US20090017938A1 - Wood-type golf club head - Google Patents
Wood-type golf club head Download PDFInfo
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- US20090017938A1 US20090017938A1 US12/216,455 US21645508A US2009017938A1 US 20090017938 A1 US20090017938 A1 US 20090017938A1 US 21645508 A US21645508 A US 21645508A US 2009017938 A1 US2009017938 A1 US 2009017938A1
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- Prior art keywords
- face
- club head
- inertia
- head
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- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
- A63B53/00—Golf clubs
- A63B53/04—Heads
- A63B53/0466—Heads wood-type
-
- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
- A63B53/00—Golf clubs
- A63B53/04—Heads
- A63B53/0458—Heads with non-uniform thickness of the impact face plate
- A63B53/0462—Heads with non-uniform thickness of the impact face plate characterised by tapering thickness of the impact face plate
-
- A—HUMAN NECESSITIES
- A63—SPORTS; GAMES; AMUSEMENTS
- A63B—APPARATUS FOR PHYSICAL TRAINING, GYMNASTICS, SWIMMING, CLIMBING, OR FENCING; BALL GAMES; TRAINING EQUIPMENT
- A63B53/00—Golf clubs
- A63B53/04—Heads
- A63B53/0408—Heads characterised by specific dimensions, e.g. thickness
Definitions
- the present invention relates to a wood-type golf club head, more particularly to a club face having curvature specifically defined in relation to a moment of inertia of the head in order to achieve carry distance and steady directionality.
- Such variation of backspin can be reduced by a face roll because the face roll can lessen the vertical gear effect.
- the vertical gear effect is as follows. If the ball hitting position is off the sweet spot SS upwards or downwards, then as shown in FIG. 8 , with respect to a horizontal axis extending in the toe-heel direction passing through the center of gravity G of the head, there is caused a moment which is a product of the impact force F received from the golf ball (b) and the distance L 1 or L 2 between the hitting position and the center of gravity G measured perpendicular to the direction of the force F. As a result, the club head is rotated around the horizontal axis by a small angle.
- the contact surface of the golf ball receives a force in the reverse direction to the rotational direction of the club head like a gear. Accordingly, the backspin of the ball is decreased in the case of an upper hitting position or increased in the case of a lower hitting position.
- the distance L 1 or L 2 becomes relatively small, and the moment is decreased accordingly. Therefore, the vertical gear effect is lessened, and the variation of backspin is also decreased.
- the face roll can increase the ball launch angle, therefore, a decrease in the ballistic height due to the above-explained decrease in the backspin can be compensated thereby.
- the face roll in the case of the lower hitting position, can decrease the ball launch angle, therefore, an increase in the ballistic height due to the above-explained increase in the backspin can be compensated thereby.
- an object of the present invention to provide a wood-type golf club head in which, although the vertical moment of inertia is large, the decrease in the carry distance due to the ball hitting position which is off the sweet spot upward or downward, can be lessened.
- a wood-type golf club head has a club face provided with a face roll of which radius of curvature Y (inch) satisfies:
- Ma is a vertical moment of inertia (g sq ⁇ cm) of the head around a horizontal axis extending through the center of gravity of the head in parallel with a toe-heel direction of the head.
- the standard state of the club head is such that the club head is set on a horizontal plane HP so that the axis CL of the clubshaft (not shown) is inclined at the lie angle (alpha) while keeping the axis CL on a vertical plane VP, and the club face 2 forms its loft angle (beta) with respect to the horizontal plane HP.
- the center line of the shaft inserting hole 7 a can be used instead of the axis CL of the clubshaft.
- “Sweet spot SS” is the point of intersection between the club face 2 and a straight line N drawn normally to the club face 2 passing through the center of gravity G of the head.
- Back-and-forth direction is a direction parallel with the straight line N projected on the horizontal plane HP.
- Heel-and-toe direction is a direction parallel with the horizontal plane HP and perpendicular to the back-and-forth direction.
- up-and-down direction is a direction perpendicular to the horizontal plane HP.
- “Vertical moment of inertia Ma” is the moment of inertia of the head around a horizontal axis passing through the center of gravity G in parallel to the toe-heel direction of the head.
- “Lateral moment of inertia Mb” is the moment of inertia of the head around a vertical axis passing through the center of gravity G.
- “Face progression FP” is the horizontal distance of the leading edge Le of the club head 1 from the vertical plane VP including the club shaft center line CL, measured in a vertical plane including the sweet spot Ss and the center of gravity G as shown in FIG. 3 .
- “Edge” of the club face 2 if the edge ( 2 a , 2 b , 2 c and 2 d ) is unclear due to smooth change in the curvature of the club face 2 , a virtual edge line (Pe) which is defined based on the curvature change, is used instead as follows.
- a point Pe at which the radius (r) of curvature of the profile line Lf of the face portion first becomes under 20 mm in the course from the center SS to the periphery of the club face is determined. Then, the virtual edge line is defined as a locus of the points Pe.
- wood-type golf club is meant for at least number 1 to 5 woods, and clubs comprising heads having similar shapes may be included.
- FIG. 1 is a front view of a wood-type golf club head according to the present invention.
- FIG. 2 is a top view thereof.
- FIG. 3 is a cross sectional view taken along line A-A in FIG. 2 .
- FIG. 4 is a cross sectional view of the face portion for explaining the face roll.
- FIG. 5 is a cross sectional view of the face portion for explaining the face bulge.
- FIGS. 6 and 7 are a front view and a cross sectional view of a face portion for explaining the edge of the club face.
- FIGS. 8 and 9 are cross sectional views for explaining a vertical gear effect.
- FIGS. 10 and 11 are cross sectional views for explaining a horizontal gear effect.
- wood-type golf club head 1 comprises: a face portion 3 whose front face defines a club face 2 for striking a ball; a crown portion 4 intersecting the club face 2 at the upper edge 2 a thereof; a sole portion 5 intersecting the club face 2 at the lower edge 2 b thereof; a side portion 6 between the crown portion 4 and sole portion 5 which extends from a toe-side edge 2 c to a heel-side edge 2 d of the club face 2 through a back face BF of the club head; and a hosel portion 7 at the heel side end of the crown to be attached to an end of a club shaft (not shown) inserted into the shaft inserting hole 7 a .
- the club head 1 is provided with a hollow (i) and a shell structure with the thin wall.
- the club face 2 is provided with a face roll FR (a curvature from crown to sole) and a face bulge FB (a curvature from heel to toe). Further, the face 2 is provided with parallel score lines 9 extending straight in the toe-heel direction. The score lines 9 are fine grooves for creating a suitable friction between the face and ball at impact even in wet conditions so as to effectively prevent so called drop ball.
- fiber reinforced resins can be used as light weight materials to form a part of the club head 1 .
- the club head 1 is made of one or more metal materials only.
- Various metal materials for example, stainless alloys, maraging steels, pure titanium, titanium alloys, magnesium alloys, aluminum alloys and the like can be used.
- the use of metal materials having high specific tensile strength is desirable.
- titanium alloys for example, Ti-6Al-4V, Ti-15V-3Cr-3Al-3Sn, Ti-15Mo-5Zr-3Al, Ti-13V-11Cr-3Al and the like can be suitably used.
- the club head 1 can be manufactured by assembling two or more (usually up to 5 or 6) parts each prepared through a suitable process for example, casting, forging, pressure molding or the like.
- the head is for a number 1 wood.
- the volume of the club head 1 is preferably not less than 400 cc, more preferably not less than 420 cc, still more preferably not less than 440 cc in order to increase the moment of inertia and the depth of the center of gravity.
- the club head volume is preferably not more than 600 cc, more preferably not more than 500 cc. According to the golf rules, the club head volume is not more than 470 cc, thus the volume is set to be 460 cc or less as circumstances demand.
- the height h of the face 2 is set in a range of not less than 30 mm, preferably not less than 35 mm, more preferably not less than 40 mm, but not more than 70 mm, preferably not more than 65 mm, more preferably not more than 60 mm when measured between the upper edge 2 a and the lower edge 2 b in the vertical plane including the sweet spot as shown in FIG. 4 . If the height h is too small, it becomes difficult to hit the ball, and the impact resilience of the face is decreased to decrease the carry distance. If the height h is too large, there is a possibility that the position of the sweet spot SS becomes unfavorably high, and the carry distance is decreased.
- the width FW of the face 2 is preferably set in a range of not less than 90 mm, more preferably not less than 95 mm, still more preferably not less than 100 mm, but not more than 130 mm, more preferably not more than 127 mm, still more preferably not more than 125 mm when measured in the toe-heel direction between the toe-side edge 2 c and heel-side edge 2 d passing through the sweet spot SS as shown in FIG. 1 .
- the vertical moment of inertia Ma is set to be not less than 3000 (g sq ⁇ cm), preferably not less than 3200 (g sq ⁇ cm), more preferably not less than 3500 (g sq ⁇ cm), still more preferably not less than 3900 (g sq ⁇ cm).
- the vertical moment of inertia Ma is less than 3000 (g sq ⁇ cm), it becomes difficult to obtain these effects. If the vertical moment of inertia Ma is too large contrary, there is possibility that the club head weight unavoidably increases or the shape of the club head becomes peculiar. Therefore, the vertical moment of inertia Ma is preferably not more than 4500 (g sq ⁇ cm), more preferably not more than 4000 (g sq ⁇ cm).
- the ball launch angle becomes substantially equal to the angle of a normal line drawn to the club face 2 at the ball hitting position.
- the radius of curvature Y of the face roll FR is small, if the ball hitting position is off the sweet spot SS upward, then the launch angle becomes relatively large, when compared with the ball hitting position is the sweet spot SS. If the ball hitting position is off the sweet spot SS downward, then the launch angle becomes relatively small. In either event, the carry distance is decreased.
- the radius of curvature Y (inch) of the face roll FR is limited in relation to the vertical moment of inertia Ma (g sq ⁇ cm) as follows:
- the ratio (Ma/Y) is not more than 245, more preferably not more than 200, still more preferably not more than 195.
- the ratio (Ma/Y) is not less than 90, preferably not less than 110, more preferably not less than 130.
- the radius of curvature Y is preferably not less than 15 inches, more preferably not less than 16 inches, still more preferably not less than 20 inches.
- the radius of curvature Y may be infinitely great, it is preferred that the radius Y is not more than 100 inches, more preferably not more than 50 inches, still more preferably not more than 40 inches in order to slightly fix the ball launch angle at the upper and lower hits because, even in the club head having a large vertical moment of inertia Ma, slight vertical gear effect occurs.
- the lateral moment of inertia Mb is set in a range of not less than 4000 (g sq ⁇ cm), preferably not less than 4500 (g sq ⁇ cm), more preferably not less than 5000 (g sq ⁇ cm), still more preferably not less than 5200 (g sq ⁇ cm).
- the lateral moment of inertia Mb is preferably not more than 8000 (g sq ⁇ cm), more preferably not more than 6000 (g sq ⁇ cm).
- the club head 1 In the case that the ball hitting position is off the sweet spot SS towards the toe, as shown in FIG. 10 (illustrating a right-handed case), the club head 1 is rotated clockwise around the center of gravity G, and a counterclockwise sidespin is given to the ball (b). On the other hand, in the case that the ball hitting position is off the sweet spot SS towards the heel, the club head 1 is rotated counterclockwise around the center of gravity G, and a clockwise sidespin is given to the ball (b). Such phenomenon is known as horizontal gear effect.
- the ball hitting position is off the sweet spot SS toward the toe (toe-side hitting)
- the ball is launched rightward at an angle ⁇ t with respect to the target trajectory j, and due to the sidespin (hook spin), the ball returns towards the target trajectory j.
- the ball hitting position is off the sweet spot SS toward the heel (heel-side hitting)
- the ball is launched leftward at an angle ⁇ h with respect to the target trajectory j, and due to the sidespin (slice spin), the ball returns towards the target trajectory j.
- the deterioration of the directionality is reduced.
- the face bulge FB is provided with a radius of curvature X (inch) satisfying
- Mb is the above-mentioned lateral moment of inertia in g sq ⁇ cm.
- the ratio (Mb/x) is not more than 325, more preferably not more than 260, but not less than 50, more preferably not less than 100, still more preferably not less than 130.
- the horizontal launch angle ⁇ t or ⁇ h at the time of toe-side or heel-side hitting is optimized and the deterioration of the directionality can be prevented. If the ratio (Mb/X) is less than 350, hook tendency and slice tendency become noticeable at the time of toe-side hitting and heel-side hitting, respectively.
- the numerical value of the radius of curvature X of the face bulge FB is preferably not less than 15 inches, more preferably not less than 16 inches, still more preferably not less than 20 inches. If the radius X is less than 15 inches, the above-mentioned advantageous effect tends to decrease. Although the radius of curvature X may be infinitely great, it is preferred that the radius X is not more than 100 inches, more preferably not more than 50 inches, still more preferably not more than 40 inches, so that the ball is launched at a small horizontal launch angle at the time of toe-side or heel-side hitting because, even in the club head having a large lateral moment of inertia Mb, slight horizontal gear effect occurs.
- the vertical moment of inertia Ma is less than the lateral moment of inertia Mb.
- the vertical gear effect comes out stronger than the horizontal gear effect. Therefore, it is desirable to make the radius of curvature Y of the face-roll FR less than the radius of curvature X of the face bulge FB in order to lessen the difference between the vertical and horizontal gear effects.
- the radius ratio (X/Y) is not less than 1.2, more preferably not less than 1.5.
- the radius ratio (X/Y) is not more than 3.5, more preferably not more than 3.0.
- the face roll FR and face bulge FB extend over the almost entirety of the club face 2 .
- the center of the radius of curvature Y is positioned backwardly far from the center of gravity G.
- the center of the radius of curvature X is positioned backwardly far from the center of gravity G of the head.
- the radius of curvature Y is a single radius.
- the horizontal plane including the sweet spot SS as shown in FIG.
- the radius of curvature X is a single radius.
- the radius Y or X may be varied as far as the above-mentioned limitations are satisfied.
- the face progression FP is increased to at least 20 mm, preferably not less than 21 mm as shown in FIG. 3 .
- the center line CL of the shaft axis is relatively shifted toward the backward of the club face. Namely, without decreasing the lateral moment of inertia Mb and the depth GL 2 of the center of gravity G, the center line CL of the shaft axis approaches the center of gravity G, and the moment of inertia Mc of the head around the center line CL is decreased.
- the face progression FP is preferably not more than 25 mm, more preferably not more than 24 mm, still more preferably not more than 23 mm.
- Wood-type hollow metal heads were prepared and tested for carry distance and directionality.
- Each of the club heads was composed of:
- a hollow main body formed by casting a titanium alloy Ti-6Al-4V and provided with an opening in the crown portion; a tungsten-alloy weight fixed to the inside of the main body by the use of an epoxide resin adhesive; and a crown plate formed by forging a titanium alloy Ti-15V-3Cr-3Sn and fixed to main body by laser-welding so as to cover the opening.
- the specifications common to all of the heads are as follows:
- Thickness of the crown portion 0.4 mm
- Thickness of the face portion is the thickness of the face portion
- Each of the club heads was attached to a FRP shaft (“MP400” manufactured by SRI Sports Limited, flex R, mass 48 grams) to make a number 1 wood, and the wood club was mounted on a swing robot. Then, the each head hit three-piece balls (SRIXON Z-UR, manufactured by SRI Sports Limited) six times par each of the following five hitting positions to obtain the average carry distance of the six shots.
- the head speed was 45 meter/second.
- Toe-side 10 mm toe-side of SS
Abstract
A wood-type golf club head has a club face provided with a face roll, and the radius of curvature Y in inch of the face roll satisfies: Ma/Y=<250 and Ma>=3000, wherein Ma is a vertical moment of inertia in g sq·cm of the head around a horizontal axis extending through the center of gravity of the head in parallel with a toe-heel direction of the head.
Description
- The present invention relates to a wood-type golf club head, more particularly to a club face having curvature specifically defined in relation to a moment of inertia of the head in order to achieve carry distance and steady directionality.
- In the wood-type golf club heads, in order to increase the carry distance, various studies have been made, and it has been known to be effective to avoid so called “ballooning”, or “rising” trajectory by reducing the backspin of the golf ball at impact.
- On the other hand, it is desirable that the carry distance is not so varied even if the ball hitting positions of the club face are off the sweet spot upward or downward, therefore, it is desirable to decrease the variation of backspin due to the change in the ball hitting position in the up-and-down direction.
- Such variation of backspin can be reduced by a face roll because the face roll can lessen the vertical gear effect.
- As well known in the art, the vertical gear effect is as follows. If the ball hitting position is off the sweet spot SS upwards or downwards, then as shown in
FIG. 8 , with respect to a horizontal axis extending in the toe-heel direction passing through the center of gravity G of the head, there is caused a moment which is a product of the impact force F received from the golf ball (b) and the distance L1 or L2 between the hitting position and the center of gravity G measured perpendicular to the direction of the force F. As a result, the club head is rotated around the horizontal axis by a small angle. - Due to the frictional engagement between the golf ball and the club face (fn), the contact surface of the golf ball receives a force in the reverse direction to the rotational direction of the club head like a gear. Accordingly, the backspin of the ball is decreased in the case of an upper hitting position or increased in the case of a lower hitting position.
- By providing a face roll as shown in
FIG. 9 , the distance L1 or L2 becomes relatively small, and the moment is decreased accordingly. Therefore, the vertical gear effect is lessened, and the variation of backspin is also decreased. - Further, in the case of the upper hitting position, the face roll can increase the ball launch angle, therefore, a decrease in the ballistic height due to the above-explained decrease in the backspin can be compensated thereby. On the other hand, in the case of the lower hitting position, the face roll can decrease the ball launch angle, therefore, an increase in the ballistic height due to the above-explained increase in the backspin can be compensated thereby.
- In recent years, on the other hand, large-sized wood-type golf club heads are widely used. Such a large-sized head has a relatively large vertical moment of inertia Ma. As a result, even if the ball hitting positions are off the sweet spot upward or downward, the above-mentioned rotation of the club head at impact becomes decreased, and the vertical gear effect is also lessened.
- Therefore, in the case of the upper hitting position, the backspin is not fully decreased due to the lessened vertical gear effect whereas the launch angle is increased by the face roll. As a result, the trajectory is liable to become “rising” trajectory and thereby the carry distance is decreased.
- On the other hand, in the case of the lower hitting position, the backspin is not fully increased due to the lessened vertical gear effect whereas the launch angle is decreased by the face roll. As a result, the ballistic height becomes very low, and again the carry distance is decreased.
- It is therefore, an object of the present invention to provide a wood-type golf club head in which, although the vertical moment of inertia is large, the decrease in the carry distance due to the ball hitting position which is off the sweet spot upward or downward, can be lessened.
- According to the present invention, a wood-type golf club head has a club face provided with a face roll of which radius of curvature Y (inch) satisfies:
-
Ma/Y=<250 and -
Ma>=3000 - wherein
Ma is a vertical moment of inertia (g sq·cm) of the head around a horizontal axis extending through the center of gravity of the head in parallel with a toe-heel direction of the head. - In this specification, dimensions, positions, directions and the like relating to the club head refer to those under a standard state of the club head unless otherwise noted.
- Here, the standard state of the club head is such that the club head is set on a horizontal plane HP so that the axis CL of the clubshaft (not shown) is inclined at the lie angle (alpha) while keeping the axis CL on a vertical plane VP, and the
club face 2 forms its loft angle (beta) with respect to the horizontal plane HP. Incidentally, in the case of the club head alone, the center line of theshaft inserting hole 7 a can be used instead of the axis CL of the clubshaft. - “Sweet spot SS” is the point of intersection between the
club face 2 and a straight line N drawn normally to theclub face 2 passing through the center of gravity G of the head. - “Back-and-forth direction” is a direction parallel with the straight line N projected on the horizontal plane HP.
- “Heel-and-toe direction” is a direction parallel with the horizontal plane HP and perpendicular to the back-and-forth direction.
- “up-and-down direction” is a direction perpendicular to the horizontal plane HP.
- “Vertical moment of inertia Ma” is the moment of inertia of the head around a horizontal axis passing through the center of gravity G in parallel to the toe-heel direction of the head.
- “Lateral moment of inertia Mb” is the moment of inertia of the head around a vertical axis passing through the center of gravity G.
- “Face progression FP” is the horizontal distance of the leading edge Le of the
club head 1 from the vertical plane VP including the club shaft center line CL, measured in a vertical plane including the sweet spot Ss and the center of gravity G as shown inFIG. 3 . - “Edge” of the club face 2: if the edge (2 a, 2 b, 2 c and 2 d) is unclear due to smooth change in the curvature of the
club face 2, a virtual edge line (Pe) which is defined based on the curvature change, is used instead as follows. As shown inFIGS. 6 and 7 , in each cutting plane E1, E2 . . . including the straight line N extending between the sweet spot SS and the center of gravity G, a point Pe at which the radius (r) of curvature of the profile line Lf of the face portion first becomes under 20 mm in the course from the center SS to the periphery of the club face is determined. Then, the virtual edge line is defined as a locus of the points Pe. - “wood-type golf club” is meant for at least
number 1 to 5 woods, and clubs comprising heads having similar shapes may be included. -
FIG. 1 is a front view of a wood-type golf club head according to the present invention. -
FIG. 2 is a top view thereof. -
FIG. 3 is a cross sectional view taken along line A-A inFIG. 2 . -
FIG. 4 is a cross sectional view of the face portion for explaining the face roll. -
FIG. 5 is a cross sectional view of the face portion for explaining the face bulge. -
FIGS. 6 and 7 are a front view and a cross sectional view of a face portion for explaining the edge of the club face. -
FIGS. 8 and 9 are cross sectional views for explaining a vertical gear effect. -
FIGS. 10 and 11 are cross sectional views for explaining a horizontal gear effect. - In the drawings, wood-type
golf club head 1 according to the present invention comprises: aface portion 3 whose front face defines aclub face 2 for striking a ball; acrown portion 4 intersecting theclub face 2 at theupper edge 2 a thereof; asole portion 5 intersecting theclub face 2 at thelower edge 2 b thereof; aside portion 6 between thecrown portion 4 andsole portion 5 which extends from a toe-side edge 2 c to a heel-side edge 2 d of theclub face 2 through a back face BF of the club head; and ahosel portion 7 at the heel side end of the crown to be attached to an end of a club shaft (not shown) inserted into theshaft inserting hole 7 a. Thus, theclub head 1 is provided with a hollow (i) and a shell structure with the thin wall. - The
club face 2 is provided with a face roll FR (a curvature from crown to sole) and a face bulge FB (a curvature from heel to toe). Further, theface 2 is provided withparallel score lines 9 extending straight in the toe-heel direction. Thescore lines 9 are fine grooves for creating a suitable friction between the face and ball at impact even in wet conditions so as to effectively prevent so called drop ball. - In order to reduce the weight of the head and to adjust the position of the center of gravity G of the head, fiber reinforced resins can be used as light weight materials to form a part of the
club head 1. But, in this example, theclub head 1 is made of one or more metal materials only. Various metal materials, for example, stainless alloys, maraging steels, pure titanium, titanium alloys, magnesium alloys, aluminum alloys and the like can be used. But, the use of metal materials having high specific tensile strength is desirable. In the case of titanium alloys for example, Ti-6Al-4V, Ti-15V-3Cr-3Al-3Sn, Ti-15Mo-5Zr-3Al, Ti-13V-11Cr-3Al and the like can be suitably used. - The
club head 1 can be manufactured by assembling two or more (usually up to 5 or 6) parts each prepared through a suitable process for example, casting, forging, pressure molding or the like. - In this embodiment, the head is for a
number 1 wood. - The volume of the
club head 1 is preferably not less than 400 cc, more preferably not less than 420 cc, still more preferably not less than 440 cc in order to increase the moment of inertia and the depth of the center of gravity. - However, to prevent an excessive increase in the club head weight and deteriorations of swing balance and durability, the club head volume is preferably not more than 600 cc, more preferably not more than 500 cc. According to the golf rules, the club head volume is not more than 470 cc, thus the volume is set to be 460 cc or less as circumstances demand.
- The height h of the
face 2 is set in a range of not less than 30 mm, preferably not less than 35 mm, more preferably not less than 40 mm, but not more than 70 mm, preferably not more than 65 mm, more preferably not more than 60 mm when measured between theupper edge 2 a and thelower edge 2 b in the vertical plane including the sweet spot as shown inFIG. 4 . If the height h is too small, it becomes difficult to hit the ball, and the impact resilience of the face is decreased to decrease the carry distance. If the height h is too large, there is a possibility that the position of the sweet spot SS becomes unfavorably high, and the carry distance is decreased. - Also, the width FW of the
face 2 is preferably set in a range of not less than 90 mm, more preferably not less than 95 mm, still more preferably not less than 100 mm, but not more than 130 mm, more preferably not more than 127 mm, still more preferably not more than 125 mm when measured in the toe-heel direction between the toe-side edge 2 c and heel-side edge 2 d passing through the sweet spot SS as shown inFIG. 1 . - The vertical moment of inertia Ma is set to be not less than 3000 (g sq·cm), preferably not less than 3200 (g sq·cm), more preferably not less than 3500 (g sq·cm), still more preferably not less than 3900 (g sq·cm).
- Therefore, even if the ball hitting position is off the sweet spot upward or downward, the rotation of the
club head 1 at impact around the horizontal axis passing through the center of gravity can be reduced, and the vertical gear effect is lessened. Thereby, the variation of backspin due to the variation of the ball hitting positions is reduced.
If the vertical moment of inertia Ma is less than 3000 (g sq·cm), it becomes difficult to obtain these effects. If the vertical moment of inertia Ma is too large contrary, there is possibility that the club head weight unavoidably increases or the shape of the club head becomes peculiar. Therefore, the vertical moment of inertia Ma is preferably not more than 4500 (g sq·cm), more preferably not more than 4000 (g sq·cm). - Meanwhile, the ball launch angle becomes substantially equal to the angle of a normal line drawn to the
club face 2 at the ball hitting position. In the case that the radius of curvature Y of the face roll FR is small, if the ball hitting position is off the sweet spot SS upward, then the launch angle becomes relatively large, when compared with the ball hitting position is the sweet spot SS. If the ball hitting position is off the sweet spot SS downward, then the launch angle becomes relatively small. In either event, the carry distance is decreased. - In the present invention, therefore, the radius of curvature Y (inch) of the face roll FR is limited in relation to the vertical moment of inertia Ma (g sq·cm) as follows:
-
Ma/Y=<250 - thereby, the increase in the launch angle at the time of upper hitting is reduced, and “ballooning” or “rising” trajectory can be prevented. Also, the decrease in the launch angle at the time of lower hitting is reduced, and the decrease in the carry distance due to the low ballistic height can be prevented. Preferably, the ratio (Ma/Y) is not more than 245, more preferably not more than 200, still more preferably not more than 195. However, if the ratio (Ma/y) is less than 90, the ballistic course tends to become excessively low at the time of upper hitting, or excessively high at the time of lower hitting, therefore, the ratio (Ma/Y) is not less than 90, preferably not less than 110, more preferably not less than 130.
- If the numerical value of the radius of curvature Y is less than 15 inches, then the above-mentioned advantageous effects are lessened, therefore, the radius of curvature Y is preferably not less than 15 inches, more preferably not less than 16 inches, still more preferably not less than 20 inches.
- Although the radius of curvature Y may be infinitely great, it is preferred that the radius Y is not more than 100 inches, more preferably not more than 50 inches, still more preferably not more than 40 inches in order to slightly fix the ball launch angle at the upper and lower hits because, even in the club head having a large vertical moment of inertia Ma, slight vertical gear effect occurs.
- In this embodiment, further, the lateral moment of inertia Mb is set in a range of not less than 4000 (g sq·cm), preferably not less than 4500 (g sq·cm), more preferably not less than 5000 (g sq·cm), still more preferably not less than 5200 (g sq·cm).
- Therefore, even if the ball hitting position is off the sweet spot toward the toe or heel, the rotation of the head at impact around the vertical axis passing through the center of gravity G can be reduced. As a result, by the user's intentional rotating of the head around the clubshaft center line CL to the proper address position, the deterioration of directionality of the struck ball can be avoided.
- But, if the lateral moment of inertia Mb is too large, then there is possibility that the club head weight unavoidably increases or the shape of the club head becomes peculiar. Therefore, the lateral moment of inertia Mb is preferably not more than 8000 (g sq·cm), more preferably not more than 6000 (g sq·cm).
- When the lateral moment of inertia Mb has a relatively large value as above, similar phenomenon to that explained in relation to the vertical gear effect occurs as follows.
- In the case that the ball hitting position is off the sweet spot SS towards the toe, as shown in
FIG. 10 (illustrating a right-handed case), theclub head 1 is rotated clockwise around the center of gravity G, and a counterclockwise sidespin is given to the ball (b). On the other hand, in the case that the ball hitting position is off the sweet spot SS towards the heel, theclub head 1 is rotated counterclockwise around the center of gravity G, and a clockwise sidespin is given to the ball (b). Such phenomenon is known as horizontal gear effect. - Due to the sidespin, therefore, the struck ball is liable to travel out of the target trajectory J to the left or right.
- Such deviation, namely, deterioration of the directionality due to the horizontal gear effect can be reduced by a face bulge.
- By providing a face bulge, as shown in
FIG. 11 , in the case that the ball hitting position is off the sweet spot SS toward the toe (toe-side hitting), the ball is launched rightward at an angle θt with respect to the target trajectory j, and due to the sidespin (hook spin), the ball returns towards the target trajectory j. In the case that the ball hitting position is off the sweet spot SS toward the heel (heel-side hitting), the ball is launched leftward at an angle θh with respect to the target trajectory j, and due to the sidespin (slice spin), the ball returns towards the target trajectory j. Thus, the deterioration of the directionality is reduced. - When the lateral moment of inertia Mb becomes more than 4000 (g sq·cm), the horizontal gear effect is decreased, and accordingly the sidespin is decreased whereas the ball is launched at the angle θt or θh due to the face bulge at the time of toe-side or heel-side hitting. Accordingly, there is possibility that the face bulge deteriorates the directionality.
- In this embodiment, therefore, the face bulge FB is provided with a radius of curvature X (inch) satisfying
-
Mb/X=<350 - wherein
Mb is the above-mentioned lateral moment of inertia in g sq·cm. Preferably, the ratio (Mb/x) is not more than 325, more preferably not more than 260, but not less than 50, more preferably not less than 100, still more preferably not less than 130.
As a result, the horizontal launch angle θt or θh at the time of toe-side or heel-side hitting, is optimized and the deterioration of the directionality can be prevented. If the ratio (Mb/X) is less than 350, hook tendency and slice tendency become noticeable at the time of toe-side hitting and heel-side hitting, respectively. - The numerical value of the radius of curvature X of the face bulge FB is preferably not less than 15 inches, more preferably not less than 16 inches, still more preferably not less than 20 inches. If the radius X is less than 15 inches, the above-mentioned advantageous effect tends to decrease. Although the radius of curvature X may be infinitely great, it is preferred that the radius X is not more than 100 inches, more preferably not more than 50 inches, still more preferably not more than 40 inches, so that the ball is launched at a small horizontal launch angle at the time of toe-side or heel-side hitting because, even in the club head having a large lateral moment of inertia Mb, slight horizontal gear effect occurs.
- In this embodiment, the vertical moment of inertia Ma is less than the lateral moment of inertia Mb. In this case, there is a tendency that the vertical gear effect comes out stronger than the horizontal gear effect. Therefore, it is desirable to make the radius of curvature Y of the face-roll FR less than the radius of curvature X of the face bulge FB in order to lessen the difference between the vertical and horizontal gear effects. Preferably, the radius ratio (X/Y) is not less than 1.2, more preferably not less than 1.5. But, if the ratio (X/Y) is more than 3.5, the radius of curvature Y of the face roll is decreased and the above-mentioned negative aspects arise, therefore, the radius ratio (X/Y) is not more than 3.5, more preferably not more than 3.0.
- In this embodiment, the face roll FR and face bulge FB extend over the almost entirety of the
club face 2. - The center of the radius of curvature Y is positioned backwardly far from the center of gravity G.
The center of the radius of curvature X is positioned backwardly far from the center of gravity G of the head.
In the vertical plane including the sweet spot SS and the center of gravity G, as shown inFIG. 4 , at least between an upper point Pu 10 mm downward from theupper edge 2 a of theface 2 and a lower point Pd 10 mm upward from thelower edge 2 b of theface 2, the radius of curvature Y is a single radius.
In the horizontal plane including the sweet spot SS, as shown inFIG. 5 , at least between a toe-side point Pt 20 mm toward the sweet spot from the toe-side edge 2 c and a heel-side point Ph 20 mm toward the sweet spot from the heel-side edge 2 d, the radius of curvature X is a single radius.
However, in the above-mentioned range between (Pu and Pd) or (Pt and Ph), the radius Y or X may be varied as far as the above-mentioned limitations are satisfied. - In this embodiment, further, the face progression FP is increased to at least 20 mm, preferably not less than 21 mm as shown in
FIG. 3 . By increasing the face progression FP in this way, the center line CL of the shaft axis is relatively shifted toward the backward of the club face. Namely, without decreasing the lateral moment of inertia Mb and the depth GL2 of the center of gravity G, the center line CL of the shaft axis approaches the center of gravity G, and the moment of inertia Mc of the head around the center line CL is decreased. - Therefore, it becomes easy even for the beginner and intermediate golfers to rotate the head around the clubshaft center line CL during swing. As the
club head 1 is easy to control, in cooperation with the large lateral moment of inertia Mb, good directionality can be obtained.
But, if the face progression FP is excessively large, then the moment of inertia Mc decreases and the club head is liable to rotate in excess. As a result, hook tends to occur. Further, it becomes difficult to address the ball. In this light, the face progression FP is preferably not more than 25 mm, more preferably not more than 24 mm, still more preferably not more than 23 mm. - Wood-type hollow metal heads were prepared and tested for carry distance and directionality.
- Each of the club heads was composed of:
- a hollow main body formed by casting a titanium alloy Ti-6Al-4V and provided with an opening in the crown portion;
a tungsten-alloy weight fixed to the inside of the main body by the use of an epoxide resin adhesive; and
a crown plate formed by forging a titanium alloy Ti-15V-3Cr-3Sn and fixed to main body by laser-welding so as to cover the opening.
The specifications common to all of the heads are as follows: - Head volume: 460 cc
- Head mass: 198 g
- Lie angle: 58 degrees
- Loft angle: 10.5 degrees
- Face height h: 52 mm
- Face width FW: 105 mm
- Thickness of the crown portion: 0.4 mm
- Thickness of the face portion:
-
- 3.8 mm in a central portion including the sweet spot
- 2.5 mm in the peripheral portion
The moments of inertia Ma and Mb were changed by changing the thicknesses of the sole portion, side portion and/or crown portion, the mass of the weight member, the position of the hosel portion as shown in Tables 1, 2 and 3.
- Each of the club heads was attached to a FRP shaft (“MP400” manufactured by SRI Sports Limited, flex R, mass 48 grams) to make a
number 1 wood, and the wood club was mounted on a swing robot. Then, the each head hit three-piece balls (SRIXON Z-UR, manufactured by SRI Sports Limited) six times par each of the following five hitting positions to obtain the average carry distance of the six shots. The head speed was 45 meter/second. - Center: sweet spot SS
- Upside: 10 mm upside of SS
- Downside: 10 mm downside of SS
- Toe-side: 10 mm toe-side of SS
- Heel-side: 10 mm heel-side of SS
- Directionality Test (Deviation from Target Trajectory)
- Five golfers having handicap ranging from 10 to 20 hit the above-mentioned three-piece balls ten times each with each of the above-mentioned golf clubs.
- The deviation or difference of the stop position of the struck ball from the target trajectory was measured in each shot, and “+” plus sign and “−” minus sign which mean slice and hook, respectively, were added to the measurements. Using such measurements, the following criteria were calculated:
Average deviation (average of 50 shots=10 shots×5 golfers);
Slice tendency (average of most sliced five shots of 5 golfers);
Hook tendency (average of most hooked five shots of 5 golfers);
Maximum variation (slice tendency−hook tendency).
The test results are shown in Tables 1 to 3. -
TABLE 1 Ref. 1 Ex. 1 Ex. 2 Ex. 3 Ex. 4 Ex. 5 Ref. 2 Ex. 6 Ref. 3 Ex. 7 Head Vertical moment Ma (g sq.cm) 3900 3900 3900 3900 3900 3900 3200 3200 4500 4500 Lateral moment Mb (g sq.cm) 5200 5200 5200 5200 5200 5200 4500 4500 6000 6000 Face progression FP (mm) 22 22 22 22 22 22 22 22 22 22 Face bulge radius X (inch) 30 30 30 30 30 30 30 30 30 30 Face roll radius Y (inch) 12 16 20 25 30 40 12 20 12 30 Ma/Y 325 244 195 156 130 98 267 160 375 150 Mb/X 173 173 173 173 173 173 150 150 200 200 X/Y 2.5 1.9 1.5 1.2 1.0 0.8 2.5 1.5 2.5 1.0 Carry distance (m) Center 254 253 253 254 255 254 252 253 256 255 Upside 241 244 246 249 246 243 240 246 240 248 Downside 232 235 238 243 240 234 230 238 230 240 Toe-side 245 246 245 246 245 245 241 241 246 247 Heel-side 234 235 235 234 234 235 232 233 236 237 -
TABLE 2 Ex. 2 Ex. 8 Ex. 9 Ex. 10 Head Vertical moment Ma (g sq.cm) 3900 3900 3900 3900 Lateral moment Mb (g sq.cm) 5200 5200 5200 5200 Face progression FP (mm) 22 18 20 24 Face bulge radius X (inch) 30 30 30 30 Face roll radius Y (inch) 20 20 20 20 Ma/Y 195 195 195 195 Mb/X 173 173 173 173 X/Y 1.5 1.5 1.5 1.5 Carry distance (m) Center 253 252 253 252 Upside 246 246 246 247 Downside 238 237 238 237 Toe-side 245 242 243 244 Heel-side 235 236 235 235 Directionality Average deviation (m) −1 10 4 −9 Slice tendency (m) 9 22 14 0 Hook tendency (m) −8 0 −5 −18 Maximum variation (m) 17 22 19 18 -
TABLE 3 Ex. 2 Ex. 11 Ex. 12 Ex. 13 Ex. 14 Ex. 15 Head Vertical moment Ma (g sq.cm) 3900 3900 3900 3900 3900 3900 Lateral moment Mb (g sq.cm) 5200 5200 5200 5200 5200 5200 Face progression FP(mm) 22 22 22 22 22 22 Face bulge radius X (inch) 30 12 16 20 40 50 Face roll radius Y (inch) 20 20 20 20 20 20 Ma/Y 195 195 195 195 195 195 Mb/X 173 433 325 260 130 104 X/Y 1.5 0.6 0.8 1.0 2.0 2.5 Carry distance (m) Center 253 250 251 251 252 251 Upside 246 245 246 246 247 245 Downside 238 239 239 238 238 239 Toe-side 245 239 241 243 244 242 Heel-side 235 230 231 232 233 231 Directionality Average deviation (m) −1 4 2 1 2 2 Slice tendency (m) 9 18 15 13 12 16 Hook tendency (m) −8 −14 −12 −9 −8 −12 Maximum variation (m) 17 32 27 22 20 28
Claims (8)
1. A wood-type golf club head having a club face provided with a face roll whose radius of curvature Y in inch satisfies:
Ma/Y=<250 and
Ma>=3000,
Ma/Y=<250 and
Ma>=3000,
wherein Ma is a vertical moment of inertia in g sq·cm of the head around a horizontal axis extending through the center of gravity of the head in parallel with a toe-heel direction of the head.
2. The golf club head according to claim 1 , wherein
a lateral moment of inertia Mb of the head around a vertical axis extending through the center of gravity of the head is not less than 4000 g sq·cm.
3. The golf club head according to claim 2 , wherein
the club face has a face progression of not less than 20 mm.
4. The golf club head according to claim 3 , wherein
the club face is provided with a face-bulge whose radius of curvature X in inch satisfies:
Mb/x=<350
Mb/x=<350
wherein Mb is said lateral moment of inertia in g sq·cm.
5. The golf club head according to claim 2 , wherein
the club face is provided with a face bulge whose radius of curvature X in inch satisfies:
Mb/x=<350
Mb/x=<350
wherein Mb is the lateral moment of inertia in g sq·cm.
6. The golf club head according to claim 5 , wherein
the vertical moment of inertia Ma is less than the lateral moment of inertia Mb.
7. The golf club head according to claim 6 , wherein
the radius ratio (X/Y) is not less than 1.2.
8. The golf club head according to claim 5 , wherein
the radius ratio (X/Y) is not less than 1.2.
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JP2007183446A JP5074841B2 (en) | 2007-07-12 | 2007-07-12 | Wood type golf club head |
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US20090017938A1 true US20090017938A1 (en) | 2009-01-15 |
Family
ID=40253621
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US12/216,455 Abandoned US20090017938A1 (en) | 2007-07-12 | 2008-07-03 | Wood-type golf club head |
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US20090156329A1 (en) * | 2006-10-25 | 2009-06-18 | Noah De La Cruz | Golf club with optimum moments of inertia in the vertical and hosel axes |
US20100216570A1 (en) * | 2007-09-27 | 2010-08-26 | Taylor Made Golf Company, Inc. | Golf club head |
US20100273572A1 (en) * | 2007-09-27 | 2010-10-28 | Taylor Made Golf Company, Inc. | Golf club |
US20110105243A1 (en) * | 2009-11-04 | 2011-05-05 | Sri Sports Limited | Golf club head |
CN103041555A (en) * | 2011-10-12 | 2013-04-17 | 邓禄普体育用品株式会社 | Golf club |
US20160354652A1 (en) * | 2015-06-02 | 2016-12-08 | Bridgestone Sports Co., Ltd. | Manufacturing method, golf club head, and design method |
JP2017018726A (en) * | 2016-10-31 | 2017-01-26 | ダンロップスポーツ株式会社 | Golf club head |
US20210268346A1 (en) * | 2020-02-28 | 2021-09-02 | Sumitomo Rubber Industries, Ltd. | Golf club head |
US20220072399A1 (en) * | 2020-09-10 | 2022-03-10 | Karsten Manufacturing Corporation | Fairway wood golf club head with low cg |
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JP2011212102A (en) * | 2010-03-31 | 2011-10-27 | Mrc Composite Products Co Ltd | Golf club head |
JP2021194120A (en) | 2020-06-10 | 2021-12-27 | ヤマハ株式会社 | Golf club head and golf club |
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US9675849B2 (en) | 2004-02-23 | 2017-06-13 | Taylor Made Golf Company, Inc. | Golf club |
US20090156329A1 (en) * | 2006-10-25 | 2009-06-18 | Noah De La Cruz | Golf club with optimum moments of inertia in the vertical and hosel axes |
US10874918B2 (en) | 2007-09-27 | 2020-12-29 | Taylor Made Golf Company, Inc. | Golf club head |
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US10220270B2 (en) | 2007-09-27 | 2019-03-05 | Taylor Made Golf Company, Inc. | Golf club head |
US20100216570A1 (en) * | 2007-09-27 | 2010-08-26 | Taylor Made Golf Company, Inc. | Golf club head |
US10434379B2 (en) | 2009-11-04 | 2019-10-08 | Sri Sports Limited | Golf club head |
US8715107B2 (en) | 2009-11-04 | 2014-05-06 | Sri Sports Limited | Golf club head |
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US9079075B2 (en) | 2011-10-12 | 2015-07-14 | Dunlop Sports Co. Ltd. | Golf club |
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US20160354652A1 (en) * | 2015-06-02 | 2016-12-08 | Bridgestone Sports Co., Ltd. | Manufacturing method, golf club head, and design method |
JP2017018726A (en) * | 2016-10-31 | 2017-01-26 | ダンロップスポーツ株式会社 | Golf club head |
US20210268346A1 (en) * | 2020-02-28 | 2021-09-02 | Sumitomo Rubber Industries, Ltd. | Golf club head |
US11707650B2 (en) * | 2020-02-28 | 2023-07-25 | Sumitomo Rubber Industries, Ltd. | Golf club head |
US20220072399A1 (en) * | 2020-09-10 | 2022-03-10 | Karsten Manufacturing Corporation | Fairway wood golf club head with low cg |
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JP5074841B2 (en) | 2012-11-14 |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
AS | Assignment |
Owner name: SRI SPORTS LIMITED, JAPAN Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNOR:YOKOTA, MASATOSHI;REEL/FRAME:021244/0767 Effective date: 20080619 |
|
STCB | Information on status: application discontinuation |
Free format text: ABANDONED -- FAILURE TO RESPOND TO AN OFFICE ACTION |