SU1467389A1 - Device for measuring angular displacements - Google Patents

Abstract

The invention relates to a measurement technique and can be used to control angular movements. The aim of the invention is to expand the range of measurement of the angle of rotation of an object located in a sealed enclosure when exposed; VII of aggressive media, due to the connection of the object of control through the transfer mechanism with the output end of a fiber-optic bundle, executed with the possibility of rotation around its axis. The beams of the beams of the light source 1 illuminate the wide end of the focon 2. The image of the mark 9 at the broad end of the focon 2 is transmitted through a flexible fiber optic bundle 6 to its output end. The rotation of the controlled object 10 at a certain angle will be transmitted through the transmission mechanism 8 to the output end of the fiber optic bundle 6, while the image of the mark 9 passed through the fiber optic bundle 7 and focon 3 and displayed on its wide end face will rotate through a certain angle which is determined by scale 11. The proposed device provides control of the angle of rotation of the object 10, located in a limited volume when exposed to aggressive media, within 360 °. 1 il ... (L

Description

The invention relates to the field of measuring equipment and can be used to control angular displacements.

The aim of the invention is to expand the range of measurement of the angle of rotation of an object located in a sealed enclosure under the influence of aggressive environments, due to the connection of an object –10 hectares of control through a transmission mechanism with the output end of a fiber optic bundle made with the possibility of rotation around its axis.

The drawing shows a functional diagram of the device.

The device contains a housing (not Proven), a light source 1 installed in the housing, two foci 2 and 3, 20 two optical connectors 4 and 5, two flexible fiber optic bundles 6 and 7, a transmission mechanism 8. A mark is applied to the wide end of the focus 2 25 9 and it is optically connected to the light source 1, the narrow end face of the focal area 2 is optically connected using the optical connector 4 to the input end of the fiber optic bundle 6, The output end of the fiber optic bundle is made about the possibility of rotation around its fairy, installation near the input toria fiber optical harness 7 oosno with him and is intended to strengthen through the gear 8 with the object of control 10. A cabinet 11 is applied to the wide end of the focon 3, its narrow end is optically connected via an optical connector 5 to the output end of the fiber optic bundle 7.

The device operates as follows.

Beams of light source 1 light illuminate the wide end of the focus 2. The image of the mark 9 at the wide end of the focus 2 is transmitted through a flexible fiber optic bundle 6 to its output end. Since the input end of the fiber-optic bundle 7 is located near the output end of the bundle 6, the image of the mark 9 will be transmitted to them on the wide end of the focal area 3. A rotation of the controlled object 10 will be transmitted through a transmission mechanism 8 to an output end of the fiber-optic bundle 6 , while the image of the mark 9 on the wide end of the fron 3 is rotated by a certain angle, which is counted on a scale of 11. The proposed device provides control of the angle of rotation of the object 10, located in a limited volume of and influence of aggressive agents in the range of 360 °.

Claims (1)

Claim A device for determining angular displacements, comprising a housing and a source installed in the housing, lights and two flexible fiber optic bundles, characterized in that, in order to expand the measuring range, it is equipped with two optical connectors, two foci, the narrow ends of which are optically connected through the corresponding optical connectors, respectively, with the input end of the first and the output end of the second fiber optic bundle; a mark is applied to the wide end of the first focone and it is optically coupled to the light source; second end of the first fiber optic harness is mounted rotatably about its axis at the input end of the second optical fiber 'harness coaxially with them for binding to an object of control, and a second end affixed Fauconnier · scale.