Golf shaft vibration damper
First Claim
1. A vibration damping insert configured to be disposed within a tubular shaft comprising:
- a central rod member; and
a plurality of circumferentially spaced fins extending radially outwardly from and substantially coextensive with said rod member;
the central rod member being formed as a separate member from the fins and being formed of a first material having a relatively high durometer hardness; and
the fins being formed of a second material having a relatively low durometer hardness.
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Abstract
A vibration damping insert adapted to be positioned within the hollow tubular shaft of a golf club. The insert includes a central rod member sized to fit within the hollow shaft of the club and a plurality of circumferentially spaced fins extending radially outwardly from and substantially coextensive with the rod member, with the fins sized and configured to engage the inner tubular surface of the shaft. The fins form a part of an annular outer body separate from the central rod member and formed of a material having a durometer hardness less than the durometer hardness of the central rod member. The central rod member and annular outer body are preferably formed in a coextrusion process.
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Citations
20 Claims
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1. A vibration damping insert configured to be disposed within a tubular shaft comprising:
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a central rod member; and
a plurality of circumferentially spaced fins extending radially outwardly from and substantially coextensive with said rod member;
the central rod member being formed as a separate member from the fins and being formed of a first material having a relatively high durometer hardness; and
the fins being formed of a second material having a relatively low durometer hardness. - View Dependent Claims (2, 3, 4, 5)
the core rod member includes a tubular main body portion and a plurality of circumferentially spaced lobes extending radially outwardly from the main body portion;
the fins form a part of an annular outer body including a tubular main body portion positioned in surrounding relation to the tubular main body portion of the core rod;
the fins extend radially outwardly from the outer body main body portion; and
each fin extends along and encapsulates a respective lobe and extends radially outwardly beyond the respective lobe.
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5. A vibration damping insert according to claim 4 wherein the central rod member has a durometer hardness in the range of 95-100 and the outer body has a durometer hardness in the range of 80-85.
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6. A vibration damping insert configured to be disposed within a tubular shaft comprising:
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a central rod member; and
a plurality of circumferentially spaced fins extending radially outwardly from and substantially coextensive with said rod member;
each fin including a relatively stiff portion proximate the central rod and a relatively flexible portion proximate the radially outer end of the fin. - View Dependent Claims (7)
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8. A vibration damping insert configured to be disposed within a tubular shaft comprising:
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a central tubular rod member including a tubular main body portion and a plurality of circumferentially spaced lobes extending radially outwardly from the main body portion; and
an outer body including a tubular main body portion positioned in surrounding relation to the tubular main body portion of the central rod and a plurality of circumferentially spaced fins extending radially outwardly from the outer body main portion with each fin extending along and encapsulating a respective lobe and extending radially outwardly beyond the respective lobe. - View Dependent Claims (9, 10, 11, 12, 13)
the central rod member is formed as a separate member from the outer body; and
the outer body is formed of a material having a hardness less than the hardness of the material forming the central rod member.
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10. A vibration damping insert according to claim 9 wherein the insert is formed in an extrusion process in which the material of the outer body is extruded over the material of the central rod member.
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11. A vibration damping insert according to claim 10 wherein the insert is formed in a coextrusion process in which the outer body is extrudingly formed simultaneously with the extruding formation of the central rod member.
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12. A vibration damping insert according to claim 8 wherein each fin includes a hinge line radially outwardly of the respective lobe defining a fold line for the portion of the fin radially outwardly of the hinge line.
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13. A vibration damping insert according to claim 12 wherein the central member has a durometer hardness in the range of 95-100 and the outer body has a durometer hardness in the range of 80-85.
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14. A golf club comprising a hollow handle shaft, a head secured to the lower end of the shaft, and a vibration damping insert positioned within the hollow shaft, characterized in that the insert includes:
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a central rod member sized to fit within the shaft of the club; and
a plurality of circumferentially spaced fins extending radially outwardly from and substantially coextensive with said rod member, the fins being sized and configured to engage an inner surface of the shaft;
the central rod member including a tubular main body portion and a plurality of circumferentially spaced lobes extending radially outwardly from the main body portion;
the fins forming a part of an annular outer body including a tubular main body portion positioned in surrounding relation to the tubular main body portion of the core rod;
the fins extending radially outwardly from the outer body main body portion; and
each fin extending along and encapsulating a respective lobe and extending radially outwardly beyond the respective lobe for engagement with the inner surface of the shaft. - View Dependent Claims (15, 16, 17, 18)
each fin includes a hinge line radially outwardly of the respective lobe defining a fold line for the portion of fin extending radially outwardly of the hinge line.
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16. A golf club according to claim 15 wherein the insert is formed in a extrusion process in which the second material forming the fins is extruded over the first material forming the central rod.
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17. A golf club according to claim 16 wherein the insert is formed in a coextrusion process in which the outer body is extrudingly formed simultaneously with the extruding formation of the central rod member.
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18. A golf club according to claim 17 wherein the central rod member has a durometer hardness in the range of 95-100 and the outer body has a durometer hardness in the range of 80-85.
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19. A vibration damping insert configured to be disposed within a hollow shaft of a golf club and including a central rod member and an annular outer body positioned in surrounding relation to the rod member, characterized in that:
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the central rod member is formed as a separate member from the annular outer body and is formed of a first material having a relatively high durometer hardness;
the annular outer body is formed of a second material having a relatively low durometer hardness; and
the insert is formed in an extrusion process in which the second material forming the annular outer body is extruded over the first material forming the central rod. - View Dependent Claims (20)
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Specification