초록 ▼

A self-tuning impact damper is disclosed that absorbs and dissipates vibration energy in the blades of rotors in compressors and/or turbines thereby dramatically extending their service life and operational readiness. The self-tuning impact damper uses the rotor speed to tune the resonant frequency

A self-tuning impact damper is disclosed that absorbs and dissipates vibration energy in the blades of rotors in compressors and/or turbines thereby dramatically extending their service life and operational readiness. The self-tuning impact damper uses the rotor speed to tune the resonant frequency of a rattling mass to an engine order excitation frequency. The rattling mass dissipates energy through collisions between the rattling mass and the walls of a cavity of the self-tuning impact damper, as well as through friction between the rattling mass and the base of the cavity. In one embodiment, the self-tuning impact damper has a ball-in-trough configuration with tire ball serving as the rattling mass.

대표청구항 ▼

1. A method for dynamically absorbing resonant vibration of a rotating component of a turbomachine having an axis of rotation and rotating over a range of turbomachine rotation rates, said method comprising the steps of:a) providing a cavity with walls and having a spherical trough sufficiently shap

1. A method for dynamically absorbing resonant vibration of a rotating component of a turbomachine having an axis of rotation and rotating over a range of turbomachine rotation rates, said method comprising the steps of:a) providing a cavity with walls and having a spherical trough sufficiently shaped to allow radial movement within the rotating component;b) providing a ball in said cavity so that it rests in said spherical trough and the separation between the resting ball and the walls of said cavity establishes a gap therebetween;c) preselecting the radius of the ball, the radius of the spherical trough, and the location of the ball within the cavity relative to the axis of rotation such that the natural frequency of the rolling ball when inside the cavity of the rotating component tracks a preselected speed line of said turbomachine; andd) preselecting the gap within the cavity in which the ball rolls such that the ball impacts the cavity walls during resonance vibration of the rotating component. 2. The device for dynamically absorbing resonant vibration of a rotating component of a turbomachine having an axis of rotation and rotating over a range of turbomachine rotation rates, said device comprising:a) a cavity with walls and having a spherical trough with a predetermined radius wherein said spherical trough is sufficiently shaped to allow radial movement;b) a ball having a predetermined radius and placed within said cavity so that it rests in said spherical trough at a predetermined location within said cavity relative to said axis of rotation and the separation between the resting ball and the walls of said cavity establishes a predetermined gap therebetween;c) wherein said predetermined radii of said ball and said predetermined location of the ball relative to the axis of rotation are selectable such that the natural frequency of the rolling ball, when inside the cavity of the rotating component, tracks a preselected speed line of the turbomachine, andd) wherein said predetermined gap within the cavity in which the bail rolls is selectable such that the ball impacts the cavity walls during resonant vibration of the rotating component.