SU789723A1 - Apparatus for monitoring flaws of steel ropes or lifting mechanism belts - Google Patents

Description

The invention relates to the field of non-destructive testing and is intended to control magnetic materials, in particular, to control. defects of traction organs of hoisting mechanisms. A device for monitoring steel cables, two inductive sensors, two measuring amplifiers, two waiting multivibrators, an inverter, an And circuit and an indicator of defects are known, the sensor outputs being connected via an amplifier to the inputs of the waiting multivibrators (single vibrators) connected to each other by means of a cell And Chevre Inverter A disadvantage of this device is that it only gives information about the presence of a defect in the material. The closest technical solution to the invention is a device for monitoring defects in steel ropes or lifting mechanism tapes, comprising a first inductive transducer, a first amplifier-limiter, a first counter, a decrypted signal and an indicator, a digital readout unit connected to the output of the first counter, connected in series , and a sensor of time intervals. This device can be used to determine the presence of defects using the first converter. The signal from the converter is amplified by the amplifier and fed to the counter, and then to the digital readout block and to the decoder, which compares the true number of defects with the maximum allowable and if the maximum allowable number of defects is exceeded, the decoder outputs a signal to the sound and light indicator. Defects are counted in section L & controlled object tape or rope) for the time interval Lt selected by the sensor intervals of time. Under the condition of the space velocity of the controlled object plot control. D 1 will have a certain constant value and can be selected with the help of a time interval sensor equal to the rope twist pitch. For tape, the value of & t is determined based on the equal strength of the rope and the tape. However, the speed of movement of the traction organ (rope or tape) will be determined not only by the change in load, but also by the type of tachogram (three-, five-, and seven-period) 2.

However, variable speed will lead to a change in the size of the control area, which will exclude the reliability of the results of the control.

The purpose of the invention is to improve the accuracy of control of the product moving at an uneven speed.

The goal is achieved by the fact that the device is equipped with series-connected second induction converter, second amplifier-limiter, second counter with the first coincidence circuit, the second input of which is connected to the output of the second amplifier-limiter, first waiting multivibrator and second waiting multivibrator, the output of which is connected to the input reset the first counter and the second coincidence circuit, the inputs of which are connected to the output of the first counter and the output of the first multivibrator, and the output to the second input m second counter.

The drawing shows the block diagram of the device.

. The device contains the first induction converter 1, the first amplifier-limiter 2, the first counter 3, the decoder 4, the indicator 5, the digital sample block b, the second induction converter 7, the second amplifier-limiter 8, the second counter 9, the first circuit 10, the first a standby multivibrator (one-shot) 11; a second standby multivibrator (one-shot) 12; and a second matching circuit 13.

Converter 1 is connected via the limiting amplifier 2 to the counter 3 of the number of defects, and the output of the latter is connected to the digital counting unit b and the decoder 4 to the indicator 5 of sound and light signaling. The output of the converter 7 is connected via the amplifier-limiter 8, the number of defects to the input of the counter 9 and to one of the inputs of the circuit 10, the remaining inputs of which are connected to the zero outputs of the trigger 9, and the output of the circuit 10 is connected to the single-oscillator 12 that resets counter 3, and to the first inputs of the circuit 13, the second inputs of which are connected to the single outputs of the trigger 3, and its output to the second input of the reader 9. Circuit 10 is n + 1 - the input circuit And, where n is the number binary bits counters 3 and 9, and the circuit 13 depicted in the drawing as a block is represented by n two-input circuits I. Transducers 1 and 7 are located successively at a distance of a distance equal to the conventional twist pitch along the body. Therefore, a crack during its movement causes the appearance

impulse from the defect at the beginning of the converter 1, and then the converter 7. The counters 3 and 9 are reset. The defect signals received at the output of converter 1 are amplified by amplifier 2 and fed to the input of counter 3. Information from counter 3 is fed to block b and to decoder 4, which is compared with the maximum permissible number of defects in a controlled part of the tract. As soon as the number of defects becomes equal to the maximum permissible value, the signal from the output of the decoder is sent to the indicator 5 of sound and light signaling. The outputs of counter 3 are connected to the inputs of circuit 13. The latter serves for a parallel census of information on the number of defects in the monitoring section from counter 3 to counter 9. When the first defect appears in the area of converter 7, the last signal through the amplifier that passes through the amplifier limiter 8 and circuit 10 (it is open, since the counter 9 was initially reset to zero 9 cocks the one-shot 11. The signal from the output of the one-shot 11 opens the circuit 13 and simultaneously cocks the one-shot 12. Since the circuit 13 is open, the information from the counter 3, which indicates the number of defects in the monitoring section A between converters 1 and 7, is rewritten into counter 9. After the information from counter 3 is copied to counter 9, after a delay time interval specified by the single vibrator 12, the counter 3 is reset to zero. impulse from converter 7 corresponds to the passage of the DS section between the converters 1 and 7 by the first defect. Counter 9 runs on subtraction, and accordingly the information in it decreases with the passage of each subsequent defect under the converter 7. At this time, counter 3 works on addition. It counts the defects until the information in the counter 9 becomes zero, this corresponds to the first section of the control, equal to D. Further, the operation of the device is repeated in the same sequence. Thus, while the information in the counter 9 decreases to zero, which corresponds to the monitoring section of the information in the counter 3, the accumulation c is compared with the maximum allowable, and if it is exceeded, a signal is emitted by the indicator 5 of sound and light signaling. Breaking of a ribbon or rope into sections of control equal to the conventional stride D & It is produced by the device only in case of paltlchei defects in the traction organ and only in the places of their location. In areas of a traction body where there is no defect

Claims (1)

³ A device for controlling defects in steel ropes or tapes of hoisting mechanisms, comprising a first induction converter, a first limiter amplifier, a first counter, a decoder and an indicator, and a digital readout unit connected to the output of the first counter, characterized in that, with the aim of increasing - 15 to control the accuracy of a product moving at an uneven speed, it is equipped with a second induction converter, a second amplifier-limiting, connected in series 20 by the reader, the second counter, the first matching circuit, the second input of which is connected to the output of the second amplifier-limiter, the first waiting multivibrator and the second waiting multivibrator, the output of which is connected to the reset input of the first counter, and the second matching circuit, the inputs of which are connected to the output of the first counter and the output of the first multivibrator, and the output with the second input of the second counter.