WO2013031033A1 - ゴルフクラブ用グリップ - Google Patents
ゴルフクラブ用グリップ Download PDFInfo
- Publication number
- WO2013031033A1 WO2013031033A1 PCT/JP2011/072037 JP2011072037W WO2013031033A1 WO 2013031033 A1 WO2013031033 A1 WO 2013031033A1 JP 2011072037 W JP2011072037 W JP 2011072037W WO 2013031033 A1 WO2013031033 A1 WO 2013031033A1
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- WO
- WIPO (PCT)
- Prior art keywords
- grip
- golf club
- end cap
- grip body
- cylindrical portion
- Prior art date
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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
- A63B53/14—Handles
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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
- A63B60/00—Details or accessories of golf clubs, bats, rackets or the like
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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
- A63B60/00—Details or accessories of golf clubs, bats, rackets or the like
- A63B60/06—Handles
- A63B60/16—Caps; Ferrules
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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
- A63B60/00—Details or accessories of golf clubs, bats, rackets or the like
- A63B60/48—Details or accessories of golf clubs, bats, rackets or the like with corrugated cross-section
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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
- A63B2102/00—Application of clubs, bats, rackets or the like to the sporting activity ; particular sports involving the use of balls and clubs, bats, rackets, or the like
- A63B2102/32—Golf
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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
- A63B2209/00—Characteristics of used materials
Definitions
- the present invention relates to the structure of a golf club grip.
- a golf club is composed of a head, a shaft, and a grip.
- a grip made of a silicone resin or the like has been conventionally provided.
- the grip By constructing the grip from such a material, it is possible to improve the grip feeling (gripping comfort) when the golfer grips the golf club, improve the grip non-slip effect, and improve the resistance to grip deterioration.
- Patent Document 1 Patent Document 1
- the deviation in the hitting direction was mainly caused by the twist of the shaft.
- the torsional rigidity of the shaft is improved, a phenomenon occurs in which the hitting direction is deviated from the direction intended by the golfer.
- the inventor of the present application paid attention to the fact that the grip, which is a component of the golf club, is much more elastic than the shaft while studying the cause of this phenomenon.
- the inventor of the present application clearly shows that the impact force causes torsional deformation of the shaft, but the deviation of the collision angle between the head face and the ball is greatly caused by elastic deformation of the grip due to the impact force. The knowledge that it depends is obtained.
- the inventor of the present application considered that the shift of the collision angle between the head face and the ball can be effectively suppressed by improving the structure of the conventional grip.
- a soft resin should be adopted as a constituent material of the grip for improving the grip feeling as described above.
- the inventor of the present application has developed a golf club grip that can fly a ball in the direction intended by the golfer while exhibiting a good grip feeling and anti-slip effect, and has obtained a patent (see Patent Document 5). .
- Patent Document 5 has an advantage that the torsional rigidity is improved in the entire region from the front end to the rear end of the grip, and the torsional deformation at the time of hitting is extremely small.
- this grip has a problem that the manufacturing process is complicated and the cost is high. The reason why the manufacturing process is complicated is that this grip has a structure having high rigidity over the entire region.
- the inventor of the present application obtained the following knowledge while studying torsional deformation of the grip at the time of hitting. That is, the present inventor does not need to improve the rigidity of the grip over the entire area of the grip in order to suppress the torsional deformation of the grip. I got the knowledge. Further, if the rigidity is improved only in a certain region, the manufacturing process is naturally simplified and the cost can be reduced.
- an object of the present invention is to provide a golf club grip that can fly a ball in a direction intended by a golfer and that exhibits a good grip feeling and a non-slip effect at a low cost.
- a golf club grip comprises a cylindrical grip body made of a first resin and a second resin having a hardness higher than that of the first resin. And an end cap provided at a rear end portion of the grip body to form a grip end.
- the grip body is insert-molded using the end cap as an insert member.
- the said end cap is provided with the cylindrical part inserted in the rear-end part of the said grip main body, and the end surface board part which plugs up the rear end of the said grip main body.
- the length of the cylindrical portion is set to 60 mm to 75 mm.
- This golf club grip has a double structure by inserting the cylindrical portion of the end cap into the grip body. Since the grip body is insert-molded with the end cap as an insert member, the grip body is firmly fixed to and integrated with the end cap.
- This golf club grip is mounted on a golf club shaft and is gripped by a golfer. Since the grip body is made of a relatively soft resin, the golf club has a comfortable grip for the golf club grip. Further, an end cap made of high-hardness resin is attached to the rear end portion of the grip body. Specifically, the cylindrical portion is inserted into the grip body, and the end face plate portion closes the rear end of the grip body. As a result, the bending rigidity and buckling rigidity of the rear end portion of the grip body are increased, and the golfer can reliably grip the golf club grip.
- the thickness of the grip body becomes relatively small. More specifically, first, since the golf club grip is gripped by a golfer, the outer diameter and thickness of the golf club are naturally limited to a certain range. That is, with the tubular portion inserted into the grip body, the thickness t of the golf club grip is the sum of the thickness t1 of the tubular portion and the thickness t2 of the grip body. The wall thickness t is set to a constant value. Therefore, when the cylindrical portion made of a hard material is inserted into the grip body, the thickness of the portion made of a soft material in the golf club grip (that is, the thickness t2 of the grip body) is naturally reduced.
- the degree of deformation of the grip for a golf club largely depends on the deformation of the grip body made of a soft resin (the first resin). Then, when the cylindrical portion made of hard resin is inserted into the grip body, the thickness t2 of the grip body made of soft resin is reduced, so that the torsional rigidity of the golf club grip is increased. That is, the torsional deformation amount of the golf club grip at the time of hitting the ball is suppressed.
- the inventor of the present application has found that the entire amount of torsional deformation of the golf club grip can be suppressed only by setting the length of the cylindrical portion to the above dimensions. Even if the cylindrical portion is not inserted in almost the entire region of the grip body as in the prior art, the so-called torque performance of the entire golf club grip is improved.
- the quantitative cause has not yet been investigated, but the effect of setting the length of the cylindrical portion to the above dimensions is as shown in the examples described later. Further, by setting the length of the cylindrical portion to the above-mentioned size, the manufacturing process is simplified, and a golf club grip can be manufactured easily and inexpensively.
- a hole corresponding to the gate of the pin gate mold is formed in the rear end portion of the cylindrical portion in the radial direction.
- the grip body is preferably molded using a pin gate mold.
- the grip body is molded using the pin gate mold, the molding defect rate can be suppressed. Specifically, the residual stress generated in the molded product (golf club grip) after molding is suppressed, and so-called spiral deformation is prevented.
- the so-called gate residue becomes extremely small, an operation of removing the gate residue (typically, an operation of cutting a part of the product) is unnecessary, and the manufacturing process is further simplified and the cost can be reduced.
- the hole is arranged at the rear end portion of the cylindrical portion, a small gate residue is generated in the portion. However, since such a small gate residue is generated in the vicinity of the rear end of the golf club grip, the gate residue is used as a mark indicating the center of the golf club grip.
- the technical means of providing the hole in the cylindrical portion enables the use of a pin gate mold, reduces the defective rate of products, and small gates that are inevitably generated by the use of the pin gate mold.
- the rest functions as the mark.
- this technical means is extremely skillful in reducing the cost and improving the function of the golf club grip.
- An engagement protrusion that engages with the grip body may be provided on the outer peripheral surface of the cylindrical portion. It is preferable that the front end of the engaging protrusion is fused with the grip body by the insert molding.
- the engagement protrusion is in the radial direction (thickness direction) of the grip body, and the grip body and the end cap are firmly fixed.
- the relative displacement of the grip body with respect to the end cap is suppressed.
- the thickness of the grip body is further reduced at the portion where the engagement protrusion is provided, the deformation of the grip body is further suppressed. Therefore, the torsional rigidity of the golf club grip is further improved.
- a plurality of engagement protrusions are arranged on the outer peripheral surface of the cylindrical portion at a predetermined pitch in the circumferential direction.
- the engaging protrusions are uniformly and intermittently disposed on the entire outer peripheral surface of the cylindrical portion of the end cap, so that there are even portions where the engaging protrusions are not disposed. It will be. That is, the part where the thickness of the grip body is relatively large is uniformly present on the entire outer peripheral surface of the golf club grip. Therefore, the grip feeling when the golfer grips the golf club grip is further improved while the torsional rigidity of the golf club grip is maintained high.
- the cross-sectional shape of the engagement protrusion is a triangle in which the tip portion protrudes toward the grip body.
- the engagement protrusion is composed of a protrusion extending in the longitudinal direction of the cylindrical portion.
- the engagement protrusion functions as a key for connecting the end cap and the grip body. Therefore, the end cap and the grip body are more firmly fixed, and the torsional rigidity of the golf club grip is further improved.
- the engaging protrusion reaches the surface of the cylindrical outer or near the surface.
- the hardness of the first resin is preferably set to 48 to 52 (JIS K 6253 type A).
- the manufacturing method includes the first step of injection-molding the end cap using the second resin as a material, and the hole of the injection-molded end cap aligned with the gate of the pin gate mold.
- a second step in which an end cap is mounted on the pin gate mold; a third step in which the first resin is injected from the gate in a state where the pin gate mold is clamped; and the pin gate mold is a single piece.
- a fourth step in which the golf club grip molded after being opened is taken out.
- the end cap is manufactured by injection molding.
- the grip body is molded by injection molding using a pin gate mold using the end cap as an insert member.
- the grip for golf clubs is manufactured. Since the pin gate mold is adopted, the rate of occurrence of defects in the product (golf club grip) can be suppressed. Specifically, residual stress (occurrence of so-called vortex deformation) generated in the molded product (golf club grip) after molding is suppressed.
- the so-called gate residue becomes extremely small, an operation of removing the gate residue (typically, an operation of cutting a part of the product) becomes unnecessary, and the manufacturing process is simplified.
- the gate residue is used as a mark indicating the center of the golf club grip.
- the resin constituting the grip body is relatively soft, the golfer has an excellent grip feeling.
- the golf club grip has the above-described structure, torsional deformation can be suppressed.
- the grip body is made of a soft resin
- the golfer can obtain a good grip feeling.
- the cylindrical portion is inserted only into the rear end portion of the grip body, the manufacturing process of the golf club grip can be simplified and manufactured at low cost.
- FIG. 1 is a front view of a grip according to an embodiment of the present invention.
- FIG. 2 is a cross-sectional view of a grip according to an embodiment of the present invention.
- FIG. 3 is an enlarged view of a main part in FIG.
- FIG. 4 is a cross-sectional view of an end cap according to an embodiment of the present invention.
- FIG. 5 is a right side view of the end cap 15.
- FIG. 6 is an enlarged left side view of the end cap 15.
- FIG. 7 is an enlarged plan view of a protrusion according to an embodiment of the present invention.
- 8 is a cross-sectional view taken along the line VIII-VIII in FIG.
- FIG. 9 is a front view of an end cap according to a first modification of the embodiment.
- FIG. 10 is an enlarged cross-sectional view of a main part of a grip according to a second modification of the embodiment.
- FIG. 11 is a schematic diagram showing the principle of the sample grip test method.
- FIG. 1 is a front view of a golf club grip (hereinafter referred to as “grip”) 10 according to an embodiment of the present invention
- FIG. 2 is a cross-sectional view.
- This grip 10 is attached to a golf club (especially a wood club and an iron club). As shown in FIG. 1, the grip 10 is fitted and fixed to the rear end portion of the shaft 11 of the golf club.
- the shaft 11 is formed in a rod shape with a circular cross section, and is made of carbon fiber reinforced resin or the like in addition to steel.
- a club head is attached to the tip of the shaft 11.
- the grip 10 is a member that a golfer grips when using a golf club, it is required that the grip 10 has a shape that is easy for the golfer to grip. Therefore, the grip 10 according to the present embodiment is formed in a cylindrical shape, and its cross-sectional shape is a circle. The shaft 11 is inserted into the grip 10.
- the cross-sectional shape of a grip is not limited to a circle, and may be a polygon.
- FIG. 3 is an enlarged view of a main part in FIG. 2 and shows the structure of the rear end portion of the grip 10.
- the predetermined region 12 at the rear end of the grip 10 has a double structure, and
- the hardness of the outer portion (grip body 14 described later) is lower than the hardness of the inner portion (cylindrical portion 13 described later). That is, in the region 12, the outer portion of the grip 10 is soft and the inner portion is hard.
- the grip 10 includes a grip body 14 and an end cap 15 provided at the rear end portion 17 of the grip body 14.
- the grip 10 has a cylindrical shape as a whole, but the outer diameter of the front end portion 16 of the grip 10 is smaller than the outer diameter of the rear end portion 17 of the grip 10.
- the outer shape of the grip 10 forms a taper, and the grip 10 gradually increases from the front end portion 16 toward the rear end portion 17. Since the grip 10 has such a shape, the golfer can reliably grip the grip 10.
- the overall length of the grip 10 is set to 260 mm in the present embodiment. However, the overall length of the grip is not particularly limited, and is typically set to about 250 mm to 270 mm.
- the grip body 14 is made of resin (corresponding to “first resin” described in claims).
- the grip body 14 is formed by injection molding. As will be described later, the grip body 14 is insert-molded using the end cap 15 as an insert member.
- the type of resin constituting the grip body 14 is not particularly limited.
- the hardness of the grip body 14 is set to 50 (JIS (K 6253 type A) in this embodiment, but this hardness is preferably set to 45 to 55 (JIS K 6253 type A), and more preferably from 48 to More preferably, it is set to 52 (JIS K 6253 type A).
- the hardness of the grip body 14 is not particularly limited as long as it is lower than the end cap 15. That is, the grip body 14 may be a member that is softer than the end cap 15 as a physical property.
- the grip body 14 has a cylindrical shape, and the outer shape of the grip body 14 forms a taper.
- the outer diameter D1 of the front end portion 16 of the grip body 14 is set to 19 mm
- the outer diameter D2 of the rear end portion 17 is set to 26 mm.
- the grip body 14 is gradually thicker from the front end portion 16 toward the rear end portion 17. As shown in FIG. 3, the outer diameter D ⁇ b> 2 of the rear end portion 17 of the grip body 14 matches the outer diameter of the end face plate portion 18 of the end cap 15.
- the grip body 14 is insert-molded using the end cap 15 as an insert member.
- a so-called pin gate mold is employed for the molding operation.
- the grip body 14 is molded from the resin so as to surround and cover the cylindrical portion 13 of the end cap 15 in the circumferential direction. Thereby, the grip body 14 and the end cap 15 are securely fixed to each other and integrated.
- the remaining gate 19 is formed by insert molding of the grip body 14 as described above.
- a so-called gate residue 19 is generated at the rear end of the grip body 14.
- This remaining gate 19 appears as a circular recess.
- the position of the remaining gate 19 corresponds to a hole 21 provided in the end cap 15 described in detail later.
- the inner diameter of the remaining gate 19 is extremely small and is set to 1.5 mm to 2.5 mm in this embodiment.
- the grip body 14 is cylindrical, the remaining gate 19 is orthogonal to the center axis 20 of the grip body 14 (coincident with the center axis of the grip 10). Therefore, the remaining gate 19 functions as a mark showing the center of the grip 10.
- the remaining gate 19 is colored. The coloring is realized by ink application or other known means, which makes the center of the grip 10 obvious.
- FIG. 4 is a cross-sectional view of the end cap 15.
- 5 and 6 are a right side view and an enlarged left side view of the end cap 15, respectively.
- the end cap 15 is disposed at the rear end portion 17 of the grip body 14 and constitutes a grip end.
- the end cap 15 includes the cylindrical portion 13 and the end face plate portion 18.
- a step portion 22 is formed at the boundary between the tubular portion 13 and the end face plate portion 18, and the end face plate portion 18 projects from the end face of the tubular portion 13 in the radial direction.
- the tubular portion 13 is formed integrally with the end face plate portion 18 and is made of resin (corresponding to “second resin” described in claims).
- the end cap 15 is formed by injection molding using a mold.
- the type of resin constituting the end cap 15 is not particularly limited. However, the hardness of the end cap 15 is set to 75 to 80 (JIS K 6253 type A). In the present embodiment, the hardness of the end cap 15 is set to 75 (JIS K 6625 type A).
- the cylindrical portion 13 has a cylindrical shape, and is inserted into the rear end portion 17 of the grip body 14 as shown in FIGS. 1 and 2. As shown in FIG. 4, in the present embodiment, the inner diameter d1 of the cylindrical portion 13 is set to 16 mm, and the outer diameter d2 is set to 19 mm. However, since the end cap 15 is a member inserted into the grip body 14, the dimensions d 1 and d 2 can be appropriately changed in design so as to match the size of the grip body 14.
- the grip body 14 is separated into the outer layer portion 23 and the inner layer portion 24 in the region 12 by providing the grip body 14 with the end cap 13.
- the dimensions d1 and d2 are set so that the thickness t1 of the outer layer portion 23 is 1.4 mm.
- the thickness t1 of the outer layer portion 23 is not limited to 1.4 mm, and may be set to 0.8 mm to 2.0 mm. The effect by setting this thickness t1 to the said dimension is mentioned later.
- the thickness t2 of the inner layer portion 24 is automatically determined.
- the thickness t2 is not particularly limited.
- the length L of the cylindrical portion 13 (the length of the region 12) is set to 65 mm in the present embodiment.
- the length L is set to about 55 mm to 80 mm, and particularly preferably set to a range of 60 mm to 75 mm. The effect by setting the length L of the cylindrical part 13 to the said dimension is mentioned later.
- a hole 21 is provided at the rear end of the cylindrical portion 13.
- the hole 21 penetrates the cylindrical portion 13 in the radial direction, and is disposed at a predetermined distance A from the end face 25 of the end cap 15.
- the inner diameter of the hole 21 is set to 4 mm.
- the inner diameter of the hole 21 can be set to 2.7 mm to 3.5 mm.
- the distance A is set to 15 mm.
- the distance A is not limited to 15 mm, but the hole 21 is preferably disposed in the vicinity of the stepped portion 22.
- the hole 21 corresponds to a gate when the grip body 14 is molded as described above. Therefore, the resin passes through the hole 21 and is fed into the cavity in the pin gate mold.
- a plurality of protrusions 26 are formed on the cylindrical portion 13.
- Each protrusion 26 extends in the axial direction 20 (corresponding to the “longitudinal direction” described in the claims), and is formed in the shape of an elongated bar.
- Each protrusion 26 is formed integrally with the cylindrical portion 13 by injection molding.
- eight ridges 26 are provided on the outer peripheral surface 29 of the cylindrical portion 13.
- Each protrusion 26 is juxtaposed at a predetermined pitch in the circumferential direction of the tubular portion 13.
- each ridge 26 is arranged at a site obtained by dividing the outer peripheral surface of the cylindrical portion 13 into eight equal parts in the circumferential direction.
- the plurality of ridges 26 are regularly and substantially evenly distributed, but the plurality of ridges 26 may not be substantially evenly distributed. Further, the number of protrusions 26 is not particularly limited.
- FIG. 7 is an enlarged plan view of the ridge 26, and FIG. 8 is a sectional view taken along the line VIII-VIII in FIG.
- the cross-sectional shape (transverse cross-sectional shape) of the ridge 26 is a triangle.
- tip part 30 of the protrusion 26 protrudes to the grip main body 14 side.
- the cross-sectional shape of the ridge 14 need not be a regular triangle, but it is preferable that the tip portion 30 has a sharp shape.
- the width B of the protrusion 26 is set to 1.0 mm, the length C is set to 50.0 mm, and the height H is set to 0.7 mm.
- the width B length C and height H of the protrusion 26 are not limited to the above dimensions, and can be appropriately changed in design. In particular, the height H can be set to 0.4 mm to 1.4 mm. The effect by the cross-sectional shape of the protrusion 26 being a triangle is mentioned later.
- the end face plate portion 18 is formed in a disc shape and is continuously formed at the rear end of the tubular portion 13.
- the outer diameter of the end face plate portion 18 matches the outer diameter D2 of the rear end portion 17 of the grip body 14, and is set to 26 mm in this embodiment.
- the end face plate portion 18 is orthogonal to the cylindrical portion 13 (that is, orthogonal to the central axis 20).
- the end face plate portion 18 is disposed so as to close the rear end of the grip body 14 in a state where the cylindrical portion 13 is inserted into the grip body 14.
- a through hole 27 is provided in the center of the end face plate portion 18. This through hole 27 may be omitted.
- the grip 10 is manufactured by molding using a pin gate mold using resin as a material.
- the end cap 15 is molded by injection molding using the hard resin (second resin) as a material (first step).
- the hard resin second resin
- this forming method a known one is adopted, and a so-called direct gate die, side gate die, pin gate die, submarine gate die, hot runner die and other dies can be adopted.
- the grip body 14 is formed.
- the grip body 14 is also formed by injection molding, whereby the grip 10 is completed.
- the grip body 14 is molded by the pin gate mold using the soft resin (first resin) as a material.
- the end cap 15 molded in the first step is set as an insert member in the pin gate mold. Specifically, the hole 21 of the end cap 15 is aligned with the gate of the pin gate mold, and in this state, the end cap 15 is mounted on the pin gate mold (second step). Subsequently, with the pin gate mold clamped, the soft resin is injected from the gate into the mold cavity (third step). Then, after the pin gate mold is opened on one side, the molded grip 10 is taken out (fourth step).
- the grip 10 is molded by the pin gate mold, the residual stress generated in the molded product (grip 10) is suppressed, and the occurrence of so-called spiral deformation is prevented. That is, the occurrence of defective products is suppressed. Further, since the remaining gate is extremely small, it is not necessary to remove the remaining gate. That is, in the conventional molding, the operation of cutting the remaining gate is included in a part of the manufacturing process. However, by adopting the pin gate mold, such an operation becomes unnecessary and the manufacturing process is simplified.
- the remaining gate always occurs.
- this gate residue occurs near the rear end of the grip 10
- this gate residue serves as a mark indicating the center of the grip 10.
- the use of the pin gate mold has an advantage that not only the defective rate of the product is suppressed, but also a small remaining gate that inevitably occurs functions as a mark representing the center of the grip 10.
- the grip 10 is attached to the shaft 11 of the golf club in the state shown in FIG.
- the golfer holds the grip 10 and swings the golf club.
- the head of the golf club collides with the ball, and the ball flies in a predetermined direction.
- the grip 10 has the double structure as described above, and the grip body 14 and the end cap 15 are firmly fixed.
- the golfer grips the grip body 14 when gripping the grip 10. Since the grip body 14 is made of a softer resin than the end cap 15, the golfer can obtain a good grip feeling. In particular, in the present embodiment, since the hardness of the grip body 14 is set to 48 to 52 (JIS K 6253 type A), a very high grip feeling can be obtained when the golfer holds the grip 10.
- the cylindrical portion 13 made of a hard material exists inside the grip body 14.
- the thickness of the grip body 14 includes the thickness t1 of the outer layer portion 23, the thickness t2 of the inner layer portion 24, and the thickness of the tubular portion 13 (d2 / 2-d1 / 2). Are added together.
- the thickness of the grip body 14 is a value within a certain range that is easily gripped by the golfer. Therefore, since the cylindrical portion 13 made of a hard material exists, the thickness of a portion made of a soft material in the grip body 14 (that is, the thickness t1 of the outer layer portion 23) does not exist. It becomes relatively smaller than the case.
- the impact force generated when the golfer hits the ball acts as a couple on the grip 10 to torsionally deform the grip body 14.
- the degree of this torsional deformation largely depends on the deformation of the grip body 14 made of a soft resin.
- the thickness t1 of the easily deformable portion (the outer layer portion 23) of the grip main body 14 is increased. Get smaller. As a result, the torsional rigidity of the grip body 14 is improved.
- the torsional rigidity of the grip body 14 is naturally improved by improving the torsional rigidity of the grip body 14. Thereby, the twist of the grip 10 when the golfer hits the ball is suppressed. Therefore, the collision angle between the ball and the face of the head at the moment of impact is kept at a right angle. As a result, the effect that the hit ball flies in the direction intended by the golfer is exhibited.
- the torsional rigidity of a part of the grip body 14 (the region 12) is improved. That is, the double structure that suppresses the torsional deformation of the grip body 14 is only formed in the region 12. Therefore, the manufacturing cost of the grip 10 is greatly reduced as compared with the case where the double structure is formed over the entire region of the grip body 14 in the axial direction 20.
- a plurality of protrusions 26 are provided on the cylindrical portion 13 of the end cap 15, and these protrusions 26 are engaged with the grip body 14. That is, since the grip body 14 is insert-molded with the end cap 15 as an insert member, each protrusion 26 protrudes toward the grip body 14 and bites into the grip body 14. Thereby, the end cap 15 and the grip body 14 are firmly fixed. Therefore, when a couple acts on the grip 10, the relative displacement of the grip body 14 with respect to the end cap 15 is suppressed.
- the thickness of the grip main body 14 (the thickness t1 of the outer layer portion 23) is further reduced at the portion where the protrusion 26 is provided. Therefore, the deformation of the grip body 14 is further suppressed, and as a result, the twist amount of the grip 10 is further reduced.
- the ridges 26 are evenly arranged in the circumferential direction on the entire outer peripheral surface 29 of the cylindrical portion 13 as shown in FIG. That is, parts where the protrusions 26 are not arranged are also distributed evenly.
- the relatively thick portions of the grip body 14 are evenly scattered throughout the outer peripheral surface of the grip 10. Therefore, there is an advantage that the grip feeling when the golfer grips the grip is further improved while the torsional rigidity of the grip 10 is maintained high.
- the ridge 26 extends along the axial direction 20 of the grip body 14.
- the protrusion 26 functions as a key for connecting the grip body 14 and the end cap 15. Therefore, the end cap 15 and the grip body 14 are more firmly fixed, and as a result, there is an advantage that the torsional rigidity of the grip 10 is further improved.
- the cross-sectional shape of the protrusion 26 is a triangle, and the protrusion 26 protrudes toward the grip body 14 side. For this reason, when the grip body 14 is insert-molded, the tip portion 30 of the protrusion 26 melts and fuses with the grip body 14. Actually, the tip portion 30 of the ridge 26 has a shape as shown by a two-dot chain line 31 in FIG. Thereby, the coupling
- the cross-sectional shape of the ridge 26 is a triangle, but the cross-sectional shape of the ridge 26 may be other shapes such as a semicircular shape.
- a member that protrudes toward the grip main body 14 and engages with the grip main body 14 is provided on the outer peripheral surface 29 of the cylindrical portion 13. Further, the protrusion 26 may be omitted.
- the specifications of the sample grip are set as follows, and the ease of twisting (torsional rigidity) of the sample grip when the length of the cylindrical portion of the end cap changes is measured. It was done.
- the total length of the sample grip is 260 mm, the outer diameter of the tip of the sample grip is 16 mm, and the outer diameter of the rear end of the sample grip is 26 mm.
- the thickness of the outer layer portion of the grip body of the sample grip is 1.4 mm.
- the hardness of the resin constituting the grip body is set to 50 (JISJK 6253 type A), and the hardness of the resin constituting the end cap is set to 75 (JIS K 6253 type A).
- the number of protrusions provided on the cylindrical portion of the end cap is eight. Each protrusion is equally arranged in the circumferential direction on the outer peripheral surface of the cylindrical portion.
- Each protrusion 26 has a width of 1.0 mm, a length of 50.0 mm, and a height of 0.7 mm.
- Example 1 The length 12 (see FIG. 3) of the cylindrical portion is 60 mm.
- Example 2 The length 12 (see FIG. 3) of the cylindrical portion is 63 mm.
- Example 3 The length 12 of the cylindrical portion (see FIG. 3) is 66 mm.
- Example 4 The length 12 (see FIG. 3) of the cylindrical portion is 69 mm.
- Example 5 The length 12 (see FIG. 3) of the cylindrical portion is 72 mm.
- Example 6 The length 12 (see FIG. 3) of the cylindrical portion is 75 mm.
- Comparative Example 1 The length 12 (see FIG. 3) of the cylindrical portion is 80 mm.
- Comparative Example 2 The length 12 (see FIG. 3) of the cylindrical portion is 90 mm.
- Comparative Example 3 The length 12 (see FIG. 3) of the cylindrical portion is 57 mm.
- Comparative Example 4 The length 12 (see FIG. 3) of the cylindrical portion is 54 mm.
- Comparative Example 5 The length 12 (see FIG. 3) of the cylindrical portion is 51 mm.
- Comparative Example 6 The length 12 (see FIG. 3) of the cylindrical portion is 48 mm.
- Comparative Example 7 The length 12 (see FIG. 3) of the cylindrical portion is 40 mm.
- Comparative Example 8 The length 12 (see FIG. 3) of the cylindrical portion is 30 mm.
- FIG. 11 is a sectional view of the sample grip and shows the principle of the test method.
- Specimen grip G is fixed to core metal M. This fixing is performed in the manner of attaching a grip to a normal golf club shaft.
- the sample grip G is clamped via the gripping member C1, and the core metal M is also fixed via the gripping member C2.
- the gripping member C1 is formed so as to grip the sample grip G substantially uniformly in the circumferential direction.
- the gripping force of the sample grip G by the gripping member C1 is generally set to a magnitude (corresponding to 40 kgf measured as gripping force) corresponding to the force with which the golfer grips the grip during golf play.
- a twisting moment Mo of 60 kgf ⁇ cm is applied to the core metal M, and the micrometer Re measures the twist deformation ds of the core metal M.
- the test results are shown in Table 1.
- the horizontal axis in Table 1 is the length of the cylindrical portion of the end cap, and the unit is “mm”.
- the vertical axis in Table 1 represents the torsional deformation amount ds measured by the micrometer in a non-dimensional manner.
- the reason why the torsional deformation amount ds is made dimensionless is that the measured value becomes a very small value.
- this numerical value is referred to as “torque”, and it is shown that the smaller the torque, the smaller the torsional deformation and the better the torque performance of the sample grip. In this test, the desired torque performance is achieved when the torque is 8.0 or less.
- the inventor of the present application can realize sufficient torsional rigidity of the grip 10 only by setting the length of the cylindrical portion 13 (see FIG. 3) to the dimensions shown in the above embodiments.
- the knowledge that high torque performance is demonstrated was acquired. That is, even if the cylindrical portion 13 is not inserted over the entire length of the grip body 14, the torque performance of the grip 10 is improved.
- FIG. 9 is a front view of an end cap 35 according to a first modification of the present embodiment.
- each protrusion 26 extends from the vicinity of the rear end to the vicinity of the front end along the cylindrical portion 13.
- each protrusion 36 is divided into a plurality along the axial direction 20 and is intermittently arranged.
- the ridges 36 having small dimensions in the longitudinal direction are arranged on the outer peripheral surface 29 of the cylindrical tree portion 13 with a pitch p1 in the axial direction and a pitch p2 in the circumferential direction.
- a portion where the protrusion 36 is not arranged that is, a portion where the thickness of the grip body 14 is relatively large, is present evenly distributed in the axial direction and the circumferential direction. Therefore, there is an advantage that the grip feeling when the golfer holds the grip 10 is further improved while the torsional rigidity of the grip 10 is maintained high.
- FIG. 10 is an enlarged cross-sectional view of a main part of the grip 40 according to the second modification of the present embodiment.
- the grip 40 according to this modified example is different from the grip 10 according to the above embodiment in that the protrusion 26 is embedded in the grip body 14 in the above embodiment.
- the protrusion 37 is exposed on the surface 41 of the grip body 14.
- the other configuration of the grip 40 is the same as that of the grip 10.
- the tip end surface of the ridge 37 exposed when the golfer grips the grip 40 comes into contact with the golfer's hand. Since the protrusion 37 is made of the hard resin as described above, the protrusion 37 is surely hooked to the golfer's hand. That is, there is an advantage that a high antiskid effect is exhibited. However, even if the ridge 37 is not completely exposed on the surface 41, the same effect can be obtained as long as the top of the ridge 37 reaches the vicinity of the surface 41.
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- Health & Medical Sciences (AREA)
- General Health & Medical Sciences (AREA)
- Physical Education & Sports Medicine (AREA)
- Golf Clubs (AREA)
Abstract
Description
12・・・領域
13・・・筒状部
14・・・グリップ本体
15・・・エンドキャップ
19・・・ゲート残り
21・・・孔
23・・・外側層部
24・・・内側層部
26・・・突条
29・・・外周面
35・・・エンドキャップ
36・・・突条
37・・・突条
40・・・グリップ
41・・・表面
Claims (9)
- 第1の樹脂からなる筒状のグリップ本体と、第1の樹脂よりも高硬度の第2の樹脂からなり、上記グリップ本体の後端部に設けられてグリップエンドを形成するエンドキャップとを有するゴルフクラブ用グリップであって、
上記グリップ本体は、上記エンドキャップをインサート部材としてインサート成形されており、
上記エンドキャップは、上記グリップ本体の後端部に挿入される筒状部と、上記グリップ本体の後端を塞ぐ端面板部とを備え、
上記筒状部の長さは、60mm~75mmに設定されているゴルフクラブ用グリップ。 - 上記グリップ本体は、ピンゲート金型を用いて成形されており、
上記筒状部の後端部に、上記ピンゲート金型のゲートに対応する孔が径方向に貫通形成されている請求項1に記載のゴルフクラブ用グリップ。 - 上記筒状部の外周面に上記グリップ本体と係合する係合突起が設けられており、
当該係合突起の先端部は、上記インサート成形により上記グリップ本体と融合している請求項1又は2に記載のゴルフクラブ用グリップ。 - 複数の係合突起が上記筒状部の外周面に周方向に所定のピッチで配置されている請求項3に記載のゴルフクラブ用グリップ。
- 上記係合突起の横断面形状は、上記先端部が上記グリップ本体側へ突出した三角形である請求項3又は4に記載のゴルフクラブ用グリップ。
- 上記係合突起は、上記筒状部の長手方向に延びる突条からなる請求項3から5のいずれかに記載のゴルフクラブ用グリップ。
- 上記係合突起は、上記筒状アウターの表面ないし表面近傍に達している請求項3から6のいずれかに記載のゴルフクラブ用グリップ。
- 上記第1の樹脂の硬度は、48~52(JIS K 6253 タイプA)である請求項1から7のいずれかに記載のゴルフクラブ用グリップ。
- 請求項2から8のいずれかに記載のゴルフクラブ用グリップの製造方法であって、
上記第2の樹脂を材料として上記エンドキャップを射出成形する第1工程と、
当該射出成形されたエンドキャップの上記孔が上記ピンゲート金型のゲートに位置合わせされた状態で、当該エンドキャップが上記ピンゲート金型に装着される第2工程と、
上記ピンゲート金型が型締めされた状態で上記第1の樹脂が上記ゲートから射出される第3工程と、
上記ピンゲート金型が片開きされた後に成形されたゴルフクラブ用グリップが取り出される第4工程とを含むゴルフクラブ用グリップの製造方法。
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CN201180004871.5A CN103096983B (zh) | 2011-08-31 | 2011-09-27 | 高尔夫球杆用握把 |
KR1020127016741A KR101484511B1 (ko) | 2011-08-31 | 2011-09-27 | 골프 클럽 그립 |
US13/581,572 US8932145B2 (en) | 2011-08-31 | 2011-09-27 | Golf club grip |
EP11838989.9A EP2586503B1 (en) | 2011-08-31 | 2011-09-27 | Golf club grip |
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JP2011188592A JP5579138B2 (ja) | 2011-08-31 | 2011-08-31 | ゴルフクラブ用グリップ |
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EP (1) | EP2586503B1 (ja) |
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US20140066222A1 (en) * | 2012-08-29 | 2014-03-06 | Pyng-Jyh Huang | Grip with Torsional Stiffness |
JP6029640B2 (ja) * | 2014-11-14 | 2016-11-24 | ダンロップスポーツ株式会社 | ゴルフクラブ用グリップおよびゴルフクラブ |
KR101819121B1 (ko) * | 2016-06-20 | 2018-01-16 | 남민우 | 골프그립 및 그 제조방법 |
EP3544700A1 (en) * | 2016-11-28 | 2019-10-02 | Winston Products LLC | Golf club grip with a weighted front portion |
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US10610753B1 (en) * | 2018-11-28 | 2020-04-07 | Eaton Intelligent Power Limited | Flexible golf club grip with stable cap |
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US8932145B2 (en) | 2015-01-13 |
EP2586503A1 (en) | 2013-05-01 |
CN103096983B (zh) | 2015-05-27 |
TWI476030B (zh) | 2015-03-11 |
JP5579138B2 (ja) | 2014-08-27 |
CN103096983A (zh) | 2013-05-08 |
KR101484511B1 (ko) | 2015-01-26 |
EP2586503B1 (en) | 2016-04-06 |
EP2586503A4 (en) | 2015-06-03 |
JP2013048736A (ja) | 2013-03-14 |
US20130090183A1 (en) | 2013-04-11 |
KR20140052791A (ko) | 2014-05-07 |
TW201309367A (zh) | 2013-03-01 |
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