RU2005108638A - PROJECTIVE DEVICE - Google Patents

Claims (9)

1. A projection device including a color splitting cube, a projection lens and at least three fiber optic laser elements, each of which is located near the micromirror element, each fiber optic laser element consisting of a plurality of fiber lasers made with the possibility of generation laser radiation of the same color, and each laser consists of an active medium, a resonator and a pumping light source, while the active media of the lasers are optical fibers combined in a bundle kna, and the Q-switches of the resonators are rotary mirrors of the micromirror element located at the end of the bundle of optical fibers of fiber optic lasers, the pumping light source is located on the side of the bundle of optical fibers, and the output of each fiber optic element consists of the outputs of fiber optic lasers and is directed to one of the faces of the color-separating cube, opposite which the input of the projection lens is located, and each fiber-optic laser element is made with the possibility of generation of an image from laser radiation of the same color and the direction of this image to one of the faces of the color cube, and the color cube is made with the possibility of combining images of different colors from fiber optic laser elements and directing the resulting color image to the input of the projection lens, the projection lens is made with the possibility projecting the final color image onto the screen. 2. The device according to claim 1, characterized in that the end face of each fiber optic element is made in the form of a plane consisting of the ends of the optical fibers of the lasers. 3. The device according to claim 1, characterized in that the surface with mirrors of each micromirror element is located opposite the corresponding plane of the end face of the fiber optic laser element. 4. The device according to claim 1, characterized in that the lasers of each fiber-optic element are configured to generate pulses of different durations of visible laser radiation, while the rotary mirrors of the micromirror element are configured to oscillate between two positions, in one of which, the position " on ", the mirrors reflect the laser radiation back into the active medium of the lasers, and the desired laser pulse is generated in this optical fiber and the quality factor r of the absorber, and in the other “off” position, the mirrors reflect radiation past the active medium of the lasers, while laser radiation does not occur. 5. The device according to claim 1, characterized in that each mirror of the micromirror element is configured to reflect laser radiation back inside, the optical fiber of one laser and generate laser radiation in at least one optical fiber and the formation of at least , one pixel of the image. 6. The device according to claim 1, characterized in that each fiber laser is configured to increase the visual brightness of the image pixel while increasing the residence time of the mirror micromirror element in the "on" position. 7. The device according to claim 1, characterized in that the output of the fiber optic element consists of the outputs of the lasers included in its composition. 8. The device according to claim 1, characterized in that the final image is a combination of combined images of different colors from each fiber optic element. 9. The device according to claim 1, characterized in that each optical fiber consists of a core and a sheath made of transparent materials.