SU115304A1 - Electrodynamic resonant testing machine - Google Patents

Description

The subject of the invention is an electromagnetic resonant type testing machine for testing core samples of structural materials for cyclic strength under alternating bending, rotating with bending, as well as for studying the process of formation of fatigue cracks and the concentration of arising stresses. Electrodynamic test machines of resonant type with adjustable excitation frequency are known. self-oscillating circuit with electric feedback sensor, with As an electromagnetic magnet or electrodynamic system and a high-frequency electronic generator, as well as an optical photoelectric device for measuring the amplitude of resonant oscillations. The main disadvantage of these machines is that they do not provide the ability to stabilize the amplitude of oscillations of the exciting magnetic field in accordance with a given test mode.

This disadvantage is eliminated in the described test machine by the fact that the self-oscillating system is made up of a block mounted on racks, consisting of a stator with a bipolar three-phase winding, a magnetic biasing winding, a core on a spring-loaded connecting rod or a test sample and an electro-rheumatic device to create a stabilized acting rod the floor The self-oscillatory system is electrically connected with the working part of the machine, consisting of a stator with a bipolar three-phase winding and a biasing winding with a core moving along a cantilever-mounted test piece with a movable fastener on it.

The drawing shows a schematic diagram of a testing machine.

No. 115304-2 -

On a massive plate, two cases are fixed by means of racks} and - in each case there is a stator with a bipolar three-phase winding 2 -k 2 t mounted with magnetizing winding 3 and 3. The cores 4 and 4 of the magnetizing windings can move along the thread, ensuring the distance between the cores 5 and the core of the magnetic coil winding.

One part (I) of the machine, comprising the stator, the biasing winding, the measles, the test sample 9 and the detector 10, is the working part of the machine.

By moving the measles 5 along the test sample, different values of the natural frequency of the measles-sample system are obtained, which, at a fixed frequency of the power source, provides a resonant (or close to it) value of the amplitude of oscillations.

The biasing winding 3 makes it possible to vary the effective amplitude of the magnetic field at a fixed value of the frequency of the power source and the natural frequency of the test sample with a coron.

The other part (II) of the machine, including the stator, the measles, the springs 6, the connecting rod bore, the non-contact photoelectric relay 7 and the electro-electromatic block S, is a self-oscillating system with negative feedback. This part of the machine de-aerates the constant magnetic field in the working part of the machine.

Subject invention

 Electrodynamic resonant type testing machine, with adjustable excitation frequency and adjustable natural frequency of oscillations of core samples of constructional and other materials tested for fatigue and cyclic viscosity at a sign of alternating bending and rotating with bending, using a self-oscillating system with negative feedback to create a constant the magnitude of the current magnetic field "registration of excited oscillations by means of a photoelectric or other device, In order to stabilize the amplitude of oscillations of the exciting magnetic field in accordance with a given test mode, the self-oscillating system is made up of a block mounted on racks of a base plate consisting of a stator with a bipolar three-phase winding, magnetizing winding, a core on a spring-loaded connecting rod or on a test sample and an electro-electromatic device to create a stabilized active magnetic field, and is electrically connected to the working part of the machine consisting of and a two-pole three-phase winding, and a magnetizing coil with a core movable along a cantilevered test sample with movable armature mounted thereon.