1. Field of the Invention
The present invention relates to a golf club and, especially, relates to a golf club whose characteristics such as the lie angle, slice angle and face progression can be adjusted easily. Also, the invention relates to a method for adjusting the characteristics of such golf club.
2. Description of the Related Art
A golf club is constituted of a shaft and a head mounted on the leading end portion of the shaft. A grip is mounted on the base end side of the shaft.
In an ordinary conventional golf club head, a hosel hole is formed directly in the head, while a shaft is inserted into the hosel hole and is fixed thereto with an adhesive. Here, as the adhesive, generally, there is used an epoxy system adhesive. To replace the shaft, the hosel portion may be heated to destroy its texture constituted of epoxy resin hardened material, whereby the shaft can be pulled out.
In such ordinary conventional golf club, the shaft replacement takes time and labor. Also, the characteristics of the golf club such as the lie angle, slice angle and face progression cannot be adjusted.
JP-A-2011-4801 discloses a golf club whose shaft can be replaced easily and whose characteristics such as the lie angle, slice angle and face progression can be adjusted, and a method for adjusting such characteristics. The head of the golf club disclosed in JP-A-2011-4801 is a golf club head including a hosel insertion hole for mounting the leading end of the shaft, which includes a female screw formed in the entrance portion inner peripheral surface of the hosel insertion hole, a hosel including a shaft case insertion hole and removably mounted on the deep portion of the hosel insertion hole, a shaft case including a shaft insertion hole and having a leading end side removably mounted into the shaft case insertion hole, a ring holder fitted with the outer surface of the shaft case and immovable in the axial direction, and a screw member fitted with the outer surface of the ring holder rotatably in the peripheral direction and immovable in the axial direction, while a male screw formed on the outer peripheral surface of the screw member is threadedly engaged with the female screw.
In the golf club disclosed in JP-A-2011-4801, by mounting the screw member onto the female screw of the hosel mounting hole or removing the screw member therefrom, the shaft case can be fixed to or pulled out from the hosel mounting hole. Thus, the hosel and ring holder are replaced with other hosel and ring holder different in the lie angle, slice angle or face progression, or the peripheral direction phase of the hosel is changed, and the shaft case with a shaft is mounted again onto the head main body through this hosel.
For example, when the currently used hosel and ring holder are replaced with new hosel and ring holder in which the axis of its shaft extends in a direction oblique to the axis of the hosel insertion hole (for example, in an obliquely crossing direction), the mounting direction of the shaft relative to the head main body is changed to thereby change the lie angle and slice angle.
In a golf club constituted of quite the same shaft and the same head main body, only the lie angle and slice angle can be adjusted.
Also, in the case that the current hosel and ring holder are replaced with new hosel and ring holder in which the axis position of the shaft case insertion hole is translated and shifted from the axis position of the hosel insertion hole, in a golf club constituted of quite the same shaft and the same head main body, the face progression and the distance (gravity distance) from the shaft to the center of gravity can be adjusted.
Further, in JP-A-2011-4801, by replacing the shaft with a shaft case without replacing the hosel and ring holder, the shaft can be replaced. That is, as a shaft case, a shaft case of quite the same type is previously prepared, and a shaft having a different characteristic is fixed to this shaft case to thereby provide a shaft case/shaft connected member; and, this shaft case/shaft connected member is substituted for an old shaft case/shaft connected member and is mounted on the hosel of the relevant head, thereby being able to provide a golf club different only in the shaft.
The golf club disclosed in JP-A-2011-4801 requires the ring holder fitted with the outer surface of the shaft case and the screw member fitted with the outer surface of the ring holder, resulting in the relatively expensive cost of the composing members.
The invention has an object to provide a golf club in which a shaft can be replaced easily, its characteristics such as the lie angle, slide angle and face progression can be adjusted, and also which is lower in the manufacturing cost than the golf club disclosed in JP-A-2011-4801, and a method for adjusting the characteristics of this golf club.
According to a first aspect of the invention, there is provided a golf club including: a shaft; a head mounted on a leading end of the shaft; and a substantially cylindrical shaft case fixed to the leading end of the shaft, wherein: the shaft case is inserted into the tubular portion of the hosel of the head; the tubular portion includes a partition plate section in the lower portion thereof; a spacer is interposed between the leading end of the shaft case and partition plate section; the shaft case is unrotatably engaged with the spacer; the spacer and partition plate section respectively include stopper portions for preventing the rotation of the spacer; and a bolt inserted through bolt insertion holes respectively formed in the partition plate section and spacer from the sole side of the head is screwed into the shaft case, whereby the shaft case is fixed to the head.
According to a second aspect of the invention, the axis of the shaft is coaxial with the axis of the tubular portion.
According to a third aspect of the invention, the axis of the shaft is inclined with respect to the axis of the tubular portion.
According to a fourth aspect of the invention, the axis of the shaft and the axis of the tubular portion are parallel to each other.
According to a fifth aspect of the invention, the spacer includes a shaft case insertion hole; and the lower end side of the shaft case and the shaft case insertion hole respectively have a polygonal section shape and are engaged with each other.
According to a sixth aspect of the invention, there is provided a method for adjusting the characteristics of a golf club including: a shaft; a head mounted on a leading end of the shaft; and a substantially cylindrical shaft case fixed to the leading end of the shaft, wherein: the shaft case is inserted into the tubular portion of the hosel of the head; the tubular portion includes a partition plate section in the lower portion thereof; a spacer is interposed between the leading end of the shaft case and partition plate section; the shaft case is unrotatably engaged with the spacer; the spacer and partition plate section respectively include stopper portions for preventing the rotation of the spacer; and a bolt inserted through bolt insertion holes respectively formed in the partition plate section and spacer from the sole side of the head is screwed into the shaft case, whereby the shaft case is fixed to the head, the method including: removing the bolt; separating the shaft case from the spacer rotating the shaft case to change the position of the shaft insertion hole or the inclination of the shaft; and engaging the shaft case with the spacer again by using the bolt.
According to a seventh aspect of the invention, there is provided a method for replacing the shaft of a golf club with a new shaft and adjusting the characteristics of the golf club having the new shaft, the method including: providing a golf club including: a shaft; a head mounted on a leading end of the shaft; and a substantially cylindrical shaft case fixed to the leading end of the shaft, wherein: the shaft case is inserted into the tubular portion of the hosel of the head; the tubular portion includes a partition plate section in the lower portion thereof; a spacer is interposed between the leading end of the shaft case and partition plate section; the shaft case is unrotatably engaged with the spacer; the spacer and partition plate section respectively include stopper portions for preventing the rotation of the spacer; and a bolt inserted through bolt insertion holes respectively formed in the partition plate section and spacer from the sole side of the head is screwed into the shaft case, whereby the shaft case is fixed to the head; previously fixing a new shaft to a new shaft case to provide a new shaft case/shaft connected member; removing the shaft case and the shaft in a state that the shaft case is connected with the shaft from the head, and mounting the new shaft case/shaft connected member onto the head.
In the golf club of the invention, since the shaft case is inserted into the tubular portion of the hosel and is fixed by the bolt inserted from the sole side, the ring holder and annular screw member used in JP-A-2011-4801 can be eliminated and thus the cost of the present golf club can be reduced.
In the golf club of the invention, the spacer is interposed between the bottom portion of the hosel hole of a hosel and the leading end portion of the shaft case and the rotation of the spacer is prevented by the stopper portions. Also, since the leading end portion of the shaft case and spacer are unrotatably engaged with each other, the shaft case can be positioned in its peripheral direction.
In the shaft replacing method of the invention, when the bolt is loosened and removed, the shaft case can be pulled out from the tubular portion of the hosel.
Therefore, for example, in the case that a shaft case with the axis of a shaft extending in an oblique direction (for example, in an obliquely crossing direction) with respect to the axis of a shaft case insertion hole is used, by changing the peripheral direction phase of the shaft case, the mounting direction of the shaft on the head main body can be changed, whereby the lie angle and slice angle can be changed.
Thus, in a golf club including quite the same shaft and head main body, only the lie angle or slice angle can be adjusted.
Also, in the case that a shaft case with the axial position of a shaft case insertion hole translated and shifted from the axial position of a hosel insertion hole is used, by changing the peripheral direction phase of the shaft case, in a golf including quite the same shaft and quite the same head main body, the face progression and the distance (gravity distance) from the shaft to the center of gravity can be adjusted.
According to the invention, a shaft case of quite the same type as a current shaft case is previously prepared, a shaft having different characteristics is fixed to the prepared shaft case to provide a shaft case/shaft connected member, and this shaft case/shaft connected member is substituted for a current shaft case/shaft connected member and is mounted onto the hosel of the head, thereby being able to provide a golf club having a different shaft.
Thus, the invention can save the conventionally required troublesome labor and time to destroy the texture of adhesive by heating and mount a new shaft again with an adhesive. Therefore, the shaft case/shaft connected member can be removed from the head of a golf club just after it is used to try to hit a ball, and another shaft case/shaft connected member having different characteristics can be mounted on this head and the golf club can be used immediately for another trial. This allows a golfer to find out a proper golf club in a golf shop or the like quite easily. Also, the shaft can be evaluated without paying attention to individual differences between heads.
Recently, there has been developed a system in which, in order for a golfer to find out a golf club fitting his or her skill, using a computer or a high speed camera, the golfer can find out a golf club fitting him or her. In this system, a golfer tries to swing individual commercial clubs and compares them based on their head speeds and launch angles to thereby find one fitting the golfer.
On the other hand, according to the golf club of the invention, by changing the position relationship between the same shaft and head to change the gravity distance and face progression of the club, a golfer can easily realize differences between the flying characteristics (such as the launch angle and spin) of balls hit out, or the golfer can apply only shafts to the same head one after another sequentially and can realize differences between the shafts only. Also, a golf player can replace the shaft according to his or her physical condition on the play day, or can adjust the lie angle, slice angle and face progression with the shaft remaining unchanged.
The present invention will become more fully understood from the detailed description given hereinbelow and the accompanying drawing which is given by way of illustration only, and thus is not limitative of the present invention and wherein:
Now, description will be given below of the preferred embodiments of the invention with reference to the drawings.
In this golf club, a shaft 4 is mounted on the hosel 3 of a head 1 through a shaft case 5, a spacer 8 and a bolt 7.
The head 1 is hollow for the wood and includes a face portion 2a, a crown portion 2b, a sole portion 2c, a toe portion 2d, a heel portion 2e and a back portion 2f.
As shown in
As shown in
As shown in
The shaft case 5 includes an outward facing collar-shaped flange portion 5b existing in its upper end. The upper surface of the flange portion 5b has a taper shape the diameter of which decreases as it goes upward. However, this is not limitative.
As shown in
The outer peripheral surfaces of the shaft case insertion hole 8b of the spacer 8 and the lower portion of the shaft case 5, in this embodiment, respectively have a regular square pyramid shape. However, the shape may also be a regular polygonal pyramid such as a regular triangular pyramid, a regular hexagonal pyramid, and a regular octagonal pyramid.
As a stopper portion for preventing the rotation of the spacer 8 on its axis, as shown in
The spacer 8 is disposed in the deepest portion of the tubular portion 3h with the projecting portion 8c being inserted into the recessed portion 6b and, preferably, it may be bonded to the partition plate section 6 with an adhesive. Here, the outer peripheral portion of the lower end of the spacer 8 is chamfered, thereby allowing the excess of the adhesive to go round the side surface thereof easily. As shown in
To assemble the golf club, the spacer 8 is previously disposed in the deepest portion of the tubular portion 3h and is fixed with an adhesive. Also, as shown in
Here, in
The shaft case 5 of the shaft case/shaft connected member is inserted into the tubular portion 3h, the leading end of the shaft case 5 is inserted into the shaft case insertion hole 8b, and the slopes 5c, 8k are engaged with each other. Next, the bolt 7 is screwed into the female screw hole 5a through the bolt insertion holes 6a, 8a.
Thus, as shown in
Also, since the leading end portion of the shaft case 5 is tapered due to provision of the four slopes 5c, the shaft case 5 can be easily inserted into the tubular portion 3h.
Here, the spacer 8 is a short member to be disposed only in the deep portion of the tubular portion 3h and is light in weight.
According to the invention, the shaft of the golf club can also be replaced easily.
To replace the shaft of the golf club, a shaft case of the same type as the shaft case 5 may be previously fixed with an adhesive to a new shaft to replace.
The bolt 7 of the existing golf club is removed and the old shaft 4 is removed from the head 1 together with the old shaft case 5. Next, the new shaft with a shaft case (a shaft case/shaft connected member) is inserted into the head 1 and is fixed by the bolt 7.
Thus, the mounting and replacement of the shaft can be carried out very simply and quickly. Here, conventionally, in the shaft replacement, the hosel portion of an existing golf club is heated to destroy the texture of the hardened adhesive resin and, after the shaft is removed, a new shaft is fixed with an adhesive. Thus, it takes several hours to about one day. On the other hand, in the above embodiment, since the shaft case 5 is previously mounted on the new shaft with an adhesive, the shaft replacement can be completed in about several minutes. Therefore, there can be realized a use system in which shafts each with a shaft case of various specifications can be prepared and a golfer can try to hit a ball while mounting different shafts sequentially on the same head 1.
Here, in
In the case of a shaft case 5A shown in
In the case of a shaft case 5B shown in
Here, the two axial lines may not cross each other but may be skew lines. That is, they may have the relationship that they do not cross each other but one of them passes by the neighboring portion of the other.
By using the shaft case 5A of
In the case that the shaft case 5A of
From the state shown in
As shown in
In
In this manner, by changing the direction of the inclination of the shaft 4, the lie angle and slice angle can be changed.
Referring to the lie angle, when the shaft 4 is inclined toward the heel side, the lie angle is smallest and provides a flat lie, whereas, when the shaft 4 is inclined toward the toe side, it provides an up lie.
For the slice angle, in
As described above, with use of the shaft case 5B of
In this golf club, the flange portion 5b is tapered. However, an enlarged diameter portion having a flat flange shape may also be provided and a ferrule may be mounted on the upper side of such portion.
Here, since a thin-piece-shaped elastic member 8A constituted of rubber, elastomer, synthetic resin or the like is interposed between the shaft case 5 and shaft case insertion hole 8b, when the golf club is impacted on a ball, impact and vibrations can be absorbed.
In this embodiment, the projecting portion 8c and recessed portion 6b to prevent the spacer 8 against rotation are formed as the dowel pin and dowel hole. However, as shown in
The above shaft case and bolt may preferably be made of metal, especially, aluminum or titanium or an alloy constituted of aluminum and titanium. The spacer 8 may preferably be made of metal, FRP, or synthetic resin.
The head is not limited to any specific material but, in the case of a golf club head of a wood type, it can be made of, for example, titanium alloy, aluminum alloy, or stainless steel.
In the above embodiment, although the spacer 8 and shaft case 5, 5A, 5B include four slopes which constitute a regular square pyramid, there may also be employed a regular polygonal pyramid including three or five or more slopes. The leading end portion of the shaft case and the deep portion of the shaft case insertion hole may also have a concave polygonal section shape such as a star shape, or a gear-teeth-like section shape.
Here, as a grip to be mounted on the shaft 4, there can be used a shaft the section of which has a complete round shape. For example, of the grip outer peripheral surface, the lower side surface to be directed toward the ground when a player takes an address position can be formed such that it is raised more than the other surface portions. With use of this shape, when the direction of the shaft case 5A, 5B is changed, there can be a case where the grip raised portion cannot be directed toward the ground. Therefore, in the invention, a grip having a complete round section shape may preferably be used.
In the above embodiment, the golf club head is of a wood type. However, the invention can also be applied to a golf club head of any one of a utility type, an iron type, and a patter type.
Number | Date | Country | Kind |
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2011-028744 | Feb 2011 | JP | national |