SU861259A1 - Device for measuring-off moving material to given length - Google Patents

Description

The invention relates to control devices for machine tools and can be used in the pulp and paper industry to control longitudinal and babinoresalnye machines.

A device is known for measuring a predetermined length of a moving material, comprising a trigger, counting blocks, a switch and a length sensor, through an And element connected to the counting block [1].

A disadvantage of the known device is the need when changing a given length of material in a roll of determining and entering into the device two numbers, one of which is proportional to a given length of material in a roll, and the other to the length of material in a roll to the beginning of braking, which reduces the accuracy of winding rolls of a given length.

The purpose of the invention is to improve the accuracy of the device in transient conditions.

The goal is achieved by the fact that the device has a scaling unit, additional AND and OR elements, and a driving unit, the inputs of which are connected to the outputs of the switch, and the outputs are connected to the driving inputs of the second and third conversion blocks, while the length sensor is connected to the input of the second conversion via a zoom block block and through the first additional element AND and the OR element to the input of the third conversion block, the inverse output of the trigger is connected to the second input of the first additional element And, and the direct one through the element And It is directly connected to the inputs of the second additional AND element, the output of which is connected to the second input of the OR element, and the output of the first recalculation block is connected to the trigger input.

The drawing shows a block diagram of a device.

The device contains a sensor of length 1, connected through the And 2 element with the input of one conversion block <3, as well as two conversion blocks 4 and 5, the output of the latter connected to the input of switch 6.

One of the outputs of the trigger 7 and the output of the scaling unit 8 through one of the AND 9 elements, and the other output of the trigger 7 through the other AND 10 element are connected to the corresponding inputs of the OR element 11.

The output of the OR element 11 through the conversion unit 5 and the switch 6 is connected to the input of the master unit 12.

The reset bus 13 is connected to the corresponding inputs of the trigger 7, the counting units 4 and 5 and the switch 6.

The output of the counting unit 3 is connected to the counting input of the trigger 7, and the output of the scaling unit is connected to the inputs of the counting unit 4 and the element 9. The outputs of the master unit 12 are connected to the corresponding inputs of the counting units 4 and 5.

The device operates as follows.

The capacity of the calculating unit 3 is numerically equal to the length of the material wound into a roll during the time between the start of braking and the stop of the machine when it is operating at rated speed (ΔΕ).

Before the start of the coil winding, a pulse is applied to the reset bus 13, which sets the conversion blocks 4, 5, trigger 7 and switch 6 to the initial state, which leads to the appearance of an allowable voltage level at one of the inputs of the And 2 element and at the output of the drive unit 12, which allows connecting the latter to the master inputs of the counting unit 5.

A number equal to the length of the material in the wound roll is entered into the driving unit 12.

When the process of winding normally proceeds to the input of the scaling unit 8 and through the And 2 element, the impulses from the output of the length sensor 1 arrive at the inputs of the recalculation block 3 and the recalculation block 5 (through elements 9 and 41).

Block 8 scaling brings the price of division of the output pulses to a predetermined value in units of!

With the resolution of the sensor 1 of length Z imp / rev, the circumference of the bearing shaft of the machine LOI and the division value of the output pulses, for example, g _u , the scaling factor of block 8 is expressed by the formula _k ' ^{T: Db m} gz'

Since the frequency at the output of scaling unit 8 is in / <. Times less than the frequency at its input, an overflow pulse will appear at the output of the scaling unit 9 at the output of the scaling unit 3, which will set trigger 7 to zero, prohibiting the passage of pulses from the output of the length sensor 1 through the AND element 2 to the input of the conversion unit 3 and through the additional element AND 10 and the OR element 11 to the input of the conversion unit 5 and allowing the passage of pulses from the output of the scaling unit 8 through the additional element And 9 and the element nt OR 11 at the input of the conversion block 5.

Thus, by the moment of the appearance of the pulse from the output of the scaling unit 8, the number AN = AL will be written to the inputs of the conversion blocks 4, 5 in the conversion block 5.

After entering the inputs of the counting blocks 4, 5 from the output of block 8 of scaling the number of pulses

Ni = L — ΔΕ, where L is the specified value of the length of the material in the roll, the number of pulses will be recorded in the counting unit 5

Α = Μ + ΔΕ = Ε, equal to the number recorded in the master unit 12.

At the output of the counting unit 5, an impulse “Start of braking” will appear, acting on the machine drive and connecting, using the switch 6, the outputs of the master unit 42 to the master inputs of the counting unit 4.

After entering the input of the conversion unit 4 from the output of the unit 8 of scaling the number of pulses N = L, an output “Stop” will appear at the output of the conversion unit 4.

Due to the fact that it is necessary to enter only one parameter (the specified length of material) into the device during operation, it becomes possible to automatically control the braking and stopping of the machine, which increases the accuracy of winding rolls with a given length of material at any winding speed.

Claims (1)

The output of lereschetny block 5 is connected to the counting input of trigger 7, and the output of maashtabirovaki unit is connected to the inputs of the counting unit 4 and element AND 9. The outputs of the master unit 12 are connected to the corresponding inputs of the counting blocks 4 and 5. The device works as follows. The capacity of the conversion unit 3 is numerically equal to the length of the material being wound around the coil: n during the time between the start of braking and stopping the rate of its operation at nominal speed (AL). Before the coil is wound onto the dumping bus 13, the multiplier is applied, which sets the counting blocks 4, 5, the trigger 7 and the switch 6 to the initial state, which leads to the appearance of a voltage permitting level at one of the inputs of the element 2 at the output of the master block 12 , allowing the connection of the latter to the driver inputs of the casing block 5. The driver unit 12 is entered a number equal to the length of the material in the wound roll. In the case of a norm: the process proceeding and the matings to the input of the masturbation unit 8 and through the element AND 2, the inputs of the equivalent unit 3 and the conversion unit 5 (through the elements 9 and: //) receive pulses from the output of the sensor 1 of length. The scaling unit 8 causes the cost of dividing the output pulses to a predetermined value in units of 1 and 1. When resolving Sensor Capacity / length Z imp / rev, nDb machine base shaft circumference and dividing output pulses, nalimer, g, block 8 scaling factor expresses the formula Db K –jrz-Since the frequency at the output of block 8 is scaled in / d, times less than the frequency at its input, before an impulse appears at the output of the scaling unit 9 at the output of the recirculating unit 3, a repetition pulse occurs that sets trigger 7 to the zero state, prohibiting the impulse output from the sensor / length output through the And 2 element on entry d of the recalculated block 3 and through the additional element AND 10 and the element OR 11 to the input of the crescent block b and allowing passage of pulses from the output of the scaling block 8 through the additional element AND 5 and the element OR 11 to the input of the counting block 5. Thus, by the time the occurrence of a pulse from the output of the scaling unit 8 to the inputs of the scaling units 4, 5 in the scaling unit 5 will be recorded the number AAf AL. After arriving at the inputs of scaling blocks 4, 5 from the output of block 5 scaling the number of L-AL pulses, where L is the specified length of material in the roll, in scaling block 5, the number of pulses V JVi + AL L equal to the number zalisanno1mu specifying block 12. At the output of counting unit 5, a Wits pulse “Start of braking” acting on the machine drive and connecting the outputs of the master unit 12 to the master inputs of the counting unit 4 using the switch 6 After the input of the counting unit 4 from the output of the block 8 number of pulses at the output of counting unit 4 according to the pulse “Stop. Due to the fact that only one l-meter (specified material length) needs to be introduced into the device during operation, an automatic control of braking and stopping the machine is created, which improves the accuracy of winding coils with a given material length at any winding speed. Apparatus of the Invention A device for measuring a predetermined length of a moving material, containing a trigger, scaling blocks, a switch and a length sensor, through element I associated with the first scaling block, characterized in that, in order to improve the accuracy of the p-work in transient modes, it has - a scaling unit, additional AND elements and an OR element and a master unit, whose inputs are connected to the switch outputs, and the outputs - to the master inputs of the second and third scaler units, while the length sensor is scaled through the block The van is connected to the input of the second counting unit and, through the first additional element AND, and the element OR to the input of the third block, the inverS output of the trigger is connected to the second input of the first additional element AND, and directly through the element And directly connected to the inputs the second additional element AND, the output of which is connected to the second input of the element OR, and the output of the first conversion unit is connected with the trigger input. The source of information taken into account in the examination: 1. USSR Author's Certificate No. 304324, cl. D 21 G 9/00, 1969.