M358503 五、新型說明: ' 【新型所屬之技術領域】 本創作係關於一種13刺σ八網結構,特別是指一種在一 高分子塑料層表面鑛覆有一鍍膜層,藉以增加其金屬質 感之類金屬高分子d刺σ八網結構。 【先前技術】 過去,用於消費性電子產品之喇叭網結構及殼體結 構通常以金屬材質為主,但隨著地球礦物資源逐年減 少,金屬原料價格水漲船高,電子產品之製作成本亦隨 之提升。基於上述因素,業者僅能將多餘之附加成本轉 嫁至消費者,藉此維持其利益。 有鑑於上述因素,業界開始尋找替代金屬之原料, 其中又以高分子材料最受青睞。高分子材料具有價格低 廉、製備容易、可塑性強再加上原料取得容易等優點, 目前已廣泛應用於消費性電子產品之殼體。惟,高分子 殼體之美觀性及其視覺效果並不如傳統金屬亦或是合 金殼體;為此,業界開發出一種於高分子殼體上鍍覆一 具有金屬光澤之鍍膜層藉以增加其美觀度。 目前已有許多方法可於高分子基材上鍍覆一具有 金屬光澤之鍍膜層,常見的例如無電極電鍍法、化學電 鍍法、真空濺鍍法以及真空電鍍法等;其中無電極電鍍 法以及化學電鍍法,雖然設備以及原料成本相當低廉, 但由於其鍍膜膜厚不均且容易剝落、化學物質弱化高分 子基材以及其產物對環境有極大毒害等因素,因此而逐 漸被淘汰。 真空濺鍍法以及真空電鍍法雖其設備較為昂貴,但 M358503 ' 由於鍍膜膜厚均勻、製程溫度較低(60〜70°C )且符合 - 綠色產品規範等優點,目前常應用於高分子金屬化。目 前業界常用之高分子鍍膜法又以非導體真空電鍍(No Conductive Vacuum Metallization,NCVM)技術最為普 及,該技術係於一真空條件下,藉由特定有機物轉換機 制,使金屬粒子沉積或吸附於高分子基材表面藉以成 膜。NCVM技術利用各相不連續的特性,使金屬化之高 分子殼層不會因為金屬遮蔽效應而影響無線通訊傳輸 . 之效能,但確能於其表面呈現金屬光澤,再加上電著技 _ 術的發展更可於殼體表面塗覆不同色彩,藉以增進產品 ' 之美觀度。 目前常用之°刺σ八網製造技術多以金屬I虫刻為主,但 亦有業者先將高分子喇队網結構成形後再喷塗各種顏 料藉以增添高分子喇队網結構之美觀性。但如前述之因 素,金屬價格持續飆漲,導致業者生產成本上升,且金 屬蝕刻後若表面殘留有機物質會大幅降低金屬網體貼 覆之持久性,綜合上述兩因素,使得高分子喇叭網結構 之應用蔚為趨勢。此外,雖然高分子喇八網結構塗覆顏 _ 料可克服上述兩問題,但其美觀性相較傳統金屬網體相 遽甚異,因此如何增加高分子°刺ρ八網結構之質感為目前 業界所遇到最大之問題。 - 【新型内容】 本創作所欲解決之技術問題與目的: 有鑑於在上述之習知技術中,對於金屬°刺p八網結構 之製造技術而言,普遍存在材料成本較高與有機物殘留 影響貼附之持久性等問題;對於高分子喇队網結構塗覆 顏料之製造技術而言,又存在缺乏金屬質感,在美觀性 4 M358503 上遠遜於金屬17刺ρ八網結構。援此,本創作之主要目的在 - 於提供一種利用電鍍之方式在一由高分子塑料層組成 之喇叭網結構表面鍍覆一層由金屬材質組成之鍍膜層。 此外,本創作之次要目的在於提供上述類金屬高分 子喇叭網結構之批次式製造方法,藉以同時對複數個上 述由高分子塑料層組成之喇ρ八網結構鍍覆鍍膜層。 本創作解決問題之技術手段: __ 本創作為解決習知技術之問題所採用之技術手段 係提供一種類金屬高分子喇叭網結構,該類金屬高分子 °刺ρ八網結構包含一高分子塑料層、一鑛膜層以及至少一 黏合層。高分子塑料層更包含一網格區以及至少一黏合 區。網格區開設有複數個穿孔,黏合區係鄰接於網格 區,且黏合層係黏合於上述之黏合區。可利用黏合層將 複數個高分子塑料層黏附於一承載板上,再藉由一電鍍 同時在上述複數個高分子塑料層表面鍍覆具金屬光澤 之鍍膜層。在本創作較佳實施例中,上述之電鍍製程建 議以一不導電真空電鍍(No Conductive Vacuum 験 Metallization,NCVM)製程為佳。 ' 本創作對照先前技術之功效: 相較於習知金屬喇^八網結構之製造技術,由於本創 作係利用較為廉價之高分子塑料層作為基材,並可利用 一沖壓製程或一機械鑽孔製程產生上述複數個穿孔;因 此,可有效降低材料成本並解決因有機物質殘留造成黏 附持久性降低之問題。 相較於習知高分子喇σ八網結構塗覆顏料之製造技 5 M358503 :具程在高分子塑料層形 之金屬《,使其具備更佳之*相°Λ網結構 ^卜’由於本創作更可利用 =。可大幅提昇類金屬高分子舞 及圖體實施例,將藉由以下之實施例 【實施方式】 由於本創作所提供之類金屬高分子喇叭網妹 = 获在高:子塑料層之電鑛面鑛覆具: f ίίΊ 提高金屬質感及視覺美化之效 ^、,口此,本創作所提供之類金屬高分子喇叭網結 廣泛應用於各種需要安裝喇叭網結構之電子產品,且 關之組合實施方式著實不勝牧舉,故在此不再一二瞽 士,僅列舉其中三個較佳實施例加以具體說明。此外, ΐ於上f中上電斗鑛層極薄,無法以實際之比例關係繪 ^,口此,在圖式上,其結構上之相對關係僅以示意 主,並未依照實際之尺寸關係繪製。 ^ ’’、、 以下將參照各相關圖式,說明本創作第一較佳 =:請參閱第一圖與第二圖,第一圖係顯示本創作第一 貝把例之類金屬高分子喇叭網結構立體外觀圖,.第二 係顯示本創作第一實施例之類金屬高分二= 沿A-A視角之剖面圖。 』、、、°構 如圖所示,一類金屬高分子喇叭網結構〗包含—高 分子塑料層1卜一鍍膜層丨2、以及二黏合層n與13二 6 M358503 高分子塑料層11具有一電鍍面ln,且電鍍面u]包含 ,'周格區112與一黏合區113以及113 a。網格區112係 沿電鍍面m之一法線方向I隆起,黏合區113與]i3a 係分別鄰接於網格區112之兩側。鍍膜層12係鍍覆於 網格區112,藉以使網格區112表面呈現金屬光澤。 黏合層13具有一第一黏合面131與一第二黏合面 132,並藉由第一黏合面而黏附於黏合區113。相 =地,黏合層l3a具有一第一黏合面13U與一第二黏 口面132a ’亚藉由第一黏合面13u而黏附於黏合區 113a 〇 ;請續參閱第三圖至第九圖,其係顯示本創作第一 列加工製程之示意圖。如第三圖所示,在 制程在-、登二带口乂弟四圖所不’接著,必須藉由一穿孔 η ’使f預严域開設複數個穿孔 私^'枓片〇k為一網狀高分子塑料片〗0、 ί,上述之穿孔製程可為—沖壓成型f程、一 ft A rj製程與-機械鑽孔製程中之至:外,5; 佳本貫㈣中’係建議採用沖壓成型製程與 層成二7:體網狀、结 選定電鑛之表面即為電鑛面111 :呈曰有2孔S :上述 網格區Π2,其餘鄰接於網 之區域即為 14之區域即為黏合區⑴心二兩,且不具備穿孔 完成穿孔14的開設後, 如弟六圖所示,在 俊了將袖合層13之第一黏合面 7 M358503 131黏合於黏合區113,並將黏合層13a之第一黏合面 131a黏合於黏合區113a。較佳者,上述之黏合層13與 13 a可係為一熱熔膠、一樹脂與一雙面膠中之至少一者。 在實務運用層面上,第三圖至第五圖或第三圖至第 六圖所顯示之製程可以只對單一個高分子塑料片10進 行,亦使一料帶上具有複數個上述之高分子塑料片10, 藉以同時對複數個上述之高分子塑料片10進行。惟, 料帶上具有複數個上述之高分子塑料片10的條件下, 在完成第五圖或第六圖所顯示之製程後,必須將複數個 高分子塑料層11自料帶切下,以形成單一個高分子塑 料層11。 如第七圖與第八圖所示,在進行電鍍之前,可先製 備一承載板2,且承載板2開設複數個電鍍孔21。接著, 可進一步將黏合層13之第二黏合面132以及黏合層13a 之第二黏合面132a黏合於承載板2,使高分子塑料層 11黏著於承載板2,並使電鍍面111之網格區112穿過 電鍍孔21 (如第八圖所示)。依循此方式,可依序將複 數個上述之高分子塑料層11黏著於承載板2 (如第七 圖所示),以便進行一批次式電鍍。 如第九圖所示,在完成上述步驟之後,可利用一非 導電真空電鍍(No Conductive Vacuum Metallization, NCVM)製程 '一真空濺鍍製程、一真空電鍍製程、一 化學電鍍製程與一無電極電鍍製程中之至少一者而在 網格區112鍍覆上述之鍍膜層12。在進行上述之NCVM 製程、真空濺鍍製程與真空電鍍製程中之至少一者時, 所使用之一金屬革巴材可為鎳、金、銀、銅與鉻中之至少 一者。在本實施例中,係建議採用NCVM製程為佳。 在完成電鍍後,亦會在承載板2鍍上一另一鍍膜層 8 M358503 2a。之後二可將黏合層13之第二黏合面132以及黏合 層13a之第二黏合面]32a自承載板2拆下,使高分子 塑料層^1、鍍膜層12以及黏合層13與13a構成上述之 類金屬高分子喇叭網結構〗。換以言之,至此,則已完 成類金屬向分子剩σ八網結構1之製作。 在貫務運用層面上,上述之鍍膜層12更可為一半 透光^,此時,可藉由一電著技術於半透光層之表面著 附一著色層,並利用表面硬化技術於該著色層之表面另 形成一抗磨層,增加該顏色層之持久性。較佳者,上述 之表面硬化技術可為一紫外光表面硬化技術。 —請Μ續參閱第十圖與第十一圖,第十圖係顯示本創 作弟一 ·^知例之類金屬尚分子σ刺q八網結構之立體外觀 圖;第十一圖係顯示本創作第二實施例之類金屬高分子 ,叭網結構沿Β-Β視角之剖面圖。如圖所示,一類金屬 尚为子°刺13八網結構3包含一高分子塑料層31、一鍵膜 層32與一黏合層33。高分子塑料層31具有一電鍍面 3Π,電鍍面311包含一網格區312與一黏合區313。黏 合區313係環繞並鄰接於網格區312。鍵膜層32传妒 覆於網格區312,藉以使網格區312之表面呈曰現金= 澤。黏,合:層3^具有一第一黏合面331與一第二黏合面 332 ’並藉由第一黏合面331而黏附於黏合區313。 明參閱苐十二圖,其係顯示本創作第二實施例之高 分子塑料層亦可黏著於一承載板以便於進行批次式電 鍍如圖所示,本創作第二實施例亦可利用與第一實施 =相似的製私加以製作。因此,在進行電鑛之前,可先 ^備另一承載板2,,且承載板2,開設複數個電鍍孔(未 標示)。接著,可進一步將黏合層33之第二黏合面332 黏合於承載板2,使高分子塑料層31黏著於承載板2,, 並使電鍍面311之網格區自電鍍孔2丨外露。依此方式, 9 M358503 可依序將複數個上述之高分子㈣層 , 2,,以便進行批次式讀。 承載板 …請ί閱第十三圖與第十四圖,第十三圖係顯示太劍 J弟施例之類金屬高分子㈣㈣構之立體外觀 圖;弟十四圖係顯示本創作第三實施 := 例中係以另-類金屬高分子t八網結構},取 鈀例之類金屬咼分子喇叭網 : .以另一高分子塑^ mt塑料層n。高分子塑料層η,呈電; 面Η〗,且電鍍面111包含一 έ彳夂 :' f電鍍 以及113a,,其盘第二'“Π112與二黏合區⑴, Π3,以及113a,皆門之哀大不同處在於黏合區 J高分地網結構,上% 理解射_易 1中,係$,丨+ 仏之類孟屬尚分子制八網έ士摄 高製㈡ 因此’可以有效提升類二;有光澤之鍍膜層11; 質感,故相較於習知古j=刀子剩σ八網結構1之金屬 技術二具備更網結構塗覆顏料之製造 牙孔14時,可刹 竹層11為基材,且在開設 孔製程,故相較於生沖覆成型製程或機械鑽 有效降低材料成本^之製造技術,可 夂性降低之_。有機物質殘留造成黏附持 W此外,本創作更提供批次式電鍍之^ 10 M358503 ^來製作類金屬高分子喇叭網結構丨’故可大幅提 製造生產效率。 藉由上述之本創作實施例可知,本創作確豆產 g用價值。惟以上之實施例說明,僅為本創作之較佳 舉凡所屬技術領域中具有通常知識者當可 3本創作之上述實施例說明而作其它種種之改良及 這些依據本創作實施例所作的_改良“ 田仍屬於本創作之創作精神及界定之專利範圍内。 【圖式簡單說明】 第—圖係顯示本創作第一實施例之類金屬高分子· 網結構立體外觀圖; 第 圖係顯示本創作第一實施例 第 網結構沿A-A視角之剖面圖/屬…· 圖至第九圖係顯示本創作第—實 # -製程之示意圖; "例之-糸列加 弟+ 本創作第二實施例 網結構之立體外觀圖; i屬间分子口刺口八 第十If顯示本創作第二實施例之類金屬古八^ & /八網結構沿B_B視角之剖面圖;^刀子剩 料係II示賴作第二實施例 孝占著於—承载板以便於進行批:欠"式^子塑料層可 —圖係顯示本創作第三實施例之類:厂 .,結構之讀外朗,·叹高分刊 弟十四圖係如_ 仏頌不本創作第三實施例 金屬高分子喇 M358503 σ八網結構沿c-c視角之剖面圖 【主要元件符號說明 I ' r II 、 11, 類金屬高分子喇叭網結構 咼分子塑料層 111 電鍍面 112 網格區 113、113a、113,、113a, 黏合區 12 锻膜層 13 > 13a 黏合層 131 ' 131a 第一黏合面 132 、 132a 第二黏合面 14、14, 穿孔 10 而分子塑料片 10, 2 ' 2, 網狀南分子塑料片 承載板 21 電鍍孔 2a 鍍膜層 3 31 · 311 類金屬鬲分子剩σ八網結構 向分子塑料層 電鍍面 M358503 312 網格區 313 黏合區 32 鍍膜層 33 黏合層 331 第一黏合面 332 弟—黏合面 I 法線方向M358503 V. New description: ' 【New technology field】 This creation is about a 13-thorn octa-net structure, especially a kind of coating on the surface of a polymer plastic layer with a coating layer to increase its metal texture. Metallic polymer d-sting σ eight-grid structure. [Prior Art] In the past, the structure of the speaker net and the structure of the casing used for consumer electronics were mainly made of metal. However, as the earth's mineral resources decreased year by year, the price of metal materials rose, and the production cost of electronic products increased. . Based on the above factors, the industry can only transfer excess cost to consumers to maintain its benefits. In view of the above factors, the industry began to look for alternative materials for metals, among which polymer materials are the most popular. Polymer materials have the advantages of low cost, easy preparation, strong plasticity, and easy access to raw materials, and have been widely used in the housing of consumer electronic products. However, the aesthetics and visual effects of the polymer shell are not as good as those of conventional metals or alloy shells; for this reason, the industry has developed a coating layer with a metallic luster on the polymer shell to increase its aesthetics. degree. At present, there are many methods for plating a coating layer having a metallic luster on a polymer substrate, such as electroless plating, electroless plating, vacuum sputtering, vacuum plating, etc.; In the electroless plating method, although the cost of equipment and raw materials is relatively low, it is gradually eliminated due to factors such as uneven thickness of the coating film and easy peeling off, chemical weakening of the polymer substrate, and the fact that the product is extremely toxic to the environment. Although vacuum sputtering and vacuum plating are expensive, M358503' is currently used in polymer metal due to its uniform coating thickness, low process temperature (60 to 70 ° C) and compliance with green product specifications. Chemical. At present, the polymer coating method commonly used in the industry is most popular by the method of No Conductive Vacuum Metallization (NCVM), which is based on a specific organic matter conversion mechanism to deposit or adsorb metal particles under a vacuum condition. The surface of the molecular substrate is formed by film formation. The NCVM technology utilizes the discontinuous characteristics of each phase, so that the metallized polymer shell does not affect the wireless communication transmission due to the metal shadowing effect, but it can present a metallic luster on its surface, plus electric technology _ The development of the technique can also apply different colors to the surface of the shell to enhance the aesthetics of the product. At present, the commonly used thorn 八 eight net manufacturing technology is mainly based on metal I insects, but some manufacturers have first formed the polymer racquet network structure and then sprayed various pigments to increase the aesthetics of the polymer racquet network structure. However, as the above factors, the price of metal continues to soar, resulting in an increase in the production cost of the industry, and if the residual organic matter on the surface after metal etching will greatly reduce the durability of the metal mesh overlay, the above two factors are combined to make the structure of the polymer speaker net The application is a trend. In addition, although the polymer La Ba network coating can overcome the above two problems, its aesthetics is quite different from that of the traditional metal mesh. Therefore, how to increase the texture of the polymer The biggest problem encountered by the industry. - [New content] The technical problems and objectives to be solved by this creative: In view of the above-mentioned conventional techniques, the manufacturing cost of the metal p p-net structure is generally high in material cost and organic residue. Persistence and other issues of attachment; for the manufacturing technology of polymer laminating net structure coating pigments, there is a lack of metal texture, which is far less than the metal 17 puncture and eight net structure in the aesthetics 4 M358503. In view of this, the main purpose of this creation is to provide a coating layer made of a metal material on the surface of a horn mesh structure composed of a polymer plastic layer by means of electroplating. In addition, the secondary purpose of the present invention is to provide a batch manufacturing method for the above-described metal-like high-molecular speaker net structure, whereby a plurality of the above-mentioned la p-bar structure plating coating layers composed of a polymer plastic layer are simultaneously coated. The technical means for solving the problem in this creation: __ The technical means adopted for solving the problem of the conventional technology provides a metal-like polymer horn net structure, and the metal polymer puncturing ρ-net structure comprises a polymer plastic a layer, a mineral film layer and at least one adhesive layer. The polymer plastic layer further comprises a mesh region and at least one adhesive region. The mesh area is provided with a plurality of perforations, the bonding area is adjacent to the mesh area, and the adhesive layer is adhered to the bonding area. The adhesive layer can be used to adhere a plurality of polymer plastic layers to a carrier plate, and then a metal-gloss coating layer is plated on the surface of the plurality of polymer plastic layers by electroplating. In a preferred embodiment of the present invention, the electroplating process described above is preferably a No Conductive Vacuum 験 Metallization (NCVM) process. 'This creation compares the efficacy of the prior art: Compared with the manufacturing technology of the conventional metal la-bar network structure, the creation system utilizes a relatively cheap polymer plastic layer as a substrate, and can utilize a stamping process or a mechanical drill. The hole process produces the plurality of perforations described above; therefore, the material cost can be effectively reduced and the problem of reduced adhesion durability due to residual organic matter can be solved. Compared with the conventional polymer La 八 eight mesh structure coating pigment manufacturing technology 5 M358503: with a layer of polymer plastic layered metal, so that it has a better * phase ° Λ network structure ^ Bu ' due to this creation More available =. The metal-like polymer dance and figure embodiment can be greatly improved, and the following examples will be adopted. [Embodiment] The metal polymer horn net sister provided by the present invention is obtained in the high-grade plastic layer of the sub-plastic layer. Mine Cover: f ίίΊ Improve the metal texture and visual beautification effect ^,, this, the metal polymer speaker network provided by this creation is widely used in various electronic products that need to install the speaker net structure, and the combination of the implementation There are no more than one or two gentlemen in this way, and only three of the preferred embodiments are specifically described. In addition, in the upper f, the power-up bucket layer is extremely thin, and it cannot be drawn in the actual proportional relationship. Therefore, in the schema, the relative relationship between the structures is only indicated by the main, and the actual size relationship is not draw. ^ '',, will refer to the relevant drawings below, to illustrate the first best of this creation =: Please refer to the first picture and the second picture, the first picture shows the metal polymer speaker such as the first shell example The three-dimensional appearance of the mesh structure, the second system shows a metal high score of the first embodiment of the present invention = a sectional view along the AA angle of view. 』,,, ° ° as shown in the figure, a type of metal polymer speaker network structure contains - polymer plastic layer 1 a coating layer 丨 2, and two adhesive layers n and 13 2 6 M358503 polymer plastic layer 11 has a The plating surface ln, and the plating surface u] contains, 'the perimeter region 112 and an adhesion region 113 and 113 a. The grid region 112 is raised along a normal direction I of the plating surface m, and the adhesion regions 113 and i3a are adjacent to both sides of the mesh region 112, respectively. The coating layer 12 is plated on the mesh region 112 to give the surface of the mesh region 112 a metallic luster. The adhesive layer 13 has a first bonding surface 131 and a second bonding surface 132, and is adhered to the bonding region 113 by the first bonding surface. The first adhesive surface 13A and the second adhesive surface 132a' are adhered to the adhesive region 113a by the first adhesive surface 13u; please refer to the third to the ninth, It is a schematic diagram showing the processing process of the first column of the creation. As shown in the third figure, in the course of the process, the four pictures of the two brothers in the second and second places are not. Then, a perforation η ' must be used to open a plurality of perforated private films. Mesh polymer plastic sheet 〖0, ί, the above-mentioned perforation process can be - stamping forming f-process, one ft A rj process and - mechanical drilling process to: outside, 5; Jia Ben Guan (four) in the 'system recommendations The stamping process and the layer are formed into two: 7: body mesh, and the surface of the selected electric ore is the electric ore surface 111: there are 2 holes S: the above mesh area Π2, and the remaining area adjacent to the net is 14 The area is the bonding area (1), and after the opening of the perforation 14 is not provided, as shown in the sixth figure, the first bonding surface 7 M358503 131 of the sleeve layer 13 is adhered to the bonding area 113. The first bonding surface 131a of the bonding layer 13a is bonded to the bonding region 113a. Preferably, the adhesive layers 13 and 13 a are at least one of a hot melt adhesive, a resin and a double-sided adhesive. At the practical application level, the processes shown in the third to fifth or third to sixth figures can be performed on only one single polymer plastic sheet 10, and also have a plurality of the above-mentioned polymers on one strip. The plastic sheet 10 is used to simultaneously perform a plurality of the above-mentioned polymer plastic sheets 10. However, under the condition that the strip has a plurality of the above-mentioned polymer plastic sheets 10, after completing the process shown in the fifth or sixth figure, a plurality of polymer plastic layers 11 must be cut from the strip to A single polymer plastic layer 11 is formed. As shown in the seventh and eighth figures, a carrier plate 2 can be prepared prior to electroplating, and the carrier plate 2 defines a plurality of plating holes 21. Then, the second bonding surface 132 of the bonding layer 13 and the second bonding surface 132a of the bonding layer 13a are further adhered to the carrier board 2, the polymer plastic layer 11 is adhered to the carrier board 2, and the grid of the plating surface 111 is formed. Zone 112 passes through plating aperture 21 (as shown in Figure 8). In this manner, a plurality of the above-mentioned polymer plastic layers 11 can be sequentially adhered to the carrier sheet 2 (as shown in the seventh drawing) for batch plating. As shown in the ninth figure, after completing the above steps, a non-conductive vacuum metallization (NCVM) process can be utilized, a vacuum sputtering process, a vacuum plating process, an electroless plating process, and an electrodeless plating process. The coating layer 12 described above is plated in the grid region 112 by at least one of the processes. In performing at least one of the above-described NCVM process, vacuum sputtering process, and vacuum plating process, one of the metal leather materials used may be at least one of nickel, gold, silver, copper, and chromium. In this embodiment, it is recommended to adopt an NCVM process. After the electroplating is completed, a further coating layer 8 M358503 2a is also plated on the carrier plate 2. Then, the second bonding surface 132 of the bonding layer 13 and the second bonding surface 32a of the bonding layer 13a are removed from the carrier board 2, so that the polymer plastic layer 1, the coating layer 12, and the bonding layers 13 and 13a constitute the above. Such as metal polymer speaker network structure〗. In other words, at this point, the production of the metalloid to the molecularly remaining sigma-network structure 1 has been completed. At the level of the operation, the coating layer 12 can be half-transparent. In this case, a colored layer can be attached to the surface of the semi-transmissive layer by an electro-technical technique, and the surface hardening technique can be used. The surface of the colored layer is further formed with an anti-friction layer to increase the durability of the color layer. Preferably, the surface hardening technique described above is an ultraviolet surface hardening technique. - Please refer to the tenth and eleventh figures in succession. The tenth figure shows the three-dimensional appearance of the metal singular singular q-net structure of the founding brothers. A metal polymer such as the second embodiment is created, and the cross-sectional view of the net structure is viewed along the Β-Β angle. As shown in the figure, a type of metal is still a thorn. The eight-frame structure 3 comprises a polymer plastic layer 31, a bond film layer 32 and an adhesive layer 33. The polymer plastic layer 31 has a plating surface 3, and the plating surface 311 includes a mesh region 312 and an adhesion region 313. Adhesion zone 313 is wrapped around and adjacent to mesh zone 312. The key film layer 32 is transferred over the grid region 312 so that the surface of the grid region 312 is 曰 cash = ze. The bonding layer 3 has a first bonding surface 331 and a second bonding surface 332 ′ and is adhered to the bonding region 313 by the first bonding surface 331 . Referring to Figure 12, it is shown that the polymer plastic layer of the second embodiment of the present invention can also be adhered to a carrier plate for batch plating. As shown in the figure, the second embodiment of the present invention can also be utilized. The first implementation = similar private production. Therefore, before carrying out the electric ore, another carrier plate 2 can be prepared, and the carrier plate 2 is opened with a plurality of plating holes (not shown). Then, the second bonding surface 332 of the bonding layer 33 is further adhered to the carrier board 2, and the polymer plastic layer 31 is adhered to the carrier board 2, and the grid area of the plating surface 311 is exposed from the plating hole 2丨. In this way, 9 M358503 can sequentially carry a plurality of the above-mentioned polymer layers (4), 2, for batch reading. Carrying board... Please read the thirteenth and fourteenth figures. The thirteenth picture shows the three-dimensional appearance of the metal polymer (4) (four) structure of the example of the sword of the sword, and the fourth picture shows the third Implementation: = In the case of another type of metal polymer t eight network structure}, take a palladium case such as metal 咼 molecular horn net: . Another polymer plastic mt plastic layer n. The polymer plastic layer η is electrically charged; the surface of the plating layer 111, and the plating surface 111 comprises a layer: 'f plating and 113a, and the second part of the disk 'Π112 and the two bonding areas (1), Π3, and 113a, The difference between the sorrow and the sorrow lies in the structure of the high-density network in the bonding area. The upper part understands the _ _1, the $ 仏 仏 仏 孟 孟 尚 尚 尚 尚 尚 尚 分子 尚 尚 分子 分子 摄 摄 摄 摄 摄 摄 摄 摄 摄 摄 摄 因此 因此 因此 因此Class 2; shiny coating layer 11; texture, so compared to the traditional ancient j = knife left σ eight network structure 1 metal technology 2 with more mesh structure coating pigment manufacturing of the dental hole 14 11 is the substrate, and the hole process is opened, so compared with the manufacturing process of the raw coating process or the mechanical drill to effectively reduce the material cost, the smearability is reduced. The organic substance residue causes the adhesion to hold W. The batch-type electroplating ^ 10 M358503 ^ is used to fabricate the metal-like polymer horn network structure 故', so that the manufacturing efficiency can be greatly improved. According to the above-mentioned creation example, the present invention can be used. The above embodiments illustrate that only the preferred technology of the present invention belongs to the prior art. When the domain may be those having ordinary skill in Example 3 of the present description and for the creation of the various other improvements and modified embodiments made _ based on these present embodiment creation of "creative spirit field is still present and are defined by the creation of patentable scope. BRIEF DESCRIPTION OF THE DRAWINGS The first figure shows a three-dimensional appearance of a metal polymer network structure such as the first embodiment of the present invention; the figure shows a sectional view/genus of the first network structure of the first embodiment of the present invention along the AA angle of view. ...· Figure to the ninth figure shows the schematic of the creation of the first - actual # - process; "Example - 糸列加弟 + the second embodiment of the creation of the network structure of the three-dimensional appearance; i inter-molecular mouth spur Eighty Ten If shows the cross-sectional view of the metal ancient eight ^ & / eight net structure along the B_B perspective of the second embodiment of the present creation; ^ knife left material system II shows the second embodiment filial piety - carrier board In order to facilitate the batch: owe " type ^ plastic layer can be - the system shows the third embodiment of the creation: the factory., the structure of the read outside Lang, · sigh high scores fourteen pictures of the system such as _ 仏颂The third embodiment of the metal polymer La M358503 σ eight network structure along the cc perspective view [main components symbol description I ' r II, 11, metal-like polymer speaker network structure 咼 molecular plastic layer 111 plating surface 112 network Grid 113, 113a, 113, 113a, bonding zone 12 forging layer 13 > 13a adhesive layer 131 ' 131a first bonding surface 132 , 132 a second bonding surface 14 , 14 , perforation 10 and molecular plastic sheet 10 , 2 ' 2 , mesh south molecular plastic sheet carrier plate 21 plating hole 2a coating layer 3 31 · 311 metal 鬲 molecular residual σ eight network structure to the molecular plastic layer plating surface M358503 312 grid area 313 bonding area 32 coating layer 33 bonding layer 331 first bonding surface 332 brother - bonding surface I normal direction