SU102673A1 - Rotor balancing machine - Google Patents

Description

The subject of the invention is a balancing machine with an electronic ring indicator for determining the magnitude and location of unbalanced masses in the rotor balancing planes.

Devices for balancing vrach, ayush, ihc are known using photocell, mechanoelectric sensors, transforming, their mechanical oscillations of the rotor supports into sinusoidal voltages with a frequency equal to the frequency of rotation, and an amplitude proportional to the width of the supports, and the cathode oscillograph. Circuits are also known for being obtained1 on a screen of a cathode oscilloscope of a circular scan with a sharp point mark and the use in electronic circuits of computing devices and two-channel phase-waving amplifiers.

In the described machine, in contrast to the known, mechanical-electronic displacement sensors of the supports of the balancing machine are used in combination with a circular electronic indicator, which makes it possible to directly measure on the screen the last value and place of imbalance in the given rotor balance equation. The drawing shows a diagram of the machine.

The elastic supports / rotating rotor 2 affect the mechano-electric sensors 3, which record the oscillations of the supports in the form of a sinusoidal voltage with a frequency equal to the number of revolutions of the rotor shaft and with an amplitude proportional to the amount of movement of the supports.

The voltages taken from the sensors are applied to the decisive device 4, resulting in the magnitudes and phases of the signals in accordance with the magnitudes and phases of the unbalance of the rotor. The applied voltage is supplied to an amplifier with two channels 5 and 6, which shifts the phase of one of the channels by 90. When applying reinforced voltages to horizontal and vertical plates 7 of the cathode ray tube, a circle 9 is formed on its screen 8, the diameter of which is proportional to imbalances in one way or another (according to the position of the switch 10) of the plane balanced by the rotor.

No. 102673-2. The imbalance location is determined by the power // mark on the rotor generator, illuminated by the lamp 12 and passing through the photocell 13 field of view, which causes a current pulse with a frequency equal to the rotor rotation frequency. These pulses are amplified with the aid of amplifier e) of the outflow 14 and are applied to the grid of the cathode ray tube, as a result of which a fixed arrow-shaped index 16 is formed on the circumference of the described beam.

Amplified pulses can be fed to the cathode ray tube; in this case, a fixed point is formed on the circle. The photocell is installed in such a position relative to the sensitivity direction of the sensors that the angle Φ of the index on the circle, measured from the vertical axis of the tube, corresponds to the angular position of the unbalance of the rotor, which is counted in degrees (from the marked line).

Thus, the diameter of the circle on the screen of the tube characterizes the magnitude, and the position of the index on the circle (with the oscillating frequency of the platform 15 on which the rotor is mounted) strictly determines the phase of the unbalanced mass m in the balance plane.

Subject invention

A machine for balancing rotors using mechano-electric sensors of oscillation of supports, a decisive device, a phase-shifting amplifier, an electron-beam circular indicator and a recording photocell, characterized in that, in order to directly read on the screen of a circular electronic indicator of the magnitude and place of imbalance in a given balance-rotor plane Mechano-electric sensors are connected via a counting device to a two-channel phase-shifting amplifier, the output circuits of which are th associated with horizontal and vertical nlastinami cathode ray tube, mesh which is powered by current from the photocell, installed on the path of the beam reflected from the surface of the rotor to be balanced, on which the mark is applied.