M391435 桿、一可相對該立座上下縱移的主軸座,及一設置於該主 軸座上且螺設於該縱移螺桿上的縱移螺接件,該前後滑移 單元包括一可相對該基座前後位移的前後滑座,該左右滑 移單元包括一可相對該基座左右橫移的左右滑座,該工作 台設置於該基座上,該水平旋轉單元安裝於該工作台上, 包括一設置於該工作台上的平面旋轉螺桿、一可相對該工 作台在水平面上旋轉的水平旋轉座,及一設置於該水平旋 轉座上且嚙合於該平面旋轉螺桿的平面齒盤,該垂直旋轉 單元安裝於該水平旋轉座上,包括一設置於該工作台上的 立面旋轉螺桿、一可相對該工作台在垂直立面上旋轉的垂 直旋轉座,及一設置於該垂直旋轉座且嚙合於該立面旋轉 螺桿的立面齒盤。 本新型之功效在於在該基座、立座、主軸單元、前後 '月移單70、左右滑移單元、水平旋轉單元與垂直旋轉單元 間,使得工件得相對該主轴單元上的刀具在不同位置、角 度上位移、旋轉,使加工過程不中斷進而降低成本,且可 解決複雜、多角度加工面,及複雜曲線、形狀的加工。 【實施方式】 有關本新型之前述及其他技術内容、特點與功效,在 以下配合參考圖式之數個較佳實施例的詳細說明中,將可 清楚的呈現。 參閱圖1、圖2與圖3,本新型多功能加工機之第一較 佳實,例包含-基座i、—立座2、一主轴單元3、—前後 滑移單7L 4、一左右滑移單元5、一工作台6、一水平旋轉 單70 7及—垂直旋轉單元8。 :立座2呈直立地安裝於該基座丨上。 上的=元3裝於立座2上,包括-設置於該立座2 上的縱移螺桿31、一 ^ 加工刀且以护沾 下縱移且用於供一 ,、女裝的主軸座32、一設置於該主軸座 設於該縱移螺裎L “以 祠座W上且螺 Μ旋轉的縱移弓遠广縱移螺接件33、一驅動該縱移螺桿 ”,及用? 對設置於該立座2上的縱移滑軌 及一用於驅動該主軸座32旋轉的加工馬達%。藉由兮 =馬達34驅使縱移螺捍31旋轉,使得該縱移螺接件^ 該主軸座32’沿著該對縱移滑㈣相對該基座1上 縱移。 門Z㈣移單元4裝於該基座1與該左右滑移單元5 B 设置於該基座1上的位移螺桿41、-可相對咳 基座1前後位㈣前❹座42、-設置於 且螺設於該位移螺桿41上 展上 , 扪位移螺接件43、一驅動該位移 螺才干41旋轉的位移馬達44,及一對設置於該基座】上的位 移滑軌❿利用該位移馬達44驅動該位移螺桿^旋轉, 進而使該位移螺接件43帶動該前後滑座42,沿著該對位移 滑軌45相對該基座1前後位移。 該左右滑移單元5設置於該前後滑移單元4與該工作 台6間,包括-設置於該前後滑座42上的横移螺桿η、一 可相對該基座i左右橫移的左右滑座52、—設置於該左右 滑座52上且螺設於該橫移螺桿51上的橫移螺接件μ、一 驅動該橫移螺桿51旋轉的橫移馬達54,及—較置於該前 後滑座42上的橫移滑軌55β藉著該橫移馬達54驅動橫移 螺捍Μ旋轉,以使該橫移螺接件53帶動該左右滑座Μ沿 橫移滑執55左右^移。 該工作台1^^置於該左右滑座52上。 該水平旋轉單元7裝於該工作台6上,包括一設置於 該工作台6上的平面旋轉螺桿71、—可相對該工作台6在 水平面上㈣的水平旋轉座72、—設置於該水平旋轉座Μ 上且嚙合於該平面旋轉螺桿71的平面齒盤73,及一驅動該 平面旋轉螺桿旋轉的平面旋轉馬達74,湘該平面旋轉 馬達74帶動該平面旋轉螺桿71旋動,驅動該平面齒盤乃 帶動該水平旋轉座72在水平面上旋轉。 該垂直旋轉單元8裝於水平旋轉座72上,包括一設置 於該工作台6上的立面旋轉螺桿81、一可相對該工作台6 在垂直立面上旋轉的垂直旋轉座82、一設置於該垂直旋轉 座82且嚙合於該立面旋轉螺桿81的立面齒盤83、一驅動 該立面旋轉螺桿81旋轉的立面旋轉馬達84,及一供工件安 裝設置且安裝於垂直旋轉座82的安裝頭85。藉該立面旋轉 馬達84驅動該立面旋轉螺桿81旋動,進而使該立面齒盤 83帶動該垂直旋轉座82在垂直立面上旋轉。 由上述可知,利用該主軸單元3、前後滑移單元4、左 右滑移單元5分別可上下、前後、左右移動地安裝於立座2 、基座1與前後滑座42上,達到基本三轴向的相對移動, 再藉由該水平旋轉單元7、垂直旋轉單元8分別可在水平面 、垂直立面上旋轉地安裝於該工作台6、水平旋轉座72上 -M391435 ,達到水平與垂直兩個面向的旋轉,總共可使該安裝頭s5 相對該主軸座32有五個軸向的移動與旋轉,讓加工的面向 更加多元,加工製程更加順暢不中斷,以節省人力與時間 成本。 參閱圖4與圖5,本新型第二較佳實施例與第一較佳實 施例元件與構造大致相同,不同之處在於,該前後滑移單 元4設置於該立座2與該基座1 .間,該立座2設置於該前 後滑座42上,此外,該左右滑移單元5設置於該工作台6 與該基座1間’該橫移螺桿51則設置於該基座!上,藉由 該前後滑移單元4使該立座2相對該基座ι前後位移,而 該工作台6藉該左右滑移單元5相對該基座ι左右橫移。 參閱圖6與圖7,本新型第三較佳實施例與第一較佳 施例元件與構造大致相同、,不同之處在於,該左右滑移單 S 5設置㈣前後滑座42與該基座i間’該前後滑移單元 4設置於該左右滑座52與該立座2間,該立座2藉由 後滑移單元4、左右滑移單心相對該基座i前後、左右\ 移。 參閱圖8與圖9,本新型第四較佳實施例與第一較佳實 施例疋件與構造大致相同,Μ之處在於,該前後滑移單 元4設置於紅作台6與該基座1,該左右滑移單元5 設置於該立座2與該基座"曰,,該位移螺桿 51設置於該基座1上。 縱上所述,利用該主軸單元3、前後清移單元4 滑移單元5分別達到上下、前後、左右基本三轴向的相; 7 M391435 前後滑移單元4與左右滑移單& 5安裝於該立 ^單元/ 6下,皆可達成相同功效,再藉由該水平旋 轉早垂直旋轉單元8分別達到在水平面、垂直立面兩 個面向的旋轉’總共可使該安裝頭85相對該主轴座3 五個軸向的移動與旋轉,讓加工的面向更加多元, 程更加順暢不中斷,以節省人力與時間成本,且可解決複 雜、多角度加工面,及複雜曲線、形狀的加 、、 本新型之目的。 释λ達成 准以上所述者,僅為本新型之較佳實施例而已, =此限定本新型實施之範圍,即大凡依本新型申^利 ^圍及新型說明内容所作之簡單的等效變化與修飾,皆仍 屬本新型專利涵蓋之範圍内。 【圖式簡單說明】 圖1是一立體圖,說明本新型—種多功能加工機的第 一較佳實施例; 的弟 圖2疋&部剖視圖,說明本較佳實施例的内部構件 及連接關係; 干 -圖3是一立體圖’說明本較佳實施例的-水平旋轉單 元及一垂直旋轉單元; 圖4是一側視圖,却 二較佳實施例; 。I新型-種多功能加工機的第 圖5是說明本較佳實施例的頂視圖; 圖6是一側視圖,今 三較佳實施例; "月本新型—種多功能加工機的第 M391435 ^ % .圖7是說明本較佳實施例的頂視圖; 圖8是一頂視圖,說明本新型一種多功能加工機的第 四較佳實施例;及 圖9是說明本較佳實施例的側視圖。 9a M391435 rod, a main shaft seat vertically movable relative to the vertical seat, and a longitudinal screwing member disposed on the main shaft base and screwed on the longitudinal moving screw, the front and rear sliding unit including a relative a front and rear sliding seat that is displaced forward and backward by the base, the left and right sliding unit includes a left and right sliding seat that can be traversed left and right with respect to the base, the working table is disposed on the base, and the horizontal rotating unit is mounted on the working platform The utility model comprises a planar rotating screw disposed on the working table, a horizontal rotating seat rotatable on the horizontal surface of the working table, and a planar toothed disc disposed on the horizontal rotating base and engaging the planar rotating screw, The vertical rotating unit is mounted on the horizontal rotating base, and comprises a vertical rotating screw disposed on the working table, a vertical rotating base rotatable on the vertical vertical surface of the working table, and a vertical rotating base disposed on the vertical rotating base And engaging the vertical sprocket of the slewing screw. The utility model has the advantages of being between the base, the stand, the spindle unit, the front and rear 'month shifting single 70, the left and right sliding unit, the horizontal rotating unit and the vertical rotating unit, so that the workpiece is at different positions relative to the tool on the spindle unit. The angular displacement and rotation make the machining process uninterrupted and reduce the cost, and can solve complex, multi-angle machining surfaces, and complex curves and shapes. The above and other technical contents, features and advantages of the present invention will be apparent from the following detailed description of the preferred embodiments. Referring to FIG. 1 , FIG. 2 and FIG. 3 , the first preferred embodiment of the novel multi-function processing machine comprises: a base i, a stand 2 , a spindle unit 3 , a front and rear sliding single 7L 4 , a left and right The slip unit 5, a table 6, a horizontal rotary unit 70 7 and a vertical rotation unit 8. The stand 2 is mounted upright on the base raft. The upper element 3 is mounted on the base 2, and includes a longitudinally-displaced screw 31 disposed on the stand 2, a machining knife, and a longitudinally-moving device for protecting the body, and a spindle seat for the women's wear. 32. A spindle seat is disposed on the spindle screw L. The longitudinally extending longitudinally extending screw member 33 of the socket W and the screw is rotated, and the longitudinally extending screw 33 is driven. A longitudinal shift rail disposed on the stand 2 and a machining motor % for driving the spindle seat 32 to rotate. The longitudinally-threaded screw 31 is rotated by the 兮 = motor 34 such that the longitudinally-engaging screw member 3' is longitudinally displaced relative to the base 1 along the pair of longitudinally sliding (four). The door Z (four) shifting unit 4 is mounted on the base 1 and the left and right sliding unit 5 B. The displacement screw 41 disposed on the base 1 can be disposed opposite to the cough base 1 (four) front and rear seats 42 and a screw is disposed on the displacement screw 41, a displacement screw 43, a displacement motor 44 that drives the displacement screw 41, and a pair of displacement rails disposed on the base to utilize the displacement motor 44 drives the displacement screw to rotate, so that the displacement screw 43 drives the front and rear slides 42 to be displaced back and forth along the pair of displacement slides 45 with respect to the base 1. The left and right sliding unit 5 is disposed between the front and rear sliding unit 4 and the table 6, and includes a traverse screw η disposed on the front and rear sliding seats 42 and a left and right sliding traverseable relative to the base i a slanting screw μ, which is disposed on the left and right sliding seats 52 and screwed on the traverse screw 51, a traverse motor 54 that drives the traverse screw 51 to rotate, and The traverse slide 55β on the front and rear slides 42 drives the traverse screw rotation by the traverse motor 54 so that the traverse screw 53 drives the left and right slides Μ along the traverse slide 55 . The table 1 is placed on the left and right sliders 52. The horizontal rotating unit 7 is mounted on the table 6, and includes a plane rotating screw 71 disposed on the table 6, a horizontal rotating base 72 on the horizontal surface (four) of the table 6, and is disposed at the level a planar sprocket 73 on the rotating base and engaged with the planar rotary screw 71, and a planar rotary motor 74 that drives the rotation of the planar rotary screw. The planar rotary motor 74 drives the planar rotary screw 71 to rotate, and drives the plane. The toothed disc drives the horizontal rotary base 72 to rotate on a horizontal plane. The vertical rotating unit 8 is mounted on the horizontal rotating base 72, and includes a vertical rotating screw 81 disposed on the working table 6, a vertical rotating base 82 rotatable relative to the working table 6 on a vertical vertical surface, and a setting a vertical spur 83 engaged with the vertical rotating base 82 and meshed with the vertical rotating screw 81, a vertical rotating motor 84 for driving the vertical rotating screw 81, and a workpiece mounting and mounting on the vertical rotating base 82 mounting head 85. The elevation rotary motor 81 drives the vertical rotary screw 81 to rotate, and the vertical spur gear 83 drives the vertical rotary base 82 to rotate on the vertical vertical surface. As can be seen from the above, the spindle unit 3, the front and rear sliding unit 4, and the left and right sliding unit 5 can be attached to the base 2, the base 1 and the front and rear slides 42 so as to be movable up and down, front and rear, and left and right, respectively, to achieve basic three axes. The relative movement of the direction, by the horizontal rotation unit 7 and the vertical rotation unit 8, respectively, can be rotatably mounted on the table 6 and the horizontal rotation base 72 on the horizontal plane and the vertical elevation surface - M391435, to achieve horizontal and vertical The orientation-oriented rotation can make the mounting head s5 have five axial movements and rotations relative to the spindle seat 32, so that the processing face is more diverse, and the processing process is smoother and uninterrupted, thereby saving manpower and time cost. Referring to FIG. 4 and FIG. 5, the second preferred embodiment of the present invention is substantially the same as the first preferred embodiment. The difference is that the front and rear sliding unit 4 is disposed on the stand 2 and the base 1 The stand 2 is disposed on the front and rear slides 42. Further, the left and right slide units 5 are disposed between the table 6 and the base 1. The traverse screw 51 is disposed on the base! In the upper and lower sliding units 4, the stand 2 is displaced back and forth with respect to the base ι, and the table 6 is traversed left and right by the left and right sliding units 5 with respect to the base ι. Referring to FIG. 6 and FIG. 7 , the third preferred embodiment of the present invention is substantially identical to the first preferred embodiment element and the structure, except that the left and right sliding single S 5 sets (4) the front and rear sliding seats 42 and the base. The front and rear sliding unit 4 is disposed between the left and right sliding seats 52 and the standing base 2, and the standing base 2 is moved back and forth by the rear sliding unit 4, and the left and right sides are opposite to the base i. shift. Referring to FIG. 8 and FIG. 9, the fourth preferred embodiment of the present invention is substantially the same as the first preferred embodiment, and the structure is that the front and rear sliding unit 4 is disposed on the red table 6 and the base. 1. The left and right sliding unit 5 is disposed on the base 2 and the base, and the displacement screw 51 is disposed on the base 1. In the longitudinal direction, the main shaft unit 3 and the front and rear clearing unit 4 the sliding unit 5 respectively reach the upper, the front, the front, the left and the right, and the three axial directions respectively; 7 M391435 front and rear sliding unit 4 and the left and right sliding single & 5 installation Under the vertical unit / 6, the same effect can be achieved, and by rotating the early vertical rotation unit 8 to reach the rotation of the two faces in the horizontal plane and the vertical elevation respectively, the mounting head 85 can be relatively opposed to the main shaft. The three axial movements and rotations of the seat 3 make the machining face more diverse, the process is smoother and uninterrupted, saving labor and time costs, and solving complex, multi-angle machining surfaces, and complex curves and shapes. The purpose of this new type. It is only the preferred embodiment of the present invention that the above-mentioned λ is achieved. = This limits the scope of the new implementation, that is, the simple equivalent change made by the present invention according to the new application and the new description. And modifications are still within the scope of this new patent. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing a first preferred embodiment of the multi-function processing machine of the present invention; FIG. 2 is a cross-sectional view showing the internal components and connections of the preferred embodiment. Relationship - Figure 3 is a perspective view of the horizontal rotating unit and a vertical rotating unit of the preferred embodiment; Figure 4 is a side view, but a preferred embodiment; Figure 5 is a top view showing the preferred embodiment of the present invention; Figure 6 is a side view of the preferred embodiment of the present invention; "New Type of Multifunction Processing Machine Figure 3 is a top view showing the preferred embodiment of the present invention; Figure 8 is a top view showing a fourth preferred embodiment of the multi-function processing machine of the present invention; and Figure 9 is a view of the preferred embodiment Side view. 9