SU1597820A1 - Reciprocating and reflecting panel - Google Patents

Abstract

The invention relates to optical radar technology and can be used in transport, in meteorology, in geodesy and in instrumentation. The return-reflecting panel is made of identical corner diffusers 1 in the shape of a tetrahedron with three triangular metallized specularly reflecting faces 2, 3, 4 and an input frontal face 5. In this case, the dihedral angles formed by faces 2, 4 and 3, 4 are equal to ϕ / 2, and the dihedral angle α ₂₃ formed by faces 2, 3 is ϕ / 2 (S + 1), where S is a positive integer. The frontal faces 5 of the corner reflectors are made in the form of an isosceles triangle, the base 6 of which is opposite to the dihedral angle α ₂₃ , and the angle at the apex is ϕ. The edges of the front faces 5 of the corner reflectors are tightly adjacent to each other, the faces themselves are located in the same plane, and the bisectors of the angles ϕ are oriented parallel to each other. The relationship is given to determine the angle ϕ. The arrangement of reflectors in the panel in accordance with the invention provides a narrowly directed angular aperture of the reflected radiation while ensuring the maximum working area of the panel aperture. This, in turn, creates effective conditions for working in the zone of action of third-party radiation, which causes clouding or deformation of the mirrors, and limits the unauthorized use of a back-reflecting panel. 2 Il.

Description

cos

arccos

 - H 4 cos 77cITT

(s + i) jliis ± ll

1 + 4cos 2 7E

- (S + 1)

7E

- (S + 1)

The edges of the front faces of the 5 corner reflectors are tightly adjacent to each other, the faces themselves are located in the same plane, and the bisectors of the angles φ are oriented parallel to each other.

Structurally, individual reflectors can be made hollow or in the form of a prism filled with a transparent dielectric with metallized edges.

The return-reflective panel operates as follows.

The beam of rays reflected by the panel spreads in the direction opposite to the direction of incidence, so it is composed of separate reflectors, each of which has a reciprocating effect.

The action of individual reflectors 1 in the formation of a reflected field can be viewed, to a first approximation, as a reflection from a flat mirror oriented perpendicular to the direction of incidence of electromagnetic radiation. This mirror is the same shape as the reflector aperture. 1 and represents the area formed by the common part of the intersection of the input front face 5 with its mirror image with respect to and in the direction of the axis of sight. With this projection, the face 5 and its mirror image are separated in space by the double height of the corner reflector 1. The area of the aperture occupying a part of the entrance window (hatched in Fig. 2) depends on for normal incidence. orientation of the input face 5 relative to the opposite vertex of the corner reflector, which for a given value is determined by the linear angles between the edges of the face 5. The area of the aperture. the entire panel is proportional to the area of the aperture of the individual reflectors 1. When performing the frontal edges of 5 separate corner reflectors 1 in the shape of an isosceles triangle with an angle at

the top of the f is provided with the maximum area of the working aperture of the panel.

The narrowly directed angular aperture of the panel creates effective conditions for operation in the zone of action of third-party radiation, which causes clouding or deformation of the mirrors, and limits the unauthorized use of the back-reflecting panel.

thirty

Claims (1)

Invention Formula The back-reflecting panel is made of identical corner reflectors in the form of a tetrahedron with three triangular metallized mirror-reflecting edges, forming between them dihedral angles, two of which are equal to l / 2, and the input front face, and the edges of the front edges of the corner reflectors are closely adjacent other, and the faces themselves are located in the same plane, characterized in that, in order to completely form a narrowly directed angular aperture of the reflected radiation while ensuring the maximum working area The contour of the panel, the third dihedral angle between the reflecting faces of the corner reflectors, is l / 2 (S + 1), where 5 is a positive integer, the frontal faces of the corner reflectors are made in the form of an isosceles triangle, the base of which is opposite to this dihedral angle, and the angle of f is equal to cos  arccos  2 (btu i lu: is ± iiJ 1 + 4 cos 4 G L.- L-ics + i) .a bisectors of the angles φ are oriented parallel to each other. FIG. 2