SU796656A1 - Device for measuring long object width - Google Patents

Description

(54) DEVICE FOR MEASURING EXTENDED WIDTH

OBJECTS

I

Invention. relates to measurement technology and can be used to measure the width of extended objects, for example, the width of rolled products.

A device for measuring the width of extended objects is known, comprising a lens, a photoelectric converter, and an electronic unit C.

The disadvantage of the device in the low accuracy of the measurements.

The closest to the invention is technically and achievable: the effect is a device for measuring the width of extended objects, comprising a lens, a photoelectric converter consisting of a ruler with photosensitive elements, a shutter and a register, a clock and counting oscillators connected respectively to the shutter and a clocking register input, a counter and a display unit connected to the counter. The image of the object being monitored is built by the lens on the surface of the ruler with photosensitive elements, upon a command coming in clock generator.

y) the census is recorded in a register, the information from which is in the form of a pulse signal (W is recorded sequentially with the help of a counting generator in the counter and indicated by a display unit (21).

The lack of devices in the absence of selection; pulse signals arriving at the counter in amplitude, which reduces the accuracy of measurements.

The goal of the optimization is to increase the accuracy of measurements.

The goal is achieved by the fact that the device is equipped with an amplitude-time selector, an amplitude selector and a diaphragm located between the lens and the photoelectric converter covering the part of the ruler with photosensitive elements, the first input of the amplitude-time selector is connected to the clock

Claims (3)

0 to the generator, the second input is connected to the register output, and the output is connected to the input of the amplitude selector, the output of which is connected to the input of the counter. 37 In addition, the amplitude of the no-time segment contains a multivibrator, a key element, an amplitude detector and a differential amplifier, the multivibrator input is connected to the first selector input, the output is connected to the control input of the key element, the information input of which is connected to the second selector input and the first differential input the amplifier, the output of the key element is connected to the input of the amplitude detector, the output of which is connected to the second input of the differential amplifier, the output of the differential amplifier is connected output selector. The amplitude selector contains an amplitude detector and a differential amplifier, the first input of which is connected to the input of the amplitude detector and the input from the lecturer, and the output connected to the output of the selector, the output of the amplitude detector is connected to the second input of the differential amplifier. The drawing shows a functional diagram of the device for measuring the width of extended objects. The device contains a lens 1, aperture 2, a ruler 3 with photosensitive elements, a shutter 4, a register 5, a clock generator 6, a counting oscillator 7, an amplitude-time selector 8 consisting of a multivibrator 9, a key element of an LO amplitude detector, a differential amplifier 12, . an amplitude selector 13, consisting of an amplitude detector 14, a divider 15, a differential receiver 16, a counter 17, a display unit 18, a controlled object 19. The device operates as follows. The image of the object to be monitored 19 is projected using lens 1 onto the surface of ruler 3 with light-sensitive elements. At the command of the clock generator 6, the counter 17 is reset and the information from the ruler 3 is reset by the gate 4 to the register 5. Information in the form of pulsed signals is output from the register 5 by the counting generator 7. The amplitude of the pulses depends on the illumination of the photosensitive elements of the ruler 3, pulses whose amplitudes exceed certain levels are passed through the selectors 8 and 13, are counted by the counter 17 and the I1 are sorted by the display unit 18. The diaphragm 2 covers part of the ruler 3, and the amplitude of the pulses, read from the closed part of the ruler, characterizes the wave / noise pattern. At the beginning of each polling cycle of register 5, a clock oscillator 6 starts i multivibrator 9, producing a pulse that unlocks the key element jlO for a time shorter than the read time of noise pulses. The input pulses arrive at the first input of the differential amplifier 12 and simultaneously through the key element 0 to the amplitude detector 11, at the output of which a voltage equal to the amplitude of the noise pulses is generated. The constant time of the discharge of the amplitude detector 11 significantly exceeds the period of the pulses from the miniature generator 6. Just below, the output of the amplitude detector is fed to the second input of the differential amplifier 12, the output of which generates a sequence of pulses with an amplitude equal to the difference between the amplitude of the input pulses and amplitude noise pulses. The image of the object to be measured 19 has a blurred border along its edges, as a result of which the information pulses arriving at the amplitude selector 13 have an unequal amplitude. With the help of an amplitude detector. 14, with a constant discharge time significantly exceeding the pulse period from the clock generator 6, divider 15 and differential amplifier 16, amplitude selection of information signals is performed at a given level, the relative value of which does not depend on the light flux and the measured object 19, i.e. from its temperature. Claim 1. A device for measuring the width of heavy objects, comprising a lens, a photoelectric converter consisting of a ruler with photosensitive elements, a shutter and a register, a clock and a counting generator, respectively connected to the gate and the clock input of the register, a counter and a display unit connected To counter, characterized in that, in order to improve the accuracy of measurements, it is equipped with an amplitude-time selector, and with a small selector and a diaphragm located between the lens and the photo The electrical transducer, with a closing part photosensitive zlemeetami line, the first input of the amplitude-time selector is connected to the timing generator, a second input connected to the output of the register and an output coupled to an input of the amplitude selector, which output is connected to the input of the counter. 2. The device according to claim I, in connection with the fact that the amplitude-time selector contains a multivibrator, a key element, an amplitude detector and a differential amplifier, the multivibrator input is connected to the first input of the selector, the output is connected to the control the input of the key element. the information input of which is connected to the second input of the selector and the first input of the differential amplifier, the output of the key element is connected to the input of the amplitude detector, the output of which is connected to the second input of the differential amplifier, the output of the differential amplifier is connected to the output of the selector. 3. The device according to claim 1, characterized in that the amplitude selector comprises an amplitude detector and a differential detector, the first input is connected to the input of the amplitude detector and the input of the selector, and the output is connected to the output of the sedactor, the code of the amplitude detector is connected with the second input of the differential amplifier. Sources of information taken into account in the examination 1. The patent of Germany N 1623167, cl. 42 V 12/02, 1975. 2. The patent of Great Britain N 1383320, cl. G 1 A, 1975 (prototype).