1. Field of the Invention
The present invention generally relates to golf clubs. In particular, the present invention relates to a fixture for manipulating the loft and lie angles of a golf club.
2. Description of the Related Art
Technological innovations and a greater understanding of golf swing dynamics have allowed golf club manufacturers to provide a significant level of customization to match golf clubs to a particular golfer according to, for example, the golfer's unique swing. Various golf club design parameters may be customized, such as an adjustment of the angular relationship of the golf club head with respect to the shaft and the ground. Such customization is useful, for example, because when two golfers with dissimilar heights address a golf ball using the same club, the angle formed by the shaft of the club with respect to the ground will invariably be different for each golfer. Similarly, depending on the golfer's stance and playing characteristics, the angle formed by the club face will also vary among golfers. Thus, to improve a golfer's performance with a particular club, these are two parameters regarding the relative position of the golf club head to the shaft that are often customized to fit the golfer.
The loft angle is the angle between the face F and the vertical plane. The greater the loft angle, the greater the loft of the ball after being struck by the golf club. Proper loft angle is important to ensure the desired distance is achieved. For example, if the loft angle is too great, the ball flight will most likely be too high. As a result, energy will be wasted traveling upward instead of down the fairway. Conversely, if the loft angle is too small, the ball will impact the ground too early, resulting in decreased distance. The measurements of the loft angle, however, may not be indicative of the performance of the club when used by a particular golfer because the physiological and swing characteristics of the golfer can effect the resultant ball flight. Accordingly, in providing a more customized set of clubs for a particular golfer, the loft angle is often personalized to meet the particular physical traits and abilities of the individual golfer.
Moreover, as golfers rely on a golf club having a particular loft and lie angle to perform in a particular fashion, any variation based on use or manufacturing tolerance may be quite undesirable, especially for golfers playing at the professional level. Thus, minor adjustments to the loft and lie are often made to the golf clubs used by professional golfers. Such adjustments are typically required at tournaments, on tour, or at various locations remote from manufacturers. Accordingly, there is a need for a golf club adjustment device that is compact and transportable, while being easy to use.
In addition, due to the mass production of golf clubs, fine tuning of each golf club by adjusting the loft and/or lie of the club is often desirable before the clubs are ready for shipment. Thus, manufacturers often make final adjusts to the loft and lie angles after assembly of the club. Such an operation is highly labor intensive and there is a need for a device that permits adjustments to be made quickly and simply.
A club fixture device for facilitating customization of a golf club head is disclosed. The device includes a housing, an insert, and a locking mechanism. The insert and the locking mechanism are coupled to the housing. The insert contains a cavity configured to at least partially contact the golf club head therein. Preferably, the cavity is at least partially contoured to the golf club head, and more preferably the cavity substantially envelopes the golf club head. The insert is preferably formed at least in part of resin. Resin inserts can safely grip and retain a golf club head without scratching or otherwise damaging the club.
The housing preferably includes a lower housing part and an upper housing part hingedly coupled to the lower housing part. The insert preferably includes a lower insert part coupled to the lower housing part and an upper insert part coupled to the upper housing part. The insert parts are preferably removably coupled to the respective housing parts, facilitating insert replacement and interchangeability. Each of the insert parts preferably contains a cavity part, the cavity parts being configured to matingly form the cavity. At least one of the lower insert part and the upper insert part defines a hole configured to allow a shaft coupled to the golf club head to pass therethrough.
The locking mechanism preferably includes a cross bar, a locking bar, and a stator bar. The locking bar is selectively engageable with the cross bar to retain the golf club head within the housing. The stator bar is coupled to the housing at one end and hingedly coupled to the cross bar at an opposite end. The locking bar is hingedly coupled to the housing, either directly or through the stator bar. The cross bar is moveable between an open position, in which the housing parts are relatively moveable, and a closed position, in which the housing parts are relatively fixed. In a preferred embodiment, the cross bar includes a notch and the locking bar is configured to fit, at least in part, within the notch. The locking bar includes a lock, and the lock is selectively engageable to retain the cross bar in the closed position or to release the cross bar. In a preferred embodiment, the lock is threadably engageable.
The club fixture device is portable, and may thus be used in a variety of locations. The device may further include a base member for securing the housing member as desired, such as to a work station or vise. The base member may be an integral part of the housing.
Multiple distinct inserts may be interchanged and used with the club fixture device. Each insert may be tailored to a specific golf club. Thus, the club fixture device may be used with each of a group of distinct golf clubs and easily achieve a tight grip on each of the distinct clubs.
The present invention is described with reference to the accompanying drawings, in which like reference characters reference like elements, and wherein:
Insert 20 is removably coupled to housing 10. Insert 20 contains a cavity 26 configured to at least partially contact the golf club head therein. More preferably, cavity 26 is at least partially contoured to the golf club head. Still more preferably, cavity 26 substantially envelopes the golf club head.
As shown most clearly in
Insert 20 is preferably formed at least in part of a resin. Resin is relatively light, reducing the weight of device 1. This is desirable, especially when device 1 is portable. Synthetic resins, which have a polymeric structure, are preferred. Preferred synthetic resins include thermoplastic and thermosetting resins. Gel time is preferably one hour or less, and the cured resin preferably has a specific gravity of approximately 1.7 to approximately 1.8 and Shore D hardness of approximately 80 to approximately 90. The resin also preferably has an ultimate compressive strength, which is a measure of the resin's ability to withstand inward directed forces without failure, greater than 8,000 psi and from approximately 8,000 psi to approximately 15,000 psi. The ultimate flexural strength, which is a measure of the resin's ability to withstand bending forces without failure, preferably is greater than 5,000 psi and from approximately 5,000 psi to approximately 11,000 psi. The coefficient of thermal expansion, which is a measure of the resin's change in length per unit length for a one degree Fahrenheit change in temperature, preferably is within the range of approximately 1.5·10−5 in./in/° F. to approximately 4.0·10−5 in./in/° F. The post-cure specifications are measured at room temperature in customary fashion.
RP 132 resin is one preferred resin for inserts 20. RP 132 is a tough, fast-curing polyurethane that offers accurate reproduction of detail. It is an isocyanate, and has a cure time of approximately 5–7 minutes. Once cured, RP 132 has a specific gravity of 1.71 and a Shore D hardness of 84. It has an ultimate compressive strength of 8,200 psi, an ultimate flexural strength of 6,700 psi, and a coefficient of thermal expansion of 1.94·10−5 in./in/° F.
Other preferred resins for inserts 20 include RP 3262 resin and RP 3269 resin, which are both epoxies. RP 3262 is an easy-to-mix system that provides excellent reproduction of detail. RP 3262 has a cure time of approximately 45 minutes. Once cured, RP 3262 has a specific gravity of 1.70 and a Shore D hardness of 86. It has an ultimate compressive strength of 14,400 psi, an ultimate flexural strength of 10,300 psi, and a coefficient of thermal expansion of 2.70·10−5 in./in/° F.
RP 3269 is a low-shrinkage system with high strength and good machinability. RP 3269 has a cure time of approximately one hour. Once cured, RP 3269 has a specific gravity of 1.78 and a Shore D hardness of 87. It has an ultimate compressive strength of 14,400 psi, an ultimate flexural strength of 13,000 psi, and a coefficient of thermal expansion of 3.76·10−5 in./in/° F.
Use of resin for inserts 20 is also desirable since it is relatively easy to work with. For example, inserts 20 may be formed by injection molding resin around a golf club head within a mold of the same dimension as the interior of housing 10. As is customary in the art, additives typically will be used with the resin during molding. After the resin has set, insert 20 may be cut and removed from the golf club, resulting in mating insert parts 22, 24 to be used with device 1. Casting is another preferred manufacturing technique to form inserts 20. Furthermore, use of resin allows for safely gripping the golf club to be customized without scratching or otherwise damaging the golf club.
Locking mechanism 30 is coupled to housing 10. Locking mechanism 30 preferably contains a cross bar 32, a locking bar 34, and, optionally, a stator bar 33. Stator bar is coupled to housing 10 at one end, and is hingedly coupled to cross bar 32 at an opposite end. Locking bar 34 preferably is hingedly coupled to housing 20, directly or through stator bar 33, and is selectively engageable with cross bar 32 to retain the golf club head within housing 20. Cross bar 32 is moveable between an open position, as shown in
Locking mechanism 30 further includes a lock 35. Lock 35 is selectively engageable to retain cross bar 32 in the closed position. In a preferred embodiment, cross bar 32 includes a notch 36, and locking bar 34 is configured to fit, at least in part, within notch 36. In the illustrated embodiment, locking bar 34 includes a portion having a reduced diameter that fits within notch 36. While locking bar 34 is within notch 36, lock 35 may be engaged to secure locking mechanism 30 in the closed position. Preferably, lock 35 is threadably engageable.
Device 1 may also contain a base member 40, which allows device 1 to be coupled to another object. As seen in
In use, device 1 is initially positioned as shown in
Next, an insert 20 is chosen based upon the club to be manipulated. Insert parts 22, 24 are coupled to the respective housing parts 12, 14, as shown in
While device 1 is in the position illustrated in
As shown in
While the preferred embodiments of the present invention have been described above, it should be understood that they have been presented by way of example only, and not of limitation. It will be apparent to persons skilled in the relevant art that various changes in form and detail can be made therein without departing from the spirit and scope of the invention. Thus the present invention should not be limited by the above-described exemplary embodiments, but should be defined only in accordance with the following claims and their equivalents.
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Number | Date | Country | |
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20050093218 A1 | May 2005 | US |