M317873 八、新型說明: 【新型所屬之技術領域】 本創作係一種異種金屬之高爾夫球桿頭接合結構,尤 其是關於一種提升結合強度及使用現有銲料完成接合作業 之異種金屬之高爾夫球桿頭接合結構。 【先前技術】 習用高爾夫球桿頭構造係大都藉由嵌設配合或不同之 _ 銲接方式結合一擊球面板,然而上述結合方式具有許多缺 點,係例如後設配合容易造成擊球面板變形,若銲接異種 材質之桿頭本體與擊球面板則會產生銲接相容性不足因而 導致強度不足之問題,而且若使用習知係為較銲件之溶點 高之銲接技術’更有無法維持其原有於接合前之加工精 度,且此高爾夫球桿頭之本體及擊球面板之接合表面係不 易平整與光潔’又’本體及擊球面板之組織性質也易受影 ,響,進而造成應力集中及變形量大,故無法維持接合前之 結構加工精度,再者,此高爾夫球桿頭之本體及擊球面板 之接合表面未能良好光潔,故因而須在後續加工整形,藉 以完成高爾夫球桿頭之成形,除此,銲接異種材質之桿頭 本體與擊球面板’則還需運用同時能為接合本體與擊球面 板材質之銲料,因而銲料往往需費時尋找或開發新銲料, 以符接合作業之所需,如此將使得銲接製程於高爾夫球桿 頭之接合作業受限,更因銲料的影響而增加許多成本。 為了克服習知上述1¾爾夫球桿頭之擊球面板結合構造 M317873 的缺失A剛技術係還發展出直接在常溫下,利用高強度 然而’由於受限於高強度樹月旨膠黏 。強度的上限’故桿頭本體與擊球面板運帛膠黏結合方 式,雖月b加速接合製程,但卻無法提供桿頭本體與擊球面 板結合時,具有足夠的結合強度以供支承擊球之應力,由 此可見上述先前技術的高爾夫球桿頭之接合技術,係仍有 著諸多接合成形之缺失,可謂是亟需改善之課題。 【新型内容】 一鑑於上述習知技術之問題,本創作係一種異種金屬之 高爾夫球桿頭接合結構’勒改善高_夫球桿頭之結合強 度不佳之缺失’同時也改善銲料無法符合接合工件材質而 耗費許多成本之缺失。為達上述目的,本創作提供一種異 種金屬之高_夫球桿頭接合結構,係包含分別為異種金屬 衬質之至少二組件'至少一金屬披覆層及一銲料層,上述 、组件還分別具有-接合部,而金屬披覆層係塗覆於上述二 組件或二組件之其-,而銲料層係置人於前述組件之接人 部間,麟接銲料層以接合前述組件,組構為高爾夫球桿 頭。 本創作係-種異種金屬之高爾夫球桿頭接合結構,係 具備下述優點優於f知作法,並具有如下所叙顯著功效 增進。 错由本創作異種金屬之高爾夫球桿頭接合結構之實施 運用,其係能不需費時尋找銲料或開發新銲料,便能符合 M317873 異質金屬之古 、 ’爾夫球桿頭接合作業,如此將能不受銲料影 響接合作業,= 日 ,、而把降低許多成本及時間,除此,更還能有 放提升N爾夫球桿頭之整體接合強度,以具有足夠的強度 供支承擊球之應力。 ”為使街本創作的目的、構造特徵及其功能有進一步的 了解兹配合相關實施例及圖式詳細說明如下: 【實施方式】 、明苓閱第1圖及第2A圖,本創作係一種異種金屬之高 爾夫球杯頭接合結構,此高爾夫球桿頭接合結構l〇a第一 實施例係包含,至少二組件11,12、至少一金屬披覆層20 及一銲料層30,此些組件丨丨,^係分別為異種金屬材質, 且分別具有一接合部11M21,在本實施例中,此些組件 11 ’ 12係分別為本體或擊球面板,且此二組件11,12之其 ,在本貫施例係為組件11 (即是本體)之接合部111, 係還往内部延伸一擋止部lm,並與組件u之接合部工Η 形成階梯狀,而上述金屬披覆層20係塗覆於此些組件 11’12,即是,係將金屬披覆層20塗覆於組件η,a之表 面(在本實施例組件11,12係分別為本體及擊球面板),再 者,前述銲料層30係置入於上述組件η,12之此些接合部 1Π,121間,並加熱以熔接銲料層3〇以接合此些組件 1:1,12,組構為高爾夫球桿頭,此處之銲料層3〇係為固體 的症干片、鲜條或半液狀之€干賞加熱溶融而成,且銲料; 材質為銀基合金、鎳基合金、銅基合金、鈷基合金、金基 M317873 合金或欽基合金。 又,上述組件11,12係分別為,例如組件11係為本體, 其材質係為鈦基合金或鐵基合金,而組件12係為擊球面 板,其材質係為鈦基合金、鐵基合金、鎢基合金或銅基合 金,而前述金屬披覆層20係選用自鍊基合金、絡基合金、 ' 金基合金、銀基合金、銅基合金、鈦基合金及凱基合金所 •組成之群組,且金屬披覆層20係運用物理蒸鍍被覆法、化 φ 學蒸鍍被覆法、電鍍被覆法、無電鍍被覆法、熱喷塗被覆 法塗覆於組件11,12,其塗覆厚度係為0· 5/zm〜500 //m。 請參閱第2B圖,此異種金屬之高爾夫球桿頭接合結構 10b第二實施例,除承襲上述結構外,係將金屬披覆層20 塗覆於組件11,12之其一,在本第二實施例係塗覆於組件 11,組件11係為本體,並同樣將前述銲料層30置入於上 述組件11,12之此些接合部111,121間,並加熱以熔接銲 料層30以接合此些組件11,12,組構為高爾夫球桿頭,當 B 然此異種金屬之高爾夫球桿頭接合結構10c,係也能將上 述金屬披覆層20塗覆於組件11,置換成塗覆於為擊球面 板之組件12,如第2C圖所示,並同樣組構為高爾夫球桿 頭。 另外,請參閱第3圖,此異種金屬之高爾夫球桿頭接 合結構10d第三實施例,係將上述實施例中,組件11,12 係分別置換成本體或球頭頂蓋,同樣,本體之材質係為鈦 基合金或鐵基合金,而球頭頂蓋其材質係為鈦基合金、鐵 M317873 基合金鎢基合金或銅基合金,藉以組構成高爾夫球桿頭, 又或是置換成本體或配重塊,請參閱第4圖,本體之材質 係為鈦基合金或鐵基合金,而配重塊材質係為鈦基合金、 鐵基合金、鎢基合金或銅基合金,而為異種金屬之高爾夫 球桿頭接合結構l〇e第四實施例。 雖然本創作以較佳實施例揭露於上,然其並非用以限 定本創作,任何熟習此項技藝者,在不脫離本創作之精神 和範圍内,當可做些許之更動與潤飾,因此本創作之保護 範圍當視後附之申請範圍所界定者為準。 【圖式簡單說明】 第1圖係具有異質金屬組件之高爾夫球桿頭之接合完成示 意圖, 第2A圖係本創作具有異質金屬組件之高爾夫球桿頭之接 合結構第一實施例示意圖; 第2B圖至第2C圖係本創作具有異質金屬組件之高爾夫球 桿頭之接合結構第二實施例示意圖; 第3圖係本創作具有異質金屬組件之高爾夫球桿頭之接合 結構第三實施例示意圖.;以及 第4圖係本創作具有異質金屬組件之高爾夫球桿頭之接合 結構第四實施例示意圖。 M317873 【主要元件符號說明】 10a,10b,10c,10d,10e高爾夫球桿頭接合結構 11, 12 組件 111, 121 接合部 1111 擋止部 ' 20 金屬披覆層 30 • 銲料層 10M317873 VIII. New Description: [New Technology Field] This is a different type of golf club head joint structure, especially for a golf club head joint that promotes joint strength and dissimilar metal using existing solder. structure. [Prior Art] Conventional golf club head structures are mostly combined with a ball striking panel by means of inlay fitting or different welding methods. However, the above bonding method has many disadvantages, for example, the rear fitting is easy to cause deformation of the ball striking panel. Welding the head body of the dissimilar material and the ball striking panel may cause insufficient welding compatibility, resulting in insufficient strength, and if the welding technique is used, it is more difficult to maintain the welding technology of the weldment. There is processing precision before joining, and the joint surface of the body and the hitting panel of the golf club head is not easy to be flat and smooth. The structure of the body and the hitting panel is also susceptible to shadowing and ringing, thereby causing stress concentration. And the deformation amount is large, so the structural processing precision before joining can not be maintained. Moreover, the joint surface of the golf club head and the hitting panel is not well polished, so it is necessary to be processed in the subsequent processing to complete the golf club. In the formation of the head, in addition, the welding of the head body and the hitting panel of the different materials is also required to simultaneously engage the body and hit the ball. The solder material sheet, and thus the solder is often used to take to find or develop new solder, the bonding work required to conform, so that the welding process in the golf club head engages the job restricted, but due to the influence of the solder increases the cost of many. In order to overcome the above-mentioned 13⁄4 Wolff club head hitting panel joint structure M317873's missing A-rigid technology system has also developed directly at normal temperature, utilizing high strength however 'because of the high-strength tree-shaped adhesive. The upper limit of the strength' is the adhesive combination of the head body and the hitting panel. Although the monthly b accelerates the joining process, it does not provide sufficient joint strength for supporting the shot when the head body is combined with the hitting panel. The stress, which can be seen from the prior art golf club head joining technique, is still lacking in many joint forming, which is an urgent problem to be improved. [New content] In view of the above-mentioned problems of the prior art, the present invention is a dissimilar metal golf club head joint structure that improves the lack of bonding strength of the high-ball club head, and also improves the solder's inability to conform to the joint workpiece. Material costs a lot of cost. In order to achieve the above object, the present invention provides a high-foam club head joint structure of dissimilar metals, which comprises at least two components of at least one metal cladding layer and a solder layer, respectively. Having a joint portion, and a metal coating layer is applied to the two or two components, and the solder layer is placed between the joint portions of the aforementioned components, and the solder layer is joined to join the aforementioned components, and the structure For the golf club head. This creative system is a golf club head joint structure of a dissimilar metal, which has the following advantages over the known method, and has the following remarkable effects. The implementation of the golf club head joint structure of this kind of dissimilar metal can not meet the time-consuming search for solder or develop new solder, and can conform to the M317873 heterogeneous metal and the 'Elf club head joint work, so it will be able to It is not affected by the soldering work, = day, but it will reduce many costs and time. In addition, it can also improve the overall joint strength of the NLF club head to have sufficient strength to support the stress of the ball. . In order to further understand the purpose, structural features and functions of the street creation, the relevant embodiments and drawings are described in detail as follows: [Embodiment], and the first and second pictures are shown in the Ming Dynasty. A golf metal head joint structure of a dissimilar metal, the first embodiment of the golf club head joint structure 10a includes at least two components 11, 12, at least one metal cladding layer 20 and a solder layer 30, such components丨丨, ^ are respectively made of dissimilar metal materials, and each has a joint portion 11M21, in the embodiment, the components 11 '12 are respectively a body or a hitting panel, and the two components 11, 12 In the present embodiment, the joint portion 111 of the assembly 11 (i.e., the main body) further extends a stopper portion lm to the inside, and forms a stepped shape with the joint portion of the assembly u, and the metal coating layer 20 is formed. Applying the components 11'12, that is, applying the metal coating layer 20 to the surface of the component η, a (in the embodiment, the components 11, 12 are the body and the batting panel respectively), and then The solder layer 30 is placed in the above components η, 12 Between the joints 1 and 121, and heated to weld the solder layer 3 〇 to join the components 1:1, 12, the structure is a golf club head, where the solder layer 3 is a solid dry film, Fresh or semi-liquid, heated and melted, and solder; material is silver-based alloy, nickel-based alloy, copper-based alloy, cobalt-based alloy, gold-based M317873 alloy or Chinky alloy. The 12 series are respectively, for example, the component 11 is a body, the material is a titanium-based alloy or an iron-based alloy, and the component 12 is a ball striking panel, and the material thereof is a titanium-based alloy, an iron-based alloy, a tungsten-based alloy or a copper-based alloy, and the metal cladding layer 20 is selected from the group consisting of a chain-based alloy, a base alloy, a 'gold-based alloy, a silver-based alloy, a copper-based alloy, a titanium-based alloy, and a Kelki alloy. The metal coating layer 20 is applied to the modules 11, 12 by a physical vapor deposition coating method, a chemical vapor deposition coating method, an electroplating coating method, an electroless plating coating method, or a thermal spray coating method, and the coating thickness is 0. · 5/zm~500 //m. Please refer to Figure 2B, this dissimilar metal golf club The second embodiment of the joint structure 10b, in addition to the above structure, applies the metal cladding layer 20 to one of the components 11, 12, which is applied to the assembly 11 in the second embodiment, and the component 11 is the body And the solder layer 30 is also placed between the joints 111, 121 of the above components 11, 12, and heated to weld the solder layer 30 to join the components 11, 12, which are configured as golf club heads. When the golf metal head joint structure 10c of the dissimilar metal is used, the metal coating layer 20 can also be applied to the assembly 11 and replaced by the component 12 for the hitting panel, as shown in FIG. 2C. And the same is configured as a golf club head. In addition, referring to Fig. 3, the third embodiment of the dissimilar metal golf club head joint structure 10d replaces the components 11, 12 in the above embodiment. The body or the ball top cover, likewise, the material of the body is a titanium-based alloy or an iron-based alloy, and the ball-top cover is made of a titanium-based alloy, an iron M317873-based alloy tungsten-based alloy or a copper-based alloy, thereby forming a golf ball. Head, or replacement cost body or For the weights, please refer to Figure 4, the material of the body is titanium-based alloy or iron-based alloy, and the weight of the weight is titanium-based alloy, iron-based alloy, tungsten-based alloy or copper-based alloy, and is a dissimilar metal. The golf club head engaging structure l〇e fourth embodiment. Although the present invention is disclosed in the preferred embodiments, it is not intended to limit the present invention, and anyone skilled in the art can make some changes and refinements without departing from the spirit and scope of the present invention. The scope of protection of the creation is subject to the definition of the scope of application attached. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing the joining of a golf club head having a heterogeneous metal component, and FIG. 2A is a schematic view showing a first embodiment of a joint structure of a golf club head having a heterogeneous metal component; Figure 2 to Figure 2C is a schematic view of a second embodiment of a joint structure of a golf club head having a heterogeneous metal component; Figure 3 is a schematic view of a third embodiment of a joint structure of a golf club head having a heterogeneous metal component. And FIG. 4 is a schematic view showing a fourth embodiment of the joint structure of the golf club head having the heterogeneous metal component. M317873 [Main component symbol description] 10a, 10b, 10c, 10d, 10e golf club head joint structure 11, 12 components 111, 121 joint portion 1111 stopper portion 20 metal cladding layer 30 • solder layer 10