SU1024855A1 - Vibration parameter measuring device - Google Patents

Abstract

A DEVICE FOR MEASURING VIBRATION PARAMETERS, containing an inertial element, an angular position transducer, made in a magnetic circuit with both excitation currents and a signal, a magnetoelectric torque sensor with a compensating winding, an amplifier, a demodulator, which has a reverse connection resistor, which has a reverse connection resistor, an amplifier, a demodulator, and a feedback resistor, which has a reverse connection, an amplifier, a modulator, and an output modulator for which the feedback resistor is connected. the code, and the power source, it is so that, with a chain of simplification of the design, and the unctional element is designed as a short-circuited coil-car The compensation coil, the torque sensor magnetic field and the angular position transducer are made single with a permanent magnet, and on its base it is located with the possibility of being displaced in the gap between the pole tip of the permanent magnet and the coil-Kefkas loop, while on the frame there is a winding signal, Connected to the introduced i.§ there are tuned reactive circuits and connected through an amplifier-demodulator and feedback resistor to a co-sensational winding.

Description

The invention relates to instrumentation and can be used in automation and in transport to measure the vibration parameters of an object.

A device for measuring the motion parameters of an object is known, comprising an inertial element located in the gap between two electromagnets, the windings of which are connected to the outputs of the amplifier-converter units, the inertial element position sensor connected to the dynamic correction unit, the summation unit and the subtractor unit, one of the inputs of which connected to the source of the reference signal, others to the output of the dynamic correction unit, sensitive elements of the induction sensors are placed in the gap between the inertia nym element and the respective electromagnet, the comparison circuits are connected to respective inputs of the adding unit and subtracting unit and to output the display unit, and outputs - to the input of the integrators, whose outputs are connected to respective inputs of blocks usilitelnopreobrazovatelnyh

The disadvantage of this device is the complexity of the design and relatively low accuracy, due to the departure of the reference Wa-1 yarn from the effects of temperature and other interfering influences.

The closest to the technical essence of the invention is an on-board compensation accelerometer containing an inertial element, an angular position transducer made in the form of a magnetic circuit with excitation windings and a signal one, a magnetoelectric torque sensor with a compensation winding, an amplifier-demodulator, on the output of which a reverse resistor is connected connection, connected to the converter current - code, and the power source E2

A disadvantage of the known device is the complexity of the design and the relatively low accuracy of the device due to the use of spaced angular position conversion systems and force compensation.

The aim of the invention is to simplify the structure.

This goal is achieved by the fact that in a device for measuring the vibration parameters of an object containing an inertial element, an angular position transducer, made in the form of a magnetic circuit with excitation windings and a signal, a magnetoelectric torque sensor with a compensation winding, an amplifier-demodulator, to the output of which is connected the zi connected to the current-code transducer and the power source f, the inertial element is designed as a closed loop frame with a computer that is not reinforced The sensational winding, the magnetic circuit of the torque sensor and the angular position transducer are made uniformly with the permanent magnet and located on its base with the possibility of movement in the gap between the pole tip of the permanent magnet and. a turn coil frame, with the signal windings connected to the input tuned reactive circuits and connected through an amplifier-demodulator and a feedback resistor to the compensation coupling.

The drawing shows a functional diagram of the proposed device.

The device comprises a housing 1, an integrated magnetic core 2, a permanent magnet 3, a supply winding 4, a pole tip 5, a gap b, a rm 7, a maternal suspension 8, a short-circuited coil-frame 9, signal windings 10 and 11, a compensation winding 12, tuned reactive circuits 13 and 14, variable resistors 15 and 16, capacitors 17 and 18, amplifier-demodulator 19, feedback resistor 20, current converter - code 21, processor 22, power supply 23.

In the drawing marked: 00 - the axis of the sensitivity of the device; Mmss device symmetry; NS - the poles of a magnet.

On the housing 1 there is an integrated magnetic circuit 2, which is common to the permanent magnet 3 and the electromagnet, the supply winding 4 of which is fixed on the permanent magnet 3, having a pole tip 5. In the gap 6 between the pole tip 5 and the frame 7, on a hanging rod 8, a short-circuited coil-frame 9 is installed, covering the gap 7 with a gap, on which the signal windings 10 and 11 of the angle sensor are placed. ;

A short-circuited coil-frame 9 with a compensation winding 12 is an inertial element (IE) sensitive to the action of acceleration.

Signal windings 10 and 11 are connected to respective tuned reactive circuits 13 and 14, each of which includes a variable resistor 15 and 16 and a capacitor 17 and 18, respectively.

 Adjustable reactive circuits 13 and 14 soybean with amplifier-demodul unit 19, which through a feedback resistor 20 is connected to the compensation winding 12 moment sensor, creating a circuit

Claims (1)

DEVICE FOR MEASURING VIBRATION PARAMETERS, containing an inertial element, an angular position transducer, made in the form of a magnetic circuit with field windings And a signal, magnetoelectric torque sensor with compensated winding, amplifier -. The demodulator, to the output of which a feedback resistor is connected, a current code connected to the converter, and a power source, distinguish it from the fact that, in order to simplify the design, the inertia element is made in the form of a short-circuited coil frame mounted on a suspension with compensation winding, the magnetic circuit of the torque sensor and the angular position transducer is made uniform with a permanent magnet, and located on its yoke with the ability to move in the gap between the pole tip of the permanent magnet and the yoke of the coil / Wherein the yoke arranged on the signal coil connected to vveden-, ^ nym tuned reactive circuits and connected through an amplifier and demodulator feedback resistor with the compensation coil. 1 1024 855