RU2052784C1 - Device for checking vibrations - Google Patents

Abstract

FIELD: measurement technology. SUBSTANCE: device is provided with the second and the third threshold elements, which have inputs connected with input of the first threshold element, and the first concidence circuit. Two outputs of the coincidence circuit are connected with outputs of the first and the second threshold elements. The rest inputs are connected to outputs of power unit, the second coincidence circuit. Two inputs of the second coincidence circuit are connected with outputs of the second and third threshold elements. The rest inputs are connected to outputs of power unit, to the third coincidence circuit, the third delay circuit. Input of delay circuit is connected with output of the first coincidence circuit, and output of delay circuit is connected with the first input of the third coincidence circuit. The second input of the third coincidence circuit is connected with output of the first threshold element, and the first and the second flip-flops. One adjusting input of the first flip-flop is connected with output of the third cincidence circuit, and the second delay circuit. Input of delay circuit is connected to output of the firts flip-flop, and output is connected to adjust input of of the second flip-flop, and output is connected with adjust input of the second flip-flop. One input of the fourth coincidence circuit is connected with output of the first threshold element through inverter. The second input is connected with the first output of the second flip-flop, with the third flip-flop, the fifth and the sixth coincidence circuits, the third flip-flop, the fifth ad the sixth coincidence circuits, the third delay circuit. Input of the third delay circuit is connected with output of the second coincidence circuit, and output through the fifth coincidence circuit is connected with some adjust input of the third flip-flop. The second input of the fifth coincidence circuit is connected with output of the third threshold element. The second adjust input of the third flip-flop is conected with output of the thrid threshold element. The second adjust input of the third flip-flop is connected with output of the third threshold element through the sixth invereter and the sixth coincidence circuit. The second input of the sixth coincidence circuit is connected with the first output of the second flip-flop. Moreover, output of the first flip-flop is connected with input of alarm signalling system. The second output of the second flip-flop is connected with protection unit. Output of the third flip-flop is connected with warning system. EFFECT: improved reliability of operation of vibration checking systems. 1 dwg

Description

 The invention relates to measuring equipment and can be used in vibration diagnostics of machines and mechanisms in the process of their operation.

A device for controlling vibration, containing a series-connected vibration transducer, amplifier, rectifier, integrator and switch device, as well as a differentiating element, summing amplifier, threshold block and actuator [1]
The disadvantage of this device is its low noise immunity.

Closest to the proposed device is a device containing a series-connected vibration transducer, a band-pass filter, a scaling amplifier and a threshold element with a level switch connected to its second input, a logic circuit, protection and alarm units connected to its outputs, and an alarm block [2]
The disadvantage of this device is the lack of self-control during operation, which reduces its reliability.

 The purpose of the invention is to increase the reliability of a device for controlling vibration. In the proposed device, a delay circuit is used to protect against impulse noise, as well as logic circuits for blocking signals of preliminary and emergency protection in case of malfunctions occurring in the units of the device.

 To achieve the goal, a device for controlling vibrations, containing a series-connected vibration transducer, a band-pass filter, a scaling amplifier and a first threshold element, a warning signal unit, a power supply unit, is equipped with a second and third threshold elements, the inputs of which are connected to the input of the first threshold element, the first matching circuit, two inputs of which are connected to the outputs of the first and second threshold elements, the remaining inputs are connected to the outputs of the power supply, the second matching circuit, two inputs which is connected to the outputs of the second and third threshold elements, the remaining inputs to the outputs of the power supply, the third match circuit, the first delay circuit, the input of which is connected to the output of the first match circuit, and the output with the first input of the third match circuit, the second input of which is connected to the output of the first threshold element, by the first and second triggers, one of the installation inputs of the first one is connected to the input of the third coincidence circuit, the second delay circuit, the input of which is connected to the output of the first trigger, and the output to the set the first input of the second trigger, the fourth matching circuit, one of the inputs of which is connected through the inverter to the output of the first threshold element, and the second to the first output of the second trigger, the third trigger, the fifth and sixth matching circuits, the third delay circuit, the input of which is connected to the output of the second circuit coincidence, and the output through the fifth matching circuit is connected to one of the installation inputs of the third trigger, the second input of the fifth matching circuit being connected to the output of the third threshold element, and the second installation input the third trigger is connected to the output of the third threshold element through the second inverter and the sixth match circuit, the second input of which is connected to the first output of the second trigger, while the output of the first trigger is connected to the input of the alarm unit, the second output of the second trigger with the protection unit, and the output of the third trigger with warning block.

 The drawing shows a block diagram of a device.

 The device contains a series-connected vibration transducer 1, a band-pass filter 2, a scaling amplifier 3, a first threshold element 4, a second 5 and a third 6 threshold elements, the inputs of which are connected to the input of the first threshold element 4, the first matching circuit 7, the two inputs of which are connected to the outputs of the first 4 and the second 5 threshold elements, and the rest with the outputs of the power supply unit 9, the second coincidence circuit 8, the two inputs of which are connected to the outputs of the second 5 and third 6 threshold elements, and the rest to the outputs of the power supply, the first 10 delay circuit, the input of which is connected to the output of the first coincidence circuit 7, and the output with the first input of the third coincidence circuit 11, the second input of which is connected to the output of the first threshold element 4, the first trigger 12, one of the installation inputs of which is connected to the output of the third circuit 11 matches, the second delay circuit 13, the input to the installation input of the second trigger 14, the fourth coincidence circuit 15, one of the inputs of which is connected through the inverter 16 to the output of the first threshold element 4, and the second to the first output of the second trigger 15, the third a delay circuit 17, the input of which is connected to the output of the second coincidence circuit 8, and the output through the fifth coincidence circuit 18 is connected to one of the installation inputs of the third trigger 19, and the second input of the fifth coincidence circuit 18 is connected to the output of the third threshold element 6, and the second installation input the third trigger 19 is connected to the output of the third threshold element 6 through the second inverter 20 and the sixth matching circuit 21, the second input of which is connected to the first output of the second trigger 14, while the output of the first trigger 12 is connected to the output of the unit 22 and alarm output of the second flip-flop 14 with the protection unit 23, and the output of the third flip-flop 19 to a block 24 the warning.

 The device operates as follows.

 The signal of the vibration transducer 1 after the filter 2 and the scaling amplifier 3 is supplied to the inputs of the threshold elements 4-6.

 The threshold element 4 has a response level corresponding to an emergency; the threshold element 6 has a warning level. The response level of the threshold element 5 is selected so that, with a minimum amplitude of the signal from the vibration transducer, there is a signal at its output that goes to the inputs of coincidence circuits 7 and 8. When the cable of the vibration converter 1 is cut off, there is no signal at the output of the threshold element 5, matching circuits 7 and 8 and the operation of the entire device are blocked. Similarly, work occurs in the absence of at least one of the output voltages of the power supply unit 9.

 When the amplitude of the signal from the vibration transducer 1 reaches the alarm level, the signal of the threshold element 4 through the coincidence circuit 7 (if all other signals are present) starts the delay circuit 10. The delay time is set so that short-term increases in the amplitude of vibration, as well as impulse noise, do not lead to the operation of warning and alarm circuits. If a stable signal really appears at the output of the threshold element 4, then the signals coincide at the inputs of the coincidence circuit 14 and its output signal throws the trigger 12 to the “single” state. In this case, an alarm signal is present in block 22. The output signal of the trigger 12 is delayed by the delay circuit 13 for the time necessary for the operator to make a decision. If the emergency protection signal is not blocked by the operator, then the output signal of the delay circuit 13 transfers the trigger 14 to the “single” state and the emergency protection signal is generated. The warning channel operates in a similar way, which includes a coincidence circuit 8, a delay circuit 17, a coincidence circuit 17 and 21, an inverter 20, a trigger 19, and a warning block 24.

 Thus, the introduction of new elements provides self-control of the device, protection from interference and, therefore, increases the reliability of its operation.

 The proposed device can find application in the protection system of technological equipment, machines and units from vibration overloads.

Claims (1)

 A VIBRATION CONTROL DEVICE comprising a vibration converter, a bandpass filter, a scaling amplifier and a first threshold element, an emergency protection unit, an alarm unit, an alarm unit, a power supply unit, characterized in that it is equipped with second and third threshold elements, the inputs of which are connected with the input of the first threshold element, the first coincidence circuit, two inputs of which are connected to the outputs of the first and second threshold elements, the remaining inputs are connected the outputs of the power supply, the second matching circuit, the two inputs of which are connected to the outputs of the second and third threshold elements, the remaining inputs to the outputs of the power supply, the third matching circuit, the first delay circuit, the input of which is connected to the output of the first matching circuit, and the output to the first the input of the third matching circuit, the second input of which is connected to the output of the first threshold element, the first and second triggers, one of the installation inputs of the first one is connected to the output of the third matching circuit, the second delay circuit, input which is connected to the output of the first trigger, and the output to the installation input of the second trigger, the fourth matching circuit, one of the inputs of which is connected through the inverter to the output of the first threshold element, and the other to the first output of the second trigger, the third trigger, fifth and sixth matching circuits , the third delay circuit, the input of which is connected to the output of the second matching circuit, and the output through the fifth matching circuit is connected to one of the installation inputs of the third trigger, the second input of the fifth matching circuit being connected to the output of the third threshold element, and the second installation input of the third trigger is connected to the output of the third threshold element through the second inverter and the sixth matching circuit, the second input of which is connected to the first output of the second trigger, while the output of the first trigger is connected to the input of the alarm block, the second output of the second trigger - with a protection unit, and the output of the third trigger - with a forced alarm unit.

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