SU1105756A1 - Method of measuring objects shape and position - Google Patents

Abstract

METHOD OF MEASURING THE FORM AND POSITION OF THE OBJECT, according to which photodetectors are installed at the control points on the object surface. form a light beam with predetermined parameters, scan the photodetectors and judge the monitored parameter by a set of signals taken from the photodetectors, characterized in that, in order to improve the measurement accuracy, an additional light beam consisting of a set of equally spaced light planes is combined both light beams scan the photodetectors with a combined beam and count the number of pulses from each photodetector from the moment of the start of scanning to the moment the light beam hits the photodetector. set with the given parameters. h | JV

Description

The invention relates to a measuring technique and can be used, for example, in strength testing. Optical methods are known for measuring the shape and position of an object by which the moire pattern is obtained. 1 Known methods are laborious due to the visual reading of measurement results or photo decryption. The closest to the invention by technical essence and the achieved result is the method of measuring the photodetectors at the control points on the surface of the object, form a light beam with the specified parameters, scan the photodetectors and judge the controlled parameter D plurality of signals removed from photodetector 2J Cove. The known method does not provide sufficient measurement accuracy due to the instability of the scanning speed and the error caused by the vibration of the monitored object. The purpose of the invention is to improve the accuracy of measurements. This goal is achieved by forming an additional light beam consisting of a set of equally spaced light planes, combining both beams, scanning photodetectors with a combined beam and counting. The number of pulses from each photodetector starts from the moment of the start of scanning to the moment when the receiver of the light beam with the specified parameters hits the photo. The drawing shows a diagram of a possible device that implements the proposed method. The device contains optical systems 1 and 2 for forming the main (with specified parameters) and additional, complementary beams, element 3 (translucent mirror or cube) for beam alignment, scanning node 4, photodetectors 5, reversible counters 6, Scan node 4 can be For example, from a swivel mirror 7 and a lens 8. The method is implemented as follows. Photodetectors 5 are installed at the control points of the object under investigation. Optical system 1 forms a beam of 9 light with specified parameters, and an optical system consisting of a set of equally-spaced light planes 10 is sewed with an optical system 2 FOF. 10. Make the initial installation of the mirror 7 in a predetermined position. Turning the mirror 7, scan the photodetectors 5 by the light planes 10 and count the number of photocurrent pulses from each photodetector 5 from the moment of scanning start to the moment when beam 9 with given parameters hits the photodetector 5, the signal from which is stopped by counter 6. At measurements The proposed method virtually eliminates the error due to vibrations of the object and instability of the scanning speed.

Claims (1)

METHOD FOR MEASURING THE FORM AND POSITION OF THE OBJECT, according to which the photodetectors are installed at control points on the surface of the object, they form a light beam with specified parameters, scan the photodetectors and judge a controlled parameter by the set of signals taken from photodetectors, characterized in that, in order to increase the accuracy of measurements form an additional light beam consisting of a set of equally spaced light planes, combine - both light beams, scan the photodetectors with a combined beam and counting m the number of pulses with each photodetector from the start of scanning until the falling on a photodetector of the light beam with given parameters. £