SU424006A1 - METHOD OF CONTACTLESS MEASUREMENT OF SIZE SAMPLES - Google Patents

Description

one

The invention relates to the field of measurement technology, in particular, can be used to conduct T, or to measure distance deformations of objects, for example, to determine the amount of contraction of a specimen placed in a heat-treating furnace during exposure to tensile strength.

Methods are known for contactless measurement of sample sizes under stretching, based on projecting an image of a sample onto a photocathode of a transmission television tube with a line aperture operating in a single-sided mode, generating video pulses with subsequent conversion of the sample into linear dimensions of the sample.

The known methods of contactless measurement of the diameter of the sizes of the objects under study cannot ensure simultaneous obtaining of information about the minimum and maximum diameters of the object.

With the aim of measuring the measurement process while simultaneously determining the largest and the smallest diameter of the sample under investigation according to the proposed method, the image of the sample projection is scanned perpendicular to the larger edge of the transmission line of the television tube in one-line mode. The exact parallelness of the aperture and sample faces is shown the minimum duration of video pulses by spatially moving the TV transmitting tube relative to the sample, and the size uniform and naimenschego sectional sample is counted for durations m respectively base and a flat top portion of a video.

ten

FIG. 1 shows a photocathode on which, according to the proposed method, an image of the sample being measured is projected; in fig. 2 n 3 - possible deviations of the faces of the measured sample.

A photocathode 1 (Fig. 1) and a television tube with a line (rectangular) aperture 2, for example, a dissector, is projected onto an image of the sample to be measured 3, which is moved by a deflecting system of a perpendicularly large aperture face (arrow shown in Fig. 1). With eg (1M duration of the base 4 of the video impulse 5. allocated to the load of the transmitting tube, corresponds to a uniform (undeformed by) the test sample 3, and the upper flat part 6 of the video impulse corresponds to the deformed portion of the sample.

The definition of grandeur for videovolume separations, and, consequently, the required relative sample sizes, can be found1, indicated by any known means of display and selection, for temporary measurements. To4iiocTi ns; The research depends on the HpaciLiBHoii orientation of the 1H1 television tube relative to the measured value. Therefore, at the beginning of the measurements, an accurate installation of the parallelism of the measured sample and aperture is carried out. Pa figs. 2 and fng. 3 by notation indicates possible deviations from such a combination. Changes in the photocathode 1 of the televon tube relative to the axis and moving it in vertical direction with a simultaneous change in its angle of inclination to the sample nloskoi (Fig. 3), but produce the exact installation of the system but the minimum indicated duration of the output measuring impulses of the photocathode 1. In this case, it complies Strictly parallelism of the faces of the anerture 2 of the nroject sample 3.

Subject invention

A non-contact measuring method for sample sizes at stretching based on

the sample image on the photocathode 11 of the television tube with a line aerial, working in a single line mode, formed of video pulses with a subsequent 11 and the transformation of their length into the linear dimensions of the sample, about a l oo Hui and with those.m. The image of the sample sample is scanned with a non-randomly larger ipaHii line aperture, and the exact parallelism between the faces of the aerture and the sample is determined by the minimum ioii indications of the video emulsions. anstvennogo neremen.eni neredayuidey televizioiioy tube relative to the specimen, and the size is uniform, and the smallest cross-sectional image. The durations of the base and upper section of the private L1 video are counted accordingly.