SU756186A1 - Rolled-stock length meter - Google Patents

Description

The invention relates to measurement technology and can be used ’in metallurgy.

A device for automatic control of the length of the rolled material is known, which contains sensors for fixing rolled products, 5 converters of rotational speeds of rolls to frequency, pulse counters, and a metering device. This device is designed to automatically stop a metal strip when it reaches a predetermined length [1]. ^ten

The disadvantage of this device is that it does not allow for continuous monitoring of the length of the metal.

The closest to the invention by the technical essence is meter length ₁₅ us rolled, rolled transducer comprising two fixing sensor fixing rolled on roll shafts, the roll angular velocity transducer in a frequency counter for counting the number of pulses of the base distance and resolver, a device comprising - 20 controlled pulse generator, multiplier, reversible and summing counters [2].

2

The disadvantage of the device is the complexity of the computing device and the inability to obtain data on the current length of the car in the process of passing through the meter, which limits its scope.

The purpose of the invention is to expand the scope and simplify the circuit meter.

This goal is achieved by the fact that the base distance between the sensors for fixing the rental is chosen equal to 10 "units of length, the counter for counting the number of pulses of the base distance is made in the form of an integer counter and decade fractional counters, and the calculating unit is made in the form of an angular frequency divider of the angular converter roll speeds into frequency with a division ratio equal to

Ν + .Σ ·

where N is the number of pulses received on

input counter integer numbers;

Κϊ is the number recorded in the decade counter of the ϊth fractional sign.

756186

The drawing shows a diagram of the meter for the case when the division ratio of the calculating device is equal to

Ν -I - that is, when measuring the length

rental is carried out with an accuracy of one tenth of the base distance.

. The meter contains two sensors 1 and 2 fixing rolled. Sensor 1 is installed at a distance of ί, from the axis of the work rolls 3. Distance! does not exceed the minimum possible length of hire. The base distance £ _b between sensor 1 and sensor 2 is 10 "units of length. Sensor 4 fixing rolled products along the roll axis sets the circuit to its original state when rolling into the rolls. Converter 5 of the angular velocity of the rolls into frequency generates a sequence of pulses whose frequency is proportional to the angular velocity . decade counter working roll 6 and the sign of the fractional counter 7 integers form a counter for counting the number of pulses base distance -. £ _r outputs of counters 6 and 7 are connected to the inputs of respective circuits 8 and 9 CPA The outputs of decade counter 10 and counter 11 are connected to the second inputs of the comparison circuits 8 and 9. The output of the comparison circuit 9 is connected to the summing input of the decade counter 10. The outputs of sensors 1 and 4 are connected to the control inputs of the counter 11 and the converter output to the summing input 5, to the installation input to zero — the output of the comparison circuit 9, to the input of the entry of the unit — the output of the transfer circuit 12. The output of the comparison circuit 9 is also connected to the input of the summing counter 13, in which the measurement result is recorded. The controller 14 enters before the measurement in the summing counter 13 distance code

Schemes 8 and 9 comparison, the counters 10 and 11, the circuit 12 of the transfer, the summing counter 13 and the setting device 14 form a divider 15 of the frequency converter of the angular velocity of the rolls.

In the absence of rolled signals at the outputs of sensors 1, 2 and 4 block the flow of pulses of the converter 5 to the input of counters 6 and 11.

The device works as follows.

When the rolled stock enters rolls 3, sensor 4 is triggered and divider 15 is reset, counters 6, 10 and 11 are reset to zero, one is entered into counter 7, distance code -C is entered into counter 13 using setpoint 14. At the time of approaching the rental to the sensor 2, the sensor 2 generates a signal that permits the counting of the pulses of the converter 5 counters. Kami 6 and 7. At the time of approaching the rental to the sensor 1., it produces a signal that turns off the counter 6 from the converter 5 and connects the counter 11 to it. If the numbers in counters 7 and 11 match

the comparison circuit 9 is triggered, which resets counter 11, and adds one to counters 10 and 13. Then the process is repeated until the numbers in counters 6 and 10 coincide. When the numbers in counters 6 and 10 coincide, the comparison circuit 8 operates and issues a signal to the transfer circuit 12, which after each reset of the counter 11 sets it to until the counter 10 overflows and returns the transfer scheme 12 to the initial state.

If the base distance has N PO + Κ impulses of the transducer 5, where N is the number of pulses received at the input of counter 7, and --ι is the number recorded in counter 6, so that at the length of the rental, ten are received at the input 13 impulses, it is necessary to obtain the division factor - =

= N -) - that is, it is necessary to get десятиι times the conversion factor equal to N + 1 and 10 - Κι times the conversion factor equal to Ν from ten counting cycles, because

(C-NJ. -SHYU-Κ, ΊΝ _ X |, _Yu_.

10 'Yu

In the rolling length meter to match the numbers in counters 6 and 10, counter 11 counts Κι times in N + 1 pulses per cycle. From the moment the numbers in counters 6 and 10 coincide and until counter 10 is filled, counter 11 counts 10 - Κι times in N pulses. Then the counting is repeated until the rolling comes out of the rolls. When the output of the car rolls from the rolls, the signal at the output of the sensor 4 disappears, the source 11 is disconnected from the converter 5, and in the summing counter 13 the code of the length of the car will be recorded with an accuracy of one tenth of the base distance -Eg.

The accuracy of the measurement of the length of the rental is determined by the number of decade fractional counters, that is, the division ratio of the counting device.

Claims (1)

Claim A rolling length meter containing two gauges for rolling fixation, a gauge for fixing rolled products along the roll axis, a roll speed to frequency converter, a counter for counting the number of pulses of the base distance, and a calculating device, in order to expand the scope and simplify the circuit the device, the base distance between the sensors for fixing the rental is selected to be 10 "units of length, the counter for counting the number of pulses of the base distance is designed as an integer counter and decade counters are fractional x characters, and the calculating device is made in the form of a frequency divider of the angular velocity converter of the rolls into a frequency with a division factor ^ equal to five 756186 6 where Ν is the number of pulses arriving at input counter integer numbers; Cg is the number recorded in the decade counter of the ίth fractional sign.