M427387 五、新型說明: 【新型所屬之技術領域】 [0001] 本創作係關於一種驅動裝置與控制裝置結構上的整合, 尤指一種將馬達裝置與控制裝置組裝為一體以供使用之 模組化結構,其中馬達裝置可選擇性單獨使用。 【先前技術】 [0002] 縫紉設備初步針對不同使用者的使用目的,可將縫紉設 備的自動化程度先分為全自動化與半自動化的工業用和 • 家用產品設備,且伴隨著操作者對於缝制功能各種不同 的需求、多樣化縫制要求以及縫紉設備自身技術的提昇 之下,縫紉設備的種類也相應地隨之增加。 [0003] 於市場和消費結構的調整下,缝紉設備的產品結構從中 低速轉向尚速化、系列化方向發展,同時更導入電子、 電機技術,使縫製設備開始廣泛的應用,以習用之工業 用缝紉設備為例,如第1圖中所示,縫紉設備9 〇係裝 置於一作業用之工作台91,縫紉設備9〇包含有一縫 ♦ 、初機9 2、-驅動裝置9 3與-控制裝置9 4,其中分 別將縫紉機9 2裝置於工作台9 i上方,而於工作台9 1下方配置驅動裝置9 3,並於驅動裝置9 3的下方固 定有控制裝置9 4 ’以利用控制裝置9 4導人電子電機 技術,使工__設備電子化,大幅降低操作技術門 檻’且能以自動化機械來取代部分需操作者手動作業步 驟’所以㈣應各式縫制要求,使得各種不同功能的縫 紉設備種類也如雨後春筍般一一現 ^以供操作者選擇 利用。 表單編號A0101 第3頁/共38頁 M427387 [0004] 於此上述前提下各家製造商所設計生產的縫紉機9 2為 因應缝制要求而有需要不同輸出動力的驅動裝置9 3, 且為應用於各式操作作業步驟而要搭配不同控制裝置9 4,使習用之缝紉設備9 0通常必需配合縫紉機9 2功 能選用適當的驅動裝置9 3與控制裝置9 4,因此習用 之縫紉設備9 0如第1圖中所示,其工作台9 1下方之 驅動裝置93與控制裝置94已佔去工作台91下方大 部分空間,再加上工作台9 1上方之縫紉機9 2所佔空. 間,造成工作台91可供操作者使用空間被缝紉設備9 0大幅限制,特別是對於尚需操作者手動作業的步驟流 程帶來空間上的阻礙,也增加了不便利性,使原本自動 化操作所能縮短作業時間、簡化操作步驟流程以及其所 帶來的操作便利性的功效打了折扣。 【新型内容】 [0005] 有鑑於此,創作人係針對習用縫紉設備所包括之驅動裝 置與控制裝置兩者的配合結構進行改良,提供一種模組 化的驅動裝置與控制裝置的配合結構,以將一驅動模組 與控制模組兩者一體組裝提供給操作者使用,達到減縮 習用縫紉設備對操作者使用空間的限制,提昇整體作業 流程之便利性,並同時保有原自動化操作的優點。 [0006] 本創作中之模組結構中之驅動、散熱模組透過殼件組合 而能模組化為一可供單獨使用之核心馬達裝置,且馬達 裝置藉由其他殼件之組合而能模組化組合不同功能模組 一起搭配使用,而於有特殊縫紉需求的情況下,其功能 模組也能利用殼件單獨分離出來搭配馬達裝置共同使用 表單编號A0101 第4頁/共38頁 ,使馬達裝置可藉殼件組合以因應不同縫紉需求而能模 組化搭配各種功能模組一併使用,以擴大整體適用範圍 ,並具有模組化搭配之靈活應用特點。 [0007] 為達上述目的,本創作所採用的技術手段包括一第一殼 件,該第一殼件具有一第一内筒體與一第一外罩體,該 第一外罩體包覆該第一内筒體外側;一第二殼件,該第 二殼件裝置於該第一殼件一端,且於兩殼件之間形成有 一第一裝置區。 [0008] 該第一裝置區中裝置有一驅動模組,該驅動模組包括有 一傳動軸,該傳動軸一端穿出該第一裝置區並於其上裝 置有一皮帶輪。該皮帶輪兩側各設置有一皮帶輪蓋,用 以將皮帶輪夾於兩皮帶輪蓋内部並組裝為一體。 [0009] 該傳動軸上設有一驅動組件,該驅動組件包括一定子與 一轉子。 [0010] 該第一内筒體設有一第一散熱孔組,該第二殼件設有一 第二散熱孔組。 [0011] 該第一内筒體與該第一外罩體之間夾設有一第一散熱孔 組,且該第二殼件對應該第一散熱孔組的位置設有一第 二散熱孔組。 [0012] 該第一散熱孔組具有四第一散熱孔,該第一散熱孔分別 位於該第一内筒體與該第一外罩體之間所夾的四角落處 ,該第二散熱孔組各具有四第二散熱孔,該第二散熱孔 分別位於該第二殼件封閉端的四角落處。 表單編號A0101 第5頁/共38頁 M427387 [0013] 於本創作之模組結構中,該第二殼件開放端可選擇裝置 一第二端板或是一第三殼件並於其間形成有一第二裝置 區,且於該第二裝置區中裝置有一散熱模組。 [0014] 該散熱模組包括有一風扇、一貫穿該第二殼件的第二進 氣孔組以及一自該第三殼件往該第二裝置區延伸的第二 鰭片組,該第二進氣孔組包括複數貫穿該第二殼件以與 外部相通的進氣孔,且該第二鰭片組包括複數用以導熱 之鰭片。 [0015] 於該第二殼件嵌設有一導流蓋,以將該風扇夾設於該第 二殼件與該導流蓋之間。該導流蓋對應該風扇位置設有 一導流口,且該導流口開口範圍小於該風扇。 [0016] 於本創作之模組結構中,該第三殼件開放端可選擇裝置 一第三端板,並於兩者間形成有一第三裝置區,且於該 第三裝置區中裝置有一第一控制模組,或是於其開放端 裝置一第四殼件,該第四殼件以其開放端裝置於該第三 殼件開放端,並分別於第三殼件的第三裝置區中裝置有 一第一控制模組,於第四殼件的第四裝置區中裝置有一 第二控制模組。 [0017] 該第三殼件上預設有一組裝開口並於第三裝置區中裝置 有一第一控制模組,該第一控制模組包括有一嵌設於該 組裝開口的控制面板、一嵌設於該控制面板内側的面板 機板以及一裝置於該第三殼件内側的第一機板。 [0018] 該第一機板上裝置有一電源插件,且該第三殼件對應該 電源插件設有一電源接口,該電源插件藉由該電源接口 表單編號A0101 第6頁/共38頁 M427387 穿出該第三殼件,以利一外部供電裝置連接。該第一機 板與該面板機板裝置於該第三殼件之相鄰内側面上。 [0019] 該第四裝置區中裝置有一第二控制模組,該第二控制模 組包括有該第四殼件往内延伸之一對支撐柱與裝置於該 支撐柱之一第二機板。 [0020] 於本創作之模組結構中,為符合特殊縫紉需求,可選擇 於該第四殼件開放端裝置有一第四端板,以單獨使用第 四殼件於其第四裝置區中所裝置的第二控制模組。 [0021] 另可選擇於該第四殼件開放端裴置有與前述相同的第三 殼件,並於第三殼件封閉端處裝置一第三端蓋,以利單 獨使用第二、四殼件於其第三、四裝置區中所裝置的第 一、二控制模組。 [0022] 本創作所採用的具體實施例,將藉由以下之實施例及附 呈圖式作進一步之說明。 【實施方式】 [0023] 請參閱第2及3圖所示’其係顯示本創作第一實施例立 體示意圖與立體分解示意圖,本創作馬達與控制裝置之 模組結構1 〇 〇包括一第一殼件1 0、一第二殼件2 0 、一第三殼件3 〇以及第四殼件4 0,模組結構1 〇 〇 藉由第一殼件1 0、第二殼件2 0、第三殼件3 0以及 第四殼件4 0而如第4圖中所示分隔為第一裝置區1 〇 1、第一裝置區1 02、第三裝置區1 〇 3以及第四裝 置區1 0 4。 [0024] 同參第5圖中所示,第一殼件1 〇由一第一内筒體1 1 表單编號Α0101 第7頁/共38頁 M427387 [0025] [0026] [0027] [0028] 與一第一外罩體12所構成,於本實施例中,第一内筒 體1 1為一端封閉中空圓柱體,其外部包圍有第一外罩 體1 2的方框體,且第一内筒體丄丄於其封閉端預設有 一第一軸孔111» 第一设件1〇於圓形的第二内筒體11與方形的第一外 罩體1 2之間所夾的四角落處設有一第一散熱孔組工3 ,第一散熱孔組13包含有4個第一散熱孔1 3丄、工 32、133、134° 第一殼件1 〇另從第一散熱孔組i 3的第一内筒體工工 外表分別往第一外罩體1 2方向延伸出一第一螺孔耳工 41、142、143、144。 同參第6圖中所示,第二殼件2 0為一端封閉的中空四 角柱體,第二殼件2 0於其封閉端對應第一軸孔1工工 的位置預留有一第二軸孔21,並另對應第一内筒體i 1開口端設有一圈凸沿2 2,第二殼件2 〇藉由其一側 上的凸沿2 2對應套合裝置於第一殼件i 〇開口端,使 於兩殼件之間如第4圖中形成有一第一裝置區1〇1, 並於第一裝置區10 1中裝置有一驅動模組5 〇 ^ 第二殼件2 0對應第一散熱孔組1 3各第一散熱孔1 3 1、132、133、134的位置設有一第二散熱孔 組2 3,第二散熱扎組2 3包含有4個貫穿第二殼件2 0封閉端四角落處的第二散熱孔23 1、232、2(3 3、2 3 4,且第一散熱孔組1 3與第二散熱孔組2 3 構成一散熱通道。第二殼件2 0另對應第一螺孔耳工4 表單编號A0101 第8頁/共38頁 M427387 ^1142 1143 114 4設有第二螺孔耳2 4 1、 242、243、244,以供螺絲S1穿經第二螺孔 耳241、242、243、244與第一螺孔耳14 工、142 '143、144而將第二殼件2 0鎖固於 第一殼件1 〇的開口端。 [0029]同參第7圖中所示’驅動模組5 〇包覆於第一内筒體1 1内並包括有一傳動軸51’傳動軸51上設有一驅動 組件5 2 ’且驅動組件5 2包括一定子5 2 1與一轉子 5 2 2 ° [〇〇3〇]傳動轴5 1兩端分別為一第一端5 χ丄與一第二端5工 2,其第一端511由第一轴孔11丄穿出第一裝置區 1 Ο 1並於其上裝置有一皮帶輪5 3 ,使皮帶輪53裝 置於第一殼件1 〇外,且皮帶輪5 3兩側各設置有一皮 帶輪蓋5 4 1、5 4 2於第-端5 1 1,用以將皮帶輪 53夾於兩皮帶輪蓋54 1、542内部並組裝為一皮 帶輪組。 [_同參第8圖中所示,第三殼件3 〇為—端封閉的中空四 角柱體並裝置於第二殼件2 Q開σ端,使於兩殼件之間 如第4圖中所示形成有—第二裝置區1 0 2,並於第二 I置區1 0 2裝置有一散熱模組6 〇。 闕於第3財,散熱模組6G包覆於第二殼件2〇内並包 括有-風扇6 1、一第二進氣孔組6 2與一第二鰭片組 6 3且如第7圖中所示,驅動模組5〇中之傳動轴5 1其第二端512由第二殼件20的第二軸孔穿入第二 表單編號Α0101 第9頁/共38頁 [0033]M427387 裝置區1 Ο 2 ’以供風扇6 1裝置於第二端5 1 2上, 而使風扇6 1裝置於第二殼件2 0封閉端處。 於第·一·设件2 0封閉端處另嵌設有一導流蓋6 4,以將 風扇6 1夾設於第二殼件2 0封閉端與導流蓋6 4之間 ’導流蓋6 4對應風扇6 1位置設有一導流口 6 4 1, 且導流口 6 4 1開口範圍小於風扇6 1。 [0034] 第二殼件2 0於其外側表面處設有第二進氣孔組6 2, 且第二進氣孔組6 2包括有複數貫穿第二殼件2 〇以與 外部相通的進氣孔,而第二鰭片組6 3為自第三殼件3 0其封閉知在第一裝置區1 〇 2方向所延伸出複數用以 導熱之鰭片。 [0035] 如第9圖中所示,散熱模組6 〇中之風扇6丄開始旋轉 進行散熱時,風扇6 1從第二進氣孔組6 2的進氣孔由 外部吸入空氣產生一散熱氣流A,且散熱氣流Α藉由導 流蓋6 4的導流口6 4 1而能夠往第二散熱孔組2 3移 動0 [0036] 接下來,如第1〇厨中所示,散熱氣流A依序沿著第二 散熱孔組2 3 (圖中僅表現出第二散熱孔231、23 2)往第一散熱孔組i 3 (圖中僅對應表現出第一散熱 孔131、132)移動,且由於第一散熱孔組13係 環繞於驅動模組5 0外圍,所以風扇6 }所產生之散熱 氣机A即可藉由流經散熱通道的第一散熱孔組1 3區段 的同時,一併帶走驅動模組5 〇所產生的熱,散熱氣流 A最後由第一散熱孔組13其位於皮帶輪組同側的開口 表單編號A0101 第10頁/共38頁 [0037] 吹出外部。 於第8圖中’第三殼件3 〇外表面上預設有__組裝開口 3 1且其内部如第4圖中所示具有一第三裝置區丄〇3 第一裝置區1 〇 3中裝置有一第一控制模組7 〇,且 第一喊件3 0自其封閉端延伸有一組固定塊3 2。 [0038] 第一控制模組7 〇包覆於第三殼件3〇内並包括有一控 制面板7 1、一面板機板7 2與一第一機板7 3,其控 制面板7 1嵌設於第三殼件3 0的組裝開口 3丄處,並 於控制面板7 1内側嵌設有面板機板7 2且與控制面板 71固定組裝為一體。 [0039] 第機板7 3鎖合固定於固定塊3 2,使第一機板*7 3 與政熱模組6 0之第二鰭片組6 3分別處於第三殼件3 0封閉端的兩側,且如第i i圖令所示第一機板7 3所 產生的熱可以藉由第二縛片組6 3之簿片傳導至第二裝 置區10 2,並同樣藉由散熱模組6 〇其風扇6丄所產 生之散熱氣流A帶走機板所產生的熱。 [0040] 第一機板7 3上另裝置有一電源插件γ 4,第三殼件3 0對應電源插件7 4設有一電源接口 3 3,第一機板7 3上的電源插件7 4藉由電源接口3 3穿出第三殼件3 0,以供外部供電裝置(圖中未示)連接經電源接口 3 3插置於電源插件7 4上。 [0041] 第三殼件3 0於其開口端以螺絲s 2固定有一第四殼件 4 0,使第二设件3 0開放端裝置於第四殼件4 〇開放 端。第四设件4 〇内部如第4圖中所示具有一第四裝置 表單編號Α0101 第11頁/共38頁 M427387 [0042] [0043] [0044] [0045] [0046] 區1 Ο 4 ’並於第四裝置區1 〇 4中装署亡 ^ _ 4 丁哀置有一第二控制 模組8 0。 同參第17圖’第二控制模組80於其封閉端往内延伸 有一對支撐柱8 1、8 2,並於支撐杈8丄、8 2頂端 裝置有一第二機板8 3。 於實際使用時,利用由第6圖中之第二殼件2 〇往外延 伸出一頂連結塊25與一側連結塊26,用以與一聊座 2 7聯接。 頂連結塊2 5上貫穿有-頂連結孔2 5 χ,側連結塊2 6上貫穿有一侧連結孔2 6 1,腳座2 7一端直接固定 於頂連結塊25的頂連結孔251,其另一端透過一直 角螺絲2 7 1固定於側連結塊2 6的側連結孔2 6工, 用以如第12圖中所示固定於一工作台w下方。 本創作中之模組結構1〇 〇可選擇於第一殼件i 〇與第 二殼件2 0組合後,再如第1 3圖中所示於第二殼件2 〇的開放端裝置有一第二端板29,使驅動模組5〇與 散熱模組6 0能藉由殼件的組合而共同構成一可單獨使 用之馬達裝置,且如第1 4圖中所示分開出之馬達裝置 同樣能藉由第二殼件2 〇中之散熱模組6 〇進行散熱◊ 而第三殼件3 〇與第四殼件4 〇組合後,同樣如第1 5 圖中所示再於第三殼件3 〇的封閉端裝置有一第三端蓋 34 ’第一趙片組6 3係往該第三端蓋34方向延伸, 使第一控制模組7 〇與第二控制模組8 〇能藉由殼件的 組合而共同構成具兩功能模組之控制裝置,所以模組結 表單编號A0101 第12頁/共38頁 M427387 ♦ « 構1 0G除可如第i ® t料使料,更能分縣馬達 裝置與控制裝置兩部份進行使用β 剛再者,第三殼件3 〇組合於第-殼件1 0及第二殼件2 〇後’如第1 6圖中所示利用-第三端板3 5套蓋於其 開放端,使驅動模組5 〇與散熱模組6 〇的馬達部份除 單獨使用外,亦可藉由殼件的組合而選擇與第一控制模 組7 〇共同使用。 [_]而第四殼件4 0中之第二控制模組8 0可如第1 7圖中 • 所示於第四殼件40開放端裝置有一第四端板4卫,使 第二控制模組8 〇藉第四殼件40可如第18圖中所示 獨立於驅動模組5 〇、散熱模組6 〇與第一控制模組7 〇外進行控制使用。 [0049] 於本創作馬達與控制裝置之模組結構丄〇 〇中,驅動模 。 組5 0與散熱模組6 〇透過第一殼件i 〇與第二殼件2 〇的組合而能模組化該二功能模組為一可供單獨使用之 馬達裝置,並以馬達裝置為核心藉由組合第三殼件3 〇 _ 於第二殼件2 〇 —側而增加第一控制模組7 〇的控制功 能一起搭配馬達裝置一併使用,亦可再於第三殼件3 〇 一側組合第四殼件4 〇而於第一控制模組7 〇外再增加 第一控制模組8 〇的控制功能一起搭配馬達裝置共同使 用,所以馬達裝置藉由殼件組合而能模組化組合其他功 能模組一起搭配使用。 [0050] 於有特殊縫紉需求的情況下,第二控制模組8 〇也能利 用第四殼件40單獨分離出來搭配馬達裝置共同使用, 表單編號A0101 第13頁/共38頁 M427387 或是藉與第三殼件3 0組合而與第一控制模組7 0模組 化為控制裝置再搭配馬違裝置一併使用。 [0051] 再者,利用上述第一殼件1 0、第二殼件2 0、第三殼 件3 0以及第四殼件4 0能提供不同功能的驅動模組5 0、散熱模組6 0、第一控制模組7 0與第二控制模組 8 0進行組裝,使該功能模組能一併被組裝為一體,有 別於習用縫紉設備9 0必須在工作台9 1下方配置有驅 動裝置9 3與控制裝置9 4兩部份,其控制裝置9 4固 定於驅動裝置9 3的下方,提供操作者使用,以利減縮 習用縫紉設備對操作者使用空間的限制,提昇整體作業 流程之便利性,同時保有原自動化操作的優點。 [0052] 以上所述僅為本創作之較佳實施例而已,非因此即侷限 本創作之專利範圍,故舉凡運用本創作說明書及圖式内 容所為之.簡易修飾及等效結構變化,均應同理包含於本 創作之專利範圍内。 【圖式簡單說明】 [0053] 第1圖係顯示習用之工業用縫紉設備示意圖; [0054] 第2圖係顯示本創作第一實施例立體圖; [0055] 第3圖係顯示本創作第一實施例立體分解示意圖; [0056] 第4圖.係顯示本創作第一實施例中之殼件剖面示意圖; [0057] 第5圖係顯示本創作第一實施例中第一殼件之立體圖; [0058] 第6圖係顯示本創作第一實施例中第二殼件之立體圖; [0059] 第7圖係顯示本創作第一實施例中第一、二殼件之剖面 表單編號Α0101 第14頁/共38頁 M427387 _]第8圖係顯示本創作第—實施例中第三、四殼件之立體 分解示意圖; 剛第9圖係顯示本創作第_實施例中散熱模組之立體示意 圖, _2]第1 G®係顯示本創作第—實施例中散熱模組之散熱氣 流不意圖(一); [0063] 第1 1 ®係顯示本創作第—實_巾散減組之散熱氣 流示意圖(二); [0064] 第1 2圖係顯示本創作第一實施例實際使用示意圖; [0065] 第1 3圖係顯示僅驅動、散熱模組之模組使用示意圖; [0066] 第1 4爵係顯示第1 3圖實施例之實際使用示意圖; [0067] 第1 5圖係顯示僅第一、二控制模組之模組使用示意圖 9 [0068] 第1 6圖係顯示僅驅動、散熱模組與第一控制模組之模 組使用示意圖; [0069] 第1 7圖係顯示僅第二控制模組之模組使用示意圖; [0070] 第1 8圖係顯示第1 6、1 7圖實施例之實際使用示意 圖。 【主要元件符號說明】 [0071] 模組結構1 0 0 ; 第一裝置區1 〇 1 ; 表單编號A0101 第15頁/共38頁 M427387 [0072] 第二裝置區1 0 2 > 第三裝置區1 0 3 [0073] 第四裝置區1 0 4 ; 第一殼件10; [0074] 第一内筒體11; 第一軸孔111; [0075] 第一外罩體12; 第一散熱孔組13 [0076] 第一散熱孔131 、1 3 2、1 3 3、1 3 4 [0077] 第一螺孔耳141 、1 4 2、1 4 3、1 4 4 [0078] 第二殼件2 0 ; 第二軸孔2 1 ; [0079] 凸沿2 2 ; 第二散熱孔組2 3 [0080] 第二散熱孔2 3 1 ' 2 3 2、2 3 3、2 3 4 [0081] 第二螺孔耳2 4 1 、2 4 2 ' 2 4 3、2 4 4 [0082] 頂連結塊2 5 ; 頂連結孔2 5 1 ; [0083] 側連結塊2 6 ; 側連結孔2 6 ; [0084] 腳座2 7 ; 直角螺絲2 7 1 ; [0085] 第二端板2 8 ; 第三殼件3 0 ; [0086] 組裝開口 3 1 ; 固定塊3 2 ; [0087] 電源接口 3 3 ; 第三端蓋3 4 ; [0088] 第三端板3 5 ; 第四殼件4 0 ; [0089] 第四端板4 1 ; 驅動模組5 0 ; [0090] 傳動軸5 1 ; 第一端5 1 1 ; 表單編號A0101 第16頁/共38頁 M427387M427387 V. New description: [New technical field] [0001] This creation is about the integration of a drive device and a control device, especially a modularization of the motor device and the control device for use. The structure in which the motor unit can be selectively used alone. [Prior Art] [0002] Sewing equipment is initially designed for the purpose of different users. The automation of sewing equipment can be first divided into fully automated and semi-automated industrial and household equipment, accompanied by the operator's sewing. With the various requirements of the functions, the variety of sewing requirements and the improvement of the sewing machine's own technology, the types of sewing equipment have also increased accordingly. [0003] Under the adjustment of the market and consumption structure, the product structure of sewing equipment has been shifting from medium and low speed to speeding up and serialization. At the same time, electronic and motor technology have been introduced, making sewing equipment begin to be widely used for industrial use. As an example of the sewing apparatus, as shown in Fig. 1, the sewing apparatus 9 is attached to a work table 91 for work, and the sewing apparatus 9 includes a slit ♦, an initial machine 9, 2. a drive unit 9 and a control In the device 94, the sewing machine 9 2 is respectively arranged above the table 9 i , and the driving device 9 3 is arranged below the table 9 1 , and the control device 9 4 ′ is fixed under the driving device 9 3 to utilize the control device 9 4 lead electronic motor technology, making the equipment __ electronic equipment, greatly reducing the operating technology threshold 'and can replace some of the manual operation steps with the need for automated machinery' so (four) should be all kinds of sewing requirements, so that different functions The types of sewing equipment are also springing up for the operator to choose. Form No. A0101 Page 3 of 38 M427387 [0004] Under the above premise, the sewing machine 92 designed and manufactured by various manufacturers is a driving device 9 3 that requires different output power in response to the sewing requirements, and is applied. In the various operation steps, it is necessary to use different control devices 94, so that the conventional sewing device 90 usually has to use the appropriate driving device 93 and the control device 94 in conjunction with the sewing machine 92 function, so that the conventional sewing device 90 As shown in Fig. 1, the driving device 93 and the control device 94 under the table 9 1 have taken up most of the space below the table 91, and the sewing machine 9 2 above the table 9 1 is occupied. The work space 91 is available for the operator to use the space to be greatly limited by the sewing device 90, especially for the stepping process that requires the operator to manually work, and also increases the inconvenience, so that the original automatic operation can The ability to reduce work time, streamline the process steps, and ease of operation is compromised. [New content] [0005] In view of the above, the creator improves the matching structure of the driving device and the control device included in the conventional sewing device, and provides a cooperation structure between the modular driving device and the control device, The driver module and the control module are integrally assembled and provided for use by the operator, thereby reducing the restriction on the operator's use space by the conventional sewing device, improving the convenience of the overall operation process, and maintaining the advantages of the original automatic operation. [0006] The driving and heat-dissipating module in the module structure of the present invention can be modularized into a core motor device that can be used separately by a combination of the shell members, and the motor device can be molded by a combination of other shell members. The combination of different functional modules is used together, and in the case of special sewing requirements, the functional modules can also be separated separately by the shell and used together with the motor device. Form No. A0101 Page 4 of 38 The motor device can be combined with the shell member to modularize and match various functional modules according to different sewing requirements, so as to expand the overall application range and have flexible application characteristics of modular matching. [0007] In order to achieve the above object, the technical means adopted in the present invention includes a first shell member having a first inner cylinder and a first outer casing, the first outer casing covering the first An outer side of the inner cylinder; a second shell member disposed at one end of the first shell member, and a first device region formed between the two shell members. [0008] The device in the first device area has a driving module, and the driving module includes a driving shaft, and one end of the transmission shaft passes through the first device area and a pulley is disposed thereon. A pulley cover is disposed on each side of the pulley for clamping the pulley inside the two pulley covers and assembling the same. [0009] The drive shaft is provided with a drive assembly including a stator and a rotor. [0010] The first inner cylinder is provided with a first heat dissipation hole group, and the second outer casing is provided with a second heat dissipation hole group. [0011] A first heat dissipation hole group is disposed between the first inner cylinder and the first outer casing, and a second heat dissipation hole group is disposed at a position corresponding to the first heat dissipation hole group. [0012] The first heat dissipation hole group has four first heat dissipation holes, and the first heat dissipation holes are respectively located at four corners between the first inner cylinder and the first outer cover body, and the second heat dissipation hole group Each has four second heat dissipation holes, and the second heat dissipation holes are respectively located at four corners of the closed end of the second case member. Form No. A0101 Page 5 of 38 M427387 [0013] In the modular structure of the present invention, the open end of the second shell member may have a second end plate or a third shell member and is formed therebetween. a second device area, and a heat dissipation module is disposed in the second device area. [0014] The heat dissipation module includes a fan, a second air intake aperture group extending through the second housing member, and a second fin assembly extending from the third housing member to the second device region, the second The air intake hole group includes a plurality of air inlet holes penetrating through the second case member to communicate with the outside, and the second fin group includes a plurality of fins for conducting heat. [0015] a flow guiding cover is embedded in the second shell member to sandwich the fan between the second shell member and the flow guiding cover. The air guiding cover is provided with a flow guiding port corresponding to the fan position, and the opening of the air guiding opening is smaller than the fan. [0016] In the modular structure of the present invention, the open end of the third shell member can select a third end plate, and a third device region is formed between the two, and the device has a device in the third device region. a first control module or a fourth casing member at an open end thereof, the fourth casing member being disposed at an open end of the third casing member with its open end, and respectively in a third device region of the third casing member The middle device has a first control module, and a second control module is disposed in the fourth device area of the fourth housing member. [0017] The third housing member is preset with an assembly opening and a first control module is disposed in the third device area, the first control module includes a control panel embedded in the assembly opening, and a built-in a panel board on the inner side of the control panel and a first board disposed inside the third shell. [0018] The first board device has a power plug, and the third shell member is provided with a power interface corresponding to the power plug, and the power plug is worn out by the power interface form number A0101 page 6 / 38 pages M427387 The third shell member is connected to an external power supply device. The first board and the panel board are disposed on adjacent inner sides of the third shell. [0019] The device in the fourth device area has a second control module, and the second control module includes a pair of support columns and a second plate of the support column . [0020] In the module structure of the present invention, in order to meet the special sewing requirements, a fourth end plate may be selected from the open end of the fourth shell member to separately use the fourth shell member in the fourth device region thereof. The second control module of the device. [0021] Alternatively, the third shell member may be disposed at the open end of the fourth shell member, and a third end cap may be disposed at the closed end of the third shell member to facilitate the use of the second and fourth shells separately. The first and second control modules of the casing in the third and fourth device zones. The specific embodiments of the present invention will be further described by the following examples and the accompanying drawings. [Embodiment] [0023] Please refer to FIGS. 2 and 3 for a schematic view showing a first perspective view and a perspective exploded view of the first embodiment of the present invention. The module structure 1 of the present motor and control device includes a first The shell member 10, a second shell member 20, a third shell member 3 〇, and a fourth shell member 40, the module structure 1 〇〇 by the first shell member 10, the second shell member 20, The third case member 30 and the fourth case member 40 are separated into a first device region 1 〇1, a first device region 102, a third device region 1〇3, and a fourth device region as shown in FIG. 1 0 4. [0024] As shown in FIG. 5, the first case member 1 is composed of a first inner cylinder 1 1 form number Α 0101 page 7 / 38 pages M427387 [0025] [0026] [0027] [0028] And the first inner cover body 12 is configured. In the embodiment, the first inner cylinder body 11 is a closed circular cylinder at one end, and the outer casing surrounds the frame body of the first outer cover body 12, and the first inner portion The cylinder body is preset with a first shaft hole 111 at its closed end. The first setting member 1 is disposed at a corner of the circle between the second inner cylinder 11 and the square first outer casing 11 A first heat dissipation hole assembly 3 is provided. The first heat dissipation hole group 13 includes four first heat dissipation holes 13 3 , 32, 133, and 134°, and a first heat dissipation hole group i 3 . The first inner cylinder body outer surface extends a first screw hole ear 41, 142, 143, 144 toward the first outer cover body 12, respectively. As shown in Fig. 6, the second shell member 20 is a hollow square cylinder closed at one end, and the second shell member 20 has a second shaft at a position corresponding to the first shaft hole 1 at its closed end. a hole 21, and corresponding to the open end of the first inner cylinder i1, a ring edge 2 2 is provided, and the second shell member 2 is corresponding to the first shell member i by the protruding edge 2 2 on one side thereof The opening end is such that a first device region 1〇1 is formed between the two shell members as shown in FIG. 4, and a driving module 5 is disposed in the first device region 10 1 〇^ the second shell member 20 corresponds to The first heat dissipation hole group 13 has a second heat dissipation hole group 23 at a position of each of the first heat dissipation holes 1 3 1 , 132 , 133 , 134 , and the second heat dissipation group 2 3 includes 4 through the second case member 2 . 0, the second heat dissipation holes 23 1 , 232 , 2 at the four corners of the closed end ( 3 3 , 2 3 4 , and the first heat dissipation hole group 13 and the second heat dissipation hole group 2 3 form a heat dissipation channel. 2 0 corresponds to the first screw hole ear 4 Form No. A0101 Page 8 / 38 M427387 ^1142 1143 114 4The second screw hole 2 4 1, 242, 243, 244 is provided for the screw S1 to wear Passing through the second screw holes 241, 242, 243, 244 A screw hole 14 142 143, 144 and the second shell member 20 is locked to the open end of the first shell member 1 。 [0029] see the same as shown in Figure 7 'Drive Module 5 〇 Covered in the first inner cylinder 1 1 and including a transmission shaft 51', the drive shaft 51 is provided with a drive assembly 5 2 ' and the drive assembly 5 2 includes a stator 5 2 1 and a rotor 5 2 2 ° [〇〇 3〇] the two ends of the transmission shaft 5 1 are a first end 5 χ丄 and a second end 5, respectively, and the first end 511 is pierced by the first shaft hole 11 out of the first device area 1 Ο 1 and The upper device has a pulley 5 3 , so that the pulley 53 is disposed outside the first casing member 1 , and a pulley cover 5 4 1 , 5 4 2 is disposed on the two sides of the pulley 53 at the first end 51 1 1 for The pulley 53 is clamped inside the two pulley covers 54 1 and 542 and assembled into a pulley set. [_ As shown in Fig. 8, the third casing member 3 is a hollow square cylinder closed at the end and is disposed in the second The shell member 2 Q opens the σ end so that a second device region 1 0 2 is formed between the two shell members as shown in FIG. 4, and a heat dissipation module 6 is disposed in the second I region 1 0 2 device.阙In the third fiscal, the thermal module 6G coating The second casing member 2 includes a fan 6 1 , a second air inlet group 6 2 and a second fin group 63 and as shown in FIG. 7 , the transmission in the driving module 5 The second end 512 of the shaft 5 1 is penetrated by the second shaft hole of the second case member 20 into the second form number Α0101, page 9 / total 38 pages [0033] M427387 device area 1 Ο 2 ' for the fan 6 1 to be installed The second end 5 1 2 is disposed, and the fan 6 1 is disposed at the closed end of the second case member 20. A flow guiding cover 64 is additionally embedded at the closed end of the first and second mounting members 20 to sandwich the fan 6 1 between the closed end of the second casing 20 and the diversion cover 64. 6 4 corresponding to the fan 6 1 position is provided with a flow guiding port 641, and the opening of the air guiding port 641 is smaller than the fan 61. [0034] The second case member 20 is provided with a second intake hole group 6 2 at an outer side surface thereof, and the second intake hole group 6 2 includes a plurality of holes penetrating through the second case member 2 〇 to communicate with the outside. The second fin group 63 is a fin that extends from the third housing member 30 to extend in the direction of the first device region 1 〇 2 for heat conduction. [0035] As shown in FIG. 9, when the fan 6丄 in the heat dissipation module 6 starts to rotate for heat dissipation, the fan 6 1 generates heat from the air intake hole of the second intake hole group 6 2 by externally drawing air. The airflow A, and the heat dissipating airflow 能够 can be moved to the second venting hole group 2 3 by the air guiding opening 64 1 of the air guiding cover 64 [0036] Next, as shown in the first kitchen, the heat dissipation airflow A sequentially along the second heat dissipation hole group 2 3 (only the second heat dissipation holes 231, 23 2 are shown) to the first heat dissipation hole group i 3 (only the first heat dissipation holes 131 and 132 are correspondingly shown in the figure) Moving, and since the first heat dissipation hole group 13 surrounds the periphery of the driving module 50, the air-dissipating air machine A generated by the fan 6} can pass through the first heat-dissipating hole group 13 of the heat-dissipating channel. At the same time, the heat generated by the drive module 5 带 is taken away, and the heat dissipation air flow A is finally blown out by the first heat dissipation hole group 13 on the same side of the pulley group as the opening form No. A0101, page 10 / 38 pages [0037] . In Fig. 8, the outer surface of the third casing member 3 is pre-formed with a __assembly opening 31 and the interior thereof has a third device region 丄〇3 as shown in Fig. 4, the first device region 1 〇3 The middle device has a first control module 7 〇, and the first shouting member 30 extends from its closed end with a set of fixed blocks 32. [0038] The first control module 7 is wrapped in the third casing 3 and includes a control panel 71, a panel board 7 2 and a first board 73, and the control panel 71 is embedded. The panel opening plate 7 is embedded in the inner side of the control panel 71 and is fixedly assembled with the control panel 71. [0039] The first plate 7 3 is locked and fixed to the fixed block 32, so that the first plate *7 3 and the second fin set 6 3 of the political thermal module 60 are respectively at the closed end of the third case member 30. The heat generated by the first board 73 as shown in the figure ii can be transmitted to the second device area 102 by the sheet of the second board group 63, and also by the heat dissipation module. 6 The heat dissipation air A generated by the fan 6 turns away the heat generated by the board. [0040] The first board 73 is further provided with a power plug γ 4, and the third shell 30 is provided with a power interface 3 3 corresponding to the power plug 7 4 , and the power plug 7 4 on the first board 73 is used. The power connector 3 3 passes through the third case member 30 for the external power supply device (not shown) to be connected to the power plug 7 4 via the power connector 3 3 . [0041] The third shell member 30 is fixed at its open end with a fourth shell member 40 by a screw s 2, so that the open end of the second member member 30 is disposed at the open end of the fourth shell member 4. The fourth device 4 〇 has a fourth device form number as shown in FIG. 4 Α 0101 page 11 / 38 pages M427387 [0044] [0045] [0046] Area 1 Ο 4 ' And in the fourth device area 1 〇 4 installed in the death ^ _ 4 Dingsie has a second control module 80. The second control module 80 extends inwardly from its closed end with a pair of support columns 8 1 and 8 2 and a second plate 8 3 at the top end of the support ports 8 and 8 2 . In actual use, a top connecting block 25 and a side connecting block 26 are extended from the second shell member 2 in Fig. 6 for coupling with a chat seat 27. The top connecting block 25 has a top connecting hole 2 5 贯穿, and the side connecting block 26 has a side connecting hole 2 6 , and the end of the leg 27 is directly fixed to the top connecting hole 251 of the top connecting block 25 . The other end is fixed to the side connecting hole 2 of the side connecting block 26 by a right angle screw 273 for fixing under a table w as shown in FIG. The module structure 1〇〇 in the present invention can be selected after the first shell member i 组合 is combined with the second shell member 20, and then has an open end device of the second shell member 2 所示 as shown in FIG. The second end plate 29 enables the driving module 5 and the heat dissipation module 60 to form a separately usable motor device by the combination of the casing members, and the motor device is separated as shown in FIG. The heat dissipation can also be performed by the heat dissipation module 6 〇 in the second case member 2, and after the third case member 3 〇 is combined with the fourth case member 4 ,, the same as shown in FIG. The closed end device of the casing member 3 has a third end cover 34'. The first Zhao film group 6 3 extends toward the third end cover 34, so that the first control module 7 and the second control module 8 can The control device with two-function module is formed by the combination of the shell parts, so the module knot form number A0101 page 12 / 38 pages M427387 ♦ « Structure 1 0G can be used as the i i t material, It is better to use the two parts of the county motor device and the control device to use β. The third case member 3 〇 is combined with the first case member 10 and the second case member 2 '' as in the first 6 The third end plate 35 is capped at the open end thereof, so that the motor portion of the driving module 5 〇 and the heat dissipation module 6 除 can be selected separately by the combination of the shell members. The first control module 7 is used in common. [_] The second control module 80 of the fourth case member 40 can be equipped with a fourth end plate 4 on the open end of the fourth case member 40 as shown in FIG. The module 8 can be controlled and used independently of the driving module 5 〇, the heat dissipation module 6 〇 and the first control module 7 as shown in FIG. 18 . [0049] In the module structure of the present motor and the control device, the mode is driven. The combination of the first housing member i 〇 and the second housing member 2 而 can modularize the two-function module into a separately usable motor device, and the motor device is The core adds the control function of the first control module 7 组合 together with the motor unit by combining the third shell member 3 〇 _ the second shell member 2 侧 - side, and can also be used together with the third shell member 3 The fourth shell member 4 is combined on one side, and the control function of the first control module 8 〇 is added to the first control module 7 一起 together with the motor device, so that the motor device can be assembled by the shell member combination Combine other functional modules together. [0050] In the case of special sewing requirements, the second control module 8 can also be separated by the fourth housing 40 and used together with the motor device, Form No. A0101 Page 13 of 38 M427387 or borrow In combination with the third casing member 30, the first control module 70 is modularized into a control device and used in conjunction with the horse violation device. [0051] Furthermore, the first shell member 10, the second shell member 20, the third shell member 30, and the fourth shell member 40 can provide different functions of the driving module 50 and the heat dissipation module 6 0. The first control module 70 is assembled with the second control module 80 so that the functional modules can be assembled together. Unlike the conventional sewing device 90, it must be disposed under the table 9 1 . The driving device 93 and the control device 94 are both parts, and the control device 94 is fixed under the driving device 93, and is provided for use by the operator, so as to reduce the restriction on the space used by the conventional sewing device and improve the overall working process. Convenience while retaining the advantages of the original automated operation. [0052] The foregoing descriptions are only preferred embodiments of the present invention, and thus are not intended to limit the scope of the patents of the present invention. Therefore, the use of the present specification and the contents of the drawings for the simple modification and equivalent structural changes should be The same is true for the scope of this creation patent. BRIEF DESCRIPTION OF THE DRAWINGS [0053] Fig. 1 is a schematic view showing a conventional industrial sewing apparatus; [0054] Fig. 2 is a perspective view showing a first embodiment of the present creation; [0055] Fig. 3 shows the first creation of the present invention FIG. 4 is a cross-sectional view showing a first embodiment of the first embodiment of the present invention; [0057] FIG. 5 is a perspective view showing a first case member in the first embodiment of the present invention; 6 is a perspective view showing a second case member in the first embodiment of the present invention; [0059] FIG. 7 is a cross-sectional form number of the first and second case members in the first embodiment of the present invention. Page / Total 38 pages M427387 _] Figure 8 shows a three-dimensional exploded view of the third and fourth shell members in the first embodiment of the present invention; just the ninth figure shows a three-dimensional schematic diagram of the heat dissipation module in the first embodiment of the present invention , _2] The 1st G® series shows that the heat dissipation airflow of the heat dissipation module in the first embodiment is not intended to be (1); [0063] The 1st 1® system shows the heat dissipation airflow of the first-real-smoke reduction group of the present creation Schematic (2); [0064] Figure 12 shows the actual embodiment of the first embodiment of the creation BRIEF DESCRIPTION OF THE DRAWINGS [0065] FIG. 1 is a schematic diagram showing the use of a module of only a driving and heat dissipating module; [0066] a first schematic diagram showing the actual use of the embodiment of FIG. 3; [0067] The figure shows the module usage diagram of only the first and second control modules. [0068] FIG. 16 shows a schematic diagram of the use of only the driver, the heat dissipation module and the first control module; [0069] The figure shows a schematic diagram of the use of the module of only the second control module; [0070] Figure 18 shows a schematic diagram of the actual use of the embodiment of Figures 16. [Description of main component symbols] [0071] Module structure 1 0 0 ; First device area 1 〇1; Form number A0101 Page 15 of 38 M427387 [0072] Second device area 1 0 2 > Third Device area 1 0 3 [0073] 4th device area 1 0 4 ; first case member 10; [0074] first inner tube body 11; first shaft hole 111; [0075] first outer cover body 12; Hole group 13 [0076] first heat dissipation hole 131, 1 3 2, 1 3 3, 1 3 4 [0077] first screw hole ear 141, 1 4 2, 1 4 3, 1 4 4 [0078] second case Piece 2 0 ; second shaft hole 2 1 ; [0079] convex edge 2 2 ; second heat dissipation hole group 2 3 [0080] second heat dissipation hole 2 3 1 ' 2 3 2, 2 3 3, 2 3 4 [0081 ] Second screw hole 2 4 1 , 2 4 2 ' 2 4 3, 2 4 4 [0082] Top joint block 2 5 ; Top joint hole 2 5 1 ; [0083] Side joint block 2 6 ; Side joint hole 2 6; [0084] foot 2 7 ; right angle screw 2 7 1 ; [0085] second end plate 2 8 ; third case member 3 0 ; [0086] assembly opening 3 1 ; fixed block 3 2 ; Interface 3 3 ; third end cover 3 4 ; [0088] third end plate 3 5 ; fourth case member 40; [0089] fourth end plate 4 1 ; drive module 50; [0090] drive shaft 5 1 ; First end 5 1 1 ; Form number A0101 Page 16 of 38 M427387
[0091] 第二端 5 1 2 ; [0092] 定子 5 2 1 ; [0093] 皮帶輪5 3 ; [0094] 散熱模組6 0 ; [0095] 第二進氣孔組6 2 ; [0096] 導流蓋6 4 ; [0097] 第一控制模組7 0 ; [0098] 面板機板7 2 ; [0099] 電源插件7 4 ; [〇1〇〇]支撐柱 8 1、8 2 ; [0101] 縫紉設備9 0 ; [0102] 縫紉機9 2 ; [0103] 控制裝置9 4 ; [0104] 工作台W。 驅動組件5 2 ; 轉子5 2 2 ; 皮帶輪蓋5 4 1、5 4 2 ; 風扇6 1 ; 第二鰭片組6 3 ; 導流口 6 4 1 ; 控制面板7 1 ; 第一機板7 3 ; 第二控制模組8 0 ; 第二機板8 3 ; 工作台9 1 ; 驅動裝置9 3 ; 散熱氣流A ; 表單編號A0101 第17頁/共38頁[0091] second end 5 1 2; [0092] stator 5 2 1 ; [0093] pulley 5 3 ; [0094] heat dissipation module 60; [0095] second intake port group 6 2; Flow cover 6 4 ; [0097] first control module 7 0; [0098] panel board 7 2; [0099] power plug 7 4; [〇1〇〇] support columns 8 1 , 8 2 ; Sewing machine 9 0; [0102] Sewing machine 9 2 ; [0103] Control device 9 4 ; [0104] Table W. Drive assembly 5 2 ; rotor 5 2 2 ; pulley cover 5 4 1 , 5 4 2 ; fan 6 1 ; second fin set 6 3 ; flow port 6 4 1 ; control panel 7 1 ; first plate 7 3 Second control module 80; second board 8 3 ; table 9 1 ; drive unit 9 3 ; heat dissipation air flow A; form number A0101 page 17 of 38