1328527 九、發明說明: 【發明所屬之技術領域】 -本發明係有關一種機殼圖樣成形方法,特別是一種於 電子裝置外殼形成立體圖樣之成形方法。 【先前技術】 如行動電話(Mobile phone )、個人數位助理(PDA )、 多媒體播放器(PMP、MP3 Player )'掌上型電腦(Hand-held ® PC、UMPC )或筆記型電腦(Notebook )等科技產品,其 具有強大之記憶以及運算功能,用以提供使用者儲存並處 ' 理數據資料,已成為目前相當普遍之個人隨身工具。而隨 ' 著科技技術不斷地發展與進步,體積更小、記憶容量更 大、運算效率更快之科技產品也隨著不斷地推陳出新,在 功能上,消費者可以有很多種選擇來滿足使用上之需求。 然而,無論是個人數位助理、掌上型電腦或是筆記型電 # 腦,由於内部電子零組件及體積上的限制,其外殼多為長 方形造型,其材質則為塑膠材質或是金屬材質,因此,這 些大量生產製造之電子資料處理裝置在外觀上多半呈現 生冷單調之科技產品感受,實已無法滿足目前消費者期望 擁有個人特質化、差異化之商品之需求。 或有廠商利用塗裝之技術推出不同顏色或鏡面塗裝 之外殼,又如美國第6327142號及第6775130號專利案揭 露以皮革等材料匹覆之外殼,都是希望能夠滿足消費者對 5 1328527 於科技產品外觀上的需求’然而單純在塗裝或材質上之改 變似乎仍嫌單調,因此英特爾公司(Intel corPoration )推 出一種元件交換機制(Interchangeability ),於元件交換機 制中提出了可以提供製造筆記型電腦的廠商更換筆記型 電腦面板的客制化(Customizable Notebook Panel )做法 (http://www.intel.com/cd/channel/reseller/asmo-na/eng/pr oducts/mobile/mprod/bb/271562.htm ),此一做法係於筆記 型電腦的外殼上設計一凹槽,凹槽上可以配置一繪製有所 需圖樣、影像的面板,如此除了使得生冷之筆記型電腦在 外觀上增添視覺上之趣味,更可符合消費者個人特質化及 差異化之需求。 可更換面板之客制化做法確實可以滿足個人化之需 求’但可更換之面板僅僅呈現平面之視覺感受,並無法呈 現出科技產品之質感。因此,目前可見的科技產品在外觀 質感上之呈現’仍無法滿足要求高質感之消費族群。 【發明内容】 現有科技產品為了解決生冷單調之外觀型態,或有提 供不同顏色或鏡面塗裝之外殼、或有可更換面板之外殼, 然其所呈現之外殼仍為平面之視覺感受,並且仍為考量到 科技產品在質感上的呈現,仍非科技產品外殼型態之最佳 設計。有鑑於此’本發明提出了一種於科技產品外殼上呈 現具南質感之立體圖樣成形方法。 1328527 根據本發明所揭露之圖樣成形方法,其係應用於一科 技產品之外殼,於外殼上經由複數個飾件佈列出圖樣,其 - 步驟包括: 以製圖手段於一基材上繪製出如圖形、符號或文字之 預設圖樣; 以結合手段將複數個飾件佈列於基材上; 複數個佈列於基材上之飾件構成一立體之圖樣型態。 •進一步根據本發明所揭露圖樣成形方法所應用之筆 記型電腦外殼,其包括有一殼體,殼體表面上設置有複數 • 個如鑽石之顆粒狀飾件,複數個顆粒狀飾件構成一圖形、 - 符號或文字之圖樣,以使得筆記型電腦外殼表面具有以鑽 石等飾件佈列出之圖樣。 根據本發明所揭露之圖樣成形方法,其中製圖手段及 結合手段皆可利用自動化機具進行,以自動或半自動生產 • 方式,於科技產品之外殼鑲覆鑽石,複數個鑽石可佈列出 圖形、符號或文字等立體圖樣,以在生冷單調之科技產品 上,賦予高質感之視覺感受,提昇科技產品在功能表現外 之產品價值。 有關本發明的特徵與實作,茲配合圖示作最佳實施例 詳細說明如下。 【實施方式】 根據本發明所揭露之圖樣成形方法,係於一科技產品 7 1328527 之外殼上以複數個飾件成形出立體圖樣,其中所指的科技 產品包括但不侷限於如行動電話(Mobile phone )、個人 數位助理(PDA )、多媒體播放器(pMP、MP3 Player )、 掌上型電腦(Hand-held PC、UMPC )或筆記型電腦 (Notebook)等電子資料處理裝置;其中所指的外殼材質 包括但不侷限於高分子材質(丙烯腈·苯乙烯-丁二烯共聚 物,Acrylonitrile Butadiene Styre (ABS))、鎂鋁合金材 質(Magnesium)、鈦合金材質(Titanium)或碳纖維材質 (Carbon-Fiber)等塑膠、合金或碳纖維材料;其中所指 的飾件包括但不侷限於珠寶、鑽石、重金屬、合金、水晶、 玻璃、壓克力或檜木等相同或不同於外殼材質之裝飾材 料’飾件並且包括但不侷限於不規則或規則顆粒狀、球 狀、方塊狀、長條狀等幾何形狀。而在以下本發明之具體 實施例,將以採用鎂鋁合金外殼之筆記型電腦並鑲覆鑽 石,作為本發明之具體實施例。 根據本發明所揭露之圖樣成形方法,其至少包括有製 圖手段步驟及結合手段步驟,其中的製圖手段係為以雷射 雕刻、轉印、鑽洗、钱刻、數位控制機床(Computer Numerical Control,CNC )、沖壓等加工方法於一基材上 形成一預設圖案,結合手段係以黏貼(Adhesive )、表面黏 著(Surface Mount Technology ,SMT )、鑲欲 (Mosaicking)、冶金鍵結(Bonding)等加工方法將飾件固 1328527 定於基材上,而在具體實施中,因基#與飾件材質上之選 擇,以及各種不同加工方法而使實施步驟有多種變化,或 - 是增加其他步驟,亦或是以全自動或半自動的方式進行。 第一實施例: 如「第1圖」所示,根據本發明第一實施例所揭露之 圖樣成形方法,首先先選取一基材10及複數個飾件20(步 驟100),基材10係為鎂鋁合金材質,複數個飾件20係 鲁 為鑽石;然後採雷射雕刻之製圖手段於基材10上表面上 形成複數個凹槽11而繪製出一預設圖樣30 (步驟200, - 並參閱第2A圖),預設圖樣可以為圖形、符號或文字, - 譬如「第2A圖」所示之花卉樣式;每一個凹槽11即可 設置一個飾件20並定義為一置件位置;以量測手段量測 各個置件位置之座標數據(步驟300 ),量測手段係採用 座標量測機計算;以黏貼方式作為結合手段,利用自動點 • 膠機根據步驟300所取得之座標數據,對每一個置件位置 塗佈接著劑40 (步驟400,並參閱第2B圖),進一步根 據步驟300所取得之座標數據,以自動插件機吸附飾件 20,將飾件20設置於各個置件位置(步驟500),採用固 化手段將接著劑固化(步驟600),固化手段可以為自然 固化或烘乾固化,使各個飾件20被固定於基材10上之凹 槽11,各個飾件20係凸出於基材10表面上,透過各個 飾件20於基材10上構成一立體圖樣31(步驟700,並參 9 閱第2C圖)。 以綴有飾件20之基材1〇 第3圖所示電腦之外殼(如 可呈現出斤日佈列為1卉樣式,即 之產品價值質感之視覺感受,進而增加筆記型電腦 另外’雷射雕刻係以雷射雕刻機以卫 式進仃預設崎3G之” 目動化的方 將會略有羔星.± 斤疋成之預設圖樣30 適用於客制化之方式。如欲採用大量 段,將圖荦、符於ί材10上利用如轉印之製圖手 + α案付諕或文字等墨印於基材10上, 田射雕刻,或是如洗床 !^式,皆屬第-實施例所稱之製如化學钱 弟一貫施例: 翁1圖'」所示’根據本發明第二實施例所揭露之 驟『〇〇),吴姑瓦先先選取一基材10及複數個料20(步 i 1G係為懸合金材質,複數個飾件20係 為鎮石;然後採數位控制機床之製圖手段於臬材10上表 2:上形= 复數:凹槽u而綠製出一預設圖樣3〇(步驟、 :中以數位控制機床(CNC)之製圖手段包含一預 於電知上緣製之數位圖形檀案,將數位圖形標案輸入於 數位控制機床之步驟’使數位控制機床根據數位圖形檔宰 之數據育料,利用如洗刀等工件於基材ι〇上加工出凹槽 1328527 個凹槽η即可設置—個斜件2〇並定義為一置件 ,^ /〜擇勒昆々八之結合手段,利闬自動點膠機根據數 位圖形輻案之數據資料,對每一個置件位置塗佈接著劑 40 驟4〇〇),進一步根據數位圖形禮案之數據資料, 以自動插件機吸附_件2Q,將料2q設置於各個置件位 置(步驟5〇1),採用固化手段將接著劑固化(步驟_), 手.又可以為自然固化或供乾固化,使各個飾件被 =於基材10上之凹槽11,各㈣件20係凸出於基材 产Γ牛面2,透過各個飾件20於基# 10上構成-立體圖 樣(步驟700 )。 用預發明第二實施例所揭露之圖樣咸形方法,係採 電腦上綠製之數位圖形檀案,因此每-個置件位 之量測”%即以決疋,因而可以省略第-實施例 程而採用全自動化方式,如此可以加快製作流 庄〜、〈過放位圖形樓案亦可製作出一模板,採用沖 :寺冲壓裝置’ 一次沖壓的動作即可形成全部之凹_ ,亦可再縮短所需之製作時間。 曰 ^外’如基材1G採用高分子材料(丙稀腈_苯 —烯共聚物,Acrylonitrile Butadi s 以狗 , Styre ( ABS))而 土膠射出成型機具製作,同樣 作出射出料,位圖形標案製 有凹描η 柯枓之基材1〇 —體成型 胃。因此’數位控制機床、沖屢裝置或塑谬射出 11 I328527 成型機具等加工方法,其透過數位圖形檔㈣可取得置件 ^置^數據資料,皆屬於本發明第二實施例之製圖手段。 弟二貫施例: 如帛5A 5B圖」所示,根據本發明第三實施例所 揭路之圖樣成形方法,其所採用之方法步驟相同於 2例或第二實施例’亦即同樣採用之f射雕刻、半自動機 二鐵洗、數位控制機床、沖壓裝置或塑膠射出成 2手段,根據本發明第三實施例所採用之製圖手段, 1 7材1〇上形成穿孔12來而綠製出一預設圖樣30,將 :孔_壁形成-接著面121,根據不同基…· 件20材質之特性而可採用不同之結合手段。 叙結合手段即如第-實施例及第二實施例所述;= 者劍40塗佈於接者面121上。亦或是將穿孔U製作為— 不等控孔’基材H)對應穿孔12小孔徑歧 ΗΠ。對應穿孔12大孔徑歧義為内表面⑽表面 之尺寸略大於穿孔12之尺寸,採用如自動插件機二1 吸附飾件2〇自基材ί0之内表面1〇2鑲歲於穿孔 構成緊配合,飾件20並凸出於夕卜 > 而 圖樣31。 “外表㈣1,以構成立體 20亦為鎂鋁 可採用冶金 又誊如基材10係為鎂鋁合金材質,飾件 合金材質或是其他金屬材質(如鈦合金材質 (Titanium)),於飾件2〇鑲嵌於穿孔12後、, 12 1328527 鍵結之結合亍段,冶金鍵結係施以两熱使基材i 〇與飾件 20產生相互擴散或合金化,同樣可以使飾件20被固定於 - 基材10之穿孔12上。 雖然本發明以前述之較佳實施例揭露如上,然其並非 用以限定本發明,任何熟習相關技藝者,在不脫離本發明 之精神和範圍内,當可作些許之更動與潤飾,因此本發明 之專利保護範圍須視本說明書所附之申請專利範圍所界 •定者為準。 【圖式簡單說明】 • 第1圖,係為本發明第一實施例之步驟流程示意圖; - 第2Α〜2C圖,係為本發明第一實施例之具體步驟實施 示意圖; 第3圖,係為本發明第二實施例之結構應用例圖; 第4圖,係為本發明第二實施例之步驟流程示意圖; • 第5Α、5Β圖,係為本發明第三實施例之具體步驟實 施示意圖。 【主要元件符號說明】 10 基材 101 外表面 102 内表面 11 凹槽 12 穿孔 13 20 傳件 3〇 預設圖樣 31 立體圖樣 40 接著劑 步驟100 選取一基材及複數個飾件 步騍200 以製圖手段於基材上形成凹槽而繪製 出預5又圖樣,並定義凹槽為置件位置 步驟300 以量測手段量測各個置件位置的座標 數據 步驟400 根據該座標數據於各置件位置上塗佈 接著劑 步驟500 根據該座標數據將複數個飾件設置於 各置件位置 步騍501 將複數個倚件設置於各置件位置 步驟600 以固化手段將接著劑固化 步騍700 複數個飾件固定於基材上構成一立體 圖樣1328527 IX. Description of the Invention: TECHNICAL FIELD OF THE INVENTION The present invention relates to a method for forming a casing pattern, and more particularly to a method for forming a three-dimensional pattern on an outer casing of an electronic device. [Prior Art] Technology such as Mobile Phone, Personal Digital Assistant (PDA), Multimedia Player (PMP, MP3 Player)' Handheld Computer (Hand-held ® PC, UMPC) or Notebook (Notebook) The product, with its powerful memory and computing functions, provides users with the ability to store and manage data, and has become a fairly common personal portable tool. With the continuous development and advancement of technology, the technology products with smaller size, larger memory capacity and faster computing efficiency are constantly being updated. In terms of functions, consumers can have many choices to meet the needs. Demand. However, whether it is a personal digital assistant, a palmtop computer or a notebook computer, due to internal electronic components and volume limitations, the outer casing is mostly rectangular in shape, and the material is made of plastic or metal. These mass-produced electronic data processing devices are mostly experienced in the appearance of cold and monotonous technology products, which can no longer meet the needs of consumers who currently desire personally differentiated and differentiated products. Or some manufacturers use the technology of painting to introduce different colors or mirror-coated outer casings. For example, the US Patent Nos. 6,327,714 and 6,775,130 disclose the outer shells covered with leather and other materials, all of which are expected to satisfy consumers' needs for 5 1328527. The demand for the appearance of technology products' However, the change in coating or material seems to be monotonous. Therefore, Intel CorPoration introduced an element exchange mechanism (Interchangeability), which provides manufacturing notes in the component exchange mechanism. Customized Notebook Panel practices for manufacturers of computer replacements (http://www.intel.com/cd/channel/reseller/asmo-na/eng/pr oducts/mobile/mprod/bb /271562.htm ), this method is to design a groove on the outer casing of the notebook computer, and the groove can be configured with a panel for drawing the desired pattern and image, so that the appearance of the notebook computer is added. Visually interesting, it can meet the needs of consumers' personal traits and differentiation. The customizable approach to replaceable panels does meet the needs of individualization', but the replaceable panels are only a flat visual experience and do not present the texture of a technology product. Therefore, the current appearance of technology products in the appearance of the texture is still unable to meet the demand for high-quality consumer groups. SUMMARY OF THE INVENTION Existing technology products are designed to solve the appearance of a cold and monotonous appearance, or to provide a different color or mirror-coated outer casing, or a casing with a replaceable panel, but the outer casing is still a flat visual experience, and Still considering the technical appearance of the technology products, it is still the best design of the outer shape of the technology products. In view of the above, the present invention proposes a three-dimensional pattern forming method which exhibits a south texture on the outer casing of the technology product. 1328527 The method for forming a pattern according to the present invention is applied to a casing of a technology product, and the pattern is listed on the casing through a plurality of ornaments, the steps of which include: drawing a drawing on a substrate by means of drawing A preset pattern of graphics, symbols or characters; a plurality of ornaments are arranged on the substrate by means of a combination; a plurality of ornaments arranged on the substrate form a three-dimensional pattern. Further, in accordance with the notebook computer casing to which the pattern forming method of the present invention is applied, a casing includes a casing having a plurality of granular members such as diamonds, and a plurality of granular members forming a pattern. , - A symbol or a pattern of text, such that the surface of the notebook case has a pattern listed in a piece of diamond or the like. According to the pattern forming method disclosed in the present invention, the drawing means and the combining means can all be carried out by using automatic tools, and the diamonds of the technology product are covered with diamonds in an automatic or semi-automatic production manner, and a plurality of diamonds can be arranged to display graphics and symbols. Or a three-dimensional pattern such as text, to give a high-quality visual experience on the cool and monotonous technology products, and enhance the product value of the technology products in addition to the functional performance. The features and implementations of the present invention are described in detail with reference to the preferred embodiments. [Embodiment] According to the present invention, a pattern forming method is formed on a casing of a technology product 7 1328527 by forming a three-dimensional pattern with a plurality of ornaments, wherein the technical products referred to include, but are not limited to, a mobile phone (Mobile). Electronic data processing device such as phone), personal digital assistant (PDA), multimedia player (pMP, MP3 Player), palm-sized computer (Hand-held PC, UMPC) or notebook (Notebook); Including but not limited to polymer materials (Acrylonitrile Butadiene Styre (ABS)), Magnesium, Titanium or Carbon ) plastic, alloy or carbon fiber materials; the parts referred to include, but are not limited to, jewelry, diamonds, heavy metals, alloys, crystals, glass, acrylic or eucalyptus, etc. And including but not limited to irregular or regular granular, spherical, square, long strip and other geometric shapes. In the following specific embodiments of the present invention, a notebook computer using a magnesium-aluminum alloy casing and a diamond-covered stone will be used as a specific embodiment of the present invention. A pattern forming method according to the present invention includes at least a drawing means step and a combining means step, wherein the drawing means is laser engraving, transfer, drilling, money carving, and computer numerical control (Computer Numerical Control, CNC), stamping and other processing methods form a predetermined pattern on a substrate, the bonding means are Adhesive, Surface Mount Technology (SMT), Mosaic (Mosaicking), Metallurgical Bonding (Bonding), etc. The processing method fixes the trim 1328527 on the substrate, and in the specific implementation, there are various changes in the implementation steps due to the selection of the base # and the material of the trim, and various processing methods, or - adding other steps, It can also be carried out in a fully automatic or semi-automatic manner. First Embodiment: As shown in FIG. 1 , according to the pattern forming method disclosed in the first embodiment of the present invention, first, a substrate 10 and a plurality of trims 20 are selected (step 100), and the substrate 10 is For the magnesium-aluminum alloy material, a plurality of decorative parts 20 are made of diamonds; and then a laser engraving drawing means forms a plurality of grooves 11 on the upper surface of the substrate 10 to draw a predetermined pattern 30 (step 200, - And refer to FIG. 2A), the preset pattern can be a graphic, a symbol or a text, - for example, a floral pattern as shown in "Fig. 2A"; each of the grooves 11 can be provided with a trim 20 and defined as a placement position. Measuring the coordinate data of each placement position by measuring means (step 300), the measuring means is calculated by the coordinate measuring machine; using the pasting means as a combination means, using the automatic point glue machine to obtain the coordinates according to step 300 Data, applying an adhesive 40 to each of the placement positions (step 400, and referring to FIG. 2B), and further, according to the coordinate data obtained in step 300, the automatic inserter adsorbs the trim 20, and the trim 20 is placed in each Placement position (step 50 0), curing agent is cured by curing means (step 600), the curing means may be natural curing or drying curing, so that each trim 20 is fixed to the groove 11 on the substrate 10, and each trim 20 is convex. On the surface of the substrate 10, a three-dimensional pattern 31 is formed on the substrate 10 through the respective trim members 20 (step 700, and reference is made to Fig. 2C). The outer casing of the computer shown in Fig. 3 is embossed with the base material of the decorative part 20 (for example, it can be presented as a genius of the cloth, which is the visual sense of the product value, thereby increasing the notebook computer and the other 'lei The shooting engraving system uses the laser engraving machine to enter the preset 3G. The illuminating side will have a slight lamb star. The preset pattern 30 of the jinyu is suitable for the customized way. Using a large number of segments, the image on the ί10, using the transfer of the drawing hand + alpha case or text, etc. on the substrate 10, field sculpture, or such as washing the bed! ^, All of them are referred to in the first embodiment. For example, according to the embodiment of the chemical pharmacy: "When the figure 1" is shown, the "cursor according to the second embodiment of the present invention", Wu Guwa first selects a base. Material 10 and a plurality of materials 20 (step i 1G is a suspension alloy material, and a plurality of decorative parts 20 are made of town stone; then a digital control machine tool is used for drawing on the coffin 10 on the table 2: upper shape = plural: groove u and green produce a preset pattern 3〇 (step: the digital control machine tool (CNC) drawing means includes a digital graphic sandalwood file that is pre-determined by the upper edge system. The step of inputting the digital graphic standard into the digital control machine tool enables the digital control machine to nurture the data according to the digital graphic file, and the workpiece 133027 groove η can be processed on the substrate by using a workpiece such as a washing knife. Set - a diagonal piece 2 〇 and define it as a set, ^ / ~ choose Le Kun 々 eight combination means, Li Wei automatic dispenser according to the data of the digital graphics file, coating each placement position Agent 40 (4)), according to the data of the digital graphic ceremony, the automatic plug-in machine adsorbs _ 2Q, sets the material 2q at each position (step 5〇1), and cures the adhesive by curing means (Step _), the hand can be naturally cured or dry-cured, so that each trim piece is replaced by a groove 11 on the substrate 10, and each (four) piece 20 is protruded from the substrate to produce a sirloin 2, through Each of the garnishes 20 constitutes a three-dimensional pattern on the base #10 (step 700). With the pattern of the pre-inventive second embodiment, the method of salty shape is adopted, and the digital figure of the green type on the computer is taken, so each one is placed The measurement of the position "%" is a decision, so the first embodiment can be omitted. Cheng uses a fully automated method, which can speed up the production of the flow of the village ~, <over-placement graphics can also create a template, using the punch: temple stamping device's one stamping action can form all the concave _, can also Then shorten the required production time. 曰^外', such as the substrate 1G is made of polymer material (acrylonitrile- benzene-ene copolymer, Acrylonitrile Butadi s dog, Styre (ABS)) and soil glue injection molding machine, Similarly, the injection material is produced, and the bit pattern is made of a concave η 枓 枓 枓 基材 基材 体 体 体 体 体 体 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 。 The graphic file (4) can obtain the setting data and the data, which are all the drawing means of the second embodiment of the present invention. The second embodiment: as shown in FIG. 5A 5B, the method for forming a pattern according to the third embodiment of the present invention has the same method steps as the second example or the second embodiment. The method of drawing, semi-automatic machine, iron washing, digital control machine tool, stamping device or plastic injection is 2, according to the drawing method used in the third embodiment of the present invention, the perforation 12 is formed on the 1st material and the green is made. A predetermined pattern 30 is formed, which is formed by the hole_wall forming-conducting surface 121, and different bonding means can be adopted according to the characteristics of the material of the different parts. The combination means is as described in the first embodiment and the second embodiment; the = sword 40 is applied to the contact surface 121. Alternatively, the perforations U can be made as - the unequal control aperture 'substrate H) corresponding to the perforation 12 small aperture. Corresponding to the perforation 12, the large aperture ambiguity is that the surface of the inner surface (10) is slightly larger than the size of the perforation 12, and is used, for example, by an automatic plug-in machine 2, an adhesive trim 2, and an inner surface of the substrate ί0. The trim 20 is convex and the pattern 31. "Appearance (4) 1 to form a solid 20 is also a magnesium-aluminum metallurgy and such as a substrate 10 series of magnesium-aluminum alloy material, decorative alloy material or other metal materials (such as titanium alloy (Titanium)), in the decoration 2〇After the perforation 12, 12 1328527 bond junction, the metallurgical bonding system applies two heats to make the substrate i 〇 and the ornament 20 interdiffuse or alloy, and the trim 20 can also be fixed. The present invention is disclosed in the above-described preferred embodiment of the present invention. The present invention is not limited to the scope of the present invention, and the present invention is not limited to the spirit and scope of the present invention. The scope of the patent protection of the present invention is subject to the scope of the patent application attached to the specification. [Simplified illustration] Fig. 1 is the first 2 is a schematic diagram of a specific step of the first embodiment of the present invention; FIG. 3 is a structural application example of the second embodiment of the present invention; Is the invention The flow chart of the steps of the embodiment; • The fifth and fifth drawings are schematic diagrams of the specific steps of the third embodiment of the present invention. [Description of main components] 10 substrate 101 outer surface 102 inner surface 11 groove 12 perforation 13 20 Passing 3〇Preset pattern 31 Stereo pattern 40 Next step Step 100 Select a substrate and a plurality of trim steps 200 to form a groove on the substrate by drawing means to draw a pre-5 pattern, and define the groove as The placement position step 300 measures the coordinate data of each placement position by the measuring means. Step 400 applies an adhesive agent to each placement position according to the coordinate data. Step 500, according to the coordinate data, a plurality of decorative parts are disposed on each of the components. Positioning step 501: arranging a plurality of spacers at each of the placement positions. Step 600 is performed by a curing means to fix the adhesive curing step 700. The plurality of decorative parts are fixed on the substrate to form a three-dimensional pattern.