CN1733388A - Method for manufacturing golf club head - Google Patents
Method for manufacturing golf club head Download PDFInfo
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- CN1733388A CN1733388A CNA2004100583444A CN200410058344A CN1733388A CN 1733388 A CN1733388 A CN 1733388A CN A2004100583444 A CNA2004100583444 A CN A2004100583444A CN 200410058344 A CN200410058344 A CN 200410058344A CN 1733388 A CN1733388 A CN 1733388A
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- glof club
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Abstract
The manufacturing method for golf cue head comprises the steps, forming body wax mould with first combination part and fitting wax mould with second combination part, embedding the moulds that combines the two marts and form space between two combination parts, sticking to form wax mould for cue head, dipping the mould into plasm to form sand mould that adds strong-flow solvent with volatility in space to make two combination parts yoke with each other, heating to dewax, and casting with sand mould to obtain casting for cue head. This invention has the advantage that decreases require for wax mould precision and casting surface finish, improves combination performance and surface flatness.
Description
Technical field
The invention belongs to the manufacture method of the manufacture method of golf device component, particularly a kind of glof club head.
Background technology
As Fig. 1, Fig. 4, shown in Figure 6, No. 514574, is called ' manufacture method of golf iron head ' and comprises the following step:
Step 1
Difference contoured body wax-pattern 10 ' and panel wax-pattern 20 ';
As shown in Figure 1, in first mould and second mould, inject wax liquid respectively, form body wax-pattern 10 ' and panel wax-pattern 20 ' respectively after making its die sinking;
Step 2
Cohere body wax-pattern 10 ' and panel wax-pattern 20 ';
As shown in Figure 1, body wax-pattern 10 ' and panel wax-pattern 20 ' are cohered operation, with will be independently body wax-pattern 10 ' and panel wax-pattern 20 ' cohere and be integral;
Step 3
Make arenaceous shell mould 30 '
As shown in Figure 4, cohering all-in-one-piece body wax-pattern 10 ' and 20 ' the surperficial soaking paste of panel wax-pattern, make it form arenaceous shell mould 30 ', subsequently body wax-pattern 10 ' and panel wax-pattern 20 ' hot melt are poured out, and in arenaceous shell mould 30 ', form the protuberance that corresponding back of the body cave forms, and form casting gate in arenaceous shell mould 30 ' one side;
Step 4
Casting iron club 40 ';
As shown in Figure 6, the molten metal injection arenaceous shell mould 30 ' with hot melt after molten metal solidifies by the time, breaks up arenaceous shell mould 30 ', to take out integrated bar head 40 '.
Above-mentioned manufacture method can be in order to make integrated bar head 40 ', and directly form back of the body cave 41 ' at the bar head 40 ' back side, particularly help deep hole moulding (undercut) is made in back of the body cave 41 ', with the batting performance of lifting arm head 40 ' or meet the product-forming demand.However, said method still produces following manufacture method problem.For example, when cohering operation, body wax-pattern 10 ' and panel wax-pattern 20 ' utilize wax liquid to fill out usually and are overlying on the intersection surface.
Yet, as Fig. 2, Fig. 5, shown in Figure 7, when calking is uncertain, to produce gap a between body wax-pattern 10 ' and the panel wax-pattern 20 ', will cause slurries to infiltrate in a of gap during soaking paste, the result is after dewaxing, cause to obtain and form burr b in the arenaceous shell mould 30 ', and after casting, burr b will cause bar head 40 ' to form gap c, reduce casting finished product yield.
On the other hand, as shown in Figure 3, body wax-pattern 10 ' and panel wax-pattern 20 ' cohere in the step can further use filler a ', tamps the gap a of intersection as wax liquid, resin, silica gel or PUR.Yet, because filler a ' has higher viscosity usually, for example wax viscosity in the time of 100 ℃ reaches more than the 100cps, so filler a ' not only is difficult for capillary and inserts in a of gap, and when contact body wax-pattern 10 ' and panel wax-pattern 20 ' very easily cooling curing and the viscid a surface, gap that residues in.As a result, filler a ' causes the intersection surface to form irregular projection though can tamp gap a on the contrary, and then causes the follow-up bar head foundry goods 40 ' that makes must carry out processing than the surface grinding of very complicated.Particularly, when if irregular projection is formed in the back of the body cave 41 ' of bar head 40 ' foundry goods intersection, because machining tool is difficult to enter back of the body cave 41 ', therefore, surface grinding processing in the back of the body cave 41 ' will become very difficult, so that significantly increase processing cost and prolong manufacturing time.Therefore, be necessary the manufacture method of the glof club head that further improvement is commonly used.
Summary of the invention
The purpose of this invention is to provide a kind ofly reduce the wax-pattern accuracy requirement, reduce the cast(ing) surface process requirements, improve wax-pattern in conjunction with quality, improve the cast(ing) surface flatness, improve the manufacture method of the glof club head of follow-up casting yield.
The present invention comprises moulding respectively to have the body wax-pattern of first joint portion and has the accessory wax-pattern step of second joint portion, chimeric body wax-pattern and accessory wax-pattern step, coheres and form bar head wax-pattern step, the soaking paste of bar head wax-pattern formed the arenaceous shell mould and to arenaceous shell mould heating dewaxing step and utilize the arenaceous shell mould to cast to make bar head foundry goods step; Chimeric body wax-pattern and accessory wax-pattern step be for combining with first joint portion of body wax-pattern with second joint portion of accessory wax-pattern, and make and form the gap between first and second joint portion; Cohere formation bar head wax-pattern step and insert in the gap, so that the own wax material of body wax-pattern and the utilization of accessory wax-pattern is incorporated into bar head wax-pattern for having volatile high fluidity solvent.
Wherein:
The high fluidity solvent is the volatile organic solvent that viscosity is lower than 5cps.
The volatile organic solvent that viscosity is lower than 5cps is aromatic hydrocarbon solvent, aliphatic hydrocarbon solvent, cycloalkane solvent, toluene, dimethylbenzene, acetone, benzinum, pentane, n-hexane, N-Propyl Bromide, banana oil and composition thereof.
The accessory wax-pattern that combines with the body wax-pattern is the panel wax-pattern.
The body wax-pattern forms the back of the body cave of running through its front and the back side.
The back of the body cave of body wax-pattern can form the deep hole moulding.
Positive first joint portion that forms, back of the body cave; The panel wax-pattern has second joint portion that is positioned at back side antelabium and combines with first joint portion, and the second joint portion periphery is corresponding and be slightly smaller than interior week of first joint portion, so that form for the gap of injecting the high fluidity solvent between first and second joint portion.
The accessory wax-pattern that combines with the body wax-pattern is the sealing wax-pattern.
Body wax-pattern Lower Half forms open-work; The part inwall of open-work forms first joint portion; Sealing forms second joint portion that combines with first joint portion with the wax-pattern outer peripheral face; The second joint portion periphery is corresponding and be slightly smaller than week in first joint portion, so that form for the gap of injecting the high fluidity solvent between first and second joint portion.
Sealing then forms opening room up via the bar head that dewaxes and casting makes in Lower Half with the under shed of wax-pattern sealing open-work.
Sealing then forms downward opening room via the bar head that dewaxes and casting makes in Lower Half with the upper shed of wax-pattern sealing open-work.
Have the body wax-pattern of first joint portion and have the accessory wax-pattern step of second joint portion, chimeric body wax-pattern and accessory wax-pattern step, cohere and form bar head wax-pattern step, the soaking paste of bar head wax-pattern formed the arenaceous shell mould and to arenaceous shell mould heating dewaxing step and utilize the arenaceous shell mould to cast to make bar head foundry goods step because the present invention comprises moulding respectively; Chimeric body wax-pattern and accessory wax-pattern step be for combining with first joint portion of body wax-pattern with second joint portion of accessory wax-pattern, and make and form the gap between first and second joint portion; Cohere formation bar head wax-pattern step and insert in the gap, so that the own wax material of body wax-pattern and the utilization of accessory wax-pattern is incorporated into bar head wax-pattern for having volatile high fluidity solvent.The high fluidity solvent will slightly dissolve the gap inwall, so that the high fluidity solvent mixes with the wax material, so that it is increased to viscosity more than the 100cps under 25 ℃ of room temperatures, and produces capillarity gradually between the gap, make the wax material with the high fluidity solvent fill up the gap.Simultaneously because the high fluidity solvent can volatilize voluntarily, therefore, the wax material that body wax-pattern and accessory wax-pattern in fact only need utilizations itself can form integrated structure, for tamping the gap, guarantees the flatness on intersection surface.Moreover; utilize the high fluidity solvent to carry out combination; allow to exist between body wax-pattern and the accessory wax-pattern bigger gap; so also can reduce precision demand relatively to body wax-pattern and panel wax-pattern; when filling in the high fluidity solvent,, can volatilize rapidly during owing to high fluidity solvent ingress of air though the high fluidity solvent may unexpectedly stain body wax-pattern or accessory wax-pattern surface; therefore, can't dissolve body wax-pattern or accessory wax-pattern surface wax material or cause the defective on bar head wax-pattern surface.To be the present invention by first and second joint portion of body wax-pattern and accessory wax-pattern chimeric mutually and form the gap, and utilize the high fluidity solvent to inject first and second joint portion to form gap with in conjunction with first and second joint portion, it helps the sealed inside gap really, and forms smooth interface surface.Not only reduce the wax-pattern accuracy requirement, reduce the cast(ing) surface process requirements, and improve wax-pattern, thereby reach purpose of the present invention in conjunction with quality, raising cast(ing) surface flatness, the follow-up casting yield of raising.
Description of drawings
Fig. 1, cohere structure step schematic diagram for the manufacture method wax-pattern of the glof club head commonly used.
Fig. 2, be A portion partial enlarged drawing one among Fig. 1.
Fig. 3, be A portion partial enlarged drawing two among Fig. 1
Fig. 4, make arenaceous shell mould step schematic diagram for the manufacture method of the glof club head commonly used.
Fig. 5, be B portion partial enlarged drawing among Fig. 4.
Fig. 6, make iron club step schematic diagram for the manufacture method of the glof club head commonly used.
Fig. 7, be C portion partial enlarged drawing among Fig. 6.
Fig. 8, for process block diagram of the present invention.
Fig. 9, be the embodiment of the invention one step 1 schematic diagram.
Figure 10, be the embodiment of the invention one step 2 schematic diagram.
Figure 11, be D portion partial enlarged drawing among Figure 10.
Figure 12, be the embodiment of the invention one step 3 schematic diagram one.
Figure 13, be the embodiment of the invention one step 3 schematic diagram two.
Figure 14, be the embodiment of the invention one step 4 schematic diagram one.
Figure 15, be the embodiment of the invention one step 4 schematic diagram two.
Figure 16, be the embodiment of the invention one step 5 schematic diagram.
Figure 17, be body wax-pattern structural representation stereogram in the embodiment of the invention two step 1.
Figure 18, be the bar head casting structure schematic isometric that the embodiment of the invention two is made.
The specific embodiment
Embodiment one
As shown in Figure 8, the present invention comprises the following step:
Step 1
Difference contoured body wax-pattern 10 and accessory wax-pattern;
As Fig. 8, shown in Figure 9, utilize suitable mould to inject wax liquid, to form body wax-pattern 10 and the accessory wax-pattern that constitutes glof club head respectively; Body wax-pattern 10 has the back of the body cave 11 of running through its front and the back side and is positioned at the 11 positive first stepped joint portions 12, back of the body cave; The accessory wax-pattern is a panel wax-pattern 20, its have 22, the second joint portions, second joint portion, 22 peripheries that are positioned at back side antelabium corresponding to and be slightly smaller than interior week of first joint portion 12.
Step 2
Chimeric body wax-pattern 10 and accessory wax-pattern;
As Fig. 8, Figure 10, shown in Figure 11, second joint portion 22 of thinking panel wax-pattern 20 combines with first joint portion 12 of body wax-pattern 10, and make between first and second joint portion 12,22 and to form outer gap a1 and internal clearance a2, to incite somebody to action independently body wax-pattern 10 and panel wax-pattern 20 preliminary chimeric being integral, begin to take shape the glof club head profile, and back of the body cave can form deep hole moulding (undercut).At this moment, body wax-pattern 10 may form outer gap a1 and internal clearance a2 respectively at the front and the back side of intersection with panel wax-pattern 20.
Step 3
Cohere and form bar head wax-pattern 100;
As Fig. 8, Figure 12, shown in Figure 13, to have volatile high fluidity solvent 50 and insert between body wax-pattern 10 and the panel wax-pattern 20 and to form in outer gap a1 and the internal clearance a2, so that body wax-pattern 10 and the wax material of panel wax-pattern 20 utilizations own are incorporated into bar head wax-pattern 100.High fluidity solvent 50 can be selected to insert internal clearance a2 in the back of the body cave 11 by body wax-pattern 10, also can directly insert outer gap a1 by the front of body wax-pattern 10.High fluidity solvent 50 can be selected from the volatile organic solvent that viscosity is lower than 5cps, for example aromatic hydrocarbon solvent, aliphatic hydrocarbon solvent and cycloalkane solvent, its preferable toluene, dimethylbenzene, acetone, benzinum, pentane, n-hexane, N-Propyl Bromide, banana oil and composition thereof of being selected from.
As shown in figure 12, body wax-pattern 10 and panel wax-pattern 20 are chimeric mutually in step 2, but infiltrate easily by the low viscosities of high fluidity solvent 50 itself in the outer gap a 1 and internal clearance a2 between body wax-pattern 10 and the panel wax-pattern 20.Then as shown in figure 13, after leaving standstill a period of time, high fluidity solvent 50 will slightly dissolve the inwall of outer gap a1 and internal clearance a2, so that high fluidity solvent 50 mixes with the wax material, so that it is increased to viscosity more than the 100cps under 25 ℃ of room temperatures, and externally produce capillarity gradually between gap a1 and internal clearance a2, make the wax material that mixes with high fluidity solvent 50 fill up outer gap a1 and internal clearance a2.Simultaneously because high fluidity solvent 50 volatilization voluntarily, therefore, body wax-pattern 10 and panel wax-pattern 20 in fact only need utilization itself the wax material can form integrated structure 51, for tamping outer gap a1 and internal clearance a2, so, can form bar head wax-pattern 100, and guarantee the flatness on intersection surface.Moreover, utilize high fluidity solvent 50 to carry out combination, allow to have bigger outer gap a1 and internal clearance a2 between body wax-pattern 10 and the panel wax-pattern 20, its spacing maximum can reach 0.3mm, so also can reduce the precision demand to body wax-pattern 10 and panel wax-pattern 20 relatively.
In addition, when filling in high fluidity solvent 50, though high fluidity solvent 50 may unexpectedly stain body wax-pattern 10 or panel wax-pattern 20 surfaces, but can volatilize rapidly during owing to high fluidity solvent 50 ingresss of air, therefore, can't dissolve body wax-pattern 10 or panel wax-pattern 20 surface wax materials or cause the defective on bar head wax-pattern 100 surfaces.
Step 4
Make arenaceous shell mould 30
As Fig. 8, Figure 14, shown in Figure 15,100 soaking paste of bar head wax-pattern are formed arenaceous shell mould 30, then arenaceous shell mould 30 is heated dewaxing.
Bar head wax-pattern 100 can and be stained with the sand technology via general known zirconium slurry emerging, to form arenaceous shell mould (ceramic shell) 30.Arenaceous shell mould 30 forms die cavity 31 and sprue gate (figure does not show).After the dry really sclerosis of arenaceous shell mould 30, arenaceous shell mould 30 is heated dewaxing, to remove the bar head wax-pattern 100 in the die cavity 31.
Because the high fluidity solvent 50 tool volatility that the present invention selects for use so evaporated in the atmosphere by bar head wax-pattern 100 in advance, therefore, after the heating dewaxing, do not have any residual adhesive agent, so the operating difficulties degree of unlikely increase glue wax processing procedure in the die cavity 31.
Step 5
As Fig. 8, shown in Figure 16, utilize arenaceous shell mould 30 to cast, to cast the foundry goods of bar head 40.
After arenaceous shell mould 30 dewaxing backs form hollow die cavity 31, then the molten iron of fusion is injected the die cavity 31 of arenaceous shell mould 30, after molten iron solidifies, arenaceous shell mould 30 is smashed, so, the promptly integrally formed foundry goods that makes bar head 40.
Embodiment two
As shown in Figure 8, the present invention comprises the following step:
Step 1
Difference contoured body wax-pattern 10a and accessory wax-pattern;
As Fig. 8, Figure 17, shown in Figure 180, utilize suitable mould to inject wax liquid, to form body wax-pattern 10a and the accessory wax-pattern that constitutes glof club head respectively; Body wax-pattern 10a has the back of the body cave 11a that runs through its front and the back side and is positioned at the open-work 13 of back of the body cave 11a Lower Half.The part inwall of open-work 13 forms first joint portion 14.The accessory wax-pattern for sealing with wax-pattern 60, its outer peripheral face form corresponding to and be slightly smaller than second joint portions 61 in week in first joint portion 14.
Step 2
Chimeric body wax-pattern 10 and accessory wax-pattern;
As Fig. 8, shown in Figure 17,, and between first and second joint portion 14,61, form the gap for the accessory wax-pattern that seals with wax-pattern 60 is embedded in first joint portion 14 of body wax-pattern 10a open-work 13 with its second joint portion 61.
Step 3
Cohere and form bar head wax-pattern;
As shown in Figure 8, to have volatile high fluidity solvent inserts in body wax-pattern 10a and the gap of sealing with formation between the wax-pattern 60, after leaving standstill a period of time, the high fluidity solvent will slightly dissolve the inwall in gap, so that the high fluidity solvent mixes with the wax material, so that it is increased to viscosity more than the 100cps under 25 ℃ of room temperatures, and produces capillarity gradually between the gap, make the wax material with the high fluidity solvent fill up the gap.Can volatilize voluntarily owing to the high fluidity solvent simultaneously, therefore, body wax-pattern 10a and sealing with wax-pattern 60 in fact only need utilization itself the wax material can form integrated structure, for tamping the gap, so that body wax-pattern 10a is incorporated into bar head wax-pattern with sealing with the wax material of wax-pattern 60 utilizations own, and guarantees the flatness on intersection surface.Moreover, utilize the high fluidity solvent to carry out combination, allow body wax-pattern and sealing with there being bigger gap between the wax-pattern, so also can reduce body wax-pattern 10a relatively and seal the precision demand of using wax-pattern 60.
Under shed or upper shed that sealing can suitably be sealed open-work 13 on demand with wax-pattern 60.For example, if the sealing under shed of wax-pattern in order to sealing open-work 13, then the bar head 40a foundry goods that makes via dewaxing and casting will be at the back of the body integrally formed opening of cave Lower Half room 44 up.If otherwise the sealing upper shed of wax-pattern 60 in order to sealing open-work 13, then bar head 40a foundry goods will form downward opening room.Anyway, room 44 all can be in order to ccontaining other xenogenesis material accessories, the earthquake absorption block of for example hyperbaric balancing weight or Highly-absorbing.
As mentioned above, with as shown in Figure 1 the manufacture method of commonly using glof club head exposed gap a and influence shortcoming such as follow-up casting finished product yield in back of the body cave easily when gluing body wax-pattern 10 ' and the panel wax-pattern 20 ', as shown in Figure 8, the present invention is first of panel wax-pattern 20 accessory wax-patterns by utilizing the high fluidity solvent to reach in conjunction with body wax-pattern 10 in the back of the body cave 11 of body wax-pattern 10, two joint portions, it helps sealed inside gap a2 really, and form smooth interface surface, therefore, really the cast(ing) surface flatness can gain, reduce bar head cast(ing) surface process requirements, simplify wax-pattern gluing processing procedure, reduce the wax-pattern accuracy requirement, and then increase bar head 40 casting yields.
Claims (11)
1, a kind of manufacture method of glof club head, it comprise moulding respectively have the body wax-pattern of first joint portion and have second joint portion accessory wax-pattern step, cohere and form bar head wax-pattern step, the soaking paste of bar head wax-pattern formed the arenaceous shell mould and to arenaceous shell mould heating dewaxing step and utilize the arenaceous shell mould to cast to make bar head foundry goods step; It is characterized in that the described formation bar head wax-pattern step of cohering has chimeric body wax-pattern and accessory wax-pattern step before; Chimeric body wax-pattern and accessory wax-pattern step be for combining with first joint portion of body wax-pattern with second joint portion of accessory wax-pattern, and make and form the gap between first and second joint portion; Cohere formation bar head wax-pattern step and insert in the gap, so that the own wax material of body wax-pattern and the utilization of accessory wax-pattern is incorporated into bar head wax-pattern for having volatile high fluidity solvent.
2, the manufacture method of glof club head according to claim 1 is characterized in that described high fluidity solvent is the volatile organic solvent that viscosity is lower than 5cps.
3, the manufacture method of glof club head according to claim 2 is characterized in that the volatile organic solvent that described viscosity is lower than 5cps is aromatic hydrocarbon solvent, aliphatic hydrocarbon solvent, cycloalkane solvent, toluene, dimethylbenzene, acetone, benzinum, pentane, n-hexane, N-Propyl Bromide, banana oil and composition thereof.
4, the manufacture method of glof club head according to claim 1 is characterized in that the described accessory wax-pattern that combines with the body wax-pattern is the panel wax-pattern.
5, the manufacture method of glof club head according to claim 4 is characterized in that described body wax-pattern forms the back of the body cave of running through its front and the back side.
6, the manufacture method of glof club head according to claim 5 is characterized in that the back of the body cave of described body wax-pattern can form the deep hole moulding.
7,, it is characterized in that positive first joint portion that forms, described back of the body cave according to the manufacture method of claim 4 or 5 described glof club heads; The panel wax-pattern has second joint portion that is positioned at back side antelabium and combines with first joint portion, and the second joint portion periphery is corresponding and be slightly smaller than interior week of first joint portion, so that form for the gap of injecting the high fluidity solvent between first and second joint portion.
8, the manufacture method of glof club head according to claim 1 is characterized in that the described accessory wax-pattern that combines with the body wax-pattern is the sealing wax-pattern.
9, the manufacture method of glof club head according to claim 8 is characterized in that described body wax-pattern Lower Half forms open-work; The part inwall of open-work forms first joint portion; Sealing forms second joint portion that combines with first joint portion with the wax-pattern outer peripheral face; The second joint portion periphery is corresponding and be slightly smaller than week in first joint portion, so that form for the gap of injecting the high fluidity solvent between first and second joint portion.
10, the manufacture method of glof club head according to claim 9 is characterized in that the under shed of described sealing with wax-pattern sealing open-work, and then the bar head that makes via dewaxing and casting forms opening room up in Lower Half.
11, the manufacture method of glof club head according to claim 9 is characterized in that the upper shed of described sealing with wax-pattern sealing open-work, and then the bar head that makes via dewaxing and casting forms downward opening room in Lower Half.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CNB2004100583444A CN100333856C (en) | 2004-08-10 | 2004-08-10 | Method for manufacturing golf club head |
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CNB2004100583444A CN100333856C (en) | 2004-08-10 | 2004-08-10 | Method for manufacturing golf club head |
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CN1733388A true CN1733388A (en) | 2006-02-15 |
CN100333856C CN100333856C (en) | 2007-08-29 |
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CNB2004100583444A Expired - Fee Related CN100333856C (en) | 2004-08-10 | 2004-08-10 | Method for manufacturing golf club head |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108176024A (en) * | 2018-03-19 | 2018-06-19 | 郭松 | A kind of hollow type four-piece type titanium matter forges Golf club iron head |
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Publication number | Priority date | Publication date | Assignee | Title |
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JPH08257176A (en) * | 1995-03-06 | 1996-10-08 | Seifu Cho | Manufacture of golf club head |
JP2003102881A (en) * | 2001-09-28 | 2003-04-08 | Mizuno Corp | Method for manufacturing iron type golf club head |
CN1221345C (en) * | 2002-04-30 | 2005-10-05 | 陈晴祺 | Method of manufacturing wax mould of golf club head casing |
CN1262370C (en) * | 2002-11-21 | 2006-07-05 | 明安国际企业股份有限公司 | Method for mfg of iron head of golf club |
JP2004202567A (en) * | 2002-12-26 | 2004-07-22 | Meian Kokusai Gigyo Kofun Yugenkoshi | Manufacturing method of golf club head |
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2004
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108176024A (en) * | 2018-03-19 | 2018-06-19 | 郭松 | A kind of hollow type four-piece type titanium matter forges Golf club iron head |
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