SU1089539A1 - Scanning device - Google Patents

Abstract

1. A SCANNING DEVICE containing a flat mirror, a flat mirror assembly and a two-sided rectangular 3 EP KcUio, in order to increase the efficiency of two-coordinate scanning while maintaining a constant optical path length of the radiation path from the source to the receiver, it is equipped with a fixed paraball A mirror with a vertical generatrix, with a flat mirror, the axis of rotation of which is vertical and lies in the plane of the reflected surfaces, is set at the focus of the parabolic mirror, and This rectangular mirror is mounted along the beam behind the parabolic mirror with the possibility of reciprocating vertically. 2. Device POP.1, characterized in that the knot of rotation-g of a flat mirror is made in vi (L de galvanometer. X1 eo X) ate: with

Description

The invention relates to instrumentation | 1, in particular, to optoelectronic scanning, analysis and information processing systems. It can also be used in other systems / where there is a need for highly accurate deflection of the light beam in two coordinates. A cocTOHUtee scanning device is known from a scanning node made as an expanding mirror drum and a movable mirror performing complex spatial movement C 1.1. The disadvantage of this device is the change in the optical path length of the radiation path from the source to the receiver and, as a result, the spatial resolution of the optical system changes . The closest in technical essence to the present invention is a scanning device containing a flat mirror, a rotating unit of rotation of a flat mirror and a dihedral rectangular mirror. 1 The disadvantage of this device is the ability to scan only one coordinate, the length of the optical path of the radiation from the source to the receiver is changed. , and, as a result, the spatial resolution of the device and the scanning efficiency change. The purpose of the invention is to increase the efficiency of two-coordinate scanning with keeping the optical path length from the source to the receiver. This goal is achieved by the fact that the scanning device containing a PL6 mirror, a rotating unit of a flat mirror and a dihedral rectangular mirror is equipped with a fixed parabolic mirror with a vertical generatrix, while the flat mirror, the axis of rotation of which is vertical and lies in the plane of the reflector surface , is set at the focus of a parabolic mirror, and a dihedral rectangular mirror is mounted on the beam behind the parabolic mirror with the possibility of reciprocating along the vertical. The rotating unit of the flat mirror is made in the form of a galvanometer. The drawing shows a scanning device. It consists of a radiation source in the form of a laser 1, a flat mirror 2 installed at the focus of a mirror 3 having the shape of a parabolic cylinder. In addition, an integral part of the device is a dihedral rectangular mirror 4, as well as a radiation receiver 5. Mirror 4 through the transfer of the screw - nut 6 is connected with the reversing drive 7 and can be moved in the guides 8 parallel to the forming mirror 3. The scanning device operates as follows. The radiation from the stationary source 1 falls on a flat mirror 2, which is reflected from, falls on a parabolic mirror 3, reflects again, the radiation falls on a dihedral rectangular mirror, twice changes its direction by 90 and falls on; fixed radiation receiver 5. The device allows scanning either in one (OX) or in another SOU) direction, while the optical path length of the radiation from the source to the receiver remains constant. Scanning in the OX direction is carried out by rotating the flat mirror 2 using a galvanometric device, while the beam reflected from the parabolic mirror 3 moves parallel to itself, since the flat mirror 2 is set at the focus of the parabolic mirror. Scanning along the axis of the op-amp is carried out by moving the dihedral straight mongrel mirror 4 in the guides 8 in the indicated direction. The scanning device is distinguished from known devices by scanning efficiency, simplicity of design and increased reliability.

Claims (2)

1. A SCANNING DEVICE comprising a flat mirror, a rotation unit of a flat mirror and a dihedral rectangular mirror, characterized in that, for the purpose of f to increase the efficiency of two-coordinate scanning while maintaining a constant length of the optical path of radiation from the source to the receiver, it is equipped with a stationary parabolic mirror with a vertical generatrix, while a flat mirror, the axis of rotation of which is vertical and lies in the plane of the reflecting surface. nosty, installed in the focus of the parabolic mirror, and the dihedral rectangular mirror is installed along the beam behind the parabolic mirror with the possibility of reciprocating movement vertically. 2. The device according to claim 1, which entails that the rotation unit of the flat mirror is made in a vigalvanometer.