SU1221491A1 - Arrangement for measuring plane angles of polygonal prisms - Google Patents

Abstract

The invention relates to a measurement technique and can be used to automatically measure the flat angles of multi-faceted prisms. The aim of the invention is to enhance the functionality by controlling the spatial position of the multi-faceted prism. The inclination of the multifaceted prism 15 mounted on the object table 10 is visually controlled by the beam-splitting element 7 by shifting in the periscope 8 the master slot of the photoelectric slotted single-axis autocollimator 3 relative to the grid 6 of the collimation sighting device 5. 1 Il. 1C 4 (O

Description

one

This invention relates to a measurement technique and can be used to automatically measure the flat angles of multifaceted prisms.

The aim of the invention is to enhance the functionality by controlling the spatial position of the multi-faceted prism.

The drawing shows the functional diagram of the device

The device comprises a rotary platform 1 with a drive, an angular displacement sensor 2, made on the basis of an annular laser, associated with the rotary platform I, a photoelectric slotted one-coordinate autocollimator 3, a time interval forming unit 4 whose inputs are connected to the output of a photoelectric slot single-coordinate autocollimator 3 and the output of the sensor 2 angular displacements, a collimation reticle 5 with a grid 6, installed in the focal plane of the collimation reticle 5, a beam-splitting element 7, are performed movable and mounted between a photoelectric single-coordinate autocollimator 3 and a turntable I and optically connected with a collimation pen 5, periscope 8, lens 9, prbdtme table 10, mounted on a turntable 1, limit switches , 12, switch 13, indicator 14, Flat angles of a multifaceted prism 15 mounted on an object plate 10 "are measured

The device works as follows

Before measuring the flat angles of a multifaceted prism 15, the lens 9 and the beam-splitting element 7 are inserted into beams of rays formed by a photoelectric slit one-coordinate autocollimator 3. prism 15 with minimal eccentricity. The objective 9 is output and, visually, in the periscope 8, an autocollimated image specifies a long chain of a photoelectric gap single-coordinate autocollimator 3, formed from the flat faces of a multifaceted prism 15, adjuster 9

5 20 25 30 s.5

40

45 50 55

221491

they slope the slope of a multifaceted prism

setting it to the position when

15,

where the driving slot of the photoelectric slotted single-coordinate autocollimator 3 occupies a symmetrical position relative to the grid 6 of the collimation viewfinder 5. For these operations, the limit switches II, 12 form signals arriving at the switch 13, blocking the turntable control signals and the signals of the angular displacement sensor 2 .

After performing the alignment operations of the monitored multifaceted prism 15, the outputs of the beam-splitting element 7, turn on the turntable 1 and the monitored multifaceted prism 15 begins to rotate. During the rotation of the controlled multifaceted prism 15, the photoelectric slotted single-coordinate autocollimator 3 sequentially generates pulses from each face of the monitored multifaceted prism 15 arriving at the input of the time interval forming unit 4, to the second input of which pulses are received from the sensor 2 of angular displacements.

The number of pulses that fill the time intervals between the pulses of a photoelectric slotted single-coordinate autoclinator 3 is proportional to the size of the flat angles between the faces of the controlled prism 15 and is induced by the indicator 14. At the same time, the number of pulses generated by the sensor 2 of the angular displacements per revolution of the turntable 1 which counts proportionality factor when calculating plane angles.

The use of the device improves the accuracy of measuring the flat corners of a multifaceted prism by reducing errors caused by inaccurate installation of a multifaceted prism.

Claims (1)

Invention Formula A device for measuring flat angles of multifaceted prisms, comprising a rotary platform with a drive, an angular displacement sensor associated with a rotary platform, a photoelectric slotted single-coordinate 3 1221491 ny autocollimator unit formirova-axis collimation optical vizi- audio time slots inputs koto-ra intersects and is perpendicular cerned connected to the output optical axis photoelectric fotoeleht-parameter single-coordinate slit-slit one-coordinate avtokol- c autocollimator and output datchika5 limatora and lies in a plane perpendicular displacements, about a tl and h a ––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––––– project nennm possibilities in prostranstvennogostyu by controlling the movement and position of the specified polygonal prism, photoelectric onoyu between single-slit collimation reticle provided snokoordinatnym autocollimator and rio- grid mounted in the focal portal platform and optically coupled - collimation reticle plane of the reticle -zannym s.kollimatsionnym .