SU236779A1 - OPTICAL ELECTRONIC THIN-MEASURING DEVICE - Google Patents

Description

The proposal relates to angle-measuring devices.

Optoelectronic devices that work on the principle of equalizing svostvyh streams containing two light sources are known. powered in a counterphase, a prism analyzer with a carriage, a reflecting indicator element, a photodetector, and a phase detector for highlighting the angle of rotation of the indicator element. The disadvantage of such devices is a decrease in the measurement accuracy when changing the brightness of the light sources.

In the proposed device, a rectangular prism, sequentially installed, is placed between the reflecting mirror and the prism analyzer, a focusing lens, a photo receiver, and a phase detector connected to the light source ignition unit. The rectangular prism is fixed with one ka-retke with irizmennym analyzer.

This allows for improved measurement accuracy.

The drawing shows the functional diagram of the device.

The device consists of a lens /, an analyzing prism 2, two lenses 3 to 4, collecting pstOK from light sources 5 and b in the plane of the reflecting surfaces of the analyzing prism, lens 7, focusing the reflection from the indicator element A light fluxes in the plane of the photo-receiver 8.

The electrical circuit consists of an amplifier Y, a phase detector 10, a circuit // of light sources, such as LEDs, a pulse generator 12, an information pick-up circuit 13, and an electric motor 14 moving an analyzing prism along a screw 15.

The additional channel consists of a rectangular prism 16 mounted on a carriage with a prism 2. a focusing lens 17, a photodetector 18, an amplifier 19, and a phase detector 20.

When the indicator element L is rotated, the light fluxes falling on the photographic 8 are redistributed. As a result, the output of the phase detector W produces a control signal to the motor 14, which moves the prism until the signal is compensated.

When the brightness ratio of the light sources 5 and 6 is changed, a variable component appears on the photodetector 18, which is used to control the light-emitting diode LEDs.

Subject invention

An effective radiation analyzer, a reflecting mirror, a photodetector, and an extraction circuit, characterized in that, for the purpose of taking accurate measurements, the sensors were additionally installed and ordered by an irregular

between reflecting mirror and imitation n; ayd1 anal -zatorom, focusing lens, photo image ;; emnk AND phase detector, connected by a nodjng unit of light sources, iri et al ntraligned on a single kilometer e and a variable analyzer.