JP2000221602A - Transmission screen - Google Patents

Abstract

(57) [Summary] The present invention provides a transmission screen having good optical characteristics. SOLUTION: This is a transmission type screen in which a Fresnel lens screen 1, a lenticular lens screen 2, and a front plate 3 are laminated, and the Fresnel lens screen 1 is a film-like film having a thickness of about 0.1 to 0.5 mm. A Fresnel lens screen 1 is employed. The Fresnel lens screen 1 is attached to the front plate 3 outside the effective screen of the screen, and the front plate 3 and the Fresnel lens screen 1 employ members having a predetermined coefficient of thermal expansion. In a state where the Fresnel lens screen 1 is attached to the front plate 3, the transmission type screen is constructed such that the Fresnel lens screen 1 is stretched with a predetermined tension without waving due to a difference in thermal expansion coefficient between the two members. .

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a transmissive screen used, for example, with a projector.

[0002]

2. Description of the Related Art As shown in FIG. 1, for example, a transmission type screen of a projector generally has a structure in which a Fresnel lens screen 22, a lenticular lens screen 23, and a front plate 24 are laminated. is there. Reference numeral 21 denotes a black stripe, and reference numeral 25 denotes a fastening tape.

[0003] The Fresnel lens screen 22 has a function of refracting light from the projector toward the observer, and has a lens surface composed of a large number of concentric V-shaped grooves on one side of a resin plate.

Until now, Fresnel lens screens having a thickness of about 1.0 to 2.0 mm have been mainly used, but recently, in view of a demand for improvement in optical characteristics, a Fresnel lens screen as thin as possible has been demanded. (The thick Fresnel lens screen causes a disadvantage that multiple images are generated.) In the industry, a film-shaped Fresnel lens screen having a thickness of about 0.1 to 0.5 mm has been proposed.

When a film-like Fresnel lens screen having a thickness of about 0.1 to 0.5 mm is employed, the generation of the multiple image can be prevented, and a transmission screen having good optical characteristics can be obtained. However, it is very troublesome to attach such a thin film-shaped Fresnel lens screen to a projector while maintaining a predetermined tension without slack, and the mass productivity of the projector is reduced. Further, it is difficult for the film-shaped Fresnel lens screen to always maintain a state of being stretched with a predetermined tension due to the influence of humidity and the like. In the distribution process, the screen becomes loose and the flatness of the screen is impaired, and a clear image does not appear.

[0006] The present invention provides a transmission screen which solves such problems.

[0007]

The gist of the present invention will be described with reference to the accompanying drawings.

A transmissive screen in which a Fresnel lens screen 1, a lenticular lens screen 2, and a front plate 3 are laminated, wherein the Fresnel lens screen 1 is a film-like Fresnel having a thickness of about 0.1 to 0.5 mm. The lens screen 1 is employed. The Fresnel lens screen 1 is attached to the front plate 3 outside the effective screen of the screen, and the front plate 3 and the Fresnel lens screen 1 employ members having a predetermined coefficient of thermal expansion. When the Fresnel lens screen 1 is attached to the front plate 3, the Fresnel lens screen 1 is configured to be stretched with a predetermined tension without waving due to a difference in thermal expansion coefficient between the two members. The present invention relates to a transmission screen.

[0009]

The transmission screen according to the present invention has a Fresnel lens screen having a thickness of about 0.1 to 0.5 m.
m, and since the film is in the form of a film, multiple images do not occur and the optical characteristics are good.

Although this film-like Fresnel lens screen is not self-supporting, it is attached to a self-supporting front plate, so that workability is improved.

Since the Fresnel lens screen is always attached to the front plate with a predetermined tension due to the difference in thermal expansion coefficient with the front plate, the flatness of the film-shaped Fresnel lens screen is maintained.

[0012]

FIG. 2 shows an embodiment of the present invention.
This will be described below.

The drawing shows a laminate of a Fresnel lens screen 1 (for collecting light), a lenticular lens screen 2 (for ensuring light diffusion and directivity), and a front plate 3 (for protecting the lenticular lens screen 2). It is.
Reference numeral 4 is a black stripe.

More specifically, a lenticular lens 2 having a thickness of about 1 mm is disposed inside a protruding portion 3a provided around a front plate 3 having a thickness of about 2 mm. The Fresnel lens 1 is provided at the position of the protrusion 3a by ultrasonic welding or high frequency welding. The welding may be performed at all of the positions of the protruding portions 3a or may be partially performed.

The details of the configuration of the above embodiment are as follows.

Example 1 Front Plate PC Thermal Expansion Coefficient 7 × 10 ⁻⁵ Fresnel Lens Screen PET Weld Both at a Thermal Expansion Coefficient of 2 × 10 ⁻⁵ ° C. Therefore, Fresnel lens screen 1 at room temperature As a result, a predetermined tension is applied, and the Fresnel lens screen 1 is properly stretched without waving.

Example 2 Front Plate PET Thermal Expansion Coefficient 2 × 10 ⁻⁵ Fresnel Lens Screen PC or PMMA Thermal Expansion Coefficient 7 × 10 ⁻⁵・ Weld Both at about 50 ° C. Therefore, Fresnel lens screen 1 Has a large coefficient of thermal expansion, so that a predetermined tension acts on the Fresnel lens screen 1 at room temperature (for example, even when the room temperature is about 40 ° C.), and therefore, the Fresnel lens screen 1 is wavy. It will be stretched well without any.

From the above, after all, by setting the difference between the thermal expansion coefficients of the front plate 3 and the Fresnel lens screen 1 (considering the temperature at the time of welding), a predetermined tension is applied to the Fresnel lens screen 1. May be configured to work during use.

The front plate 3 needs a certain thickness. If the front plate 3 is too thin and not self-supporting, the work of attaching the Fresnel lens screen 1 becomes troublesome.
Is too thin and approaches the thickness of the Fresnel lens screen 1, when tension acts on the Fresnel lens screen 1, the front plate 3 warps.

[Brief description of the drawings]

FIG. 1 is an explanatory sectional view of a conventional example.

FIG. 2 is an explanatory sectional view of the present embodiment.

[Explanation of symbols]

 1 Fresnel lens screen 2 Lenticular lens screen 3 Front panel

Claims (1)

[Claims] 1. A transmissive screen having a structure in which a Fresnel lens screen, a lenticular lens screen and a front plate are laminated, wherein the Fresnel lens screen is a film-shaped Fresnel lens screen having a thickness of about 0.1 to 0.5 mm. This Fresnel lens screen is attached to the front plate outside the effective screen of the screen, and the Fresnel lens screen is attached to the front plate by adopting a member with a predetermined coefficient of thermal expansion for the front plate and the Fresnel lens screen. A transmissive screen characterized in that the Fresnel lens screen is stretched with a predetermined tension without waving due to the difference in thermal expansion coefficient between the two members in the attached state.