SU300776A1 - VIBROMETER FOR MULTIPLE MEASUREMENTS - Google Patents

Description

The invention relates to the field of vibration measuring technology.

Vibrometer for multi-junction measurements are known, which contain magnetoelectric vibrators, the coils of each of which have a measuring and power windings interconnected through an integrating link and an amplifier, forming a positive feedback on the bias, and a switch.

In order to ensure the interchangeability of sensors on the dynamic properties of the proposed vibrometer, variable resistors are included in the measuring and power windings of each sensor, the measuring winding circuit resistor is connected through a commutator to the capacitor blocking the amplifier input, and the power | VOY winding circuit resistor is connected switch with amplifier output.

Ia drawing shows a diagram of the proposed vibrometer.

The vibrometer contains magnetoelectric vibroscopes, the number of which is determined by the number of control points. Each vibration sensor has a permanent magnet /, to which through an elastic 2 a coil 5 is attached, consisting of a measuring winding 4 and a power winding 5.

The coils 4 of each sensor are connected through a resistor 6 with an integrating capacitor 7 connected in parallel to the input of the amplifier 8, and the power windings 5 through potentiometer 9 to the output of the amplifier 8. In parallel with the measuring winding, an impedance 10 is connected.

Consider the operation of the vibrometer on the example of one of the sensors (for example, the first)

0 when switched on by switch 11 in the circuit. The signal from the measuring capacitance 4 of the sensor, proportional to the speed of the measured vibration displacement, is fed to the integrating chain formed by resistance 6 and capacitance 7. After integration, the signal proportional to the now measured vibration offset is amplified by the electronic amplifier 8 and fed through switch 11 and the resistor of the potentiometer 9 to power

0 winding 5. As a result, a current flows through the power winding5, from the interaction of which with the field of the permanent magnet 1 there is a force acting on the coil 3.

The coil is electrically connected to the sleeves. 8. so that the direction of the resulting force action is opposite to the force action of the springs. The consequence is a reduction in the natural frequency of the system, i.e. an extension of the frequency range of the vibrometer. By selecting the resistance value 6, the sensitivity of the system is adjusted, and / by adjusting the resistance of the potentiometer 9, the required form of the frequency response is provided. In parallel to the measuring area 4, co-axis 10 is switched on, with which the acceleration of the sensor is adjusted.

Subject from -6 days old

A vibrometer for multipoint measurements, containing magnetoelectric vibration sensors, each of which has a coil of measuring and power windings, connected to each other through an integrating element and an amplifier, forming a positive feedback 1PO bias, and commutaries, characterized in that

interchangeability of sensors by dynamic properties. In the measuring and winding circuits of each sensor, variable resistors are included in the sensor circuit. In particular, the resistor of the measuring field is connected to a capacitor (through the switch to the capacitor blocking the amplifier input, and the power winding resistor is connected through switch with amplifier output.