SU1133482A1 - Method of checking transverse size of lengthy object - Google Patents

Abstract

METHOD OF CONTROL OF THE TRANSVERSE SIZE OF THE EXTENDED OBJECT, which consists in illuminating an object with beams of rays, forming an enlarged shadow image of the object, scanning the shadow image of the object in the direction perpendicular to the line of sight, dividing the shadow image of the object into two images moving during scanning in the opposite direction the other in the image plane form photocurrent pulses, duration. . which is proportional to the time of spatial alignment of two shadow images of the object in the image plane, and the transverse size of the object is determined by the duration of the photocurrent pulses, characterized in that, in order to increase the control accuracy at the spatial displacement of the object, the spatial displacement of the object relative to the line of sight is measured .- by measuring the duration of the front of the signal. photo current, comparison with the zantal value and the occurrence of no-difference width-modulated signal, determine a spatial displacement of the object relative to the line of sight by comparing time in-. when two images of points are in the image plane at the same distance from the line of sight, and according to the sign of the spatial displacement of the object and the pulse duration of the width-modulated signal, the spatial boundaries of the SO4 S4d are combined in the process of skewing - drawing two images of the object with the axis of sight. ogo

Description

The invention relates to a measurement technique and can be used for the non-contact control of the transverse size of various objects, for example, wires, in the manufacturing process. The closest to the invention to the technical essence is the method of controlling the lateral size of the extended object, which consists in illuminating the object with beams of rays, forming an enlarged shadow image of the object, scanning the shadow image of the object in the direction perpendicular to the line of sight, separating the shadow image object into two images, moving in the process of scanning towards one another in the image plane, 1, form photocurrent pulses, the duration of which is proportional to The spatial alignment of the two shadow images of the object in the image plane, and the duration and the photocurrent are judged on the transverse size of the object 3. The disadvantage of this method is the occurrence of control error during spatial displacement of the object. The aim of the invention is to increase the accuracy of control at the spatial displacement of the object. This goal is achieved by the method of controlling the transverse size of an extended object, which consists in illuminating an object with beams of rays, forming an enlarged shadow image of the object, scanning the shadow image of the object in the direction perpendicular to the line of sight, separating the shadow image of the object by two. images that are intermittently scanned in the opposite direction (one .. in another image plane, photocurrent pulses are formed, the duration of which is proportional to the spatial displacement time of two shadow / image images of the object in the image plane), and the transverse size of the object is measured by the photocurrent pulse duration the spatial displacement of the object relative to the line of sight due to the measurement of the duration of the photocurrent signal front, comparing with the reference value and finding 5; irotal-modulated signal, determine the sign of the spatial displacement of an object relative to the line of sight by comparing the time of appearance of auxiliary photocurrent pulses when two images of points in the image plane at the same distance from the line of sight are passed, and by the unitized sign of spatial displacement of the object and the pulse width of the S-signal-modulated signal is performed by combining the boundaries of the spatially aligned two images of the object with the axis during the scanning process. sight. The drawing shows a functional diagram of the device implementing the proposed method. The device contains an optically coupled light source 1, a capacitor 2, a lengthy object 3, a projection lens 4, wrapping a prism 5, a scanning element 6 splitting a prism 7, a four-slit diaphragm 8, a series-connected photodetector 9, an amplifier 10, a registration unit U , auxiliary photodetectors 12-14, serially connected auxiliary amplifier 15, to the inputs of which are connected auxiliary photodetectors 12-14, selection and comparison unit 16, formation unit 17, rotation unit 18, consisting of stationary permanent magnets 19 and 20, fixed 21 and movable 22 windings with which the wrapping prism 5 is mechanically connected. . The device works as follows. Beams of beams, formed by light source 1 and condenser 2, illuminate an extensive object 3, the shadow image of which is built by a projection lens 4 in the image in which a four-aperture diaphragm 8 is located. The splitting prism 7 splits the face of object 7 with rotating 3 scanning element on two images, moving one towards the other. When combining two images of an object in the plane of the diaphragm of 8 g, the photodetector 9 forms a photocurrent signal, the duration of which is proportional to the transverse size of the object

Claims (1)

METHOD FOR CONTROLLING THE TRANSVERSE SIZE OF AN EXTENDED OBJECT, which consists in illuminating the object with beams of rays, forming an enlarged shadow image of the object, scanning the shadow image of the object in the direction perpendicular to the line of sight, and separating the shadow image of the object into two images moving towards one another in the scanning process image planes form photocurrent pulses, the duration of which is proportional to the time of spatial alignment of two shadow images of the object and in the plane of the image, and by the duration of the photocurrent pulses, the transverse size of the object is determined, characterized in that, in order to increase the control accuracy with the spatial displacement of the object, the spatial displacement of the object relative to the line of sight is measured by measuring the duration of the signal front. Photo stream, comparison with the reference value and finding the difference latitudinal modulated signal, determine the sign of the spatial displacement of the object relative to the line of sight by comparing the time of appearance. the auxiliary pulses of the photocurrent during the passage of two images of points located in the image plane at the same distance from the line of sight, and using the found sign of the spatial displacement of the object and the pulse width of the pulse-width modulated signal, the boundaries of the spatially aligned during scanning two images of the object with the axis sights. ί 1133482