SU744258A1 - Method of determining rotor unbalance - Google Patents

Description

(54) METHOD FOR DETERMINING BALANCING The invention relates to the field of balancing technology and can be used to determine the imbalance of rotors on pre-resonance balancing machines. and measure the reactions of the supports that judge the imbalance of the rotor 1. The disadvantage of the method is that when the unbalanced rotor of its trunnion rotates overshayut pendulum oscillation in the bearing clearances. As a result, additional dynamic pressures affect the gaps in the bearings, the magnitude of the imbalance of the angular, the rotational speed of the rotor and the geometric-mass characteristics of the mechanical system of the balancing machine. This disrupts the work of the division goals of the correction planes, reduces the accuracy and performance of the balancing process. The closest to the invention to the technical essence is the method of rotors for determining the irrationality of rotors, which means that the rotor is mounted on the bearing supports, the drive of which is rotated by a belt drive, and the reactions of the supports are measured by which the rotor 2 is unbalanced the unbalance of the rotor is influenced by the geometrical-mass characteristics of the machine’s mechanical system and the parameters of the belt drive. The disadvantage of this method is low accuracy and performance due to the presence of pendulous oscillations of the rotor trunnions in the bearing clearances. The aim of the invention is to improve the accuracy and performance of the balancing process. This goal is achieved by the fact that after the rotor is rotated, the tension of the drive belt is parametrically changed to reduce the rotor's oscillations in the bearing clearances. The essence of the method is as follows. The balanced rotor is mounted on the bearings, and is driven into rotation by a belt drive. With

The rotation of the unbalanced rotor in the bearings in the bearings with radial clearances of the rotor journal is matched by the mating oscillations.

Before the reactions of the supports, the rotor is out of balance.

To reduce the amplitude of the pendulous oscillations of the trunnions, these oscillations are dynamically quenched by parametric resonant transverse oscillations of the branches of the driving belt.

A change in the tension of the belt and the length of the free span makes it possible to match the frequency of oscillation of the branches of the belt with the frequency of rotation of the rotor.

When damping the oscillations of the trunnions, it is sufficient to use the resonance of one of the branches of the belt, for example, escaping from the rotor, which eliminates the need to match the natural frequencies of oscillations to the incident and escaping branches whose tensions are different.

To implement the proposed method on existing balancing machines with limited ability to change the lengths of free span of the branches, it is advisable to change the natural frequencies of the branches by an appropriate choice of their tension.

The parametric nature of the belt oscillations makes it possible to use the setting for frequencies that are multiples of the rotor speed, including subharmonic ones.

The oscillation trapping phenomenon, which is inherent in parametric oscillations, maintains the resonant mode of the oscillation damper with minor changes in the rotor rotational frequency.

Claims (2)

1. Balancing machines and devices. Ed. V. A. Schepetilnikova M., Mechanical Engineering, 1965, p. 425428 .. 2. Balancing machines and devices. Ed. V.A. Schepetilnikova. M., Mechanical Engineering, 1965, p. 466468 (prototype).