SU1052842A1 - Device for gauging length of moving article - Google Patents

Abstract

A DEVICE FOR MEASURING THE LENGTH OF MOVING PRODUCTS containing a sensor unit of the product, a control unit, the first n inputs of which are connected to the n outputs of the sensor unit, two pulse counters, the first inputs of which are connected to the first output of the control unit, an arithmetic unit, the inputs of which are connected to the outputs of counters A recorder connected at the output of the arithmetic unit, and a pulse generator, characterized in that, in order to increase the accuracy of measurement and enhance the functionality, the output of the generator impulses are connected to the second input of the first counter, and the device is equipped with a% battery unit, the first input of which is connected to the first output of the sensor unit, the second input to the first output of the control unit, the third input to the second output of the control unit and the second input of the recorder, the fourth input to the third input of the recorder and to the second input of the second counter, the third input, which is connected to the output of the recorder and to the third input of the arithmetic unit, the fifth input - to the third output of the control unit and the fourth input of the arithmetic The fifth block is connected to the fourth output of the control unit and the third input of the first counter, and the output of the time block is connected to n - “- I input of the control unit, the product speed, the input of which is connected to the first output of the control unit, and the output to the sixth time block input, and the switch, whose input is connected to the fifth output of the control unit, the first output is connected to the sixth input of the arithmetic unit, and the second output is connected to the second input of the second counter and the third input of the recorder. YU

Description

The invention relates to a measurement technique and can be used to measure longitudinally moving articles, such as rolled products. A device for measuring the length of moving parts is known, which contains sensors for the presence of a product, a counter for the number of triggered sensors, two residue counters, a key for controlling the counter for the number of triggered sensors, and a summing counter C 1. However, this device is hard: it is not sufficiently accurate to measure because sensors under the influence of interference causes an error equal to several intervals between adjacent sensors. Most proposed for this is a device for measuring the length of moving products, containing a unit of sensors for the presence of a product, a control unit, the first n inputs of which are connected to the n outputs of the sensor unit, two pulse counters, the first inputs of which are connected to the first output of the control unit, an arithmetic unit whose inputs are connected to the outputs of counters, a registrar connected at the output of the arithmetic unit, and a pulse generator 2. A disadvantage of the known devices is the low accuracy measured due to those that the operation of the sensors under the action of interference causes an error equal to several intervals and “1 between adjacent sensors f as well as narrow functionality, limited by the fact that the device allows measuring and recording only products for which are less than the total length of the base sections and more the length of the first base section, the purpose of the invention is to improve the measurement accuracy and expand the functional capabilities. The goal is achieved by the fact that, in a device for measuring the length of moving parts, there is a unit of sensors for the presence of a product, a control unit, the first n inputs of which are connected to the n outputs of the sensor unit, two pulse counters, the first inputs of which. connected to the first output of the unit; an arithmetic unit whose inputs are connected to the outputs of the counter V; a recorder connected at the output of the arithmetic unit, and a pulse generator, the output of the pulse generator is connected to the second input of the first counter, and the device is equipped with a time unit whose first input is connected to the first output of the sensor unit, the second input -i to the first output of the control unit, the third input - to the second output of the control unit and to the second input of the recorder, the fourth input - to the third input of the recorder and to the second input of the Bjopoio meter, the third input of which is connected to the output of the recorder and to the third input of the arithmetic the fifth input to the third output of the control unit and the fourth input of the arithmetic unit, the fifth input of which is connected to the fourth output of the control unit and to the third input of the first counter, and the output of the time unit connected to (n + 1) input of the control unit, the speed sensor of the product, the input of which is connected to the first output of the control unit, and the output to the sixth input of the time unit, and the switch, the input of which is connected to the fifth output of the control unit, the first output is connected to the sixth input of the arithmetic unit, and the second the output is connected to the second input of the second counter and the third input of the recorder. Ia the drawing shows the block diagram of the proposed device. The device contains a pulse generator 1, a switch 2, the first 3 and second 4 counters, the arithmetic unit 5, the first and second inputs of which are connected respectively to the outputs of the first 3 and second 4 counters, the recorder 6, the first input of which is connected to the output of the arithmetic unit 5 | a product speed sensor 7, a product availability sensor unit 8, a control unit 9, whose ft inputs are connected to the n outputs of block 8 and a time unit 10, the first input of which is connected to the first input, and the output to n +1 input of the control unit 9. The device can operate in two modes, determined by the position of the switch 2 and corresponding to this position by the operation mode of the control unit 9. In the first mode, the device allows to keep records of products whose size exceeds the total length of the block of 8 sensors without measuring the length, and in the second mode, the device allows to measure the length of such products. Consider the operation of the device in the first mode. The appearance of the front end of the moving product in the zone of the first sensor of block 8 causes the appearance of a signal at the first output of block 8 and at the first inputs of blocks 9 and 10. After a time interval T; , opt. determined by block 10 in accordance with the equation. g 1. J / V on nt-1 in the second control block 9 appears which provides a signal, connecting the next input to the first output of control block 9, where L is the length of the i-ro base section stored in the corresponding memory cell of block 10 for 17 / “UjrtfV; cf is a constant determined by possible fluctuations in the mean velocity; V is the value of the average speed of the product, Detected by the sensor 7. The indicated process repeats each time if the signal arrives at the connected input when there is 1 at the first input of the control unit 9. With this act; The signal from the last and th input of block 9 connects the fifth output of block 9 to the nth terminal, the signal from which, arriving at the third input of recorder 6, gives information about what is passing through the long helium. The occurrence of a zero signal at the first input of control unit 9 simultaneously with the arrival of a signal at the operating input does not prevent the input signal to the first input of block 9 and ensures the connection of the third output of block 9 to the working input, which causes the appearance of this output 1. If the zero signal is set at the first input of the control unit 9 after the second input is connected to the first output and non-simultaneous with the arrival of the signal at the second input, the second input from the first input and the second output of the control unit 9 switches. In this case, the arrival of a signal at the second input causes the appearance of a signal at the second step of block 9, which informs the recorder 6 that a short product passes. If a zero signal is set at the first input of control unit 9 non-simultaneously with the arrival of a signal from a working input, the number of which exceeds the number two, then block 9 forms a pulse signal at its fourth output, the duration of which is equal to the write time in the register of the arithmetic unit 5 output value counter 3. In addition, setting the signal at the first input to zero under the specified conditions ensures switching the working input from the first to the third output of block 9 or connecting the next input to the third the output at the moment it arrives at h + 1. In this case, the signal input from the working input provides a signal i at the third output of block 9 and generates a pulse signal at the fourth output of block 9. Assume that the signal is stored at the first input of the control unit 9. In this case, the arrival of the signal at the second input increases the content of the counter 4 by i, setting the counter 3 to zero and the signal at the output of the block 10, which leads to a deviation of the second channel. After a time T on the (n + 1) -th input of block 9, a signal appears that connects the third input to the first output of control block 9. The arrival of a signal at the third input causes a process similar to the process caused by the arrival of a signal at the second input. The repetition of the processes caused by the arrival of the signal on the working input continues until the signal 1 is stored at the first input of the control unit 9. Assume that on the first input of control unit 9, whitefish is saved when a signal arrives at the last n input. In this case, the arrival of the signal at the “th input” ensures the appearance of a signal at the fifth output of the control unit 9, which sets the counter to zero, provides the registrar b to register the long product and sets the time unit 10 to its initial state. In this case, the device returns to the static state. Assume that the zeroing of the signal at the first input of the control block 9 occurs when the front end of the product passes a section located between the (n-2) -m and (n-1) -m sensors of the product presence. At the moment when the first signal is set to zero, a pulse signal is formed at the fourth output of block 9, which for the time of its operation blocks the first and second inputs of counter 3 and ensures that the output value of counter 3 is written to the first register of the arithmetic unit 5 The first and second inputs of counter 3 are calibrated and it continues to count the generator 1 pulses. At the moment the signal arrives at the (RI) -th input of control unit 9, the (n-1) -th input is connected to the third output of block 9. Received The signal on the {p (-1) -th input forms a pulse signal at the fourth output of block 9 and provides a signal at the third output of control block 9. The pulse signal blocks the first and second inputs of counter 3 and records the output value of counter 3 in the second register of the arithmetic unit 5. The signal coming from the third you

Claims (1)

DEVICE FOR MEASURING THE LENGTH OF MOVING PRODUCTS, comprising a unit for sensors of product availability, a control unit whose first η inputs are connected to η outputs of the sensor unit, two pulse counters, the first inputs of which are connected to the first output of the control unit, an arithmetic unit whose inputs are connected to the outputs of the counters , a recorder included in the output of the arithmetic unit, and a pulse generator, characterized in that, in order to increase the accuracy of measurement and expand the functionality, the output of the pulse generator s is connected to the second input of the first counter, and the device is equipped with a time unit, the first input of which is connected to the first output of the sensor unit, the second input to the first output of the control unit, the third input to the second output of the control unit and to the second input of the recorder, the fourth input to the third input of the recorder and the second input of the second counter, the third input of which is connected to the output of the registrar and the third input of the arithmetic unit, the fifth input - to the third output of the control unit and the fourth input of the arithmetic unit, § the fifth input of which is connected to the fourth t output of the control unit and | G to the third input of the first counter, and R the output of the time unit is connected to η +1 to the input of the control unit, the product’s speed sensor I, the input of which is the key to the first output control unit, and the output to the sixth input of the time unit, and a switch whose input is connected to the fifth output of the control unit, the first output is connected to the sixth input of the arithmetic unit, and the second output is connected to the second input of the second counter and the third input of the recorder.