JP2022108923A - Method for manufacturing soft-iron forged golf club head - Google Patents

Abstract

To provide a method for manufacturing a soft-iron forged golf club head capable of suppressing deformation and wear of an iron head and a wedge head made of a soft-iron material and maintaining good hitting performance.SOLUTION: A method for manufacturing a soft-iron forged golf club head comprises the steps of: forming a semi-finished club head in a predetermined shape from a low-hardness iron-based material, and forming a recess in the semi-finished club head; forming, from a high-hardness iron-based material, a reinforcing member in a shape that matches a shape of the recess formed in the semi-finished club head; weld-joining the semi-finished club head and the reinforcing member, by fitting the reinforcing member into the recess in the semi-finished club head and weld-joining them into one piece; and forming a finished club head by co-forging in which the reinforcing member and the weld-joined semi-finished integrated through weld-joining are placed together into a forging mold and forged at least once.SELECTED DRAWING: Figure 1

Description

The present invention relates to a method of manufacturing a golf club head, and more particularly to a method of manufacturing a soft iron forged golf iron or wedge club head.

Iron heads and wedge heads are often manufactured using low-hardness soft iron materials in order to obtain a soft hitting feel, excellent controllability, and a good hitting sound when hitting a ball with an iron club or wedge club. For the soft iron material, it is common to use low-carbon steel materials such as US metal material symbols SAE 1020C, SAE 1025C, SAE 1030C, and SAE 1035C.

Since the hardness of the iron head and wedge head made of the above-mentioned soft iron material is low, generally in the range of HRB70 to HRB90, when the user carries the club while playing golf, the club head may hit and be damaged. In addition, the surface of the head may be dented due to wear and deformation due to multiple impacts, which may affect the control of the direction of the ball and the movement of the ball. In addition, the face line of the hitting surface tends to be reduced, which affects the amount of spin (spin) given to the ball at the time of hitting, leading to a decrease in the flight distance and directionality of the ball. In addition, since the sole of the head is also easily worn, the sol bounce angle is easily crushed, which affects the trajectory angle of the ball, the height of the ball, and the flight distance.

Taiwan Patent No. I469808

SUMMARY OF THE INVENTION The present invention has been made in view of the drawbacks of the prior art described above, and manufactures a forged soft iron golf club head capable of suppressing deformation and wear of iron heads and wedge heads made of soft iron material and maintaining good hitting performance. We aim to provide a method.

In order to achieve the above object, a method for manufacturing a soft iron forged golf club head according to the present invention comprises steps of forming a semi-finished club head, forming a reinforcing member, and welding the semi-finished club head and the reinforcing member. joining and forming a finished club head by co-forging;
In the step of molding the semi-finished club head, a low-hardness iron-based material having a hardness standard of HRB 50 or more and HRB 105 or less in the Rockwell hardness test is formed into a semi-finished club head having a predetermined shape, and further formed into a predetermined shape. forming a recessed groove in a portion to be reinforced on the semi-finished product of the formed club head;
In the step of forming the reinforcing member, a high-hardness iron-based material having a hardness standard of HRC 15 or more and HRC 55 or less in the Rockwell hardness test is formed into a reinforcing member having a predetermined shape, and the shape of the reinforcing member is the same as that of the club. Matches the shape of the groove formed in the portion to be reinforced on the head half-finished product,
In the step of welding and joining the semi-finished club head and the reinforcing member, the reinforcing member is fitted into the corresponding recess on the semi-finished club head, and the peripheral wall of the recess is formed between the semi-finished club head and the semi-finished club head. The joint part between is integrally joined by welding means as a whole,
In the step of forming the finished club head product by co-forging, the reinforcing member and the semi-finished club head welded together are placed together in a forging die, heated at a temperature in the range of 700° C. to 1100° C., and at least A single forging process is performed, and as a result, the reinforcing member and the semi-finished club head are eutectic bonded by hot forging and formed into a finished iron head having a predetermined shape.

In the step of welding and joining the semi-finished club head and the reinforcing member, the joining portion between the reinforcing member and the peripheral wall of the recess of the semi-finished club head is integrally joined by welding means, and then the reinforcing member is welded. Sandblasting is applied to the welded portion between the member and the semi-finished club head to remove oxides generated by the high temperature generated during welding, and further, the welded portion between the welded reinforcing member and the semi-finished club head is sandblasted. Excess slag generated during welding is removed in a manner similar to surface polishing to ensure the quality of the finished forged club head.

The soft iron forged golf club head manufacturing method according to the present invention can also change the depth of the recess of the semi-finished club head according to the design requirements of different club heads, while the height of the reinforcing member can be changed. The depth can be appropriately changed according to the depth of the recess. With such a design, the half-finished club head and the reinforcing member with different hardness are welded together and the forging process is performed at high temperature and high pressure to form the finished club head. In addition, the low-hardness iron-based head body and the high-hardness iron-based reinforcing member are placed in appropriate positions, resulting in a soft hitting ball. It is possible to combine feel, good hitting sound, excellent controllability, and hitting performance.

According to the above technical means, the method for manufacturing a soft iron forged golf club head according to the present invention has at least the following advantages and effects.
1. According to the manufacturing method of the present invention, a reinforcing member made of a high-hardness material is installed at a portion of a soft-iron forged golf iron head to be reinforced that is frequently damaged, thereby preventing permanent damage to the appearance due to impact during transportation. and the hardness of the parts to be reinforced of the club head is high, so wear and deformation due to impact with a hitting ball can be suppressed. Longer service life compared to club heads made from soft iron.
2. In the manufacturing method of the present invention, the club head half-finished product and the reinforcing member having different hardnesses are welded and joined, and then the finished club head is completed through forging at high temperature and high pressure. By performing a process of welding and fixing all joints between the half-finished club head and the reinforcing member, the metal parts having different material components are integrated to form a metal structure, The forging process is followed by a positive eutectic bond resulting in a fully integrated metal structure that provides a uniform appearance to the final forged finished club head. On the other hand, most of the main portion of the finished club head is made of the original low-hardness iron-based material. It is possible to maintain the original soft hitting feel, excellent controllability, and good hitting sound of the original club head.
3. As described above, in the step of welding and joining the semi-finished club head and the reinforcing member according to the present invention, the step of welding and fixing all the connecting portions between the semi-finished club head and the reinforcing member is performed. Then, metal parts with different material components are made into an integral metal structure without gaps, and then the finished club head is formed by co-forging at high temperature and high pressure. This can effectively prevent the problem of misalignment between the reinforcing member and the semi-finished club head, thus ensuring the accuracy of the reinforcing part, and at the same time improving the appearance of the final forged finished club head. , There is no damage such as welding marks, and a sense of unity with a high degree of perfection can be presented.
4. When the planned reinforcing parts expected to be easily damaged in the iron club head made of forged soft iron are set as the hitting face part and the sole part, a high-hardness reinforcing member is used as the hitting face part and the sole part, and further, By putting a face line on the surface, the wear resistance of the reinforcing member as the hitting surface and the sole can be improved, thereby maintaining the face line and the designed sole bounce angle for a long time. Therefore, the accuracy of hitting can be maintained for a long time.

1 is a flow chart of a method for manufacturing a soft iron forged golf club head according to the present invention. FIG. 2 is a schematic diagram showing a preferred embodiment of a step of forming a semi-finished club head in the method of manufacturing the forged soft iron golf club head shown in FIG. 1; FIG. 3 is a schematic diagram of forming a concave trough in the forged iron head preform shown in FIG. 2 by machining. FIG. 4 is a schematic view showing a state before bonding a previously formed semi-finished club head and a previously formed reinforcing member in the method for manufacturing a forged soft iron golf club head according to the present invention; FIG. 2 is a schematic view showing an embodiment in which a preformed club head semifinished product and a preformed reinforcing member are welded and joined in the method for manufacturing a forged soft iron golf club head according to the present invention; FIG. 6 is a side cross-sectional view of the welded club head semifinished product and reinforcing member shown in FIG. 5 ; FIG. 5 is a schematic view showing another embodiment in which a preformed semi-finished club head and a preformed reinforcing member are welded and joined in the method for manufacturing a forged soft iron golf club head according to the present invention. FIG. 8 is a side cross-sectional view of the welded club head semifinished product and reinforcing member shown in FIG. 7 ; FIG. 10 is a side cross-sectional view showing still another embodiment in which a preformed club head semifinished product and a preformed reinforcing member are welded and joined in the method for manufacturing a forged soft iron golf club head according to the present invention; .

The present invention proposes a soft iron forged golf club head manufacturing method, and the soft iron forged golf iron head can be applied to at least an iron club head and a wedge club head. As shown in the flow chart of FIG. 1, the soft iron forged golf club head manufacturing method includes the steps of forming a semi-finished club head, forming a reinforcing member, and welding and joining the semi-finished club head and the reinforcing member. and forming the finished club head by co-forging. Each of the above steps will be described in detail below with reference to the illustrated drawings.

In the step of molding the semi-finished club head, a low-hardness iron-based material having a hardness standard of HRB 50 or more and HRB 105 or less in the Rockwell hardness test is formed into a semi-finished club head having a predetermined shape, Further, as shown in FIGS. 5 to 9, grooves 21, 21A, and 21B are formed in areas to be reinforced on the club head half-finished product 20 formed into a predetermined shape. The portion to be reinforced is positioned according to the design requirements of the club head. It may be at least one or a plurality of parts of the sole, and the parts to be reinforced are the blade, the back, the hitting face, and the sole of the club head. (sole) may occupy a part of each site or the whole. FIG. 5 shows a state in which the portion to be reinforced in which the recess 21 is formed occupies the entire striking surface portion. FIG. 7 shows a state in which the portion to be reinforced in which the recess 21 is formed occupies a local portion of the striking face portion. FIG. 9 shows a mode in which the portions to be reinforced in which the recesses 21, 21A, and 21B are formed are the hitting surface portion, the back portion, and the sole portion.

The club head semi-finished product uses low carbon steel or medium carbon steel with a carbon content of 0.5% or less, for example, low carbon steel such as US metal material symbol SAE 1020C, SAE 1025C, SAE 1030C, SAE 1035C. , medium carbon steel such as SAE 1040C, SAE 8620 nickel-chromium-molybdenum alloy steel, or other low carbon alloy steel containing trace metal elements such as nickel (Ni), chromium (Cr), manganese (Mn), etc. use.

As shown in FIG. 2, in a preferred embodiment of the process of forming the club head semi-finished product, first, a bar 10 made of a low-hardness ferrous material (soft iron material) is bent, and then a preliminary forging is performed by forging means. After molding, the club head preform 200 is formed by forging means. As shown in FIG. 3, after a club head preform 200 is formed into a desired shape by forging, a club head half-finished product 20 having a recess 21 is formed by machining. The groove formed in the portion to be reinforced of the semi-finished club head 20 may be formed at the same time as being preformed by forging means using a specific forging die.

In the step of molding the semifinished club head, as shown in FIGS. 6, 8 and 9, it is preferable to set the depth of the recess 21 in the range of 0.2 mm to 5.0 mm. Specifically, the depths of the recesses 21 , 21 A, 21 B can be adjusted according to the design requirements of different areas to be reinforced on the semi-finished club head 20 . Specifically, as shown in FIGS. 6 and 9, the depth of the recess 21 may be the same over each portion of the recess 21, or may be the same for each portion of the recess 21. It may also vary across, for example the depth of the peripheral portion of the recess 21 shown in FIG.

In the step of molding the reinforcing member, a high-hardness iron-based material having a hardness standard of HRC 15 or more and HRC 55 or less in the Rockwell hardness test is formed into a reinforcing member having a predetermined shape, and the reinforcing member is formed as shown in FIGS. 9, the shapes of the reinforcing members 30, 30A, and 30B match the shapes of the grooves 21, 21A, and 21B formed in the portions to be reinforced on the semifinished club head 20. The hardness of members 30 , 30 A, 30 B is higher than the hardness of semifinished club head 20 .

In the step of forming the reinforcing member, the high-hardness iron-based material used for the reinforcing member may be medium-carbon steel or high-carbon steel with a hardness standard in the range of HRC20 or more and HRC50 or less. For example, carbon steel materials such as US metal material symbols SAE 1045C, SAE 1050C, SAE 1055C, SAE 1060C, or other alloys with a carbon content of 0.3% to 0.6% within the range of hardness standards HRC20 or more and HRC50 or less Alloy steel materials containing elements can also be used. For example, American metal material symbol SAE 4130 chromium molybdenum (CrMo) alloy steel, SAE 4140 chromium molybdenum alloy steel, SAE 4340 chromium molybdenum alloy steel, or stainless steel with a hardness standard of HRC20 or more and HRC50 or less can be used. For example, martensitic stainless steel (SUS630) or maraging steel can be used.

In the step of welding and joining the club head half-finished product and the reinforcing member, as shown in FIGS. The semi-finished club head 20 is fitted into the groove 21, and the joining portion between the reinforcing member 30 and the peripheral wall of the groove 21 of the half-finished club head 20 is integrally joined by welding means. More specifically, the above-mentioned integral joining of the joining portion between the reinforcing member 30 and the peripheral wall of the recess 21 of the semi-finished club head 20 by welding means means that the back of the reinforcing member 30 is joined. The front surface and the outer peripheral side face and the part to be joined corresponding to the peripheral wall of the recess 21 of the club head half-finished product 20 are welded all over and fixed, and as a result, the reinforcing member 30 and the club head half-finished product 20 are bonded together. To avoid the formation of a gap in the joint portion and to ensure the joint stability of the joint portion between the reinforcing member 30 and the club head half-finished product 20 which are joined with dissimilar materials. It should be noted that the welding means described above can adjust the welding heating temperature according to the materials used for the reinforcing member 30 and the semi-finished club head 20 . In a preferred embodiment of the present invention, the welding heating temperature of the welding means is set in the temperature range of 1700.degree. C. to 2500.degree. Argon arc welding, plasma welding, laser welding, or the like can be used as the welding means.

In the step of welding and joining the semi-finished club head and the reinforcing member, the joining portion between the semi-finished club head and the peripheral wall of the recess of the semi-finished club head is integrally joined by welding means, and then the reinforcing member. and the semi-finished club head are sandblasted to remove the oxides produced by the high temperature generated during welding, A surface polish is applied to remove excess slag created during welding.

In the step of forming the finished club head by Co-Forging described above, the reinforcing member and the semi-finished club head welded together are placed together in a forging die and heated to 700°C to 1100°C. and at least one forging operation, so that the reinforcing member and the semi-finished club head, which are together in the forging die, are co-forged at high temperature and high pressure to form a eutectic bond. to form a finished iron head having a predetermined shape. After the semi-finished club head and the reinforcing member are forged, the two different metal materials are eutectically fused and integrated to tightly bond the metal structure, so the finished head , there is no surface scratches or welding marks due to welding, and the appearance is a unity.

In the process of forming the finished iron head by co-forging, the number of times of forging can be set according to the processing requirements and the material performance requirements of the semi-finished club head to which the reinforcing member is welded. Theoretically, the more times the forging process is performed, the closer the eutectic bond between the metal material of the club head half-finished product and the metal material of the reinforcing member, which are welded together, and the metal microstructure of both metal materials. becomes more dense.

After the process of forming the finished club head by co-forging, the hitting surface of the club head is subjected to grooving and contouring according to the required club head product requirements, followed by polishing, cleaning, painting or plating. After surface processing, the final product of the club head is completed. The above-described grooving and surface processing such as polishing, cleaning, painting, and plating are existing processing techniques, and thus descriptions thereof are omitted here.

As can be seen from the above description, the method for manufacturing a soft-iron forged golf club head of the present invention replaces a portion of the forged soft-iron club head to be reinforced, which is likely to be damaged, with a reinforcing member made of a high-hardness material. By welding and fixing the entire circumference of the joint between the product and the reinforcing member, the metal parts with different material components become an integral metal structure without any gaps. , which are positively eutectic bonded into a fully unitary metal structure so that the final forged finished head appearance exhibits perfect unity. On the other hand, most of the main part of the finished head is made of the original low-hardness iron-based material. The soft hitting feel, excellent controllability, and good hitting sound can be maintained as they are.

According to the manufacturing method of the present invention, by installing a reinforcing member made of a high-hardness material in the portion of the soft-iron forged golf iron head to be reinforced, which is often damaged, permanent damage to the appearance due to impact during transportation can be reduced. In addition, since the parts to be reinforced in the club head have a high degree of hardness, wear and deformation due to impact with a ball can be suppressed. Compared to the club head that has been developed, the service life is extended, and in addition, since the wear resistance of the hitting surface and sole can be improved, the face line and the designed sole bounce angle can be maintained for a long time. It is possible to maintain and ensure the accuracy of hitting balls.

10 bar 20 club head half-finished product 200 club head preform 21, 21A, 21B recessed tank 30, 30A, 30B reinforcing member

Claims (3)

A method for manufacturing a soft iron forged golf club head, comprising the steps of forming a semi-finished club head, forming a reinforcing member, welding and joining the semi-finished club head and the reinforcing member, and co-forging the club head. and molding the finished product;
In the step of molding the semi-finished club head, a low-hardness iron-based material having a hardness standard of HRB 50 or more and HRB 105 or less in the Rockwell hardness test is formed into a semi-finished club head having a predetermined shape, and further formed into a predetermined shape. forming a recessed groove in a portion to be reinforced on the semi-finished product of the formed club head;
In the step of forming the reinforcing member, a high-hardness iron-based material having a hardness standard of HRC 15 or more and HRC 55 or less in the Rockwell hardness test is formed into a reinforcing member having a predetermined shape, and the shape of the reinforcing member is the same as that of the club. Matches the shape of the groove formed in the portion to be reinforced on the head half-finished product,
In the step of welding and joining the semi-finished club head and the reinforcing member, the reinforcing member is fitted into the corresponding recess on the semi-finished club head, and the peripheral wall of the recess is formed between the semi-finished club head and the semi-finished club head. The joint part between is integrally joined by welding means as a whole,
In the step of forming the finished club head product by co-forging, the reinforcing member and the semi-finished club head welded together are placed together in a forging die, heated at a temperature in the range of 700° C. to 1100° C., and at least A soft iron forging characterized in that a single forging process is performed, and as a result, the reinforcing member and the semi-finished club head are eutectic bonded by hot forging and formed into a finished iron head having a predetermined shape. golf club head manufacturing method. In the step of welding and joining the semi-finished club head and the reinforcing member, the welding heating temperature of the welding means is in the temperature range of 1700° C. to 2500° C., and the reinforcing member and the peripheral wall of the recess of the semi-finished club head are welded together. After the connecting parts between them are integrally joined by welding means, the welding parts between the reinforcing member and the semi-finished club head are sandblasted to remove oxides produced by the high temperature generated during welding, 2. The soft iron forging according to claim 1, wherein the welded portion between the welded reinforcing member and the semi-finished club head is surface-polished to remove excess slag generated during welding. A golf club head manufacturing method. The portion to be reinforced on the semi-finished club head partially or entirely occupies at least one of the blade portion, back portion, hitting surface portion, and sole portion of the club head, and the depth of the recess is 0.2 mm. 3. The method of manufacturing a soft iron forged golf club head according to claim 1, wherein the thickness is controlled within a range of up to 5.0 mm.

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