SU1007005A1 - Device for touch-free measuring of lengthy object movement speed - Google Patents

Abstract

1. APPARATUS FOR NON-CONTACT MEASUREMENT OF THE MOTION SPEED OF A TENSIONED OBJECT, containing a light source, a scanner, a projection optical system, a photodetector device connected to an electronic information processing unit, characterized by the fact that, in order to improve the measurement accuracy, a beam splitter installed, installed, is installed and an individual processing unit installed, in order to improve the accuracy of measurements. optical system and scaiur, and a mirror optically matched with a beam splitter and scanner. 2, The apparatus according to claim 1, wherein the scanner is designed as a rotating cylindrical drum with two slots placed along one forming the drum and two slit diaphragms installed in the direction of movement of the product, and the photodetector is made in the form of two photodetectors, optically matched through the slot of the drum with slit diaphragms.

Description

The invention relates to a measurement technique and can be used to measure the speed of extended objects, for example, textile materials. A device containing a scanner, a device for isolating two dimensional segments on a product, and a recorder 1 is known. A disadvantage of this device is the limitations of its use due to the need to isolate only two inhomogeneities on the product. The closest to the invention in its technical nature is a device comprising a light source, a scanner, a projection optical system, a photoreceiver connected to an electronic information processing unit. The scanner is made in the form of a television camera connected to a sweep generator and switch 2. A disadvantage of the known device is that pulses are obtained when scanning not one and the same surface of the product, and scanning two successively (overlapping) sections this surface. The density of optical irregularities in these areas can be significantly different. The speed of movement of the scanning element of the device during the forward and o6paiHOM scanning steps may be different. Anyone inaccurate) 1 in the work of the switch introduces an additional error. The aim of the invention is to improve the measurement accuracy. The goal is achieved by a device that contains a light source, a scanner, a projection optical system, a photodetector connected to an electronic information processing unit, a beam splitter installed between the projection optical Lstema and a scanner, and a mirror optically matched with the beam splitter and scanner. In this case, the scanner is made in the form of a rotating cylindrical drum with two slots placed along one forming drum, and two slit diaphragms installed in the direction of motion of the product, and the photodetector device is made in the form of two photodetectors optically aligned through the slits of the drum with the slit diaphragms. FIG. 1 and 2 are the device diagrams. The device contains a light source 1, to illuminate the surface 2, two slit diaphragms 3 installed in the direction of movement, a beam splitter 4, onto which an image of a moving product 2, a mirror 5, is projected using a projection optical system (not shown) surface view of one of the slots of the diaphragm 3, a drum-type scanner 6 having two slots 7 and 8, the axes of which are a continuation of one another, photodetectors 9 and 10 located behind the first and second slits E zlementy scanning, the electronic information processing unit 11 connected to the outputs of the photodetectors 9 and 10, the display unit 12, in Suitably calibrated values of the measured speed. The device works as follows. The image of the surface area of the product 2 (Fig. 1), illuminated by the light source 1, is projected by the beam splitter 4 in direct form, with the help of the mirror 5 - in the mirror-turned, onto two adjacent slit diaphragms 3. Thus, two located on the diaphragms 3 a series of images of the same surface area of the product 2, within which the images of optical inhomogeneities on the surface of the product 2 when the latter moves, move in opposite directions. Behind the slot in the plane of the diaphragms 3 there is located a scanning device 6 with two located on one straight slot. This scanning device, such as a rotating slotted drum. scans in one direction within the plane of the diaphragms 3, so that one of the diaphragms moves along the forward, and the second along the mirror-inverted image of the surface area of the test item. As a result, at the output of two photodetectors 9 and 10 (Fig. 2), placed respectively behind two scanning slits, a different number of pulses appear during the scanning time. The speed of movement of products is judged with respect to the difference to the sum of the frequencies of the received signals from blocks 11 and 12.

Fig 2

Claims (2)

1. DEVICE FOR CONTACTLESS MEASUREMENT OF SPEED OF MOTION OF AN EXTENDED OBJECT, containing a light source, a scanner, a projection optical system, a photodetector device connected to an electronic information processing unit, characterized in that, in order to increase the accuracy of measurements, a beam splitter is introduced into it, mounted between the projection optical system and the scanner, and a mirror optically matched with the beam splitter and the scanner. 2. The device according to π. 1, the fact that the scanner is made in the form of a rotating cylindrical drum with two slots located along one generatrix of the drum and two slotted diaphragms installed in the direction of movement of the product, and the photodetector is made in the form of two photodetectors, optically matched to the slits of the bar-§ ban with slotted diaphragms. 1