresnel lens sheet entrance surface 41 and a Fresnel lens surface 3a or the non-lens surface 3b is emitted as light L _3, the image looks mapped twice double, generating a so-called double image Cause. In addition, the transmission type screen 7 in which the circular Fresnel lens 4 described above is combined with the lenticular lens 6 that diffuses light in the horizontal direction is generally small in vertical diffusion compared to horizontal diffusion of light. When the observer views the screen from a slightly higher position, there is a disadvantage that the periphery below the center of the screen appears dark. However, character information such as telops
In many cases, the image is displayed at the lower end of the screen. When white character information is displayed on a dark screen, the influence of the double image becomes more conspicuous due to the strong contrast.

As described above, if stray light is generated inside the Fresnel lens sheet 4 and the stray light is emitted in a direction other than the direction in which the light should travel, a double image is generated and the quality of the image projected on the screen is reduced. Will decrease. So, conventionally,
As shown by the dotted line in FIG. 8 and FIG. 10, by reducing the thickness of the Fresnel lens sheet, the position where the stray light reflected on the Fresnel lens surface 3a is re-reflected on the Fresnel lens sheet incident surface 42 becomes closer. by such that, it has been performed to reduce the deviation of the output light L ₂ and stray light L ₄ emitted improve double image. Here, FIG. 8 is an enlarged partial sectional view showing a portion below the center of the Fresnel lens sheet 4 and FIG.

[0004]

However, when the thickness of the Fresnel lens sheet is reduced, the rigidity of the lens sheet is reduced, which makes it difficult to mount the lens sheet on a projection device or causes a gap between the Fresnel lens sheet and the lenticular lens sheet. It is also difficult to reduce the image quality of the screen, and also to cause problems such as reduced flame retardancy and breaking strength. Could not be reduced. The present invention has been made in order to solve the above problems, and provides a lens sheet for a transmission screen that can reduce the occurrence of a double image without reducing the thickness of the lens sheet and obtain a good image. The purpose is to do.

[0005]

SUMMARY OF THE INVENTION The present invention has been completed as a result of studies to solve the above-mentioned problems, and a lens surface 2a and a non-lens surface 2b are repeatedly formed on an incident surface, and a longitudinal section is formed. A transmission screen lens sheet 1 having a saw-toothed prism 2 and a Fresnel lens 3 on the exit surface, wherein the prism 2 has a lens angle of 3 ° or more.
The transmission type screen is characterized in that the Fresnel lens 3 is eccentric above the mechanical center of the lens sheet 1.
This is a lens sheet 1 for use.

[0006]

In the present invention, since the prism 2 is provided on the incident surface of the lens sheet 1, light source light L ₁ incident from the incident surface is reflected by the Fresnel lens surface 3a, again incident surface as stray light when reflected, is reflected by the small reflection angle, the deviation of the exit position of the outgoing light L ₂ and stray L ₃ can be reduced, the double image is reduced. At this time, the emitted light L
₂ is also refracted by the prism 2 and changes downward.
Mechanical center from the emitted light L ₂ by decentering upward is refracted upward give the optical properties of the non-reducing double images due to the prism 2 is provided since the correction to return the output angle objective effects of There is no need to change the design of other optical systems.

[0007]

Embodiments of the present invention will be described below in detail with reference to the drawings. FIG. 1 and FIG. 2 are views showing a configuration of a transmission screen lens sheet according to the present invention. FIG.
4 is an enlarged partial sectional view illustrating the lens sheet of FIG. 1 in more detail, and FIGS. 5 and 6 are enlarged partial sectional views of another embodiment of the present invention. 5 is
Parts below the mechanical center of the lens sheet, FIGS. 4 and 6
Indicates a portion above the mechanical center of the lens sheet. The incident surface of the lens sheet 1 of this embodiment is the Fresnel lens surface 3
The lens surface 2a which is inclined at a certain angle and the non-lens surface 2b which is almost perpendicular to the incident surface are saw-toothed so that the angle of reflection when the stray light reflected at a is reflected again at the incident surface becomes small. The lens surface 2a and the non-lens surface 2b are formed alternately, and the prism 2 which is one combination unit composed of the lens surface 2a and the non-lens surface 2b has substantially the same pitch. Formed repeatedly in
The non-lens 2b is formed so as to face downward.

It is preferable that the pitch of the prism 2 provided on the incident surface be equal to or less than the pitch of the Fresnel lens, and that the lens angle be in the range of 3 ° to 15 °. If the lens angle is larger than this, the height of the non-lens surface 2b increases, and the reflection loss of incident light increases.

A Fresnel lens 3 is formed on the exit surface of the lens sheet 1, and the center of the lens is adjusted to correct the exit angle of the light source light changed by providing the prism 2 on the entrance surface. Although it is eccentric, the amount of eccentricity is usually adjusted according to the change of the prism 2 provided on the incident surface.
It is about 50 to 150 mm.

As the resin used for molding the lens sheet 1 of the present invention, a resin having light transmittance and transparency can be used, but a resin having a high refractive index is preferable, and an acrylic copolymer resin having a high refractive index is used. Can be used. In the case where the prism 2 is formed on the base material using an ultraviolet curable resin, the prism 2 is used to reduce the height of the non-lens surface 2b and reduce the loss of light at the interface with the base sheet. The resin is
It is preferable to have a refractive index equivalent to that of the substrate and a high refractive index. Further, when the Fresnel lens 3 is formed using an ultraviolet curable resin, it is preferable to use a resin having a refractive index of 1.55 or more, and the higher the refractive index, the lower the lens height of the Fresnel lens 3 is. it is possible, it is possible to reduce the deviation of the exit position of the outgoing light L ₂ and stray L _3.

To mold the lens sheet 1 of the present invention,
There are various methods such as a casting method, a press molding method, and an ultraviolet curing method. For example, the molten resin is extruded in the form of a sheet between a mold roll provided with an inverse shape of a prism lens and a pressure roll, solidified by cooling, shaped, and cut.
Next, a UV-curable resin is applied to the Fresnel lens mold, and the sheet on which the prism 2 is formed is positioned and stacked thereon, and then irradiated with UV light through the sheet to be cured and simultaneously with the lens. By bonding the sheets, the lens sheet 1 can be obtained.

Hereinafter, the present invention will be described in more detail with reference to specific examples. (1) First, the center of the lens and the mechanical center of the lens sheet are at the same position under the conditions that the screen size is 60 inches (aspect ratio 4: 3), the projection distance f ₁ = 960 mm, and the focusing distance f ₂ = 9800 mm. The Fresnel lens 3 'was designed, and ray tracing was performed on portions (hereinafter, referred to as an upper portion and a lower portion of a lens sheet) located 400 mm vertically from the center of the lens. (2) The prism 2 having a pitch of 0.038 mm and a lens angle of 14 ° was provided on the opposite side of the Fresnel lens 3 ′ surface of (1), and the ray tracing of the upper and lower portions of the lens sheet was performed. (3) The Fresnel lens of the lens sheet of (2) such that the output angles of the output light at the upper and lower portions of the lens sheet of (2) are substantially the same as the output angles of the upper and lower portions of the lens sheet of (1). And adjust the lens angles at this time to θ ₁ (upper part of the lens sheet) and θ
₂ (the lower part of the lens sheet). (4) Next, the positions of the Fresnel lenses having the angles of θ ₁ and θ ₂ from the lens center in the lens sheet of (1) were obtained by using Equation (1).

[0013]

(Equation 1)

(5) The lens center of the Fresnel lens 3 'is decentered based on the difference between the lens position where the ray tracing is performed in (1) and the lens position obtained in (4), and the lens sheet is projected upward and downward. The amount of eccentricity was determined by adjusting the balance of the emitted light.

(6) Based on the above design, a refractive index of 1.
51 high-refractive-index acrylic, prism 2 on one surface
Is extruded and formed on a surface of the sheet on which the prism 2 is not formed by using a urethane acrylate-based ultraviolet curable resin (refractive index: 1.55) at a pitch of 0.112 mm and 104 mm. The lens sheet 1 was obtained by forming the eccentric Fresnel lens 3.

The lens sheet 1 thus obtained was compared with a circular Fresnel lens sheet having the same plate thickness (2 mm) and without a prism for ray tracing.
Displacement of the exit position of the outgoing light L ₂ and the stray light L ₃ is 15-25%
As a result, the angle of emergence of stray light was reduced, and the occurrence of double images could be reduced without reducing the thickness of the lens sheet. FIG. 7 shows a thin Fresnel lens (plate thickness 1.
334 mm). The prism 2 has the same thickness (2 mm) as the lens sheet 1 of this embodiment.
When a lenticular lens sheet was combined with a circular Fresnel lens sheet without a prism, and visual observation was performed, the effect of a double image was remarkably observed at the lower portion of the screen with no prism, but in the case of this embodiment. As for, the image shift was reduced, and a good image could be observed.

[0017]

According to the present invention, a prism is provided on the entrance surface of a Fresnel lens sheet and the Fresnel lens on the exit surface is decentered, so that the thickness of the lens sheet does not need to be reduced, and the transmission image has been improved. A lens sheet for a screen can be obtained. In addition, since it is not necessary to reduce the thickness of the lens sheet, rigidity can be ensured, and adhesion with the lenticular lens sheet can be maintained, so that a good image with less blur can be obtained.

[Brief description of the drawings]

FIG. 1 is a view showing a lens sheet of the present invention.

FIG. 2 is a sectional view showing a lens sheet of the present invention.

FIG. 3 is a diagram showing a cross section below the mechanical center of the lens sheet according to the embodiment of the present invention.

FIG. 4 is a diagram showing a cross section above the mechanical center of the lens sheet according to the embodiment of the present invention.

FIG. 5 is a diagram showing a cross section below a mechanical center of a lens sheet according to another embodiment of the present invention.

FIG. 6 is a diagram showing a cross section above a mechanical center of a lens sheet according to another embodiment of the present invention.

FIG. 7 is a diagram comparing ray tracing between an embodiment of the present invention and a conventional Fresnel lens sheet.

FIG. 8 is a diagram illustrating a problem of a conventional Fresnel lens sheet.

FIG. 9 is a diagram showing a cross section of a conventional Fresnel lens sheet above the center of the sheet.

FIG. 10 is a diagram showing a cross section of a Fresnel lens sheet whose overall thickness has been reduced, which is above the center of the sheet.

FIG. 11 is a diagram illustrating a configuration of an optical system of a rear projection type projection television.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... Lens sheet 2 ... Prism 2a ... Lens surface 2b ... Non-lens surface 3 ... Fresnel lens 3a ... Fresnel lens surface 3b ... Non-lens surface 4 ... · Fresnel lens sheet, 41 ... incident plane 5 ... source 6 ... lenticular lens sheet 7 ... transmission type screen L ₁ ... source light L ₂ ... outgoing light L _3, L ₄ ··· stray light

Continuation of the front page (58) Field surveyed (Int.Cl. ⁷ , DB name) G03B 21/62 G02B 3/08

Claims (1)

(57) [Claims] 1. A transmission screen having a lens surface and a non-lens surface repeatedly formed on an entrance surface, having a sawtooth-shaped prism in longitudinal section, and a Fresnel lens on an exit surface.
Lens sheet, wherein the lens angle of the prism
There is a degree 3 ° or more than 15 °, the Fresnel lens, the center of the Fresnel lens, the Renzushi - transmissive subscription, characterized in that the eccentric than DOO mechanical center upwards - down for Renzushi - G.