SU146566A1 - Device for mechanical vibration testing of machine parts - Google Patents

Description

Devices for mechanical vibration testing of machine parts, in particular turbine blades, are based on the excitation of an oscillation blade under test using an electromagnet powered by alternating current, in which the blade is placed in a magnetic field, are known.

However, the known devices do not provide control over the magnitude of the forces applied to the blade during its testing.

The device according to the present invention does not have this drawback. This is achieved by the fact that it uses a coil fortified on the surface of the blade and located opposite the pole of the electromagnet, the dimensions of which are chosen according to the size and configuration of the pole of the electromagnet so that the size of the emf excited in the coil it was possible to determine the magnitude of the force acting on the blade.

To implement the device, a single-layer measuring coil is glued onto the surface of the test blade, consisting of several turns of copper insulated wire with a diameter of about 0, 2 mm.

The measuring coil is made of such a calculation that the area of the contour of the inner coil of the coil is equal to the cross-sectional area of the pole tip (core) of the electromagnet, i.e., the measuring coil is manufactured along the profile of the pole tips of the electromagnet.

The pole tips of the electromagnet are installed opposite the glued measuring coil.

With the passage of a variable magnetic flux through the air gap between the blade and the core of the electromagnet, the turns of the measuring coil will be covered by a magnetic flux that interacts directly with the blade. In this case, in coils, the gauge 146566-2 of the coil is induced by an electromotive force proportional to the magnetic flux.

The amplitude value of the disturbing force P acting on the pilot is determined by the formula:

1b- 5- / g -981

where V is the electrical voltage at the terminals of the measuring coil, in volts;

f is the frequency of the current in the part of the measuring coil or in the circuit of the excitation winding of the electromagnet in hertz. n is the number of turns in the measuring coil.

In the drawing, as an example, a diagram of a device for driving a tuning fork is shown.

The current from the sound generator / is fed to the input of the amplifier 2 and, after appropriate amplification, goes to potentiometer 3 and then to the excitation winding 4 of the electromagnet.

The presence of a potentiometer allows the required voltage to be measured on the field winding, as measured by a lamp voltmeter 5. The measuring coils 6 are glued to the top of each branch of the tuning fork 7, and to determine the magnetic flux in the air gap, similar measuring coils 8 are glued to the ends of the electromagnet core.

The indices 9 and / O, respectively, designate the switch of the measuring coils and the lamp voltmeter.

Subject invention

A device for mechanical vibration testing of machine parts, in particular turbine blades, based on the excitation of an oscillation blade under test by means of an electromagnet powered by alternating current, in a magnetic field of which the blade is placed, in order to control the magnitude of the forces applied to during its testing, the blade is applied to a coil mounted on the surface of the blade and opposite the pole of the electromagnet, the dimensions of which are chosen according to the size and configuration of the pole electromagnet ita so that the largest excited in the coil variable emf it was possible to determine the magnitude of the force acting on the blade.

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