The present invention relates to a wood type golf club head.
Generally, a golf club head is believed to increase the back spin amount of a shot when the surface roughness of the face portion increases. A maximum distance performance-oriented wood type golf club head is known to be unable to obtain a long carry of a shot if the back spin amount of the shot is large. However, also known is that a long carry of a shot cannot be obtained if the back spin amount is too small. In the wood type golf club head, when forming grooves such as score lines in the face portion, the number of grooves tends to be relatively small. Additionally, in the wood type golf club head, the face portion is sometimes made thin to improve the coefficient of restitution of the face portion. However, the strength of the thin face portion may lower. Hence, there are proposed techniques of making grooves shallow for the purpose of preventing the strength of the face portion from lowering when forming grooves in the it (Japanese Patent Laid-Open Nos. 2003-299753 and 2002-153575 and U.S. Patent Application Publication Nos. 2003/0032498, 2004/0192465, and 2010/0009773).
On the other hand, in a golf club head having a relatively small loft angle (for example, 20° or less), the larger the surface roughness of the face portion is, the smaller the back spin amount may be. A golf club head described in Japanese Patent Laid-Open No. 2004-201787 is based on an idea of decreasing the surface roughness of the face portion at a position where the back spin amount decreases and increasing the surface roughness of the face portion at a position where the back spin amount increases. That is, the golf club head is based on the reverse of a general idea concerning the relationship between the roughness of the face portion and the back spin amount of a shot.
In a wood type golf club head represented by a driver or a spoon, since the loft angle is relatively small, the surface roughness of the face portion is preferably made large to decrease the back spin amount of a shot. As a method of adjusting the surface roughness of the face portion, a process such as sand blast or shot peening is known. However, to adjust the surface roughness of the face portion to a roughness suitable to suppress the back spin amount, the process may be difficult or may require effort. As another method of adjusting the surface roughness of the face portion, contriving score lines is considerable. However, in, for example, a golf club head for games, it may be difficult to adjust the surface roughness of the face portion to a roughness suitable to suppress the back spin amount in terms of conformity to rules (R & A rules).
It is an object of the present invention to adjust the surface roughness of the face portion to a roughness suitable to suppress the back spin amount in a wood type golf club head.
According to an aspect of the present invention, there is provided a wood type golf club head including a face portion, a crown portion, and a sole portion, wherein a plurality of grooves are formed in the face portion, a depth of the plurality of grooves is less than 0.025 mm, and each pitch between adjacent grooves of the plurality of grooves ranges from 0.1 mm (inclusive) to 1 mm (inclusive).
Further features of the present invention will become apparent from the following description of exemplary embodiments (with reference to the attached drawings).
The golf club head 10 forms a hollow member and includes the face portion 11, a crown portion 12, a sole portion 13, and a side portion 14 which from peripheral walls. The surface of the face portion 11 forms a face (striking face). A bulge and a roll are formed on the face. The crown portion 12 forms the upper portion of the golf club head 10. The sole portion 13 forms the bottom portion of the golf club head 10. The side portion 14 forms the portion between the sole portion 13 and the crown portion 12. The golf club head 10 includes a hosel portion 15 to which a shaft is attached.
An arrow d1 in
The golf club head 10 is a golf club head for a driver. However, the present invention is applicable to wood type golf club heads including a fairway wood other than drivers. The present invention is particularly suitable for a golf club head having a loft angle of 20° or less.
The golf club head 10 can be made of a metal material. Examples of the metal material are a titanium-based metal (for example, titanium alloy 6Al-4V-Ti), stainless steel, and a copper alloy such as beryllium copper.
The golf club head 10 can be assembled by joining a plurality of parts. For example, the golf club head 10 can be formed from a main body member and a face member. The main body member forms the peripheral portions including the crown portion 12, the sole portion 13, the side portion 14, and the face portion 11. An opening is formed at part of the portion corresponding to the face portion 11. The face member is joined to the opening of the main body member.
A plurality of shallow grooves 16, score lines 17 and 20, and dot-shaped grooves 18 and 19 are formed in the surface of the face portion 11. These components will be described with reference to
The plurality of shallow grooves 16 are arrayed in the up-and-down direction (direction d1) of the face portion 11. In this embodiment, the shallow grooves 16 are straight grooves extending in the toe-heel direction (direction d2) and are parallel to each other. The shallow grooves 16 are formed so as to be level when the golf club head 10 is grounded toward the target direction. In this embodiment, each shallow groove 16 is formed straight without any break. However, it may break halfway.
A depth D1 of each shallow groove 16 is less than 0.025 mm. For this reason, the shallow grooves 16 are handled not as so-called score lines but as elements (for example, elements by milling) that roughen the face under the rules (R & A rules) of golf club heads. The shallow grooves 16 are formed to adjust the surface roughness of the face. Hence, the depth D1 is preferably 0.003 mm or more. A width W1 of each shallow groove 16 preferably ranges from 0.05 mm (inclusive) to 0.3 mm (inclusive). The width W1 is the width of each shallow groove 16 in the up-and-down direction (the planar direction of the face in the direction d1).
In this embodiment, the cross section of each shallow groove 16 has an elliptic arc outline. However, the outline shape of the cross section of each shallow groove 16 is not limited to this, and various outline shapes such as an arc shape, triangular shape, rectangular shape, and trapezoidal shape can be employed.
As shown in
In this embodiment, the plurality of shallow grooves 16 are formed from the center portion of the face portion 11 to the toe-side portion and the heel-side portion. In
In this embodiment, out of the plurality of shallow grooves 16, the shallow grooves 16 on the upper side (the side of the crown portion 12) in the direction d1 are relatively long in the direction d2, and the shallow grooves 16 on the lower side (the side of the sole portion 13) in the direction d1 are relatively short in the direction d2. For this reason, the formation region of the plurality of shallow grooves 16 has a cup shape.
In general, the face portion 11 is wide in the direction d2 on the side of the crown portion 12 and narrow in the direction d2 on the side of the sole portion 13. When the formation region of the plurality of shallow grooves 16 has a cup shape, the shallow grooves 16 can be formed in a wide range along the outline of the face portion 11.
When the shallow grooves 16 are formed in a wide range, a golf ball comes into contact with the shallow grooves 16 at a high possibility, and the back spin amount suppressing effect can easily be obtained even if the impact point varies at impact. As shown in
The area S1 of the face portion 11 can be the area of a range recognized as the face portion 11 in terms of outer appearance. If the range of the face portion 11 is indefinite, the range of the face portion 11 is delimited based on, for example, the boundary between the face portion 11 and the crown portion 12, the sole portion 13, and the side portion 14 (a portion where the curvature abruptly changes). The boundary on the side of the hosel portion 15 is delimited from the extension of the already delimited boundary between the face portion 11 and the crown portion 12 and the extension of the already delimited boundary between the face portion 11 and the sole portion 13 or the side portion 14 on the heel side. The formation region of the shallow grooves 16 is delimited as, for example, a minimum region including all the shallow grooves 16. In the example of
In this embodiment, a film 21 is formed on the surface of the face portion 11 by a surface treatment, as shown in
As the surface treatment, for example, ion plating or a DLC (Diamond Like Carbon) process is usable. These surface treatments also make it possible to, for example, protect the shallow grooves 16, improve the durability of the shallow grooves 16, adjust the surface color of the face portion 11, and improve the outer appearance.
The score lines 17 and 20 will be described next with reference to
The score lines 17 and 20 are straight grooves extending in the toe-heel direction and are formed in parallel to each other. A width W2 of each score line 17 can range from, for example, 0.3 mm (inclusive) to 0.9 mm (inclusive), and a depth D2 can range from, for example, 0.05 mm (inclusive) to 0.5 mm (inclusive). This also applies to the score line 20.
In this embodiment, the cross section of each score line 17 has an elliptic arc outline. However, the outline shape of the cross section of each score line 17 is not limited to this, and various outline shapes such as an arc shape, triangular shape, rectangular shape, and trapezoidal shape can be employed. This also applies to the score line 20.
The score line 20 is formed immediately under the formation region of the shallow grooves 16, and has the same length in the direction d2 as the shallow groove 16 located closest to the sole portion 13. The score line 20 allows a golfer to easily visually recognize the portion near the lower limit of the face portion 11 at impact.
In this embodiment, the plurality of score lines 17 are formed not in the central portion Rc but in the toe-side portion Rt and the heel-side portion Rh out of the formation region of the shallow grooves 16. The score lines 17 may be formed in the central portion Rc as well. However, the arrangement of this embodiment can have the following advantages.
In the portions Rt and Rh where the score lines 17 are formed, the formation region of the shallow grooves 16 is consequently smaller than in the central portion Rc. In general, if the impact point at impact is located on the toe side or heel side of the face portion 11, the side spin amount increases, as compared to a case where the impact point is located at the center, and the golf ball readily hooks or slices. However, even if the side spin amount increases, the amount of hook or slice of the shot can be made small when the back spin amount is large. The score lines 17 are formed to make the formation region of the shallow grooves 16 smaller in the portions Rt and Rh than in the central portion Rc. This can increase the back spin amount in case of impact in the portion Rt or Rh. In this case, although the carry of a shot decreases, the amount of hook or slice can be made small.
The dot-shaped grooves 18 and 19 will be described next with reference to
The grooves 18 are formed at the center of the face portion 11 in the directions d1 and d2. In this embodiment, two grooves 18 are formed while being spaced apart in the direction d2. The number of grooves 18 can be one or three or more. Each groove 18 need not always have a dot shape and can be a straight groove or have another shape. The grooves 18 are preferably formed in a virtual circle having a radius of 8 mm, particularly, a virtual circle having a radius of 6 mm with respect to the centroid of the face portion 11 as the center. The grooves 18 allow a golfer to easily visually recognize the portion near the center of the face portion 11 at impact.
It is also possible to adjust the coefficient of restitution of the central portion of the face portion 11 by the grooves 18. In a golf club head for a driver, the upper limit of the coefficient of restitution of the face portion is defined under the rules (R & A rules) of golf club heads. The coefficient of restitution of the face portion 11 can be adjusted by its wall thickness distribution. With the wall thickness distribution of the face portion 11, the repulsion performance at impact on portions other than the central portion can be improved while suppressing the maximum repulsion performance at impact at the center of the face portion 11. When the grooves 18 are formed at the central portion of the face portion 11, as in this embodiment, for example, if the repulsion performance at impact at the center of the face portion 11 becomes too low upon adjusting the wall thickness distribution, the repulsion performance can be improved by the grooves 18.
The grooves 19 are formed on the periphery of the face portion 11 on the side of the side portion 14. The grooves 19 allow a golfer to easily visually recognize the periphery of the face portion 11 at impact.
A method of forming the shallow grooves 16, the score lines 17 and 20, and the grooves 18 and 19 will be described next. As the method of forming the shallow grooves 16, machining, laser machining, chemical milling, etching, and press working are usable. Laser machining is preferably used. The same formation method as that of the shallow grooves 16 can be used for the score lines 17 and 20 and the grooves 18 and 19. Machining is preferably used, and casting or forging may also be used for formation.
As a procedure of processing, for example, a golf club head formed as a hollow member is fixed in a numerically controlled processing apparatus, thereby forming the shallow grooves 16 and the like in the face portion 11.
As another procedure of processing, when assembling the golf club head 10 by joining a plurality of parts, a flat face member is fixed in a numerically controlled processing apparatus, and the shallow grooves 16 and the like are formed. When formation of the shallow grooves 16 and the like is completed, the face member is bent to form a bulge and a roll. After that, the face member is joined to the opening of the main body member. In this procedure, since the face member is flat in the step of forming the shallow grooves 16 and the like, the shallow grooves 16 and the like can be formed more accurately.
As the order of forming the shallow grooves 16, the score lines 17 and 20, and the grooves 18 and 19, for example, the score lines 17 and 20 and the grooves 18 and 19 are formed first. After that, the shallow grooves 16 are formed. The surface treatment is performed at last to form the film 21.
As described above, in this embodiment, the surface roughness of the face portion 11 can be controlled by the pitch P between the shallow grooves 16. As a method of adjusting the surface roughness of the face portion, a process such as sand blast or shot peening is known. However, it is not necessarily easy to control the surface roughness to an intended roughness. In this embodiment, since the pitch P between the shallow grooves 16 is only controlled, it is relatively easy to control the surface roughness. In addition, since the shallow grooves 16 are not score lines under the rules (R & A rules), no restrictions concerning score lines are imposed. It is therefore possible to obtain the above advantages while conforming to the rules.
In the first embodiment, the shallow grooves 16 have been explained as straight grooves. However, shallow grooves 16 may be grooves having another shape.
In the first embodiment, the shallow grooves 16 are formed so as to be level when the golf club head 10 is grounded toward the target direction. However, the shallow grooves 16 need not be level.
Prototypes of golf club heads were made, and back spin amount evaluation tests were conducted.
Golf club heads #1 to #4 are wood type heads and have the same specifications except the conditions of the shallow grooves of the face portion. Note that no score lines are formed.
Golf club heads #1 and #2 are heads without shallow grooves in the face portion. Golf club heads #3 and #4 are heads including shallow grooves formed in the face portion. The structure of the shallow grooves is the same as in the first embodiment (straight grooves extending in the toe-heel direction). The pitch field shows the pitches between the shallow grooves, which are equal pitches. Golf club heads #1 and #3 have the same loft angle (11°), and golf club heads #2 and #4 have the same loft angle (13°).
In the back spin amount evaluation tests, a swing robot available from Miyamae hit golf balls (TOURSTAGE X-01Z available from Bridgestone Sports) under the same conditions, and the back spin amounts were measured. Numerical values shown in the spin amount field of
As is apparent from comparison of golf club heads #1 and #3, the back spin amount is smaller in golf club head #3, although they have the same loft angle. Additionally, as is apparent from comparison of golf club heads #2 and #4, the back spin amount is smaller in golf club head #4, although they have the same loft angle. Hence, it can be said that the back spin amount is suppressed by forming the shallow grooves.
While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. The scope of the following claims is to be accorded the broadest interpretation so as to encompass all such modifications and equivalent structures and functions.
This application claims the benefit of Japanese Patent Application No. 2014-141763, filed Jul. 9, 2014, which is hereby incorporated by reference herein in its entirety.
Number | Date | Country | Kind |
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2014-141763 | Jul 2014 | JP | national |
This application is a continuation of application Ser. No. 14/792,775, filed Jul. 7, 2015, which is based on and claims priority under 35 USC 119 from Japanese Patent Application No. 2014-141763 filed Jul. 9, 2014.
Number | Date | Country | |
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Parent | 14792775 | Jul 2015 | US |
Child | 15870019 | US |