SU1233087A1 - Device for transferring optical components - Google Patents

Abstract

The invention relates to the field of optomechanical instrumentation and improves the accuracy of the installation of optical co-components. The device contains a cylindrical cam. in the running gear of multi-turn screws 1 and 2, connected by a swivel unit. The cam is fixed in the brackets 9 and 10 by the pins 11 and 12, which fix the spindles in the bearings. When rotating the drive screws from the actuator 8, the drivers 3 and 4, interacting with the cam grooves, move the movable components 5 and 6. The position of the components is controlled on the optical bench and fixed by a nut 19. Elastic element 14 provides the kinematic connection of the device. 4 il.

Description

one

The invention relates to optomechanical instrument making and can be used as a mechanism for moving optical components of lenses, preferably with a variable focal length.

The purpose of the invention is to improve the installation accuracy of optical components.

FIG. 1 shows the kinematic diagram of the device; in fig. 2 — unit connection assembly of the device spindle; in fig. 3 and 4 - fastening screws for end screws.

The device contains a cylindrical cam — running multi-turn screws 1 and 2, drivers 3 and 4, connecting cam with movable components 5 and 6 of gear 7 and drive 8. The cam is fixed in bracket 9 and 10 by trunnions 11 and 12, which form the adjustment knots.

The adjustment unit at the end of the lead screw 1 consists of a trunnion 11 (FIG. 3), which fixes the lead screw through the central bore of the bearing 13. A resilient element 14 is placed between the bracket 9 and the bearing 13. 2) made in the form of a swivel assembly consisting of a cylindrical shank 15 entering the socket 16. The connection is locked with a screw 17.

The adjustment unit at the end of the lead screw 2 is made in the form of a pressure device. The trunnion 12 (Fig. 4) fixes the spindle screw 2 through the central hole in the bearing 18, is screwed into the threaded hole of the bracket 10 and contrasted with the nut 19.

The device works as follows.

When the lead screw from the actuator 8 of the liner 4 and 3 rotates, interacting with the cam grooves, the associated moving components 5 and 6 are moved. The law of changing the cam pitch corresponds to the law of moving the components.

33087

The distance a between the non-bottom components 20 and 21 is set, for example, by fitting the housing. The distance 5 is set in the following way. The screw 17 is loosened and the screw 1 is turned when the screw 2 is fixed, while the lead 3 and the component 5 connected with it are moved along the screw 10. The desired position of the component 5

fixed with screw 17. i

Then size S is set between the movable 5 and the fixed 20 components. To do this, pivot the pin 12 is rotated before loosening the nut 19. In this case, both spindle screws 1 and 2 are moved, and the movable components associated with them through the leads 3 and 4

20 5 and 6. The distance between the moving components remains constant. The elastic element 14 provides a kinematic connection of the device.

The position of the components is controlled on the optical bench and the required position is fixed by a nut 19. The lens adjustment is completed during assembly.

Claims (1)

30 claims A device for moving optics. components, mainly with variable focal lenses 35 distance, containing adjustment units and two or more coaxially and rigidly connected spindle screws installed in bearings and connected by drivers through cam grooves 40 with appropriate optical components, characterized in that, in order to improve accuracy, the connection of the spindle screws is made with the possibility of mutual rotation and 45 fixing and adjustment knots are located coaxially with the chassis screws and are kinematically connected to their ends by means of an elastic element on one side and a pressure device on the other. (rig 2 .SC / Y Fig.Z 1g Editor I. Derbak Order 2765/47 FIG. Compiled by L. Mukhina Tehred O. Gortvay Circulation 501 VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Proofreader M. Maksimishin Subscription Production and printing company, Uzhgorod, y. Design, 4. Proofreader M. Maksimishinets