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Referenced by
Claims1. Apparatus for producing apparent stereoscopic images, said apparatus being adapted for use in conjunction with a camera consisting of a camera body, a lens body and moving image sensing means, said apparatus comprising:
2. The apparatus of claim 1 wherein said deflectors include reflective surfaces lying in parallel planes with respect to one another, said reflective surfaces being disposed at an angle to the optical path of incoming image rays, said deflectors being disposed in front of said lens, said reflective surface of said second deflector lying generally in the optical path of said incoming image rays to deflect said incoming image rays to said reflective surface of said first deflector, said reflective surface of said first deflector lying in the path of the deflected image rays for deflecting the image rays through said lens to the image sensing means in the camera body. 3. The apparatus of claim 1 wherein an annular track is defined about said lens mount, said rotatable ring is rotatably mounted on said mounting ring by guides rotatably carried on shafts extending from said rear surface of said rotatable ring and which travel in said annular track. 4. The apparatus of claim 3 wherein said means rotating said rotatable ring consists of a motor having a drive shaft on which is carried a drive mechanism adapted to transmit rotation of said drive shaft to said rotatable ring. 5. The apparatus of claim 1 wherein said first and said second optical deflectors are first surface mirrors. 6. The apparatus of claim 1 wherein said first and said second optical deflectors are prisms. 7. Apparatus for producing apparent stereoscopic images, said apparatus being adapted for use in conjunction with a moving image camera, said apparatus comprising a lens body adapted for connection to said camera, said lens body carrying at least one lens for receiving incoming image rays and defining a fixed orientation with respect to said image sensing means of said camera, said lens body comprising a body having a through running bore, said body defining a lens holder section, a mid section and a camera mount section having the bore thereof in optical alignment with said image sensing means of said camera, said mid section being rotatably journaled at one end in said camera mount section and at the opposite end in said lens holder section, the longitudinal axis of the bore of said mid section being disposed substantially perpendicularly to the longitudinal axis of the bores of said lens holder section and said camera mount section, a first optical deflector disposed in said lens body in optical alignment with a second optical deflector and with said image sensing means of said camera and said second optical deflector disposed in said lens body in optical alignment with said lens and with said first deflector, means for rotating said lens body in relation to said camera body and for rotating said lens holder section in relation to said lens body thereby rotating said first and said second optical deflectors about an axis defined by said optical path of said incoming image rays while maintaining said orientation of said lens fixed with respect to said image sensing means. 8. The apparatus of claim 7 further including a fixture attached to said camera body and including at least one extending arm having an extending end terminating in alignment with said lens holder section, said extending end carrying an track member having its longitudinal axis transverse to the axis of said lens holder section of said lens body, a slider is disposed in said track member for transverse reciprocal movement therein, an upwardly extending rod carried by the slider for vertical reciprocal movement is attached at its upper end to said lens holder section whereby said rod and said slider cooperate to prevent said lens holder section from rotating as said lens body rotates and the orientation of said lens remains fixed with respect to said sensing means in said camera body. |