Vibration damper
First Claim
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1. A vibration damper which comprises:
- a hub adapted to be coupled to a rotating shaft subject to torsional vibrations, said hub including a first, radially-inner sidewall, a second, radially-outer sidewall, and an annular, bottom wall connecting between the first and second sidewalls, the first and second sidewalls and the bottom wall together defining an annular cavity;
an annular inertia ring received within the cavity of said hub;
a first, inner elastomeric component located between and secured to each of the radially-inner sidewall and said inertia ring;
a second, outer elastomeric component located between and secured to each of the radially-outer sidewall and said inertia ring; and
a viscous damping fluid between the bottom wall and said inertia ring,said radially-outer wall being angled axially-inward in the direction away from the bottom wall to inhibit movement of viscous damping fluid away from the bottom wall during rotation of the damper.
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Abstract
A vibration damper having a hub including inner and outer sidewalls and a bottom wall defining an annular cavity, an inertia ring received within the annular cavity, first and second elastomeric components received between and secured to the inertia ring and the inner and outer sidewalls, respectively, of the hub, a fluid seal received between the inertia ring and the outer sidewall, and viscous damping fluid received between the inertia ring and the bottom wall, the outer sidewall being angled axially-inward in the direction away from the bottom wall. A method for production of a vibration damper is also disclosed.
20 Citations
6 Claims
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1. A vibration damper which comprises:
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a hub adapted to be coupled to a rotating shaft subject to torsional vibrations, said hub including a first, radially-inner sidewall, a second, radially-outer sidewall, and an annular, bottom wall connecting between the first and second sidewalls, the first and second sidewalls and the bottom wall together defining an annular cavity; an annular inertia ring received within the cavity of said hub; a first, inner elastomeric component located between and secured to each of the radially-inner sidewall and said inertia ring; a second, outer elastomeric component located between and secured to each of the radially-outer sidewall and said inertia ring; and a viscous damping fluid between the bottom wall and said inertia ring, said radially-outer wall being angled axially-inward in the direction away from the bottom wall to inhibit movement of viscous damping fluid away from the bottom wall during rotation of the damper. - View Dependent Claims (2, 3, 4, 5, 6)
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Specification