M247029 捌、新型說明: 【新型所屬之技術領域] 本創作是關於一種鞋頭,太、扣 、尤扎一種具剛硬的鞋頭部 及軟質的車缝部之鞋頭結構,# 、 人 墼跦存杜 ^ 〉皿和低溫下形成耐衝 #強度更仏,且鞋頭部與車縫部一 1 -人成型,可大幅簡|办 廠生產時間及提高生產效率。 1化t 【先前技術】 以按士排輪鞋、冰刀鞋的使用環境多為室溫或夂季姓、水 於受到運動中碰撞造成傷害,保叹腳趾免 浐徐馨W:处 斤Λ革土頭在室溫或低溫下的 抗衝擊性旎必須足夠強才能 與鞋舌、鞋面緊緊聯繫在一起有作用,而要把鞋頭 車縫在鞋舌和,面上,成為—個整體’則必須將其 材料Γ: 目前常見的鞋頭結構,是用-塑性 材科如nc、羽等材料,直接注射 」 於一體的熱塑性鞋頭’再將其與鞋舌和:二:在縫:分 而由於熱塑性材料在單位厚度上的抗衝=在:起, 尤其在低溫時材料變脆,时衝擊性更I X目對較弱’ 下使用時對於使用者保護的安全性 ^保證其在低溫 子;知i、足夠強度’以保證使用者的安全 頭就必須做的报大、復厚,而…土 、冰刀鞋即顯得相當笨重,同時因其==的排輪鞋 了製成排輪鞋、冰刀鞋的成品外觀。、厚也直接影響 另種鞋頭結構,是完全使用破場纖維補強熱固性樹 M247029 月曰複口材料版成型來做為排輪鞋鞋頭和冰刀鞋鞋頭,雖 在^ _低’皿5衣境下此種作法能使耐衝擊強度大幅提 高:但此種材質過於硬脆,車缝部分韋刃性不夠,而容易造 成斷衣而如果増加厚度則缝針易斷,無法進行車缝作業 〇 人、又有一種習知的鞋頭結構,是將上述兩種製作用膠黏 :成的方式組合成鞋頭’㈣’鞋頭部分以玻璃纖維增強 二固性樹脂複合材料單獨成$,此係取其高強輕量的優點 ’而在車缝部分另以熱塑性塑料注射成翅狀薄# , =車縫的優點,再將這兩者轉合劑黏在—起組成合成鞋 :二由:製:方法的限制’存在剛硬鞋頭與柔勒車縫部 =八不谷易脫膠的問題’導致使用中鞋頭和鞋舌及 革土面为開,而存在菩相者 璃生產效率不高。“全隱憂,且其製作過程繁 【新型内容】 有鏗於上述習知鞋頭結構之缺點, 究改良,而設計出一種n # m 集:Γ頭卿車縫部分於-體的質輕、壁薄ί二 ,且加工簡單的-體成型複合材料之鞋頭結構;-強- 「二達成:述目的之結構特徵及技術手段,是提供—種 ”:/」,其係以連續纖維材疊製成硬質的鞋頭部,、, 初2塑性薄膜疊層接續在鞋頭部後緣形成軟^ ,而在鞋頭部與車縫部 、、車縫部 接處形成連績性纖維增強的熱塑 M247029 性樹脂複合材料層 【實施方式】 *配合參看第一圖及第二圖所示,本創作鞋頭,θ 續纖維材(1 1 )疊製成硬質的鞋頭部( 、疋以連 性熱塑性薄膜(2丄)疊層接續在鞋 ’並以動 形成軟質的車縫部(2〇),且於鞋頭 ϋ)後緣而 部(2 0)交接處形成連續性纖維增強㈣=與車缝 材料層,其中: …、土性树脂複合 本創作所涉及的片材包括’ 連續纖維材(1 1 ),以及…鞋頭部(1 〇 )的 塑性薄膜(2 1 ),其可以按昭 的初性熱 的小片,並且,連續纖維材(;'、=裁切成所需形狀 -片最長長度的最長片材; 卩先裁切出最少具有 上述連續纖維材(1 1 ) 玻璃纖維布、碳纖維布和芳綸纖维布預浸材,包括 )可提供複合材料鞋頭的強度 、連、,纖維材(1 1 免了複合材料_ #在、, 又 於纖維的連續性可避 何卄軍土頭在娅撞時分崩離析; 上述作為鞋頭部(工〇 )的 用熱固性樹脂加以取代,如SMC片、夕材…).可 C〇mJP〇und 片狀模塑料 (Sheet Moulding 和環氧樹脂,都可作A /和聚脂樹脂、乙烯酯樹脂 吝丨“乍為硬質的鞋頭部 上述韌性熱塑性薄膜( )纽, 聚氨醋薄膜,可作為軟 &如尼龍薄膜和熱塑性 貝的車鏠部(2 〇 )材料; M24/U29 本創作定層預製’是將裁切好的連續纖維材 士)’ —層一層的4置成鞋頭部(1 0),以及在h 日寸將韌性熱塑性薄膜( 1 宜層 、(2 1 )丽緣豐置於連續纖維材 1 )後緣而形成車縫部「9 1 丨(2 〇),亚做出整個鞋頭(Ί λ 的大概輪廓形成預製品; 、丄) 、上=豐層預製,在數片連續纖維材(1 1 )-層叠〜 、亍且層呀片材裁切預設為最長片材的連續纖维 可作為成型車縫部(20)的基底,該最= 的,續纖維材(U)纟端延伸出疊層外,且於該最 材$層時’可以最少一片韋刃性熱塑性薄膜(2 1 )前緣愚 在,最長片材與其他連續纖維材(χ i )後緣交接部位® 其最少為-片韌性熱塑性薄㈣(2 1 )疊層於連續纖維材 (1 1 )後緣,可同時貼覆在最長片材内表面或外表面, 先疊置韌性熱塑性薄膜(2 i ) #疊最長片材,可使熱塑 性溥朕(2 1 )位於最長片材内表面,而若先疊置最長片 材再疊置韌性熱塑性薄膜(2丄),則韌性熱塑性薄膜( 2 1 )可貼覆在最長片材外表面; 上述疊層預製,可疊置二片(含)以上的韌性熱塑性 薄膜(2 1 )於連續纖維材(1 1 )裁切為最長片材的内 、外表面,使最長片材的内、外表面皆疊設韌性熱塑性薄 膜(2 1 ); 而經由上述片材裁切及疊層預製之後,可將預製為革土 頭造型的物件置入模具中,進行加熱加壓之模壓成型,而 形成型出鞋頭(1 )結構。 M247029 切好的連續纖維材的::(1)結構,是以預先裁 广預先裁切好的_::;=;=(= w ( 1 ◦)後緣作為軟f車鏠 碩造型,並置入模具中加^^ ( 0)而預衣成鞋 構。 …、加I而形成型出鞋頭c 1 )結 上述預製成鞋頭造型並置 該物性熱塑性薄膜(2 " 塵成型的技術, , 1)在熱固性樹脂的固化溫度下熔 岫後务入連續纖維材(i丄) 而形成矛Ij: rfFi @ & A 、、V、之間,並將其包覆進 料声;: 連續性纖維增強的熱塑性樹脂複合材 枓層,即鞋頭部(1〇)與車縫部( 複口材 續性纖唯辦%沾為#日L )父接處形成連 所^隹3強的熱塑性樹脂複合材料層,而具有堅動性, 所以車缝部(20)與鞋頭部( ”有U1·生’ ’且由於車缝部(2 0 )柔軟 a在父接處拉斷 。 可達到易於車縫效果 因此,經由上述詳盡說明,可、、主枯 具有剛硬的鞋頭部以及軟質:疋看出本創作結構, 質輕、壁薄及高強度,且於常=,且剛硬的鞋頭部具 々、吊/皿和低溫下耐衝 :以及,鞋頭部與車縫部_次 又更么 時間,及提高生產效率,並且L大幅簡化鞋廢的生產 複合材料壁薄質輕特性,可降 °冓、、有 排輪鞋、冰刀鞋、工作鞋前π T十戶斤以用其作為 而美觀。 “’,可做出外型輪廣更為流線 綜上所述,本創作「鞋頭」,具較佳的實用性、進步 M247029 性,符合新型專利要件,爰依法倶文提出申請。 【圖式簡單說明】 (一) 圖式部分 第一圖:本創作疊層預製之示意圖。 第二圖:本創作模壓成型製成鞋頭之示意圖。 (二) 元件代表符號 (1 )鞋頭 (1 0 )鞋頭部 (1 1 )連續纖維材 (2 0 )車縫部 (2 1 )韌性熱塑性薄膜M247029 新型 Description of the new style: [Technical field to which the new style belongs] This creation is about a toe, a buckle, a yuzha, a toe structure with a stiff toe and a soft seam, #, 墼跦 存 DU ^〉 The impact resistance at low temperature and low temperature is stronger, and the shoe head and the seam are formed by one person, which can greatly simplify the production time and improve the production efficiency. 1t [Previous technology] The operating environment of the roller skates and skates is mostly room temperature or the surname of the season, and the water is damaged by collision during sports. The impact resistance of the soil head at room temperature or low temperature must be strong enough to be closely connected with the tongue and upper. It must be sewn to the tongue and the surface to become a whole. 'The material must be Γ: the current common toe structure is made of plastic materials such as nc, feather and other materials and injected directly into the thermoplastic toe', and then it is combined with the tongue and: two: in the seam : Divided due to the impact of the thermoplastic material on the unit thickness = at: from, especially at low temperatures, the material becomes brittle, and the impact is more IX mesh to weaker when used under the safety of user protection ^ to ensure its Low temperature child; know i, enough strength 'to ensure the safety of the user, the head must be made large and thick, and ... the soil and ice skates are very cumbersome, and because the == Finished appearance of roller shoes and skate shoes. Thickness also directly affects another toe structure. It is completely made of broken field fibers to reinforce the thermosetting tree M247029. The composite material version is used as the toe and skate shoe toe, although it is in ^ _LOW 'plate 5 This method of clothing can greatly improve the impact strength: However, this material is too hard and brittle, and the cutting edge of the sewing part is not enough, and it is easy to cause clothing breakage. If the thickness is increased, the needle is easy to break, and the sewing operation cannot be performed. 〇 People, there is another conventional toe structure, which is the combination of the above two methods of making: the toe '㈣' toe part is made of glass fiber reinforced two-solid resin composite material alone, This is based on the advantages of high strength and light weight, and the thermoplastic part is injected into the wing-like thin # in the seam part. = The advantages of the seam, and the two transfer agents are glued together to form a synthetic shoe: two by: System: The limitation of the method 'there is a problem with the rigid toe and the seam of the seam = easy degumming in Bagou' causes the toe and tongue and leather surface of the shoe to be open during use, but the production efficiency of the glass is not high. . "It ’s all worry-free, and its production process is complicated. [New content] Because of the shortcomings of the conventional toe structure mentioned above, we have improved it and designed a n # m set: Thin-walled, simple-to-fabric toe-shaped structure of the toe structure;-Strong-"Second Achievement: The structural characteristics and technical means of the stated purpose are to provide-a kind": / ", which is made of continuous fiber material Laminated into a hard toecap, the first and second plastic film laminates are connected to form a soft ^ at the rear edge of the toecap, and continuous fiber-reinforced heat is formed at the toecap to the seam and the seam. Plastic M247029 resin-resin composite material layer [Embodiment] * As shown in the first and second figures, with this creative toe, the θ continuous fiber material (1 1) is stacked into a hard toe ( Laminated thermoplastic film (2 丄) is continuously connected to the shoe 'to form a soft seam section (20), and a continuous fiber reinforcement is formed at the junction of the trailing edge and the section (20) of the toe ϋ). Sewing material layer, where:…, the earth resin composite sheet involved in this creation includes' continuous Uyghur material (1 1), and ... plastic film (2 1) of toe cap (10), which can be made into small pieces of primary heat, and continuous fiber material (; ', = Shape-the longest sheet with the longest length; 卩 first cut out at least the continuous fiber material (1 1) glass fiber cloth, carbon fiber cloth and aramid fiber cloth prepreg, including) which can provide composite material toe The strength, strength, and fiber material (1 1 free of composite material_ # 在 ,, and the continuity of the fiber can prevent He Yanjun's soil head from falling apart during a collision; the above is used as the toe cap (worker 0) with a thermosetting resin. Replacement, such as SMC sheet, eve material ...). Can 〇mJP〇und sheet molding compound (Sheet Moulding and epoxy resin, can be used as A / and polyester resin, vinyl ester resin 吝 丨 "hard shoes at first glance The above tough thermoplastic film () button and polyurethane film on the head can be used as soft & nylon film and thermoplastic shell (200) material; M24 / U29 This creative layering prefabrication is to be cut well Continuous fiber material)) — 4 layers of shoe heads (1 0) And in the h-inch inch, the tough thermoplastic film (1 suitable layer, (2 1) Li Yuanfeng is placed on the continuous edge of the continuous fiber material 1) to form the seam portion "9 1 丨 (2 0), Ya made the entire toe ( The approximate outline of Ί λ forms the preform;, 丄), top = prefabricated layer, cut from several pieces of continuous fiber material (1 1)-〜, 亍 and layer, and the sheet is preset to be the longest continuous fiber. Weike can be used as the base of the molding seam part (20). The maximum end of the continuous fiber material (U) extends out of the stack, and at the time of the most material layer, a minimum of one edge-shaped thermoplastic film (2 1) The leading edge is at the intersection of the longest sheet and the trailing edge of other continuous fiber material (χ i). Its minimum is-a sheet of tough thermoplastic sheet (2 1) laminated on the trailing edge of continuous fiber material (1 1). It can be attached to the inner or outer surface of the longest sheet at the same time, and the tough thermoplastic film (2 i) is stacked first. The longest sheet can be stacked so that the thermoplastic cymbal (2 1) is located on the inner surface of the longest sheet. After placing the longest sheet and stacking the tough thermoplastic film (2 丄), the tough thermoplastic film (2 1) can be attached to the surface of the longest sheet The above-mentioned laminated prefabrication can stack two or more tough thermoplastic films (2 1) on the continuous fiber material (1 1) to cut the inner and outer surfaces of the longest sheet, so that the inner and outer surfaces of the longest sheet The outer surface is covered with a tough thermoplastic film (2 1); after the sheet is cut and laminated and prefabricated, the object prefabricated as a leather head can be placed in a mold and subjected to heat and pressure molding, and Formed toe cap (1) structure. M247029 :: (1) structure of the cut continuous fiber material is based on the pre-cut _ :: ;;;; = (= w (1 ◦) trailing edge as a soft f car styling, and Place it in the mold and add ^^ (0) to pre-dress into the shoe structure.…, Add I to form the toe c 1) Combine the above-mentioned pre-made toe shape and place the physical thermoplastic film (2 " dust-molded Technology, 1) After melting at the curing temperature of the thermosetting resin, it is fed into the continuous fiber material (i 丄) to form a spear Ij: rfFi @ & A,, V, and it is covered with the feeding sound; : Continuous fiber-reinforced thermoplastic resin composite material, that is, the toe (10) and the seam (reinforced composite fiber is only #% L) at the father joint to form a joint ^ 3 strong The thermoplastic resin composite material layer has firmness, so the seam portion (20) and the toe cap ("U1 · 生" ') and the seam portion (2 0) is soft and a is broken at the joint. It can achieve the effect of easy sewing. Therefore, through the detailed description above, the main body has a rigid toe cap and softness: see the creative structure, light weight, thin wall and high strength And often =, and the rigid toe cap with sling, hanging / dish and impact resistance at low temperature: and, the toe cap and the seam _ times more time, and improve production efficiency, and L greatly simplifies shoe waste The production of composite materials has the characteristics of thin wall and light weight, which can be lowered to °°, roller shoes, skate shoes, and work shoes. The front π T ten household catties are used to make them beautiful. In order to streamline the above, the "toe" of this creation has better practicability and improved M247029 performance, which meets the requirements of the new patent, and is filed in accordance with the law. [Simple description of the diagram] (I) Schematic The first picture: the schematic diagram of the laminated prefabrication of this creation. The second picture: the schematic diagram of the toe moulded by this creation. (II) The symbol of the component (1) The toe (1 0) The toe (1 1) is continuous Fibre material (2 0) seam part (2 1) tough thermoplastic film