Anisotropic support damper for gas turbine bearing

Bearings – Rotary bearing – Hydraulic or pneumatic bearing support

Reexamination Certificate

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Details

C384S581000

Reexamination Certificate

active

06682219

ABSTRACT:

BACKGROUND OF THE INVENTION
The present invention generally relates to a turbo machinery and, more specifically, to a system and apparatus that interfaces between bearing elements and the static support structure for turbo machinery.
Synchronous vibration caused by mass imbalance is common in rotating machinery and is usually caused by a rotating mass inbalance. Imbalance frequently occurs when the mass center of the rotor is not coincident with its geometric center. Another form of vibration is non-synchronous rotor whirl, which occurs when a radial deflection of the rotor results in tangential force normal to the deflection. The magnitude of the tangential force increases with the deflection. The system will become unstable if there is insufficient damping. Damping the vibration in a turbomachine provides quiet and comfortable efficient operation of the machine, reduced fatigue stress on the machine and its supports, and a safeguard to the damage that can be caused by unstable vibration.
Generally, within rotating machinery, at least two bearings are required to support the rotating shaft, and these bearings must accommodate misalignments between the bearing and the rotor. Misalignments can cause some bearings to bear an excessive load, while other bearing are carrying very little load. Various solutions have been attempted to reduce misalignment, limit maneuver deflection and reduce vibration.
U.S. Pat. No. 4,872,767 discloses a bearing support for a gas turbine engine. The bearing support has one or more circumferential leaf spring elements which provide radially resilient support for the shaft while being axially stiff to reduce axial thrust movement of the shaft. The spring rate of the support is designed to shift engine vibratory resonances so that they occur outside the normal speed range of the engine and the support may include internal damping to minimize resonant vibratory peaks. Various bearing support embodiments are also disclosed. While the '767 patent represents a significant advancement in the art, it is lacking an off-set feature that centers the bearing in the hydraulic mount cavity against the static deflection due to the weight of the rotor or a maneuver and blade loss response limiting feature. It also lacks anisotropic stiffness distribution of the support.
It is also known within the art to include damping in the spring mounting, typically this is accomplished by supplying fluid (usually oil) into a cavity between the bearing support and engine frame. Much of the prior art has been devoted to such damping methods. U.S. Pat. No. 5,201,585, for example, discloses the use of an improved fluid film having a squeeze film damper tailored to the dynamic vibration characteristics. Compact cantilevered spring bars support the squeeze film damper and thin fluid film bearing surface against the rotor shaft. The spring bars fit compactly within the bearing. The squeeze film damper includes oil plenums that provide a reservoir of fluid and prevent air from entering the damper and thin film fluid. Such a system does not accommodate a rolling element bearing, the four-interlocking sections, assembled in two halves, is a complicated design. Precise dimensional control, required by the squeeze film, is very difficult to achieve, and the use of squeeze film between two members of the same cantilever type support structure does not produce effective damping.
U.S. Pat. No. 4,668,108 discloses an anisotropic bearing support for a high-speed rotor, which includes at least two support devices having different values of stiffness. The two support devices act at substantially the same point on the perimeter of the rotor along radial directions, which are angularly spaced apart from each other. The resulting anisotropic bearing support reduces the incidence and severity of rotor vibration and improves rotor stability. The '108 patent achieves anisotropy by pivot supports and blocks. As such, such a system can only accommodate a journal bearing. Further, the '108 patent lacks a support off-set feature to center against static deflection due to the weight of the rotor and a maneuver and blade loss response limiting feature.
As can be seen, there is a need for a flexible anisotropic support, which may accommodate open, closed, or re-circulating squeeze film damper in parallel, has improved internal rolling element clearance, limits maneuver and blade loss by limiting rotor excursion, and has an off-set feature that centers rotor against static deflection due to the weight of the rotor and simple enough to control precise dimension required for the optimum performance of the squeeze film.
SUMMARY OF THE INVENTION
In one aspect of the present invention, an apparatus and method for centering the bearing of turbo machinery, eliminating unstable vibrations and improving synchronous vibrations is disclosed. It is unlike the prior art in that asymmetrically arranged beams achieve flexibility and bearing support anisotropy, the bearing support accommodates open, closed or re-circulating squeeze film damper in parallel. The bearing support may also be the bearing outer race, resulting in improved internal rolling element clearances for better dynamic behavior. The bearing support protects rotor from high maneuver and blade loss response by limiting rotor excursion.
In another aspect of the present invention is an apparatus for supporting and stabilizing a rotating shaft in a machine comprising a rotor group supported by at least two bearing assemblies, a support housing surrounding said bearing assemblies and connected to an engine case, wherein said support housing has a non-concentric ring, which centers the rotor. The support housing accommodates at least one anisotropic support damper comprised of at least two rings connected by asymmetrically arranged beams, wherein the anisotropic damper may be removably attached to said support housing and interface the bearing assemblies and support housing.
Another aspect of the present invention is an apparatus for supporting and stabilizing a rotating shaft in a machine comprising a rotor group supported by at least two bearing assemblies, at least one anisotropic support damper, an engine case, at least two nuts and at least two studs for attaching said anisotropic support damper to said support housing, and support housing surrounding the bearing assemblies and connected to the engine case. The support housing has an inner and outer diameter. The anisotropic support damper may be comprised of an aft ring and variable diameter forward ring, wherein the aft ring and variable diameter forward ring are connected by at least two asymmetrically arranged beams and the variable diameter forward ring forms the outer race for the bearing assembly. There may also be an inner race for the bearing assembly. There may be also a hydraulic mount formed by the gap between the support housing's inner diameter and the anisotropic support damper.
According to another aspect of the present invention, an apparatus for supporting and stabilizing a rotating shaft in a machine is disclosed comprising a rotor group supported by at least two bearing assemblies, wherein the bearing assemblies contain at least one roller bearing with an inner race and an outer race, at least one anisotropic support damper, a support housing, an engine case, a support housing surrounding said bearing assemblies and connected to an engine case, wherein said support housing accommodates squeeze film damper in parallel and has an oil supply line contained therein for the delivery of oil through an annular grove to a hydraulic mount, said hydraulic mount being a closed mount formed by a gap between said support housing's inner diameter and said anisotropic support damper and having piston ring grooves, said anisotropic support damper comprised of an aft ring and variable diameter forward ring, wherein said aft ring and said variable diameter forward ring are connected by at least two asymmetrically arranged beams and said variable diameter forward ring forms the outer

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