SU491846A1 - Automatic overload protection device - Google Patents

Description

The invention relates to the field of measuring instruments, and is intended for automatic protection against overloading of machine parts and structural elements made of ferromagnetic materials.

The known devices for automatic overload protection consisting of two magnetoelastic sensors, a rectifier, an amplifier and a relay triggered at a given difference in the output signals of the force sensors, are not sufficiently resistant to noise, since an increase in the amplitude of the signal at the rectifier input can be achieved not only by asymmetry of effort, but also due to interference from industrial noise.

To improve the noise immunity in the proposed device, the working and compensation magnetoelastic sensors are equipped with measuring windings with different numbers of turns.

The drawing shows the proposed device.

The alternator 1 feeds the excitation winding 2 of the working magnetoelastic sensor 3 mounted on the surface of the part (or structure) 4 poles of the magnetic circuit 5, and the excitation winding 6 of the compensation magnetoelastic sensor 7 mounted on the surface of the unstressed sample 8 of the magnetic circuit poles 9. Measuring windings 10 and 11, connected in opposite, through a full-wave rectifier 12 are connected to a DC amplifier 13, the output of which is connected to

threshold actuator 14 for disabling the actuator.

When using the device for protection

from overloading the compression, the voltage of the output signal of the working sensor 3 having a greater number of turns in the measuring winding 10 compared to the number of turns in the measuring winding 11 of the compensation sensor 7 decreases with increasing magnitude of the force R acting on the part 4 due to counter-switching of the measuring windings 10 and 11 and different number of turns in them the voltage at the input of the amplifier with no load on the part 4 is different from zero in proportion to the difference of the electromotive forces of these windings, since The electromotive force of the winding 11 remains constant and is in amplitude less than the electromotive force of the winding 10.

When increasing the compression load on the part 4, the difference in the electromotive force of these windings decreases. As a consequence, there is an increase in current through the actuator 14 and when the specified minimum difference in electromotive forces of the windings 10 and 11 is reached, the threshold actuator is triggered.

The voltage of the signal due to interference is added to the voltage of the useful signal, but this does not lead to false positives of the protection device, since switching of the actuating element is possible only when the input signal of the amplifier is reduced to a predetermined level.

Claims (1)

Invention Formula An automatic overload protection device containing an alternator connected to the excitation windings of the working and compensation magnetoelastic sensors, the measuring windings of which are connected counter and connected to a DC amplifier through the output of the actuator with a relay output that differs the fact that, in order to increase noise immunity, it has a working and compensation magnetoelastic The sensors are equipped with measuring windings with different numbers of turns.