Games using tangible projectile – Golf – Ball
Reexamination Certificate
2002-05-20
2003-07-22
Sewell, Paul T. (Department: 3711)
Games using tangible projectile
Golf
Ball
C473S377000, C473S351000
Reexamination Certificate
active
06595872
ABSTRACT:
FEDERAL RESEARCH STATEMENT
[Not Applicable]
BACKGROUND OF INVENTION
1. Field of the Invention
The present invention relates to a golf ball. More specifically, the present invention relates to a solid three-piece golf ball with a relatively thin cover, a high core compression, a high cover hardness and an initial velocity limited to less than 255 feet per second.
2. Description of the Related Art
The Rules of Golf, as set forth by the United States Golf Association (USGA) and the Royal and Ancient Golf Club of Saint Andrews, have placed controls on the construction and performance of golf balls. The golf ball rules require that the golf ball have a diameter no less than 1.68 inches (42.67 mm), a weight no more than 1.620 ounces avoirdupois (45.93 g), spherical symmetry, an overall distance no greater than 296.8 yards (the limit is 280 yards, or 256 m, plus a six percent tolerance for the total distance of 296.8 yards), and an initial velocity no greater than 255.0 feet per second (the limit is 250 feet or 76.2 m, per second with a two percent maximum tolerance that allows for an initial velocity of 255 feet per second) measured on a USGA approved apparatus.
The initial velocity test is comprised of a large 275 pound wheel that rotates around a central axis at a rate of 143.8 feet per second (striker tangential velocity) and strikes a stationary golf ball resting on a tee. The wheel has a flat plate that protrudes during its final revolution prior to impact with the golf ball. The ball's velocity is then measured via light gates as it travels approximately six feet through an enclosed tunnel. Balls are kept in an incubator at a constant temperature of 23 degrees Celsius for at least three hours before they are tested for initial velocity performance. To test for initial velocity, balls are placed on a tee and hit with the metal striker described above. Twenty-four balls of a particular type make up one test. Each ball is hit with the spinning wheel a total of four times. The highest and lowest recorded velocities are eliminated and the remaining two velocities are averaged to determine the ball speed for that specific ball. The individual speeds of the 24 balls in the group are then averaged, and that is considered the mean initial velocity (IV) of the group for the test.
For USGA conformance purposes, a ball with a mean initial velocity of less than 255.0 feet per second is considered conforming to the USGA Rule of Golf and can be played in sanctioned events. For reference to USGA Wheel Test see USGA web-site at www.usga.com, or reference U.S. Pat. No. 5,682,230 for further information.
Generally speaking, the USGA IV test is designed to be a consistent measurement tool capable of regulating the speed (and ultimately distance) of golf balls. It is commonly known in the industry that golf ball manufacturers perform a simpler test on prototype golf balls and then attempt to correlate the results to the USGA Wheel Test. One type of correlation test is the Coefficient of Restitution (COR) test, which consists of firing a golf ball from a cannon into a fixed plate and taking the ratio of outgoing velocity to incoming velocity.
The Coefficient of Restitution is the ratio of the velocity of separation (V
out1
−V
out2
) to the velocity of approach (V
in1
−V
in2
), where COR=(V
out1
−V
our2
)/(V
in1
−V
in2
). The value of COR will depend on the shape and material properties of the colliding bodies. In elastic impact, the COR is unity and there is no energy loss. A COR of zero indicates perfectly inelastic or plastic impact, where there is no separation of the bodies after collision and the energy loss is a maximum. In oblique impact, the COR applies only to those components of velocity along the line of impact or normal to the plane of impact. The coefficient of restitution between two materials can be measured by making one body many times larger than the other so that m
2
(mass of larger body) is infinitely large in comparison to m
1
(mass of the smaller body). The velocity of m
2
is unchanged for all practical purposes during impact and
COR=V
out
/V
in
One particular type of COR test device that is commonly used in the golf ball industry is the ADC COR machine developed by Automated Design Corporation. Based on the definition of COR above, m
2
is a large 400 lb plate fixed vertically that the ball (m
1
) is fired into. The impact of golf ball to large fixed plate is an oblique impact. Software developed by Automated Design Corporation accurately calculates the normal velocities given the dimensions of the machine and outputs a value for Coefficient of Restitution as defined above.
U.S. Pat. No. 5,209,485, filed in 1991, discloses a restricted flight golf ball that has a reduced COR. However, the '485 patent also discloses, for comparison purposes, that the TOP FLITE® XL golf balls, manufactured and sold by Spalding had a COR value of 0.813 when fired at a speed of 125 feet per second. The '485 patent also discloses that the Spalding SUPER RANGE golf ball had a COR value of 0.817 when fired at a speed of 125 feet per second. However, the SUPER RANGE golf ball was a non-conforming golf ball and thus had an IV value greater than 255 feet per second.
U.S. Pat. No. 5,803,831, filed in 1996 discloses in Table 14 a finished solid three-piece golf ball that has a COR of 0.784 at a speed of what is believed to be 125 feet per second.
However, the prior art golf balls fail to provide a golf ball that conforms to the USGA IV limit of 255 feet per second while having a high COR.
SUMMARY OF INVENTION
The present invention provides a solution to the problem of adhering to the USGA initial velocity limit of 255 feet per second for a golf ball while increasing the distance a golf ball travels when struck with a golf club. The solution is a solid three-piece golf ball with a high PGA compression core and a thin cover that adheres to the USGA initial velocity limit.
One aspect of the present invention is a golf ball with a core, an intermediate layer, and a cover having a thickness ranging from 0.015 inch to 0.044 inch, wherein the golf ball has a coefficient of restitution at 143 feet per second greater than 0.8015, and an USGA initial velocity less than 255.0 feet per second.
Another aspect of the invention is a golf ball that includes a core composed of a polybutadiene blend, an intermediate layer disposed about the core, a cover disposed over the intermediate layer, and wherein the golf ball has a coefficient of restitution at 143 feet per second greater than 0.7964, and an USGA initial velocity less than 255.0 feet per second. The intermediate layer is composed of a blend of ionomers, and the cover is composed of a thermosetting polyurethane material. The core has a PGA compression ranging from 75 points to 120 points.
Yet another aspect of the present invention is a golf ball that includes a core, an intermediate layer disposed about the core, and a cover disposed over the intermediate layer. The solid core is composed of a polybutadiene blend, has a PGA compression ranging from 90 points to 100 points, and has a diameter ranging from 1.45 inches to 1.55 inches. The intermediate layer is disposed about the core, is composed of a blend of ionomers, has a Shore D hardness ranging from 55 points to 75 points as measured on the curved surface of the intermediate layer, and has a thickness ranging from 0.040 inch to 0.09 inch. The cover is disposed over the intermediate layer, is composed of a thermosetting polyurethane material, and has a thickness ranging from 0.015 inch to 0.044 inch. The golf ball has a coefficient of restitution at 143 feet per second greater than 0.7964, and an USGA initial velocity less than 255.0 feet per second. The golf ball also has a ball Shore D hardness ranging from 50 points to 75 points as measured on the surface of the golf ball.
Having briefly described the present invention, the above and further objects, features and advantages thereof will be recognized by those skilled in the pertinent art from
Bartels David M.
Dewanjee Pijush K.
Ogg Steven S.
Yagley Michael S.
Callaway Golf Company
Catania Michael A.
Hunter, Jr. Alvin A.
Sewell Paul T.
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