SU404102A1 - DEVICE FOR MODELING MECHANICAL - Google Patents

Description

one

The invention relates to electrical measuring equipment, in particular, to devices for statistical processing and analysis of the amplitudes of mechanical vibrations of structures.

Known devices for modulating statistical processing and analysis of mechanical oscillations represented as electrical signals containing an output counting matrix connected via decoders with counters connected via keys to a generator are characterized by a large amount of recorded information and low speed, which does not allow to investigate high frequency mechanical vibrations.

The purpose of the invention is to expand the frequency dianazop device and reduce the amount of recorded information.

This is achieved by the fact that the outputs of the counters are connected through code-and-error converters with inputs of zero-organs, the other inputs of which are connected to the input of the device via analogue (t) and an input non-switch, the second output of which is connected to one of the zero-organs. The meter reset and analogue inputs are connected to a derivative identifier, the output of which is connected to the input key, and the input is connected to the input of the device, the outputs of the zero organs are connected to the control inputs of the keys.

The drawing is a block diagram of the proposed device.

The device consists of a block 1 for determining the sign of the derivative, which is connected by a control output to switch 2, one output of which is connected via memory block 3 to the inputs of the pistols 4 and 5, and the second output

to the second input of the zero-organ 5. The zero-organs 4 and 5 are connected with the outputs of the converters "code - voltage 6 and 7 and with the control H1, with the inputs of the keys 8 and 9, through which the pulses from the heater 10 pass through the counters 11 and 12. The outputs of the counters 11 and 12 of the receiver are through the depositors 13 and 14 with the counting matrix 15 and with the converters 6 and 7, and BTOpoii the output of the block 1 with a certain sign of the derivative is connected

to the reset inputs of counters 11 and 12 and block 3, we need to return them to their original state.

The proposed device works as follows.

In MOMCHi, the increase in the input voltage rx (derivative V is positive), the sign determining unit 1 sets the switch 2 to position 16, and the block 3 of the memory begins to memorize the input voltage, which is compared to the output organ 4 with the code output - voltage 6. With increasing voltage at the output of memory block 3, zero - authority 4 issues permission to key 8, and impulses from generator 10 flow to counter 5 12, which changes the state of converter 6, increasing its output voltage. At the moment the input voltage decreases (the derivative f / in is negative), the sign 1 unit determines the sign of the derivative switch 2 to position 17 and the decreasing input voltage will now flow to the input zero - organ 5. The output from the memory unit 3 T. (i.e., the memorized previous max-15 is the maximum value of the input signal) and the output voltage of the converter "code - voltage 7. When the input voltage decreases, zero - body 5 gives permission to the key 20 9, and pulses from the generator 10 are received on the count to 11, which changes the state of converter 7, increasing its output voltage. If thereafter the input voltage is in. will increase again, the derivative decoding symbol I 25 will set the counters 11 and 12, memory block 3, switch 2 to position 16, and the balancing process will repeat. Thus, the completion of each cycle of equilibration B of counter 11 will record the value of the difference between maximum and in and minimum L, ,,, 5J., 35 max of voltage Ab, -), and in counter 12 - the value of maximum (7in .Lixing, decoders 13 and 14 define the cell of the output counting matrix 15, where, according to the measured values of the maximum t / ,, x. max, and differential 46, the unit is added. 40 In the output counting matrix 15 to each possible combination of the values of the maxima and drops corresponds to its accumulative cell. In the process of statistical The number of repetitions of a given combination of maxima and differences during the study time is formed in each cell of matrix 15. The number of repetitions of combinations of specific values of maxima and differences that are in cells of matrix 15 are the ordinates of the two-dimensional discrete distribution sign and are the result of statistical processing of amplitudes mechanical oscillations by the method of maxima and nerepad. From this two-dimensional distribution law, it is possible to obtain information on the strength characteristics of the material (for talness, endurance, fracture limit, etc.) Subject of the invention A device for modeling mechanical vibrations, containing a counting matrix, connected via decoders with counters connected via keys to a generator, characterized in that, in order to simplify the device and increase its speed, it contains converters "code - voltage, the inputs of which are connected to the counters, zero - the organs connected to the inputs of the keys, the memory block, the output of which is connected to the first inputs of the zero - organs, the second inputs of which connected with transducers "code - voltage. and a symbol for determining the sign of the derivative, one of the outputs of which is connected to the counters and to the unit of us, and the other is connected via a switch connected to the third input of one of the zero organs, to the memory unit.