GOLF CLUB HEAD

Abstract

This invention provides a hollow golf club head including a fixing member which includes a shaft body formed with a threaded portion at one end, and a head portion at the other end of the shaft body, a viscoelastic body having an opening through which the shaft body extends, a recess portion formed in a circumferential wall of the golf club head and in which the viscoelastic body is disposed, and a screw hole formed in a bottom portion of the recess portion and threadably engages with the threaded portion. The viscoelastic body is fixed between the head portion and the bottom portion by threadably engaging the threaded portion with the screw hole.

Description

This is a divisional of U.S. application Ser. No. 11/474,419, filed Jun. 26, 2006, which claims priority to Japanese Application No. 2005-351283, filed Dec. 5, 2005, respectively. The entire disclosures are hereby incorporated by reference.

FIELD OF THE INVENTION

The present invention relates to a golf club head and, more particularly, to a fixing structure of a viscoelastic body to a hollow golf club head.

BACKGROUND OF THE INVENTION

In a wood type golf club head represented by a driver or fairway wood, the golf club head has been formed to have a hollow structure to increase its volume in order to enlarge the so-called sweet spot. In addition, a hollow golf club head fixed with a viscoelastic body on a part of its circumferential wall, e.g., in a sole portion, to improve the hitting impression or adjust the hitting sound on impact has been prevailed. When the viscoelastic body is fixed, the vibration on impact is absorbed by the viscoelastic body to improve the hitting impression and decrease the hitting sound that is offensive to the player's ear.

As a fixing structure to fix a viscoelastic body to a hollow golf club head, for example, a structure disclosed in Japanese Patent Laid-Open No. 2005-160947 has been proposed. In Japanese Patent Laid-Open No. 2005-160947, the following fixing structure is disclosed. A recess portion is formed in a part of the circumferential wall of a golf club head and a viscoelastic body is inserted in the recess portion. The inner circumferential wall of the recess portion forms a screw hole. When a threaded portion is threadably engaged with the screw hole, the viscoelastic body is sandwiched between the distal end of the threaded portion and the bottom portion of the recess portion.

In order to more effectively damp vibration on impact by the viscoelastic body, the viscoelastic body is desirably as close to the circumferential wall of the golf club head as possible. When the viscoelastic body is fixed in the sole portion, the viscoelastic body is desirably fixed to the lowest position to lower the center of gravity of the golf club head. In the fixing structure disclosed in Japanese Patent Laid-Open No. 2005-160947, a viscoelastic is sandwiched between the distal end of the threaded portion and the bottom portion of the recess portion. With this structure, the viscoelastic body is away from the circumferential wall by the length of the threaded portion. Therefore, this structure still has room for improvement in terms of increasing the vibration damping effect of the viscoelastic body. In the fixing structure disclosed in Japanese Patent Laid-Open No. 2005-160947, the viscoelastic body positions at a point higher than the circumferential wall of the sole portion by the length of the threaded portion. Therefore, this structure still has room for improvement in terms of lowering the center of gravity.

SUMMARY OF THE INVENTION

The present invention has been made in order to overcome the deficits of prior art.

According to the aspects of the present invention, there is provided a hollow golf club head comprising a fixing member having a shaft body formed with a threaded portion at one end, and a head portion at the other end of the shaft body, a viscoelastic body having an opening through which the shaft body extends, a recess portion formed in a circumferential wall of the golf club head and in which the viscoelastic body is disposed, and a screw hole formed in a bottom portion of the recess portion and threadably engages with the threaded portion, wherein the viscoelastic body is fixed between the head portion and the bottom portion by threadably engaging the threaded portion with the screw hole.

In the golf club head, as the viscoelastic body forms a structure where the shaft body of the fixing member extends through the viscoelastic body, the depth of the recess portion can be shallower, so that the viscoelastic body can be fixed at a position closer to the circumferential wall. Hence, the vibration damping effect of the viscoelastic body can be improved.

Other features and advantages of the present invention will be apparent from the following descriptions taken in conjunction with the accompanying drawings, in which like reference characters designate the same or similar parts throughout the figures thereof.

BRIEF DESCRIPTION OF THE DRAWINGS

The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate embodiments of the invention and, together with the description, serve to explain the principles of the invention.

FIG. 1 includes a sectional view showing the structure of a golf club head A according to an embodiment of the present invention, and an enlarged view of the main part of the same;

FIG. 2 is an exploded perspective view of the fixing structure of viscoelastic bodies;

FIG. 3A is a sectional view showing the structure of a golf club head B according to another embodiment of the present invention; and

FIG. 3B is a view showing an example of the viscoelastic body.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

Preferred embodiments of the present invention will now be described in detail in accordance with the accompanying drawings.

FIG. 1 includes a sectional view showing the structure of a golf club head A according to an embodiment of the present invention, and an enlarged view of the main part of the same. The golf club head A forms a hollow body, and its circumferential wall constitutes a face portion 10 which forms a golf ball hitting surface, a crown portion 20 which forms the upper surface of the golf club head A, a side portion 30 (only the back side is shown) which forms the toe-side, heel-side, and back-side side surfaces of the golf club head A, and a sole portion 40 which forms the bottom surface of the golf club head A. The golf club head A is also provided with a hosel portion 80 to which a shaft is to be fixed. The golf club head A is desirably made of, e.g., a titanium-based metal material.

Although the golf club head A is a golf club head that is to be used as a driver, the present invention can be applied to a wood type golf club head including a fairway wood or the like other than the driver as well, a utility type golf club head, and other hollow golf club heads.

A recess portion 41 extending into the golf club head A is integrally formed in the sole portion 40, and viscoelastic bodies 60a and 60b are disposed in the recess portion 41. Although the outline of the side wall of the recess portion 41 forms a circle in this embodiment, the shape of the recess portion 41 is not limited to this, but the outline of the side wall of the recess portion 41 can form an ellipse or a shape having corners. A screw hole 41b is formed in a bottom portion 41a of the recess portion 41. The screw hole 41b is located substantially at the center of the bottom portion 41a.

A fixing member 50 threadably engages with a screw hole 41b. The fixing member 50 and an interposed member 70 fix the viscoelastic bodies 60a and 60b. FIG. 2 is an exploded perspective view of the fixing structure of the viscoelastic bodies, showing the viscoelastic bodies 60a and 60b, interposed member 70, and fixing member 50. In FIG. 2, the interposed member 70 is partially cutaway.

The fixing member 50 has a shaft body 52 formed with a threaded portion at its one end to threadably engage with the screw hole 41b, and a head portion 51 integrally connected to the other end of the shaft body 52. Both the viscoelastic bodies 60a and 60b form circular flat plates, and openings 60a′ and 60b′ where the shaft body 52 is to extend are formed at the central portions of the viscoelastic bodies 60a and 60b. Although the openings 60a′ and 60b′ are circular through holes, the present invention is not limited to this, and, e.g., a notch 60c′ may be formed as in a viscoelastic body 60c shown in FIG. 3B. Although the viscoelastic bodies 60a, 60b, and 60c are circular, their shapes can be elliptic or have corners.

The viscoelastic bodies 60a and 60b are made of viscoelastic materials such as NBR (acrylonitrile-butadiene rubber), and the like. The viscoelastic bodies 60a and 60b can also be formed by mixing a metal powder or the like in the viscoelastic materials described above to adjust their specific gravities. According to this embodiment, the two viscoelastic bodies 60a and 60b are mounted in the recess portion 41 in a stacked manner. However, naturally, a single viscoelastic body can be mounted.

The vibration of a golf club head on impact ranges in a variety of frequencies. The frequency band in which a viscoelastic material effectively absorbs vibration is limited to a certain range in accordance with the viscoelastic material. Therefore, the two viscoelastic bodies 60a and 60b desirably have vibration damping performances different from each other. With this structure, the vibration damping effect can be improved with respect to the vibration in a wider frequency band. For example, the viscoelastic bodies 60a and 60b can be made of viscoelastic materials with loss coefficients (so-called tan δ) temperature dependences of which are different. When the temperature dependence of a loss coefficient changes, the frequency band in which vibration is effectively absorbed also changes.

The interposed member 70 is a member interposed between the viscoelastic bodies 60a and 60b and the head portion 51 of the fixing member 50, and serves to press the viscoelastic bodies 60a and 60b against the bottom portion 41a of the recess portion 41 substantially evenly. The interposed member 70 has a flat surface 70a with the same shape as the outer shape of each of the viscoelastic bodies 60a and 60b, and an opening 70b where the shaft body 52 is to extend is formed at the center of the interposed member 70. Although the opening 70b is a circular through hole, the present invention is not limited to this, and the opening 70b can be a notch in the same manner as in the viscoelastic body (FIG. 3B). The central portion of the interposed member 70 is thinner-walled than its circumferential portion. Thus, when the fixing member 50 is fixed to the recess portion 41, the head portion 51 of the fixing member 50 is partly buried in the interposed member 70.

In the golf club head A having the above structure, the shaft body 52 of the fixing member 50 is inserted in the openings 70b, 60a′, and 60b′ of the interposed member 70 and viscoelastic bodies 60a and 60b, and the threaded portion at the distal end of the shaft body 52 is threadably engaged with the screw hole 41b. Thus, the viscoelastic bodies 60a and 60b are fixed as they are sandwiched between the head portion 51 and bottom portion 41a. As the viscoelastic bodies 60a and 60b form a structure through which the shaft body 52 of the fixing member 50 extends, the depth of the recess portion 41 can be made shallower, so that the viscoelastic bodies 60a and 60b can be fixed at a position closer to the circumferential wall (sole portion 40).

Accordingly, the vibration damping effect of the viscoelastic bodies 60a and 60b can improve. In addition, since the viscoelastic bodies 60a and 60b are fixed close to the sole portion 40 in this embodiment, the center of gravity can be lowered. According to this embodiment, since the interposed member 70 is interposed between the head portion 51 and the viscoelastic bodies 60a and 60b, the viscoelastic bodies 60a and 60b can be pressed against the bottom portion 41a substantially evenly regardless of the size of the head portion 51, so that tight contact between the viscoelastic body 60b and bottom portion 41a can be ensured. This further improves the vibration damping effect. Due to the presence of the interposed member 70, the viscoelastic bodies 60a and 60b do not expose outside but are protected. Thus, the viscoelastic bodies 60a and 60b can be prevented from being damaged.

The fixing member 50 and interposed member 70 can also be used as members to adjust the barycentric position of the golf club head A. For example, the fixing member 50 and interposed member 70 can be made of a material having a specific gravity that is different from that of the circumferential wall of the golf club head A. When the circumferential wall of the golf club head A is made of a titanium alloy (specific gravity: about 4.5), if the fixing member 50 and interposed member 70 are made of stainless steel (specific gravity: about 7.8) or a tungsten alloy (specific gravity: about 13.0), the fixing member 50 and interposed member 70 can serve as weights as well, and the barycentric position of the golf club head A is closer to the portions of the fixing member 50 and interposed member 70. Conversely, if the fixing member 50 and interposed member 70 are made of an aluminum alloy (specific gravity: about 2.7), the barycentric position of the golf club head A is farther away from the portions of the fixing member 50 and interposed member 70.

According to this embodiment, the viscoelastic bodies 60a and 60b are fixed in the sole portion 40. However, the viscoelastic body can be fixed at different portions of the golf club head A, e.g., in the side portion 30 or crown portion 20. The viscoelastic body need not be fixed at a single portion, but a plurality of viscoelastic bodies can be fixed at a plurality of portions.

FIG. 3A is a sectional view showing the structure of a golf club head B in which a plurality of viscoelastic bodies are fixed at a plurality of portions. In FIG. 3A, the same members as those of the golf club head A are denoted by the same reference numerals, and a description thereof will be omitted. In the golf club head B, a viscoelastic body 61a is fixed to a sole portion 40, and a viscoelastic body 61b is fixed to a back-side side portion 30. The fixing structure of the viscoelastic body 61a is the same as that of the golf club head A described above.

The fixing structure of the viscoelastic body 61b is also the same as that of the golf club head A. A brief description will be made. A recess portion 31 extending into the golf club head B is integrally formed in the back-side side portion 30, and the viscoelastic body 61b is disposed in the recess portion 31. A screw hole 31b is formed in a bottom portion 31a of the recess portion 31. A fixing member 50′ similar to a fixing member 50 threadably engages with the screw hole 31b. The fixing member 50′ and an interposed member 70′ which is similar to an interposed member 70 fix the viscoelastic body 61b. The fixing member 50′ has a shaft body 52′ formed with a threaded portion at its one end to threadably engage with the screw hole 31b, and a head portion 51′ integrally connected to the other end of the shaft body 52′.

The shaft body 52′ of the fixing member 50′ is inserted in openings 70b′ and 61b′ of the interposed member 70′ and viscoelastic body 61b, respectively, and the threaded portion at the distal end of the shaft body 52′ is threadably engaged with the screw hole 31b. Thus, the viscoelastic body 61b is fixed as it is sandwiched between the head portion 51′ and bottom portion 31a.

The two viscoelastic bodies 61a and 61b desirably have vibration damping performances different from each other. With this structure, separate vibration damping effects can be enhanced for the vibration occurring in the sole portion 40 and that in the side portion 30.

In the golf club head B, as the viscoelastic body 61b and its fixing structure are disposed in the back-side side portion 30, the back side of the golf club head B becomes heavy to deepen the center of gravity. As the viscoelastic body 61a and its fixing structure are disposed in the sole portion 40, the sole portion 40 side of the golf club head B becomes heavy to lower the center of gravity. Therefore, with the golf club head B, in addition to the vibration damping effect, the center of gravity can be lowered and deepened. The materials of the respective fixing members 50 and 50′ and interposed members 70 and 70′ of the two sets of the fixing structures may be the same or different. If the materials of the respective fixing members 50 and 50′ and interposed members 70 and 70′ are different, the barycentric position described above can be adjusted.

As many apparently widely different embodiments of the present invention can be made without departing from the spirit and scope thereof, it is to be understood that the invention is not limited to the specific embodiments thereof except as defined in the appended claims.

This application claims the benefit of Japanese Patent Application No. 2005-351283 filed on Dec. 5, 2005, which is hereby incorporated by reference herein in its entirety.

Claims

1. A hollow golf club head comprising:

a fixing member having a shaft body formed with a threaded portion at one end, and a head portion at the other end of said shaft body;

a viscoelastic body being flat and having a first opening through which said shaft body extends;

a recess portion formed in a circumferential wall of the golf club head and in which said viscoelastic body is disposed, said recess portion having a bottom portion which is in contact with one surface of said viscoelastic body;

a screw hole formed in said bottom portion and threadably engages with said threaded portion, and

an interposed member interposed between said viscoelastic body and said head portion and includes a second opening through which said shaft body extends, said interposed member covering the whole viscoelastic body and having a flat surface being in contact with the other surface of said viscoelastic body,

wherein said viscoelastic body is fixed between said interposed member and said bottom portion by threadably engaging said threaded portion with said screw hole,

a plurality of said recess portions formed in different portions in the circumferential wall,

said fixing member, said viscoelastic body, said screw hole and said interposed member provided to each of said recess portions, and

said viscoelastic bodies have different vibration damping performances with each other.

2. The head according to claim 1, wherein said recess portion is formed in at least a sole portion of the golf club head.

3. The head according to claim 1, wherein said recess portions are formed in a sole portion and a back-side side portion of the golf club head.

4. A hollow golf club head comprising:

a first recess portion formed in a portion of said head;

a second recess portion formed in another portion of said head;

a first viscoelastic body fixed in said first recess portion;

a second viscoelastic body fixed in said second recess portion and having vibration damping performance different from said first viscoelastic body;

a first cover member provided with said first recess portion and covering the whole first viscoelastic body; and

a second cover member provided with said second recess portion and covering the whole second viscoelastic body.

3. The head according to claim 4, wherein said first recess portion is formed in a sole portion of said head, and said second recess portion is formed in a side portion of said head.

4. The head according to claim 4, wherein said first recess portion is formed in a sole portion of said head.