SU1278762A1 - Cylindrical parabolic mirror with variable focal distance - Google Patents

Abstract

The invention relates to optics, and more specifically to optical reflecting systems. The purpose of the invention is to increase ft ft. The efficiency of mirror focusing by reducing local deflections and friction forces at the points of contact with the rods. On the side of the porous layer 4, an additional layer 5 is made on the elastic plate 1, made of solid, elastic material and fixed along the lateral surface of the elastic plaster in a plane passing through its vertical axis of symmetry. Layer 5 senses the forces at the bending of the elastic plate 1 and strengthens the porous layer 4. The rods 9 and 10 of the mechanism for adjusting the focal distance of the mirror are rotatably mounted around their longitudinal axes 13 and 14, which at (L to ac O5 to

Description

leads to a decrease in friction between them and the plate. On the reflecting front and additional layers of the elastic plate there are cylindrical, symmetric about the horizontal axis of symmetry of the elastic plate 1 tides 7 and 8, through which the rods 9 and 10 create bending moments in the plate 1, preventing its local deflection at the contact points. The eccentric arrangement of the tides 7 and 8 relative to the rods 9 and 10 causes a decrease in the initial bending forces and contributes to the additional fixation of the elastic plaster. 2 z.p, f-ly, 1 ill.

The invention relates to optics, in particular to optical reflecting systems, and can be used in laser resonators, projector systems and telescopes.

The purpose of the invention is to improve the focusing efficiency of the mirror by reducing local deflections and friction forces at the points of contact with the rods.

The drawing shows a device for adjusting the focal length of the mirror, a longitudinal section.

The main element of the device is a rectangular elastic plate 1 of the mirror, consisting of a reflective front layer 2, an intermediate layer 3, a non-reflective porous layer 4 and an additional layer 5 made of solid elastic material (for example, spring steel 65G) and fixed on the porous side. layer 4 along the lateral surface of the elastic plate 1 in the plane passing through its vertical axis of symmetry, for example, using screws 6. On the front reflecting layer .2 and the additional layer 5, two pairs are made cylindrically tides 7 and 8, the axes of which are parallel to the horizontal axis of symmetrical elastic elastic paste 1, in contact with two pairs of parallel rods 9 and 10 respectively, fixed respectively in two parallel clamps 11 and support block 12 with the possibility of free rotation around their longitudinal axes 13 and 14. Tides 7 and 8 are made so that the distance between their highest points, respectively, is greater than the distance between the longer axes 13 and the next 9

and less distance between the longitudinal axes 14 of the rods 10. The clamps 11 are connected, for example, by means of the rod 15 to a micrometer screw 16, abutting against the support block 12.

The device for adjusting the focal distance works as follows.

When the micrometer screw 16 is rotated, the rods 9 are displaced in the direction of the support block 12. At the same time, the rods 9 pressure along the contact line to the tides 7, which

causes the reaction of the rods 10 to the tides 8 and leads to the formation of bending moments, acting on the elastic plate 1 and bending it. Since the interaction between the rods 9 and 10 and the elastic plate 1 is carried out along the line of contact of the outlet surfaces of the tides 7 and 8 and it is possible to rotate the rods 9 and 10 around their

axes 13 and 14, the friction forces between the elastic plate 1 and the rods 9 and 10 are minimal and the forces are completely directed to the bending of the elastic plate 1.

Tides 7 and 8 play a triple role in the power circuit of the device.

They reinforce the front 2 and double-sided 5 layers of the elastic plate 1 at the point of contact with the rods 9 and

10, prevent its local deflection in these places and reduce the frictional forces during bending of the elastic plate 1. Tides 7 and .8 reduce the contact area of the rods 9 and 10 with the surfaces of the elastic plate 1, especially from the concave side, thereby reducing the frictional forces. Due to the eccentric position of the tides 7 and 8 relative to the rods 9 and 0, they reduce the initial bending forces and contribute to the additional fixation of the elastic plate 1 in the device. The additional layer 5 bears the forces of bending of the elastic plate 1 and strengthens the porous layer 4. Fastening the additional layer 5 along the side surface of the elastic plate 1 in a plane passing through its vertical axis of symmetry 5 allows it to deform freely with a shift relative to porous layer 4 and do not enhance the saddle shape of the elastic plate 1 during its bending. Formula of Invention i. A cylindrical parabolic mirror with adjustable focal length, containing elastic plastic with a reflective front intermediate and non-reflective back layers; the non-reflective back layer is made of a porous material, the thickness of which is greater than the total thickness of the front and intermediate layers and the intermediate layer is made of a material with a concentration of pores decreasing towards the front reflecting syllable, the mirror focal length adjustment mechanism, including two pairs of parallel rods, two parallel clamps, a support block, a micrometer screw with one pair of rods secured in the support block and in contact with a non-reflective surface, and the other pair with erzhney contacting with the reflective mirror surface is inserted in the clamps movable with. using a micrometer screw, characterized in that, in order to improve focusing efficiency by reducing local deflections and friction forces at the points of contact with the rods, the elastic plate from the back layer is provided with an additional layer made of solid, elastic material fixed on the lateral surface of an elastic plates in the plane passing through its vertical axis, axis of symmetry, and the rods of the mechanism for adjusting the focal distance are rotatably mounted around their longitudinal axes, 2, 3 The line is in accordance with clauses 1 and 2, so that the cylindrical, symmetrical with respect to the horizontal axis of symmetry of the elastic plate, tides in contact with the rods are made on the reflecting front and additional layers of the elastic plate 3. Mirror by pp , 1-2, characterized in that the distance between the highest points of the cylindrical tides of the reflective front layer of the elastic plate is greater than the distance between the axes of the rods in contact with them, and the distance between the higher points of -1 and the cylindrical tides of the additional layer of elastic plate Stina less than the distance between the longitudinal axes of the rods in contact with them.

Claims (3)

Furmula inventions 1. A cylindrical parabolic mirror with an adjustable focal length, comprising an elastic plate with a reflective front intermediate ²³ and non-reflective back layers, the non-reflective back layer made of porous material, the thickness of which is greater than the total thickness of the front and intermediate layers, 30 and the intermediate layer is made of material with decreasing pore concentration towards the front reflective layer, mirror focal length adjustment mechanism, 35 including two pairs of parallel rods, d two parallel clamps, a support block, a micrometer screw, wherein one pair of rods is fixed in the support block and contacts 40 with a non-reflective surface, and the other pair of rods in contact with the reflective surface of the mirror is inserted into the clamps with the help of a micrometer screw, characterized in that, in order to increase the focusing efficiency by reducing local deflections and friction forces in the places of contact with the rods, the elastic plate on the back layer side is provided with an additional layer, ying from solid, elastic material fixed on a lateral surface of the elastic plate in a plane passing through its axis of symmetry vertical and the rods of the focal distance adjusting mechanism are mounted rotatably about their longitudinal axes. 2. The mirror in π. 1, it follows from the fact that on the reflecting front and additional layers of the elastic plate there are cylindrical tides in contact with the rods that are symmetrical about the horizontal axis of symmetry of the elastic plate. 3. The mirror according to claims 1 to 2, characterized in that the distance between the highest points of the cylindrical tides of the reflecting front layer of the elastic plate is greater than the distance between the axes of the rods in contact with them, and the distance between the highest points of the cylindrical tides of the additional layer of the elastic plate is less than the distance between the longitudinal axes rods in contact with them.