CS258392B1 - Flywheel Adjustment Mechanism - Google Patents

Abstract

The possibility of smoothly and with great accuracy achieving different values of the moment of inertia of rotating systems based on the principle of a centrifugal sleeve expander is enabled by an adjusting mechanism where the adjusting screw directly controls the flywheel sleeve, passing through a fixed nut where it is fixed by a lock nut.

Description

The present invention relates to a flywheel adjusting mechanism which addresses the requirement of changing the moment of inertia of rotating systems.

When designing and implementing test equipment, especially for the study of torsional oscillations of rotating systems, the results are substantially influenced by the values of moments of inertia. It is also necessary to verify the influence of the moment of inertia on the frequencies and amplitudes of the torsional oscillations of the system.

It is known that the rotating assembly is supplemented by a flywheel based on the principle of a centrifugal sleeve, in which the desired position of its lever and weight is provided by an adjusting mechanism consisting of a forked lever connected to the ring cones so that the ring runs in the groove. clamps with necessary clearance and axial - monitors the movement of the clamp and the forked lever is controlled by an adjusting screw. Such an arrangement of the adjusting mechanisms is characterized in that the exact position of the flywheel sleeve and hence the value of the moment of inertia is influenced by the play in the pins of the lever and the stiffness of the lever adjusting mechanism, which is disadvantageous.

The purpose of the invention is to be able to achieve continuously and with great accuracy different values of the moment of inertia of rotating systems, independent of their speed and without rebuilding the test device. This is achieved by using a centrifugal sleeve flywheel with an adjusting mechanism according to the invention, which is characterized in that the bushing sleeve is provided with a bearing coaxial between the cover and the bearing housing, the elongated portion of which is rigidly connected to the adjusting screw passing through the stationary nut and provided lock nut. The construction of the adjusting mechanism according to the invention minimizes the influence of play, wear and deformation of the individual parts of the adjusting mechanism.

In the drawing, an example of an embodiment of the flywheel adjusting mechanism according to the invention is shown schematically in a front view.

The shaft 2 rotating system ³ and the flywheel with the shaft 2 by means of the connecting part 2 · sleeve 4 passes through the second sleeve shaft of the flywheel is provided with a bearing £ 2 · Bearing 2 is mounted in non-rotating housing 8 closed with a lid Ί. · The extension portion 8 of the bearing housing 6 is firmly connected to the set screw 10, which moves in the stationary nut 2 ·

The desired moment of inertia of the flywheel can be achieved by the corresponding position of the set screw 10. The lock nut 11 secures the set position of the set screw 10 and further prevents rotation of the housing 2.

The design of the flywheel of the test equipment with the adjusting mechanism of the present invention allows to maintain its optimum measurement properties without remodeling the test equipment while substantially reducing production costs.

Claims (1)

SUBJECT OF THE INVENTION Flywheel adjusting mechanism of continuously variable value inertia test centrifugal bushing, characterized in that the bushing sleeve (4) is provided with a bearing (5) coaxially mounted between the cover (7) and the bearing housing (6), the elongated portion ( 8) is firmly connected to the set screw (10) passing through the stationary nut (9) and provided with a lock nut (11).