JP4683353B1 - Golf club head - Google Patents

Abstract

A golf club head is provided which is advantageous in improving the hitting sound while reducing the center of gravity.
A golf club head 10 includes a hollow portion 25 and a solid plate member 20 constituting a portion of the golf club head 10 excluding the hollow portion 25. The hollow portion 25 extends along the face surface 12 over the entire length in the left-right direction of the face surface 12, and is connected to both the left and right sides of the horizontal portion 22 from the left and right sides of the horizontal portion 22 in the left-right direction of the horizontal portion 22. And a vertical portion 24 extending rearward with a width smaller than the width. The solid plate material 20 is disposed between the vertical portions 24 on both sides behind the horizontal portion 22, and the crown surface 14 is formed by one surface in the thickness direction of the solid plate material 20 at a position where the solid plate material 20 is disposed. The sole surface 16 is configured by the other surface of the solid plate member 20 that is configured.
[Selection] Figure 5

Description

  The present invention relates to a golf club head.

In order to improve the flight distance of a golf ball hit by a golf club, the launch angle is increased (higher hitting angle) and the reverse rotation amount (back spin) of the golf ball is reduced (lower spin). Is necessary.
In order to achieve a high hitting angle and low spin, it is effective to lower the center of gravity of the golf club head (lowering the center of gravity).
That is, the lower the center of gravity of the golf club head is, the more easily the face portion (golf club head) is displaced in the direction in which the loft angle increases when the golf ball is hit with the face portion.
For this reason, the launch angle of the hit golf ball is increased. Further, since the gear effect is generated by the displacement of the face portion in the direction of increasing the loft angle, the golf ball is rotated (top spin) in the rotation direction opposite to the back spin, and the spin amount is reduced. That is, the spin is reduced. In this way, high launch and low spin are realized, which is advantageous in securing the flight distance.

For this reason, the present applicant has proposed a golf club head that is advantageous in reducing the center of gravity (see Patent Document 1).
This golf club head is provided with a hollow structure in which a concave portion having an inwardly convex curved surface is formed in a crown portion, and the concave portion has a shape that is deeply depressed toward the bottom surface of the sole portion.
And the wall part which forms the bottom part of a recessed part, and the wall part which forms the part of the sole part which opposes a recessed part are facing or joined in the state which adjoined.
According to such a golf club head, the position of the center of gravity of the golf club head is lowered to a position close to the bottom surface of the recess, which is advantageous for lowering the center of gravity and advantageous for securing a flight distance.

JP 2010-35915 A

However, in the golf club head described above, the golf club head was hit with a golf ball because the two wall portions, ie, the wall portion forming the bottom portion of the recess and the wall portion forming the sole portion face each other or are joined. In this case, the sound generated by the vibration of the two wall portions tends to cancel each other.
Therefore, in order to make the hitting sound (hit sound) generated from the golf club head more comfortable for the golfer, specifically, the tone color of the hitting sound is made higher and the reverberation time of the hitting sound is made longer. There is room for improvement above.
The present invention has been made in view of such circumstances, and an object thereof is to provide a golf club head that is advantageous in improving the hitting sound while reducing the center of gravity.

To achieve the above object, the present invention provides a face surface having a vertical height and extending left and right, a crown surface extending rearward from an upper portion of the face surface, and a lower portion of the face surface. A golf club head comprising a sole surface that connects a lower portion of the crown surface, a hollow portion configured by a wall defining a closed space, and a location of the golf club head excluding the hollow portion The hollow portion includes a horizontal portion that extends along the face surface over the entire length in the left-right direction of the face surface, and a width that is connected to the horizontal portion and that extends in the left-right direction of the horizontal portion. A vertical portion extending rearward from the horizontal center of the horizontal portion with a small width, the solid plate material extends rearward from the horizontal portion on the left and right sides of the vertical portion, The rear end is the longitudinal direction in the front-rear direction. The wall that is located at the same location as the rear end and is continuous with the rear end of the vertical portion in the left-right direction, and where the hollow portion is disposed, the wall defining the hollow portion is forward The face surface is configured by the facing portion, the crown surface is configured by the location where the wall defining the hollow portion faces upward, and the sole surface is defined by the location where the wall defining the hollow portion faces downward The surface of the solid plate material is disposed, and the crown surface is constituted by one surface in the thickness direction of the solid plate material, and the sole surface is constituted by the other surface of the solid plate material. There is constructed, the or less loft angle in a state of installing the golf club head to lie angle and loft angle as predetermined with respect to the reference plane is 11 degrees more than 25 degrees, and wherein the golf The height of the center of gravity of the club head from the reference plane the center of gravity point vertically is projected on the face surface is not more than 21 mm, the golf club from the center point of the face when viewed in plan in a state in which the installation was A dimension obtained by projecting the distance in the front-rear direction to the position located at the rearmost position of the head on the reference plane is a head length A, and when the golf club head is viewed from the front of the face surface in the installed state, the reference When the head width B is the dimension projected on the reference plane from the heel side position located 22.23 mm above the surface to the end portion located closest to the toe side, and when viewed in plan A dimension obtained by projecting the distance from the center point to the farthest position of the hollow portion on the center plane that passes through the center point of the face surface and extends in the front-rear direction. When the method is a hollow portion thickness C, the head length A is 60 mm or more and 110 mm or less, the head width B is 95 mm or more and 120 mm or less, A <B, and the hollow portion thickness C is 15 mm or more and the head length A or less. And the ratio of the projected area of the solid plate material to the total projected area of the golf club in the installed state is 30% or more and 50% or less.
The definitions of head length A and head width B are described in the column “4b dimensions, volume, moment of inertia” in “Appendix Rules II Club Design” of “2010 Golf Rules of Japan Golf Association”. ing.

According to the golf club head of the present invention, since the portion of the crown surface and the portion of the sole surface are constituted by the solid plate material, the center of gravity position of the golf club head can be lowered to a position close to the solid plate material, This is advantageous in reducing the center of gravity of the golf club head.
Further, since both surfaces of the solid plate material in the thickness direction are opened above and below the golf club head, the vibration of the primary resonance frequency generated in the solid plate material when the golf ball is hit is canceled by the other members. Therefore, it is advantageous to make the pitch of the hitting sound comfortable for the golfer and to ensure a long reverberation time of the hitting sound.

1 is a perspective view of a golf club head 10 in a first embodiment. 1 is a plan view of a golf club head 10 according to a first embodiment. 1 is a front view of a golf club head 10 according to a first embodiment. 1 is a bottom view of a golf club head 10 according to a first embodiment. It is the WW sectional view taken on the line of FIG. It is the XX sectional view taken on the line of FIG. It is XX sectional drawing of FIG. 1 in a modification. It is XX sectional drawing of FIG. 1 in another modification. It is the YY sectional view taken on the line of FIG. FIG. 6 is a sectional view taken along line ZZ in FIG. 5. It is a top view of the golf club head 10 in 2nd Embodiment. It is a figure which shows the projection area to the reference plane G of the solid board | plate material 20 of the golf club head 10 in 2nd Embodiment. It is a top view of the golf club head 10 in the modification of 2nd Embodiment. It is a top view of the golf club head 10 in 3rd Embodiment. It is a figure which shows the projection area to the reference plane G of the solid board | plate material 20 of the golf club head 10 in 3rd Embodiment. It is a top view of the golf club head 10 in the modification of 2nd Embodiment. It is a top view of the golf club head 10 in 4th Embodiment. It is a figure which shows the projection area to the reference plane G of the solid board | plate material 20 of the golf club head 10 in 4th Embodiment. It is a top view of the golf club head 10 in 5th Embodiment. It is a top view of the golf club head 10 in 5th Embodiment. It is a diagram which shows a frequency analysis result. It is an enlarged view of the frequency peak part in FIG. It is a figure which shows the calculation formula for specifying a true primary resonant frequency. It is a figure which shows an experimental result.

(First embodiment)
Next, embodiments of the present invention will be described with reference to the drawings.
As shown in FIGS. 1 to 4, the golf club head 10 is used for a fairway wood club in this example, and has a face surface 12 having a vertical height and extending left and right, and an upper portion of the face surface 12. A crown surface 14 extending rearward and constituting the upper surface of the golf club head 10, and a sole surface 16 connecting the lower portion of the face surface 12 and the lower portion of the crown surface 14 and constituting the lower surface of the golf club head 10 are provided. Yes.
A hosel 18 is erected at a position near one end in the left-right direction of the crown surface 14, and the shaft obtained by inserting and attaching one end of a shaft (not shown) to the hosel 18 is connected to the golf club head 10.

As shown in FIGS. 1, 2, 5, 6, 9, and 10, the golf club head 10 includes a hollow portion 25 and a solid portion that constitutes the location of the golf club head 10 excluding the hollow portion 25. The plate material 20 is included.
The hollow portion 25 is constituted by a wall that partitions the closed space, and extends along the face surface 12 over the entire length of the face surface 12 in the left-right direction, and is connected to both the left and right sides of the lateral portion 22 and the lateral portion 22. Vertical portions 24 extending rearward from the left and right sides of the horizontal portion 22 with a width smaller than the width in the left-right direction.
The solid plate material 20 is disposed between the vertical portions 24 on both sides behind the horizontal portion 22, and the crown surface 14 is formed by one surface in the thickness direction of the solid plate material 20 at a position where the solid plate material 20 is disposed. The sole surface 16 is configured by the other surface of the solid plate member 20 that is configured.
The solid plate material 20 refers to a plate made of a single plate material, not a plurality of plate materials joined together.
In addition, the outline of the horizontal part 22 and the vertical part 24 when it sees from upper direction in FIG. 2 is shown with the broken line.
In addition, as shown in FIG. 5, a bulging portion 26 that protrudes upward is provided on the sole surface 16 that partitions the lower side of the lateral portion 22, thereby reducing the center of gravity of the golf club head 10.
In the present embodiment, the contour of the vertical portion 24 has a shape as shown in FIG. 6, but as shown in FIGS. 7 and 8, a part of the contour of the vertical portion 24 is the width of the golf club head 10. The shape may bulge toward the center of the direction.

As shown in FIG. 1, the crown surface 14 has a front crown surface 1402, an opposing crown surface 1404, a lower crown surface 1406, and a vertical portion forming wall surface 1408.
The front crown surface 1402 extends rearward from the top of the face surface 12 and partitions the upper side of the lateral portion 22.
As shown in FIGS. 1 and 6, the vertical portion forming wall surface 1408 has an upper wall surface 1408 </ b> A that partitions the upper portion of the vertical portion 24, and an inner wall surface 1408 </ b> B that partitions the inner side of the vertical portion 24. The outer side and the lower side of the vertical portion 24 are partitioned by the sole surface 16.

As shown in FIG. 1, the opposing crown surface 1404 is connected to the rear portion of the front crown surface 1402 and partitions the rear side of the horizontal portion 22 between the vertical portions 24 on both sides.
Note that the left and right sides and the lower side of the horizontal portion 22 are partitioned by the sole surface 16.
As shown in FIGS. 1 and 5, the opposing crown surface 1404 includes an upper opposing crown surface 1404A extending from the rear portion of the front crown surface 1402 toward the sole surface 16 between the inner wall surfaces 1408B on both sides, A lower opposing crown surface 1404B extending toward the sole surface 16 side while being displaced rearward from the lower portion of the opposing crown surface 1404A is configured.
The lower facing crown surface 1404B is formed as a curved surface convex rearward.

The lower crown surface 1406 constitutes the remaining portion of the crown surface 14 excluding the front crown surface 1402, the opposing crown surface 1404, and the upper wall surface 1408A and the inner wall surface 1408B that form the vertical portions 24 on both sides. .
In other words, the remaining portion of the crown surface 14 excluding the wall surface forming the horizontal portion 22 and the wall surfaces forming the vertical portions 24 on both sides is the lower crown surface 1406.
That is, the lower crown surface 1406 is located near the sole surface 16 between the vertical portions 24 on both sides of the lateral portion 22 and extends in the front-rear and left-right directions.
The solid plate member 20 forms a lower crown surface 1406 with one surface in the thickness direction, and a portion of the sole surface 16 corresponding to the lower crown surface 1406 with the other surface.
That is, the place where the lower crown surface 1406 is located is the solid plate material 20.

As shown in FIGS. 2 and 3, the center of the face surface 12 when viewed in plan with the golf club head 10 installed at a predetermined lie angle and loft angle with respect to the reference plane G (horizontal plane). The head length A is a dimension obtained by projecting the distance in the front-rear direction from the point Pc to the point Pe located at the rearmost position of the golf club head 10 on the reference plane G.
The center point Pc of the face surface 12 is the geometric center of the face surface 12, and various conventionally known methods can be adopted as a method for defining the center point Pc.
When the golf club head 10 is viewed from the front of the face surface 12 in the above-described state, the heel side is located above a reference distance G by a predetermined distance H (H = 22.23 mm, 0.875 inch). The head width B is a dimension obtained by projecting the distance from the location Ph to the end Pt located closest to the toe side onto the reference plane G.
The hollow portion thickness C is a dimension obtained by projecting the distance in the front-rear direction from the center point Pc of the face surface 12 to the point Pf where the hollow portion 25 is located at the rearmost position when viewed in plan in the above-described state. .
When viewed in plan in the installed state, the distance from the center point Pc to the farthest position of the hollow portion 25 on the center line passing through the center point Pc of the face surface 12 and extending in the front-rear direction is projected onto the reference plane G. The measured dimension is defined as a hollow part thickness C.

In the present embodiment, the head length A is 60 mm or more and 110 mm or less, the head width B is 95 mm or more and 120 mm or less, A <B, the hollow portion thickness C is 15 mm or more and less than the head length A, and the installation In this state, the ratio of the projected area of the solid plate 20 to the total projected area of the golf club head 10 is set to 30% or more and 50% or less.
When the head length A satisfies the range of 60 mm to 110 mm, it is advantageous in terms of the hitting sound (height and reverberation: high sound and long reverberation) and the height of the center of gravity (lowering the center of gravity). There is a disadvantage in terms of the hitting sound (short reverberation), and if it exceeds the above range, there are disadvantages in terms of the hitting sound (low height) and the center of gravity height (high).
The reason for defining the range of the head width B is the same as the reason for defining the A dimension.
If A <B is established, it is advantageous in terms of an image when the golfer sees it (there is no sense of incongruity in the traditional form), and if it is not established, there is a disadvantage in that there is a sense of incongruity.
When the hollow portion thickness C satisfies the above range, it is advantageous in terms of the hitting sound (height and reverberation: high sound and long reverberation), and when it is below the above range, it is disadvantageous in terms of the hitting sound (short reverberation). If the above range is exceeded, there is a disadvantage in terms of the hitting sound (low height).
When the ratio of the projected area of the solid plate 20 to the total projected area of the golf club head 10 satisfies the above range, the hitting sound (height and reverberation: high sound and long reverberation) and the height of the center of gravity (lowering the center of gravity) If it falls below the above range, it is disadvantageous in terms of the hitting sound (short reverberation). If it exceeds the above range, the hitting sound (low height) and the center of gravity height (high) There are disadvantages in terms.

Further, the height from the reference plane G of the centroid point obtained by projecting the position of the center of gravity of the golf club head 10 perpendicularly to the face surface 12 with a loft angle of 11 degrees to 25 degrees in the installed state is 21 mm. The following is more advantageous in reducing the center of gravity of the golf club head 10.
In addition, it is more advantageous that the total projected area of the golf club 10 in the installed state is 100 cm ² or less in terms of the hitting sound (height and reverberation: high sound and long reverberation) and the height of the center of gravity (lowering the center of gravity). It becomes.

Next, the function and effect of the golf club head 10 will be described.
The golf club head 10 is configured by using a solid plate material 20, and a portion of the crown surface 14 and a portion of the sole surface 16 are configured by the solid plate material 20.
As a result, the position of the center of gravity of the golf club head 10 can be lowered to a position close to the solid plate member 20, which is advantageous for reducing the center of gravity of the golf club head 10, and therefore advantageous for securing a flight distance. Become.
Further, since both surfaces of the solid plate material 20 in the thickness direction are opened above and below the golf club head 10, vibrations of the primary resonance frequency generated in the solid plate material 20 when the golf ball is hit are other members. Will not be countered. Therefore, it is advantageous for making the pitch of the hitting sound comfortable for the golfer (in other words, a sound containing a lot of components of the primary resonance frequency of 4000 Hz or more) and ensuring a long reverberation time of the hitting sound. .
In particular, in the golf club head mentioned in the prior art, the two wall portions, that is, the wall portion forming the bottom portion of the recess and the wall portion forming the sole portion face each other or are joined to each other. Although there is a disadvantage that sounds generated by vibration tend to cancel each other, in this embodiment, such a disadvantage is solved, which is advantageous in generating a hitting sound that is comfortable for a golfer.

In the present embodiment, a vertical portion 24 connected to the horizontal portion 22 and extending rearward from the horizontal portion 22 with a width smaller than the horizontal width of the horizontal portion 22 is provided.
Therefore, a large volume of space in which the hitting sound is reflected can be secured, which is advantageous in extending the reverberation time of the hitting sound.
Further, since the rigidity of the golf club head 10 is enhanced by the vertical portion forming wall 1408 forming the vertical portion 24, it is more advantageous in increasing the frequency of the hitting sound.

In the present embodiment, the opposing crown surface 1404 includes an upper opposing crown surface 1404A extending from the rear portion of the front crown surface 1402 toward the sole surface 16 between the inner wall surfaces 1408B on both sides, and an upper opposing crown surface. A lower facing crown surface 1404B extending toward the sole surface 16 side while being displaced rearward from the lower portion of the surface 1404A is configured.
Therefore, by increasing the area of the opposing crown surface 1404, the area of the portion that vibrates by the vibration at the time of hitting can be increased, which is advantageous in securing the magnitude of the hitting sound.
Further, since the lower facing crown surface 1404B is formed with a convex curved surface on the rear side, the area of the portion that vibrates due to vibration at the time of impact is increased by increasing the area of the lower facing crown surface 1404B. This can be increased, which is more advantageous in securing the size of the hitting sound.

(Second Embodiment)
Next, a second embodiment will be described with reference to FIGS.
In the following embodiments, the same parts and members as those in the first embodiment are denoted by the same reference numerals, and the description thereof is omitted or simply performed.
As shown in FIG. 11, the second embodiment is configured to include a hollow portion 25 and a solid plate member 20 that constitutes a portion of the golf club head 10 excluding the hollow portion 25. The hollow portion 25 includes a horizontal portion 22 and a single vertical portion 24 extending rearward from the horizontal center of the horizontal portion 22. The vertical portion 24 is connected to the horizontal portion 22 with a width smaller than the width of the horizontal portion 22 in the left-right direction, and the width and height are formed smaller toward the rear.
The upper side and the left and right sides of the vertical part 24 are formed by a vertical part forming wall surface 1408, and the vertical part forming wall surface 1408 partitions the upper wall surface 1408 </ b> A that partitions the upper part of the vertical part 24 from the left and right sides of the vertical part 24. It has two inner wall surfaces 1408B. The lower side of the vertical portion 24 is partitioned by the sole surface 16.
In other words, in the place where the hollow part 25 is disposed, the face surface 12 is configured by the part where the wall defining the hollow part 25 faces forward, and the crown surface is defined by the part where the wall defining the hollow part 25 faces upward. 14 is configured, and the sole surface 16 is configured by a portion where the wall defining the hollow portion 25 faces downward.

The solid plate material 20 extends back and forth on the rear side of the horizontal portion 22 and on the left and right sides of the vertical portion 24.
More specifically, as shown in FIG. 11, the solid plate material 20 extends rearward from the horizontal portion 22 on both the left and right sides of the vertical portion 24, and the rear end thereof is the same as the rear end of the vertical portion 24 in the front-rear direction. It is located at a location and is provided to be continuous with the rear end of the vertical portion 24 in the left-right direction.
Accordingly, two solid plate materials 20 are used, and the crown surface 14 is constituted by one surface in the thickness direction of the solid plate material 20 at the place where the solid plate materials 20 are arranged, and the other of the solid plate materials 20 is disposed. The sole surface 16 is constituted by these surfaces.
Also in the second embodiment, the head length A, the head width B, the hollow portion thickness C, the relational expression A <B, and the ratio of the projected area of the solid plate material 20 are the same as in the first embodiment. It is prescribed.
In the second embodiment, the head length A is equal to the hollow portion thickness C.
11, the outlines of the horizontal portion 22 and the vertical portion 24 when viewed from above are indicated by broken lines, and in FIG. 12, the portion of the solid plate 20 projected onto the reference plane G is indicated by hatching. In the following FIGS. 13 to 16, broken lines and hatching are similarly applied.
In the second embodiment, the same effect as that of the first embodiment can be obtained.

(Modification of the second embodiment)
Next, a modification of the second embodiment will be described with reference to FIG.
In the second embodiment shown in FIGS. 11 and 12, the upper rear side of the horizontal portion 22 is partitioned by the opposing crown surface 1404. In this modification, the vertical portion 24 is rearward while reducing its height. The opposing crown surface 1404 is not provided.
That is, the vertical portion forming wall surface 1408 has an upper wall surface 1408A that partitions the upper portion of the vertical portion 24, and two inner wall surfaces 1408B that partition the left and right sides of the vertical portion 24, and the front end of the upper wall surface 1408A has a front portion. It is connected to the rear portion of the crown surface 1402, and its height gradually decreases toward the rear.
Even with such a modification, the same effects as those of the second embodiment shown in FIGS. 11 and 12 can be obtained.

(Third embodiment)
Next, a third embodiment will be described with reference to FIGS.
As shown in FIG. 14, the third embodiment is configured to include a hollow portion 25 and a solid plate member 20 that constitutes a portion of the golf club head 10 excluding the hollow portion 25. The hollow portion 25 includes a horizontal portion 22 and a single vertical portion 24 extending rearward from the horizontal center of the horizontal portion 22. The vertical portion 24 has a rear portion divided into left and right sides, and the vertical portion 24 is formed such that its height decreases toward the rear.
The upper side and the left and right sides of the vertical part 24 are formed by a vertical part forming wall surface 1408, and the vertical part forming wall surface 1408 partitions the upper wall surface 1408 </ b> A that partitions the upper part of the vertical part 24 from the left and right sides of the vertical part 24. It has three inner wall surfaces 1408B. The lower side of the vertical portion 24 is partitioned by the sole surface 16.
The solid plate material 20 extends back and forth on the left and right sides of the rear portion of the horizontal portion 22 and the front portion of the vertical portion 24, and extends back and forth between the rear portions of the vertical portion 24.
Therefore, three solid plate members 20 are used, and the crown surface 14 is formed by one surface in the thickness direction of the solid plate member 20 at the place where the solid plate members 20 are arranged, and the other of the solid plate members 20 is disposed. The sole surface 16 is constituted by these surfaces.
Also in the third embodiment, the head length A, the head width B, the hollow portion thickness C, the relational expression A <B, and the ratio of the projected area of the solid plate material 20 are the same as in the first embodiment. It is prescribed.
In the third embodiment, the same effect as that of the first embodiment can be obtained.

(Modification of the third embodiment)
Next, a modification of the third embodiment will be described with reference to FIG.
In the third embodiment shown in FIGS. 14 and 15, the upper rear side of the horizontal portion 22 is partitioned by the opposing crown surface 1404. However, in this modification, the vertical portion 24 is rearward while reducing its height. The opposing crown surface 1404 is not provided.
In other words, the front end of the upper wall surface 1408A is connected to the rear portion of the front crown surface 1402, and the height gradually decreases toward the rear.
Even with such a modification, the same effects as those of the third embodiment shown in FIGS. 14 and 15 can be obtained.

(Fourth embodiment)
Next, a fourth embodiment will be described with reference to FIGS.
In the fourth embodiment, as shown in FIG. 17, the vertical portion 24 is not used, and the solid plate member 20 constitutes the entire crown surface 14 at the rear of the first hollow portion 22. The crown surface 14 is constituted by one surface in the thickness direction of the solid plate material 20 at the place where the plate material 20 is disposed, and the sole surface 16 is constituted by the other surface of the solid plate material 20.
Also in the fourth embodiment, the head length A, the head width B, the hollow portion thickness C, the relational expression A <B, and the ratio of the projected area of the solid plate material 20 are the same as in the first embodiment. It is prescribed.
In the fourth embodiment, the same effect as that of the first embodiment can be obtained.

(Fifth embodiment)
Next, a fifth embodiment will be described with reference to FIGS.
In the fifth embodiment, as shown in FIGS. 19 and 20, the present invention is applied to a golf head club for a utility club intermediate between a fairway wood club and an iron.
Also in the fifth embodiment, similarly to the first embodiment, the golf club head 10 includes a hollow portion 25 and a solid plate member 20 that constitutes the location of the golf club head 10 excluding the hollow portion 25. It is configured to include. The hollow portion 25 extends along the face surface 12 over the entire length in the left-right direction of the face surface 12, and is connected to both the left and right sides of the horizontal portion 22. And a vertical portion 24 extending rearward with a width smaller than the width.
The remaining portion of the crown surface 14 excluding the wall surface forming the lateral portion 22 and the wall surfaces forming the vertical portions 24 on both sides is a lower crown surface 1406. That is, the lower crown surface 1406, which is the rear portion of the horizontal portion 22, is configured by one surface in the thickness direction of the solid plate member 20, and the sole surface 16 is configured by the other surface.
Also in the fifth embodiment, the head length A, the head width B, the hollow portion thickness C, the relational expression A <B, and the ratio of the projected area of the solid plate material 20 are the same as in the first embodiment. It is prescribed.
In the fifth embodiment, the same effect as that of the first embodiment can be obtained.

Hereinafter, experimental examples of the present invention will be described. First, a method for evaluating a hitting sound generated from the golf club head 10 will be described.
The hitting sound generated from the golf club head 10 causes the face surface 12, the crown surface 14, and the sole surface 16 of the golf club head 10 to vibrate due to the impact generated when the face surface 12 of the golf club head 10 hits a golf ball. It is composed of sound generated by doing.

The measurement of the frequency of the hitting sound is performed by the following method, for example.
The hosel 18 of the golf club head 10 is suspended in the air or supported in advance.
Each of the face surface 12, the crown surface 14, and the sole surface 16 is vibrated (blowed) with a hammer to vibrate, and the striking sound generated by the vibration is measured with a sound level meter.
In addition, what is necessary is just to make the location of the face surface 12, the crown surface 14, and the sole surface 16 which vibrates with a hammer each geometrical center. Further, when the sole surface 16 is divided into a plurality of regions in order to give design, the geometric center of the region having the largest area may be vibrated with a hammer.
The impact sound measured by a sound level meter is taken into a personal computer via an A / D converter, and frequency analysis is performed using a known method such as FFT (Fast Fourier Transformation), and the frequency with the highest sound pressure (vibration) is obtained. It is specified as the primary resonance frequency.
In this way, the primary resonance frequencies of the face surface 12, the crown surface 14, and the sole surface 16 are measured.

Note that the following method may be used instead of measuring the impact sound with a sound level meter.
1) An acceleration pickup is attached to each of the face surface 12, the crown surface 14, and the sole surface 16. The acceleration signal of the vibration generated by the vibration is measured with an acceleration pickup, and the primary resonance frequency is measured by analyzing the frequency of the acceleration signal.
2) The vibrations of the face surface 12, the crown surface 14, and the sole surface 16 are measured with a laser vibrometer (laser Doppler vibrometer). The acceleration signal of the vibration generated by the excitation is measured with a laser vibrometer, and the primary resonance frequency is measured by analyzing the frequency of the acceleration signal.

By the way, when measuring the acceleration signal, as shown in FIG. 21, when two peaks are obtained by the first and second frequencies f1 and f2 having the same acceleration L as a result of the frequency analysis, the first, It is preferable to specify the intermediate frequency between the second frequencies f1 and f2 as a true primary resonance frequency in order to more accurately evaluate the primary resonance frequency.
Therefore, in the present embodiment, the true primary resonance frequency f0 is obtained by calculating the weighted average of the first and second frequencies f1 and f2 by the following procedure.

FIG. 22 is an enlarged view of a peak portion in FIG.
As shown in FIG. 22, for example, with data Dn as a peak value, a plurality of data Dn−1, Dn−2, Dn + 1, and Dn + 2 before and after that decrease as the distance from the data Dn increases.
However, since each data is measured discretely, in the example shown in FIG. 22, the true peak value is predicted to be higher than the data Dn, as indicated by the symbol ● in the figure. .
Therefore, the true peak value L1 of the first frequency f1 is obtained from the equation (1) in FIG. 23, and the true peak value L2 of the second frequency f2 is obtained from the equation (2). In the expressions (1) and (2), Li indicates a plurality of data. In addition, although the case where data Dn-1, Dn-2, Dn + 1, Dn + 2 and five data are used was illustrated, the number of data is arbitrary.

If the true peak values L1 and L2 are obtained, the acceleration peak values L1 and L2 indicated by the dB value are respectively converted into the acceleration linear values Acc1 and A2 by the equations (3) and (4) in FIG. Convert to Acc2.
Next, linear values Acc1 and Acc2 of acceleration are converted into displacements Disp1 and Disp2 by the equations (5) to (8) in FIG.
If the displacements Disp1 and Disp2 are obtained, a weighted average of the first and second frequencies f1 and f2 is obtained by using the displacement Disp1 and Disp2 according to the equation (9) in FIG. Obtained as the primary resonance frequency f0.

Due to human auditory characteristics, a hitting sound having a primary resonance frequency of 4000 Hz or higher is evaluated as being comfortable for a golfer, and a hitting sound having a primary resonance frequency of 3000 Hz or lower is hardly evaluated as being comfortable for a golfer.
Further, when all of the three primary resonance frequencies of the face surface 12, the crown surface 14, and the sole surface 16 are 4000 Hz or more, the hitting sound is evaluated as being comfortable for the golfer. When the primary resonance frequency is 2000 Hz or 3000 Hz or less, the hitting sound is hardly evaluated as being comfortable for the golfer. In particular, if the primary resonance frequency is 2000 Hz or 3000 Hz or less in a wide area, the sound pressure increases and the golfer feels uncomfortable. This is considered to be because the influence of the hitting sound having a low primary resonance frequency becomes dominant. Therefore, it is preferable that the primary resonance frequency at all three locations is 4000 Hz or more in order to obtain a comfortable hitting sound.
Further, the reverberation time of the hitting sound is evaluated as being more comfortable for the golfer, and the shorter the reverberation time is, the less likely it is to be evaluated as being comfortable for the golfer.

FIG. 24 is a diagram showing experimental results of the golf club head 10 according to the present invention.
The experimental conditions are as follows.
With respect to the golf club head as a sample, each of the center portion of the face surface 12, the center portion of the crown surface 14, and the center portion of the sole surface 16 is vibrated by a hammer, and the impact sound generated by the vibration is measured with a noise meter. The primary resonance frequency at each location was specified by the method described above.

The evaluation items are as follows.
1) The pitch of the ball sound when the golf ball was actually hit with the golf club head 10 was evaluated by an index. The index of Experimental Example 1 is set to 100, and the larger the index, the better the evaluation.
2) The reverberation time of the hitting sound when the golf ball was actually hit with the golf club head 10 was evaluated by an index. The index of Experimental Example 1 is set to 100, and the larger the index, the better the evaluation.
3) The flight distance when the golf ball was actually hit with the golf club head 10 was evaluated by an index. The index of Experimental Example 1 is 100, and the greater the index, the longer the flight distance.
4) The height from the reference plane G of the barycentric point obtained by projecting the barycentric position of the golf club head in the installed state perpendicularly to the face surface 12 was measured.

Experimental example 3 corresponds to the first embodiment, and the head length A, the head width B, the hollow portion thickness C, the relational expression A <B, and the ratio of the projected area of the solid plate 20 are all Meets regulations.
Experimental example 7 corresponds to the second embodiment, and the head length A, the head width B, the hollow portion thickness C, the relational expression A <B, and the ratio of the projected area of the solid plate 20 are all Meets regulations.
Experimental example 8 corresponds to the third embodiment, where the head length A, the head width B, the hollow portion thickness C, the relational expression A <B, and the ratio of the projected area of the solid plate 20 are all Meets regulations.

Experimental Example 1 includes a front hollow portion in which the golf club head extends along the face surface, and a rear hollow portion that is connected to the rear portion of the front hollow portion and is displaced downward toward the rear portion.
And the some rib which connects between the upper side wall part which forms the crown surface of the upper part of a rear part hollow part, and the lower side wall part which forms the sole surface of the lower part of a rear part hollow part is formed.

  Experimental Example 2 is a golf club head corresponding to the above-described prior art, in which a wall portion that forms the bottom of a recess formed in the crown portion and a wall portion that forms a sole portion facing the recess are close to each other Facing each other or being joined.

In Experimental Examples 4, 5, 6, and 9, as in the first embodiment, the hollow portion 25 extends along the face surface 12 over the entire length of the face surface 12 in the left-right direction, and the horizontal portion. And vertical portions 24 that are connected to the left and right sides of the horizontal portion 22 and extend rearward from the left and right sides of the horizontal portion 22 with a width smaller than the horizontal width of the horizontal portion 22.
In Experimental Example 4, the hollow portion thickness C and the relational expression A <B satisfy the specification, but the head length A, the head width B, and the ratio of the projected area of the solid plate 20 do not satisfy the specification.
Specifically, the head length A and the head width B exceed the specified range, and the ratio of the projected area of the solid plate material 20 exceeds the specified range.

In Experimental Example 5, the hollow portion thickness C and the relational expression A <B satisfy the specifications, but the head length A and the head width B and the ratio of the projected area of the solid plate 20 do not satisfy the specifications.
Specifically, the head length A and the head width B are below the specified range, and the ratio of the projected area of the solid plate 20 is below the specified range.

In Experimental Example 6, the head length A, the head width B, and the relational expression A <B satisfy the specifications, but the hollow portion thickness C and the ratio of the projected area of the solid plate 20 do not satisfy the specifications.
Specifically, the thickness C of the hollow portion is below the specified range, and the ratio of the projected area of the solid plate material 20 is above the specified range.

In Experimental Example 9, the hollow portion thickness C and the relational expression A <B are satisfied, but the ratio of the head length A and the head width B and the projected area of the solid plate 20 does not satisfy the regulations.
Specifically, the head length A and the head width B exceed the specified range, and the ratio of the projected area of the solid plate material 20 exceeds the specified range. Further, the total projected area of the golf club head 10 exceeds 100 cm ² .

As can be seen from FIG. 24, when compared with Experimental Examples 3, 7, 8 and Experimental Examples 1, 2, 4, 5, 6, 9, head length A, head width B, hollow portion thickness C, relational expression If A <B and the ratio of the projected area of the solid plate 20 satisfies all the requirements, it is advantageous in terms of the pitch of the hitting sound, the length of the reverberation time of the hitting sound, and the flight distance. Recognize.
Specifically, it is advantageous in the following points.
1) Each primary resonance frequency is 4500 Hz to 6300 Hz, which exceeds 4000 Hz.
2) The evaluation of the pitch of the hitting sound is more than the evaluation of Experimental Examples 1, 2, 4, 5, 6, and 9.
3) The reverberation time of the hitting sound exceeds the evaluation of Experimental Examples 1, 2, 4, 5, 6, and 9.
4) The height of the center of gravity on the face surface 12 from the reference surface G is 20 mm to 20.2 mm, and the center of gravity is lowered.
5) The flight distance is longer than Experimental Examples 1, 2, 4, 5, 6, and 9.

In Experimental Example 1, the pitch of the hitting sound is similar to that in Experimental Example 3, but the reverberation time is shorter and the flight distance is shorter than in Experimental Examples 3, 7, and 8.
The reason for the short reverberation time is due to the shape of the golf club head, and the reason for the short flight distance is that the height of the center of gravity is as high as 23.5 mm.

In Experimental Example 2, the flight distance is not so bad as compared to Experimental Examples 3, 7, and 8, but the pitch of hitting sound and the reverberation time are shorter than in Experimental Examples 3, 7, and 8. .
The reason for the high pitched sound and reverberation time is shorter than those of Experimental Examples 3, 7, and 8 because the vibrations are canceled because the two wall portions face each other or are joined.

In Experimental Example 4, the pitch of the hitting sound is lower and the flight distance is shorter than in Experimental Examples 3, 7, and 8.
The reason why the hitting sound is low is that the primary resonance frequency is as low as 2800 Hz and 3000 Hz because the area of the solid plate 20 is too large.
The reason why the flight distance is short is that the total projected area of the golf club head 10 is large, the depth of the center of gravity is deep, and the position of the center of gravity on the face surface 12 is as high as 22.5 mm.

In Experimental Example 5, although the hitting sound is higher than in Experimental Examples 3, 7, and 8, the reverberation time is short and the flight distance is short.
The reason for the short reverberation time is that the vibration converges in a short time because the area of the solid plate 20 is too small.
The reason why the flight distance is short is that the total projected area of the golf club head 10 is small, so that the depth of the center of gravity becomes too shallow.

In Experimental Example 6, the reverberation time is not so short as compared with Experimental Examples 3, 7, and 8, but the hitting sound is low and the flight distance is short.
The reason why the hitting sound is low but the reverberation time is long is that vibration of low sound continues due to the area of the solid plate 20 being too large.
The reason why the flight distance is short is that the rigidity of the solid plate member 20 is reduced because the area of the solid plate member 20 is too large.

In Experimental Example 9, the reverberation time is not so short as compared to Experimental Examples 3, 7, and 8, but the hitting sound is low and the flight distance is short.
The reason that the hitting sound is low but the reverberation time is long is that vibrations with low sound continue because both the total projected area of the golf club head 10 and the area of the solid plate 20 are too large.
The reason why the flight distance is short is that the total projected area of the golf club head 10 is too large, the depth of the center of gravity is deep, and the position of the center of gravity on the face surface 12 is as high as 23 mm.

  DESCRIPTION OF SYMBOLS 10 ... Golf club head, 12 ... Face surface, 14 ... Crown surface, 1402 ... Front crown surface, 1404 ... Opposing crown surface, 1404A ... Upper opposing crown surface, 1404B ... Lower opposing crown surface 1406 ...... Lower crown surface, 16 ... Sole surface, 20 ... Solid plate material, 22 ... First hollow portion, 24 ... Second hollow portion, 25 ... Hollow portion, A ... Head length, B: Head width, C: Hollow thickness.

Claims (6)

A face surface having a vertical height and extending left and right; a crown surface extending rearward from an upper portion of the face surface; and a sole surface connecting a lower portion of the face surface and a lower portion of the crown surface A golf club head comprising:
A hollow portion composed of walls that define a closed space, and a solid plate material that constitutes a location of the golf club head excluding the hollow portion,
The hollow portion includes a horizontal portion extending along the face surface over the entire length in the left-right direction of the face surface, and a width smaller than a width of the horizontal portion connected to the horizontal portion in the left-right direction. A vertical portion extending backward from the center of the direction,
The solid plate material extends rearward from the horizontal portion on both the left and right sides of the vertical portion, the rear end thereof is located at the same position as the rear end of the vertical portion in the front-rear direction, and the rear of the vertical portion Provided to be continuous with the edge in the left-right direction
In the place where the hollow part is disposed, the face surface is constituted by the part where the wall defining the hollow part faces forward, and the crown surface is defined by the part where the wall defining the hollow part faces upward. Is configured, and the sole surface is configured by a portion where the wall defining the hollow portion faces downward,
Where the solid plate material is disposed, the crown surface is constituted by one surface in the thickness direction of the solid plate material, and the sole surface is constituted by the other surface of the solid plate material,
The golf club head has a loft angle of 11 degrees or more and 25 degrees or less with the lie angle and loft angle set in advance with respect to a reference plane , and the center of gravity position of the golf club head is the face surface. The height of the center of gravity projected perpendicularly to the reference plane is 21 mm or less,
The head length A is a dimension obtained by projecting the distance in the front-rear direction from the center point of the face surface to the most rearward position of the golf club head when viewed in plan in the installed state on the reference plane,
When the golf club head is viewed from the front of the face surface in the installed state, the distance from the heel side portion located 22.23 mm above the reference surface to the end portion located closest to the toe side is The dimension projected on the reference plane is the head width B,
When viewed in plan in the installed state, the distance from the center point to the farthest position of the hollow portion on the center line extending in the front-rear direction through the center point of the face surface is projected onto the reference plane. When the dimension is the hollow thickness C,
The head length A is 60 mm to 110 mm, the head width B is 95 mm to 120 mm, A <B.
The hollow part thickness C is 15 mm or more and the head length A or less,
In the installed state, the ratio of the projected area of the solid plate material to the total projected area of the golf club is 30% or more and 50% or less.
A golf club head characterized by that.   The vertical portion is formed such that the width in the left-right direction and the height in the vertical direction become smaller as it reaches the rear.
  The golf club head according to claim 1. The crown surface has a lower crown surface that extends behind the horizontal portion and on the left and right sides of the vertical portion and is positioned closer to the sole surface,
The lower crown surface is constituted by one surface in the thickness direction of the solid plate material and the sole surface portion corresponding to the lower crown surface is constituted by the other surface of the solid plate material,
3. The golf club head according to claim 1, wherein The longitudinal section, the rear of that is divided into right and left,
The golf club head according to any one of claims 1 to 3, wherein the golf club head is provided. The total projected area of the golf club head in the installed state is 100 cm ² or less.
The golf club head according to claim 1, wherein the golf club head is any one of claims 1 to 4 . The golf club head is a golf club head of the fairway wood club or utility for the club,
The golf club head according to any one of claims 1 to 5 , wherein

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