The present application is related to, claims priority from and incorporates by reference Japanese Patent Application No. 2013-148636, filed on Jul. 17, 2013.
A present invention relates to an iron type golf club head, and specifically relates to an iron type golf club that has a forward recess part in a lower part of an inner surface of a cavity part on a face surface side, the forward recess part being recessed toward the face surface of the golf club head.
As an iron type golf club, there are iron clubs mainly used for shots in a fairway, a rough, a bunker, and the like, as well as a tee shot in a short hole (par 3 hole) and the like. Also there are utility clubs that have a head whose shape is similar to the shape of an iron head.
In the iron head, a portion from a face part to a hosel part that is made of a stainless steel, a carbon steel, various alloys, or the like is widely used.
The iron head has a face surface that hits a ball and a sole surface that faces the ground. The hosel part is provided on a heel side of the head. A shaft is inserted into the hosel part and firmly adhered by a firmly adhering method such as adhesive agent.
An iron type golf club head that has a projection part that is a shape in which a sole side of the head is protruded rearward has a gravity center that is low, and a distance (gravity center depth) from a face surface of the head to the gravity center that is long. The iron type golf club head having such a projection part tends to be preferred by powerless players.
In Patent documents 1 and 2, an iron head is disclosed that has a recess part in a crossing corner part of an upper surface of a sole part and a reverse surface of a face part, the recess part being recessed toward a face surface.
The iron head in Patent document 1 comprises a thick part in a center and its vicinity of the reverse surface of the face part. However, the crossing corner part between the reverse surface of the face part and the upper surface of the sole part is not formed thin. Patent document 2 discloses a recess part to which a polymer material is added.
The present invention is objected to provide an iron type golf club head that comprises a face part that is more likely to be deflect when the face part hits a ball, a superior ball rebound property, and a superior manufacturability.
An iron type golf club head disclosed in the application that comprises a face part, a sole part, a hosel part, and a cavity part. A lower part of an inner surface of the cavity part on a face surface side is a forward recess part that is recessed toward a face surface, and following formulas are satisfied:
θ2≦θ3 and θ2≦θ1
wherein an intersectional angle that is formed between the lower part of the inner surface of the cavity part on the face surface side and the face surface is marked with θ2, an intersectional angle that is formed between a rear surface of the cavity part and the face surface is marked with θ3, and an intersectional angle that is formed between a bottom surface of the cavity part and the face surface is marked with θ1.
In the iron head according to the present invention, the cavity part is provided on a reverse surface side of the face part, and the forward recess part is provided that is recessed toward the face surface in the lower part of the inner surface of the cavity part on the face surface side. Therefore, larger deflecting of the face part at the time of hitting a golf ball is realized so that a faster initial speed of ball and/or a longer carry are obtained.
An embodiment is explained as referring to
An iron head 1 has a face part 2, a hosel part 3 that is connected to a heel side of the face part 2, and a sole part 4 that is connected to a lower part of the face part 2. In the hosel part 3, a hosel hole (not illustrated) into which a shaft is inserted is provided. A front surface of the face part 2 is a face surface 2f, and many score lines (or grooves, not illustrated) are provided.
In a peripheral part of a reverse surface of the face part 2, a projection part 2a is provided on a toe side, a top side, and a heel side of the peripheral part. The projection part 2a has a thickness t4 shown in
More specifically, the center part of the face surface 2f is defined in the several ways in the present invention. For one example, the center part CP1 is defined at an emerging point on the face surface 2f that is determined with a perpendicular line PDL from the gravity point CG of the head 1 toward the face surface 2f. The center point CP1 is illustrated in
The sole part 4 is extended from a toe side to a heel side of the iron head 1. A bottom surface of the sole part 4 is a sole surface 4s.
In a reverse surface side of the face part, the cavity part 5 is provided. The cavity part is extended from the toe side to the heel side, and its periphery of the cavity part is surrounded by the sole part and the projection part 2a.
In an inner surface of the cavity part 5 a surface on the face part 2 side (for example, 12) is connected to the back surface 2b, and a front surface 12 is provided that approaches the face surface as it goes down so that the thickness becomes thinner at it lowers. In the inner surface of the cavity part, a rear surface 13 is shaped lowering from an upper surface of the sole part 4 and inclines as approaching the face surface as it goes down. A bottom surface 14 of the cavity part is connected to the rear surface 13, and is extended toward the face surface. The bottom surface 14 inclines as approaching the sole surface 4s as it goes forward. A crossing corner part formed between the bottom surface 14 and the front surface 12 is a curved recess surface 15 that is rounded. The front surface 12 and a front part of the curved recess surface 15 connected thereto form a forward recess.
A length of the front recess part in a toe-heel direction is 20 mm or more, and preferably 30 mm or more, for a lower limit. When the length is less than 20 mm, the face part 2 may not sufficiently deflect at the time of hitting a ball. For an upper limit, the length is 70 mm or less, preferably 60 mm or less. When the length is more than 70 mm, durability of the head 1 may be deteriorated.
The front surface 12 approaches the face surface 2f as it goes down as described above. Or, the lower part of the front surface 12 is closer to the face surface 2f rather than the upper part of the front surface 12 is.
An intersectional angle θ3 that is formed between the rear surface 13 and the face surface 2f is set to be θ2≦θ3. The intersectional angle θ3 is 80° or less, preferably 40° or less, for a lower limit.
An intersectional angle θ1 that is formed between the bottom surface 14 and the face surface 2f is set to be θ2≦θ1. The intersectional angle θ1 is 90° or less, preferably 75° or less, for a lower limit. When the intersectional angle θ1 is more than 90°, durability of the head 1 may be deteriorated.
A curvature radius r of the curved recess surface 15 is 0.5-3.0 mm, specifically preferably 0.7-2.5 mm. When the curvature radius r is less than 0.5 mm, durability of the head 1 may be deteriorated. When the curvature radius r is more than 3.0 mm, a thickness of a sole side is too small, resulting in that the durability may be deteriorated.
Note, when θ1-θ3 are set as described above, cores (or casting cores) for forming the cavity part can be easily removed in casting of the head 1 so that superior manufacturability is obtained. Also, a part of the cavity part surrounded by the surface of the inner surface of the cavity part on the face part side, the bottom surface 14, and the rear surface 13 may also be made larger. As a result, rigidity of the sole part is decreased and a structure in which the face part is able to deflect more can be obtained.
A thickness of a sole that is a part whose thickness from the bottom surface 14 to the sole surface is smallest is 1.5-5.0 mm, specifically preferably approximately 2.0-4.0 mm.
A thickness of the face part 2 in the center part of the face part is marked with t1. A thickness of the face part 2 on a top side of the high stage part 2c is marked with t2. A thickness of a part of the face part 2 in the forward recess part, the part having the smallest thickness of the face part 2, is marked with t3. When t2≧t1, rigidity of an upper part of the head becomes higher, so that a deflecting effect of the face part 2 at the time of hitting a ball due to the forward recess part becomes higher.
Further more, it is preferred that the thicknesses t1, t2 and the thickness t4 of the projection part 2a satisfy the following formula:
t4>t2≧t1
Thereby, an effective deflection and durability for hitting impact on the top side is well balanced.
For a lower limit, t3/t1 is 0.5 or more, and preferably 0.6 or more. When t3/t1 is less than 0.5, the durability of the head 1 may be deteriorated. For an upper limit, t3/t1 is 0.9 or less, preferably 0.8 or less. When t3/t1 is more than 0.9, the face part 2 may not sufficiently deflect at the time of hitting a ball.
A material of the head 1 is not specifically limited as long as it is made of a metallic material. A material of the face part 2 is preferably a material whose Young's modulus is 70-230 GPa, such as stainless steel, soft iron, titanium alloy, and soft stainless steel. When the Young's modulus is less than 70 GPa, the durability of the face part 2 may be deteriorated, and when it is more than 230 GPa, the face part 2 may not sufficiently deflect at the time of hitting a ball.
With the iron head 1 configured as described above, larger deflecting of the face part 2 at the time of hitting a golf ball, a higher ball rebound property, a faster initial speed of ball, and a longer carry can be obtained. Also, with the iron head 1, the core can be easily removed at the time of casting so that a superior manufacturability is obtained.
The above-described embodiment is one example of the present invention, and the present invention may be embodied in another embodiment that is different from one shown in the drawings. The present invention is applicable to an iron type utility head whose external shape is similar to the one of the iron head.
Iron head models of Example 1 and Comparative example 1, which are described below, were made, and hitting simulations by computer in the same condition were performed. In the hitting simulations, the iron head models hit a golf ball model at a head speed of 40 m/s. The results are shown in Table 1.
An iron head model (4 iron with a loft angle of 22°) of having the configuration shown in
In comparative Example 1, the forward recess part was eliminated from Example 1, and followings were set as follows: θ2=0; and t3=3.0 mm. Other than those, a head model that had the configuration the same as Example 1 was made.
As shown in Table 1, it was recognized that an initial speed of ball of Example 1 was 53.37 m/s. An initial speed of Comparative Example 1 was 53.28 m/s. Accordingly, the present invention achieved a faster initial speed with 0.09 m/s than comparative Example 1.
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