SU996977A1 - Optical element aligning device - Google Patents

Description

OPERA TION

Inventions

TO AUTHOR'S CERTIFICATE

Union of Soviet

Socialist

Republics

(..) 996977

USSR State Committee for Inventions and Discoveries (61) Additional to ed. certificate-vu “(22) Declared 09.0481 (21) 3272344 / 18-10 with the addition of application No. - (23) Priority -

Published 02.15.83. Bulletin No. θ

Date of publication of the description 15.0283 (51) M. Cl. ³

G 02 V 7/00 (53) UDC 681.4.072 (088.8)

(72) The inventors

S. V.

Kirillov, A.A. Kiselev, E.S. Krylov ^? and V.I. Primakov. *.

/ “<·: ''^; . s · ί · Ύ · ν ...

(71) Applicant

(54) DEVICE FOR OPTICAL OPERATION

ELEMENTS

The invention for adjusting optical * elements is related to optical-mechanical instrumentation. And can be used to fix and align optical elements and, in particular, mirrors in high-precision optical-mechanical devices.

A device for aligning optical elements is known, in which the power closure of the substrate with the mirror is carried out using three springs [1].

The disadvantage of this device is the low accuracy of the adjustment due to the fact that when fixing the desired position of the mirror, it is necessary to tighten the adjustment screws. This knocks down the alignment.

A device for aligning optical elements is known, comprising a housing, a mirror frame and three alignment mechanisms, each of which consists of an alignment sleeve and an alignment element (2J.

However, the known device is characterized by low accuracy of adjustment due to distortion of the shape of the working surface of the mirror due to the transfer of tightening forces directly to it.

The aim of the invention is to increase the accuracy of alignment.

This goal is achieved by the fact that in the device for aligning optical elements, comprising a housing, a mirror frame and three adjustment mechanisms, each of which consists of an alignment sleeve and an installation element 10, an L-shaped fastening element is introduced into each adjustment mechanism, one end which is rigidly fixed to the rim seat, and a second end provided with gaskets of soft material, disposed at 15 baa _on its hand, the nozzle having abutment at the inner side of a base, three radial holes on the side overhnosti and three balls mounted in the holes and in contact with the housing and vypoltsennymi aligning 'sleeve respectively longitudinal and annular recesses, wherein the L-shaped fastening element is connected via spacers · IE soft material cup upo25 rum * and the mounting element.

In FIG. 1 shows one support of the proposed device for alignment, longitudinal section "in FIG. 2 - | section AA in FIG. 1 (the location of the supports when fixing the mirror on the base 3. 996977, in Fig. 3 - section B-B in Fig. 1 (cross section of one support).

The alignment device consists of • a support housing 1, which, when screwed down .2 is fixed on a fixed base 3. Inside the housing 1 there is a folding adjustment sleeve 4 on one side and a glass 5 on the other side, balls are uniformly installed in the radial holes b 7, in contact with their diametrically | opposite surfaces with an annular spherical groove 8 of the alignment sleeve 4 and with longitudinal 1 spherical grooves 9 of the housing 1 of the support. The adjustment sleeve 4 on the outside with a mirror 14, have a leash 15, which enters the window 16 of the glass 5. Two gaskets 17 of soft metal (for example, copper, 2 lead, etc.) are installed on both sides of the lead 15. The glass 5 has a stop 18 and can move only in the longitudinal direction leniya relative to the housing 1 due to the balls 7 and 3 of the longitudinal spherical grooves 9. Alignment sleeve 4 can only rotate relative to the glass 5 due to the balls 7 and the annular spherical groove 8. 35

The device operates as follows. ⁰

The leads 15 of the fastening elements 13, which are integral with the mirror 14, are inserted into the windows 16 of the cups 5 and pressed against the stops 18 of the last mounting elements 10 through the balls 11 and gaskets 17. After tightening the required moment, the element 10 is locked. a locknut 12. Adjustment of the optical elements (mirrors) 14 osuschest- ⁴ S THE rotating the adjusting sleeve 4, the glass 5, the adjusting sleeve 4 and the mounting element 10 move axially as a unit, and the adjusting sleeve 4 is rotated on the glass beads 5 through 7 , an annular groove 8 and longitudinal grooves 9. Gaskets 17 of soft metal and a ball 11 when the lead 15 is compressed provide self-alignment of the glass 5 relative to the element 10 and the alignment sleeve 4 and exclude the deformation of the lead 15, and therefore rokala 14.

The application of the proposed device can improve the accuracy of the adjustment due to the fact that during the adjustment process does not require loosening of the fastening parts of the optical element and their subsequent tightening, which causes misalignment. In addition, stresses and strains that occur when attaching the optical element are not transmitted to the optical element.

Claims (2)

in FIG. 3 is a section BB-B in FIG. 1 (cross section of one support) The device for alignment consists of a support body 1, which is fixed to the base 3 with the aid of screws .2 on the base 3. Inside the housing 1, there is a turning sleeve 4 on one side of the stud and on the other cup 5, in which the radial holes x are uniformly settled. balls 7, which are in contact with their diametrically opposite surfaces with the annular spherical groove 8 of the alignment bush 4 and with the longitudinal 1 spherical grooves 9 of the support body 1. The adjusting sleeve 4 is externally threaded / with which it can move along the housing 1. The adjusting element 10 with the ball 11 rolled at its end is located in the central threaded hole of the adjusting sleeve 4 and locks the lock nut 12. Fixing elements 13 rigidly connected to the mirror 14, have a leash 15, which enters the window 16 of the cup 5. Two projectile 17 of a soft metal (copper, lead, etc.) are installed on both sides of the leash 15. The cup 5 has an abutment 18 and can only be moved longitudinal direction with respect to the housing 1 due to the balls 7 and the longitudinal spherical grooves 9. The adjusting sleeve 4 can only rotate relative to the cup 5 due to the balls 7 and the annular spherical groove 8. The device works as follows: Drivers 15 of the fasteners 13 components with a mirror 14 are single , are inserted into the windows 16 of the glasses 5 and pressed against the lugs 18 with the last mounting elements H through the balls 11 and the gaskets 17. After tightening the required moment, the element 10 is locked with a lock nut 12. The adjustment of the optical element (mirrors) 14 is the rotation of the culling sleeve 4, while the cup 5, the y. liner 4 and the adjusting element 10 n are moved in the axial direction as a whole, and the adjusting sleeve 4 rotates relative to the cup 5 due to the balls 7, ring groove 8 and longitudinal grooves 9. Soft metal gaskets 17 and ball 11 when the driver 15 is compressed self-align the cup 5 with respect to element 10 and the adjusting sleeve 4 and exclude the deformation of the driver 15 and, consequently, the mirror 14. The application of the proposed device according to This allows for an increase in the accuracy of the alignment due to the fact that the alignment process does not require the loosening of the fastening parts of the optical element and their subsequent tightening, which causes misalignment. In addition, the stresses and strains that occur when mounting the optical element are not transmitted to the optical element. Claims of the invention A device for adjusting optical elements comprising a housing, a mirror and three adjustment mechanisms, each of which consists of an adjustment sleeve and a mounting element, characterized in that, in order to improve the accuracy of the adjustment, a fastener is inserted into each adjustment mechanism an L-shaped element, one end of which is rigidly fixed in the frame of the mirror, and the other end is provided with gaskets made of soft material located on both its sides, a glass having a seal on the inner side of the base vanilla, three radial holes on the side surface and three balls installed in the holes and in contact with the longitudinal and annular grooves made in the housing and the adjusting sleeve, respectively, where the L-shaped fastening element is connected through gaskets made of soft material. . Information sources, . taken into account when examining 1. USSR author's certificate 723475, cl. G 02 B 7/18/1980. 2. USSR author's certificate number 771598, cl. G 02 B 7/00, 1980. ID