200808410 九、發明說明: 【發明所屬之技術領域】 本舍明係與-種成型製程有關,制是指賴於直排輪鞋座與輪 體樞接部位之賴加H俾則彡成該抵接碰軸承之部位/同時 可達到減少胚料與加工成本之浪費。 【先前技術】 -雙直排輪鞋麟身其主要魏是包覆和支撐腳部,其主要為鞋 身、鞋座及輪體等所構成;其中,該直排輪鞋的鞋座通常是由金屬製 成’其主要係1U定在鞋身下方,用以裝配數輪體,俾達滑溜運動之功 能者;而較麵鞋座設計,係為—承上啟下喃,-般須考量其 與輪體之穩_躲,叹雜座無身的接合緊雜。 、 由於鞋座主要係提供輪體裝設之部位,因此與各輪體間之配合設 ^上亦為相當重要’制是與輪_之軸承減是麵暢,係攸關滑 打速度快慢的重要因素之—;_般而言,直排輪之鞋座需形成一抵接 部’俾與該輪體中央之軸承相抵接,方可有效使該輪體具順暢旋轉, 因此’本發·雌該触絲紅麟部作—製程上的研究改良。 1按’習知難無體其樞接狀成型方法,請參照第七〜十圖, 該鞋座8 G其主要包含有下列製程:擠製—慨形座體之成型胚座 8 1 ’ _座8 1於门形兩側之内緣同時分卿成有一凸緣8 2 ;銑 製切削外形,係將該胚座8 i銑切出預設供鞋身組設之外形,並預留 出該與輪體9 0軸承91樞設之樞設部8 3 ;銳製切削—抵承部8 4 ’銑切該樞設部8 3周緣’使其形成-凸緣狀之抵承部8 4,藉以 可有效抵接輪體9 〇軸承91 ;結合孔8 5鑽銑,於該抵承部8 4一 5 200808410 端上鑽銑出具螺牙之結合孔8 5 ;俾以形成—提供輪體9 〇組設之鞋 座8 0者。 【發明内容】 (所欲解決之技術問題) 上述製%中,該輪體之軸承係與該抵承部之結合孔係藉由一栓體 相接口目此雜承部需城多次之㈣,方足以形成該抵承部,故 该胚座必^有相#赚之凸緣部位,致產生許多_廢料,增加生 產成本,實不符商品經濟效益;且因銑城抵承部加卫之厚度有限, 2需經衫次的銑财能_所料形及尺寸之精確,故過程中耗 立#乂長之此外’銳切面積越大時,該更換銑刀之使辭越高, 亦較^狀,該栓體需具有—螺合厚度之抵承部,而抵承部 =螺接之結合孔係為""細螺牙域為6腿之孔徑,故各該結合孔 =立緩慢之鑽銑’據轉致—具财之齡孔,避顏加工過程 無轉,故本發明另提供—種直排輪鞋座與健減部位成型 方式’、提供—技術上及朗上之改良,據以獲致—低生產成本 可快速完成各項加工過程之鞋座者。 (所欲解決之技術問題) 人述’該輪體之軸承係與該抵承部之結合孔鋪由_检體相名 此機承部需城料之銳切,方足以形成該抵承部,故該庄 有相當嫌之凸緣部位,致產生許多湖廢料,增加生翻 商品經濟效益;且因銑切該抵承部加工之厚度有限,則 長之=人的銳切才能達到所須外形及尺寸之精確,故過程中耗費彰 心2,此外,銑切_越大時,該更鏡狀使醇越高,其. /、乂Γ1 ’况且’雜體需具有—螺合厚度之抵承部,而抵承部供档 200808410 體螺接之結合孔係為一細螺牙且約為6咖之孔徑,故各該結合孔需獨 立缓〖艾之鑽銑’據以獲致一具螺牙之結合孔,致使整體加工過程緩慢 而無效率,故本發明另提供一種直排輪鞋座與輪體樞結部位成型之製 造方式,提供一技術上及應用上之改良,據以獲致一低生產成本且可 快速完成各項加工過程之鞋座者。 (解決問題之技術手段) 本發明係提供直排輪鞋銷輪馳結之成型機構,雜座主要包含 有下歹抽拉擠製·係以—體成型方式抽拉擠製η形之—胚座;沖 床加工··配合-模具於該輸驗部位進行沖床加i,使其形成具凸緣 狀沖孔之至少-抵承部;結合孔加工:於該抵承部之一端沖孔上進行螺 牙鑽設,使其形成-供輪體接合之結合孔;銑製加工:將該胚座進行銑 製,使其整體外觀形成—絲雜設之職輪廟;藉由以製程,係可 有效形顏減麻德承部、,使其謎可_祕,睛可減少胚 因切削加玉與加工成本m俾可降低鞋座之製造成本。 (對照先前技術之功效) 效 .兹由以上得知,本發明她先前技術,確可制如下之若干功 1 、i^原物料浪費:本剌於擠製該胚座時可減少凸緣 枓,故可減少材料的㈣,降低娜生錢本,提升商品轉效益。 承,2二: i發明利用沖壓方式軸銑製加工以形成該抵 降度同時可簡版製程,有效縮短整體加工時間, 切加 3、降低銑77切削之損耗:本發明製程只需進行—次夕 :方式替代該抵承部之加工’相較於傳統流程 其姻刀具之使神較小,故可降低刀具更換與損耗之情开; 7 200808410 【實施方式】 靜Ιί ’1參照第一〜六圖所示’本發明所提供之一種直排輪鞋座與 之成型機構,該鞋座結構主要包含有:-鞋座i 〇,係呈门形 形兩側上方預設部位,係朝内形成具凸緣沖孔1 2狀之至少 制.並於各該抵承部13之—端上設有—結合孔14。 k上述之該鞋座’其主要包含有下列製程: a.抽拉擠製:伽—體成财式抽拉擠製—胚座⑴ t你I床力工·配合—模具5 0於該胚座11預設部位進行沖床加 ’使二形成具凸緣沖孔12狀之至少-抵承部i 3 ; 桩人:·_抵承部13之—端上進行螺牙鑽設,使其形成 一接合之結合孔14; 之-•將娜座1 1進躲製,使其整體外觀形成預定輪廓 ^由上賴程,射极形成雜雜权抵承部,使其輪體可旋 之製H時可減少胚翻切削加讀加工成本之浪費,俾可降低鞋座 步瞭解本發鶴造概、運馳術手段及麵 效本發明技術特徵加以敘述如下: 力工本 =鞋座10於步驟a胚座11完成抽拉擠製後,遂以進行沖床 (如第^驟匕所使用之該模具5 0係設於门形座體之該胚座1 1内緣 .1 Γ j二圖所示),其相對應兩側預設部位分別設有至少一定位孔 定_ =供進辦床加㈣,藉由—沖子5 2以賴方式朝兩侧之該 部·,、^了沖壓加工,使其朝内形成具凸緣沖孔1 2狀之至少抵承 梦夕該抵承部1 3之_相對應位置,係分職其崎延伸具 預汉之厚度(如第_所示)。 ;V驟C結合孔加工該抵承部丨3之一端上進行螺牙鑽設,使其形 8 200808410 成一可接合輪體2 0之結合孔14,並 將該胚座1 1銑製成具職麵之^ 步驟d之銑製加工’ 1 〇係與各輪體2 g她設,各該^體2 m圖所示);該鞋座 成,利用-栓體2 2經由該鞋座! 〇穿称'、3 5免有—軸承2 1所組 抵止定位於該軸承2 1處,藉由該轴2°Λ _體2 0 ’使其抵承部1 3 古玄耠俨9 η夕浐絲二、去η Ζ 1之順暢旋動,進而同步帶動 雜體2 0之轉,而達到滑行運動的效 本發明於擠製該胚座11時,其。 凸緣8 2,故可減少材料的浪費,降 成如$知所揭之該 方式替代銑製加工以形成該抵承部i 3,料時,利用沖壓 ㈣多次肋加卫,本發明製程其‘刀 故可降低刀具賴耗讀形。 千权 述,本發明「直排輪鞋座與輪體樞結之成型_」,《用 ^方式日代銑製加工以形成該抵承部,俾於擠製胚座時可減少材料的 、降低材料生產成本’又可有效簡化餘及縮短加工時間,並減少 2之使料及德率,據使整體確具產業實祕及成本效益,且其構 、、、'口構又未冒見於諸書刊或公開使用,誠符合發明專利申請要件,懇請 鈞局明鑑,早日射專利,至為感禱。 # ,陳明者,以上所述乃是本發明之具體實施例及所運用之技術原 右依本發明之構想所作之改變,其所產生之功能作用仍未超出說明 書及圖式所涵蓋之精神時,均應在本發明之範圍内,合予陳明。 200808410 【圖式簡單說明】 第一圖為本發明鞋座擠製成形之胚座示意圖。 第二、三圖為本明鞋座沖壓抵承部之動作示意圖。 第四圖為本發明鞋座完成沖壓抵承部之加工示意圖。 第五圖為本發明鞋座抵承部完成結合孔之示意圖。 第六圖為本發明鞋座完成之示意圖。 第七圖為習知鞋座擠製成形之胚座示意圖。 第八圖為習知鞋座銑削成具樞設部之胚座示意圖。 第九圖為習知鞋座銑削成具抵承部之胚座示意圖。 #- 第十圖為習知鞋座鑽設結合孔完成製程之胚座示意圖。 【主要元件符號說明】 〔本發明〕 10 鞋座 11 胚座 12 沖孔 13 抵承部 14 結合孔 20 輪體 2 1 軸承 22 栓體 5 0 模具 5 1 定位孔 5 2 沖子 〔習知〕 80 鞋座 8 1 胚座 8 2 凸緣 8 3 樞設部 84 抵承部 8 5 結合孔 9 0 輪體 9 1 轴承200808410 IX. Description of the invention: [Technical field to which the invention pertains] The present invention relates to a molding process, and the system refers to the reliance on the pivotal connection between the inline roller shoe and the wheel body. The part of the contact bearing / at the same time can reduce the waste of billet and processing costs. [Prior Art] - The main body of the double inline skates is a covering and supporting foot, which is mainly composed of a shoe body, a shoe seat and a wheel body; wherein the shoe seat of the inline shoe is usually Made of metal 'the main line is 1U fixed under the shoe body, used to assemble several wheel bodies, the function of the skating movement; and the design of the upper shoe seat is to carry on the whisper, and it is necessary to consider the wheel and the wheel. The stability of the body _ hiding, sighing the seatless body is tight. Since the shoe seat mainly provides the wheel body mounting part, it is also very important to cooperate with the wheel body. The bearing is reduced to the bearing of the wheel, and the speed of the sliding is slow. The important factor is that; in general, the shoe of the inline wheel needs to form an abutment portion 俾 which abuts the bearing in the center of the wheel body, so that the wheel body can be smoothly rotated, so 'this hair· The female should touch the red lining - the research improvement on the process. 1 According to the method of shaping the shape of the bridge, please refer to the seventh to tenth drawings. The shoe 8 G mainly includes the following processes: extrusion-shaped body shaped preform 8 1 ' _ The inner edge of the seat 8 1 is simultaneously divided into a flange 8 2 on the inner edge of the door shape; the cutting profile is milled, and the frame 8 i is milled out to be preset for the shape of the shoe body, and is reserved. The pivoting portion 8 is pivoted with the wheel body 90 bearing 91; the sharp cutting-receiving portion 8 4 'mills the peripheral edge of the pivoting portion 8 3 to form a flange-shaped abutting portion 8 4 Therefore, the wheel body 9 〇 bearing 91 can be effectively abutted; the hole 8 5 is drilled and milled, and the coupling hole 8 5 of the thread is drilled and drilled on the end of the bearing part 8 4 5 200808410; 9 〇 Set the shoe seat 80. SUMMARY OF THE INVENTION (Technical problem to be solved) In the above-mentioned system, the bearing hole of the wheel body and the coupling hole of the abutting portion are connected by a plug body, and the mixed bearing portion is required to be used many times (4) , the square is enough to form the bearing part, so the embryo seat must have the flange part of the phase #, resulting in a lot of _ scrap, increase production costs, it does not meet the economic benefits of the goods; and because of the milling city to strengthen the Ministry of Defense The thickness is limited, 2 need to pass the shirt's milling energy _ the shape and size of the object is accurate, so the process is in the process of #乂长之 addition' the larger the sharp cut area, the higher the reversal of the milling cutter, also In comparison with the shape of the body, the plug body needs to have a screwing thickness of the abutting portion, and the abutting portion = the screwing joint hole is a "" fine threaded area is a 6-leg aperture, so each of the combined holes = The slow drilling and milling "according to the transfer - the wealth of the hole, the process of avoiding the face does not change, so the invention provides a kind of in-line wheel sole and the reduction part forming method', providing - technical and Lang Improvements, according to the results - low production costs can quickly complete the various process of the shoe seat. (The technical problem to be solved) The description of the bearing body of the wheel body and the joint hole of the bearing part is made by the name of the body of the machine, and the machine part is sharply cut to be enough to form the bearing part. Therefore, the Zhuang has quite a few flange parts, resulting in many lake wastes, increasing the economic benefits of the raw materials; and because of the limited thickness of the processing of the cutting part, the long = human sharp cut can achieve the required The shape and size are accurate, so it takes a lot of effort in the process. In addition, when the milling _ is larger, the more mirror-like shape makes the alcohol higher, and the / 乂Γ 1 ' condition and 'the hybrid body needs to have the thickness of the screw Reaching the part, and the joint hole of the 200808410 body screw is a fine screw and is about 6 cavities. Therefore, each of the joint holes needs to be independently slowed down. The combined hole of the screw causes the overall machining process to be slow and inefficient. Therefore, the present invention further provides a manufacturing method for forming the pivoting portion of the inline wheel shoe and the wheel body, and provides a technical and application improvement, thereby obtaining A shoemaker with low production costs and quick completion of various processes. (Technical means for solving the problem) The present invention provides a forming mechanism for the in-line wheel pin wheel, and the miscellaneous seat mainly comprises a squeezing and squeezing and squeezing and squeezing and extruding the η-shaped embryo. Pressing; punching processing · matching - the mold is punched at the inspection site to form i to form at least a flange portion with a flanged punching hole; the bonding hole is processed: the punching is performed on one end of the receiving portion The screw is drilled to form a combined hole for the wheel body to be joined; the milling process: the embryo holder is milled to form an overall appearance of the miscellaneous occupation of the wheel; by means of the process, The effective shape of the face is reduced, and the mystery can be _ secret, the eye can reduce the cost of cutting the jade and the processing cost m俾 can reduce the manufacturing cost of the shoe seat. (Compared with the efficacy of the prior art) It is known from the above that the prior art of the present invention can indeed produce the following several work 1 , i ^ raw material waste: Benedict can reduce the flange 挤 when the preform is extruded Therefore, it is possible to reduce the material (4), reduce the cost of the money, and improve the efficiency of the goods. Cheng, 2 2: i invention uses stamping method for axis milling to form the offset and can be simplified process, effectively shortening the overall processing time, cutting 3, reducing the loss of milling 77 cutting: the process of the invention only needs to be carried out - The second eve: the way to replace the processing of the bearing part is smaller than the traditional process, so it can reduce the tool replacement and loss; 7 200808410 [Embodiment] Static Ι '1 reference first The invention relates to an in-line wheel shoe and a forming mechanism provided by the invention. The shoe structure mainly comprises: a shoe seat i 〇, which is a preset part on both sides of the door shape, The flanges are formed at least in the shape of a flange, and the coupling holes 14 are provided at the ends of the respective abutting portions 13. k The above shoe sole' mainly includes the following processes: a. Pulling and extruding: gamma-body into a financial-style pull-extrusion-embryo (1) t you I bed force · fit - mold 50 in the embryo The predetermined portion of the seat 11 is punched and added, so that at least two of the flange punching holes 12 are formed, and the receiving portion i 3 is formed; the pile person: the _ the end portion of the receiving portion 13 is drilled to form a screw. a jointing hole 14; - the Na seat 1 1 into the hiding, so that the overall appearance of the formation of a predetermined contour ^ from the upper range, the emitter forms a miscellaneous power to resist the part, so that the wheel body can be rotated H can reduce the waste of cutting and cutting processing costs, and can reduce the steps of the shoe. The technical features of the invention are described as follows: After the abutment 11 is finished, the crucible is pressed to perform a punching process (for example, the mold 50 used in the first step is attached to the inner edge of the embryonic seat 1 1 of the portal body. 1 Γ j 2 Show), the corresponding preset parts on both sides are respectively provided with at least one positioning hole _ = for the bed to be added (4), by the punch 5 2 to the side of the part, plus , so that it forms a flanged punched hole 12 inwardly to at least resist the corresponding position of the abutting portion 1 3 of the bearing portion, which is divided into the thickness of the extension of the strip (as shown in _) . V-C-joining hole processing is performed on one end of the abutting portion 丨3, so that the shape 8 200808410 is formed into a joint hole 14 which can engage the wheel body 20, and the embryo holder 11 is milled into a tool. The machining of the step ^ step d is '1 〇 与 与 各 各 各 各 2 2 g g g g g g ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; ; 〇 称 ' ', 3 5 free - bearing 2 1 group set to resist positioning at the bearing 2 1 , by the axis 2 ° Λ _ body 2 0 'to make the bearing part 1 3 Xixi Silk II, the smooth rotation of η Ζ 1 and the simultaneous rotation of the hybrid body 20 to achieve the sliding motion effect of the present invention when the preform 11 is extruded. The flange 8 2 can reduce the waste of materials, and the method of replacing the milling process to form the abutting portion i 3 is disclosed in the manner of using the stamping (four) multiple ribs to fix the process of the present invention. Its 'knife can reduce the tool reading shape.千千权, the invention "formation of the inline roller shoe and the wheel body pivoting _", "the use of the ^ method of day milling to form the abutment portion, when the extrusion of the embryo holder can reduce the material, Reducing the cost of material production can effectively simplify the remainder and shorten the processing time, and reduce the material and the rate of production. According to the whole, the industry is real and cost-effective, and its structure, and the structure of the mouth have not been seen. Books or public use, in line with the requirements of the invention patent application, please ask the bureau to understand, to shoot patents as soon as possible, to pray. The above description is based on the specific embodiments of the present invention and the techniques applied thereto, which are based on the concept of the present invention, and the functional effects thereof are still beyond the spirit of the specification and drawings. In the meantime, it should be combined with Chen Ming within the scope of the present invention. 200808410 [Simple description of the drawings] The first figure is a schematic view of the embryo seat of the shoe seat of the present invention. The second and third figures are schematic diagrams of the action of the stamping and abutting portion of the shoe sole. The fourth figure is a schematic view of the processing of the stamping and abutting portion of the shoe seat of the present invention. The fifth figure is a schematic view of the shoe seat abutting portion of the present invention completing the joint hole. The sixth figure is a schematic view of the completion of the shoe seat of the present invention. The seventh figure is a schematic view of the preformed shoe seat. The eighth figure is a schematic view of a preformed shoe sole that is milled into a pivoting portion. The ninth figure is a schematic view of a conventional shoe sole milled into an embryo seat of the abutting portion. #- The tenth figure is a schematic diagram of the embryonic seat of the well-known shoe seat with the combined hole to complete the process. [Description of main component symbols] [Invention] 10 shoe seat 11 embryo seat 12 punching 13 abutting portion 14 coupling hole 20 wheel body 2 1 bearing 22 plug body 5 0 mold 5 1 positioning hole 5 2 punch [practical] 80 shoe seat 8 1 socket 8 2 flange 8 3 pivoting portion 84 abutment 8 5 coupling hole 9 0 wheel body 9 1 bearing