This application is based upon and claims priority to Japanese Patent Application No. 2021-209204 filed on Dec. 23, 2021, the entire contents of which are incorporated herein by reference.
The present invention relates to golf club heads and sets of golf clubs.
Conventionally, a structure in which a protrusion that is provided on the lower part of a rear face of a face portion includes a recess that extends from an upper surface of the protrusion to a sole side has been proposed in cavity-back iron type golf clubs (for example, see Japanese Patent Application Publication Nos. 2006-289105, 2012-235828, 2014-217668, 2014-195584 and PCT International Application Publication No. 2002-032514). However, while providing such a recess could improve the performance of the golf club, the reduction in the thickness around the point of impact of the face portion could lead to a loss in feel at impact.
A golf club head according to the disclosure is a cavity-back iron type golf club head that includes a face portion, a cavity portion provided behind the face portion, and a protrusion provided on a lower part of a rear face of the face portion. The protrusion includes a first recess extending from an upper surface of the protrusion to a sole side, a second recess positioned closer to a toe side than the first recess is and extending from the upper surface of the protrusion to the sole side, and a thick portion provided between the first recess and the second recess in a toe-heel direction. The first recess and the second recess each has a substantially trapezoidal shape in a cross-sectional view taken along a plane that is parallel to a front face of the face portion and that passes through a deepest part of the first recess and a deepest part of the second recess. The first recess and the second recess each gradually become deeper from a toe side toward a heel side. The thick portion is positioned behind a center line of a score line.
An object of the present disclosure is to provide a cavity-back iron type golf club in which both performance and a good feel at impact are achieved.
According to the disclosed technique, a cavity-back iron type golf club in which both performance and a good feel at impact can be provided.
An embodiment will be described hereinafter with reference to the accompanying drawings. Note that the same reference symbols are used to denote the same components throughout the drawings, and a repetitive description thereof may be omitted.
[Golf Club Head]
Note that
The golf cub head 1 illustrated in
The golf club head 1 may be made of a metal material, for example, soft iron, stainless steel, titanium, aluminum, or chromium-molybdenum steel. The golf club head 1 can be manufactured by, for example, forging, casting, machining, or by a combination thereof. However, the manufacturing method is not limited to these methods.
The golf club head 1 includes a face portion 11, a protrusion 12, a sole portion 13, a top portion 14, and a hosel portion 15. The face portion 11 includes a front face 11f that serves as a ball striking face configured to strike a ball and a rear face 11h that faces away from the front face 11f. The face portion 11 has a prescribed thickness. Note that the front surface 11f may also be referred to as the ball striking face.
A plurality of score lines 11s (grooves recessed from the front face 11f toward the rear face 11h) having the toe-heel direction as the lengthwise direction are arrayed on the front face 11f at predetermined intervals in the top-sole direction. Each score line 11s is parallel to the horizontal plane H. In the face portion 11, the area where the plurality of score lines 11s are formed on the front face 11f is the part that is to strike a golf ball. Note that a center line Sc indicates the center line of the longest score lines his provided on the front face 11f of the face portion 11 in the toe-heel direction. The center line Sc runs through the center of the most sole-ward score line his in the toe-heel direction, and is perpendicular to each score line his.
A cavity portion 16 is provided behind the face portion 11. More specifically, the cavity portion 16 is defined by a thick section of the rear face 11h provided to surround the back side of the face portion 11 and a thin section of the rear face 11h provided at the center. The thickness of the face portion 11 where the cavity portion 16 is provided may or may not be uniform. In the example of
The protrusion 12 is provided at a lower part of the rear face 11h of the face portion 11. The protrusion 12 constitutes part of the back surface of the golf club head 1. The protrusion 12 protrudes toward the back side from the lower part of the rear face 11h of the face portion 11. The protrusion 12 extends from the toe side to the heel side. The protrusion 12 extends further toward the back side with respect to the cavity portion 16 when viewed in the top-sole direction. The protrusion 12 includes an upper surface 12a.
The sole portion 13 is a portion forming the bottom of the golf club head 1. The top portion 14 is a portion extending rearward from the upper end of the face portion 11. The top portion 14 is provided so as to face a part of the protrusion 12 with the cavity portion 16 interposed therebetween in the top-sole direction. The top portion 14 extends from the toe side to the heel side. The hosel portion 15 is a portion configured to be coupled to a shaft.
The protrusion 12 includes a first recess 121, the second recess 122, and a thick portion 123. The first recess 121 is provided closer to the heel side than the second recess 122 is, and extends from the upper surface 12a of the protrusion 12 to the sole side. The second recess 122 is provided closer to the toe side than the first recess 121 is, and extends from the upper surface 12a of the protrusion 12 to the sole side. The first recess 121 and the second recess 122 are arranged such that their lengthwise direction corresponds to the toe-heel direction.
In this manner, providing the first recess 121 and the second recess 122 in the protrusion 12 can reduce the weight of the golf club head 1. Hence, the size of the golf club head 1 can be increased without increasing the weight of the entire golf club head 1. Furthermore, it is possible to increase the weight on the toe side and the heel side of the golf club head 1 and to enlarge the sweet spot of the golf club head 1 without increasing the weight of the entire golf club head 1.
The thick portion 123 includes an upper surface 123a. The upper surface 123a of the thick portion 123 forms a part of the upper surface 12a of the protrusion 12. The thick portion 123 is a portion that is provided on the sole side relative to the upper surface 123a. The thick portion 123 is provided between the first recess 121 and the second recess 122 in the toe-heel direction. The thick portion 123 is positioned behind the center line Sc of the longest score lines 11s.
In this manner, in the protrusion 12, the thick portion 123, which is thicker than the areas where the first recess 121 and the second recess 122 are provided, is provided behind the center line Sc of the longest score lines 11s. Hence, the feel can be improved when a golf ball is struck near the center of the front face 11f.
As illustrated in
The first recess 121 and the second recess 122 each have a width in the toe-heel direction, the width being widest toward the upper surface 12a of the protrusion 12 and gradually decreasing toward the sole side. Each of the first recess 121 and the second recess 122 has an approximately uniform width in the face-back direction. The width of the first recess 121 in the face-back direction is approximately equal to the width of the second recess 122 in the face-back direction.
Note that the “substantially” trapezoidal shape includes a configuration in which a pair of opposing surfaces that correspond to the upper base and the lower base of a trapezoid are not parallel to each other. That is, “the upper surface 12a and a first bottom surface 121a of the first recess”, which correspond to the upper base and the lower base of a trapezoid, may be configured such that the upper surface 12a is not parallel to the first bottom surface 121a. Furthermore, “the upper surface 12a and a second bottom surface 122a of the second recess”, which correspond to the upper base and the lower base of a trapezoid, may be configured such that the upper surface 12a is not parallel to the second bottom surface 122a. More specifically, the “substantially” trapezoidal shape includes a configuration in which the upper base and the lower base are inclined in a range of ±10 degrees. The upper base, the lower base, and/or the legs may or may not be perfectly straight. For example, the upper base, the lower base, and/or the legs may have partial undulation or the ends of the lower base, and/or the legs may be rounded. Furthermore, in the first recess 121 and the second recess 122, the upper surface 12a of the protrusion 12 may be slightly curved in the top direction at a heel-side end of the first recess 121 and a toe-side end of the second recess 122 in accordance with the shape of the cavity portion 16 as illustrated in
As illustrated in
The first recess 121 and the second recess 122 gradually become deeper from the toe side toward the heel side. Forming the first recess 121 and the second recess 122 in such a shape can increase the moment of inertia. As a result, when the golf club head 1 hits a golf ball, the golf club head 1 is more resistant to twisting even if the golf ball is hit at a position that is off the center of gravity of the golf club head 1. This can reduce deviation from the launch direction, curving of the ball flight trajectory, and loss in flight distance.
The first bottom surface 121a of the first recess 121 and the second bottom surface 122a of the second recess 122 each may be inclined with respect to the imaginary plane A1. In such a case, the first bottom surface 121a of the first recess 121 and the second bottom surface 122a of the second recess 122 may be positioned on the same plane as the imaginary plane A2. Note, however, that this is merely an example. The first bottom surface 121a of the first recess 121 and the second bottom surface 122a of the second recess 122 need not be positioned on the same plane as long as the first recess 121 and the second recess 122 gradually become deeper from the toe side toward the heel side. In a case where the first bottom surface 121a and the second bottom surface 122a each have a curved surface, assume that reference numbers 121a and 122a indicated by broken lines in
By making the first recess 121 and the second recess 122 substantially trapezoidal in shape and tilting each of the first bottom surface 121a of the first recess 121 and the second bottom surface 122a of the second recess 122 with respect to the imaginary plane A1, fine adjustments can be made with respect to the function of the golf club and to the feel of the golf club at impact. For example, referring to
As illustrated in
For example, in the cross-section illustrated in
Letting L1 be a distance from the front face 11f of the face portion 11 to the face-side end of each of the first recess 121 and the second recess 122 and L2 be a face-to-back distance, it is preferable for the value of L1/L2×100 to be 20% or more and 30% or less. The first recess 121 and the second recess 122 can be provided at positions close to the face portion 11 in the face-back direction within this range. As a result, the depth of the center of gravity of the golf club head 1 can be increased. Note that the face-to-back distance represents the distance from the front face 11f to a back-side end portion where the distance becomes longest when measurement is performed in a direction perpendicular to the front face 11f.
[Set of Golf Clubs]
The first golf club 21 is one or more golf clubs including the golf club head 1 with a loft angle of 23 degrees or more and 30 degrees or less. The second golf club 22 is one or more golf clubs including the golf club head 1 with a loft angle of 30.5 degrees or more and 39 degrees or less. The third golf club 23 is one or more golf clubs including the golf club head 1 with a loft angle of 39.5 degrees or more. The first golf club 21, the second golf club 22, and the third golf club 23 may have the same lie angle.
In addition to the golf club head 1, each of the first golf club 21, the second golf club 22, and the third golf club 23 includes a shaft 28 and a grip 29. The golf club head 1 is attached to one end of the shaft 28, and the grip 29 is attached to the other end of the shaft 28.
The first golf club 21 is, for example, a 5 iron, the second golf club 22 is, for example, a 7 iron, and the third golf club 23 is, for example, a 9 iron. Note, however, that these are merely examples, and the first golf club 21, the second golf club 22, and the third golf club 23 may include a plurality of golf clubs within the aforementioned ranges of loft angles.
For example, the first golf club 21 may include a 4 iron, a 5 iron, and a 6 iron. The second golf club 22 may include a 7 iron and an 8 iron. The third golf club 23 may include a 9 iron and a pitching wedge.
That is, in the golf club set 2, the width, in the toe-heel direction, of the upper surface 123a of the thick portion 123 of the golf club head 1 satisfies the following relationship: the width of the upper surface of the thick portion of the third golf club 23>the width of the upper surface of the thick portion of the second golf club 22>the width of the upper surface of the thick portion of the first golf club 21. Therefore, the greater the loft angle is in the golf club, the better the feel is when a golf ball is struck.
Although the embodiment has been described above, the present disclosure is not limited to the specific embodiment disclosed above, and various modifications and changes can be implemented within the spirit and the scope of the disclosure disclosed in the appended claims.
Number | Date | Country | Kind |
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2021-209204 | Dec 2021 | JP | national |