SU564555A1 - Method for rotor balancing - Google Patents

Description

(54) METHOD OF ROTOR BALANCING

successively for each support, the influence of the initial unbalance is eliminated, each correction plane is divided by reducing the influence of compensating masses installed in the correction planes of the other supports on it, the stop angle and the amount of compensating masses are determined using the data obtained and assigned correction plane.

FIG. 1 shows the installation of a multi-support composite rotor with a swivel on the balance bar of a full-time machine, on the example of a four-support rotor; in fig. 2 a cross-section along the AA tool support.

The composite rotor contains parts 1 and 2 of rotation, for example, a gear wheel and gear, connected by a torsion shaft 3. The torsion shaft is joined rigidly to part 1 by means of a flange connection, and to hinge part 2 by means of a gear connection to a barrel-shaped tooth. The drive of the composite rotor from the spindle of the balancing machine is carried out through 4 and driven; coupling 5. The measuring feet 6-9 are identical.

Each of them contains a rack 10, on which a cradle 12 with an insert 13 is suspended by means of two steel strips 11. The cradle is rigidly connected to the core of an induction sensor 15 by means of a string 14. Unbalanced forces from parts 1 and 2 interact with each other through a hinge sixteen.

The four-support composite rotor with a swivel joint is balanced on four measuring supports at a constant rotational frequency in the resonant mode by successively eliminating the initial imbalance of all the supports, reducing the effect of the compensating mass set in the plane of the first support correction to the second, third and fourth supports, reducing the effect compensating mass installed in the plane of the second support correction on the first, third and fourth support, and so on with obtaining data on which The limit of the installation angle and the magnitude of the compensating masses are established in each of the four correction planes.

An electrical device is used to perform these operations.

The effectiveness of the method is, thanks to the balancing of multi-support (Composite rotors with a swivel joint, it is possible to significantly reduce the vibroactivity of the unit®.

Claims (2)

1. Kolesnik N.V. Static and Dynamic Balancing, M., Mashgiz 1954 p. 138-146. 2. USSR author's certificate No. 156729, cl. GOI Ml / 16, 1962 (prototype). 15 1 pi Yu L