SU1714347A1 - Device for checking angles of prisms - Google Patents

Abstract

1 / The invention relates to optical instrumentation and is intended for contactless control of prism angles. The aim of the invention is to improve the accuracy of monitoring and automating the monitoring process. A light source using a condenser illuminates the slit diaphragm. The collimator lens forms a parallel beam of rays that falls on a controlled prism and is divided by its edge into two. The beams reflected from the planes of the prism fall into the lenses of the recorder, which are built on the receiving sites of the position-sensitive photo receivers of the image of the slit diaphragm. When the slit diaphragm image deviates from zero position, electrical signals are received from the photodetectors from the photodetectors. 1 il.

Description

The invention relates (; to the field of optical instrumentation, and specifically to the field of optical measurements, and is intended to control the non-contact method of angles of prisms.

Devices are known for controlling the angles of prisms 1, by means of which they control the angles of prisms with varying accuracy.

However, such devices are purely visual and therefore have a measurement error and very low productivity.

It is also known a universal device in the form of a goniometer-spectrometer, containing a vertical axial system with a limb and an optical reading device, a collimator fixed on the base, a telescope that can rotate around a vertical axis and transform 8 an autocollimator, an object table for mounting a monitored part. Measurements can be made by collimation (with control of the deflection angle) or by autocollimation method (with control of the angles of prisms).

The disadvantages of the known device are the visibility of the measurement method, the presence of axial and optical reading systems, and consequently, the inevitability of the errors introduced by them, the measurement accuracy is relatively low, the labor productivity is low.

The purpose of the invention is to improve the accuracy of control and automation of the control process.

Claims (1)

The goal is achieved in that the device, a goniometer spectrometer containing a light source, a condenser, a collimator consisting of a lens, in the front focal plane of which there is a slit aperture, an object table, is inserted into a measuring unit consisting of two lenses installed under predetermined angle to the collimator sighting axis, in the back focal planes of which positional-sensitive photodetectors are installed, a decision unit (digital scaler), a display unit and a digital printing unit. The drawing shows a device for control. The device for controlling prism angles consists of a successive source of light 1, a condenser 2, a collimator consisting of a lens 3, in the front focal plane of which there is a slit aperture 4, a controlled part 5, and a recorder in the form of lenses 6 and 7, position-sensitive photodetectors 8 and 9, a decisive unit (digital scaler) 10, an indication unit 11 and a flea 12 digital printing. The device for controlling the angles of the prisms operates as follows. The light source 1 by means of the condenser 2 illuminates the aperture 4. The collimator lens 3 forms a wide beam of parallel rays that falls on the test piece 5 and is divided by an edge of the controlled angle into two beams deviating in opposite directions at an angle of 2 a, where a is the controlled angle . The parallel beams reflected from the monitored part fall into the lenses b and 7, which are built at the receiving sites of the photodetectors 8 and 9 of the slit image. When the slit of the diaphragm 4 deviates from the zero (middle) position, an electrical signal is taken from the photodetector, which is proportional to the size of the slit of the diaphragm 4, i.e. the amount of deviation of the monitored angle that enters the decision block 10. In this case, the sign of the signal depends on the direction of displacement of the slit image. The signals received in block 10 are algebraically x: emulated. The total signal at the known positional sensitivity of the photodetectors is a measure of the image displacement, i.e. a measure of the deviation of the monitored angle from the nominal value. The magnitude of the slit image displacement is determined from the expression where E is the slit image displacement value (µm): and is the total electrical signal (mV); positional sensitivity of photo detectors (mV / µm). If the focal distance of lenses 6 and 7 is known, then in the decision block 10 the deviation of the monitored angle from the nominal value of La is determined; tsg where fo6 - f6 f is the focal distance of lenses 6 and 7. Or Aa arctg .arctg, where K on is constant The specific device ratio. The measurement results are displayed on the display unit 11 or the digital printing unit 12. With a 15mV / µm node; fo6 500 mm; U 15 mV Aa arctg 0.2, 15-BCU-10 The invention A device for controlling prism angles, containing successively located light sources, a condenser, a collimator in the form of a lens and a slit diaphragm located in the front focal plane of the lens, and a recorder, characterized by In order to improve the accuracy of control and automation of the control process, the recorder is made in the form of two lenses designed to be installed in each of the streams reflected from the prism and installed respectively at a given angle to the axis of the mouth device, two position-sensitive photodetectors, each of which is located in the focal plane of the corresponding lens, the decision unit, the inputs of which are connected to the output of each of the photoreceivers, the display unit and the digital printing unit, and the outputs of the decision unit are connected respectively to the inputs of the display unit and the unit digital print 6