SU822132A1 - Device for forming three-dimensional image - Google Patents

Description

(54) DEVICE FOR THE FORMATION OF SCREEN IMAGE

- 1 The invention relates to film pics, namely, to film projection devices for reproducing three-dimensional spatial objects. ISTEURAL DEVICE for printing films and films containing a light source, a system for moving a film and a flat screen emitting a light flux in a given direction through a lens system. The disadvantage of this device is the relatively small size of the study of volumetric isofazhra, not above 5 °, which is due both to the projection of the image and the features of the volumetric vision; person The closest to the proposed by entity is a film projection device. The volumetric wand contains a source of luminous flux, an optical unit for forming light, a frame changing system and a flat diffuse screen installed along the light flux S. The disadvantage of this device is small The field of view of the received image is MHCft o image, not exceeding 5. The purpose of the invention is to increase the viewing area of a three-dimensional image. This goal is achieved by the fact; that a device for forming a three-dimensional image containing a source of counting, an obturator, a lens, a tape drive mechanism, an optical correction system consisting of an anamorphic element and a beam of beam diameter, and a screen between the screen and corrective optical system 1 introduced a Dove prism fixed in a movable base associated with an autonomous drive ,; Additional Swivel base, on which the screen is installed, and associated with an additional autonomous drive, and two mirrors, one of which is pivotally fixed in a fork located on the oci screen rotation, and the other fixed on Additional Swivel and,. at the same time, the drive of the pvnt-photo mechanism and the two auth-smart grivivods are connected between their own input to the synchronization unit. The drawing shows the device, run around ezd. The device contains light source 1, located on the optical axis, disk obturator 2 with aperture a, associated with a tape-driving mechanism 3, controlled drive 4, lens 5, optical optical system 6 consisting of an antenna of photo element 7 beam diameter preamplifier radiation 8. The prism of Dove 9 is fixed, inside the movable base Yu, connected with an autonomous drive 11. Screen 12 is installed in an additional swivel base 13 connected with an additional autonomous drive 14. An additional swivel base 13 is provided with a fork 15 fixed on an axis of rotation of the screen 12 with a mirror 16 pivotally mounted therein, and a mirror 17 fixed therein. Mirror 16 is inclined to the optical axis of the device at an angle providing optical communication of the light flux emitted by the light source 1, s screen 12. The drive 4 of the lentograph mechanism 3, the autonomous drive 11 of the return of the Dove prism 9 and the additional stand-alone drive 14 of the rotation of the screen 12 are connected by synchronization 18, the angular rotation speed when (the snake 9 is half the angle and rotation of the screen 12., The frames X 9 on the negative film 20 represent the object with planes coinciding with the cross section scale with the planes of the screen 12 as it rotates, and each frame 19 of the negative film 2O corresponds to its position on screen 1. Device works as follows. The light from the light source 1 passes successively through the lens 5, the negative film 2O ,, correcting the optical system6 and falls on the Dowe 9 prism, which turns the image on 18O. Then, light reflecting from mirrors 16 and 17 falls on screen 12 to form an enlarged shadow image of frame 19 of the negative film 20. With successive changes of cafes 19 depicting sections of a three-dimensional object, each 19 corresponds to an instantaneous position of the screen S 24 12 parallel to cross-sectional plane of the object. The prism of Dove 9, rotating with an angular velocity of two times less than the angular velocity of rotation of the screen 12, slows down the rotation of the image of sections of a three-dimensional object in the plane of screen 12. At a cinema projection frequency that provides fusion of the flickering sections of the object, the observer 21 sees the outlines of the three-dimensional image object and can inspect it in an area of about 180, with the exception of parts of the zone, overlapped structural elements of the device (stand, engine, etc.) .. Increase the frequency of film projection providing a continuous view of the image of the object, allows to obtain a moving image of the object. Screen 12 is made opaque OR translucent, which makes it possible to see the three-dimensional image of the object, respectively, only from the projection side,. or on both sides of the screen 12. As the source of the counting 1, a laser source of radiation of the visible range is used, including with electrical modulation of the flow, which ensures a high image brightness. The mirrors 16 and 17 are made spherical or aspherical to provide a corresponding increase in the image distortion and correction on the screen 12, which is formed due to the presence of the optical beam path difference for different areas of the screen 12. The tape drive mechanism 3 can be replaced with a two-dimensional scanner or electrically controlled panel installed between the corrective optical system 6 and the lens 5 to create a shadow pattern of the image cross sections. In the use of a two-dimensional scanner, a three-dimensional display of the image in real time is possible, for example, the position in the airspace in the airport zone. The power of an additional autonomous tivivod 14 of rotation of the screen 12 can be reduced by placing the screen 12 in a sealed volume with a vacuum suction to create a small discharge and with transparent walls made, for example, in the form of light filters transmitting radiation of the light source 1 and a rather narrow spectrum that allows you to observe an image of an object in a lighted room, i.e. increases the convenience of observation. Using the device allows you to replicate and inspect the driving

Claims (1)

Claim A device for forming a three-dimensional image containing a light source sequentially located on the optical axis, an obturator, a lens, a tape drive with a drive, a corrective optical system consisting of an anamorphic element and a beam flux diameter transducer, and a screen, characterized in that; in order to increase the viewing area of the three-dimensional image, between the screen 822132 6 and a corrective optical system introduced a prism. A dove fixed in a movable base connected to an autonomous drive, an additional 5 rotatable base on which the screen is mounted, and connected with an additional autonomous drive, and two mirrors, one of which is pivotally mounted in a fork located on the axis of rotation of the screen, and the other 10 is fixed on an additional rotary base, while the drive of the tape drive mechanism and both autonomous drives are interconnected by the introduced synchronization unit. 1S