This invention relates generally to improvements to golf clubs. More particularly this invention relates to improvements in adjustability of club head orientation to shaft axis position and the resulting ability to customize certain golf club playing characteristics to the individual player. In addition to head to shaft orientation adjustments, this invention also provides a means of easily and quickly interchanging entire shaft and grip assemblies to further customize the golf club to the individual.
It is well known in the art, that changing the angularity of the shaft axis in relation to the golf club head changes important playing characteristics such as the loft angle of the face and lie angle. Face loft angle is generally considered to be the angle between the plane of the face, or tangent plane to the center of the face if the face is not flat, and the shaft axis. The lie angle is generally considered to be the angle between a plane parallel to the ground, and tangent to the sole center, and the shaft axis. In addition, more particularly in wood type clubs, the shaft axis angularity also changes the face angle at address, the face angle considered to be the angle between a vertical plane passing through a line normal to the face surface center and perpendicular to the ground plane and a plane perpendicular to a vertical plane passing through the shaft axis and perpendicular to the ground plane. Altering these angles changes the way a club head reacts with a golf ball at impact making ball flight higher or lower, or more apt to fly to the right or left depending on the direction and magnitude of the angle variations. Since individuals swing golf clubs differently, and present the club head to the ball in varying attitudes and directions, setting the position of the golf club head in relation to the shaft axis in a more optimum orientation can facilitate dramatic improvements in ball flight for a given individual.
Golf clubs have been typically manufactured with separate club heads, shafts and grips. These three main components are generally fixed together before sale, the grip attached to the shaft by means of sliding over a layer of double face tape wetted with a solvent, and the head to the shaft by means of shaft insertion into a hole in the head and an epoxy bond. Using these conventional methods the angularity of the head and shaft are permanently fixed and cannot be easily altered.
In wood type clubs where tube like extensions to the heads called hosels contain part or all of the shaft bore holes, these hosels can be bent to alter the shaft axis angle to the head. However, this requires special tools and elaborate fixtures to hold the head while bending the hosel and can easily damage or break the head. In this conventional assembly arrangement, changing the shaft requires the epoxy bond to be broken with the application of heat. Since many of today's driver and wood shafts are of graphite composite construction, the epoxy bond must be carefully heated and the shaft pulled by a special apparatus designed not to twist the shaft while extracting.
Because of the great difficulty in altering the shaft orientation to the club head, as well as interchanging the shafts themselves, manufacturers and been forced to produce a wide range of individual clubs exhibiting different face angles and loft angles along with different shaft types to better accommodate the preference and skill level of the individual golfer. The result being increased manufacturing cost due to multiple tooling as well as increased inventory and stock keeping units (SKUs) for both manufacturer and retailer.
Most prior art has resorted to a means of off angle shaft bore rotation to change the orientation of the shaft axis to the golf club head. These designs rely on a spline or other method of rotation fixation along with a fastener such as a hold down bolt or compression clamping nut to lock the assembly in place. These methods have several short comings which the present invention overcomes. The prior art methods of off angle bore rotation require the face angle and lie angle to be simultaneously changed during rotation. To close the face angle from a neutral position, the lie angle must become either flatter or more upright. Likewise, to open the face angle, the lie angle must again become either flatter or more upright. This is the result of the off angle bore axis sweeping through a conical shape surface as it rotates. Another shortcoming of the off angle bore rotation method is that the shaft and grip together must rotate into a new clock position. This introduces certain inconsistencies caused by shaft straightness and shaft bending differences based on clock position sometimes referred to as a shaft spine. This method must use a round grip and prevents the use of a reminder grip design as well as traditional grip graphics that aid the golfer in repeating grip location. Still another short coming of the prior art designs is a finite number of adjustments within the adjustment range. Using a spline or other rotation limiting methods, the adjustments are limited to the number of teeth or other such segments on the clocking mechanism.
The present invention seeks to solve the above short comings of the prior art by allowing the face angle of a wood type club to be changed independently of lie angle and without the shaft and grip assembly rotating to a different clock position. The invention also allows an infinite number of positions to be attained within its range of motion of adjustment. The present invention also allows fast and easy shaft/grip assembly interchangeability to customize shaft type for an individual.
One example of the prior art is U.S. Pat. No. 7,083,529 B2 to Cackett et al. for a Golf Club with Interchangeable Head-Shaft Connections. The Cackett patent discloses two interconnected tubes, the bottom tube is secured in the club head by suitable means, the upper tube fits inside of the bottom tube and interconnects by means of complimentary interacting surfaces on the bottom tip such as a spline along with a matching tapered section above the spline to provide a tight rattle free fit. The upper tube is bored from the top for insertion and bonding of a golf shaft and is held in place by a mechanical fastener such as a screw entering from the bottom sole and threaded into the bottom section containing the spline. The arrangement is an effort to reduce material weight and provide a means of quick shaft interchangeability.
Another example of the prior art, U.S. Publ. Pat. App. No. US 2006/0287125 A1, discloses a similar arrangement to U.S. Pat. No. 7,083,525 to Cackett but adds a shaft axis bore in the upper tube that is off angle to the axis of the bottom tube. This off angle embodiment allows for the rotation and fixation of the shaft carrying upper tube and thus alterations in the loft, face angle, and lie of the club head. However, this arrangement leaves the angular alterations of the head and shaft axis interconnected and dependent upon one another, not allowing independent change of any of these angles.
Still another example of the prior art, U.S. Pat. No. 5,390,920 to Nickum, depicts and adjustable head with the lower most end of the shaft terminating in a sphere or pivot ball. The sphere is enclosed in an internal bore and engaged from the bottom side by a clamping screw that compresses and locks the sphere in place when tightened. The shaft and sphere can freely rotate when the clamping screw is loosened. This example provides no positive indexing method for shaft angle location and relies solely on the friction between the sphere and clamping surfaces to hold position during impact, something not realistic for anything other than a putter type club.
Yet another example of the prior art, U.S. Pat. No. 6,368,230 to Helmstetter, shows an off angle rotating sleeve inserted into a wood type golf head with indexing detents to locate the clock position of the sleeve and thus the shaft axis position. Again as with all rotating off angle systems, the lie and face angles are interdependent upon each other, and also requires the shaft to clock as the off angle bore rotates.
In accordance with the present invention, an adjustable connection mechanism is provided between the golf club head and the shaft/grip assembly that allows face angle alteration independent of lie angle without requiring the rotation of the shaft/grip assembly. The invention also allows fast and easy shaft/grip assembly interchangeability.
In general, a hosel is provided with an top cylindrical section containing a portion of the cylindrical shaft bore hole for the insertion and bonding of a golf shaft end. The hosel has an upper spherical section that is spherically shaped and contains the lower portion of the shaft bore. The upper spherical section is truncated at the bottom by an intermediate rotation prevention section with two opposing external flat sides and a bottom connector section with a threaded hole perpendicular to the shaft bore hole.
The hosel is received into a cup piece within the head having a top threaded section, a central spherical section with mating spherical surface to the hosel's upper spherical section, and a bottom rotation prevention section with interior flat sides for mating with the exterior flat sides of the intermediate rotation prevention section of the hosel.
A compression or clamping nut is provided that fits over the top cylindrical section of the hosel and clamps the central spherical section of the cup piece to the spherical surface of the upper spherical section of the hosel. The interior bore diameter of the compression nut is large enough to allow the top cylindrical section of the hosel to tilt several degrees about the sphere's center. An o-ring is positioned between the clamping nut and top cylindrical section of the hosel to seal the joint surfaces from contaminants.
The horizontally threaded hole of the hosel piece is engaged by the right hand threaded end of a screw with left hand threads on the opposite end. This right hand/left hand screw is engaged on the opposite end by an adjustment nut which has internal left hand threads matching the screw and external right hand threads that match the pitch of the opposite right hand threaded end of the screw. The adjustment nut is threaded into an internal skirt tube in the body of the club head. The threads in the threaded hole of the hosel are loose enough to allow the left hand/right hand screw to push and pull the bottom connector section of the hosel and rotate the hosel about the spherical center of the ball joint when the clamping nut is loosened. The exterior flat sides of the intermediate rotation prevention section of the hosel engage the interior flat sides of the slotted hole in the cup piece in a slip fit to prevent rotation of the hosel but still allow the angular rotation of the ball joint. Once the desired position of the hosel is reached, the clamping nut is tightened and the whole assembly is locked in place for play.
A special tool is required for assembly of the adjustment nut and left hand/right hand screw that turns both the nut and screw until they are engaged with the hosel piece and skirt tube respectively, after which the screw is turned independently to position the hosel piece.
Further objects, features and advantages will become apparent upon consideration of the following detailed description of the invention when taken in conjunction with the drawings and the appended claims.
As shown in
The head 29 is preferably made of a metallic material such as titanium or stainless steel or similar materials. In the preferred embodiment (
The connection arrangement between the hosel 40 and the head 29 provides for easy assembly and disassembly of the shaft 30 to the head 29 as well as easy alteration of the angle between the shaft 30 and the head 29, without completely disassembling the hosel 40 and head 29, thereby allowing a multitude of customizations to be made.
The hosel 40 is preferably constructed from a metallic material such as aluminum or titanium, but also may be made from other suitable non metallic materials such as plastic. In one embodiment of the invention shown in
The hosel 40 fits into the cup piece 50 (
The hosel 40 is locked to the cup piece 50 by a mechanical fastener. Particularly, the mechanical fastener is the clamping nut 60 (
The angularity of the hosel 40 with respect to the head 29 is controlled by a hosel positioning mechanism as seen in
The adjustment nut 70 is threaded into the base of the tube 27 located in the heel side of the skirt 24 of the head 29. The tube 27 has a right hand threaded section 77 to engage the right hand threads of the exterior threads 71 of the adjustment nut 70. The tube 27 is located such that its axis is in line with the axis of threaded hole 46 when the central spherical surface 42 of hosel 40 is seated against central spherical surface 52 of the cup piece 50. An adhesive is applied between the exterior threads 71 of the adjustment nut 70 and internal threads 77 of the tube 27 to prevent rotation of the adjustment nut 70 when the screw 75 is turned to reposition the hosel 40.
The screw 75 and bottom connector section 45 of the hosel 40 are assembled by first partially threading the adjustment nut 70 onto the left hand threads of the end 74 of screw 75. The adjustment nut 70 and the screw 75 are then placed into the tube 27 and turned and advanced together along the internal threaded section 77 as one unit by a special driver tool 90 (
From the foregoing description it is believed that those skilled in the art will recognize and appreciate the advancement of the art in this invention and will readily understand that while the present invention has been described in association with a preferred embodiment thereof, and other embodiments illustrated in the accompanying drawings, many changes additions and substitutions of equivalents may be made without departing from the sprit and scope of this invention which is intended to be unlimited by the foregoing except as may appear in the following appended claims:
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