201240027 六、發明說明: 【發明所屬之技術領域] 本發明係有關於適用於製造或處理半導體裝 備,特別係有關於一種防止模封時基板條混料與 具之組合構造。 【先前技術】 目别半導體晶片在製造好積體電路之後仍必 封裝,才能組裝至印刷電路板,以供各式電子產占 由於半導體封裝之製程技術的進步,使得作為晶 之基板條(strip)的利用率提昇,每一條基板條與 片(die)的好壞與否都與生產成本息息相關。習知 先將晶片接合並電性連接至一基板條,之後將基 入一榼封機台,再利用複數顆封裝膠餅(compound 融化並注入模穴内,經固化以形成一能包覆晶片 體。模封機台所使用之模具以及基板條之種類係 戶的需求、產品種類等等而具有各種不同的彈性 一旦誤用錯誤之模具將使整條基板條以及其上所 晶片的報廢。並且,為了符合客製化彈性生產, 種類曰漸增多,故在製程中需要同時管理上千上 模具’以目前人工管理的方法往往容易因人為疏 成模具之誤用。 【發明内容】 有鑒於此,本發明之主要目的係在於提供一種 封時基板條混料與用錯模具之組合構造,藉以達 置之設 用錯模 須經過 *使用。 片載體 每一晶 封裝係 板條載 Pellet) 之封膠 依照客 调整, 搭载的 模具的 百套的 失而造 防止模 到模封 201240027 製程的彈性化生產。 本發明之次-目的係在於提供一種防止模封時 條混料與用錯模具之組合構造…由系統判別基 與杈具是否相匹配’藉此可判定是 條與模具。 】正確之 本發明的目的及解決其技術問題是採用以下技 案來實現的。本發明揭示一種防止模封時基板條混 用錯模具之組合構造,包含至少一人機操作界面、 個連接n以及複數個具有模具識別碼之模具隨行元 該人機操作界面係對應至一模封機台,用以… 台之可程式控制器(PLC)之溝通,並且該模封機台係 複數個模具安裴空間。該 ’、 —埂接窃係裝設於該模 口 ,以對應該些模具安|允P卩 、 該些模具隨行元件 拆卸地安置至該些連接器,以 文邊j程式控制器钸 二連接器讀取到對庫1 ΐ應女裝在該些模具安裝 模具識別碼。 二間内模 本發明的目的及解決装姓 措施進一步實現。其技.問題還可採用以下 在前述的防止模封砗其〜 ^ 、釕恰基板條混料與用錯模呈 構造中1些連接ϋ係可具有複數 用: 該些模具隨行元件。 Τ用以連 在前述的防止模封時基板條混料與用錯 構造中,該些模具隨行元件之型態係可選自於卡、片 連接裝置、·2連接器、標藏與卡匡之复中之201240027 VI. Description of the Invention: [Technical Field of the Invention] The present invention relates to a semiconductor device suitable for manufacturing or processing, and more particularly to a combination of a substrate strip mixture and a mold for preventing mold sealing. [Prior Art] The semiconductor wafer must be packaged after the integrated circuit is fabricated, so that it can be assembled to the printed circuit board, so that various electronic products can be used as a substrate strip for the semiconductor package. The utilization rate is improved, and the quality of each substrate strip and die is closely related to the production cost. Conventionally, the wafer is bonded and electrically connected to a substrate strip, and then the substrate is incorporated into a sealing machine, and then a plurality of encapsulating cakes are used (the compound is melted and injected into the cavity to be cured to form a coating wafer body. The mold used in the sealing machine and the type of the substrate strip are different in terms of the needs of the household, the product type, etc., and the wrong mold will cause the entire substrate strip and the wafer thereon to be scrapped. The production of elastic production is increasing, so it is necessary to manage thousands of molds at the same time in the process. The current manual management method is often easily misused due to artificial thinning. [Invention] In view of this, the main aspects of the present invention The purpose is to provide a combination structure of a sealing substrate strip and a wrong mold, so that the wrong mold must be used by *. The carrier of each chip package is loaded with Pellet). The loss of the hundred sets of molds carried out prevents the mold from being molded to the flexible process of the 201240027 process. The second aspect of the present invention is to provide a combination of a strip mix and a mold with a wrong mold when the mold is sealed. The system discriminates whether the base and the cookware are matched. Thus, the strip and the mold can be determined. 】 Correct The purpose of the present invention and solving the technical problems thereof are achieved by the following techniques. The invention discloses a combined structure for preventing misalignment of a substrate strip during molding, comprising at least one human-machine interface, a connection n and a plurality of mold-receiving elements having a mold identification code, the human-machine interface corresponding to a mold seal The machine is used to communicate with the programmable controller (PLC) of the station, and the mold sealing machine is a plurality of mold installation spaces. The ', 埂 埂 系 装 装 装 装 装 装 , , , , 埂 埂 埂 埂 埂 埂 埂 埂 埂 埂 埂 埂 埂 埂 埂 埂 埂 埂 埂 埂 埂 允 允 允 允 允 允 允 允 允 允 允 允 允The connector is read to the library 1 ΐ 女装 女装 在 该 该 该 该 该 该 该 该 该 该 该 该Two internal molds The object of the present invention and the measures for solving the surname are further realized. The technical problems can also be as follows. In the above-mentioned anti-mold sealing method, the splicing of the substrate strips and the use of the erroneous-mold structure may have a plurality of connections: the molds follow the components. Τ used in the above-mentioned anti-molding substrate strip mixing and mis-configuration, the type of the mold accompanying components can be selected from the card, the sheet connecting device, the 2 connector, the label and the card匡之复中
基板 板條 基板 術方 料與 複數 件。 封機 具有 封璣 係可 由該 技術 級合 接至 級合 USB 201240027 在前述的防止模封時基板條混料與用錯模 構造中,可另句令一《妬眛俅/ ^之、’且σ 另包3基板映像系統伺服器,係性六士 &、土 σβ 饰储存有一 = >月早,該編號清單係包含複數個模具識別㈣複數 個基板條識別則目匹配之資料,該人機操作界面係連線 至遠基板映像系統伺服器;當 ’、''' 田觸發一基板條入料訊 S玄人機操作界面要求與下載兮主抑 ’ ^ ^ ^ Μ、、扁唬π早,並藉由該人機 操作界面接收該些模具識別碼與該模封機台所入料之基 板條識別碼’依該編號清單比對兩者是否相匹配。土 由以上技術方案可以看出, ,.囬本發明之防止模封時基板 條混料與用錯模具之組合構 稱k ’具有以下優點與功效: 一、可藉由將模封機台之遠 接益與具有模具識別碼之模 具隨行元件連接作為其中 、 、干之技術手段,得知模封 機台中之模具識別碼, 、 判斷模具是否使用正確,即 防止用錯模具以及混4 枓的錯誤,藉以達到模封製 的彈性化生產。 一、可錯由基板映像♦綠 、 ” ·先词服器與人機操作界面連結作 為其中之一技術手段, 由基板映像系統伺服器之編 號清單中判斷基板 係硪別碼與模具識別碼是否匹 配’藉此判定是否佶田 使用了正確之基板條與模具。 【實施方式】 以下將配合所附圖示哉4 。平細說明本發明之實施例,然應 注意的是,該些圖示均為 〜 J句間化之示意圖,僅以示意方法 來說明本發明之基本架播+ — 攝或貫施方法,故僅顯示與本案 有關之元件與組合關係, /、 圖中所顯示之元件並非以實際 5 201240027 實施之數目、形狀 '尺寸做等比例繪製,某些尺寸比例 與其他相關尺寸比例或已誇張或是簡化處理,以提供更 清楚的描述。實際實施之數目、形狀及尺寸比例為一種 選置性之設計’詳細之元件佈局可能更為複雜。 依據本發明之第一具體實施例,一種防止模封時基板 條混料與用錯模具之組合構造舉例說明於第1圖之主要 架構圖。該防止模封時基板條混料與用錯模具之組合構 造1 00主要包含至少一人機操作界面u〇、複數個連接 器(connector)丨20以及複數個具有模具識別碼(_id chase ID)之模具隨行元件13〇。 該人機操作界面丨丨〇係對應至一模封機台丨〇,用以 10 H (programmable l〇gic controller,PLC)1 1之溝通。在此所指之「對應」係為數 量的對應以及裝設位置的靠近,表示每一台模封機台之 旁邊係配置一台人機操作界面。而人機操作界面係可為 精簡型電腦(thin client),具備基本的運算與比對功能並 提供可供人員操作之鍵盤或觸控式螢幕。特別注意的 是,該人機操作界面11 〇不是該模封機台1 〇内部的操作 界面,而是在該模封機台10外部額外連接之監控與比對 裝置。並且,該模封機台1 〇係具有複數個模具安裝空間 12,用以安裝複數個模具13。一般來說,每一套之該些 模八1 3係包含上模具、下模具與底模。該些模具1 3係 依照客戶的需求、產品種類等等而具有各種不同規格, 並能裝設於該些模具安裝空Μ 12内,以進行模封作業。 6 201240027 通常’在複數個基板條2〇 6 攸條20 π成黏晶與電性連接之步驟之 後,會進行模封作紫,i止 ,,^ t 、,、 先將該些基板條20裝載在該模 封機D 1 0内’再利用該b λ ^ ^ —扠具13進仃合模,於模穴内 灌封裝材料,以㈣該些基板條20上之晶片。 因此’該人機操作界面110係不是該模封機台10内 部的操作或/與控制元件,而g + > ^ 内 、 而疋在S亥模封機台1 〇外部之 連線監控裝置。通常該人機 钿作界面11 〇係可透過纜線 與该可程式控制器丨丨進行 連結。具體而言’除了精簡型 二::外,該人機操作界面"。亦可為攜帶型電腦或桌 =電腦’具有資料輸人、運算、比對及儲存等功能。 而遠可程式控制器u係該 x犋封機台1 〇内部的控制元 件’其係包含微處理器盥預 /、預先设定之程式或韌體,除了 要控制該模封機台1 〇内部 機件作動之外’亦應與該人 機插作界面1 1 0產生溝通。 如第丨圖所示,該此遠垃, — 妾益1 20係裝設於該模封機台 1 0 ’以對應該些模具安裝介 二間丨2。在此所指「對應」係 夺曰’編5虎與排列順戽的料庙 負序的對應。例如,該模封機台1〇有四 個模具安裝空間丨2時,當 此 4些核具安裝空間由左至右被 編好一、二、三、四,則名 、在5亥換封機台1 0的外露表面亦 會設置有四個連接器12。,由左至右亦被編號為一、二、 二、四,其中依序地編號1連接器係對應到㈣為_ 的模具安裝空間等。因此, 如第1圖所示,一個連接器 1 2 0將指定一個模具安裝 曰1 1 2 ’而一個模具隨行元件 1 3 0亦將指定一個模亘 、/、 柄具隨行元件内的識別碼代 7 201240027 表對應跟隨模具13的規格或種類,可由使用者自行編 裝1或可/α用模具本身的型號或規格,故依不同規格之 ,、’、會有不同之模具識別碼1 3 1,以供辨識與區別。 _二具行元件丨3 〇係可拆卸地安置至該些連接 器 1 2 0,以估今古1 丄., μ可权式控制器1 1經由該些連接器丨2 〇讀 取到對應安襄在該些模具安裝空間12内模具13之模具 識別碼1 3 1。炷e,丨、.七立α β 寻別'主思的疋,該些模具隨行元件1 3 0係 二 於歧些模具1 3之獨立元件,但應跟隨著該些 才旲具1 3的移勤j 4 而進仃移動’可避免在模封作業中被模具 的面溫燒毁。施^ . , 換5之’遠些模具隨行元件1 30的移動必 頁Ik仃於被札定之模具的移動,當模具調整位置,則該 些:具隨行元件13〇必須隨之移動。詳細而言,該些模 、通行元件1 30之型態係可選自於卡片、USB連接裝 置:RS232連接器、標藏與卡E之其中之一。具體而言, 如第2圖所示,該些連接器12〇係可具有複數個插針 12卜用以連接至該些模具隨行元件^ 3 〇。該些模具隨行 元件]3 〇係可具有複數個插孔1 3 2或是匹配於該些連接 器1 20的連接機構,以供該些連接器】2〇之對應插接。 該些插針121與插孔132係可例如為RS232公母接頭之 應用。或者,插針與插孔的位置可互換。再如第丨圖所 不,當邊些模具1 3安裝在該模封機台丨〇之該些模具安 裝空間丨2内,該些模具隨行元件丨3〇亦應連接至對應的 連接器1 20之後,可由該可程式控制器丨丨讀取出對應該 些杈具1 3之模具識別碼丨3丨。在本實施例中,A規格模 201240027 具1 3的杈具識別碼為「〗〇 〇 〇」;而B規格模具1 3中的 模具識別碼為「0 1 〇 〇」。該些模具識別碼係能以資料方式 儲存、條碼記錄的方式或是以電路短路的機械方式存在 於對應的模具隨行元件内。在本實施例中,則是利用訊 號針連接(pin connect)的方式,經由該些連接器12〇將該 些模具隨行元件1 3 0之模具識別碼丨3 1讀取出來以判 斷该些模具1 3之模具識別碼1 3 1是否都相同、規格是否 合乎規定、是否適用於該模封機台1〇,並判斷是否可以 生產、是否使用正確,即能防止用錯模具。 如第1圖所示’該防止模封時基板條混料與用錯模具 之組合構造100較佳可另包含一基板映像系統伺服器 (substrate mapping system server)140。該人機操作界面 1 1 0係連線至§亥基板映像系統伺服器1 4 〇。該基板映像系 統飼服器1 4 0係儲存有一編號清單1 4 1,該編號清單1 4】 係包含複數個模具識別碼與複數個基板條識別碼相匹配 之資料。但不受限定地’亦可運用在一個模封機台】〇 之單機作業下,該編號清單1 4 1可直接儲存在該人機操 作界面1 1 0内,由該人機操作界面丨丨〇進行識別碼的比 對,可節省額外成本。該編號清單14 1内係載有模具識 別碼與基板條識別碼相匹配之資料,故由該編號清單 1 4 1可得知哪些模具識別碼適用於哪些基板條識別碼、 或是某一種模具識別碼是否適用於某一種基板條識別 碼。一般來說’每一基板條20係具有一基板條識別碼 2 1用以註明該基板條20之規格、製造者資訊、生產批 9 201240027 號、檢查號、位置編號、母板之序號或其他相關製程之 ’扁唬等等。忒基板條識別碼2 i可為一維條碼、二維條碼 或其他型式之編碼,通常位於該基板條20之外表面之— 角隅或-邊緣’可藉由讀取機(㈣化)來解讀出該基板條 識別碼21。 如第3圖所示,顯示使用該防止模封時基板條混料與 用錯楔具之組合構造之實施流程圖。在模封的前置作業 中,該模封機台1〇係已完成該些模具13之調整設置並 將具有得該些模具識別石馬m之模具隨行元件連接至該 些連接器1 20。接著,將預進行模封步驟時,該些基板 條20被載入進料至該模封機台1〇,此時,該模封機台 會觸發一基板條入料訊號傳送至該人機操作界面 110。該人機操作界面丨10要求由該基板映像系統伺服器 I 40下載該編號清單丨4丨,以使該編號清單1 4 1被下載至 該人機操作界面Π 〇。同時,該人機操作界面n 〇會使 用SECS CEID功能去觸發一讀取機(圖未繪出),以讀取 已入料之基板條20之基板條識別碼2丨。並且,該人機 操作界面110檢查該基板條識別碼21是否在該編號清單 141的合格名單内’以避免基板條之混料發生。 此外,在載入基板條之前,可藉由該人機操作界面 II 〇接收該些模具識別碼1 3 1,並由操作人員預先輪入、 模封作業之基板條批號。當下載該編號清單1 4丨之後 便能依該編號清單1 4 1比對兩者是否相匹配,藉此殉 是否使用了正確之模具。例如,如第1圖所示,去士定 田讀收 10 201240027 連接器1 2 0對應連接至兮此y目r在/ 俠主及些杈具隨行元件1 3〇之後可 得知該些模具〗3之模呈 …、4別碼1 3卜如合用的A規格模 ’、13之模具識別碼131會被辨別為「1000」,一旦發現 :模封機台1。上安裝有對應B規格模具Η的模具識別 碼1 3 1 ’則被辨別為「 ㈧00」’再經比對之後,可以發現 B規格模具係錯誤的模且, 兴八3亥人機刼作界面11 0會發出 一錯誤訊息至該可程式控制 八控制盗1 1 ’以告知錯誤發生,如 此可知避免誤用模具之情形發生。 、並且’在模封作業中,該人機操作界面11G會持續檢 查被載人基板條之辨識碼,經比對後正確無誤,則不干 涉模封作業。經比對如發 發現有混入的它種基板條而不符 合該編號清單]41,則該人機操作界自ug可發出一邀 告訊號’以要求該模封機台1〇停止作業,故能防止模: 作業中基板條混料的錯誤。 依據本發明之第二具體實施例,用以說明多台模封機 台之運用場合。另—種防止模封時基板條混料與用錯模 具之組合構造200說明於第4圖之主要架構圖包含複 數個人機操作界面丨1G、複數個連接器(_neet2〇以 及複數個具有帛具識別碼之模具隨行元#丨3〇。其中與 第-實施例相同的主要元件將以相同符號標示,故可理 解亦具有上述之相同作用’在此不再予以贅述。 在本實施例中,該防止模封時基板條混料與用錯模具 之組合構造200係可同時運用於兩台以上模封機台 而配置有兩台以上的人機操作界面m,該些人機操作 第2圖: 第3圖: 201240027 界面Π 0並可連線至同一基板映像系統伺服 以該基板映像系統伺服器丨4 0管控適用於多 之編號清單,使其版本為一致。當其中之— 面Π0發現有用錯模具13之情形時,只停止 封機台10。另一正確無誤之模封機台丨〇可 程而不中斷,不致使整個模封作業停擺。 以上所述,僅是本發明的較佳實施例而己 發明作任何形式上的限制,雖然本發明已以 揭露如上’然而並非用以限定本發明,任何 術者’在不脫離本發明之技術範圍内,所作 修改、等效性變化與修飾,均仍屬於本發明 内。 【圖式簡單說明】 第1圖:依據本發明之第一具體實施例的一 時基板條混料與用錯模具之組合構 構圖。 依據本發明之第一具體實施例的該 連接器與模具隨行元件之連接示意 依據本發明之第一具體實施例的使 造之流程示意圖。 第4圖:依據本發明之第一具體實施例的另 封時基板條混料與用錯模具之組合 架構圖。 【主要元件符號說明】 為 1 4 0,gp 台模封機台 人機操作界 有錯誤之模 繼續製造流 ‘’並非對本 較佳實施例 熟悉本項技 的任何簡單 的技術範圍 種防止模封 造之主要架 、組合構造中 圖。 用該組合構 —種防止模 構造之主要 12 201240027 ίο 12 20 100 1 10 120 130 132 140 200 模封機台 11可程式控制器(PLC) #具安裝空間 a 模具 基板條 2 1基板條識別碼 1 2 1插針 1 3 1模具識別碼 防止模封時基板條混料與用錯模具之組合構造 人機操作界面 連接器 模具隨行元件 插孔 基板映像系統伺服器丨4 1編號清單 防止模封時基板條混料與用錯模具之組合構造Substrate slab substrate Technology and multiple parts. The sealing machine has a sealing system which can be joined to the grading USB 201240027 by the technical level. In the foregoing method for preventing the molding of the substrate strip during the mold-sealing and the use of the wrong-mold structure, another one can be ordered by "妒眛俅/^之之" σ In addition to the 3 substrate mapping system server, the system of the six-six & soil σβ decoration has a = > month early, the numbered list contains a plurality of mold identification (four) a plurality of substrate strips identify the matching data, the The man-machine interface is connected to the remote substrate mapping system server; when the ', ''' field triggers a substrate strip into the material interface, the S-human machine interface requirements and downloads are suppressed. ^ ^ ^ Μ, 唬 唬Early, and receiving, by the man-machine interface, the mold identification code and the substrate strip identification code of the mold machine to match whether the two match. The soil can be seen from the above technical solutions, and the combination of the substrate strip mixture and the wrong mold in the prevention of mold sealing has the following advantages and effects: 1. The mold sealing machine can be used. The remote connection and the mold accompanying components with the mold identification code are used as the technical means of the middle and the dry, and the mold identification code in the mold sealing machine is known, and whether the mold is correctly used, that is, the wrong mold and the mixed mold are prevented. The error is to achieve elastic production of the mold seal. First, it can be wrongly reflected by the substrate image ♦ green, ” first word server and human-machine interface as one of the technical means, the substrate image system server number list to determine whether the substrate system identification code and mold identification code Matching 'This determines whether or not the correct substrate strip and mold are used in Putian. [Embodiment] The following description will be made in conjunction with the attached drawing 哉4. The embodiments of the present invention will be described in detail, but it should be noted that the icons All of them are schematic diagrams of J-inter-sentences, and only the schematic method is used to explain the basic broadcast-to-camera or the method of the present invention. Therefore, only the components and combinations related to the present case are displayed, and the components shown in the figure are shown. It is not drawn in the actual number 5 201240027 implementation, the shape 'size is drawn in proportion, some size ratios and other related size ratios are either exaggerated or simplified to provide a clearer description. Actual implementation of the number, shape and size ratio A detailed component layout may be more complicated for an optional design. According to a first embodiment of the present invention, a substrate strip is prevented from being molded. The composite structure of the material and the wrong mold is exemplified in the main structure diagram of Fig. 1. The combination of the substrate strip mixture and the wrong mold when the mold is prevented is mainly composed of at least one human-machine interface u〇, a plurality of connections. A connector 丨20 and a plurality of mold accommodating elements 13 having a mold identification code (_id chase ID). The human-machine interface 丨丨〇 corresponds to a mold machine 丨〇 for 10 H ( "programming l〇gic controller, PLC) 1 1 communication. The "correspondence" referred to here is the number of correspondences and the proximity of the installation position, indicating that each man-made machine is equipped with a man-machine operation. interface. The human-machine interface can be a thin client with basic computing and comparison functions and a keyboard or touch screen for human operation. It is particularly noted that the man-machine interface 11 is not an internal operating interface of the molding machine 1 but an additional monitoring and comparison device external to the molding machine 10. Further, the molding machine 1 has a plurality of mold mounting spaces 12 for mounting a plurality of molds 13. Generally, each of the molds includes a top mold, a lower mold, and a bottom mold. The molds 13 are of various specifications according to the customer's needs, product types, and the like, and can be installed in the mold mounting spaces 12 for the mold sealing operation. 6 201240027 Usually, after the steps of a plurality of substrate strips 2〇6 2020 π into a sticky crystal and an electrical connection, the mold is sealed for purple, i stop, ^ t , , , first the substrate strips 20 Loading in the molder D 1 0 'reuse the b λ ^ ^ - the fork 13 into the mold clamping, filling the mold material into the cavity to (4) the wafer on the substrate strip 20. Therefore, the human-machine interface 110 is not an operation or/and control element inside the molding machine 10, but a connection monitoring device outside the g+ > ^, and outside the S-sealing machine 1 . Usually, the man-machine interface 11 can be connected to the programmable controller via a cable. Specifically, in addition to the streamlined two::, the man-machine interface ". It can also be a portable computer or table = computer's function of inputting, computing, comparing and storing data. The remote programmable controller u is the internal control component of the x-sealing machine 1 'which contains the microprocessor pre-/pre-programmed or firmware, except to control the laminating machine 1 In addition to the internal machine action, it should also communicate with the man-machine interface interface 1 1 0. As shown in the figure, the far-reaching, 妾益1 20 series is installed on the mold-sealing machine 1 0 ’ to correspond to the two molds. The term "correspondence" as used herein refers to the correspondence between the 5 tigers and the negative sequence of the arrangement of the temples. For example, when the mold sealing machine 1 has four mold installation spaces 丨2, when the four nuclear installation spaces are compiled from left to right, one, two, three, and four, the name is changed at 5 hai. The exposed surface of the machine 10 will also be provided with four connectors 12. From left to right, they are also numbered as one, two, two, and four, wherein the serial number 1 connector corresponds to (4) the mold installation space of _. Thus, as shown in Figure 1, a connector 120 will designate a mold to mount 11 1 2 'and a mold-carrying component 1 3 0 will also specify a mold, /, handle within the traversing component Identification code generation 7 201240027 The table corresponds to the specification or type of the following mold 13, and the user can manually assemble the model or specification of the mold or the mold itself, so according to different specifications, ', there will be different mold identification codes. 1 3 1, for identification and difference. _Two row elements 丨3 可 are detachably mounted to the connectors 1 2 0 to estimate the current 1 丄., μ 可 控制器 controller 1 1 via the connectors 丨 2 〇 read corresponding The mold identification code 1 31 of the mold 13 in the mold mounting space 12 is mounted.炷e, 丨,. 七立 α β 寻 ' 主 主 主 主 主 主 主 主 主 主 主 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该 该The movement of j 4 and the movement of 'moving' can be avoided by the surface temperature of the mold during the molding operation. If the mold is adjusted to the position, the following components must be moved. In detail, the modes of the modules and access elements 1 30 can be selected from the group consisting of a card, a USB connection device: an RS232 connector, a tag and a card E. Specifically, as shown in FIG. 2, the connectors 12 can have a plurality of pins 12 for connecting to the mold accompanying components. The mold-carrying components can be provided with a plurality of jacks 1 3 2 or a connecting mechanism matching the connectors 120 for the corresponding plug-in of the connectors. The pins 121 and 132 can be, for example, applications of RS232 male and female connectors. Alternatively, the positions of the pins and jacks are interchangeable. Further, as shown in the figure, when some of the molds 13 are installed in the mold mounting spaces 丨2 of the mold machine, the mold components 丨3〇 should also be connected to the corresponding connectors. After 1 20, the mold identification code 丨3 对 corresponding to the cookware 13 can be read by the programmable controller 丨丨. In the present embodiment, the cookware identification code of the A specification die 201240027 having 13 is "〗 〖 〇 〇 ;"; and the mold identification code of the B specification die 13 is "0 1 〇 〇". The mold identification codes can be stored in the corresponding mold-carrying components in the form of data storage, bar code recording or mechanical short circuit. In this embodiment, by means of a pin connect, the mold identification elements 丨3 1 of the mold-carrying components 1 300 are read out through the connectors 12 to determine the numbers. Whether the mold identification code 1 3 1 of the mold 13 is the same, whether the specifications are in compliance with the regulations, whether it is suitable for the molding machine 1 〇, and whether it can be produced or used correctly, can prevent the use of the wrong mold. As shown in Fig. 1, the combination of the substrate strip compounding and the misplaced mold for preventing the mold sealing 100 preferably further includes a substrate mapping system server 140. The man-machine interface 1 1 0 is connected to the § HM substrate server 1 4 〇. The substrate imaging system feeder 1 40 is stored with a number list 141. The number list 1 4 is a data containing a plurality of mold identification codes and a plurality of substrate strip identification codes. However, without limitation, it can also be used in a single machine operation of a mold-sealing machine. The number list 141 can be directly stored in the man-machine interface 1 1 0, and the man-machine interface 丨丨〇 Alignment of identification codes can save additional costs. The number list 14 1 carries the data that the mold identification code matches the substrate strip identification code, so that the number list 1 1 1 can know which mold identification codes are applicable to which substrate strip identification codes, or a certain mold. Whether the identification code is suitable for a certain substrate strip identification code. Generally, each substrate strip 20 has a substrate strip identification code 21 for indicating the specification of the substrate strip 20, manufacturer information, production batch No. 201240027, inspection number, position number, serial number of the motherboard or other Related processes of 'flat squats and so on. The 忒 substrate strip identification code 2 i may be a one-dimensional barcode, a two-dimensional barcode or other type of code, usually located on the outer surface of the substrate strip 20 - the corner - or - edge ' can be used by the reader ((4)) The substrate strip identification code 21 is read out. As shown in Fig. 3, a flow chart showing the construction of the combination of the substrate strip mixture and the wrong wedge when the mold is prevented is shown. In the pre-pressing operation of the mold, the molding machine 1 has completed the adjustment of the molds 13 and connects the mold-carrying components having the molds to identify the stone horses to the connectors 1 20 . Then, when the pre-molding step is performed, the substrate strips 20 are loaded into the molding machine 1〇, and at this time, the molding machine triggers a substrate strip feeding signal to be transmitted to the human machine. The operation interface 110. The man-machine interface 丨10 requires that the number list 丨4丨 be downloaded by the substrate mapping system server I 40 so that the number list 141 is downloaded to the man-machine interface Π. At the same time, the man-machine interface n 〇 uses the SECS CEID function to trigger a reader (not shown) to read the substrate strip identifier 2 of the substrate strip 20 that has been fed. Moreover, the man-machine interface 110 checks whether the substrate strip identification code 21 is within the qualified list of the numbered list 141 to avoid mixing of the substrate strips. In addition, before loading the substrate strip, the mold identification code 133 can be received by the man-machine interface II 并, and the substrate strip number of the operation is pre-wheeled and sealed by the operator. When the number list 1 4 is downloaded, it can be compared according to the number list 1 4 1 to match whether the correct mold is used. For example, as shown in Figure 1, the taxi reading and receiving 10 201240027 connector 1 2 0 is connected to the y mesh r after the / man and some cookware accompanying components 1 3 可 can know these The mold of the mold 〗 3 is ..., 4 different code 1 3 Bu if the combination of the A specification mold ', 13 mold identification code 131 will be identified as "1000", once found: mold machine 1. The mold identification code 1 3 1 ' with the corresponding B specification mold 安装 is identified as "(eight) 00". After the comparison, it can be found that the B specification mold is the wrong mold, and the Xing 8 3 Hairen machine interface 11 0 will send an error message to the programmable control eight control theft 1 1 ' to inform the occurrence of the error, so that the situation of avoiding misuse of the mold occurs. And, in the molding operation, the man-machine interface 11G continuously checks the identification code of the loaded substrate strip, and after correcting the alignment, does not interfere with the molding operation. If the substrate strip of the mixture is found to be inconsistent with the numbered list]41, the human-machine operating area may issue an invitation signal to request the mold-sealing machine to stop the operation. Can prevent mold: Error in the substrate strip mixing during operation. According to a second embodiment of the present invention, it is used to illustrate the application of a plurality of molding machines. In addition, the combination of the substrate strip mixing and the wrong mold is used to prevent the molding. The main structural diagram of the fourth drawing includes a plurality of personal computer operation interfaces 丨1G, a plurality of connectors (_neet2〇, and a plurality of cookware) The same element as the first embodiment will be denoted by the same reference numeral, so it can be understood that it has the same effect as described above', and will not be described again in this embodiment. The combination of the substrate strip mixing and the wrong mold in the mold sealing can be applied to two or more molding machines at the same time, and two or more man-machine interface m are disposed, and the man-machine operation is second. Figure: Figure 3: 201240027 Interface Π 0 and can be wired to the same substrate image system servo with the base image system server 丨40 control is applied to multiple numbered lists, making their versions consistent. When it is - Π0 When it is found that the wrong mold 13 is used, only the sealing machine 10 is stopped. Another correct and correct molding machine can be executed without interruption, so that the entire molding operation is not stopped. As described above, it is only the present invention. More The present invention has been described as being limited in any form, and the present invention has been described above, but is not intended to limit the invention, and modifications and equivalent changes may be made without departing from the scope of the invention. Modifications are still within the scope of the invention. [Simplified illustration of the drawings] Fig. 1 is a combination of a temporary substrate strip mixture and a wrong mold according to the first embodiment of the present invention. The connection between the connector and the mold accompanying component of the embodiment is schematically illustrated in accordance with the first embodiment of the present invention. FIG. 4 is a schematic diagram of the substrate stripping according to the first embodiment of the present invention. The combination of materials and wrong molds. [Main component symbol description] For the 140, gp table molding machine, the man-machine operation field has the wrong mode to continue manufacturing flow '' is not familiar with the preferred embodiment of the present technology. Any simple technical scope to prevent the main frame of the die-sealing, the combination of the construction of the figure. With this combination - the main mode of preventing the construction of the mold 12 201240027 ίο 12 20 100 1 10 120 130 132 140 200 Molding machine 11 Programmable controller (PLC) #With installation space a Mold base strip 2 1 Substrate strip identification code 1 2 1 Pin 1 3 1 Mold identification code to prevent substrate stripping during molding Construction of man-machine interface connector with material and wrong mold connector Molding component socket substrate imaging system server 丨 4 1 number list to prevent the combination of substrate strip mixing and wrong mold when molding