JP3114962U - Golf club head structure - Google Patents

Abstract

A head and a face plate are used. The head is made of a ferro-manganese-aluminum alloy, and the face plate is made of a titanium alloy. The face plate is configured to be coupled to the head by press fitting or hard brazing.
[Effect] The ferro-manganese-aluminum alloy material of the head guides the stress of the hit ball to the face plate and avoids vibration, ensuring that the face plate maintains a highly elastic deformation capability. Therefore, the performance of the hit ball can be improved, and at the same time, the stability and grip feeling of the hit ball can be increased.
[Selection] Figure 5

Description

  The present invention relates to a structure of a golf club head, and more particularly, a golf club having a high seismic absorption property and a high elastic deformation capability by using a ferro-manganese-aluminum alloy head and coupling with a titanium alloy face plate. This relates to the structure of the head.

A conventional golf club head structure includes a head and a face plate. Based on multiple considerations due to cost, hit ball performance and overall structural strength during manufacture, the head is usually made of a material such as stainless steel, carbon steel or alloy steel, and the face plate is made of a material such as a titanium alloy. Made. The face plate material has a relatively low Young's modulus relative to the head material. The Young's modulus E is equal to the value of the quotient of stress / variation (that is, equal to the load kgf / displacement mm ² ). Therefore, the lower the Young's modulus E, the higher the elastic modulus ( It is formed to have a coefficient of restitution COR). Therefore, under the assumption that the elastic limit of the material itself is not exceeded, if a material with a relatively low Young's modulus is used for the face plate, the face plate will have a relatively large elastic deformation at the time of hitting. In addition to being formed, the compression deformation of the sphere caused when a golf ball (not shown) hits the face plate can be relatively reduced, so that the degree to which the stress of the hit ball is absorbed by the resistance relative to the face plate can be relatively reduced. In some cases, it is possible to avoid the energy loss of the hit ball stress and to further increase the flight distance of the hit ball.

In addition, as a structure of a golf club head by a conventional casting method, Mn is 20 to 35%, Al is 5 to 12%, C is 0.2% to 1.5%, Si is 0.2% to 2.0%, and Mo1. 0.0% or less, Cr less than 0.5%, P less than 0.1%, S less than 0.1%, and the composition of residual Fe, and that which was formed by casting (for example, utility model) (See Registration Document 1).
JP-A-2-291878

In the structure of the conventional golf club head as described above, referring to FIG. 1, in consideration of the strength of the entire structure and the manufacturing cost, the head is usually manufactured using only a material having a high Young's modulus in the industry. For example, 17-4 stainless steel with a Young's modulus of 20765 kgf / mm ² . As a result, the head material itself has a low elastic deformation capability and a high resistance coefficient, which makes it easier for the head to absorb the stress of the hit ball. This greatly affects the elastic deformation capability of the face plate and the hit ball performance. Will be affected. In addition, the stress of the hit ball absorbed by the head is also converted into vibration and transmitted to the club and the grip, which affects the stability of the hit ball, the grip comfort of the golf club and the completeness of the structure of each connecting portion of the golf club Will be affected. In addition, the stainless steel, carbon steel or alloy steel material of the head usually has only poor welding characteristics, so when trying to join the head to the weight, it can be fitted by interference fit, hard brazing or pressing. Since only a method such as compression can be combined with the weight, there is a problem that the manufacturing process of the weight combination cannot be accelerated.

  Further, in the structure of the conventional golf club head as described above, the head formed from a chemical composition such as ferro, manganese, and aluminum by casting lowers the center of gravity, increases the hitting ball area, and further increases the volume of the head. Can help increase. However, in actual use, when a golf club head is manufactured using a chemical composition such as ferro, manganese, or aluminum, defects caused by casting such as cold welding, scrap holes, and shrinkage holes are found in the finished product of the golf club head. Therefore, there is a problem that the yield of casting of the head is lowered. Therefore, the structure of the conventional golf club head as described above must be further improved.

  The present invention was devised in view of these problems, and the object of the present invention is to produce a head using ferro-manganese-aluminum alloy, and then to produce a head and a titanium alloy. Combine with the face plate. Since the Young's modulus of ferro-manganese-aluminum alloy is relatively small compared to conventional materials such as stainless steel, carbon steel or other alloy steels, it has extremely good seismic absorption and dissimilar weldability, and is therefore devised for this purpose. The head of the ball can guide the stress of the hit ball back to the face plate and avoid the occurrence of vibrations, thereby ensuring that the face plate maintains a highly elastic deformation capability. An object of the present invention is to provide a golf club head structure capable of enhancing the performance, increasing the stability and gripping feeling of the hit ball, and further increasing the bond strength of the weight.

  The first object of the present invention is to produce a head using a ferro-manganese-aluminum alloy, and return the hit ball stress to the face plate by the head and relatively reduce the probability of absorbing the hit ball stress. Therefore, an object of the present invention is to provide a golf club head structure capable of increasing the hitting performance and hitting distance of a golf club.

  The second object of the present invention is to produce a head using a ferro-manganese-aluminum alloy, and to relatively avoid the vibration generated by the head after the head and the titanium alloy face plate are coupled. Therefore, an object of the present invention is to provide a golf club head structure capable of enhancing the stability and gripping feeling of a golf club.

  The third object of the present invention is to produce a head using ferro-manganese-aluminum alloy, and the ferro-manganese-aluminum alloy of the head has a relatively good dissimilar weldability so that it can be connected to the weight by welding. Therefore, an object of the present invention is to provide a golf club head structure capable of increasing the bond strength of the weight and speeding up the manufacturing process of the bond.

In order to achieve the above object, the structure of the golf club head according to the present invention is as follows. That is,
Consists of a head and a face plate. The head is made of a ferro-manganese-aluminum alloy. The face plate is made of a titanium alloy. When hitting the ball, the stress of the hit ball is guided back to the face plate by the material of the ferro-manganese-aluminum alloy of the head, and vibration can be avoided to ensure that the face plate maintains a highly elastic deformation capability. Therefore, the performance of the hit ball can be improved.

In the structure of the golf club head according to the present invention, the head and the face plate can be combined so as to be integrated by a press-fitting method. Further, the head and the face plate can be joined together by a hard brazing method. In addition, a storage chamber for coupling with a weight may be formed at the bottom of the head. The weight is made of a material having a specific gravity greater than 10 g / cm ³ , and may be a tungsten alloy or a tungsten-ferro-nickel alloy, for example. The weight may be coupled to the head accommodating chamber by a welding method. The welding method can be selected from tungsten inert gas arc welding, laser beam welding, plasma arc welding, ion beam welding, and hard brazing.

  According to the structure of the golf club head of the present invention, a head is formed using a ferro-manganese-aluminum alloy, and the stress of the hit ball is guided back to the face plate by the head and the probability of absorbing the hit ball stress is relative. Therefore, there is an advantage that it is possible to improve the performance of the golf ball and the flight distance of the golf ball.

  According to the structure of the golf club head of the present invention, a head is formed using a ferro-manganese-aluminum alloy, and after the head and the titanium alloy face plate are joined, vibration is caused by the head relatively. Since it can be avoided, there is an advantage that the stability and grip comfort of a golf club can be improved.

  According to the structure of the golf club head of the present invention, a ferro-manganese-aluminum alloy is used to produce a head, and the ferro-manganese-aluminum alloy of the head has a relatively good dissimilar weldability. Since it is advantageous for bonding with the weight, there is an advantage that the bonding strength of the weight can be increased and the manufacturing process of the bond can be accelerated.

  Embodiments of the present invention will be described below with reference to the drawings.

  FIG. 1 is a sectional view showing an exploded state according to the structure of a golf club head of Example 1 of the present invention, and FIG. 2 is a sectional view showing an assembled state of the structure of the golf club head according to Example 1 of the present invention. FIG. 3 is a curve diagram of Young's modulus of a head made of a ferro-manganese-aluminum alloy according to the structure of the golf club head of Example 1 of the present invention, and FIG. 4 is a golf club of Example 2 of the present invention. FIG. 5 is an exploded perspective view showing the structure of the head, FIG. 5 is a cross-sectional view showing a state where the face plate and the weight are combined with the structure of the golf club head of the second embodiment of the present invention, and FIG. 6 is a third embodiment of the present invention. It is sectional drawing which shows the state decomposed | disassembled by the structure of a golf club head.

Referring to FIGS. 1, 2, and 3, the structure of the golf club head according to the first embodiment of the present invention includes a head 10 and a face plate 20. The head 10 is made of a ferro-manganese-aluminum alloy having a Young's modulus of 14425 kgf / mm ² . The face plate 20 is made of a material having a low Young's modulus such as a titanium alloy. An opening 11 is provided in front of the head 10, a shoulder 12 is formed on the inner periphery of the opening 11, and a filler flange 13 is provided around the outer periphery of the opening 11. Further, the face plate 20 can be fitted inside the opening 11 of the head 10, and a stepped portion 21 is formed at the front periphery thereof. With the structure described above, the face plate 20 can be coupled to the head 10 by a press-fitting method. When joining, the face plate 20 is first inserted into the opening 11. Then, by pressing the filler flange 13, the filler 13 ′ is formed by plastic deformation, so that the stepped portion 21 of the face plate 20 can be locked. In this way, the finished product of the golf club head is joined to the head 10 and the face plate 20 by press fitting.

Referring to FIGS. 1, 2, 3, and 7, the ferro-manganese-aluminum alloy material of the head 10 of the present invention has a sufficient structural strength as compared with a conventional head made of 17-4 stainless steel. In addition, it has a relatively low Young's modulus (14425 kgf / mm ² ). That is, on the assumption that the elastic limit of the ferro-manganese-aluminum alloy is not exceeded, the head 10 made of the ferro-manganese-aluminum alloy in the present invention has a relatively large coefficient of elasticity (coefficient of restitution). COR), and is formed to have a relatively wide elastic deformation (relative displacement). Therefore, even if the stress of a part of the hit ball is conducted from the face plate 20 to the head 10 at the time of hitting, the head 10 still has a relatively high elastic deformation ability of the material of its own ferro-manganese-aluminum alloy, so To the titanium alloy face plate 20 again. As a result, the face plate 20 and the head 10 are all in a state having relatively good elastic deformation ability, and the finished product of the golf club head is formed to have extremely good hitting performance. be able to. Further, since the stress of most hitting balls can be led back to the face plate 20 by the material of the ferro-manganese-aluminum alloy of the head 10, it is possible to effectively avoid the occurrence of vibrations in the head 10 and the user can avoid the golf club. The gripping comfort of the hand can be increased, the stability of the hit ball can be increased, and the probability of cracks occurring at each coupling site of the club due to vibration can be relatively reduced. Completeness of the entire structure can be ensured.

4 and 5, the structure of the golf club head according to the second embodiment of the present invention is posted. Compared with the first embodiment, the second embodiment further proceeds with the second embodiment in which a storage chamber 14 is formed at the bottom of the head 10 made of ferro-manganese-aluminum alloy, and is welded to the storage chamber 14 and welded to the weight 30. be able to. In contrast to the conventional materials such as stainless steel, carbon steel or other alloy steel, the material of the ferro-manganese-aluminum alloy of the head 10 not only has a relatively low Young's modulus and high seismic absorption, but also a very good dissimilar material. Has metal bonding properties. Therefore, when the head 10 of the present invention is to be coupled to the weight 30, in addition to the conventional coupling method such as fitting by tight fit, hard brazing, or press fitting, for example, a welding method is also used. Can be combined with the weight 30 to increase the strength and quality of the bond and speed up the manufacturing process of the bond. When performing welding, the welding method can be selected from tungsten inert gas arc welding, laser beam welding, plasma arc welding or ion beam welding. Also, compared to the specific gravity of 6.8 g / cm ³ of ferro-manganese-aluminum alloy, the weight 30 is preferably made of a material having a specific gravity greater than 10 g / cm ³ , such as a tungsten alloy or a tungsten-ferro-nickel alloy. is there. Therefore, the weight 30 can significantly reduce the position of the center of gravity of the entire head 10.

  Referring to FIG. 6, the structure of the golf club head according to the third embodiment of the present invention is posted. Compared with the first and second embodiments, in the third embodiment, the head 10 made of a ferro-manganese-aluminum alloy and the face plate 20 made of a titanium alloy are joined by a hard brazing method. be able to. The head 10 is provided with an opening 11 and a shoulder 12. The face plate 20 can be fitted into the opening 11, and a welding ring 40 is provided between the shoulder 12 of the head 10 and the face plate 20. When performing brazing, first, the face plate 20 and the welding ring 40 are pressed and joined to the inside of the opening 11 of the head 10 to deform the welding ring 40 in an elementary manner. Then, the welding ring 40 is melted by heating the head 10. Thus, even after the head 10 and the face plate 2 are coupled, the golf club hitting performance (the hitting distance of the hitting ball) is similarly obtained by the high seismic absorption property of the ferro-manganese-aluminum alloy and the high elastic deformation capability of the titanium alloy. Can increase the stability and gripping feel of the hit ball. 4 and 5, the head 10 of the third embodiment can also be welded and coupled to the weight 30 by forming the accommodating chamber 14 at the bottom of the head 10 in the same manner.

  As described above, according to the structure of the conventional golf club head, since the stress of the hit ball is easily conducted from the face plate to the head, there is a problem such as energy loss or vibration, but the book shown in FIG. According to the structure of the golf club head of the invention, the head 10 made of ferro-manganese-aluminum alloy can improve the elastic deformation ability, vibration absorption and dissimilar welding properties of the head 10, so Performance, stability of the hit ball, and grip strength and weight bond strength can be increased.

  The present invention may be implemented in other ways without departing from the spirit and essential characteristics thereof. Accordingly, the preferred embodiments described herein are illustrative and not restrictive.

It is sectional drawing which shows the state decomposed | disassembled by the structure of the golf club head of Example 1 of this invention. It is sectional drawing which shows the state assembled by the structure of the golf club head of Example 1 of this invention. It is a curve figure of the Young's modulus of the head manufactured from the ferro-manganese-aluminum alloy by the structure of the golf club head of Example 1 of this invention. It is a disassembled perspective view which shows the structure of the golf club head of Example 2 of this invention. It is sectional drawing which shows the state couple | bonded with the face board and weight by the structure of the golf club head of Example 2 of this invention. It is sectional drawing which shows the state decomposed | disassembled by the structure of the golf club head of Example 3 of this invention. It is a curve figure of the Young's modulus of the head made from 17-4 stainless steel by the structure of the conventional golf club head.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Head 11 Opening part 12 Shoulder part 13 Filler flange 13 'Filler 14 Accommodating chamber 20 Face plate 21 Stepped part 30 Weight 40 Welding ring

Claims (7)

  A golf club head structure comprising a head (10) and a face plate (20), wherein the head (10) is made of a ferro-manganese-aluminum alloy, and the face plate (20) is made of a titanium alloy. When the ball is hit, the stress of the hit ball is guided back to the face plate (20) by the material of the ferro-manganese-aluminum alloy of the head (10), and the occurrence of vibration can be avoided. ) Can maintain a highly elastic deformation capability, and therefore the hitting ball performance can be improved.   2. The golf club head structure according to claim 1, wherein the head (10) and the face plate (20) are joined together by a pressing method.   The golf club head structure according to claim 1, wherein the head (10) and the face plate (20) are joined together by a hard brazing method.   2. The golf club head structure according to claim 1, wherein a housing chamber (14) for coupling with a weight (30) is formed at the bottom of the head (10). 5. The golf club head structure according to claim 4, wherein the weight (30) is made of a material having a specific gravity greater than 10 g / cm < ³ >, such as a tungsten alloy or a tungsten-ferro-nickel alloy.   5. The golf club head structure according to claim 4, wherein the weight (30) is coupled to the receiving chamber (14) of the head (10) by a welding method.   7. The golf club head structure according to claim 6, wherein the welding method can be selected from tungsten inert gas arc welding, laser beam welding, plasma arc welding, ion beam welding, and hard brazing.