JP5962745B2 - Golf club head - Google Patents

Description

  The present invention relates to a golf club head.

In order to improve the initial velocity of the ball when the ball is hit with a golf club head and improve the flight distance, it is effective to secure a deflection amount of the face portion.
Patent Document 1 discloses that the amount of deflection of the face portion is ensured by making the portion of the crown portion near the face portion easy to bend.
Patent Document 2 discloses that a protrusion is provided on a part of the crown near the face, and the protrusion is easily bent to ensure the deflection of the face.

Japanese Patent No. 4567136 JP 2012-120585 A

However, in the above prior art, only the deflection amount in a narrow range centering on the face center line passing up and down the center point of the face part is ensured, and the distribution area of the hit points that can secure the flight distance is narrow, and the sweet The area is limited.
Here, the sweet area refers to a flight distance (for example, about 98% of the maximum initial velocity of the ball) that is almost the same as that when the golf ball is hit with a sweet spot even if the golf ball is hit with a hit point that is off the sweet spot of the face surface. An area that can be obtained.
Therefore, a user who has a large variation in hit points, such as a beginner, is disadvantageous in securing an average flight distance.
The present invention has been made in view of such circumstances, and an object of the present invention is to provide a golf club head that is advantageous in improving the flight distance of a hit ball while enlarging a sweet area.

In order to achieve the above object, the invention according to claim 1 includes a face portion having a vertical height and extending left and right, a crown portion extending rearward from an upper portion of the face portion, and the face. A sole portion extending rearward from a lower portion of the portion, and a side portion extending through the face back between the toe side edge and the heel side edge of the face portion between the crown portion and the sole portion. A golf club head having a hollow portion surrounded by the face portion, the crown portion, the sole portion and the side portion, wherein the golf club head is a predetermined line with respect to a horizontal plane. In a reference state installed along corners and loft angles, a cross-section that includes a normal passing through the center point of the face surface and that is cut along the plane perpendicular to the horizontal plane is defined as a first reference cross-section. In one reference cross section, three measurement points are defined at an interval of 1 mm from the center point of the face surface toward the crown portion, and the curvature of an arc passing through the three measurement points is measured. A value obtained by sequentially measuring the curvature by repeating an operation performed by displacing three measurement points by 1 mm toward the crown portion, and dividing the measured curvature by the curvature measured immediately before Of the three measurement points is set as a first boundary point, and 1 mm from the center point of the face surface toward the sole surface in the first reference cross section. Three measurement points are defined at intervals, and the curvature of an arc passing through the three measurement points is measured, and the measurement of the curvature is performed in a direction in which each of the three measurement points approaches the sole surface by 1 mm. Of the three measurement points, when the value obtained by dividing the measured curvature by the curvature measured immediately before is more than doubled by measuring the curvature sequentially by repeating the operation performed while displacing And the first boundary point and the crown surface maximum height point at which the height of the crown surface from the horizontal plane is maximum in the first reference cross section. When the angle formed by the connecting straight line with respect to the horizontal plane is the connection angle of the crown portion with respect to the face portion, the connection angle is not less than 15 ° and not more than 35 °, and the first reference cross section includes the first The area S of the cross section of the face portion located between the normal of the face surface passing through the boundary point of the face and the normal of the face surface passing through the second boundary point is defined as the first boundary point. Divide by dimension D between the second boundary points Value when the weighted average wall thickness t of the face portions, satisfy the following equation (1),
0.0571D + 0.2857 <t <0.0571D + 0.7143 (1)
In the reference state, a section obtained by breaking the head main body along a plane passing through the center point of the face surface and parallel to the horizontal plane is defined as a second reference section, and the center point of the face surface in the second reference section Three measurement points are defined at intervals of 1 mm from to the toe direction, and the curvature of the arc passing through the three measurement points is measured, and the measurement of the curvature is performed by measuring the three measurement points by 1 mm in the toe direction. Of the three measurement points, when the value obtained by dividing the measured curvature by the curvature measured immediately before is more than doubled by measuring the curvature sequentially by repeating the operation performed while displacing The third measurement point is defined as a third boundary point, and three measurement points are defined at 1 mm intervals from the center point of the face surface toward the heel direction in the second reference cross section. The curvature of the arc passing through the point is measured, and the curvature is sequentially measured by repeating the operation of measuring the curvature while displacing the three measurement points by 1 mm toward the heel direction. When the value obtained by dividing the curvature by the curvature measured immediately before exceeds twice, when the intermediate measurement point of the three measurement points is the fourth boundary point, the third boundary A dimension L between a point and the fourth boundary point is 1.6 times or more and 3.0 times or less of the dimension D.
The invention according to claim 2 is characterized in that the dimension D is 25 mm or more and 65 mm or less.
According to a third aspect of the invention, the volume of the head body is 400 cc or more and 470 cc or less.

According to the first aspect of the present invention, the connection angle θ of the crown part to the face part is set to 15 ° to 35 °, and the weighted average thickness t of the face part satisfies the formula (1). Therefore, the amount of deflection of the crown portion can be ensured and the coefficient of restitution of the face portion can be set within an appropriate range, which is advantageous in improving the flight distance of the hit ball while enlarging the sweet area.
According to the invention described in claim 2, since the dimension D is in the range of 25 mm or more and 65 mm or less, the sweet area can be secured while improving the coefficient of restitution, and it is more advantageous in improving the average flight distance. It becomes.
According to the invention of claim 3, since the dimension L is in the range of 1.6 times to 3.0 times the dimension D, the sweet area can be secured while improving the coefficient of restitution, and the average flying This is more advantageous for improving the distance.
According to the invention described in claim 4, as a result, the dimension D is within an appropriate range, the sweet area can be secured while improving the coefficient of restitution, and it is more advantageous in improving the average flight distance. .

1 is a front view of a golf club head according to an embodiment as viewed from the front of a face surface. It is A arrow directional view of FIG. FIG. 3 is a view taken in the direction of arrow B in FIG. 2. It is a first explanatory view showing a method for defining the center point Pc of the face surface. It is the 2nd explanatory view showing the regulation method of center point Pc of a face surface. It is a 3rd explanatory view which shows the prescription | regulation method of the center point Pc of a face surface. It is the 4th explanatory view showing the regulation method of center point Pc of a face surface. FIG. 3 is a cross-sectional view of a golf club head showing a relationship between a gravity center G0 of the golf club head and a gravity center FG on the face surface. It is a front view of the golf club head for explaining the definition of the contour line I of the face surface. It is sectional drawing of the golf club head explaining the definition of the outline I of a face surface. It is a front view of the golf club head explaining the definition of the center point Pc of the face surface. It is sectional drawing fractured | ruptured by the plane X of FIG. 1, and only the face part side is drawn. It is sectional drawing fractured | ruptured by the plane Y of FIG. 1, and only the face part side is drawn. It is explanatory drawing of the measuring method of the curvature R of a face surface. It is explanatory drawing of the 1st boundary point K1 and connection angle (theta). It is explanatory drawing of the 2nd boundary point K2. It is explanatory drawing of the 1st boundary point K1 and connection angle (theta). It is explanatory drawing of the 3rd boundary point K3. It is explanatory drawing of the 4th boundary point K2. It is a figure which shows the relationship between the dimension D and the weighted average thickness t of a face part. It is explanatory drawing of the dimension D and the dimension L. FIG. It is explanatory drawing of the hit point set on the face surface. It is a figure which shows the evaluation result of Experimental examples 1-10. It is a figure which shows the evaluation result of Experimental examples 13-23.

Next, an embodiment of the present invention will be described.
As shown in FIGS. 1 to 3, 12, and 13, in the present embodiment, the golf club head 10 is a hollow wood-type golf club head, and includes a head body 12.
The head body 12 is mainly composed of a metal material.
As said metal material, 1 type (s) or 2 or more types, such as stainless steel, maraging steel, pure titanium, a titanium alloy, or an aluminum alloy, are used, for example.
The head body 12 includes a face portion 14, a crown portion 16, a sole portion 18, and a side portion 20.
The face portion 14 has a vertical height and extends to the left and right.
The crown portion 16 extends rearward from the upper portion of the face portion 14.
The sole portion 18 extends rearward from the lower portion of the face portion 14.
The side portion 20 extends between the crown portion 16 and the sole portion 18 through the face back 26 between the toe 22 side edge and the heel 24 side edge of the face portion 14.
The head body 12 has a hollow structure in which the inside surrounded by the face portion 14, the crown portion 16, the sole portion 18, and the side portion 20 is a hollow portion 28.
The surface exposed to the outside of the face portion 14 is a face surface 14A for hitting a ball, and the back surface facing the hollow portion 28 of the face portion 14 is a face back surface 14B.
The surface exposed to the outside of the crown portion 16 is a crown surface 16A.
The crown portion 16 is provided with a hosel 30 connected to the shaft S at a position near the heel 24 on the face surface 14A side.
The surface exposed to the outside of the sole portion 18 is a sole surface 18A, and the back surface facing the hollow portion 28 of the sole portion 18 is a sole back surface 18B.

Next, a method for defining the center point Pc of the face surface 14A will be described.
The center point Pc of the face surface 14A is the geometric center of the face surface 14A, and the center point Pc is defined by various conventionally known methods including the first definition method and the second definition method exemplified below. The method can be adopted.

[A] First defining method of the center point Pc of the face surface 14A:
This is a method of defining the center point Pc when the boundary between the face surface 14A and another golf club head 10 portion is clear, in other words, when the periphery of the face surface 14A is specified by a ridgeline. In this case, the face surface 14A is clearly defined.
4 to 7 are explanatory views showing a method for defining the center point Pc of the face surface 14A.

(1) First, as shown in FIG. 4, the golf club head 10 is placed on the horizontal plane HP so that the lie angle and the face angle become specified values. The state of the golf club head 10 at this time is set as a reference state. Note that the set values of the lie angle and the face angle are values described in a product catalog, for example.

(2) Next, a temporary center point c0 in the direction connecting the crown portion 16 and the sole portion 18 is obtained.
That is, as shown in FIG. 4, a perpendicular line f0 is drawn that intersects with the approximate center point of a line parallel to the horizontal plane HP connecting the toe 22 and the heel 24 (hereinafter referred to as a horizontal line).
The midpoint of the point a0 where the perpendicular f0 and the upper edge of the face surface 14A intersect and the midpoint of the point b0 where the perpendicular f0 and the lower edge of the face surface 14A intersect are defined as a temporary center point c0.

(3) Next, as shown in FIG. 5, a horizontal line g0 passing through the temporary center point c0 is drawn.
(4) Next, as shown in FIG. 6, the d0 point where the horizontal line g0 and the edge on the toe 22 side of the face surface 14A intersect, and the e0 point where the horizontal line g0 and the edge on the heel 24 side of the face surface 14A intersect. The midpoint is defined as a temporary center point c1.

(5) Next, as shown in FIG. 7, a perpendicular line f1 passing through the temporary center point c1 is drawn, and the perpendicular line f1 and the upper edge of the face surface 14A intersect with each other, and the perpendicular line f1 and the lower edge of the face surface 14A The midpoint of the b1 point where the two intersect is defined as the temporary center point c2.
Here, if the temporary center points c1 and c2 match, that point is defined as the center point Pc of the face surface 14A.
If the temporary center points c1 and c2 do not match, the procedures (2) to (5) are repeated.
Since the face surface 14A has a curved surface, the length of the horizontal line g0 and the lengths of the vertical lines f0 and f1 when obtaining the midpoint of the horizontal line g0 and the midpoints of the vertical lines f0 and f1 are the curved surfaces of the face surface 14A. The length along the line shall be used.
The face center line CL is defined by a straight line passing through the center point Pc and extending in a direction orthogonal to the toe 22-heel 24 direction.

[B] Second defining method of the center point Pc of the face surface 14A:
Next, the definition of the center point Pc when the periphery of the face surface 14A and the other golf club head 10 portions are connected by a curved surface and the face surface 14A cannot be clearly defined will be described.

As shown in FIG. 8, the golf club head 10 is hollow, the symbol G0 indicates the center of gravity of the golf club head 10, and the symbol Lp is a straight line connecting the center of gravity G0 and the center of gravity FG on the face surface. The straight line Lp is a perpendicular of the face surface 14A passing through the center of gravity G0.
That is, a point obtained by projecting the center of gravity G0 of the golf club head 10 onto the face surface 14A is the on-face center of gravity point FG.
Here, as shown in FIG. 9, a number of planes H1, H2, H3,..., Hn including a straight line Lp connecting the center of gravity G0 and the on-face center of gravity FG are considered.

In a cross section when the golf club head 10 is broken along each of the planes H1, H2, H3,..., Hn, the curvature radius r0 of the outer surface of the golf club head 10 is measured as shown in FIG.
When measuring the curvature radius r0, it is assumed that there is no face line, punch mark or the like on the face surface 14A.
The curvature radius r0 is continuously measured from the center point Pc of the face surface 14A in the outward direction (upward and downward in FIG. 10).
Then, in the measurement, a portion where the radius of curvature r0 is initially equal to or smaller than a predetermined value is defined as an outline I representing the periphery of the face surface 14A.
The predetermined value is, for example, 200 mm.
A region surrounded by the contour line I determined based on a large number of planes H1, H2, H3,..., Hn is defined as a face surface 14A as shown in FIGS.

Next, as shown in FIG. 11, the golf club head 10 is placed on the horizontal ground (horizontal plane HP) so that the lie angle and the face angle become specified values.
The straight line LT passes through the toe 22 side point PT of the face surface 14A and extends in the vertical direction.
The straight line LH passes through the heel 24 side point PH of the face surface 14A and extends in the vertical direction.
The straight line LC is parallel to the straight line LT and the straight line LH. The distance between the straight line LC and the straight line LT is equal to the distance between the straight line LC and the straight line LH.
Reference symbol Pu indicates an upper point of the face surface 14A, and reference symbol Pd indicates a lower point of the face surface 14A. The upper point Pu and the lower point Pd are both intersections of the straight line LC and the contour line I.
The center point Pc is defined by the midpoint of the line segment connecting the upper point Pu and the lower point Pd.

Next, the definition of each part of the golf club head 10 will be described in detail.
As shown in FIGS. 1 and 2, the golf club head 10 is set in a reference state in which the golf club head 10 is installed at a predetermined lie angle and loft angle with respect to the horizontal plane HP.
As shown in FIG. 1 and FIG. 12, in a reference state, a cross section in which the head body 12 is broken along a plane X that includes a normal passing through the center point Pc of the face surface 14A and is orthogonal to the horizontal plane HP And In other words, the first reference cross section 32 is a cross section in which the head main body 12 is broken along a plane X including the face center line CL and orthogonal to the horizontal plane HP in the reference state.

In the first reference cross section 32, the first boundary point K1 and the second boundary point K2 are defined based on the procedure described below.
That is, FIGS. 14, 15, as shown in FIG. 17, the curvature of the circular arc passing through the three measurement points p from the center point Pc toward the crown portion 16 defines three measurement points p at 1mm intervals of the face surface 14A In addition to measuring R, the curvature R (R = R1, R2, R3,...) Is repeated by repeating the operation of measuring the curvature while displacing the three measurement points p toward the crown portion 16 by 1 mm. Rn−1, Rn, Rn + 1,.
When the value obtained by dividing the measured curvature Rn curvature Rn-1 measured immediately before exceeds twice, the intermediate measurement point p of the three measuring points p and the first boundary point K1 To do.

As shown in FIG. 16, in the first reference section 32, the curvature of the circular arc passing through three measurement points p from the center point Pc toward the sole surface 18A defines three measurement points p at 1mm intervals of the face surface 14A The curvature R (R = R1, R2, R3,...) Is repeated by measuring R and repeating the operation of measuring the curvature R while displacing the three measurement points p by 1 mm toward the sole surface 18A. ... Rn-1, Rn, Rn + 1,. This procedure is the same as that shown in FIG.
When the value obtained by dividing the measured curvature Rn curvature Rn-1 measured immediately before exceeds twice, the intermediate measurement point p of the three measuring points p and the second boundary point K2 To do.

  Further, in the reference state, as shown in FIGS. 1 and 13, a cross section in which the head body 12 is broken along a plane Y passing through the center point Pc of the face surface 14A and parallel to the horizontal plane HP is a second reference cross section 34. And

In the second reference cross section 34, a third boundary point K3 and a fourth boundary point K4 are defined based on the procedure described below.
As shown in FIG. 18, in the second reference section 34, the curvature of the circular arc passing through three measurement points p from the center point Pc toward the toe 22 direction defines three measurement points p at 1mm intervals of the face surface 14A The curvature R (R = R1, R2, R3,... Rn−) is measured by repeating the operation of measuring the curvature R while displacing the three measurement points p by 1 mm toward the toe 22 direction. 1, Rn, Rn + 1,...) Are sequentially measured. This procedure is the same as that shown in FIG.
When the value obtained by dividing the measured curvature Rn curvature Rn-1 measured immediately before exceeds twice, the intermediate measurement point p of the three measuring points p and the third boundary point K3 To do.

As shown in FIG. 19, in the second reference section 34, the curvature of the circular arc passing through three measurement points p toward the center point Pc in the heel 24 direction defines three measurement points p at 1mm intervals of the face surface 14A The curvature R (R = R1, R2, R3,... Rn−) is measured by repeating the operation of measuring the curvature R while displacing the three measurement points p by 1 mm toward the heel 24. 1, Rn, Rn + 1,...) Are sequentially measured. This procedure is the same as that shown in FIG.
When the value obtained by dividing the measured curvature Rn curvature Rn-1 measured immediately before exceeds twice, the intermediate measurement point p of the three measuring points p and the fourth boundary point K4 To do.

In the present embodiment, as shown in FIGS. 15 and 17, the crown surface maximum height at which the height of the first boundary point K1 and the crown surface 16A from the horizontal plane HP is maximum in the first reference cross section 32. When the angle formed by the straight line Lk connecting the saddle point Ph with respect to the horizontal plane HP ′ is the connection angle θ of the crown portion 16 to the face portion 14, the connection angle θ is assumed to be 15 ° or more and 35 ° or less. 15 illustrates the case where the connection angle θ is 20 °, and FIG. 17 illustrates the case where the connection angle θ is 30 °.
When the connection angle θ is in the range of 15 ° or more and 35 ° or less, the deflection amount of the crown portion 16 can be ensured at the time of hitting the ball, and hence the deflection amount of the face portion 14 is increased. This is advantageous in improving the quality.
If the connection angle θ is less than the range of 15 ° or more and 35 ° or less, it is disadvantageous in securing the amount of deflection of the crown portion 16 at the time of hitting the ball. Therefore, the amount of deflection of the face portion 14 is reduced, and the coefficient of restitution is reduced. This is disadvantageous in improving the flight distance.
If the connection angle θ exceeds the range of 15 ° or more and 35 ° or less, the deflection amount of the crown portion 16 can be ensured at the time of hitting the ball, and thus the deflection amount of the face portion 14 is increased but the deflection amount is too large. It becomes too high, and the sweet area becomes narrow, which is disadvantageous for improving the average flight distance. In addition, there is a disadvantage that the golf club head 10 has a sense of incongruity with respect to the external shape and is difficult to swing.

In this embodiment, as shown in FIGS. 12 and 21, in the first reference cross section 32, the normal Ln1 of the face surface 14A passing through the first boundary point K1 and the second boundary point K2 are A value obtained by dividing the area S of the cross section of the face portion 14 located between the normal line Ln2 of the face surface 14A passing through the face portion 14 by the dimension D between the first boundary point K1 and the second boundary point K2. When the weighted average wall thickness t is set to satisfy the following formula (1). In other words, the weighted average thickness t of the face portion 14 is set within the range of the expression (1).
0.0571D + 0.2857 <t <0.0571D + 0.7143 (1)

FIG. 20 is a diagram showing the relationship between the dimension D and the weighted average thickness t of the face portion 14.
The straight line L1 indicates t = 0.0571D + 0.2857.
The straight line L2 indicates t = 0.0571D + 0.7143.
In the figure, the symbol ◇ indicates the golf club head 10 that satisfies the formula (1), and the symbol x indicates the golf club head 10 that does not satisfy the formula (1).
If the weighted average thickness t of the face portion 14 is within the range defined by the formula (1), it is advantageous for improving the coefficient of restitution and securing the sweet area, and improving the average flight distance. It is advantageous in planning.
If the weighted average thickness t of the face portion 14 is less than the range defined by the expression (1), the coefficient of restitution becomes too high and the sweet area becomes narrow, which is disadvantageous for improving the average flight distance. Become.
If the weighted average thickness t of the face portion 14 exceeds the range defined by the formula (1), the sweetness area can be secured, but the coefficient of restitution decreases, which is disadvantageous in improving the average flight distance. .

In the present embodiment, the dimension D is in the range of 25 mm to 65 mm.
When the dimension D is in the range of 25 mm or more and 65 mm or less, the sweet area can be secured while improving the coefficient of restitution, which is advantageous for improving the average flight distance.
When the dimension D is below the range of 25 mm or more and 65 mm or less, the coefficient of restitution decreases, so the effect of improving the average flight distance decreases.
If the dimension D exceeds the range of 25 mm or more and 65 mm or less, the coefficient of restitution becomes too high and the sweet area becomes narrow, so the effect of improving the average flight distance is reduced.

Further, in the present embodiment, as shown in FIG. 21, the dimension between the third boundary point K3 and the fourth boundary point K4 is the dimension L, and the dimension L is 1.6 times the dimension D or more 3 Within the range of 0 times or less.
When the dimension L is in the range of 1.6 times to 3.0 times the dimension D, the sweet area can be secured while improving the coefficient of restitution, which is advantageous for improving the average flight distance. .
When the dimension L falls below the range of 1.6 times or more and 3.0 times or less of the dimension D, the dimension L is too small than the dimension D, so even if the weighted average thickness t of the face portion 14 is within the specified range. The effect decreases, the effect of improving the coefficient of restitution and the expansion of the sweet area decreases, and the effect of improving the average flight distance decreases.
When the dimension L exceeds the range of 1.6 times or more and 3.0 times or less of the dimension D, the dimension L is too larger than the dimension D, so that the weighted average thickness t of the face portion 14 is within the specified range. The effect of improving the coefficient of restitution and expanding the sweet area is reduced, and the effect of improving the average flight distance is reduced.

Further, in the present embodiment, the volume of the head body 12 is in the range of 400 cc or more and 470 cc or less.
If the volume of the head body 12 is in the range of 400 cc or more and 470 cc or less, as a result, the dimension D is in an appropriate range, and the sweet area can be secured while improving the coefficient of restitution, and the average flight distance is improved It is advantageous in planning.
When the volume of the head main body 12 falls below the range of 400 cc or more and 470 cc or less, the dimension D falls below the appropriate range as a result, the restitution coefficient is lowered and the effect of improving the average flight distance is lowered.
When the volume of the head main body 12 exceeds the range of 400 cc or more and 470 cc or less, the dimension D exceeds the appropriate range as a result, so that the coefficient of restitution is too high and the effect of improving the average flight distance is reduced.

As described above, according to the golf club head 10 of the present embodiment, the connection angle θ of the crown portion 16 to the face portion 14 is set to 15 ° to 35 °, and the weighted average thickness t of the face portion 14 is expressed by the formula ( 1) was satisfied.
Therefore, the amount of deflection of the crown portion 16 can be secured and the coefficient of restitution of the face portion 14 can be set to an appropriate range, which is advantageous in improving the flight distance of the hit ball while enlarging the sweet area.

Hereinafter, experimental examples of the present invention will be described.
In the following description of the experimental examples, the same portions and members as those in the above embodiment are denoted by the same reference numerals, and the description thereof is omitted.
23 and 24 are diagrams showing experimental results of the golf club head 10 according to the present invention.
A golf club head 10 as a sample was prepared for each experimental example, and four evaluation items described later were measured to obtain an index (evaluation score), and a total score of the four indices was determined.

(1) Initial speed Using a swing robot, an actual hit test was performed under the following conditions, and the average value of the initial speed at 9 points was evaluated by an index. The index of Experimental Example 1 is 100, and the larger the index, the faster the initial speed and the better the evaluation.
Head speed: 40m / s
The hitting positions were 9 hits in total, and the ball was hit 5 times at each hitting point.
Three strike points: a center point Pc of the face surface 14A, a point separated by 7 mm from the center point Pc in the toe direction on a straight line passing through the center point Pc and orthogonal to the face center line CL, and a point separated by 7 mm in the heel direction.
On the face center line CL, a point 5 mm away from the center point Pc in the direction of the crown portion 16, a point 5 mm away from the above point in the toe direction on the upper 5 mm line passing through this point and orthogonal to the face center line CL, 3 strike points, 7mm apart in the heel direction.
A point 5 mm away from the center point Pc in the direction of the sole 18 on the face center line CL, a point 5 mm away from the above point in the toe direction on a lower 5 mm line passing through this point and orthogonal to the face center line CL, 3 strike points, 7mm apart in the heel direction.

(2) Sweet area As shown in FIG. 22, 45 points at equal intervals in the toe heel direction and the crown sole direction around the center point Pc of the face surface 14A were set as the hit points Pi.
The golf club was swung at 45 hit points Pi using a dedicated swing robot, and the initial velocity of the golf ball was measured by a measuring instrument. The head speed was 40 m / s.
The 45-point initial velocity data was interpolated to index the area of the high initial velocity area of the face surface 14A that is 98% or more of the maximum initial velocity of the golf ball. The data at the upper hit point (crown portion 16 side) from the center point Pc and the data at the lower hit point (sole portion 18 side) are the upper hit point (crown portion 16 side) according to the actual use hit point position of the golfer. Increased weight of data in.
The data of the high initial speed area is indicated by an index with the measurement result of the golf club head 10 of Experimental Example 1 as 100. The larger the index, the better the evaluation.

(3) Flight distance Based on the three measured values of initial velocity, launch angle, and backspin obtained in the actual hit test, a flight distance simulation was performed to obtain a flight distance.
The index of Experimental Example 1 is set to 100, and the greater the index, the longer the flight distance and the better the evaluation.

(4) Durability The golf ball is repeatedly applied to the face surface 14A of the golf club head 10 fixed to the shaft with an air cannon, and the number of hits required until the face part 14 is deformed or damaged is measured. Was indexed. The ball speed was 50 m / s.
In this case, the measurement result of the golf club head 10 of Experimental Example 1 is shown as an index with 100 as the measurement result. The larger the index, the better the evaluation.

(5) Total score The total score is the sum of the above four indices of initial speed, sweet area, flight distance, and durability.
The total score of Experimental Example 1 is set to 400, and the larger the total score, the better the evaluation.

Next, Experimental Examples 1 to 23 will be described with reference to FIGS.
Experimental example 1 corresponds to a comparative example and does not satisfy the definition of claim 1 of the present invention.
In Experimental Examples 4 and 5, the weighted average thickness t of the face portion 14 is within the range of the formula (1), but the connection angle θ of the crown portion 16 with respect to the face portion 14 is specified. Does not meet the regulations.
In Experimental Examples 8 and 9, although the connection angle θ of the crown portion 16 with respect to the face portion 14 satisfies the definition in the definition of claim 1 of the present invention, the weighted average thickness t of the face portion 14 is expressed by the formula (1). Out of range.

Experimental Examples 2, 3, 6, 7, 10, 11, 14, 15, 18, 19, 22, and 23 are within the scope of the present invention and satisfy all the provisions of claims 1 to 4.
Experimental Examples 12 and 13 are within the scope of the present invention, but do not satisfy the definition of Claim 2.
Experimental Examples 16 and 17 are within the scope of the present invention, but do not satisfy the definition of Claim 3.
Experimental Examples 20 and 21 are within the scope of the present invention, but do not satisfy the definition of Claim 4.

Experimental example 2 satisfies all the provisions of claims 1 to 4.
Therefore, the initial speed 132, the sweet area 145, the flight distance 139, the durability 120, and the total score 536 are obtained, and all the evaluations are higher than those of the experimental example 1, and the total score is the highest.

Experimental example 3 satisfies all the provisions of claims 1 to 4.
Therefore, the initial speed 130, the sweet area 143, the flight distance 137, the durability 126, and the total point 536 are obtained, and all the evaluations are higher than those of the experimental example 1, and the total point is the highest.

In Experimental Example 4, although the weighted average thickness t of the face portion 14 is within the range of the formula (1), the connection angle θ of the crown portion 16 to the face portion 14 is 12.0 °, and the 15 ° of claim 1 It is below the range of 35 degrees or less.
Therefore, the initial speed 102, the sweet area 103, the flight distance 101, the durability 101, and the total point 407 are obtained, and all the evaluations are almost the same as those in Experimental Example 1.

In Experimental Example 5, although the weighted average thickness t of the face portion 14 is within the range of the expression (1), the connection angle θ of the crown portion 16 to the face portion 14 is 37.0 °, and 15 ° of claim 1 It exceeds the range of 35 ° or less.
Therefore, the initial speed 129, the sweet area 89, the flight distance 88, the durability 101, and the total point 407 are obtained. The initial speed is superior to that of Experimental Example 1, but the remaining evaluation is equal to or lower than that of Experimental Example 1. is there.

In Experimental Example 6, the connection angle θ of the crown portion 16 to the face portion 14 is 17.0 °, which is a value in the vicinity of the lower limit value in the range of 15 ° to 35 ° of claim 1.
Therefore, the initial speed 119, the sweet area 120, the flight distance 116, the durability 116, and the total point 471 are obtained, and all evaluations are superior to those of Experimental Example 1.

In Experimental Example 7, the connection angle θ of the crown portion 16 with respect to the face portion 14 is 33.0 °, which is a value in the vicinity of the upper limit value in the range of 15 ° to 35 ° of claim 1.
Therefore, the initial speed 130, the sweet area 115, the flight distance 114, the durability 115, and the total point 474 are obtained, and all evaluations are superior to those of Experimental Example 1.

In Experimental Example 8, the weighted average thickness t of the face portion 14 is less than the range of the expression (1), and does not satisfy Claim 1.
Therefore, the initial speed 131, the sweet area 91, the flight distance 89, the durability 92, and the total point 403 are obtained. Since the deflection amount of the face portion 14 can be secured, the initial speed is excellent. Is inferior to.

In Experimental Example 9, the weighted average thickness t of the face portion 14 exceeds the range of the formula (1), and does not satisfy Claim 1.
Accordingly, the initial speed 78, the sweet area 130, the flight distance 88, the durability 112, and the total point 408 are obtained, and the weighted average thickness t of the face portion 14 is thick. Since the amount of deflection decreases, the initial speed and flight distance are inferior to those of Experimental Example 1.

In Experimental Example 10, the weighted average thickness t of the face portion 14 is in the vicinity of the lower limit value in the range of the expression (1), and satisfies the first aspect.
Therefore, the initial speed 131, the sweet area 115, the flight distance 115, the durability 115, and the total point 476 are obtained. The initial speed is particularly excellent, and the remaining evaluation is also excellent as compared with the experimental example 1.

In Experimental Example 11, the weighted average thickness t of the face portion 14 is in the vicinity of the upper limit value in the range of the expression (1) and satisfies Claim 1.
Therefore, the initial speed 117, the sweet area 127, the flight distance 116, the durability 116, and the total point 476 are obtained. The sweet area is particularly excellent, and the remaining evaluation is also excellent as compared with the experimental example 1.

In Experimental Example 12, the dimension D is 23.0 mm, which is less than the range of 25 mm ≦ D ≦ 65 mm in claim 2.
Therefore, the initial speed 94, the sweet area 131, the flight distance 95, the durability 101, and the total point 421 are obtained, and although the sweet area is excellent, the evaluation of the initial speed and the flight distance is equal to or less than that of Experimental Example 1.

In Experimental Example 13, the dimension D is 67.0 mm, which exceeds the range of 25 mm ≦ D ≦ 65 mm in claim 2.
Therefore, the initial speed 132, the sweet area 94, the flight distance 95, the durability 101, and the total point 422 are obtained. Although the initial speed is excellent, the evaluation of the sweet area and the flight distance is equal to or less than that of Experimental Example 1.

In Experimental Example 14, the dimension D is 27.0 mm, which is almost the lower limit of the range of 25 mm ≦ D ≦ 65 mm in claim 2.
Therefore, the initial speed 120, the sweet area 140, the flight distance 115, the durability 120, and the total score 495 are obtained, and all evaluations are superior to those of Experimental Example 1.

In Experimental Example 15, the dimension D is 63.0 mm, which is almost the upper limit value in the range of 25 mm ≦ D ≦ 65 mm of claim 2.
Therefore, the initial speed 137, the sweet area 115, the flight distance 123, the durability 118, and the total point 493 are obtained, and all evaluations are superior to those of Experimental Example 1.

In Experimental Example 16, the ratio L / D between the dimension L and the dimension D is 1.5, which is lower than the range of 1.6 ≦ L / D ≦ 3.0 in claim 3.
Therefore, the initial speed 98, the sweet area 137, the flight distance 103, the durability 103, and the total point 441 are obtained, and although the sweet area is excellent, the evaluation of the initial speed and the flight distance remains substantially the same as in Experimental Example 1.

In Experimental Example 17, the ratio L / D between the dimension L and the dimension D is 3.1, which exceeds the range of 1.6 ≦ L / D ≦ 3.0 in claim 3.
Therefore, the initial speed 132, the sweet area 99, the flight distance 106, the durability 103, and the total point 440 are obtained, and although the initial speed and the flight distance are excellent, the evaluation of the sweet area remains almost the same as the experimental example 1.

In Experimental Example 18, the ratio L / D between the dimension L and the dimension D is 1.7, which is almost the lower limit of the range of 1.6 ≦ L / D ≦ 3.0 in claim 3.
Therefore, the initial speed 123, the sweet area 135, the flight distance 135, the durability 121, and the total point 514 are obtained, and all evaluations are superior to those of Experimental Example 1.

In Experimental Example 19, the ratio L / D between the dimension L and the dimension D is 2.9, which is almost the upper limit value in the range of 1.6 ≦ L / D ≦ 3.0 in claim 3.
Therefore, the initial speed 134, the sweet area 120, the flight distance 136, the durability 120, and the total point 510 are obtained, and all evaluations are superior to those of Experimental Example 1.

In Experimental Example 20, the volume V of the head main body 12 is 380 cc, which is lower than the range of 400 cc ≦ V ≦ 470 cc in claim 4.
Therefore, the initial speed 102, the sweet area 135, the flight distance 103, the durability 110, and the total point 450 are obtained, and although the sweet area is excellent, the evaluation of the initial speed and the flight distance remains almost the same as in Experimental Example 1.

In Experimental Example 21, the volume V of the head main body 12 is 490 cc, which exceeds the range of 400 cc ≦ V ≦ 470 cc of claim 4.
Therefore, the initial speed 136, the sweet area 103, the flight distance 103, the durability 108, and the total point 450 are obtained, and although the initial speed is excellent, the evaluation of the sweet area and the flight distance remains substantially the same as in Experimental Example 1.

In Experimental Example 22, the volume V of the head body 12 is 410 cc, which is almost the lower limit value in the range of 400 cc ≦ V ≦ 470 cc of claim 4.
Therefore, the initial speed 126, the sweet area 145, the flight distance 125, the durability 125, and the total point 521 are obtained, and all evaluations are superior to those of Experimental Example 1.

In Experimental Example 23, the volume V of the head body 12 is 460 cc, which is almost the upper limit value in the range of 400 cc ≦ V ≦ 470 cc of claim 4.
Therefore, the initial speed 139, the sweet area 125, the flight distance 132, the durability 124, and the total point 520 are obtained, and all evaluations are superior to those of Experimental Example 1.

Each evaluation item is examined below.
(1) Initial speed Examples 2, 3, 6, 7, 10, 11, 14, 15, 18, 19, 22, and 23 satisfying all of the definitions of claims 1 to 4 within the scope of the present invention are: The initial speed is 117 to 139, and the initial speed is the best.
In Experimental Examples 12 and 13, which are within the scope of the present invention but do not satisfy the definition of claim 2, initial speeds are 94 and 132, respectively.
In Experimental Examples 16 and 17 that do not satisfy the definition of Claim 3 within the scope of the present invention, the initial speeds are 98 and 132, respectively.
In the experimental examples 20 and 21, which are within the scope of the present invention but do not satisfy the definition of claim 4, the initial speed is 102, 136.
In Experimental Examples 1, 4, 5, 8, and 9, which are outside the scope of the present invention, the initial speed is 78 to 131, and the evaluation of the initial speed is low.
Therefore, those satisfying all of the definitions of claims 1 to 4 within the scope of the present invention are excellent in the effect of improving the initial speed over those outside the scope of the present invention.

(2) Sweet area Examples 2, 3, 6, 7, 10, 11, 14, 15, 18, 19, 22, and 23 satisfying all the provisions of claims 1 to 4 within the scope of the present invention are: The sweet area is 115 to 145, and the sweet area is the best.
In Experiment Examples 12 and 13, which are within the scope of the present invention but do not satisfy the definition of Claim 2, the sweet areas are 94 and 131, respectively.
In the experimental examples 16 and 17 that are within the scope of the present invention but do not satisfy the definition of claim 3, the sweet areas are 99 and 137, respectively.
In Experimental Examples 20 and 21, which are within the scope of the present invention but do not satisfy the definition of claim 4, the sweet areas are 103 and 135.
In Experimental Examples 1, 4, 5, 8, and 9, which are outside the scope of the present invention, the sweet area is 89 to 130, and the evaluation of the sweet area is low.
Therefore, those satisfying all the provisions of claims 1 to 4 within the scope of the present invention are excellent in improving the sweet area with respect to those outside the scope of the present invention.

(3) Flight distance Examples 2, 3, 6, 7, 10, 11, 14, 15, 18, 19, 22, and 23 satisfying all the provisions of claims 1 to 4 within the scope of the present invention are: The flight distance is 115 to 139, and the flight distance is the best.
In Experimental Examples 12 and 13, which are within the scope of the present invention but do not satisfy the definition of claim 2, the flight distance is 95.
The flying distances of Experimental Examples 16 and 17 that fall within the scope of the present invention but do not satisfy the provisions of Claim 3 are 103 and 106, respectively.
In the experimental examples 20 and 21, which are within the scope of the present invention but do not satisfy the provisions of claim 4, the flight distance is 103.
In Experimental Examples 1, 4, 5, 8, and 9, which are outside the scope of the present invention, the flight distance is 88 to 101, and the evaluation of the flight distance is low.
Accordingly, those satisfying all of the provisions of claims 1 to 4 within the scope of the present invention have an excellent effect of improving the flight distance over those outside the scope of the present invention.

(4) Durability Experimental Examples 2, 3, 6, 7, 10, 11, 14, 15, 18, 19, 22, and 23 satisfying all of the definitions of claims 1 to 4 within the scope of the present invention are The durability is 115 to 126, and the durability is the best.
The experimental examples 12 and 13 that do not satisfy the definition of claim 2 within the scope of the present invention have a durability of 101.
The experimental examples 16 and 17 which are within the scope of the present invention but do not satisfy the definition of claim 3 have a durability of 103.
The experimental examples 20 and 21 that do not satisfy the definition of claim 4 within the scope of the present invention have durability of 108 and 110, respectively.
Experimental Examples 1, 4, 5, 8, and 9, which are outside the scope of the present invention, have a durability of 92 to 112 and a low durability evaluation.
Accordingly, those satisfying all of the definitions of claims 1 to 4 within the scope of the present invention are excellent in improving the durability with respect to those outside the scope of the present invention.

(5) Total score Examples 2, 3, 6, 7, 10, 11, 14, 15, 18, 19, 22, 23 within the scope of the present invention and satisfying all the provisions of claims 1 to 4 The total score is 471 to 536, and the total score is the best.
In Experimental Examples 12 and 13, which are within the scope of the present invention but do not satisfy the definition of claim 2, the total points are 421 and 422.
The total number of test examples 16 and 17 that fall within the scope of the present invention but do not satisfy the provisions of claim 3 is 440 and 441.
In Experimental Examples 20 and 21, which are within the scope of the present invention but do not satisfy the provisions of claim 4, the total score is 450.
In Experimental Examples 1, 4, 5, 8, and 9, which are outside the scope of the present invention, the total score is 400 to 408, and the total score is low.
Accordingly, those satisfying all of the provisions of claims 1 to 4 within the scope of the present invention are excellent in the effect of improving the total score over those outside the scope of the present invention.

DESCRIPTION OF SYMBOLS 10 Golf club head 12 Head main body 14 Face part 14A Face surface 16 Crown part 16A Crown surface 18 Sole part 18A Sole surface 22 Toe 24 Heel 28 Hollow part 32 1st reference cross section 34 2nd reference cross section Pc Center point X Plane Y Plane HP horizontal plane Lk straight line K1 first boundary point K2 second boundary point K3 third boundary point K4 fourth boundary point Ln1 normal line Ln2 normal line θ Connection angle D of the crown part 16 to the face part 14 Dimension L between boundary point K1 and second boundary point K2 Dimension S between third boundary point K3 and fourth boundary point K4 Area t of cross section of face portion 14 Weighted average thickness of face portion 14

Claims (3)

A face portion having a vertical height and extending left and right; a crown portion extending rearward from the upper portion of the face portion; a sole portion extending rearward from the lower portion of the face portion; and the crown portion And a head portion including a side portion extending through a face back between a toe side edge and a heel side edge of the face portion between the sole portion, the face portion, the crown portion, and the sole portion. A golf club head in which the inside surrounded by the side part is a hollow part,
In a reference state in which the golf club head is installed at a predetermined lie angle and loft angle with respect to a horizontal plane, the head body is broken at a plane that includes a normal passing through the center point of the face surface and is orthogonal to the horizontal plane. The cross section made as the first reference cross section,
In the first reference cross section, three measurement points are defined at intervals of 1 mm from the center point of the face surface toward the crown portion, and the curvature of an arc passing through the three measurement points is measured, and the measurement of the curvature is performed. The curvature is sequentially measured by repeating the operation of displacing the three measurement points by 1 mm in a direction approaching the crown portion.
When a value obtained by dividing the measured curvature by the curvature measured immediately before exceeds two times, an intermediate measurement point of the three measurement points is set as a first boundary point;
In the first reference cross section, three measurement points are defined at intervals of 1 mm from the center point of the face surface toward the sole surface, and the curvature of an arc passing through the three measurement points is measured, and the measurement of the curvature is performed. The curvature is sequentially measured by repeating the operation performed while displacing the three measurement points by 1 mm toward the sole surface.
When a value obtained by dividing the measured curvature by the curvature measured immediately before exceeds two times, an intermediate measurement point of the three measurement points is set as a second boundary point,
In the first reference cross section, an angle formed by a straight line connecting the first boundary point and the crown surface maximum height point at which the height of the crown surface from the horizontal plane is maximum with respect to the horizontal plane is When the connection angle of the crown portion to the face portion is set, the connection angle is 15 ° to 35 °,
In the first reference cross section, a cross section of the face portion located between a normal line of the face surface passing through the first boundary point and a normal line of the face surface passing through the second boundary point. When the value obtained by dividing the area S by the dimension D between the first boundary point and the second boundary point is a weighted average thickness t of the face portion, the following equation (1) is satisfied :
0.0571D + 0.2857 <t <0.0571D + 0.7143 (1)
In the reference state, a cross section in which the head main body is broken along a plane passing through the center point of the face surface and parallel to the horizontal plane is defined as a second reference cross section.
In the second reference cross section, three measurement points are defined at intervals of 1 mm from the center point of the face surface toward the toe direction, and the curvature of an arc passing through the three measurement points is measured, and the measurement of the curvature is performed. The curvature is sequentially measured by repeating the operation performed while displacing the three measurement points by 1 mm toward the toe direction,
When a value obtained by dividing the measured curvature by the curvature measured immediately before exceeds twice, the intermediate measurement point of the three measurement points is set as a third boundary point;
In the second reference cross section, three measurement points are defined at intervals of 1 mm from the center point of the face surface toward the heel direction, and the curvature of an arc passing through the three measurement points is measured, and the measurement of the curvature is performed. The curvature is sequentially measured by repeating the operation performed while displacing the three measurement points by 1 mm toward the heel direction,
When a value obtained by dividing the measured curvature by the curvature measured immediately before exceeds twice, when an intermediate measurement point of the three measurement points is set as a fourth boundary point,
A dimension L between the third boundary point and the fourth boundary point is 1.6 times to 3.0 times the dimension D ;
A golf club head characterized by that. The dimension D is 25 mm or more and 65 mm or less,
The golf club head according to claim 1. The volume of the head body is 400 cc or more and 470 cc or less,
3. The golf club head according to claim 1, wherein

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