SU1086039A1 - Apparatus for measuring relative deformation of textile materials - Google Patents

Abstract

1. A DEVICE FOR MEASURING THE RELATIVE DEFORMATION OF TEXTILE MATERIALS, comprising impulse sensors Material lengths installed at the input and output of the material processing area and electrically connected to the inputs of the information processing unit including keys, clock generator, command interrupter and command counter, Also, a descrambler, a computing unit, and an indicator, whose control input is connected to the first output of the command counter, are connected in series, characterized in that, in order to increase the speed The device by reducing the cycle time of measurements at different speeds of movement of the material, the information processing unit contains the OR element, the software master of the basic length, comparators and two memory blocks, while the output of the clock generator is connected to the first input of the instruction interrupter, the inputs of the comparators are connected to the second output of the command counter and the first input of the OR element, the output of which is connected to the decoder's output, the INPUTS of the comparators are connected to the second and third inputs of the command interrupter, as The second memory block has a code comparator, a pulse counter, an information pulse counter, a read element, a key and an inhibit circuit; in each memory block, the pulse counter input is connected to the first key input and the output of the corresponding pulse length sensor, the pulse counter output the code comparator is connected to the first input of the circuit, the prohibition and the second input of the key, the output of which is connected to the first input by a counter of information pulses the readout element, the third inputs of the key a and prohibition schemes are combined and linked to the output of the clock generator; the pulses, the output of the inhibit circuit is connected to the second input of the readout element, the setting inputs of the comparators of the memory block codes are combined and connected to the output of the program base unit of the basic length, the first codes of the readout elements are connected to the fourth and fifth inputs of the interrupter respectively, the second inputs of the inhibit circuits are connected to the second and third inputs of the command breaker, respectively, and the second outputs of the read elements are connected to the second and third inputs of the GSH element, while the output of the interrupt The command command is connected to the input of the command counter. 2. The device according to claim I, characterized in that, in order to improve the measurement accuracy, the clock pulse generator is made adjustable in frequency.

Description

The invention relates to a measurement technique and is intended to measure the processing of yarns on weaving machines, and can also be used to control the shrinking or stretching of material in various technological processes. A device for measuring the relative deformation of textile materials i containing pulsed sensors of material length, installed at the inlet and outlet of the material processing zone and electrically connected to the inputs of the information processing unit including keys, clock generator, command interrupter and command counter, as well as included sequentially, the decoder, the computing unit and the indicator, the control input of which is associated with the first output of the command counter. A disadvantage of the known device is that that the measurement of the strain by this device is carried out sequentially, first at the input of the sample, 1 processing and only then at the exit of the zone, as a result of which the time of the measurement cycle is artificially increased. The aim of the invention is to increase the speed of the device by reducing the cycle time of measurements at various speeds of the material. The goal is achieved by the device for measuring the relative deformation of textile materials containing impulse sensors of material length, installed at the entrance and exit of the processing zone of the material and electrically connected with the inputs of the information processing unit, including keys, pulse generator, breaker , to the command counter, as well as the decoder connected in series, the numeral unit and the indicator, the control input of which is connected to the first output of the command counter, the processing unit Information contains the OR element, the base programmer of the basic length, comparators and two memory blocks. The output of the clock generator is connected to the first input of the command breaker, the inputs of the comparators are connected to the second output of the command counter and the first input of the OR element, the output of which is connected to the input the decoder, and the outputs of the Comparators are connected to the second and third inputs of the command interrupter, each memory block has a code comparator, a pulse counter, an information pulse counter, a read element, a key and a prohibition circuit, in which in each memory block the pulse counter input is connected with the first key input and the output of the corresponding pulse length sensor of the material, the pulse counter output is connected via a code comparator to the first input of the prohibition circuit and to the second key input, the output of which by means of information counter the pulses are connected to the first input of the readout element, the third inputs of the key and the inhibit circuit are combined and connected to the output of the clock generator, the output of the inhibit circuit is connected to the second the read element, the driver inputs of the memory block code comparator are combined and connected to the output of the programmer of the base length, the first outputs of the read elements are connected respectively to the fourth and fifth inputs of the command breaker, the second inputs of the inhibit circuits are respectively connected to the second and third inputs of the breaker commands, and the second outputs of the read elements are connected to the second and third inputs of the OR element, while the output of the command preamplifier is connected to the input of the command counter. The clock generator is made adjustable in frequency. FIG. I is a schematic diagram of the device; in fig. 2 shows the logic of operation of the command interrupter; The device for determining the relative deformation of textile materials (Fig. 1) contains two pulse sensors I and 2 lengths, information processing unit 3 and indicator 4. Information processing unit 3 includes a clock pulse generator 5, interrupter 6 commands, a command counter 7, an element OR 8, a decoder 9, a computing unit 10, a programming unit 11 of basic length, two comparators 12 and 13 and two blocks 14 15 of memory. Each of the blocks 14 and 15 of the memory contains a series-connected pulse Counter 16, a code comparator 17, a key 18, a counter 19 of information and music, and a read element 20, as well as a prohibition circuit 21. The device works as follows. When the device is turned on, all its elements are set to the initial state and at the same time the clock pulses from the generator 5 clock pulses through the chopper 6 commands arrive at the command counter 7, the output of which forms code combinations corresponding to the current value of the number of pulses received at the counter 7 teams. This sequence of code combinations through the element OR 8 goes to the decoder 9, where it is converted into instructions for the computing unit 10, with which the latter is prepared for operation. Parallel to the OR element 8, the code combinations from the output of counter 7, the command is fed to the inputs of comparators 12 and 13 set to certain codes. When the setting code of the comparator 12 coincides with the code at the output of command counter 7, a potential signal appears at the output of the comparator 12, which the input of the instruction interrupter 6 and the second input of the interdiction circuit 21 of the memory block 14. With the appearance of a potential signal at the second input, the command chopper 6 interrupts the passage of pulses from the generator 5 clock pulses through the command chopper 6, and the device enters the mode of waiting for the measurement of the base length of the measurement on the pulse length sensor 1 to start measuring the base length simultaneously with receiving the first pulses from the pulse sensors I and 2 lengths by the first input of the keys 18 of the blocks 14 and 15 of the memory. In this case, the keys are opened and the clock pulses from the generator 5 are clocked to them pulses through these keys begin to flow to counters 19 of information pulses of blocks 14 and 15 of memory, where they are summed up. The summing of information pulses continues until the signals appear at the outputs of the comparator 17, which occurs when the codes at the output of pulse counters 16 of memory blocks 14 and 15 match, summing the number of pulses received respectively from pulse sensors 1 and 2 of length and defining the basic the measurement length, with the code specified by the programmed unit of the basic length 11, with which the operator sets the input to the pulse counters 16 until the moment when the codes of a certain number of pulses coincide, i.e. The basic measurement length is changed, which is necessary when using a device to control the deformation of a material on equipment with different speeds. A software base setting 1I of the base length is inserted into the device to enable the variation of the base measurement length, which is necessary when using the device to control the deformation of the material on equipment with different speeds. For example, when testing the deformation of a material on weaving machines, the basic measurement length should be in the range of 0.1-0.5 m. When monitoring the defragment of a material on finishing units, the basic length is usually taken to be 1 m, and when controlling deformation on sizing machines - 10-40 m. When the codes at the inputs of the comparator 17 codes coincide, a signal appears on its input, which prohibits the key 18 and permits the prohibition circuit 21. With the appearance at the second input of the key 18 of the pulse from the output of the code comparator 17, the flow of information pulses through the switch 18 to the counter 19 informational x pulses is stopped, and when this signal appears at the first input, the prohibition circuit 21 (taking into account the the output of the comparator 2) pulses from the generator 5 clock pulses through the prohibition circuit 21 of the memory block 14 are sent to the read element 20, with which the information from the counter 19 information pulses of this block is transmitted through the element t OR 8 and a decoder 9 to the computing unit 10. The feedback signal about the end of the reading process from the first output of the read element 20 of the memory block 14 is sent to the fourth input of the command interrupter 6 and sets the latter to the state allowing the pulses to pass from the generator 5 to counter 7 teams. The impulses received in this case to the counter 7 of commands form a sequence of code combinations at its output, which, passing through the OR element 8 and the depotrafter 9, I10, is converted into commands to write information to the memory of the computing unit 10, received from the counter 19 ti, and preparing the computing unit 10 to receive information from the counter 9 of information pulses of the memory block 15. The receipt of pulses from the command pre-router 6 to the command counter 7 continues until a code is generated at the output of the latter coinciding with the predetermined code of the comparator 13. A potential signal of the matching of the codes at the output of the comparator 13 at the third input of the command selector 6 (Fig. ) interrupts the passage of pulses to the command counter 7, and the arrival of this potential signal via the second input to the prohibition circuit 21 of the memory block 15 prepares the last one for transmitting the clock pulses to the read element 20 of this b Loka. If by the time the potential signal was applied to the second input of the interdiction circuit 2 of the memory block 15, the first input had not yet received a pulse from the output of the comparator 17 codes of the same block, the device enters standby mode

Tribute to the end of the measurement of the base length of the sensor 2 lengths. At the time of the end of the measurement of the base length, a signal from the sensor 2 of the length at the output of the comparator 17 of the codes of the memory block 15 appears. 5 clock impulses. Owls to the counter 19 information gongs-11ulsov, and with Bbtxopa prohibition circuit 21, the pulses begin to flow to the element 20 to count the fuckes, with the help of which the information is transmitted

The functions that pass through the element OR 8 and the decoder 9, interrupted} into commands that provide the implementation of program E; the calculation of the value of deformation. The last command from counter 7 of commands is output from its second expiration code and blocks the input pulses and connects the A indicator, on which the result of counting appears

Accuracy of conduct measurements can be varied by changing the frequency of the generator 5 clock pulses.

The use of the invention allows to increase the speed of the device. from the counter 19 information pulses of the memory block 5 through the element OR 8 and the decoder 9 into the computing unit 10. If by the time the potential signal was applied to the second input of the circuit 21, the memory block 15 was already banned from the output of the comparator 17 codes, i.e. By this time, the measurement of the base plate by the signal from the length sensor 2 has been completed and the counter 19 of information pulses of this block is filled, then immediately after the signal from the output of the comparator 13, information is transferred from the counter 19 of information pulses of the memory block 15 to the computing block 10. Signal feedback about the end of the reading process from the first output of the element 20 of the memory of the memory block 15 is fed to the fifth input of the command interrupter 6 and sets the latter to the state allowing the passage pulses from a generator of 5 clock pulses to the counter of 7 commands, Incoming in this case to the counter of 7 commands, pulses form at its output a sequence of command, combination

Claims (2)

1. DEVICE FOR MEASURING RELATIVE DEFORMATION OF TEXTILE MATERIALS, containing impulse sensors Material lengths installed at the input and output of the material processing zone and electrically connected to the inputs of the information processing unit, which includes keys, a clock generator, a command chopper and a command counter, as well as sequentially connected descrambler, computing unit and indicator, the control input of which is connected with the first output of the command counter, characterized in that, in order to improve performance devices by reducing the measurement cycle time at different speeds of the material, the information processing unit contains an OR element, a basic length programmer, comparators and two memory blocks, while the output of the clock pulse generator is connected to the first input of the command chopper, the inputs of the comparators are connected to the second output of the counter commands and the first input of the OR element, the output of which is connected to the input of the decoder, and the outputs of the comparators are connected to the second and third inputs of the pre. a command extractor, each memory block has a code comparator, a pulse counter, an information pulse counter, a read element, a key and a prohibition circuit, and in each memory block, the pulse counter input is connected to the first key input and the output of the corresponding pulse material length sensor, the pulse counter output by the code comparator is connected to the first input of the prohibition circuit and to the second input of the key, the output of which is connected to the first input of the readout element via a counter of information pulses, whose key inputs and inhibit circuits are combined and connected to the output of the clock generator, the output of the inhibit circuit is connected to the second input of the readout element, and the control inputs of the memory block code comparators are combined and connected to the output of the basic length programmer, the first outputs of the readout elements are associated with the fourth and fifth inputs of the command chopper, the second inputs of the inhibit circuits are connected respectively to the second and third inputs of the command chopper, and the second outputs of the readout elements oedineny to second and third inputs of OR, the chopper output connected to the input commands of the program counter. 2, The device according to π. 1, characterized in that, in order to improve the accuracy of measurement, the clock is made adjustable in frequency.