SU630532A1 - Vibration parameter measuring arrangement - Google Patents

Description

one

The invention relates to the field of measurement technology and can be used to measure low frequency vibration parameters, such as seismic vibrations.

Devices for measuring vibration parameters using an induction vibration transducer are known, in which the frequency response of the vibration transducer is corrected by changing the parameters of its mechanical system using speed feedback or but offset, 1.

The presence of feedback in only one parameter does not allow a significant improvement in the characteristics of the induction vibrator of the transducer for given structural dimensions.

The closest to the invention in terms of its technical nature is a device for measuring vibration parameters, comprising an induction transducer with a movable measuring coil enclosed in a feedback and speed and bias circuit, including an integrator, its link, a voltage divider and amplifiers 2J.

However, in this device, the object is oscillated, and an induction transformer, which is a moving measuring coil, is installed.

placed in a magnetic field created by a magnetic converter system, a voltage proportional to the displacement rate is induced in the moving coil

coil relative to the magnetic system. To obtain a voltage that is proportional to the amplitude of the bias of the coil, the voltage taken from it is integrated and fed to one of the feedback amplifiers. At the second amplifier of this value, the voltage from the divider is connected. The outputs of both amplifiers are connected to the inputs of the third feedback amplifier, whose load is

the additional winding of the moving coil or rigidly connected with the measuring coil and the additional coil placed in the same magnetic field. Leaking iB additional winding

(coil) current interacts with the transducer magnetic field, as a result of which an additional force arises, which is proportional to the speed and offset of the measuring coil. The impact of this power

is equivalent to a change in the mass coefficient of the mass of the external power converter.

The sensitivity of the induction transducer is mainly determined by the magnitude of the induction of the magnetic current in which the measuring coil is placed, as well as the number of turns of this coil, and the higher the sensitivity, the greater the induction and the number of turns.

In a real construction, the number of turns from: the measuring coil is limited by the magnitude of the gap of the magnetic system of the converter, defined by us, it is the magnitude of the magnetic flux induction. The introduction of an additional winding for drying, o-brotherly communication leads to a decrease in the number of turns of the measuring coil, i.e., to a decrease in the sensitivity of the transducer, i

When drying, feedback is provided with an additional coil in the magnetic system, there should be a second gap, similar to the main one, for placing an additional coil in it. The introduction of the second gap reduces the magnitude of the magnetic flux induction, and hence the sensitivity.

In addition, the device has a complex structure, and the presence of a large number of flexible terminals that provide connection of these windings to the measuring and feedback circuits reduces the reliability of the converter.

The aim of the invention is to simplify the device, increasing its sensitivity and reliability.

For this, the proposed device for measuring vibration parameters is provided with three resistors connected in series and forming a balanced bridge with the measuring coil, to one of the diagonals of which are connected the corresponding inputs of the neural amplifier of the feedback circuit, the integrating link and the voltage divider are connected by their inputs to the output the first amplifier, and the outputs to the corresponding inputs of the second amplifier of the feedback circuit, the output of which is connected to the second diagonal of the balanced bridge.

The drawing shows the principle of the device.

It contains an induction transducer 1 with a moving measuring coil 2 connected to one of the arms of a balanced bridge 3 composed of series-connected resistors 4, 5 and 6. One of the diagonals of this bridge is connected to the corresponding inputs of the first amplifier 7 feedback circuit . An integrating link formed by resistor 8 and a capacitor, 9, and a voltage divider consisting of resistors 10 and I are connected to the output of amplifier 7. The outputs of the integrator and voltage divider are connected to the corresponding inputs of the second amplifier 12, output which is connected to another diagonal balanced bridge 3. Elements 4-12

form an on-brother bond in terms of speed and offset.

The device works as follows. Induced by the presence of oscillations in the measuring coil 2, the voltage is removed from one of the diagonals of the bridge 3 and is applied to y silitev 7. At the output of this amplifier, the voltage is proportional to the displacement speed of the measuring coil 2. This voltage is integrated to produce a voltage proportional to the displacement of the coil 2 , and is applied to one of the inputs of amplifier 12, and the second input of this amplifier is supplied with a voltage proportional to the speed of the divider. From the output of amplifier 12, the voltage is applied to another diagonal of bridge 3 as a feedback voltage. Bridge 3 is balanced, so the current flowing through

the measuring coil 2 defined by amplifier 12 does not affect the voltage taken from the diagonal of bridge 3 connected to the inputs of amplifier 7. At the output of this amplifier, the voltage is always proportional only to the speed of displacement of the moving measuring coil 2 caused by the action of vibration regardless of the field feedback depths. The use of an induction converter covered by speed feedback and bias, having only one winding, allows for the same structural dimensions to increase the number of coils in the coil and thereby increase the sensitivity of the device, simplify its design and increase by reducing the number of flexible leads. Coil its reliability in operation.

Claims (2)

Invention Formula Device for measuring parameters vibration, containing an induction transducer with a movable measuring coil, covered by a feedback and feedback circuit for speed and bias, including an integrating element, a voltage divider and amplifiers, characterized in that, in order to simplify the device, increase its sensitivity and reliability, it is equipped with three resistors connected in series and forming a balanced bridge with the measuring coil; to one of the diagonals of which the corresponding inputs of the first amplifier of the feedback circuit are connected, and tegriruyuschee link and the voltage divider are connected by their inputs to the output of the first amplifier and the outputs - to the corresponding | Im inputs of the second amplifier feedback loop, the output of which is connected to the second balanced bridge diagonal. 1. Yorish Yu. I. gas, 1963, p. 613. Sources of information taken into account in the examination of Vibrometry. M., Mash- 2. USSR author's certificate No. 291105; cl. G 01H 1/06, 1965.