JPH02167181A - Clubhead of golf club - Google Patents

Abstract

PURPOSE:To extend the flying distance of a golf ball by a method wherein half a cycle of te intrinsic frequency of a clubhead is nearly equal to the time period during which the clubhead is in contact with a golf ball when the clubhead strikes the golf ball at a particular speed. CONSTITUTION:The natural frequency of a clubhead 1 is set between 600-1200Hz, 800-1200Hz, or 800-900Hz so that half a cycle of the natural frequency of the clubhead 1 is nearly equal to the time period during which the clubhead is in contact with a ball when the clubhead strikes the ball at a speed of 30-50m/s. To attain those figures above, the clubhead is composed of a wooden part 2 made of perssimon, etc., and an elastic part 3 of elastomer or ionomer resin, etc., having a coefficient of elasticity of 8-15kg/mm<2>. The ratio of the elastic part 3 made of elastomer or ionomer resin, etc., is at least 40-60% to attain said natural frequency.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to an improvement of a golf club head.

(Prior Art) Traditionally, golf club heads (hereinafter simply referred to as heads) include wooden heads such as Persimmon, fiber-reinforced plastic heads made of carbon fiber, glass fiber, etc., and metal heads. is supplied to the market.

(Problems to be Solved by the Invention) Golfers have traditionally wanted to hit a golf ball as accurately and as far as possible.

To achieve this, it is necessary to transmit the kinetic energy of the head when hitting the golf ball to the golf ball without loss, so that the flight distance is not increased.

To do so, the following conditions must be satisfied. That is, when the head collides with a golf ball, impact stress is applied to the head, causing it to vibrate at its own natural frequency (so-called natural frequency) along with transient vibrations.

Therefore, the present invention has discovered that if the half period of this natural frequency of the head matches the contact time between the golf ball and the head, the kinetic energy of the head can be efficiently transmitted to the golf ball through vibration. Ta.

That is, the higher the head speed immediately before impact, the shorter the contact time with the golf ball.

Head speed varies from person to person, but generally it is 30-5.
As an example, if we consider an average head speed of 40 m/s, the contact time will be about 600 μs from the experimental results, and this contact time corresponds to a half cycle. The frequency was found to correspond to approximately 830 Hz.

On the other hand, the natural frequencies of conventional wooden heads, fiber-reinforced plastic heads, and metal heads were measured using a fast Fourier transformer (FFT analyzer) and showed a natural frequency of about 2000 to 2200 Hz. Ta.

For these reasons, in these conventional heads, the natural frequency is too large and does not match well with the contact time between the head and the golf ball, resulting in a large energy loss when hitting the golf ball, and the energy transfer to the golf ball is poor. However, there were some problems in that it was not very good.

In addition, the natural frequency f can be expressed by the following formula in - boat fishing.

f = 1 / 2 n (k / m, where k - stiffness, m = mass.

The rigidity is determined by the shape of the member and the elastic modulus E. In other words, even if the material is the same, if the shape changes, the natural frequency will change, and even if the shape is the same, if the elastic modulus changes,
It changes.

In view of the above, the present invention has been made with the object of providing a head having an optimal natural frequency for improving the initial velocity of a golf ball.

(Means for Solving the Problems) Therefore, in the present invention, if the half period of the natural frequency of the head matches the contact time between the golf ball and the head,
The focus is on the fact that the kinetic energy of the head is efficiently transmitted to the golf ball through vibration.

That is, considering only the primary vibration of the head, when the golf ball and the head collide, the head immediately starts moving in the opposite direction to the flight direction of the golf ball. This becomes vibration, and if the movement changes again in the flight direction of the golf ball and the golf ball flies out when the head returns to its original position, it is thought that the vibrational energy of the head can be efficiently transmitted to the golf ball.

The time from when the head starts moving until it returns to its original position corresponds to a half period of the head's natural frequency.

Therefore, the half period of the natural frequency of the head is 30~
This head is characterized in that the contact time between the head and the golf ball is approximately equal to the time of contact between the head and the golf ball when the golf ball is hit at a head speed of 50+s/s.

Also, the half period of the natural frequency of the head is 30 to 5
In order to approximately match the contact time between the head and the golf ball when hitting the golf ball at a head speed of 0 m/s, the natural frequency of the head is set to 600 to 1200 Hz, or 800 to 1000 H2. The head is designed to generate a frequency of 800 to 900 Hz.

Furthermore, the half period of the natural frequency of the head is 30~
In order to approximately match the contact time between the head and the golf ball when the golf ball is hit at a head speed of 50 m/s, a wood material such as persimmon with an elastic modulus of 8 to 15 kg is used.
The head is made of an elastic member such as f/a+m'' elastomer or ionomer resin, and the composition ratio of the elastic member such as elastomer or ionomer resin is at least 40 to 60%.

Furthermore, the half period of the natural frequency of the head is 30~
The face of the head is made of an elastic member such as an elastomer or ionomer resin with an elastic modulus of 14 to 28 kgf/ss'' so as to approximately match the contact time between the head and the golf ball when the golf ball is hit at a head speed of 50 m/s. In addition to forming the face portion and the crown portion, the sole portion, neck portion, back portion, etc. of the head may also be formed of a head outer shell member made of metal, fiber reinforced plastic, or the like.

Furthermore, the half period of the natural frequency of the head is 30~
The ratio of the area S of the face surface of the head made of a wood material such as persimmon to the width of the head is set so that the contact time between the head and the golf ball when the golf ball is hit at a head speed of 50 m/s approximately corresponds to the contact time between the head and the golf ball. However, S/L
It is also possible to form a head such that = 0.0074 to 0.0160 m+.

Also, the half period of the natural frequency of the head is 30 to 5
(An elastomer or synthetic resin with an elastic modulus of 20 to 40 kgr/1" and a thickness of approximately 7 to 9 nm, so as to approximately match the contact time between the head and the golf ball when the golf ball is hit at a head speed of Im/s. A face insert member made of an elastic material such as occupies about 70% of the entire face surface of the head, and the head is formed of a head outer shell member made of fiber-reinforced plastic or the like; Among the shell members, the thickness of the fiber-reinforced plastic portion of the fitting and holding portion that fits and holds the face insert member is set to 3 to 8rnrn, and further a head is formed in which a foam core material is interposed inside the head outer shell member. It is also possible to do so.

(Function) As described above, in the head of the present invention, unlike conventional heads, the half period of the natural frequency of the head
The natural frequency of the head was set to 600 to 1200 Hz, which approximately corresponds to the contact time between the head and the golf ball when the golf ball is hit at a head speed of 0 to 50 m/s. It has become possible to increase the number of shots and increase the flight distance.

In other words, they make full use of the finite element method12 and set various conditions to derive the initial velocity of the golf ball when a head collides with a stationary golf ball at a head speed of about 40+ m/s. This is what I started.

In other words, Figure 1 shows how the initial velocity of the golf ball changes when the natural frequency of the head is successively changed by changing the elastic modulus with the same head shape. be. As is clear from FIG. 1, the initial velocity of the golf ball reached its maximum value when the head frequency was about 830 Hz. In addition, the initial velocity of the golf ball at this time showed an increase of about 1.7 m/s when compared with the natural frequency of the conventional head, 21)O (lHz).In addition, the elastic modulus of the head at this time was approximately 5.9 kgf/+m''.

In addition, from other experimental results and calculation results using the finite element method, it has been found that even when the elastic modulus is in the range of approximately 14 to 23 kg/al', the initial velocity of the golf ball is lower than that of a conventional head (natural frequency 2000 to 221). I could see the direction of the dust.

Furthermore, in FIG. 2, the hitting area of the head is S, and the widths of the head are 7 and 1. This figure shows how the initial velocity of the golf ball changes when the natural frequency of the head is successively changed by changing the S/L ratio (that is, the head shape is successively changed). It is something.

As can be seen from this result, the S/L ratio is 0.0
Around 11m (the natural frequency of the head is about 830H)
z), the initial velocity dust of the golf ball shows the maximum value, which is also the case with the conventional head (natural frequency of about 2000 to 2200 Hz).
), the increase was approximately 0.5 m/s.

As described above, if the contact time between the head and the golf ball matches the half period of the natural frequency of the head, the kinetic energy of the head will be most efficiently transmitted to the golf ball.
Increasing the initial velocity of the golf ball produces a curving effect.

(Embodiment) To explain an embodiment of the present invention based on the drawings, as shown in FIGS. 3 to 5, the half period of the natural frequency of the head I is 30 to 50+++/s. The natural frequency of the head is set to 6 to approximately match the contact time between the head and the golf ball when hitting the golf ball at head speed.
00~1200tlz.

Or, increase the hard vibration dispersion of the head to 800~1200Hz
, or set the natural frequency of the head to 800 to 90011 z
(This is a strained head.)

That is, as shown in FIG. 3, the half period of the interesting frequency of the head 1 is the contact between the head 1 and the golf ball when the golf ball is hit at a head speed of 30 to 50 m/s. In order to substantially match the time, the composition ratio of the head 1 in the head 1, which is composed of a wooden member 2 such as Burnmon and an elastic member 3 such as an elastomer or ionomer resin with an elastic modulus of about 8 = 15 kgf/mm, is adjusted to at least elastomer or ionomer resin. , an elastic member 3 made of ionomer resin, etc.
This is a head designed so that the ratio of the amount of heat is 40 to 60%.

Furthermore, as shown in FIG. 4, the half period of the natural frequency of the head 1 is approximately equal to the contact time between the head 1 and the golf ball when the golf ball is hit with the head 1 at a head speed of 30 to 50 n/s. To match, elastic modulus 14-23
The face section 5 and crown section 6 of the head I are made of an elastic member 4 made of elastomer or ionomer resin of kgf/mm2, and the sole section 7, neck section 8, back section 9, etc. of the head I are made of metal or fiber reinforced material. The head is formed of a head outer shell member 10 made of plastic or the like.

Furthermore, as shown in FIG. 5, the half period of the natural frequency of the head 1, or the contact time between the head and the golf ball when the head hits the golf ball at a head speed of 30 to 50 n/s, approximately corresponds. As shown, the ratio of the area S of the face portion 5 of the head l made of a wood material such as Persimmon to the head width is S/L = 0.0074 to 0.01.
The head is 60m long. As an example, the area S of the face portion 5 is 0.035a+X O,
0465n+·0.0016m', and the length is preferably about 0.154m.

Furthermore, as shown in FIGS. 6 and 7, the half period of the natural frequency of the head 1 is the same as that between the head 1 and the golf ball when the head 1 hits the golf ball at a head speed of 30 to 50 i/s. An elastic member 4 (for example,
It is preferable to use polyester elastomer)
The face insert member 5a is configured to occupy approximately 70% of the entire face portion 5 of the head I, and the head l is made of fiber reinforced plastic (carbon fiber, aramid fiber, glass fiber, or other reinforced plastic). Fiber-reinforced plastic using reinforcing fibers
FRP may be used, or fiber-reinforced thermoplastic plastic F
RTP is also possible. Preferably, the head is made of carbon fiber reinforced plastic. ), and of the head outer shell member, a fiber-reinforced plastic portion of a fitting holding portion that fits and holds the face insert member has a thickness of 3 to 8 mm, and the head This head has a structure in which a foam core material is interposed inside an outer shell member.

The head of the present invention can be applied not only to wood type heads but also to iron type heads.

(Effects) As described above, in the head of the present invention, the half period of the natural frequency of the head is the contact time between the head and the golf ball when the head hits the golf ball at a head speed of 30 to 50+ m/s. Since the kinetic energy of the head can be efficiently transmitted to the golf ball, the initial velocity of the golf ball can be improved, which increases the flight distance of the golf ball. It is something that can be done.

In addition, the combination of the elastic member and the outer shell of the head made of fiber-reinforced plastic such as carbon fiber improves the durability of the head, as well as creating an innovative head design, increasing the degree of freedom in designing the head itself. death,
This has the effect of being able to supply golf clubs that match the golfer's personality.

[Brief explanation of the drawing]

1 to 2 are explanatory diagrams showing the relationship between the natural frequency of the head according to the present invention and the initial velocity of the golf ball, and FIGS. 3 to 5 show examples of the head according to the present invention. 6 is a perspective view showing a fiber-reinforced plastic head according to the present invention; FIG. 7 is a cross-sectional view of the head shown in FIG. 6; and FIG. 8 is a conventional head. Perspective view. l: Head, 2: Wooden member, 3: Elastic member, 4: Elastic member, 5: Face portion, 6: Crown portion, 7: Sole portion, 8: Neck portion, 9: Back portion, ! :Helad outer shell member, foam core material. Engraving of the drawing (no change in content) CFI eat m-Engraving of the drawing of Loro Island cJ'lΦ-N group (no change in content) Figure 1, Head 2 Wooden member neck procedure Method) January 8, 1990

Claims (1)

[Claims] 1. The half period of the natural frequency of the golf club head (1) is the club head (1) when a golf ball is hit at a head speed of 30 to 50 m/s.
1) A golf club head characterized in that the contact time with the golf ball is approximately equal to the contact time with the golf ball. 2 The half period of the natural frequency of the golf club head (1) is the club head (1) when the golf ball is hit at a head speed of 30 to 50 m/s.
1) The natural frequency of the club head (1) is set to 600 to 1200 Hz to approximately match the contact time of the golf ball.
The golf club head according to claim 1, wherein the golf club head has the following characteristics. 3 The half period of the natural frequency of the golf club head (1) is the club head (1) when a golf ball is hit at a head speed of 30 to 50 m/s.
The natural frequency of the club head (1) is set to 800 to 1200 Hz in order to approximately match the contact time of the golf ball with 1).
The golf club head according to claim 1, wherein the golf club head has the following characteristics. 4 The half period of the natural frequency of the golf club head (1) is the club head (1) when a golf ball is hit at a head speed of 30 to 50 m/s.
2. A golf club head according to claim 1, wherein the natural frequency of the club head (1) is set to be 800 to 900 Hz in order to substantially match the contact time of the club head (1) with the contact time of the golf ball. 5 The half period of the natural frequency of the golf club head (1) is the club head (1) when the golf ball is hit at a head speed of 30 to 50 m/s.
The elastic modulus of the wood material (2) such as persimmon is approximately 8 to 15k so that the contact time between the golf ball and the golf ball
A club head (1) composed of an elastic member (3) made of an elastomer or ionomer resin of gf/mm^2
The composition ratio of the club head (1) in at least an elastic member (3) such as an elastomer or an ionomer resin.
5. The golf club head 6 according to claim 1, 2, 3, or 4, wherein the half period of the natural frequency of the golf club head (1) is set to 40 to 60%. Club head when hitting a golf ball at a head speed of 50 m/s (
1), the club head (
In addition to forming the face portion (5) and crown portion (6) of 1), the sole portion (7), neck portion (8), back portion (9), etc. of the club head (1) are made of metal or fiber reinforced plastic. The golf club head 7 according to any one of claims 1, 2, 3, and 4, wherein the golf club head (10) is formed of a head outer shell member (10) consisting of a golf club head (1), etc. The club head when hitting a golf ball at a head speed of 30 to 50 m/s (
A club head (1) made of a wood material (2) such as persimmon, so as to approximately match the contact time between the golf ball and the club head (1).
The ratio of the area S of the face portion (5) to the width L of the club head (1) is S/L = 0.0074 to 0.0160 m.
The golf club head 8 according to claims 1, 2, 3, and 4, wherein the half period of the natural frequency of the golf club head (1) is such that the golf club head (1) can move the club head (1) at a head speed of 30 to 50 m/s. The club head when you hit the golf ball with (
1) has an elastic modulus of 20 to 40 kgf/mm^2 and a thickness of approximately 7 to 40 kgf/mm^2 so as to approximately match the contact time of the golf ball.
A face insert member (5a) made of a 9 mm elastic member (4) made of elastomer or synthetic resin is configured to occupy approximately 70% of the entire face surface portion (5) of the club head (1), and 1) is formed of a head outer shell member (10) made of fiber-reinforced plastic or the like, and the thickness of the fiber-reinforced plastic portion of the fitting holding portion of the head outer shell member that fits and holds the face insert member is 5. A golf club head according to claim 1, wherein the golf club head has a diameter of 3 to 8 mm, and further includes a foam core material interposed inside the head outer shell member.