This Nonprovisional application claims priority under 35 U.S.C. § 119(a) on Patent Application No(s). 2002-355602 filed in JAPAN on Dec. 6, 2002, the entire contents of which are hereby incorporated by reference.
1. Field of the Invention
The present invention relates to an iron type golf club set which can obtain the longest carry in each number of irons while maintaining a durability.
2. Description of the Related Art
For example, Japanese Unexamined Patent Publication No. 2001-29523 discloses, as shown in
The head “a” has a low position of center of gravity and a large depth of center of gravity. Accordingly, the head reduces a probability of miss shot, and a beginner can easily hit a ball with the head. In this case, a plurality of iron type golf clubs are normally brought together and used as a set. The respective clubs in the set are different in a shaft length, a loft angle, a lie angle and the like. In particular, the shaft length is greater and the lie angle is smaller, in accordance with the club in the smaller number having the smaller loft angle. In accordance with the property of the club, a normal armature golfer tends to hit the ball on a toe side of a hitting face in accordance with the club in the smaller number, and inversely tends to hit the ball on a heel side of the hitting face in accordance with the club in the larger number.
As a result of researches of the present inventors, the conventional head includes a head in which a sweet spot is set in conformity with a hitting position of an armature golfer. However, in order to obtain the longest carry in each number of the iron, it is necessary to effectively position a thin portion “d1” having a good repulsion against the ball at the hitting point of the golfer.
The present invention is made by taking the above problems into consideration, and a main object of the present invention is to provide an iron type golf club set which can obtain the longest carry in each number of irons while maintaining a durability, on the basis of a structure that a center of figure of a thin portion having the smallest thickness and formed in a free deflection area of a face plate is moved close to a ball hitting position of an average golfer in correspondence to the number of the iron.
In accordance with the present invention, there is provided an iron type golf club of n (n: an integer equal to or more than three) numbers of iron type golf clubs having different head loft angles, wherein
the head comprises a face plate, and a head main body provided with a face receiving portion supporting a peripheral edge portion of the face plate around an opening portion,
the face plate has one thin portion having the smallest thickness and at least one thick portion having a larger thickness than the thin portion, in a free deflection area in which a back surface faces to the opening portion, and
in a standard state where the head is mounted on a horizontal plane by a specified lie angle and loft angle, a horizontal distance Xi along a hitting face between a face center and a center of figure of the thin portion (in this case, the horizontal distance Xi is negative in the case where the center of figure exists on a toe side rather than the face center, and is positive in the case where the center of figure exists on a heel side. Further, reference symbol i is a natural number of 1 to n and is given in a sequential order from the club having the smallest loft angle in the set) satisfies the following conditions (1) and (2):
X1≦X2≦ . . . ≦Xn; and (1)
X1<Xn. (2)
Description will be given below of an embodiment in accordance with the present invention with reference to the accompanying drawings.
An iron golf club set (hereinafter, simply referred to as a “set” in some cases) 1 in accordance with the present embodiment is constituted by n numbers (n: an integer equal to or more than three) of iron type golf clubs (hereinafter, simply referred to as a “club”) 3a, 3b . . . having different loft angles of the heads 2a, 2b. . . .
For example, in the set 1, the minimum loft angle is set between 10° and 25°, and the maximum loft angle is set between 45° and 60°. It is preferable that the loft angle is changed by 3° to 10° between the adjacent number of iron clubs. Further, the total number of the clubs included in the set 1 is at least three, preferably set equal to or more five, more preferably set equal to or more than seven, and still more preferably set to seven to ten. In accordance with a concrete embodiment, there are a half set constituted by irons in odd numbers or even numbers (for example, in the case of the third iron, the iron means numeric value “3”), a set including seven irons comprising third to ninth irons, and a set obtained by adding one or more of a pitching wedge (PW), an approach wedge (AW) or a sand wedge (SW) to the above set. The set 1 in accordance with the present embodiment is constituted by ten clubs obtained by adding three strong and sturdy irons PW, AW and SW to the third to ninth irons. In accordance with the customs, a shaft S attached to the head 2 is gradually shortened in accordance with an increase in the loft angle.
Each of the heads 2 included in the set 1 in accordance with the present embodiment is constituted by a face plate 2A made of a metal material, and a head main body 2B made of a different metal material from the face plate 2A, as shown in
The face plate 2A is formed in a plate shape constituting a main portion of a hitting face F in the present embodiment, and is formed in an approximately long sideways rectangular shape having an outer peripheral surface 7 including an end surface 7a in a side of a top portion, an end surface 7b in a side of a sole portion, an end surface 7c in a side of a toe portion and an end surface 7d in a side of a heel. In this case, it goes without saying that a profile shape of the face plate 2A can be modified variously in addition to the illustrated shape. Further, in the face plate 2A, the peripheral edge portion E is supported to the head main body 2B. The peripheral edge portion E of the face plate 2A includes the outer peripheral surface 7, and a back surface edge portion 8 (shown by a virtual line in
Further, the face plate 2A preferably employs a metal material, for example, having a smaller specific gravity than that of the head main body 2B, for example, titanium alloy. The weight: of the head can be distributed more in the peripheral portion of the hitting face F by forming the face plate 2A with the metal material having the smaller specific gravity than that of the head main body 2B. This serves for increasing the sweet area. For example, as shown in
The head main body 2B includes: a top portion 10 forming a head upper portion; a sole portion 11 forming a head bottom portion; a toe portion 12 connecting between the top portion 10 and the sole portion 11 on a side of a leading end of the head; a neck portion 13 connecting between the top portion 10 and the heel portion 11 on a side of the heel of the head; and a tubular hosel 14 extending to an upper side from the neck portion 13 and into which the shaft S is inserted.
Further, the head main body 2B is provided with the opening portion O which is surrounded by the top portion 10, the toe portion 12, the sole portion 11 and the neck portion 13 and penetrates backward and forward. The face receiving portion 9 is provided in the periphery of the opening portion O. The face receiving portion 9 is illustrated as a stepped structure including an inner peripheral surface portion 9a facing to the outer peripheral surface 7 of the face plate 2A, and a support surface portion 9b folded at a rear end of the inner peripheral surface portion 9a and facing to the back surface edge portion 8 of the face plate 2A. The face receiving portion 9 is continuously formed in a ring shape around the opening portion O.
The peripheral edge portion E of the face plate 2A and the face receiving portion 9 of the head main body 2B are firmly fixed to each other by fixing means such as adhesion, caulking, press fitting or screwing. Accordingly, the face plate 2A is structured such that the peripheral edge portion E can be supported by the head main body 2B so as to be restrained, and the portion in which the back surface faces to the opening portion O can be secured as a free deflection area 6 which can be deflected without being restrained by the head main body 2A at a time of hitting the ball.
The free deflection area 6 is constituted to include one thin portion 4 having the smallest thickness t1, and at least one thick portion 5 having a larger thickness than the thin portion 4. The thin portion 4 tends to be comparatively deflected at a time of hitting the ball, and serves for improving a repulsion performance of the head by extension. On the other hand, the thick portion 5 inhibits the deflecting generated at a time of hitting the ball, and prevents the durability from being deteriorated. In other words, it is possible to prevent the durability from being deteriorated while improving the repulsion performance by providing the thin portion 4 and the thick portion 5 on the free deflection area 6 of the face plate 2A.
The thickness t1 of the thin portion 4 is not particularly limited, however, is preferably set between 1.0 and 3.0 mm, and more preferably between 1.2 and 2.0 mm. The thin portion 4 improves the repulsion property of the head; however, when the thickness t1 is smaller than 1.0 mm, the strength is short and there is a tendency of deteriorating the durability of the face plate 2A. On the contrary, when the thickness t1 exceeds 3.0 mm, there is a tendency that an effect of improving the repulsion performance is reduced. In the present embodiment, the thin portion 4 has an approximately uniform thickness of 2.0 mm.
The thickness t2 of the thick portion 5 is not particularly limited, however, is preferably set between 2.0 and 4.0 mm, and more preferably between 2.0 and 3.0 mm. When the thickness t2 is smaller than 2.0 mm, it is hard to increase the strength of the face plate 2B which is lowered by the thin portion 4. On the contrary, when the thickness t2 exceeds 4.0 mm, the rigidity of the face plate 2B is excessively increased, and the thickness is not preferable in view of the repulsion performance.
The difference (t2−t1) between the thickness t2 of the thick portion 5 and the thickness t1 of the thin portion 4 is preferably set between 0.2 and 1.5 mm, and more preferably between 0.5 and 1.0 mm. Accordingly, the repulsion property and the durability of the free deflection area 6 can be improved with good balance. In the present embodiment, the thickness t2 of the thick portion 5 is approximately uniform thickness of 3.0 mm. Further, the thick portion 5 is connected to the peripheral edge portion E of the face plate 2A, and has the same thickness as that of the peripheral edge portion E.
Further, it is desirable that the thin portion 4 occupies 15 to 70% of the free deflection area 6, and more preferably 30 to 60% thereof. When the thin portion 4 is less than 15% of the free deflection area 6, the improvement of the repulsion performance is low. On the contrary, when the thin portion 4 exceeds 70% thereof, the durability of the face plate 2A tends to be lowered. In this case, this rate is determined on the basis of the area projected on the hitting face F.
The ball tends to be hit on the toe side of the hitting face F in accordance with the smaller number club 3a in which the loft angle is smaller, and the ball tends to be hit on the heel side of the hitting face F in accordance with the larger number club 3c in which the loft angle is larger, as described above. In order to obtain the longest carry in each of the clubs 3a, 3b . . . , it is preferable to set the center Z of figure of the thin portion 4 in correspondence to the change in the ball hitting position. Accordingly, the ball hitting position of the golfer is close to the center of figure of the thin portion 4 having good repulsion, and it is possible to effectively deflect the thin portion 4 of the face plate 2A at a time of hitting the ball. This serves for obtaining the long carry.
In particular, in the standard state where the head 2 is mounted on the horizontal plane at the specified lie angle and loft angle, a horizontal distance Xi along the hitting face F between a face center FC and the center Z of figure of the thin portion 4 satisfies the following conditions (1) and (2):
X1≦X2≦ . . . ≦Xn; and (1)
X1<Xn. (2)
In this case, the horizontal distance Xi is expressed as a negative value in the case where the center Z of figure exists on the toe side rather than the face center FC, and is expressed as a positive value in the case where the center Z of figure exists on the heel side rather than the face center FC. Further, reference symbol i denotes a natural number of 1 to n which is given from the club having the smallest loft angle in the set in a sequential order.
The center Z of figure of the thin portion 4 can be geometrically determined from the profile shape of the thin portion 4 which is projected on the hitting face F. Further, the face center FC passes through a middle of an end 15t on a side of the toe of the face line 15 and an end 15h on a side of the heel, as shown in
In general, the iron type golf club set can be virtually sectioned into three groups in correspondence to the loft angle. Calling the club from the group having the small number, these clubs are called as a long iron, a middle iron and a short iron. Further, the change in the ball hitting position is significantly different between the groups. In the set 1 in accordance with the present invention, in accordance with a preferable aspect, the horizontal distance Xi is substantially the same in each of the groups of the long irons, middle irons and short irons. On the other hand, comparing the respective groups with one another, the horizontal distance Xi is set to be different. In other words, three or more kinds of horizontal distances Xi are included in the set 1 (two or more inequality signs “<” are included in the condition (1)).
Further, giving a concrete example, the horizontal distances X1 to X3 of the third to fifth irons (i=1 to 3), the horizontal distances X4 to X7 of the sixth to ninth irons (i=4 to 7), and the horizontal distances X8 to X10 of the PW, AW and SW (i=8 to 10) are changed in stages as follows:
X1(=X2=X3)<X4(=X5=X6=X7)<X8(=X9=X10).
In this case, in
For example, in the long iron having the head in which the loft angle is equal to or less than 28°, such as the third to fifth irons, the thin portion 4 is formed on the side of the toe of the free deflection area 6, and the thick portion 5 is formed on the side of the heel, respectively, as shown in
In the long iron, the horizontal distance Xi is preferably set between −5 and 0 mm, and more preferably between −3 and 0 mm. When the horizontal distance Xi is smaller than −5 mm, the center Z of figure tends to be close to the toe side rather than an actual ball hitting position. On the contrary, when the horizontal distance Xi is larger than 0 mm, the center Z of figure tends to be close to the heel side rather than the actual ball hitting position. Accordingly, a general distance between the ball hitting position and the center Z of figure is increased.
In the middle iron having the head in which the loft angle is larger than 28° and equal to or less than 41°, such as the sixth to ninth irons, the thin portion 4 is formed approximately in the center of the free deflection area 6, as shown in
In the middle iron, the horizontal distance Xi is preferably set between −3 and +3 mm, and more preferably between −1 and +1 mm. When the horizontal distance Xi is smaller than −3 mm, the center Z of figure tends to be close to the toe side rather than the actual ball hitting position. On the contrary, when the horizontal distance Xi is larger than +3 mm, the center Z of figure tends to be close to the heel side rather than the actual ball hitting position.
Further, in the short iron having the head in which the loft angle is larger than 410, for example, the pitching wedge to the sand wedge, the thin portion 4 is formed on the heel side from the center of the free deflection area 6, as shown in
In the short iron, the horizontal distance Xi is preferably set between 0 and +5 mm, and more preferably between 0 and +3 mm. When the horizontal distance Xi is smaller than 0 mm, the center Z of figure tends to be close to the toe side rather than the actual ball hitting position. On the contrary, when the horizontal distance Xi is larger than +5 mm, the center Z of figure tends to be close to the heel side rather than the actual ball hitting position.
In this case, in each of the heads 2, the center Z of figure of the thin portion 4 can be easily arranged at a desired position by changing the profile shape. Further, the number of the iron included in each of the long, middle and short iron groups is not limited to the above aspect, and can be variously determined.
The iron type golf club 3 is used in most cases for hitting a ball directly placed on the grass. Accordingly, the hitting position of the ball is set close to the sole of the hitting face F, that is, at a comparatively low position. In the head 2 in accordance with the present embodiment, the wide thin portion 4 is formed in the vicinity of the actual ball hitting position by making the length Wb on the side of the sole portion of the thin portion 4 larger than the length Wa on the side of the top portion. Accordingly, it is possible to more effectively deflect the thin portion 4. This serves for obtaining the further long carry. In view of this, a ratio (Wb/Wa) of the thin portion 4 is preferably set between 1.0 and 4.5, and more preferably between 1.5 and 3.0.
Further, in the standard state, it is desirable that a horizontal distance Si along the hitting face F between the face center FC and the sweet spot SS satisfies the following conditions (3) and (4):
S1≦S2≦ . . . ≦Sn; and (3)
S1<Sn. (4)
The sweet spot SS is a foot of a normal line N drawn from the center of gravity G of the head to the hitting face F, as shown in
It is possible to set the ball hitting position of the average golfer close to not only the center Z of figure of the thin portion 4 having the good repulsion property but also the sweet spot SS being deemed to have the good ball hitting directionality, by satisfying the conditions (3) and (4).
Accordingly, it is possible to obtain the long carry while increasing the directionality of the hit ball. Further, it is preferable to change the horizontal distance Si at least between the respective groups comprising the long, middle and the short iron groups, in the same manner as that of the horizontal distance Xi.
In the present embodiment, the sweet spot SS is provided so as to be substantially coincided with the center Z of figure of the thin portion 4. In this case, the structure is not limited to the above aspect. For example, it is preferable that a horizontal distance J between the center Z of figure of the thin portion 4 and the sweet spot SS is set, for example, within 2 mm, more preferably within 1 mm. The sweet spot SS can be set to a desired position by suitably adjusting the position of the center of gravity G of the head, and the center of gravity G of the head can be suitably set in accordance with a head weight distribution design.
Further, for example, as shown in
Further, in each of the heads 2, as shown in
L1≧ . . . ≧Li≧ . . . ≧Ln; and (5)
L1>Ln. (6)
In this case, i 1 to n, and is attached in a sequential order from the club having the smallest loft angle in the set.
In general, the head having the large depth Li of center of gravity tends to hit the ball higher. In the present embodiment, the ball is easily hit high by setting the depth of center of gravity of the head in the low number to be large, and an improvement of the long carry can be intended. Further, it is possible to prevent the ball from being hit significantly high by setting the depth of center of gravity of the head having the small loft angle to be relatively small, whereby it is possible to increase a controllability.
In the long iron, the depth Li of center of gravity is desirably between 3.5 and 8.0 mm, and more preferably between 4.0 and 6.0 mm. Further, in the middle iron, the depth Li of center of gravity is desirably between 2.0 and 6.0 mm, and more preferably between 3.0 and 4.5 mm. Further, in the short iron, the depth Li of center of gravity is desirably between 1.0 and 3.0 mm, and more preferably between 0 and 1.5 mm.
In
A comparative test was applied to an iron type golf club set having the specification shown in Table 1. A common specification of each of the clubs is as follows:
Face plate: Ti-6Al-4V
Head main body: stainless steel (SUS630)
Entire length of club (unit: inch)
Third iron: 39.0
Fourth iron: 38.5
Fifth iron: 38.0
Sixth iron: 37.5
Seventh iron: 37.0
Eighth iron: 36.5
Ninth iron: 36.0
PW: 35.5
AW: 35.5
SW: 35.5
Contents of test are as follows.
(Ball Hitting Test)
The carry in all the clubs was measured. Testers are constituted by ten right-handed golfers (having handicaps between 10 and 15). A result is obtained by an average of fifty samples.
(Strength Test)
The 1000 times ball hitting tests were performed in all the clubs by using a swing robot, and an amount of depression on the hitting face was measured. The hitting conditions and the like are as follows.
Head speed: 40 m/s
Golf ball: “MXFRI HI-BRID” manufactured by Sumitomo Rubber Industries, Ltd.
Evaluation:
Amount of depression less than 0.1 mm: OK
Amount of depression equal to or more than 0.1 mm: NG
Further, in this example, the clubs are divided into the long iron having the loft angle between 20° and 26°, the middle iron having the loft angle between 29° and 40°, and the short iron having the loft angle between 45° and 56°. In each the groups, the horizontal distances. Xi are uniform, however the horizontal distances Xi in each of the groups are different. Results of test are shown in Table 1.
In Comparative Example 1, the thickness of the free deflection area of the face plate is all large 3.0 mm. Accordingly, Comparative Example 1 has an excellent strength, however, has a deteriorated repulsion property and a short carry. On the contrary, in Comparative Example 2, since the thickness of the free deflection area is all small 2.0 mm, Comparative Example 2 has an improved repulsion property and a long carry, however, has a deteriorated durability.
Comparative Example 3 in which the thickness of the free deflection area is set to 2.5 mm in all the area exhibits an intermediate performance between Comparative Example 1 and Comparative Example 2 in view of the carry. However, the strength is short in the long iron by which a high head speed can be obtained. Further, in Comparative Example 4, a sufficient distance can be obtained in the middle iron, however, an improvement of carry is hardly seen in the long and middle irons.
In comparison with these comparative examples, in accordance with the sets of Example 1 and Example 2, the long carry can be obtained in all the number of the irons while keeping the strength. In other words, it is possible to confirm an advantage of the present invention.
As described above, in accordance with the present invention, it is possible to provide the iron type golf club set which can obtain the longest carry in each of the irons while keeping the durability, by optimally changing the position of the center of figure of the thin portion provided in the free deflection area of the face plate in accordance with the number of the irons. Further, in the case of optimally changing the sweet spot and the depth of center of gravity in accordance with the number of the iron, it is possible to further increase the carry.
Number | Date | Country | Kind |
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2002-355602 | Dec 2002 | JP | national |
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