SU1296991A1 - Optical device for parallel scanning - Google Patents

Abstract

The invention relates to an optical instrument making and improves the accuracy of scanning. The device contains input 1 and output 2 mirrors mounted respectively on platforms 3 and 4. Platform 4 mirrors 2 are rigidly connected to a slider 8, which moves in a guide groove 9 made in the shape of an arc of a circle. The entrance mirror 1 is connected with the slider 8 by means of the axes 11 and 13 and the carrier 12. The slider 8 is rotatable around its axis and kinematically connected with the telescopic thrust 14, the hinged connection of which with the base 10 is located on the arc of the groove 9. The reflecting surface of the output mirror 2 is fixed so that its projections onto the base 10 are perpendicular to the telescopic rod 14. When the engine 5 rotates, the gears 6 and 7 and the carrier 16, 12 rotate the mirrors 1 and 2, while the reflecting surfaces of these mirrors are oriented so about In general, the beam, directed along the axis of rotation of the input mirror 1, is reflected from it and is again reflected from the output mirror 2, directed to the scanned surface. The geometric structure of the device is such that the beam emerging from the device will move parallel to itself regardless of the angle of rotation of the input mirror 1. 2 Il. i (L GcheE WITH 05 CD X 7

Description

11296991

The invention relates to an optical instrument making and can be used in optical devices for realizing the linear deviations of a light, being worn to

of the beam.

The purpose of the invention is to increase the accuracy of scanning the light beam.

FIG. 1 shows a structural diagram of the proposed device, side view; in fig. 2 - the same, top view.

The device contains the first 1 and second 2 mirrors mounted respectively on platforms 3 and 4 associated with a rotation mechanism including engine 5 with gear wheels 6 and 7. Platform 4 of the second mirror 2 is mounted on a slider 8, which is located in guide. Thus, the proposed device provides a constant angle of incidence of the output beam on the scanned surface, which gives a uniform

9, which is made in the form of an arc of a circle around the illumination of various parts of this band at the base 10. The first mirror surface, both at large and at

Loa 1 is connected with slider 8 with axis 1, carrier I2 and axis 13.

Mirror I is located below the scanning plane to eliminate the dead zone, and its rotation axis 11 coincides with the center of the circumference of the guide groove 9. The reflecting surface of mirror 1 is angled to its rotation axis and oriented to the second mirror 2. This angle, depending on displacement values of mirror 1 under the scanning plane

25

small scan ranges.

Claims (1)

Invention Formula An optical parallel scanning device comprising a base, a first mirror with a turning mechanism thereof, with which a second mirror is kinematically connected to JQ mounted on a slider placed in a guide groove made at the base along a circular arc characterized by By the fact that, in order to increase the exact- Platform 4 with the mirror 2, it is fixed, scanned, and additionally at the end of the axis of rotation 13, passing through the hole in the slider 8 and fastened to the telescopic thrust 14 The torus with the base 10 is located on a circle directed toward the entire groove 9. The reflecting surface of the mirror 2 is fixed so that its projection on the stitch of the base 1 O is perpendicular to the projection onto it of the telescopic rod 14. The device works as follows. a telescopic tube is inserted, one end is pivotally connected to the base at a point coinciding with the circumference of the guide groove, and the other end is rigidly connected to the axis passing through the hole made in the slider, on which the second mirror is fixed so that its projection on a plane perpendicular to the 45 axis of rotation of the mirrors, perpendicular to the telescopic rod, while the axis of rotation of the first mirror is aligned with the center of the circle of the guide groove Using engine 5, gears 6 and 7 and carrier 16 are driven by platform 4 with mirror 2 along guide groove 9. With carrier 12, platform 3 with mirror 1 rotates synchronously with mirror 2 and beam 1 directed along mirror 1 along the axis its rotation is reflected from it and falls on the mirror 2, reflected from which it is directed on the scanned surface. The beam reflected from the mirror 2 will be parallel to the line connecting the axis 11 of the rotation of the mirror 1 and the axis of the hinge 15 of the telescopic rod 14. Thus, the proposed device provides a constant angle of incidence of the output beam on the scanned surface, which gives a uniform the illumination of various parts of this surface, both at large and small scan ranges. 25 Invention Formula An optical parallel scanning device comprising a base, a first mirror with a turning mechanism thereof, with which a second mirror is kinematically connected to JQ mounted on a slider placed in a guide groove made at the base along a circular arc characterized by the fact that, in order to increase the scanning accuracy, it additionally a telescopic tube is inserted, one end is pivotally connected to the base at a point coinciding with the circumference of the guide groove, and the other end is rigidly connected to the axis passing through the hole made in the slider, on which the second mirror is fixed so that its projection on a plane perpendicular to the axis of rotation of the mirrors, perpendicular to the telescopic rod, with the axis of rotation of the first mirror aligned with the center of the circle of the guide groove.