Source: https://patents.google.com/patent/JP2006094965A/en
Timestamp: 2019-12-11 02:42:31
Document Index: 31449063

Matched Legal Cases: ['art 14', 'art 38', 'arts 34', 'art 20', 'art 34', 'art 40', 'art 40', 'art 18', 'art 22', 'art 26', 'art, 30', 'art, 34', 'art, 40']

JP2006094965A - Golf club head - Google Patents
JP2006094965A
JP2006094965A JP2004282591A JP2004282591A JP2006094965A JP 2006094965 A JP2006094965 A JP 2006094965A JP 2004282591 A JP2004282591 A JP 2004282591A JP 2004282591 A JP2004282591 A JP 2004282591A JP 2006094965 A JP2006094965 A JP 2006094965A
JP2004282591A
Toshimichi Yamaguchi
利道 山口
2004-09-28 Application filed by Daiwa Seiko Inc, ダイワ精工株式会社 filed Critical Daiwa Seiko Inc
2004-09-28 Priority to JP2004282591A priority Critical patent/JP2006094965A/en
2006-04-13 Publication of JP2006094965A publication Critical patent/JP2006094965A/en
Provided is a golf club head capable of easily bending an outer shell member at a peripheral portion of a face portion, improving a repulsive force and increasing a flight distance, and a face portion for hitting a ball. A golf club head 10 having a hollow outer shell member 12 formed at a front portion, wherein the outer shell member 12 extends along the face portion 14 at a position spaced rearward from the face portion 14. The thickness of the outer shell member 12 gradually decreases from the thin portion 34 thinner than the portion 38 adjacent to the face portion 14 and the ridge line portion 30 that defines the face portion 14 to the thin portion 34 toward the rear. Golf club head having wall thickness gradually decreasing portion 40 [Selection] FIG.
The present invention relates to a golf club head having a hollow outer member in which a face part for hitting a ball is formed in a front part.
By forming multiple grooves in the crown from the toe side to the heel side, the crown is easily deflected during the impact of the ball, increasing the initial velocity of the ball with a large repulsive force and back spin amount Golf club heads that increase the launch angle and increase the launch angle have been developed (see, for example, Patent Document 1).
JP 2003-88601 A
In this golf club head, the thickness of the face portion is formed uniformly, and the thickness of the crown portion continuous to the face portion is formed to be less than half the thickness of the face portion. For this reason, in this conventional golf club head, a step portion or a corner portion whose thickness varies greatly is formed at the connection portion between the crown portion and the face portion. Such step portions or corner portions tend to cause stress concentration when stress acting at the time of hitting propagates from the face portion to the crown portion, and makes it difficult for the crown portion to be bent by the groove formed in the crown portion. Further, the energy loss due to the stress concentration reduces the stress propagated to the groove of the crown portion, thereby reducing the repulsive force of the crown portion with respect to the ball.
The present invention has been made based on such circumstances, and provides a golf club head capable of easily bending an outer shell member at a peripheral portion of a face portion, improving a repulsive force, and increasing a flight distance. For the purpose.
A golf club head according to the present invention that achieves the above object is a golf club head having a hollow outer shell member formed with a face portion for hitting a ball at the front portion, and the outer shell member is spaced rearward from the face portion. A thin portion that extends along the face portion and is thinner than a portion adjacent to the face portion of the outer shell member, and from the ridge line portion that divides the face portion to the thin portion. And a thickness gradually decreasing portion in which the thickness gradually decreases.
According to the golf club head of the present invention, by providing the thickness gradually decreasing portion between the ridge line portion that divides the face portion and the thin-walled portion that is separated to the rear, there is no step portion in which the thickness changes rapidly, The stress concentration at the time of hitting is prevented from occurring at this ridge line portion. Accordingly, the stress acting on the face portion can be smoothly transmitted to the surrounding outer member, and the repulsive force due to the bending of the thin portion can be improved while preventing the energy loss due to the stress concentration.
1-6 illustrate a golf club head 10 according to a preferred embodiment of the present invention.
As shown in FIGS. 1 and 2, the golf club head 10 of the present embodiment is formed as a wood-type club head attached to the tip of a shaft 8 formed into a tubular structure with, for example, fiber reinforced resin or metal. .
The golf club head 10 includes an outer member 12 formed into a hollow integrated structure by casting or forging from a metal material such as titanium, a titanium alloy, or a stainless alloy. The outer member 12 has a face portion 14 for hitting a ball formed in the front portion, a back portion 16 protruding rearward from the face portion 14, and a heel portion 20 side of the crown portion 20. A shaft support portion 24 that supports the shaft 8 in a state of being inclined rearward on the opposite side is provided. Reference numeral 26 denotes a sole portion.
The outer member 12 may be formed as an integral structure, or may be formed by forming each part as a separate member, for example, by providing a face member 28 as a separate member on the face part 14, and joining these members together. Also good. When a plurality of such members are joined and formed, a fiber reinforced resin material can be used for at least a part of the outer member 12. In any case, the face member 28 is preferably made of a material having a higher hardness than the other parts, a material having a higher rigidity, or a material having a higher strength, but may be a material having a low elasticity and a low specific gravity.
The face portion 14 of the outer member 12 is partitioned from a crown portion 18, a heel portion 20, a toe portion 22, and a sole portion 26 by a ridge line portion 30 along the peripheral portion thereof. In the present specification, the ridge line portion 30 is virtually arranged along a portion where the curvature of the outer surface of the face portion 14 increases abruptly so that, for example, the radius of curvature of the outer surface of the face portion 14 becomes half or less. The curvature of the outer surface of the face side ridge line 14a to be drawn, the outer surface of the crown portion 18, the toe portion 22, the sole portion 26, and the heel portion 20 surrounding the face portion 14 is sharply reduced to be less than half. The part between the ridgeline virtually drawn along the part which increases in the area. 3 and 4 show the crown side ridge line 18a and the sole side ridge line 26a, and the illustration of the toe side ridge line and the heel side ridge line is omitted. The area surrounded by the ridge line portion 30, specifically, the face-side ridge line 14 a, as described above forms a smooth outer surface slightly curved with a substantially constant curvature as a hitting ball area for flying the ball forward.
Further, as shown in FIGS. 2 to 6, the inner surface of the outer member 12 has a plurality of thin walls along the extending direction of the face portion 14, for example, 10 to 15 mm away from the face portion 14 in the rearward direction. Portions 34 and 36 are formed. These thin-walled portions 34 and 36 are recessed on the inner surface of the outer shell member 12, for example, are thinner than the portion 38 of the outer shell member 12 adjacent to the face portion 14 of the crown portion 18 and are smoothly opened inward. It has a concave cross-sectional shape. In this embodiment, three thin-walled portions 34 adjacent to the face portion 14 are continuously extended from the crown portion 18 to the sole portion via the toe portion 22, and the thin-walled portions located rearward of these thin-walled portions 34. The portion 36 extends only to the crown portion 18. Therefore, the thin region formed by the thin portions 34 and 36 is formed most in the crown portion 18, and the amount of deformation of the crown portion 18, and thus the repulsive force formed at the time of hitting, is greater in the crown portion 18 than in the sole portion 26. Is big.
In addition, it is preferable to arrange | position the gap | space illustrated by the site | part 38 between the adjacent thin parts 34, and to reduce the rigidity of a wide range, preventing excessive reduction in rigidity. Such a gap can improve the repulsive force without impairing the durability of the outer shell member 12.
As shown in detail in FIG. 3 and FIG. 4, the thickness gradually decreases backward from the ridge line portion 30, specifically, from the face-side ridge line 14 a to the thin-wall portion 34 closest to the face portion 14. A thickness gradually decreasing portion 40 is formed. In particular, on the crown portion 18 side, the thickness gradually decreasing portion 40 is disposed in a state of being inclined outward or upward from the face portion 14. Such a gradually decreasing thickness portion 40 includes the ridge line portion 30 and gradually decreases its thickness without forming a step or a step in a region adjacent to the face portion 14, and is closest to the face portion 14. A smooth inner surface is formed up to the bottom of the thin portion 34. In addition, it is preferable to form smoothly, without forming a level | step difference also about the inner surface by the side of the heel part 20 in which such a thin part is not formed.
In the present embodiment, the thickness of each part of the outer member 12 is the thickness of the part adjacent to the face part side ridge line 14a of the face part t1, and the thickness of the part adjacent to the thin part 34 of the gradually decreasing thickness part 40. Where t2 is the thickness of the thinnest portion of the thin portions 34, 36, t4 is the thickness of the portion 38, and t5 is the thickness of the face member 28, t5 ≧ t1> t2 = t4> t3. It is formed to be in a relationship. Moreover, you may form the thickness gradually decreasing part 40 long so that t4> t2 = t3. Specifically, t1 is 2.8 to 2.0 mm, t2 and t4 are 1.8 to 0.7 mm, t3 is 1.0 to 0.6 mm, and t5 is 3.3 to 2.0 mm. Is preferred. The width of the thin portions 34 and 36 is 5 to 10 mm for the purpose of preventing stress concentration and strength reduction, and the width of the portion 38 between the adjacent thin portions 34 is also for the reason of preventing stress concentration and strength reduction. It is preferable to form in 5-10 mm.
In any case, the crown portion 18 formed with the thin portions 34 and 36 can be easily bent by moving from the gradually decreasing thickness portion 40 to the thin portion 34 with a smooth inner surface. For the same reason, it is preferable that the thin portion 34 and the portion 38 adjacent to the thin portion 34 are formed so as to move with a smooth inner surface. By forming the gradually decreasing thickness portion 40 with a width of 10 to 15 mm as described above, it is possible to prevent the rigidity from being increased more than necessary and to prevent an increase in weight.
According to the golf club head 10 formed in this way, the gradually decreasing thickness portion 40 is provided between the ridgeline portion 30 that defines the face portion 14 and the thin portion 34 that is separated rearward on the back portion 16 side. Therefore, there is no step part in which the wall thickness changes suddenly between the face part and the crown part 18, the toe part 22, and the heel part 26 of the outer shell member 12 adjacent to the face part. The stress concentration at the time of hitting is prevented from occurring at this ridge line portion. As a result, the stress acting on the face portion 14 is smoothly transmitted to the surrounding outer member, and the repulsive force due to the bending of the thin portion 34 can be improved while preventing energy loss due to stress concentration.
Further, the thin-walled portion 34 has a smooth concave cross-sectional shape opened on the inner surface of the outer shell member 12 and is continuously formed from the crown portion 18 to the sole portion 26 via the toe portion 22. The entire periphery of the member 12 can be bent. When a plurality of such thin portions 34 are formed, the outer member 12 is reduced in rigidity over a wide range by such thin portions 34, and the repulsive force due to the bending can be transmitted to the ball.
Further, the thin portion 36 formed only on the crown portion 18 increases the area of the thin portions 34 and 36 formed on the crown portion 18 side, thereby increasing the amount of bending on the crown portion 18 side, and thus The launch angle can be increased and the flight distance of the ball can be improved. Further, since the thickness gradually decreasing portion 40 is inclined outward or upward on the crown portion 18 side, stress acting on the face portion 14 can be transmitted along the direction in which the crown portion 18 is bent outward, Thereby, the deformation amount of the crown portion 18 can be increased.
Although various embodiments and modifications of the present invention have been individually described above, the present invention is not limited to any of the embodiments or modifications, and may be combined as appropriate according to various applications. Is possible. For example, in the above-described embodiment, since the shaft support portion 24 is present, the thin portion 34 is omitted on the heel portion 20 side. Is possible.
1 is a front view of a face side of a golf club head according to a preferred embodiment of the present invention. Sectional drawing which follows the II-II line direction of FIG. The expanded sectional view of the crown part side ridgeline part of FIG. The expanded sectional view of the sole part side ridgeline part of FIG. The top view of the golf club head of FIG. The bottom view of the golf club head of FIG.
DESCRIPTION OF SYMBOLS 10 ... Golf club head, 12 ... Outer member, 14 ... Face part, 30 ... Ridge part, 34, 36 ... Thin part, 40 ... Thickening part gradually.
A golf club head having a hollow outer member in which a face part for hitting a ball is formed in the front part,
The outer shell member is divided into a portion separated from the face portion rearwardly, and a thin wall portion extending along the face portion and thinner than a portion adjacent to the face portion of the outer shell member, and the face portion. A golf club head comprising: a gradually decreasing thickness portion gradually decreasing backward from the ridge line portion to the thin-walled portion.
The thin-walled portion has a smooth concave cross-sectional shape each opened inward of the outer shell member, and a plurality of the thin-walled portions are continuously formed from the crown portion to the sole portion via the toe portion. Item 4. The golf club head according to Item 1.
The golf club head according to claim 1, wherein the thin portion has the largest area formed in the crown portion.
4. The golf club head according to claim 1, wherein a smooth curved surface shape is formed from an inner surface of the face portion to a thin wall portion. 5.
JP2004282591A 2004-09-28 2004-09-28 Golf club head Withdrawn JP2006094965A (en)
JP2004282591A JP2006094965A (en) 2004-09-28 2004-09-28 Golf club head
JP2006094965A true JP2006094965A (en) 2006-04-13
ID=36235350
JP2004282591A Withdrawn JP2006094965A (en) 2004-09-28 2004-09-28 Golf club head
JP (1) JP2006094965A (en)
JP6394826B1 (en) * 2018-05-14 2018-09-26 株式会社プロギア Golf club heads and golf club set
2004-09-28 JP JP2004282591A patent/JP2006094965A/en not_active Withdrawn