JP2011072368A - Golf club - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To expand a range of resilience approximated to the resilience in the central region of a face portion in a golf club, and to provide a golf club achieving an excellent sense of hitting. <P>SOLUTION: A thick-wall part 20 is formed at the center of the face portion constituting a head body. A first thin-wall part 21 having a wall thickness thinner than that of the thick-wall part is formed on the outer side of the thick-wall part 20, and a second thin-wall part 25 having a wall thickness thinner than that of the first thin-wall part 21 is formed on the outer side of the first thin-wall part 21. The first thin-wall part 21 is extended to form a plurality of ribs 22a-22d reaching the peripheral edge of the face portion. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a golf club, and more particularly, to a golf club having a hollow metal head.

  Conventionally, it has been known that the face portion of a metal head having a hollow structure can be easily bent to prevent the ball from being crushed at the time of hitting, thereby reducing the energy loss due to the deformation of the ball and improving the flight distance. It has been. Therefore, in order to improve the flight distance, the central region of the face portion may be configured to be easily bent, but the deflection of the face portion is regulated by rules.

  In other words, as a measure of the deflection of the face portion, there is a method of measuring in accordance with the USGA (American Golf Association) pendulum test. It has been generalized to evaluate the deflection of the part. Specifically, the CT value specifies the center of the face portion (hereinafter also referred to as the center position of the face portion) according to the above-described Pendulum test procedure, and the contact time when a predetermined test piece collides with the center position. Is used to evaluate the elasticity of the face part. If the CT value increases (the contact time becomes longer), the face part is easily bent and the flight distance of the ball can be improved. When the CT value at the center position of the face part exceeds a predetermined value, it is determined that the value does not conform to the rule.

  For this reason, in order to adjust the rigidity and resilience of the face part, the thickness of the central part of the face part is increased, or an I-shaped rib or an X-shaped rib passing through the central part of the face part. Is known to form. For example, in Patent Document 1, a thick portion extending substantially in the X direction is provided at the center of the back surface of the face portion, and even if the hit point is shifted to the crown side and the sole side, the flying distance when hit with a sweet spot A golf club head that keeps the flight distance difference small is disclosed.

JP 2008-36050 A

  As described in Patent Document 1 described above, when an X-shaped rib having a thick wall passing through the central portion is formed on the back surface of the face portion, the rebound in the central region is efficiently suppressed, Although it is possible to adjust the resilience of the peripheral area, on the other hand, since the thick portion is X-shaped, there is a problem that the resilience greatly changes depending on the hitting position. In addition, the thick X-shaped shape makes it difficult for the entire face portion to be deformed. This causes a problem that the face portion is difficult to vibrate when hitting and the shot feeling is poor.

  The present invention has been made paying attention to the above-described problems, and aims to provide a golf club with a good shot feel while expanding the range of resilience that approximates resilience at the center portion of the face portion. To do.

  As described above, when hitting with a head, it is known that the face portion is bent to prevent the ball from being crushed, thereby reducing energy loss due to ball deformation and improving the flight distance. Yes.

  Regarding the deflection of the face portion, the CT value as described above is used as an index, and the CT value in the face portion includes, for example, a change in thickness, material, uneven shape (such as a rib formed on the back surface of the face portion, The face structure such as a groove) can be changed not only at the central position but also at a predetermined position. In addition, a causal relationship is observed between the CT value and the ball speed that the ball speed is increased by increasing the CT value at a practical level. For this reason, the position (region) where the CT value is increased, that is, the position (region) where the ball is bent well and the ball speed is increased is set to a portion where the golfer can perceive sensibly as having hit the ball. It is desirable to set it at the center position of the face part where the golfer consciously hits the ball and its peripheral area (referred to as the central area) (however, in the above-mentioned pendulum test, the measurement position is Is the center position of the face part).

  It should be noted that the point where the perpendicular to the face part from the center of gravity position of the head, the so-called sweet spot, depends on the design of the center of gravity of the head, so it may not coincide with the center position of the face part specified by the above test, The sweet spot is the part where the ball is most captured at the time of hitting, and the head speed can be transmitted to the ball most efficiently. It is desirable to set the position in the vicinity thereof (at least within a radius of 10 mm from the center position).

  By the way, when a golfer hits the ball, he / she hits the center area where the sweet spot exists, but if he hits the ball at a position away from it, the head is shaken, and the energy transmitted to the ball is lost, which is the distance traveled. Will lead to a decline. In particular, when the hitting positions of various amateur golfers are verified, the degree of variation in the toe / heel direction is greater than the variation in the crown / sole direction.

  In order not to reduce the flight distance even if the ball is hit at a position slightly deviated from the center position, the CT value in the peripheral area is set to be slightly higher than the CT value (reference value) at the center position. Is preferred. That is, the center position of the face portion is the most bent portion, and the CT value at the center position is regulated by the rule as described above, so how efficiently the CT value at the center position is regulated, It is important to adjust so as to improve the CT value in the peripheral region, particularly in the toe-heel direction where the degree of variation is large. And in improving the CT value in the toe-heel direction where the degree of such variation is large, the face portion is not formed at the time of hitting by simply forming a thickened X-shaped rib as in the prior art. It becomes difficult to vibrate, and as a result, the feel at impact is deteriorated.

  The present invention achieves the above-mentioned object (expanding a range of resilience approximate to resilience in the central portion of the face portion and obtaining a golf club having a good shot feeling), a face portion, a crown portion, A hollow structure metal club head in which an outer shell body is formed by a sole portion, a side portion having a toe side and a heel side, and a back portion on the rear side, and an inner space is formed in the outer shell body. In the golf club, a thick portion is formed at a center portion of the face portion, a first thin portion having a thickness smaller than the thick portion is formed outside the thick portion, and the first thin portion is formed outside the thick portion. A second thin-walled portion having a thickness smaller than that of the first thin-walled portion is formed, and a plurality of ribs reaching the periphery of the face portion are formed by extending the first thin-walled portion.

  According to the above configuration, the resilience of the central region is efficiently regulated by the thick portion formed in the central portion, the first thin portion formed on the outside thereof, and the plurality of ribs formed to extend to the thick portion. It becomes possible. In this case, the plurality of ribs are not extended from the thick part formed in the central part, but are extended from the first thin thick part on the outer side, so that the central region is formed as described above. This effectively regulates the resilience of the face, and the entire face part is more likely to vibrate than the conventional structure (a structure in which only the ribs are formed, or a structure in which the ribs are extended from the thick part at the center). Even if the hitting positions vary, the hit feeling becomes soft and the change in hitting sound is also reduced.

  The hit feeling here is a sense that can be actually felt when a golfer hits the ball, and means a so-called soft / hard feeling. As in the former, the soft hitting feeling is considered to be because the face part vibrates at the time of hitting, the impact at the time of hitting is alleviated, and the impact transmitted to the hand is alleviated. In addition, since the hit feeling becomes soft, even if the hit points vary, the sound of a crushed feeling is not mixed, and the image of the hit feeling is improved.

  According to the present invention, a range of resilience approximate to resilience at the center portion of the face portion can be expanded, and a golf club having a good shot feeling can be obtained.

1 is a front view showing a golf club according to a first embodiment of the present invention. The top view of a head part. The front view of a head part. Sectional drawing along the AA line of FIG. The figure which looked at the face part of the head from the back side. 5A is a sectional view taken along line BB in FIG. 5, FIG. 5B is a sectional view taken along line CC in FIG. 5, and FIG. 5C is taken along line DD in FIG. Sectional view. It is a figure which shows 2nd Embodiment of the golf club which concerns on this invention, and the figure which looked at the face part of the head from the back side.

Hereinafter, embodiments of a golf club according to the present invention will be described.
1 to 4 show a first embodiment of a golf club according to the present invention. FIG. 1 is a front view of the golf club, FIG. 2 is a plan view of a head portion, and FIG. 3 is a head portion. FIG. 4 is a cross-sectional view taken along line AA in FIG.

  The golf club 1 according to the present embodiment is configured by fixing a head 7 set to a specified lie angle and loft angle with respect to a reference horizontal plane P at the tip of a shaft 5 made of metal or FRP. ing. In this case, the head main body 7A constituting the head 7 includes a face portion 7a having a hitting surface 7B, a crown portion 7b extending rearward from the upper edge of the face portion 7a, and a rearward extending from the lower edge of the face portion 7a. There is provided a protruding sole portion 7c, a side portion 7d connecting the edges of the crown portion 7b and the sole portion 7c, and a back portion 7e positioned on the rear side of the side portion 7d. The side portion 7d includes a toe portion 7f and a heel portion 7g that pass through the back portion 7e.

  The head body 7A is integrated by casting, for example, a titanium alloy (Ti-6Al-4V, Ti-15V-3Cr-3Sn-3Al), an aluminum alloy, or a magnesium alloy except for the face portion 7a. The face member 8 constituting the hitting surface of the face portion 7a, which will be described in detail below, is fixed to the front side thereof (in this embodiment, the crown portion 7b, the sole The flat face member 8 is fixed to the front end opening portions of the portion 7c and the side portion 7d).

  In this case, for the head main body 7A, each member (face part, crown part, sole part, side part; outer shell body) constituting the head main body 7A is individually formed and fixed by welding, bonding or the like. Alternatively, a plurality of members or partial components of each member may be integrally formed by casting or the like, and they may be fixed by welding, adhesion, or the like.

  Further, a hosel part (not shown) for fastening the tip of the shaft 5 is integrally formed in the head main body 7A. The shaft 5 is fixed to the hosel part by fitting a tip part through a shaft insertion hole 9 formed in the crown part 7b.

  The face portion 7a is a portion where a hit ball is actually formed. As described above, the face portion 7a includes a face member 8 that is separately attached to the front end opening portions of the crown portion 7b, the sole portion 7c, and the side portion 7d. ing. The face member 8 is made of, for example, titanium, titanium alloy (Ti-15V-3Cr-3Sn-3Al, Ti-6Al-4V, SP700, Ti-15V-6Cr-4Al, Ti-15Mo-5Zr-3Al, Ti-30Nb -10Ta-5Zr, etc.) is integrally formed in a plate shape by pressing or forging, and is fixed by, for example, welding, brazing, adhesion, laser welding, or the like.

  Further, the face portion 7a has a face surface (ball striking surface to be hit) 7B as viewed from the front. The face surface 7B is a region surrounded by a top edge 7P that defines the upper and lower sides, a sole edge 7Q, and a side edge 7R. That is, with respect to the face surface 7B, when the head main body 7A is viewed from the front, the ridge line (the top edge 7P, the sole edge 7Q, And the side edge 7R) (when the ridge is curved, it is defined by the curved top). In this case, a score line 7S may be separately formed on the face surface 7B, or the colors may be classified by colors or the like so that the face surface 7B becomes clear.

  The face portion 7a is formed with, for example, a roll that curves along a crown / sole direction (hereinafter also referred to as an up / down direction) and a toe / heel direction (hereinafter referred to as a left / right direction). ), And a central portion C of the face portion specified by the above-described pendulum test procedure exists in the top region of both curved portions.

  In the present embodiment, when the golf ball 1 is held at a specified lie angle with respect to the reference horizontal plane P, when the hitting surface (face surface) 7B of the face portion is viewed from the front, the length of the crown side in the toe-heel direction is Longer than the length in the toe and heel direction on the sole side, both sides become narrower toward the sole side (substantially triangular shape whose width narrows from the crown side both sides toward the sole side center) Is formed.

  The face portion 7a described above is configured such that the CT value changes according to the position at which the hit ball is made. Specifically, the CT value at the center position is efficiently regulated, and the toe / heel direction is controlled. The CT value is improved, and the entire face portion is easily vibrated so that the shot feeling becomes soft.

Hereinafter, a configuration example of the face portion 7a (face member 8) in the present embodiment will be specifically described.
First, the relationship between the CT value and the structure of the face portion will be described.
As described above, the CT value is the contact time with the face portion when the ball is hit, and the higher this value, the easier it is to bend, and the flight distance of the ball can be improved. Usually, the deflection characteristics of the face portion depend on the material, but greatly depend on the thickness and the distance from the edge region of the face portion. That is, by reducing the wall thickness, the face portion itself is easily bent, and the region farthest from the edge region (the central position C of the face portion) is easily bent greatly. Tend to be higher. In addition, for example, by changing the thickness partially, such as by forming a thin-walled portion, the bending rigidity around the periphery is lowered and it becomes easy to bend, so the CT value can be improved.

  On the other hand, the amount of flexure is high in areas with high rigidity, such as edge areas of the face part (connection parts to the crown part, side part, and sole part, which are support areas around the face part), or thickened areas. Since there are few, it is possible to suppress CT value. In addition to this, for example, by appropriately arranging the ribs and appropriately forming the thick region, the bending rigidity of the periphery thereof is increased and it becomes difficult to bend, so it is possible to efficiently reduce the CT value. .

  As is clear from the above description, the CT value at the center position is the area farthest from the edge area and can be easily improved, but the upper limit is determined by the rule, so the hitting position In order to obtain the same flight distance (stable flight distance) as when the ball is hit at the center position when the variation occurs, the CT values at the center position are efficiently regulated while the CT values around the center position are controlled. It is important that the value is approximated by the CT value at the center position or adjusted so as to be a value larger than that.

  Specifically, it is possible to suppress the bending in the central region to some extent by arranging the thick portion in the central region while making the entire face portion flexible. That is, if the structure does not form a thick part at all in the face part, the CT value of the central area can be increased, but in the area approaching the edge in the toe-heel direction, the rigidity increases rapidly and the CT value becomes extremely high. Since it may decrease, by forming a rib extending to the periphery from the thickening of the central region as in the past (such as forming an X-shaped rib), the central region is reduced. It is possible to make a structure in which the amount of bending can be approximated to the central region in the region approaching the edge in the toe-heel direction by making it somewhat difficult to bend. This makes it possible to efficiently adjust the CT value in the toe-heel direction to a state approximate to the central region or a high state as the entire face portion.

  However, if the center area is made thicker and the ribs are extended with the same thickness around it, the structure of the face part is difficult to deform when viewed as the whole face. It becomes difficult to do. If the face portion is difficult to vibrate, the feel at impact will be hard and a soft feel will not be obtained, and the hitting sound will also be reduced, resulting in a poor feel at impact.

  In the present invention, the thick portion for suppressing the bending is formed in the center portion of the face portion, the first thin portion having a thinner thickness is formed outside the thick portion, and the A second thin-walled portion that is thinner than the first thin-walled portion is formed on the outside, and a plurality of ribs that extend the first thin-walled portion and reach the periphery of the face portion are formed. That is, the plurality of ribs are not directly extended from the thick part formed in the central part to the periphery, but the first thin thick part is formed around the thick part, I try to extend from.

  Next, the configuration of the face portion 7a (face member 8) according to an embodiment of the present invention will be described with reference to FIGS. In these drawings, FIG. 5 is a view of the face portion of the head as viewed from the back side, FIG. 6A is a cross-sectional view taken along line BB in FIG. 5, and FIG. FIG. 6C is a cross-sectional view taken along the line D-D of FIG. 5.

  As shown in FIG. 3, the face hitting surface (face surface) 7B of the face portion of the present embodiment has a crown side toe / heel direction length longer than a sole side toe / heel direction length, As a result, both sides have a shape that narrows toward the sole side (a substantially triangular shape that narrows from the both sides on the crown side toward the center on the sole side). Suppressing contact.

  In such a face surface shape, the thick portion 20 is formed in the central portion including the central position C, and the outer portion (so as to surround the thick portion) is thicker than the thick portion. A thin first thin-walled portion 21 is formed.

  The thick portion 20 only needs to be formed in a region including the center position C. In the present embodiment, the rebound of the center position C is regulated based on the shape of the face surface described above, and the crown side Is slightly shifted to the sole side so that the resilience is greater than the resilience on the sole side. That is, if the ball is hit on the crown side, the ball muscles become higher and the flight distance can be improved, so that the center position of the thick portion 20 can be improved so that the flight distance can be stabilized while improving the resilience on the crown side. C1 is formed on the sole side with respect to the center position C of the face portion.

  In addition, the shape of the thick part 20 may be circular as shown in the drawing, or may be oval or rectangular. In addition, the sweet spot depends on the design of the center of gravity of the head, so it is not necessary to exactly match the center position C of the face portion, but a feeling that the golfer has captured the ball with the most core is obtained, and Since it is the portion that can transmit the head speed most efficiently to the ball, it is desirable to set it near the central position C (at least within a radius of 10 mm from the central position).

The thickness of the thick portion 20 is preferably set in the range of 3.0 to 5.0 mm so that the CT value can be effectively regulated. The width in the toe-heel direction passing through the center position C1 of the thick portion 20 is 10 to 25% of the width in the toe-heel direction of the face portion passing through that position, and the crown / sole direction passing through the center position C1. Is preferably set to 15 to 50% of the height in the crown / heel direction of the face portion passing through the position. By setting the thick portion 20 to such a thickness and size, the CT value at the center position can be efficiently suppressed.

  In addition to the thick portion 20, the first thin portion 21 is provided to efficiently regulate the CT value of the central region and to make the entire face portion easily vibrate. In this case, if the first thin-walled portion 21 is made too thick, the vibration is reduced and does not lead to an improvement in feel at impact. If the first thin-walled portion 21 is made too thin, partial vibration tends to occur. When the wall thickness is 100%, it is preferable to set the thickness within the range of 60 to 95%, preferably 65 to 90%.

  Further, when viewed in the toe / heel direction, if the width (width in the toe / heel direction passing through the center position C1) W2 of the first thin portion 21 is excessively widened, the vibration is reduced and the CT value is decreased. If it is made too narrow, the occurrence of partial vibrations and problems in strength occur, so the width W2 of the first thin portion is 1.5 to 3 with respect to the width W1 at the same position in the thick portion 20. It is preferable to set to 5 times.

  A plurality of ribs having the same thickness and reaching the periphery of the face portion are formed around the first thin-walled portion 21 (the first thin-walled portion 21 is extended as it is to form ribs). In this case, each rib exclusively functions to soften the feel at impact and reduce the change in the hitting sound even if the hitting position varies. In this embodiment, such an effect is clearly obtained. As shown in the figure, it extends toward the four directions of the crown side toe heel direction and the sole side toe heel direction. In the figure, the crown-side toe-direction ribs 22a, the crown-side heel-direction ribs 22b, the sole-side toe-direction ribs 22c, and the sole-side heel-direction ribs 22d.

  Further, a second thin wall portion 25 having a thickness smaller than that of the first thin wall portion 21 is formed outside the first thin wall portion 21. The second thin-walled portion 25 is formed on the crown side, the sole side, the toe side, and the heel side, respectively, and by forming such a second thin-walled portion 25, the flexibility in the central region is improved (CT Value improvement). In this case, if the second thin-walled portion 25 is too thick, it is difficult to improve the CT value. If the second thin-walled portion 25 is too thin, there is a problem of strength. Therefore, the thickness of the first thin-walled portion 21 is 100%. In this case, it is better to set it in the range of 95 to 60%, preferably 90 to 65% (for example, when the first thin portion is 3.1 mm, the second thin portion is about 2 mm) Preferably set).

  In the above configuration, the ribs 22c and 22d extending on the sole side are ½ of the width in the toe / heel direction of the second thin portion 25 formed on the toe side and the heel side of the face portion 7a. It is preferable to form it in the area near the center below. That is, in FIG. 5, when the width (maximum width) of the second thin portion 25 on the toe side and the heel side is D1 and D2, respectively, the toe side tip portion P1 of the rib 22c is from the position of D1 / 2. It is also preferable that the heel side tip portion P2 of the rib 22d is formed so as to be closer to the center than the position of D2 / 2.

  Further, in the present embodiment, as described above, since the center position C1 of the thick portion 20 is formed on the sole side with respect to the center position C of the face portion 7a, the CT value of the crown side area becomes too high. It is preferable to form a rib 22f that extends from the central area of the first thin-walled portion 21 to the crown side and terminates before reaching the crown portion.

  Note that the specific width of each of the ribs 22a to 22d and 22f described above is set as appropriate, but in this embodiment, the ribs 22a and 22b on the crown side are improved so that the flexibility on the crown side is improved. The width is formed to be narrower than the ribs 22c and 22d on the sole side.

  According to the golf club equipped with the head configured as described above, while effectively controlling the CT value of the center position C having good resilience, the high resilience region approximated to the position can be efficiently Since it can be expanded in the heel direction, it is possible to obtain a flight distance that approximates the center position even when the ball hits off the center position at the time of hitting, and it is possible to improve and stabilize the average flight distance that has not existed before become. In particular, in the toe-heel direction, the interaction with the bulge applied to the ball striking surface can improve the flight distance and stabilize the direction. In other words, by forming a bulge, when the hit point position at the time of hitting is shifted in the toe-heel direction, the spin due to the gear effect is suppressed, and even if the hitting speed is high and the flight distance is extended, the gear Although the degree of direction displacement due to the effect is suppressed and the flight distance is improved, the direction can be stabilized (the fairway keep rate can be improved).

  In addition, since the four thin ribs 22a to 22d are formed in the first thin wall portion 21, as in the prior art, a rib that extends as it is or a rib alone is formed in the thick wall portion. Compared with the structure, the face portion is likely to vibrate at the time of hitting, the hitting feeling can be softened, and the change in hitting sound due to variations in hitting position can be reduced.

  In this case, the ribs 22c and 22d extending to the sole side are located near the center of the second thin-walled portion 25 formed on the toe side and the heel side of the face portion 7a and not more than 1/2 of the width in the toe-heel direction. Since it is formed in the area, the proportion of the thin area in the lower region (area by the second thin part) can be increased, and even when the area on the sole side is relatively small, The resilience can be increased, and the decrease in the resilience in the toe-heel direction can be reduced. For this reason, it becomes possible to make the resilience approximate to the center position over a wide range in the toe-heel direction.

  In the present embodiment, since the center position C1 of the thick portion 20 is slightly shifted to the sole side, the rebound on the crown side is larger than the repulsion on the sole side, and the ball striation of the hit ball Can be easily raised and the flight distance can be improved and stabilized. In this case, on the crown side, the region of the second thin portion 25 becomes wide and the CT value is increased. Therefore, by extending the rib 22f described above to a part of the crown side, the crown side can be extended over a wide range. It becomes possible to adjust the resilience approximate to the center. In addition, since the rib 22f is formed in the range which does not reach a crown part, the fall of the resilience near a crown can be prevented.

The following table shows the CT value distribution obtained with the face structure of the above-described embodiment. In the table, the CT value measured at the center position C is set as a reference (230 × 10 ⁻⁶ seconds within the rule range), and this value is set as 100% (reference value for comparison), and the crown (U) / sole (D) The distribution of CT values is shown in units of 5 mm in the direction and in units of 10 mm in the toe (T) / heel (H) direction.

この表で見られるように、本実施形態では、中央位置Ｃにおけるトウ・ヒール方向ではＣＴ値を低下させることなく、特に、トウ・ヒール方向の２０ｍｍ以内のエリアに加え、クラウン側の５ｍｍ以内のエリアでは、中央位置Ｃと比較してＣＴ値が略等しいか、それ以上となるように設定されており、これにより、中央位置Ｃからトウ・ヒール方向、及び多少クラウン側にぶれて打球しても、反発力を弱めることなく（むしろ向上させて）、飛距離の低下を抑制している。

As can be seen from this table, in this embodiment, the CT value does not decrease in the toe-heel direction at the center position C, and in particular, in addition to the area within 20 mm in the toe-heel direction, within 5 mm on the crown side. In the area, the CT value is set to be substantially equal to or greater than the central position C, and this causes the ball to hit the toe / heel direction and slightly to the crown side from the central position C. However, the decrease in the flight distance is suppressed without weakening (rather improving) the repulsive force.

  In fact, when hitting with a head having a face part with a conventional rib, the hitting sound becomes high, and depending on the hit point, the sound of being crushed (sound caused by vibrations different from high sounds) may be mixed. The hit feeling image was worse, but when hitting with the head having the face portion of the above-described embodiment, the hit feeling becomes soft and the hit feeling changes due to variations in hit points (the sound of the crushed feeling) ) Was confirmed.

  Moreover, it is preferable to form the inclined parts 30 and 31 in the level | step-difference part of the side part of the above-mentioned thick part 20 and the said ribs 22a-22d and 22e.

  By forming such an inclined portion, it is possible to prevent a sudden change in CT value and a sudden change in shot feeling (vibration) (a sudden change in repulsion can be mitigated) and to maintain sound uniformity. It becomes possible. In particular, the inclined portions 30 and 31 are preferably higher in height and wider in the position of the thick portion 20 (inclined portion 30) than in the position of the rib (inclined portion 31). By doing so, it is possible to obtain a more stable and soft feel at impact.

  Further, the first thin wall portion 20 and the second thin wall portion 25 described above may have a substantially uniform wall thickness within the area. However, as the wall thickness is shifted to the peripheral side within the area, the wall thickness gradually decreases. It is preferable to make it. With this configuration, it is possible to more easily approximate the resilience to the center position, and it is possible to maintain the uniformity of the sound.

  Further, the surface (surface) shape of the first thin-walled portion 20 and each rib is preferably a shape along the bulge of the hitting surface of the face portion (the roundness in the horizontal direction of the face surface).

  With this configuration, even when the hitting position changes, the feel at impact can be stabilized (the change is small and chatter noise can be prevented). In addition, about the above-mentioned surface shape, you may follow the shape of a bulge and a roll. Further, the second thin portion 25 may be configured in the same manner as the first thin portion 20.

  Next, another embodiment of the present invention will be described. In the embodiments described below, the same reference numerals are given to the same parts as those in the above-described embodiments, and the detailed description thereof is omitted.

  FIG. 7 is a view showing a golf club according to a second embodiment of the present invention, and is a view of the face portion of the head as seen from the back side.

  In this embodiment, a predetermined opening 7C is formed in the face portion 7a, a face member 8A is fitted into the opening portion, the periphery is welded, etc., and then polished, and then polished so as to be hollow. Is formed. In this case, a flange is formed on the front side of the crown portion 7b, the sole portion 7c, and the side portion 7d, and the thick portion 20, the first thin portion 21, the first thin portion 21 are formed in the opening 7C defined by the end face of the flange. The face member 8A in which a plurality of ribs 22a to 22d and 22f are formed by extending the two thin portions 25 and the first thin portion 21 is fixed to the opening 7C.

  With such a configuration, it is possible to obtain a face member that obtains the above-described effects with high accuracy and more certainty.

  Note that the face members 8 and 8A in the above-described embodiment are not configured in a flat plate shape, but are formed so as to have a cup shape by bending the periphery, and the bent portions are formed as a crown portion 7b and a sole. You may fix to the opening end surface of the part 7c and the side part 7d. Alternatively, the face portion 7a may be integrally formed with the head main body 7A instead of fixing the face member 8 as a separate member.

  As described above, the embodiment of the present invention has been described. In the present invention, the thick portion 20 is formed at the center of the face portion, the first thin portion 21 is formed on the outer side, and the second thin portion 25 is formed on the outer side. And a plurality of ribs extending from the first thin portion 21 toward the crown side and the sole side. For this reason, it is possible to appropriately deform the thick portion 20, the first thin portion 21, the second thin portion 25, and the size and thickness of each rib. Further, the shape of the thick portion 20 may be deformed, or the thickness of each portion may be continuously changed. Further, the arrangement of the ribs and the configuration such as the number of ribs are not particularly limited. Further, in addition to the above-described thick portion and rib, a groove portion and unevenness may be separately formed on the face portion.

DESCRIPTION OF SYMBOLS 1 Golf club 5 Shaft 7 Head 7A Head main body 7B Face surface 7a Face part 7b Crown part 8, 8A Face member 20 Thick part 21 1st thin part 22a-22, 22f Rib 25 2nd thin part C Center position

Claims (5)

A hollow structure in which an outer shell body is formed by a face portion, a crown portion, a sole portion, a side portion having a toe side and a heel side, and a back portion on the rear side, and an inner space is formed in the outer shell body. A golf club having a metal club head,
A thick part is formed at the center of the face part,
Forming a first thin-walled portion thinner than the thick-walled portion outside the thick-walled portion, and forming a second thin-walled portion thinner than the first thin-walled portion outside the thick-walled portion;
A golf club comprising a plurality of ribs extending from the first thin portion to reach the periphery of the face portion. The rib is extended toward the four directions of the toe heel direction on the crown side and the toe heel direction on the sole side,
The rib extending to the sole side is formed in an area near the center of the second thin-walled portion formed on the toe side and the heel side of the face portion and having a width equal to or less than ½ of the width in the toe-heel direction. The golf club according to claim 1. The center position of the thick part is formed on the sole side with respect to the center position of the face part,
3. The golf club according to claim 1, wherein a rib extending from a central area of the first thin-walled portion toward the crown side and terminating before reaching the crown portion is formed. 4. An inclined portion is formed in the step portion on the side surface of the thick portion and the rib,
4. The golf club according to claim 1, wherein the inclined portion is higher in height and wider in the thick portion than in the rib. 5. .   An opening is formed in the face portion, and the thick member, the first thin wall portion, the second thin wall portion, and the face member formed with a plurality of ribs by extending the first thin wall portion are fixed to the opening. The golf club according to claim 1, characterized in that:

Images