SU953457A1 - Optical electronic measuring device - Google Patents

Description

(54) OPTICAL AND LECTRONIC MEASURING DEVICE

Claims (2)

The invention relates to measuring devices designed to measure the angles of rotation of the object being monitored with respect to the twist axis. A device is known which comprises a prism reflector mounted on a controlled object, a lens with a cruciform diaphragm analyzer, a luminous mark in the form of four illuminated areas alternately illuminated by radiators and ({a receiver). A disadvantage of the known device is that when the prism reflector is rotated, a false signal will be sent to the photodetector, since the cruciform reflection is obtained from different emitters, which are not identical. Technically, an optoelectronic measuring device containing an optically coupled illuminator, a prism unit mounted on a test object, and a tracking system with an analyzer in the form of a prism 2, is a disadvantage of the known device is not precise enough (x; measurement due to performance prism block. The purpose of the invention is to improve the accuracy of measurement. This goal is achieved by the fact that the prism block is made in the input of two prisms, one of which is a friend’s AR-EO type - AKP-90, and obekt11vov, each of which is optically coupled to one of the prisms and located from one another at a distance greater than the diameter of the light lens such that their optical axes are parallel memsdu. The drawing shows a schematic diagram of the device. The optoelectronic measuring device contains an illuminator, made as a source of radiation 1 to a slit diaphragm 2, a prism block. A 3-pin AR-00 rectangular prism lens 5 prism prism with a lens type, a 6 lens tracking system with an analyzer in the VI and a priam knife 7, including two photodetectors 8 9, the outputs of which are connected to the input of the electrical conversion unit 10. The device operates as follows in a way. Radiation from the radiation source 1, a backlit 11BA slit aperture 2, is formed into a parallel luminous flux due to the location of the slit aperture 2. In the focal plane of the lens 4, this beam, after passing through the prisms 3 and 5, hits the other lens 6, which builds an image of the slit aperture 2 in the focal plane of the edge of the prism 7. If the line connecting the centers of lenses 4 and 6 is parallel to the line passing through the slit aperture 2 and the edge of the prism 7, then the image of the slit aperture 2 will be aligned with the edge of the prism 7 and Landmarks 8 and 9 will receive the same signals. When the primoenny block is rotated around the optical axis (twisting axis), the optical axis of one of the lenses will rotate relative to the axis of the other lens and the slit diaphragm image will shift relative to 1physma 7. At one of the photo receivers, more light flux 574 flows and the electrical conversion unit 10 gains a signal mismatch5 Thus, at any displacements and inclinations of the prismesyugo block that is installed on the controlled object, the image of the slit diama is always built in the focal loskosti and a plane passing through a slit aperture and lens centers. An optical-electronic measuring device containing an optically coupled illuminator, a prism unit mounted on a test object, and a trace system with a prism-knife analyzer, different from the fact that, in order to improve the measurement accuracy, the prism unit is made in the form of two prisms, one of which is of the AP-9O type, the other of the AKP90 ° type, and two lenses, each of which is optically coupled to one of the prisms and is located one from the other at a distance greater than the objective diameter of the lens, what about them the axes are parallel to each other. Sources of information taken into account in the examination 1. US patent number 324143O, cl. 88-140, 1964. 2. USSR author's certificate number 539288, cl. q 02 B 27/30, 1976 (prototype).