SU1624381A1 - Corner reflector of tetrahedric form - Google Patents

Abstract

The invention relates to optical instrumentation and can be used in optical location to obtain information about the motion parameters of the object on which the reflector is mounted. The purpose of the invention is to expand the angular range of the reciprocating effect of the corner reflector in its vertical plane. For this, in a corner reflector in the form of a tetrahedron made of a transparent material with a refractive index g, with three metallized reflecting faces 1-3, which form straight dihedral angles between them, the entrance face 4 is made in the form of an equal femoral triangle with angle H at a vertex taking values of H 2 arctg () with s / x 2 arctg {n 1 with / 2 n v. 2 Il. THX

Description

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The invention relates to an optical location technology, by means of which information is obtained on the presence of the object on which the reflector is installed, the distance to it, the parameters and characteristics of motion, and can be used in transport, in meteorology, geodesy and instrument making.

The purpose of the invention is to expand the angular range of the reciprocal-reflecting action of an angled reflector in its vertical plane.

Fig 1 shows the proposed corner reflector; FIG. 2 is a diagram describing its retroreflective action.

In the yro u spy reflector in the form of a tetrahedron, it is made of transparent material / a with a refractive index n, with three metallized reflecting faces 1 3 that form straight dihedral angles, the front face 4 is made in the form of an equilateral triangle with an angle H - at its top, taking values

i1

2 (-) primer V2

2arctg (n 7 1- with V2 n UZ.

Corner-ogpl, works as follows m

The incident beam of collimated optical rays into the reflector is refracted by 1 horizontal faces. 4 After the reflections from facets 1–3, the beam emerges from the back of the gel, while the return propagation directionally occurs with a single bypass of all the faces in different sequences. The action of the angle reflector is equivalent to the reflection from the flat a plate oriented perpendicular to the incident radiation and formed as a common part of the intersection of the contour of the entrance face 4 with its mirror-symmetrical image with respect to and sightings, which are spaced apart by the beam path in the reflector. The set of directions of propagation of the incident light beam, at which the area of this plate is inverted. limits the range of the reciprocating reflection of the angle of the hz jro limiting the magnitude of this range

in the corner reflector, made in the form of a solid glass prism-tetrahedron, depends on the orientation of the input front face 4 relative to reflecting

edges 1-3 and the magnitude of the refractive index of glass. When the front face is made, in accordance with formula (1), the range of the return action in the vertical plane of the reflector, which is its plane of symmetry, increases to the magnitude of the unfolded angle, i.e. up to 180 °.

Example. Fig 2 solid line (5) shows a diagram of the limiting values of the working angles at which

a return reflection is provided in the corner reflector with an angle of H 73.998 ° with a refractive index of n 1.5. The dashed line (6) shows a similar curve for a traditional reflector with

H 60 ° and n 1.5. Concentric circles marked the angles between the normal to the entrance face 4 and the direction of the incident beam. Sectorial lines determine the azimuthal angles of incidence

the input face, counted counterclockwise from the direction perpendicular to the projection of the rib l / 2, on which the front face is supported by the apex of the angle H The angular range of the reciprocating reflecting action in the vertical plane of the proposed reflector, characterized by azimuth angles p 90, 270 °, reaches 180 °

Claims (1)

Invention Formula A tetrahedron shaped corner reflector made of a transparent material with three metallized reflective edges that form between them are dihedral angles, characterized in that, in order to broaden the angular range of the reciprocal-reflecting action of the corner reflector in its vertical plane, the entrance face is made in the form of an isosceles triangle with an apex angle that takes the values 50 P2 arctg (-), with n V2 2arctg (p M, npnv5 n v. where n is the refractive index of the material 55 of the reflector. U0 ° 90 80y No 70i