The present invention relates to a metallic golf club head having a hollow space therein.
Recently, golf club heads that are larger than conventional ones and have a flatter shape to yield a high moment of inertia have become commercially available. Although the club heads of this type have an advantage in being able to yield a high moment of inertia, they have a problem in that the natural frequency of the head is low, and therefore a low and muffled hitting sound, which is generally displeasing, is produced. If the head volume is increased to its limits within the range of specified weight, the wall thickness of head decreases, and also the head has a flatter shape, so that the areas of the sole and the crown increase. As a result, the natural frequencies of the sole and the crown decrease, which may adversely affect the hitting sound.
Japanese Unexamined Patent Application Publication No. 10-24128 describes a technique in which, in the hollow space of the golf club head, a plate-shaped rib for adjusting the hitting sound is provided on the inner surface of the sole only. Also, Japanese Unexamined Patent Application Publication No. 2002-186691 describes a technique in which, in the hollow space of the golf club head, plate-shaped ribs for adjusting the hitting sound are provided from the inner surface of the sole to the inner surface of a side.
Even if the rib proposed in the above-mentioned Publications is provided, when a high moment of inertia is desired, the problem still arises that a low and muffled hitting sound is produced. Specifically, if the golf club head is made large and flat to produce a high moment of inertia, the head deforms greatly, that is, the crown and the sole vibrate greatly at the time of impact with a golf ball, which may produce a low and muffled hitting sound.
Accordingly, an object of the present invention is to provide a golf club head that has a high moment of inertia and thus produces a good hitting sound.
To achieve the above object, a golf club head having a hollow space therein in accordance with the present invention includes a first member provided with at least a face part and a second member provided with at least a part of a sole part, at least a part of a crown part, at least a part of a side part, and a rib. The rib extends from the inner surface of at least a part of the sole part to the inner surface of at least a part of the crown part via the inner surface of at least a part of the side part. Also, the rib is cast integrally with at least a part of the sole part, at least a part of the crown part, and at least a part of the side part.
The rib may have a thickness of about 1 mm to about 4 mm. The rib can have a horizontal length Ls from the side part to the sole part of about 30 mm to about 70 mm. The rib may have a weight of about 5 g to about 40 g.
The rib may have substantially a C shape extending from the inner surface of the crown part to the inner surface of the sole part via the inner surface of the side part. The horizontal length Ls from the side part to the sole part can be equal to or greater than a horizontal length Lc of the rib from the side part to the crown part. The thickness of the rib in a tip end portion on the head center side can be thinner than that in a portion that is in contact with the inner surface of the sole part, the inner surface of the side part, or the inner surface of the crown part.
According to the present invention, the rib provided in the hollow space of the golf club head is provided so as to extend from the inner surface of the sole part to the inner surface of the crown part via the side part, and the rib is molded integrally with the sole part, the crown part, and the side part by casting. Thereby, the rigidity of the sole part and the crown part is increased remarkably, and the natural frequency is increased. Also, since the sole part and the crown part are fixed firmly to each other by the rib, the area of a portion that vibrates freely at the time of impact with a golf ball decreases, so that the wavelength decreases, that is, the frequency increases. Therefore, because of a high moment of inertia, even if the head is made large and flat, the hitting sound can be improved.
Embodiments of a golf club head in accordance with the present invention will now be described with reference to the accompanying drawings.
As shown in
The body member 10 includes the sole part 11, the crown part 12, a side part 13 that is positioned between the sole part and the crown part and extends around from the toe side to the heel side via the rear side, and a hosel part 15. Also, the body member 10 has a face opening 14 on the face side as shown in
Also, the body member 10 has an inner cavity 16, one end of which is the face opening 14. The inner cavity 16 is defined by the inner surfaces of the sole part 11, the crown part 12, the side part 13, and the wall surfaces of ribs 20. The ribs 20 extend substantially on the vertical surface from the inner surface ranging from the sole part 11 to the crown part 12 via the side part 13 when the golf club head 1 is placed at the ordinary address position. As shown in
Although
As shown in
The horizontal length Lc of the rib 20 from the side part 13 to the crown part 12 is preferably equal to or less than the aforementioned horizontal length Ls from the side part 13 to the sole part 11. If the horizontal length Lc from the side part to the crown part is greater than the horizontal length Ls from the side part to the sole part, there arises a problem in that the center of gravity of the head is too high. The horizontal length Lc from the side part 13 to the crown part 12 is preferably not less than about 5 mm, and more preferably not less than about 6 mm.
The shape of the rib 20 is preferably such that the face-side tip end of the portion that is in contact with the inner surface of the sole part 11 and the face-side tip end of the portion that is in contact with the inner surface of the crown part 12 are connected to each other substantially in a linear shape or a curved shape, or a combination of these shapes. In particular, a substantially C shape such that the tip ends are connected to each other after the connection line has once been curved to the head outside direction from the two tip ends is more preferable. By making the rib 20 substantially in the C shape, the moment of inertia of the head can be increased and the effect of restraining vibrations of the sole part and the crown part is maintained.
The thickness of the rib 20 is preferably not less than about 1 mm, and more preferably not less than about 1.2 mm, at positions at which the rib 20 is in contact with the inner surfaces of the sole part 11, the crown part 12, and the side part 13. If the thickness of the rib is less than about 1 mm, there arises a problem in that a misrun may occur at the time of casting, and thereby the rib may be broken. Also, the thickness of the rib is preferably not greater than about 4 mm, and more preferably not greater than 3.8 mm, at the positions at which the rib 20 is in contact with the inner surfaces. If the thickness of the rib is greater than about 4 mm, the excessive thickness may produce a misrun, or the rib weight may increase, which presents a problem in that it hinders larger head size or increased head weight. The weight of the rib 20 is preferably not less than about 5 g and preferably not more than 40 g.
As shown in
As shown in
As shown in
As a method for casting the body member 10, a method in which a mold is formed by investment casting, and molten metal is poured into the mold by vacuum centrifugal casting, is preferably used. However, the casting method is not limited to this method. For example, a casting machine manufactured by Consarc Corporation can be used. The face member 30 is preferably manufactured by press molding, although the manufacturing method for the face member 30 is not limited to this method. The body member 10 and the face member 30 can be fixed to each other by welding or the like method.
The thicknesses of the sole part 11, the crown part 12, and the side part 13 constituting the body member 10 are preferably made not larger than about 1.2 mm to increase the size of the golf club head. Also, the thicknesses thereof are preferably made not smaller than about 0.6 mm to avoid the decrease in rigidity caused by smaller thickness.
The area of the sole part 11 is preferably not less than about 5000 mm2, and preferably not more than about 17000 mm2. The area of the crown part 12 is preferably made not less than about 1000 mm2 so as to increase the moment of inertia and the volume. Also, the area of the crown part 12 is preferably made not larger than about 17000 mm2 because of the limitation under the rule. The weight of the golf club head 1 is preferably not less than about 150 g and preferably not more than about 250 g in consideration of the swing balance of the golf club. If the golf club is a driver, the weight thereof is preferably not less than about 170 g and preferably not more than about 230 g. The volume of the golf club head 1 is preferably not less than about 400 mm2 and preferably not more than about 500 mm2.
The body member 10 and the face member 30 can be manufactured of a metallic material having the same or differing composition. The body member 10 is preferably manufactured of a titanium alloy, aluminum alloy, or magnesium alloy. For example, a titanium alloy (Ti-6Al-4V) having a composition of 5.5-6.75 wt % Al and 3.5-4.5 wt % V, the balance being Ti and unavoidable impurities, can be used. The body member 10 may be manufactured of stainless steel. Also, the face member 30 is preferably manufactured of a titanium alloy or aluminum alloy. For example, the aforementioned Ti-6Al-4V or AMS-A201 (aluminum alloy) can be used.
In the embodiment explained with reference to
The golf club heads of examples 1 to 7, having configurations shown in
In example 1, a rib 61 as shown in
In example 2, as shown in
In example 3, as shown in
In example 4, as shown in
In example 5, as shown in
In example 6, as shown in
In example 7, as shown in
Table 1
1: Comparative example
2: Example
3: Weight
4: Distance of center of gravity
5: Angle of center of gravity
6: Volume
7: Sole thickness
8: Crown thickness
9: Side thickness
10: Sole area
11: Crown area
DYG: Vertical distance from the face center to the position of center of gravity on the face surface (mm)
ZG: Depth of center of gravity of the head (mm)
IX: Geometrical moment of inertia of a reference cross section with respect to x-axis (g·cm2[[mm4]])
IY: Geometrical moment of inertia of a reference cross section with respect to y-axis (g·cm2[[mm4]])
HGR: Height of center of gravity of the head (mm)
As shown in Table 1, in comparative example 1 without a rib, a low sound was produced when a golf ball was hit. On the other hand, in examples 1 to 7 with rib(s), the hitting sound was high. Also, in comparative example 1 without a rib, the moment of inertia IY was as low as about 4100 g·cm2, whereas the moments of inertia IY of examples 1 to 7 with rib(s) were increased to about 4400 g·cm2 or higher.
This is a divisional of application Ser. No. 12/821,627 filed Jun. 23, 2010, which is a divisional of application Ser. No. 12/057,664 filed Mar. 28, 2008. The entire disclosure of the prior applications, application Ser. No. 12/821,627 and 12/057,664 are hereby incorporated by reference.
Number | Date | Country | |
---|---|---|---|
Parent | 12821627 | Jun 2010 | US |
Child | 13233488 | US | |
Parent | 12057664 | Mar 2008 | US |
Child | 12821627 | US |