Brakes – Inertia of damping mass dissipates motion – Resiliently supported damping mass
Reexamination Certificate
2001-10-04
2002-06-04
Schwartz, Christopher P. (Department: 3613)
Brakes
Inertia of damping mass dissipates motion
Resiliently supported damping mass
C074S574300
Reexamination Certificate
active
06397989
ABSTRACT:
FIELD OF THE INVENTION
The present invention pertains generally to reducing harmonics and vibrations of a rotatable base piece during operation of a machine. More particularly, the present invention pertains to an apparatus for reducing harmonics and vibrations of a rotatable rotor removably attached to a rotatable machine member. The present invention is particularly, but not exclusively, useful for reducing harmonics and vibrations of a brake rotor attached to a rotatable machine member during a turning procedure.
BACKGROUND OF THE INVENTION
Gravity, friction, velocity of rotation, and load forces are applied during operation to bearings, drive shafts, driven shafts, turning spindles, rotors, retaining devices, and other components of driving and driven machines (collectively, “machine members”). Circular rotation of shafts mounted in bearings gives rise to centripetal force, a force that is reacted to by centrifugal reaction. Angular velocity and angular acceleration of rotatable base pieces subjected not only to certain velocities, but also to loads or pressure, also may induce gyroscopic effects on rotatable base pieces that are attached to a rotatable machine member turning or rotatable rapidly. Machine members, and base pieces attached to machine members, also may be subjected to significant loads about the geometric and rotational axes of a rotatable base piece. As is commonly known, when two forces act on a shaft, spindle, pin, axle or similar rod or assembly (collectively, “shaft”), a torque may be formed whose vector along an x-axis may produce a rotation about the y-axis known as precession. Such rotation may generate significant angular velocities. These forces, phenomena, torque and related effects may individually and collectively contribute to inducing nonuniform rotation of abase piece that has been attached to a rotatable shaft (collectively, “forces”).
In connection with a rotatable machine member in which angular accelerations and velocities are present, unbalanced forces may lead to high harmonics and vibrations. Further, in some, but not all instances, if the speed of rotation of a shaft is slowly increased from rest, a speed may be achieved at which a deflection increases suddenly, a phenomenon known as “whirling.” A shaft that is balanced will rotate around the center of gravity or axis of rotation of a shaft. If a shaft rotates at an angular velocity, however, the shaft may deflect a distance from the center of gravity or axis of rotation due to centripetal reaction. Rotation also may induce undamped free vibrations. All of these forces and phenomena, and others, may contribute to nonuniform rotation of the shaft, and consequent nonuniform rotation of a base piece attached to a machine member mounted on the shaft. This is particularly, but not exclusively, true in machine members on which brake rotors are mounted for turning purposes, such as refinishing or resurfacing a brake rotor. A machine used to refinish or resurface a brake rotor generally includes a driving motor, a driven or turning shaft, one or more retaining devices attached to the shaft for removably mounting a base piece such as a brake rotor on the one or more retaining devices, and one or more cutting tools that may engage a surface of a brake rotor to be refinished or resurfaced.
During refinishing or resurfacing of a base piece such as a brake rotor, the forces and phenomena described above may cause harmonics and vibrations that are transmitted to the brake rotor during rotation. Any nonuniform rotation of the brake rotor during operation may cause a cutting tool to produce an inferior refinished or resurfaced surface. While numerous apparatus have been suggested to attempt to reduce harmonics and vibrations in a rotatable base piece such as a brake rotor, none has proven entirely successful, and none has proven as useful and inexpensive as the present invention.
The problem to be solved, therefore, is reduction of harmonics and vibrations of a rotatable base piece that is removably attached to a rotatable machine member during operation of a machine. Further, what is needed is an apparatus for reducing harmonics and vibrations of a rotatable brake rotor, whether vented or unvented, that is useful for producing a more precisely turned and resurfaced brake rotor.
One of the advantages of the novel apparatus for reducing harmonics and vibrations of a rotatable base piece, according to the present invention, is that the apparatus for reducing harmonics and vibrations of a rotatable base piece produces a more precisely turned and resurfaced brake rotor. Another advantage of the present invention is an apparatus for reducing harmonics and vibrations of a rotatable base piece that dampens noises and vibrations during operation of the machine on which the rotatable base piece is removably attached. The present invention also has the advantage not only of simplicity, but a simplicity that results in enhanced mechanical advantages over other apparatus suggested for solving the problems. Further, contrary to accepted and conventional wisdom, applicant has established that using solely the structural elements disclosed and claimed in this document results in greater dampening, or greater reduction of harmonics and vibrations, when the present invention is used on a rotatable base piece such as a rotor like a brake rotor.
Thus, the present invention requires fewer components than is required for other apparatus, yet achieves significantly enhanced reduction of noises, vibrations and harmonics during operation. Specifically, the apparatus for reducing harmonics and vibrations of a rotatable base piece such as a brake rotor, according to the present invention, includes a series of chain links formed into a belt assembly. The two ends of the belt assembly are connectable to opposing ends of a connector. The connector includes, but is not limited to, a spring member that includes a trailing link and a following link. In operation, the present invention does not require more components than a belt assembly of chain links and a connector. Further, use of shorter length chain links to assemble the belt assembly of chain links, in combination with the nonidentical length arms extending monolithically from the ends of spring members of the present invention, applicant has established that adding any additional mechanical components to the invention would decrease the mechanical advantages of the present invention. Thus, no additional devices or apparatus need or should be added either to the belt assembly of chain links or to the connector to significantly enhance reduction of noises, vibrations and harmonics during operation. Thus, the present invention results in more efficient reduction of harmonics and vibrations without having to employ or deploy on the apparatus additional blocks, bands, clip members, tubes, disks, dampener blocks, and similar elements, regardless of shape or the material (collectively, “additional elements”). By omitting such additional elements, a user of the present invention is not concerned with whether the apparatus are in an “up” or “down” configuration when installed for use. Rather, any contact facet of the collar of each plate forming the interconnected chain links may be placed in contact with the surface of a rotatable base piece. Elimination of additional elements to the apparatus contributes to achieving significantly more dampening of harmonics and vibrations of a rotatable base piece.
In addition, use of comparatively small plates to make the chain links forming the belt assembly provides more surface contact between the belt assembly and the rotatable base piece, which also contributes to the capability of the present invention to more completely reduce vibrations and harmonics. Each of the plurality of interconnected chain links is sized for maximum contact with the contact surface of the rotatable base piece, thus providing significantly more contact facets that in turn provide significantly more surfaces that rest on the contact surface of the rotatable base pi
Pezzlo Benjamin A
Regan Ray R.
Schwartz Christopher P.
Sun Standard, Inc.
LandOfFree
Apparatus for reducing harmonics and vibrations of a... does not yet have a rating. At this time, there are no reviews or comments for this patent.
If you have personal experience with Apparatus for reducing harmonics and vibrations of a..., we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Apparatus for reducing harmonics and vibrations of a... will most certainly appreciate the feedback.
Profile ID: LFUS-PAI-O-2936073