1. Field of the Invention
The present invention relates to a golf club, and in particular to a golf club that may prevent breakage of a shaft without increasing the mass of the club.
2. Description of the Related Art
In order to maximize carry distance of a hit ball, various golf clubs with a small mass which typically include a lightweight shaft have been proposed. Unfortunately, since such a lightweight shaft usually has low strength, the shaft may break when hitting the golf ball. Furthermore, in a golf club with a tubular hosel into which the lightweight shaft is inserted, the shaft tends to break at or near the top end of the hosel when hitting due to a large bending deformation occurring thereto.
The Japanese Unexamined Patent Application Publication No. 2002-119623 discloses a golf club that includes a golf club head being not provided with a tubular hosel. Since such a golf club tends to have low bonding strength between the shaft and the golf club head, it might be difficult to expect satisfactory endurance.
The Japanese Unexamined Patent Application Publication No. 2002-248184 discloses a golf club shaft that includes a tubular shall main body having a tip end and a reinforcing pipe inserted into the shaft main body. Since the pipe continuously extends upwardly from the tip end of the shaft main body, it may increase the total mass of the golf club.
The Japanese Unexamined Patent Application Publication No. 2002-177417 discloses a golf club that includes a golf club head, a shaft, and a tapered ring for precisely centering the shaft into a shaft insertion hole of the golf club head. Unfortunately, the golf club may not be expected offering a feature to prevent breakage of the shaft.
The Japanese Unexamined Patent Application Publication No. 11-104275 discloses a golf club shaft that includes a tubular shaft main body, and a core inserted into the shaft main body. Since the core continuously extends upwardly from the tip end of the shaft main body, it may increase the total mass of the golf club.
The present invention has been worked out in the light of the circumstances described above, and has a main object of providing a golf club that may prevent breakage of a shaft without increasing the mass of the club.
According to one aspect of the invention, a golf club includes a golf club head, and a shaft. The golf club head includes a hosel which is formed into a tubular body having a top end and a shaft insertion hole extending downwardly from the top end. The shaft includes a shaft main body and a reinforcing member. The shaft main body is formed into a tubular shape having a tip end, and an internal surface surrounding axially extending cavity therein. The reinforcing member has a specific gravity in a range of not more than 2.0 and is fixed in the cavity of the shaft main body. The reinforcing member includes a first portion fitting the internal surface of the shaft main body, and the first portion having an uppermost edge and a lowermost edge. The uppermost edge of the first portion is positioned upwardly with respect to the top end of the hosel, and the lowermost edge of the first portion is positioned between the top end of the hosel and the tip end of the shaft main body.
According to another aspect of the invention, the reinforcing member may further comprise a second portion integrally with the first portion, and the second portion may comprise an axially extending thin portion having its outer surface separate from the internal surface of the shaft main body.
According to another aspect of the invention, the thin portion may be provided downward with respect to the first portion.
According to another aspect of the invention, the second portion may further comprise its terminal end provided downwardly with respect to the thin portion, and the terminal end may be fixed at the tip end of the shaft main body.
According to another aspect of the invention, the reinforcing member may further comprise a top portion extending upwardly from the uppermost edge of the first portion while reducing its outer diameter.
According to another aspect of the invention, the top portion may have a hemisphere-like shape.
According to another aspect of the invention, the uppermost edge of the first portion may be located in a distance of from 5 to 50 mm in a shaft axial direction from the top end of the hosel.
According to another aspect of the invention, the lowermost edge of the first portion be located in a distance of not more than 20 mm in a shaft axial direction from the top end of the hosel.
According to another aspect of the invention, the reinforcing number may be provided with a vent passage which communicates a lower space of first portion in the cavity with an upper space of the first portion in the cavity.
In accordance with the present invention, the shaft comprises a shaft main body formed into a tubular shape having an internal surface surrounding an axially extending cavity therein, and a reinforcing member fixed in the cavity of the shaft main body. Since the reinforcing member has a specific gravity in a range of not more than 2.0, it may prevent large increase of the total mass of the golf club.
The first portion of the reinforcing member may reinforce the shaft main body in an axial region including the position of the top end of the hosel to reduce the amount of the bending deformation occurring thereto. Thus, the shaft may be prevented from its breakage when hitting the golf ball. Furthermore, the first portion having its lowermost edge located between the tip end of the shaft and the top end of the hosel may further prevent from large increase of the total mass of the golf club.
An embodiment of the present invention will be explained below with reference to the accompanying drawings.
The golf club 1 shown in
In this embodiment, the head 2 is configured as a wood-type golf club head having a hollow (i) interior. The head 2 is made of metallic material. In another aspect of the embodiment, the head 2 is made of non-metallic material such as resin.
The head 2 includes a face portion 2A, a crown portion 2B, a sole portion 2C, a side portion 2D, and a hosel 2E.
The face portion 2A includes a hitting face 4 for striking a golf ball. The hitting face 4 has a traditionally laterally-long elliptical shape surrounded by an upper edge 4a, a lower edge 4b, a toe-side edge 4c, and a heel-side edge 4d.
The crown portion 2B extends rearward from the upper edge 4a of the hitting face 4 so as to form a top surface of the head 2.
The sole portion 2C extends rearward from the lower edge 4b of the hitting face 4 so as to form a bottom surface of the head 2.
The side portion 2D extends from the toe-side edge 4c of the hitting face 4 to the heel-side edge 4d of the hitting face 4 through a rear of the head between the crown portion 2B and the sole portion 2C.
The hosel 2E is provided on the heel side of the head 2 to attach the shaft 3 to the head 2. As shown in
The tubular body 5 extends downwardly from the top end 7 into the hollow (i) of the head 2. The tubular body 5 is provided with a shaft insertion hole 6 extending downwardly from the top end 7.
The shaft insertion hole 6 is a cylindrical space having an upper opening and a closed bottom. The configuration of the shaft insertion hole 6 is not particularly limited to such an embodiment described above.
The shaft 3 includes a shaft main body 8, and a reinforcing member 9.
The shaft main body 8 is made of a fiber reinforced resin to lower its weight and is formed into a tubular shape having a tip end 3e. Preferably, the shaft main body 8 extends from its butt end toward the tip end 3e so as to form a tapered shape.
The tip end part of the shaft main body 8 is fixed to the hosel 2E of the head 2. In this embodiment, the outer surface of the shaft main body 8 is bonded to the inner surface of the shaft insertion hole 6 by adhesive agent. The butt end side of the shaft main body 8 is attached a grip (not shown), for example.
The shaft main body 8 has an internal surface 8a which surrounds an axially extending cavity 10 therein. The cavity 10 extends from the butt end toward the tip end in a tapered manner.
The reinforcing member 9 is fixed in the cavity 10 of the shaft main body 8. In this embodiment, the reinforcing member 9 integrally includes a first portion 12 and a second portion 13.
As shown in
The uppermost edge 12a of the first portion 12 is an uppermost position that comes into contact with the internal surface 8a of the shaft main body 8 in the shaft axial direction. The uppermost edge 12a of the first portion 12 is positioned upwardly with respect to the top end 7 of the hosel 2E.
The lowermost edge 12b of the first portion 12 is a lowermost position that comes into contact with the internal surface 8a of the shaft main body 8 in the shaft axial direction. The lowermost edge 12b of the first portion 12 is positioned between the top end 7 of the hosel 2E and the tip end 3e of the shaft main body 8. Namely, the lowermost edge 12b of the first portion 12 is positioned downwardly with respect to the top end 7 of the hosel 2E but upwardly with respect to the tip end 3e of the shaft main body 8.
Therefore the first portion 12 of the reinforcing member 9 may reinforce the shaft main body 8 from its internal surface 10 in an axial region including the position of the top end 7 of the hosel E. Since the reinforcing member reduces the amount of the bending deformation at the top end 7 of the hosel 2E when hitting a golf ball, it may prevent breakage of the shaft main body 8.
While, the lowermost edge 12b of the first portion 12 of the reinforcing member 9 is positioned upwardly with respect to the tip end 3e of the shaft main body 8. Accordingly, the first portion 12 may efficiently reinforce the shaft main body 8 while minimizing increase of the total mass of the golf club.
Preferably, the uppermost edge 12a of the first portion 12 is located in a distance La of from 5 to 50 mm in the shaft axial direction from the top end 7 of the hosel 2E. When the distance La is less than 5 mm, the advantage for reinforcing the shaft main body 8 by the first portion 12 may not be sufficiently obtained. When the distance La is more than 50 mm, the total mass of the golf club may excessively increase. In view of the above, the distance La is more preferably in a range of not less than 10 mm, still further preferably not less than 15 mm, but more preferably not more than 15 mm, still further preferably not more then 10 mm.
Since the shaft main body 8 is supported by the inner surface of the shaft insertion hole 6 in a region below the top end 7, a distance Lb between the lowermost edge 12b of the first portion and the top end 7 of the hosel 2E may be set in sp all with respect to the distance La in order to further lower the total mass of the golf club. Preferably, the distance Lb is set in a range of more than 0 mm, more preferably not less than 5 mm, but preferably not more than 20 mm, more preferably not more than 15 mm.
The reinforcing member 9 further includes a top portion 15 extending upwardly from the uppermost edge 12a of the first portion 12 while reducing its outer diameter. Preferably, in the cross-section of the top portion 15 including the shaft central line CL, the top portion 15 has an arc surface 15a having a radius of curvature in a range of not less than 0.5 mm, more preferably not less than 1 mm, still further preferably not less than 2 mm. In accordance with the present embodiment, the shaft main body 8 tends to be bent at or near the uppermost edge 12a when hitting a golf ball. Accordingly, to reduce an amount of bending deformation concentrating thereto, the top portion 15 preferably has a hemisphere-like shape.
The top portion 15 with a hemisphere-like shape helps to support the shaft main body 8 when hitting, and to reduce the stress concentration of the shaft main body 8 at the uppermost edge 12a of the first portion 12. Therefore the bending curvature of the shaft main body 8 when hitting becomes larger so as to disperse the bending stress in an axial wide area, thereby improving the endurance of the shaft main body 8. In another aspect of the embodiment, the top portion 15 may be formed into a tapered shape extending upwardly.
The second portion 3 of the reinforcing member 9 is provided downwardly respect to the first portion 12. In this embodiment, the second portion 13 integrally includes an axially extending thin portion 16 and a lower terminal end 17.
The thin portion 16 has an outer surface separate from the internal surface 8a of the shaft main body 8. In this embodiment, the thin portion 16 is configured as an axially extending member having a circular cross-section.
The terminal end 17 of the second portion 13 is fixed to the tip end 3e of the shaft main body 8.
As shown in
In this embodiment, the second portion 13 may help to arrange the first portion 12 at the suitable position in the cavity 10 to reinforce the shaft man body 8. Furthermore, the thin portion 16 of the second portion 13 may vibrate in the cavity 10 due to an impact force when hitting a golf ball. This may absorb the vibration energy of the head 2, and offer good impact feeling to the golfer. Preferably, the thin portion 16 has an outer diameter in a range of from 1 to 3 mm in order to further improve the advantage described above.
The reinforcing member 9 is made of a material having a specific gravity in a range of not more than 2.0 so as to minimize increase of the total mass of the golf club. For the reinforcing member 19, metallic material, resin material, and fiber reinforcing resin may be employed. In this embodiment, the reinforcing member 19 is made of a resin.
In one aspect of the present embodiment for manufacturing the golf club 1, the shaft 3 is firstly assembled by fixing the reinforcing member 9 into the shaft main body 8. The reinforcing member 9 may be fixed to the shaft main body 8 by using an adhesive agent instead of the fastener 20. Next, the shaft main body 8 with the reinforcing member 9 is inserted into the shaft insertion hole 6 of the hosel 2E and then is bonded by an adhesive agent thereto.
In one aspect of the present embodiment, the reinforcing member 9 is provided with a vent passage 22. As shown in
As shown in
At the time where the shaft 3 which comprises the shaft main body 8 and the reinforcing member 9 is inserted into the shaft insertion hole 6 of the hosel 2E, the vent passage 22 may help to exhaust the air between the bottom of the shaft insertion hole 6 and the tip end 3e of the shaft main body 8 toward the butt end of the shaft main body 8 through the cavity 10. It may improve the productivity of the golf club by offering the best position of the shaft 3 with respect to the head 2.
Although the present embodiment in accordance with the present invention is described employing the wood-type golf club, the present invention may be used for any kinds of golf clubs such as iron-type, utility-type and putter-type golf clubs.
While the particularly preferable embodiments of the present invention have been described in detail, the present invention is not limited to the illustrated embodiments, but can be modified and carried out in various aspects.
Comparison Test
Golf clubs having a basic structure of
Firstly, each tested golf club was installed a swing robot, and then the robot repetitively struck golf balls by the top end of the hosel of the golf club instead of the hitting face, while increasing the head speeds 2 m/s every two shots up when the golf club began to break. The test results are indicated in Table 1 by the head speed at which the golf club began to break, wherein the larger the value, the better the endurance is.
Test results are shown in Table 1. From the test results, it was confirmed that Example golf clubs in accordance with the present embodiment can be improved the endurance.
Number | Date | Country | Kind |
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2013-114463 | May 2013 | JP | national |
Number | Name | Date | Kind |
---|---|---|---|
5226652 | Sato | Jul 1993 | A |
5454563 | Nagamoto et al. | Oct 1995 | A |
5718643 | Wright et al. | Feb 1998 | A |
6599202 | Miyamoto | Jul 2003 | B2 |
6638178 | Tseng | Oct 2003 | B2 |
7563176 | Roberts et al. | Jul 2009 | B2 |
20020137575 | Tseng | Sep 2002 | A1 |
20020165038 | Abe | Nov 2002 | A1 |
Number | Date | Country |
---|---|---|
11-104275 | Apr 1999 | JP |
2002-119623 | Apr 2002 | JP |
2002-177417 | Jun 2002 | JP |
2002-248184 | Sep 2002 | JP |
Number | Date | Country | |
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20140357398 A1 | Dec 2014 | US |