SU1547899A1 - Apparatus for determining the area and theretical mass of rolled stock - Google Patents

Abstract

The invention relates to rolling production and can be used for automatic processing of information from the technological parameters of rolled products. The purpose of the invention is to expand the scope and ensure control of the accuracy of calculations. The device includes a pulse length sensor, a pulse length setting unit, width and thickness setting units, a metal density setting unit, a clock pulse generator, an indicator of the theoretical metal mass, a base length setting unit, and the first calculation unit. Four metal presence sensors, a sheet setting unit in a pack, a sheet length setting device, a mode setting indicator, a unit type setting unit, a control unit, two calculating units, two buffer registers and two metal area calculating units are entered into the device. 1 hp f-ly, 7 ill.

Description

The invention relates to rolling production and can be used for the automatic processing of information about the technological parameters of rolled products.

The purpose of the invention is to expand the scope and ensure control of the accuracy of calculations.

FIG. 1 is a block diagram of a device for determining the area and theoretical mass of the car; in fig. 2 is a block diagram of the device; in fig. 3 - timing diagrams of operation of the device blocks on the cross-cutting unit without changing the length of the sheet; in fig. 4 - the same, on the slitting unit; in fig. 5 - the same, on the cross-cutting unit with the measurement of the length of the sheet; in fig. 6 is a block diagram and a truth table of the decoder.

A device for determining the area and theoretical mass of rolled products (Figs. 1 and 2) contains a sensor 1 for length pulses, a setting device 2 for a value for a length pulse, a setting device 3 and 4 for width and thickness, a setting device 5 for metal density, a generator for 6 pulse impulses, an indicator 7 metal mass and the first calculation unit x, which contains four multiplying blocks 9–12, a meter of 13 meters, a square counter 14, and a theoretical mass counter 15. The output of the first multiplier unit 9 is connected to the first input of the meter counter 13, the second input of which (the third input of the first calculating unit 8) is connected to the output of the base length generator 16 The output of the meter counter 13 is connected to the first input of the second multiplier unit 10, the second input of which ( The fifth input of the first calculation unit 8) is connected to a width setting device 3. The output of the second multiplier block JO is connected to an area counter 14, the first output of which is connected to the first input of the third multiplying block 11. The second input of the third multiplier) block II (the seventh input of the first disconnecting unit) is connected to the output of the thickness setpoint 4, and the output of the third multiplier block I 1 - with

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the first input of the fourth multiplier I unit 12, the second input of which (the ninth input of the first calculation unit 8) is connected to the output of the metal density setting unit 5. The output of the fourth multiplying unit 12 is connected to the input of the counter 15 of the theoretical mass of the metal, the output of which is connected to the input of the indicator 7 of the theoretical mass of the metal.

In addition, the device contains four metal presence sensors 17-20, a setting unit 21 for the number of sheets in a pack, a setter 22 for the length of the sheet, a mode setting unit 23, a unit type setting unit 24, a control unit 25, two calculation units 26 and 27 two buffer registers 28 and 29 and a metal area indicator 30. Moreover, the output of the first metal detector 17 is connected to the first input of the second computing unit 26, the output of the second metal presence sensor 18 to the second input of the second computing unit 26, the four first outputs of the control unit 25 to the third, fourth, fifth and sixth inputs of the second block, respectively 26, and the seventh input of the latter is with the input of the setting unit 21 of the number of sheets in the stack. The first output of the second calculating unit 26 is connected to the first input of the control unit 25, the second, third, fourth and fifth outputs of the second calculating unit 26, respectively, with the third, fourth, fifth and sixth inputs of the first buffer register 28. The second, third, fourth and the fifth inputs of the control unit 25 are connected respectively to the outputs of the third and fourth sensors 19 and 20 of the presence of metal, a generator of 6 clock pulses and a setting device 23 operating modes, and the sixth, seventh and eighth inputs of the control unit 25 are connected to three outputs of the setting device 24 of type a gregata

The output of the sensor 1 of the length pulses is connected to the first input of the third computing unit 27, the second and fourth inputs of which are connected respectively to the eleventh and ninth outputs of the control unit 25, and the third input of the third computing unit 27 is connected to the third output of the control unit 25. The output of the third calculation unit 27 is connected to the first input of the first buffer register 28, the second input of which is connected to the tenth output of the control unit 25. The output of the length setting device 22 is connected to the first input of the second buffer register 29, the second input of which is connected to the setting value 2 of the length pulse. The third input of the second buffer register 29 is connected to the tenth output of control unit 25, and the output of the second buffer register 29 is connected to the first input (second input of the first multiplying block 9) of the first calculating block 8, the second input of which (first input of the first multiplying block 9) is connected with the output of the first buffer register 28. The fourth, sixth, eighth and tenth inputs of the first computing unit 8 (the third inputs of multiplying blocks 9-12) are connected to the fifth, sixth, seventh and eighth outputs of the control unit 25, and the second output of the first block 8 Calc techniques, are (second output score snip area 14) - with the indicator 30 of the metal area.

The second calculation block 26 contains three input modules 31-33, two decoders 34 and 35, three counters 36-38 two blocks 39 and 40, matches, an error indicator 41, an OR element 42. Moreover, the first inputs

input modules 31-33 are connected to the output of the first metal detector 17, the second inputs to the output of the second metal detector 18, the third outputs to the first output of the control unit 25,

Fourth entrances - with the second output of the control unit 25, fifth entrances with the third output of the control unit 25. The first outputs of the first three input modules 31-33 are connected to three inputs of the first decoder 34, the second outputs - to three inputs

5 of the second decoder 35. The first outputs of the first 34 and second 35 decoders are connected to the first inputs of the first 36 and second 37 counters, respectively, and the second outputs of these decoders 34, 35 are connected to the first two inputs of the third account 38, the third input of which is the second inputs the first 36 and second 37 meters are connected to the fourth output of the control unit 25. The first output of the first counter 36 is connected to the first input of the first block 39 of coincidence, the output of which

5 is connected to the first input of the element OR 42. The second output of the first counter 36 is connected to the third input of the first buffer register 28, the second output of the first block 39 of coincidence with the fifth input of the first

0 buffer register 28, the first output of the second counter 37 - with the first input of the second block 40 coincidence, the first output of which is connected to the second input of the OR 42 element, and the second output - to the sixth input of the first buffer register 28, the fourth input of which is connected to the second output of the second counter 37. The output of the third counter 38 is connected to the input of the first error indicator 41, and the second inputs of the first two blocks 39 and 40 coincidence are connected to the output of the unit 21 of the number of sheets in the stack.

The third calculation unit 27 contains the third decoder 43, the fourth 44 and the fifth 45 counters, the fourth 46, the fifth 47 and the sixth 48 input modules, the first inputs of which are connected to the output of the sensor 1 of the length pulses, the second inputs to the eleventh output of the control unit 25 and the third inputs - with the third output of block 25

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management The outputs of the input modules 46-48 are connected to three inputs of the third decoder 43, the first output of which is connected to the first input of the fourth counter 44, the second output of the third decoder 43 is connected to the first input of the fifth counter 45. The second inputs of the fourth 44 and the fifth 45 counters are connected to the ninth output of the control unit 25. The output of the fourth counter 44 is connected to the fifth input of the first buffer register 28, and the output of the fifth counter 45 to the second error indicator 49

The device works as follows.

In the initial state, all counters are cleared. Unit 24 is set to the position corresponding to the type of cutting unit. Operation mode setting unit 23 is set to one of two positions "Operation or" Check. In accordance with the established positions of the setting units 23 and 24, the program of operation of the control unit 25 is selected.

Consider the option of using the system as applied to cross-cutting units without measuring the length of the sheet (Fig. 3). In the initial state, the first output of the control unit 25 receives a signal at the third inputs of the first three input modules 31-33 allowing the passage of signals from the first sensor 17 of the presence of metal through the first inputs and outputs of the input modules 31-33.

The signal from the tenth output of control unit 25 is absent, thereby preventing the output signal from the third calculating unit 27 from passing through the first buffer register 28 and the signal from the preset 2 of the length pulse through the second buffer register 29. The third calculating unit 2 is turned off, and dials 3–5, 21, and 22 give the specified values for width, thickness, density of metal, number of sheets in a pack, sheet length. Setpoint 16 of the base length is set to zero. The third 19 and fourth 20 metal sensors in the work do not participate. The signals from the first outputs of the input modules 31-33 are fed to the inputs of the first decoder 34, from the second outputs to the inputs of the second decoder 35. The operation of the decoders is illustrated in FIG. 5. If the inputs of the first decoder 34 (or the second 35) receive at least two signals, a pulse appears at its first output; otherwise, a pulse appears at the second output.

In the absence of failures, the pulses from the first output of the first decoder arrive at the first input of the first counter 36, from the output of which the signals arrive at the first input of the first coincidence block 39 and the third input of the first buffer register 28. At the second input of the first block 39

a signal is received (code) corresponding to a specified number of sheets in a stack. When the signals (codes) are equal at the inputs of the first block 39, a signal appears at its output, which (from the second output) goes to the fifth input of the first buffer register 28, and from the first output through the OR 42 element goes to the first input of block 25 management As a result, the signal from the output of the first counter 36 passes through the first buffer register 28 to the first input of the first multiplying unit 9, and from the fifth output of the control unit 25 to the third input of the first multiplying unit 9 is fed a building pulse and a predetermined (from the The length of the sheet is multiplied by the number of sheets in the stack. The resulting total length of sheets in a bundle from the first multiplying unit 9 is entered in the counter 13 metric area. The signal from the setpoint 16 does not arrive, as it is set to the zero position.

After a predetermined interval tu (after a pulse from the fifth output of block 25) at the sixth output of control block 25, a strobe pulse is outputted to the third input of the second multiplying unit 10, the value of the given sheet width is fed to the other two inputs (from 3 widths) and total length of sheets in a pack. These information signals are alternated, and at the outputs of the second multiplier unit 10, a product is formed, equal to the area of sheets in a pack, which is recorded in an area counter 14. From the first output of the latter, the signal arrives at the first input of the third replicator block 11, and from the second output - at the input of the square indicator 30.

The second input of the third multiplying unit 11 receives a signal from the thickness setting device 4, and after the output of the strobing signal control unit 25 comes from the seventh output to the third input of the third multiplying unit 11, a product equal to the volume of sheets in the bundle is formed at its output. This signal arrives at the first input of the fourth replicating unit 12, the second input of which receives a signal from the unit 5 of the metal density. After the arrival of the strobe pulse from the eighth output of the control unit 25, a product equal to

0 the theoretical mass of sheets in a pack, which is entered into the counter 15 of the theoretical mass and then into the indicator 7 of the mass of meta meta.

If from the input modules 31-33 pulsed signals to the inputs of the first decoder 34 receives one of the three possible signals (i.e., a failure has occurred), at the second output of the latter a single signal 7 appears

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A zero (at the first output, a zero signal), which arrives at the first input of the third counter 38, is counted by it, and the number of such pulses (counting errors) is displayed on the error indicator 41. After the calculation of the sheet area, the theoretical mass of the stack, and the entry of this information into the corresponding indicators, the counters are cleared by a signal from the fourth output of the control unit 25 and returned to the initial state.

The first inputs of the input modules 31-33 are closed, and a signal from the second output of the control unit 25 opens the second inputs of the input modules, and the circuit is ready for receiving pulses from the second sensor 18 in the presence of metal. The operation of the device is repeated as described.

If the operation mode setting unit 23 is set to the “Check” position, the first and second inputs of the first three input modules 31-33 are blocked, and from the third output of the control unit 25, a fixed number of pulses H is fed to the fifth inputs of the input modules 31-33 and the entire calculation cycle occurs to the algorithm described above. With the right score on the indicators get the control figures. This also establishes the accepted for checking the values of the width, thickness and length of the sheet.

Let us consider the second option of using the system as applied to slitting units (Fig. 4).

In the initial state, the setpoint adjusters 2- -5 and 16 give the set values of the parameters, and the setting unit 22 of the sheet length is disabled. Of the sheet presence sensors, only the third sensor 19 is operating in this case. The mode setting dial 23 is set to the “Operation. The operation of the device begins when the front end of the strip approaches the sensor 19 for the presence of metal. The sensor 19 generates a signal for the presence of metal at the second input of the control unit 25, as a result of which a control signal is formed at the tenth output of the latter.

The signal from the tenth output of control block 25 permits the passage of a signal from an output of setpoint 2 of a length pulse through the second buffer register 29 and the signal from the output of the fourth counter 44 (output of the third calculation block 27) through the first buffer register 28 (to the first input of the first multiplying block 9 ). The remaining inputs of the buffer registers are closed (locked).

The signal from the eleventh output of the control unit 25 to the second inputs of the fourth 46, fifth 47 and sixth 48 input modules permits the passage of the signal from the sensor 1 of the length pulses through the specified input modules to the inputs of the third decoder 43 of the third calculation unit 27. The second computing unit is turned off and does not participate in the work. From the first output of the second decoder 43, the signal arrives at the first input of the fourth counter 44, and the signal at the first output of the decoder 43 is generated only when at least two pulses out of three arrive simultaneously from the input modules 46-48. In this case, the fourth counter 44 counts the length of the band (in pulses) while the band passes under the pulse sensor.

After the counting of the length pulses and the output of the rear end of the strip from under sensor 19, the signal from the eleventh output of block 25 disappears, as a result of which the first inputs of input modules 46-48 are closed, and from the fifth output of control block 25 to the third input of first multiplying unit 9 a strobe signal arrives, multiplying the number of pulses of Mie recorded in the fourth counter 44 by the value of a pulse of length b (m / pulse). A product equal to the calculated length of the band MNb is transmitted to the first input of the meter 13 footage and the warehouses 5 with a base length value of 1 l (distance between the sensor 1 of the length pulses and the third metal sensor 19), which comes from the output of the unit 16 of the base length to the counter input 13 footage. The total length of the L + Lg band is fixed in this counter. The number equal to the total length of the strip, from the output of the counter 13 of the footage, goes to the first input of the second multiplying unit 10, the second input of which receives the specified value of the strip width (from the setting width of 3 widths). After the sixth output of the strobing control unit 25 (Fig. 4) arrives at the third input of the second multiplication unit 10, the multiplication is performed and a number equal to the area of the band S is set at the last output. From the output of the second multiplier unit 10, the signal arrives the 14 square meter, from the first output of which the signal goes to the first input of the third copying unit 11, and from the second to the square indicator 30. The second input of the third multiplying unit 11 from the setting device 4 of the strip thickness receives a signal of the strip thickness value. After arriving from the seventh output of the strobe control block 25 to the third input

0, the third multiplier block 11 multiplies the area by the strip thickness, and from the output of the latter to the first input of the fourth multiplier block 12, the value of the strip volume is received. The second input of the fourth multiplying unit 12 from the setting device 5 gives the density of the metal strip, and a signal equal to the theoretical mass of the strip is generated from the eighth output of the control unit 25 to the third input of the fourth multiplying unit 12. This number is fed to the input of the counter 15 of the theoretical mass, from which the signal goes to the indicator 7 of the metal mass. After the counting of the area and mass of the strip from the ninth output of the control unit 25 to the second outputs of the fourth 44 and fifth 45 counters, a reset signal is received, the counters are cleared and returned to the initial state.

If modules 46-48 for inputting pulse signals to the inputs of the third decoder 43 receive one of the three possible signals (i.e., a failure has occurred), a single signal appears at the second output of the decoder 43, and the signal is received at the first output the first input of the first counter 45, the last one reads the number of these pulses (counting errors), and the number of faults is displayed on the second error indicator 49. In the Test mode, the mode dial 23 is set to the Check position, and on the setters, the pulse values of length 2, base length 16, width 3, thickness 4, density 5 set the control values of the parameters. From the third output of the control unit 25, the control number of pulses arrives at the third inputs of the input modules 46-48, and with the device functioning correctly, certain check digits appear on the indicators 30 and 7.

The third option is equipping the device with cross-cutting units with measuring the length of the sheet. All sensors and setting units are involved in the operation, with the exception of setter 22 of the sheet length, the output of which is blocked in the second buffer register 29. All calculation blocks (8, 26, and 27) participate in the operation of the device. All blocks work similarly to the options described above. The operation of the device in the third variant is the sum of the functions of the first and second variants (Fig. 5).

The technical and economic advantage of the proposed device in comparison with the known one is the expansion of the field of application, which will allow reducing the production costs, equipping the units of various types and mastering them, as well as reducing the operating costs by controlling the accuracy of calculations at the pace of the technological process.

Claims (3)

1. A device for determining the area and theoretical mass of rolled products, containing a sensor of length pulses, a setpoint for the value of a length pulse, a setter of width and thickness, a setter for metal density 0 five 0 five 0 five 0 five la, clock generator, theoretical metal mass indicator, base length adjuster and the first calculating unit containing four multiplying blocks, meter counter, area meter, counter, theoretical metal mass, the output of the first multiplier block being connected to the first meter counter input, with the second input of which the output of the setpoint adjuster is connected, and the output of the meter counter is connected to the first input of the second multiplier unit, the second input of which is connected to the width setting unit, the output of the second multiply unit is connected to the area counter, the first output of which is connected to the first input of the third multiplying unit, the second input of the third multiplying unit is connected to the output of the thickness gauge, the output of the third multiplying block is connected to the first input of the fourth multiplication block, the second input is connected to the output of the metal density setting , the output of the fourth multiplier unit is connected to the input of a counter of the theoretical mass of the metal, the output of which is connected to the input of the indicator of the theoretical mass of the metal, distinguished so that, in order to expand the scope of use and ensure control of the reliability of the calculations, four sensors of metal presence, a unit for the number of sheets in a pack, a unit for the length of a sheet, a mode control device, a unit type control unit, a control unit, two calculation units and two buffer units were additionally introduced. register, an indicator of the area of the metal, the output of the first metal presence sensor is connected to the first input of the second calculating unit, the output of the second metal presence sensor is connected to the second input of the second calculating unit, and the four first outputs of the control unit are connected respectively to the third, fourth, fifth and sixth inputs of the second calculating unit, and the seventh input of the latter is connected to the input of the unit for the number of sheets in a stack, the first output of the second calculating unit is connected to the first input of the control unit, the second, third, the fourth and fifth outputs of the second calculation unit are connected respectively to the third, fourth, fifth and sixth inputs of the first buffer register, the second, third, fourth, fifth inputs of the control unit are connected respectively with the outputs of the third and fourth sensors of metal availability, a clock generator and a setting mode setting device, and the sixth, seventh and eighth inputs of the control unit are connected to three outputs of an aggregate type sensor, the output of the sensor of length pulses is connected to the first input of the third calculation unit, the second and the fourth inputs of which are connected respectively to the eleventh and ninth outputs eleven x And the third input of the third block ;: the calculation is connected to the third output of the control unit, the output of the third calculation block is connected to the first input of the first buffer register, the second input of which is connected to the tenth output of the block v of the direction, the output of the length adjuster is connected to the first input of the second the buffer register, the second input of which is connected to the unit of the value of the pulse of length, the rety input of the second buffer register is connected to the tenth output of the control unit-. 1 and the output of the second buffer register is connected to the first input of the first computing unit, the second input of which is connected to the output of the first buffer register, the fourth, sixth, eighth and tenth inputs of the first computing unit are connected to the fifth, sixth, seventh and eighth outputs of the control unit, and the second output of the first calculating unit is connected to the metal area indicator. 2. The device according to claim 1, characterized in that the second calculation unit contains three input modules, two decoders, three counters, two coincidence blocks, an error indicator, an OR element, the first inputs of the input modules connected to the output of the first metal presence sensor, the second the inputs of the input modules are connected to the output of the second metal presence sensor, the third inputs of the input modules are connected to the first output of the control unit, the fourth inputs of the input modules are connected to the second output of the control unit, the fifth inputs of the input modules are connected to the third output The first outputs of the same input modules are connected to the three inputs of the second decoder, the first outputs of the first and second decoders are connected to the first inputs of the first and second counters, respectively, and the second outputs of these decoders are connected to the first two inputs of the third counter, tre12 the second input of which and the second inputs of the first and second counters are connected to the fourth output of the control unit, the first output of the first counter is connected to the first input of the first match unit, the output of which is connected to the first input of the OR element, the second output of the first counter is connected to the third input of the first buffer register, The second output of the first matching block is connected to the fifth input of the first buffer register, the first output of the second counter is connected to the first input of the second matching block, the first output of which is connected to the second the second input of the first buffer register, the fourth input of which is connected to the second output of the second counter, the output of the third counter is connected to the input of the first error indicator, and the second inputs of the first two matching blocks are connected to the output of the setter sheets in a pack. 3. The device according to claim 1, characterized in that the third calculation unit comprises a third decoder, fourth and fifth 5th counters, a second error indicator, fourth, fifth and sixth input modules, the first inputs of which are connected to the output of the sensor of length pulses, the second the inputs of the input modules are connected to the eleventh output of the control unit, and the third inputs 0 dy of the same input modules are connected to the third the output of the control unit, the outputs of the fourth, fifth, and sixth input modules are connected to the three inputs of the third decoder, the first output of which is connected to the first input of the fourth counter, and the second 5, the output of the third decoder is connected to the first input of the fifth counter, the second inputs of the fourth and fifth counters are connected to the ninth input of the control unit, the output of the fourth counter is connected to the fifth input of the first buffer register, and the output of the fifth counter is connected to the input of the second indicator mistakes. 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