SU1515040A1 - Converter of angle of turn - Google Patents

Abstract

The invention relates to a measurement technique and can be used to determine the angles of rotation of objects. The aim of the invention is to reduce the size of the converter by installing a radiation receiver between the scanning element and the radiator. The beams of rays from the emitter 2 are limited by the diaphragm formed by the collector electrodes 4 of the radiation receiver 3, pass through the plate of the photosensitive material of the radiation receiver 3 and, reflected from the reflecting portions of the scanning element 6, again fall on the radiation receiver 3. When the control object is rotated, the scanning element 6 is rotated with it and the area that is located in front of the radiation receiver 3 changes and the signal changes at its output. Thus, the number of pulses at the output of the radiation receiver will be proportional to the angle of rotation of the test object. The installation of the radiation receiver 3 between the emitter 2 and the scanning element 6 made it possible to reduce the dimensions of the transducer in comparison with the known technical solutions. 1 il.

Description

The invention relates to measuring technique and can be used to determine the angles of rotation of objects.

The purpose of the invention is the reduction in size by installing a radiation receiver between the scanning element and the emitter.

The drawing shows a functional diagram of the Converter.

The converter comprises a housing 1 and a radiator 2 and a radiation receiver 3 installed in the housing 1. The collector electrodes 4 of the radiation receiver 3 form a diaphragm. The space between the emitter 2 and the radiation receiver 3 can be filled with transparent material 5, for example, with glue. The scanning element 6, made in the form of sequentially arranged reflective and non-reflective sections, is fastened to the object of control (not indicated). The radiation receiver is made in the form of a plate of a photosensitive material, the thickness of which is determined from the condition 0.1 x exp (-Uso) / 0.99, where οίκο is the absorption coefficient of the photosensitive material.

The housing 1 is installed in front of the scanning element 6 so that the radiation receiver 3 is located between the emitter 2 and the scanning element 6.

The converter operates as follows.

The ray beams from the emitter 2 are limited by the diaphragm formed by the collector electrodes 4 of the radiation receiver 3, pass through the plate of the photosensitive material of the radiation receiver 3, and, reflected from the reflecting sections of the scanning element 6, again fall onto the radiation receiver 3.

When the control object is rotated, the scanning element 6 rotates with it, and the section located in front of the radiation receiver changes, and the signal changes at its output. Thus, the number of pulses at the output of the radiation receiver is proportional to the angle of rotation of the control object,

The installation of the radiation receiver 3 between the emitter 2 and the scanning element 6 provides a reduction in the size of the proposed Converter in comparison with the known. The use of a radiation receiver 3, the thickness of the photosensitive layer of which satisfies the condition 0.1 <εχρί-ο / ω) <Е 0.99, makes it possible to efficiently use the light flux of the emitter 2.

Claims (1)

Claim A rotation angle transducer comprising a radiator, a radiation receiver, a diaphragm mounted in front of the radiation receiver, a scanning element made in the form of successive reflecting and non-reflecting sections and intended to be fastened to a control object, characterized in that, in order to reduce the dimensions, the plate of a photosensitive material, the thickness of which is determined from the condition 0.1 E εχρ (- (/ ω) <0.99, where d is the absorption coefficient of the photosensitive material, is established between the scanning electron ^ ment and emitter, and the aperture is in the form of two current collecting electrodes radiation receiver.