SU1444667A1 - Device for measuring speed of motion of long-sized material - Google Patents

Abstract

This invention relates to a text of industrial property. The purpose of the invention is to increase the measurement accuracy by increasing its speed. VIA. A characteristic feature of the device is the presence of a series-arranged and stationary in the direction of movement of the material (web) and semiconductor side scrolls connected in parallel-parallel manner. Periodic output signals of the scanstors, characterizing changes in the inhomogeneities of the surface of the material as it is scanned in opposite directions, are used to calculate the velocity of the material. 1 il. & (L

Description

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The invention relates to the textile industry.

The purpose of the invention is to improve the measurement accuracy by increasing its speed.

The drawing shows the block diagram of the device.

The device contains a source of light 1 and 2, each of which, through the control cloth (material), is optically connected through the projecting optical systems 3 and 4 to the semiconductor scanners 5 and 6, which are connected anti-parallel to each other to the source 7 of the bias voltage and generator 8 sawtooth voltage. The outputs of the scanstors are connected through differentiation units 9 and 10 with a signal processing circuit containing a block of 1 G multiplication and a unit 12 for calculating the velocity of the material.

The device works as follows.

The light from sources 1 and 2, the transmission material being monitored and the passage of optical systems 3 and 4, falls on the receiving windows of scanstors 5 and 6, while the latter form light patterns corresponding to the distribution of heterogeneities, such as material density. Using the sawtooth generator 8 and the source 7, the illumination patterns are read from the receiving windows of the scanstors. After differentiating the output signals of the scanstors by blocks -9 and 10, two electrical signals of different frequencies are obtained, and the frequency of the signal of block 9 is higher

the frequency of the signal block 10, since the scanstors 5 and 6 are scanned in different directions (scanstor 5 - towards

movement of controlled material). The signals from blocks 9 and 10 are fed to the inputs of block 11 multiplication and then from its output to the input of block 12, which calculates the speed

according to the frequency ratio of the scattered signals.

Claims (1)

Invention Formula A device for measuring the speed of movement of a lengthy material, containing photoelectric sensors of surface heterogeneity of the material under test and material placed along the material path and connected to the input of the material speed, characterized by TeMj, in order to increase the measurement accuracy by increasing its speed, it is provided with a bias voltage source, a sawtooth voltage generator and differentiation units, The photoelectric sensors of ambiguity of the surface of the monitored material are installed stationary; 0 and their photodetectors are filled in the form of anti-parallel semiconductor scanners, the first inputs of which are connected to the output of the bias voltage source, and the second to the output of the sawtooth voltage generator, while the outputs of the semiconductor scanstors are connected to the corresponding inputs of the multiplication unit through the respective differentiation units. KoH / npo upyef f) fu material uc / leni p Lj .. I