KR20020000132A - The high brightness and wide visible screen with vertical strip pattern supraglass film - Google Patents

Abstract

PURPOSE: A high brightness wide visual field screen having vertical stripe film is provided to improve the brightness and the intensity regardless of an angle by sticking vertical stripe film to a reflecting plane, and to construct a large screen by assembling plural screens corresponding to vertical stripes. CONSTITUTION: A high efficiency reflecting plane(2) made of aluminum is contacted to a blackout screen(3), and a vertical stripe film(1) is spread on the reflecting plane. The vertical stripes are embossed, and rays from a projector(4) are transmitted through the vertical stripe film. The image is formed on the reflecting plane, or on the vertical stripe film with reflecting rays from the projector. The image is formed clearly with imaging on the reflecting plane largely and diffusing light partially. A large screen is manufactured with combining plural screens according to vertical stripes. Visibility and brightness are improved with spreading vertical stripe film on the reflecting plane.

Description

High brightness and wide visible screen with vertical strip pattern supraglass film}

The present invention relates to a method for forming a surface for increasing the sharpness of a screen for a projector. In the conventional projector screen, a fine spherical glass component, a hemispherical glass component, an aluminum component, or the like is applied to the surface of a white cloth of fibrous material in order to increase the clarity, thereby scattering and reflecting a part of the light projected from the projector to increase the sharpness. However, these screens do not form a clear image in bright indoor and outdoor lighting, so the technology has been developed in such a way as to make the light source of the projector as high as possible and try to overcome this limitation. However, limiting the projector light source infinitely high has limitations, which inevitably leads to a sharp increase in costs. In addition, in the production of screens, surface treatment is difficult, and when the surface is dirty, it is difficult to clean, which is a very difficult problem of storage and maintenance. In addition, since most screens of white cloth form images in the form of absorbing most of the light source, high sharpness of colors other than white was difficult to expect. However, there are screens made of aluminum instead of white cloth. Conventional screens made of aluminum prevent light transmission and maintain high reflectivity, but the image is reflected by excessive reflections, which do not form on the screen surface or return to the direction of the projected projector (mainly the ceiling), so that the image can be viewed properly in the direction of the audience. There are no drawbacks. Therefore, most aluminum screens with high reflectivity are manufactured in a curved shape with lower surface reflectance. Such conventional aluminum screens are much higher in clarity than ordinary white cloth-based screens, but they are made of curved surfaces and are very sensitive to the direction and position of the projector. It is inappropriate to construct a large screen in a large space such as a theater. In addition, the curved screen is not easy to manufacture, the cost increases, there are many aspects that are difficult to install and use. In addition to the reflective screen, there is also a transmission type that forms an image by projecting an optical fiber from the back of the screen, but the screen manufacturing cost is high, and if the amount of light to be projected is higher than a certain level, the image does not form and maintains a certain level of opacity. The disadvantage is that colors are not properly implemented.

Projector screen should have the following characteristics in order to overcome the disadvantages of the conventional screen, the production of a screen having such characteristics will be a technical problem. First, the light projected from the projector should be delivered to the audience as much as possible. Second, there should be no difference in brightness and density of colors depending on the left, right and up and down viewing angles. Third, it must be a complete plane that can be configured from small to extra large screen. Fourth, the light projected from the ceiling or the auditorium, which is the general location of the projector, should be well received, and the projector location should not be affected.

1 is a front view of the present invention

2 is a cross-sectional side view of the present invention

3 is a plan cross-sectional view of the present invention.

4 is a view of the image forming and viewing time of the present invention

5 is an image reflectivity of the present invention

6 is a screen combination diagram in which the vertical stripe film is bonded

Hereinafter, described in detail by the accompanying drawings as follows.

Figure 1 shows a front view of the present invention coated with a vertical stripe film on the reflective surface. The vertical stripe 10 is attached to the surface of the high-efficiency reflective surface so that it is invisible to the eyes of the viewer, but a very bright image is formed, and the sharpness can be maintained evenly in the front left and right.

2 is a side cross-sectional view of the present invention. A high-efficiency reflective surface 2 such as aluminum was brought into close contact with the surface forming the black film 3, and a vertical stripe film 1 was bonded onto the surface.

3 is a plan sectional view of the present invention. On the black film 3 and the reflective surface 2, the vertical stripe film 1 was bonded from above. The vertical stripes are embossed and formed uniformly.

4 shows an image in which the light source of the projector 4 is straight and passes through the vertical stripe film 1 to be formed on the reflective film 2 or is reflected back onto the vertical stripe film 1. The left viewer 5 sees the image formed on the vertical stripe film 1 and the image formed on the reflective film 2 at the same level of brightness as the central viewer 6 and the right viewer 7. The central spectator 6 sees the image formed by being reflected by the reflective film 2 as it is, so that the viewer can see clearly. The right spectator 7 sees the same conditions as the left spectator 5.

5 shows the image reflection of the present invention. Most of the light source projected by the projector 4 in front of the screen forms an image in the reflective film 2, and some light sources are dispersed to the left 50 and the right 60 to form an image more clearly.

Figure 6 shows that it is possible to combine several screens bonded to the vertical stripes film. When four screens bonded with the same vertical stripe film are seamlessly bonded in the same stripe direction, a screen four times larger than the existing size can be formed. The vertical stripe should match at the junction of the upper left screen 100 and the lower left screen 300. The junction of the upper left screen 100 and the upper right screen 200 face the same vertical stripes so that the vertical stripes are spaced apart. It should be machined as close as possible to.

The present invention overcomes the disadvantages of the curved screen made of a surface material having a high reflectance as described above, and is suitable for the construction of a very large screen by producing a completely flat surface instead of a curved shape. In addition, although the conventional screen having a high reflective surface maintains the same image as the curved surface, the present invention applies a vertical stripe film to the surface of the completely flat reflective surface. By doing so, when most of the projectors are projected above or below the center of the auditorium, the image is clearly formed by penetrating the vertical stripe film of the screen and reflecting back onto the vertical stripe film surface, and the brightness and density of the colors are equally formed on the left and right sides of the screen. In addition, in the present invention, since the entire flat vertical stripe film is applied to the strong reflective surface, multiple screens having the same rectangular shape can be seamlessly combined in the same vertical stripe direction to produce an extra-large screen with no gaps, and not ambient light. Even in this bright and spacious space, it is possible to see the brightness and density of the same color from the left and right with a much higher brightness than the conventional screen.

Generally, aluminum is used as a material that enables strong reflection in screen manufacturing. In the case of a screen using conventional aluminum as a reflecting surface, light projected from the ceiling of the bleacher or on the bleacher is directly emitted from the aluminum film due to the linearity and post-reflection of light. The reflections cause the light to turn toward the ceiling or the projector without the viewer, and the viewer cannot see the clear image. In this case, the screen is curved to control the reflection of light and to prevent scattering of light to form an image in the seat. However, when the screen is made of curved surface, the direction and distance of the projector should be installed by the spherical focus of the screen, and it is impossible to make several curved screens by joining them, making it difficult to manufacture, and the manufacturing cost is excessively increased. Therefore, in order to overcome this problem, the vertical stripe film was bonded to the reflecting surface causing a high degree of reflection in a completely flat shape. In this way, the light projected from the projector passes through the vertical stripe film, leaving afterimages, and overlapping with the reflected light, and are widely distributed from side to side to maintain a wide viewable area and high sharpness. The reflective surface and the vertical stripe film should be perfectly flat and should have the same level of thermal conductivity and shrinkage so that there is no warpage or deformation, and the reflective surface and the film must be completely in contact with each other. The present invention produced as described above can be produced to an infinite screen size, and has a high illuminance and clarity, and a wide field of view even in bright indoors, outdoors, and even if the location of the projector in the general viewing room is ceiling or upper part of the audience without being affected by the screen Can be screened for installation.

Claims (1)

In the production of screens for projectors, a film is formed by bonding a film with a vertical stripe on a highly reflective surface such as aluminum to form a film, and a screen having high brightness wide field of view flatness characteristics and several screens in the vertical stripe direction of the screen are bonded to this screen. Extra large screen with the same characteristics as