RU98113701A - RIRPROJECTION SYSTEM - Google Patents

Claims (8)

1. A projection system containing one or more projectors and a luminous visual screen, characterized in that the projectors are located around the perimeter and closer to the plane of the visual screen, the optical system of the projectors is made with sources for generating projected images in the form of narrowly diverging rays in the direction of one and / or of both external sides of the screen surface in the image observation area, for which light diffusers are placed on the screen in raster order for receiving projected beams with subsequent rotation ohm and scattering these rays into one or more sectors of image observation, with each diffuser made with one or more input windows protruding above the screen surface to enter certain one or more rays of projected images into this diffuser for subsequent deflection and scattering of these rays into certain sectors observing images by viewers.  2. A rear-projection system containing one or more projectors and a luminous visual screen, characterized in that the screen is made of one or more optical fibers with one or more input ends to introduce projected rays into the optical fibers for the purpose of optical raster scanning of these rays into one or more raster images on the common screen due to the total internal reflections of these rays from the surfaces of the optical fibers, light diffusers located in In a triple order in the observation area of the images, each diffuser has an input window for outputting from the fiber a specific projected beam with subsequent deflection and scattering of this beam into a sector or several sectors of observation by the viewers of these images, for which the projector or projectors are optically coupled to one or more input ends of the fiber or optical fibers and are made with an optical scheme for the formation of projected images in the form of narrow diverging rays with certain angles of incidence and certain points of incidence of these rays through the input ends on reflective surfaces inside the optical fibers.  3. The rear projection system according to claim 2, characterized in that the optical fibers are made with a core with a refractive index greater than the refractive index of the reflective cladding or the external medium, the reflective surfaces are parallel, and the refractive indices of the joints are stepwise reduced from joint to joint along the image raster line, taking into account the possibility selective output from the fiber at the joints of certain diffusers projected beams with certain angles of incidence on the reflecting plane of the fibers.  4. The rear projection system according to claim 2, characterized in that the optical fibers are made with a wedge-shaped tapering core thickness along the expandable line of the raster and a constant refractive index greater than the refractive index of the reflective cladding or the external environment, so that it can output rays from the fiber with a certain angle of incidence onto the plane a fiber with a specific diffuser located at a specific point in the raster line.  5. The rear projection system according to claim 2, characterized in that the fibers are made with a core with parallel surfaces and a refractive index greater than the refractive index of the reflective sheath or the external environment, and the projector is made with an optical scheme for generating parallel rays distributed at the same angle of incidence through the end of the fiber into definitely spaced points of the inner reflection surface in the light guide, taking into account the output of certain rays from the respective light diffusers.  6. Riprojection system according to any one of paragraphs. 1-5, characterized in that the diffusers on the visual screen are made with exit windows with a diffused light exit area that is many times smaller than the screen area around the exit windows, and the screen area around the exit windows is covered with an anti-glare matte black layer and / or this screen area is optically transparent, and / or is made with a photochromic coating for repeatedly shading the visual screen with ultraviolet light, or an anti-glare curtain with adjustable transparency is installed on the screen.  7. The projection system according to any one of paragraphs. 1-6, characterized in that the projector is made with a luminous video monitor with a illuminator for illuminating the monitor or transparencies with narrow diverging rays directed at predetermined angles and to specific coordinates of the diffusers on the surface of the screen for an external projection or the ends of the optical fibers of the screen for projection in the optical fiber.  8. The projection system according to any one of paragraphs. 1-7, characterized in that, in order to ensure free frameless observation of stereo projections by automatically dynamically combining frames of stereopairs of images with the eyes of the audience, the monitor is made with a sensor for tracking the coordinates of the eyes of the viewer and an auto-corrector associated with this sensor for optical automatic pairing of left and right frames of stereo pairs images with zones of vision of these frames, respectively, the left and right eye of the viewer, for which, in one embodiment, the screen is made with a fixed lens raster A stereoscopic separation images of stereo pairs and with auto-drives rotation of the screen in the direction of a clear permanent vision stereoscopic shifting toward the space of the viewer, or in another embodiment, on the screen a movable lenticular screen auto-drives the displacement of the raster relative to the image on the screen in the direction of a clear permanent vision stereoscopic shifting toward the space of the viewer.