SU1103114A1 - Lengthy material winding density meter - Google Patents

Abstract

MEASURING DENSITY METER OF LONG-DIMENSIONAL MATERIALS, containing package diameter and rotational speed sensors, integrator, through the comparison unit associated with the first input of the computing unit, characterized in that, in order to improve the accuracy of density measurement by determining it on each revolution of the package, it has , clock generator, reference voltage source, trigger, analog key and pulse counter, with mutually inverted trigger inputs connected to the first pulse counter output, respectively. with the output of the rotational speed sensor of the package — and mutually inverted trigger outputs — with the corresponding control inputs of the analog switch, whose information inputs are connected respectively to the outputs of the sensor of the package diameter and the source of the reference voltage, and the output of the comparison and generator clock pulses through the AND element are connected to the summing-up input of the counter (L ka themLuhsov), which connect the input to the first output of the pulse counter, and the second output to the second one. eye input of the computing unit, § moreover, the summing input of the pulse counter is additionally connected to the output of the sensor of the RPM of the package of the EPS

Description

The invention relates to the technology of automated process control systems (APCS) of the textile industry, more specifically to measuring the density of the winding of long materials, for example, in the process of the base of yarn. A winding density meter for long-length materials is known, which contains diameter and rotation speed sensors of the package, an integrator through a comparison unit connected to the first input of the computing unit l. The main disadvantage of the known device is the low accuracy of the density measurement, since it provides an integral density estimate and does not provide its measurement on each revolution of the package. The purpose of the invention is to improve the accuracy of the density measurement by determining it at each revolution of the package. The goal is achieved by the fact that the meter containing the sensors for the diameter and rotational speed of the package, the integrator, through the comparison unit, entered into the first input of the computing unit, has an element AND, a clock generator, a reference voltage source, a trigger, an analog switch and a pulse counter, at the same time, the mutually inverse trigger inputs are connected respectively to the first output of the pulse counter and to the output of the package rotational speed sensor, and the reciprocally inverted trigger outputs to the corresponding control inputs of the analog The key of the key, the information inputs of which are connected respectively to the outputs of the package diameter sensor and the source of the reference voltage, and the output to the integrator input, the outputs of the comparison unit and the clock generator through the And element are connected to the summing input of the pulse counter tilting the input connected to the first the output of the pulse counter, and the second output - with the second input of the computing unit, and the summing input of the pulse counter is additionally connected to the output of the package speed sensor. The drawing shows a structural diagram of the meter. The rolling roller 1 of the package diameter sensor 2 is connected to a transducer 3 moving to an analog signal. The output of the converter 3 is the output of the package 2 diameter sensor. The package rotation speed is determined by the sensor 4 of the package rotation speed 2. The output of the integrator 5 (the integrator is based on an analog amplifier and C-chain) is connected to the input of the comparison unit 6. The sync pulse generator 7 and comparison unit 6 with its outputs through element 8 are connected to the summing input of pulse counter 9, which connects the input to its first output, while the summing input of counter 9 is additionally connected to the output of sensor 4. Inverted input. trigger 10 are connected respectively to the outputs of sensor 4 and counter 9, and the mutual outputs of trigger 10 are connected to the corresponding L .. control inputs of the analog switch 11, the information inputs of which are connected respectively to the outputs of the converter 3 of the sensor of the package 2 diameter and the source 12 of the reference one tension The output of the comparison unit 6 and the second output of the counter 9 are associated with the corresponding inputs of the computing unit 13. The meter operates as follows. The sensor 4 of the number of pack rubs forms a single pulse at each revolution of the pack. According to this pulse, the trigger 10 is set to a position in which the converter output, l 3, is connected via key 11 to the input of integrator 5. Comparison unit 6, connected to the output of integrator 5, outputs an enabling potential to AND 8, the second input which passes the clock pulses from the generator 7 sync pulses into the counter 9 pulses. The time of the first integration cycle is set by the digit of counter 9. In this case, the overflow signal flushes counter 9 and flips to the zero state of trigger 10, which via analog switch 11 connects the reference voltage from source 12 to the integrator 5. Input The output of integrator 5 begins to decrease to zero. During this time, the counter 9 pulses from the second input element And 8 receive clock pulses from the generator 7. At time T, the voltage at the output of the integrator 5 reaches zero

Claims (1)

WINDING DENSITY MEASURER FOR LONG-DIMENSIONAL MATERIALS, containing sensors of the diameter and number of turns of the package, an integrator through the comparison unit connected to the first input of the computing unit, characterized in that, in order to improve the accuracy of measuring density by determining it at each turn of the package, it has an element And a clock generator, a reference voltage source, a trigger, an analog switch and a pulse counter, while the mutually inverse inputs of the trigger are connected respectively to the first output of the pulse counter and to the package speed sensor, and the mutually inverse outputs of the trigger are connected to the corresponding control inputs of the analog switch, the information inputs of which are connected respectively to the outputs of the package diameter sensor and the reference voltage source, and the output is connected to the integrator input, the outputs of the comparison unit and the clock generator via the AND element is connected to the summing input of the pulse counter, resetting the input associated with the first output of the pulse counter, and the second output with the second. direct input of the computing unit, g where the summing input of the counter ** pulses is additionally connected to the output of the sensor of the number of revolutions of the-> forging.