SU918785A1 - Device for marking-out angular scales - Google Patents

Description

(5) DEVICE FOR THE MARKING OF ANGULAR SCALES

I

The invention relates to measurement technology and can be used in the manufacture of templates and scales.

Markers are known. angular scales comprising a rotary table, a corner counting mechanism and a cutter for applying readings on the substrate 1 ,.

However, the devices are characterized by low productivity and low marking accuracy due to the quality of the tool and the reference mechanism.

The closest to the invention to the technical essence is a device for marking angular scales, comprising an annular laser mounted with the possibility of rotation of the axis of symmetry and an optical system. forming the image of the scale, including the modulator, the light source optically connected through the modulator to the photosensitive layer, and the unit for recording the signal of the beating of the opposing

A ring laser wave, electrically connected to the input of a Topat2 module.

The drawback of the device is the low accuracy of the scale marking due to the large number of intermediate signal transformations in the scale imaging system.

The purpose of the invention is to improve the accuracy of the marking of the scales.

The goal is achieved by

10 that in a device for marking angular scales, comprising an annular laser mounted rotatably around an axis of symmetry, and an optical scale imaging system, the optical imaging system of the scale is made of two mirrors mounted along two colliding laser beams,

at a distance; Nii from each other, equal

20

it /, L 2H tg arcSin -jfo and at an angle

Claims (2)

H arccos - ein to each other. where R is the radius of the scale; H is the distance from the optical axis of the laser to the surface of the scale; X is the laser wavelength; K is the scale factor of the laser. The drawing shows a diagram of the device. The device contains a stationary base 1, on which the substrate 2 is formed of forming scales. On the platform 3, which is rotated by the motor k, the ring laser formed by mirrors and the active body 8 is fixed with the possibility of rotation around the axis of symmetry. The device also contains an optical imaging system made of two mirrors 9 and 10 installed along two opposite laser beams at a distance from each other, equal to Я.К L 2Н tg arcSin -jf LED angle K of arcCos to each other, where R is the radius of the scale; H g is the distance from the optical axis of the laser to the scale surface; - laser wavelength; K is the scale factor of the laser. The device works as follows. The output laser beams transmitted through the mirrors 57 fall onto the mirrors 9 and 10, are reflected from them on the surfaces: substrates 2 scales, where they interfere, forming a system, the bands that move at a speed equal to the speed of movement of the substrate 2 by choosing the distances between the mirrors of XK Qalami L III tg arcSin tte Combined output rays form on the surface of the photosensitive layer of the substrate 2 a light spot that moves around the circumference when the platform 3 rotates. In this case, the interference fringes move relative to the light spot The same speed, but in the opposite direction, as a result of which they remain motionless relative to the photosensitive layer of the substrate 2, and the light spot, moving across the layer, highlights the angular scale on it. Thus, the device allows to mark the angular scales. With great Accuracy due to the high stability of the laser radiation used for marking the scale. An apparatus for marking angular scales, comprising an annular laser mounted rotatably around an axis of symmetry, and an optical system for forming an image of a scale, characterized in that, in order to increase the accuracy of markings "1 scale, an optical system for forming an image of a scale is made of two mirrors installed in the course of two colliding beams of the laser at a distance from each other, I Ya.K equal to L 2H tg arcSin and at an angle y arcCos to each other, where R -. scale radius; H is the distance from the optical axis of the laser to the scale surface; D is the laser wavelength; K - scale factor lase. . ra. . . . Sources of information taken into account in the examination 1. Mironenko A, B. Photoelectric measuring systems. N., Energie, 1967, p. . 2. Instruments and control systems, 1976, If 12, p. 33. th