201043424 六、發明說明: 【發明所屬之技術領域】 本發明關於一種沖切機台,特別關於一種用以沖切一 可撓性物件之沖切機台。 【先前技術】 由於受到石油匱乏及環境日益惡化等因素衝擊下,人 們逐漸意識到環境保護的意義,相對也影響科技產業設計 之方向。過去於科技產業中,主要都重於實現高效能的表 現及規格,而現今產品之設計著重於節能、高效率、壽命 長及降低材料之使用等。 目前在電子產品中常用的可撓性電路板,其係由製作 成類似底片的可撓性物件經由一沖切機台沖切後製作而 成。其中可撓性物件可為一覆晶薄膜(ChiponFilm,COF) 或一軟性電路板(Flexible Printed Circuit, FPC)。當待沖 切之可撓性物件被輸送至待沖切的位置時,沖切機台係對 可撓性物件上待沖切的區域進行定位,接著再加以沖切待 沖切之可撓性物件。 請參照圖1所示,其為可撓性物件之一示意圖。由於 一般的沖切機台之設計係以可撓性物件1之複數對位孔6 作為定位之功能。然而一般定位用之機構也是固定式的, 因此可撓性物件1上待沖切的區域必須配合對位孔6的間 距而為其整數倍。因此常有如圖1中,兩個待沖切區域之 間的距離Wi較寬的情形,於此,距離Wi係以4.75mm為 201043424 ( 例。而兩個待沖切區域之間的材料將成廢料,無法再另 外使用,因而造成材料的浪費及材料成本的增加二/ 因此,如何提供-種沖切機台,可縮短可撓性物件上 兩個待沖切區威之間的距離,以避免原物料之浪費及矿… 成本,已成為重要課題之一。 【發明内容】 鑑於上述課題’本發明之目的為提供—種沖切機台 及定位沖切方法,縮短沖切之可撓性物件與下一沖切之可 挽性物件之間的距離,以減少原物料之使用及節省成本。 為達上述目的,依據本發明之—種沖切機台,其係用 以沖切一可撓性物件,沖切機台包含—基座、一本體、一 壓固暨沖切機構、-第一定位機構以及—第二定位機構。 基座具有一沖切口,其用以承載可撓性物件。本體與基座 相對設置。壓固暨沖切機構與本體連結,並具有一壓固單 ©元及-沖切單元’壓固單元圍設於沖切單元,壓固暨沖切 機構設置於本體與基座之間,且沖切單元與基座之沖切口 對應設置。第一定位機構設置於本體並穿設壓固暨沖切機 構。第二定位機構鄰設於第-定位機構,且設置於本體並 穿設壓固暨沖切機構’第-定位機構與第二定位機構之間 具有·一第一間距。 於本發明-實施例中,可撓性物件之一對邊設有複數 對位孔,相鄰之該等對位孔之間具有—第二間距。 於本發明-實施例中,第一間距小於或大於第二間 201043424 距。 於本發明一實施例中,第一定位機構及第二定位機構 各具有二定位元件,該等定位元件係與可撓性物件具有該 等對位孔之對邊對應設置。 於本發明一實施例中,第一定位機構及第二定位機構 各具有四定位元件,該等定位元件係與可撓性物件具有該 等對位孔之對邊對應設置。 於本發明一實施例中,第一定位機構之該等定位元件 所圍成之面積與第二定位機構之該等定位元件所圍成之 面積相異。 為達上述目的,依據本發明之一種沖切機台,係用以 沖切一可撓性物件,可撓性物件包含複數第一區域以及複 數第二區域,該等第一區域與該等第二區域係相鄰交錯設 置,且可撓性物件之一對邊設有複數對位孔,位於第一區 域之該等對位孔之至少一係為一第一對位孔,位於第二區 域之該等對位孔之至少一係為一第二對位孔,沖切機台包 含一基座、一本體、一壓固暨沖切機構、一第一定位機構 以及一第二定位機構。基座具有一沖切口,基座用以承載 可撓性物件。本體與基座相對設置。壓固暨沖切機構與本 體連結,並具有一壓固單元及一沖切單元,壓固單元圍設 於沖切單元,壓固暨沖切機構設置於本體與基座之間,且 沖切單元與基座之沖切口對應設置。第一定位機構設置於 本體並穿設壓固暨沖切機構。第二定位機構鄰設於第一定 位機構,且設置於本體並穿設壓固暨沖切機構,第一定位 201043424 機構與第二定位機構之間具有一第一間距。其中,當可撓 性物件之其中之一第一區域位於基座時,第一區域之第一 對位孔係位於與第一定位機構對應之位置,而當可撓性物 件之其中之一第一區域位於基座時,第二區域之第二對位 孔係位於與第二定位機構對應之位置。 於本發明一實施例中,相鄰之該等對位孔之間具有一 第二間距。 於本發明一實施例中,第一間距小於或大於第二間 〇距。 於本發明一實施例中,第一定位機構及第二定位機構 各具有'一定位元件,该荨定位元件係與可挽性物件具有該 等對位孔之對邊對應設置。 於本發明一實施例中,第一定位機構及第二定位機構 各具有四定位元件’該等定位元件係與可撓性物件具有該 等對位孔之對邊對應設置。 Q 於本發明一實施例中,第一定位機構之該等定位元件 所圍成之面積與第二定位機構之該等定位元件所圍成之 面積相異。 為達上述目的,依據本發明之一種沖切機台之定位沖 切方法,沖切機台包含一基座、一本體、一壓固暨沖切機 構、一第一定位機構及一第二定位機構,定位沖切方法包 含下列步驟:輸送一可撓性物件通過壓固暨沖切機構與基 座之間的空間;提供一作用力於本體,以帶動本體、壓固 暨沖切機構、第一定位機構及第二定位機構朝基座之方向 201043424 運動;由第一定位機構及第二定位機構之其中之一穿設可 撓性物件之複數對位孔;由壓固暨沖切機構之一壓固單元 固定可撓性物件;以及由壓固暨沖切機構之—沖切單元沖 切已定位之可撓性物件之待沖切區域。 於本發明一實施例中,第一定位機構及第二定位機構 係於壓固暨沖切機構每一次作動後交替執行定位動作。 承上所述,因依據本發明之一種沖切機台及定位沖切 方法,沖切機台係包含有第一定位機構及第二定位機構之 至少兩組定位機構,藉由調整該等定位機構與對位孔之間 的相對關係,而可充分利用可撓性物件的所有面積。與習 知技術相較之後,本發明之技術得以縮短此次沖切之可栌 性物件與下一次沖切之可撓性物件的距離,以減少原物^ 之使用及節省成本。 ^ 【實施方式】 實施例之— 符號加以說 以下將參照相關圖式,說明依本發明較户 種沖切機台,其中相同的元件將以相同的參照 明。 ' 請同時參照圖2與圖3所示,® 2為本發明之沖切機 台之一示意圖,圖3則為本發明之沖切機台之一俯視圖。 沖切機台2包含一基座21、一本體22、—壓固暨沖2機 構23、一第一定位機構以及一第二定位機構。沖切機台2 係用以沖切一可撓性物件7,本實施例之可撓性物件^係 以一覆晶薄膜(Chip on Film,COF )為例,其亦可為—於 201043424 性電路板(Flexible Printed Circuit, FPC)。可撓性物件 7 包含複數第一區域71以及複數第二區域72,該等第一區 域71與該等第二區域72相鄰交錯設置。可撓性物件7之 一對邊設有複數對位孔,位於第一區域71之該等對位孔 之至少一係為一第一對位孔81,而位於第二區域72之該 等對位孔之至少一係為一第二對位孔82。其中,相鄰之該 等對位孔之間具有一第二間距P2。另外,本實施例之第一 區域71及第二區域72係各以四對位孔為第一對位孔81 ❹ 及第二對位孔82為例。 基座21用以承載可撓性物件7。本實施例之基座21 具有一沖切口 211,待沖切之可撓性物件7所置放的位置 與基座21之沖切口 211相對設置。 本體22與基座21相對設置。本實施例之沖切機台2 更包含一第一彈性支撐機構,第一彈性支撐機構更具有四 第一彈性支撐元件261,該等第一彈性支撐元件261分別 Q 連結本體22與基座21,以加以固定本體22與基座21之 間相對的位置。本實施例之第一彈性支撐元件261係為一 彈簧。 壓固暨沖切機構23設置於本體22與基座21之間, 並與本體22相連結。壓固暨沖切機構23具有一壓固單元 231及一沖切單元232。壓固單元231圍設於沖切單元 232,且壓固單元231具有一開口,使得沖切單元232可 穿過壓固單元231。另外,本實施例之沖切機台2更包含 一第二彈性支撐機構,第二彈性支撐機構更具有四第二彈 201043424 性支撐元件271,該等第二彈性支撐元件271連結壓固暨 沖切機構23之壓固單元231與本體22,以加以固定其相 對位置。本實施例之第二彈性支摟元件271係為一彈簧。 沖切單元232與基座21之沖切口 211對應設置。 第一定位機構與第二定位機構相鄰設置,且第一定位 機構與第二定位機構皆設置於本體22並穿設壓固暨沖切 機構23之壓固單元231。第一定位機構與第二定位機構各 具有二定位元件或四定位元件,其定位元件之數量可依據 沖切機台2之設計而定,本實施例之第一定位機構與第二 定位機構係以各具有四定位元件241、251為例。另外, 該等定位元件241、251係與可撓性物件7具有該等對位 孔之對邊對應設置。再者,本實施例之第一定位機構與第 二定位機構之間具有一第一間距Pi。 另外,當第一定位機構及第二定位機構各具有四定位 元件241、251時,第一定位機構之該等第一定位元件241 所圍成之面積與第二定位機構之該等第二定位元件251所 圍成之面積相異。 本實施例之沖切機台2更包含一輸送機構及一驅動機 構(圖中未顯示)。輸送機構包含一輸入元件281、一輸出 元件282及一棘輪283。輸入元件281及輸出元件282鄰 設於基座21之相對兩側,以棘輪283帶動輸入元件281 及輸出元件282轉動。輸入元件281輸送可撓性物件7通 過壓固暨沖切機構23與基座21之間的空間,直到待沖切 之可撓性物件7輸送至與基座21之沖切口 211相對的位 10 201043424 置。此日令,驅動機構將提供一作用力於本體22,以帶動本 體22、壓固暨沖切機構23、第一定位機構及第二定位機 構朝基座21之方向作動,其方向是實質垂直於可撓性物 件7被輸送之方向。 驅動機構帶動本體22、壓固暨沖切機構23、第一定 位機構及第二定位機構作動,直到第一定位機構之該等第 一疋位元件241穿設於第一區域71之該等第一對位孔81 〇 或第二定位機構之該等第二定位元件251穿設於第二區域 72之該等第二對位孔82,並將可撓性物件7定位於基座 21上。且壓固暨沖切機構23之壓固單元231將待沖切之 可撓性物件7固定於基座21上,以避免可撓性物件7於 沖切時移位。 當可撓性物件7之其中之一第一區域71位於基座21 之沖切口 211上方時,第一區域71之該等第—對位孔81 係位於與第一定位機構對應之位置,沖切機台2以第一定 〇 位機構之該等第一定位元件241執行定位之作動,並穿設 第一區域71之該等第一對位孔81。當可撓性物件7之其 中之一第一區域72位於基座21之沖切口 211上方時,第 二區域72之該等第二對位孔82係位於與第二定位機構對 應之位置,沖切機台2以第二定位機構之該等第二定位元 件251執行定位之作動,並穿設第二區域72之該等第二 對位孔82。 接著’驅動機構持續帶動本體22、壓固暨沖切機構 23之冲切單元232朝基座21之方向作動,並以沖切單元 11 201043424 232冲切已固定於基座21上之可挽性物件冑該等第一 彈性支撐元#26i及該等第二彈性支撐元件271受到本體 =作=之擠壓後’即會具有—彈性回復力。使得當沖切 '口 2元成沖切後’本體22及壓固暨沖切機構μ因第一 f彈性支撐機構及第二彈性支賴構之雜回復力,而回 =至原始位置,直到下—待㈣之可撓性物件7輸送至盘 ^ 21之沖切口 211相對的位置時,再次執行上述動作。 已沖切之可撓性物件7將順著沖切口 211掉落以便 相鄰提的是ϋ位機構與第4位機構兩者最 而 位元件241、2Μ之間的距離係為第-間距Pl, 可,性物# 7之該等對位孔之間的距離係為第二間距 第2^—間距Pl可小於或大於第二間距〜本實施例中, -定S'1小於第二間距I其使得第-定位機構及第 機構之其中—組定位元件241、251穿設於可挽性 之料對位孔時,另-組之定位元件⑷、251僅 二可撓性物件7上,並無穿設於該等對位孔。另外,第 構ΓΓ定位機構係於沖切機台2每-次作動後 ‘痛乍,如’此次沖切係以第—定位機構之該 位元件241執行定位之作動,穿設第—區域71 該等1第I對位孔81。則下一次沖切係以第二定位機構之 ^位科251執行定位之作動,72 邊尋弟二對位孔82。 另外,在沖切機台2中,待沖切之可撓性物件與下一 12 201043424 待沖切之可撓性物件之間的距離係以2 375mm為例, 與習知技術相較之下,本實施例之沖切機台2係可將習知 的 4.75mm 縮減至 2.375mm。 睛參照圖4所示,其為本發明較佳實施例之一種沖切 機台之定位沖切方法,其係包含步驟s〇1至步驟s〇5。 請同時參照上述實施例與配合圖2及圖3所示,步驟 S01係由輸送機構輸送一可撓性物件7通過一壓固暨沖切 ❹機構Μ與一基座21之間的空間。步驟S02係由驅動機構 提供作用力於本體22,以帶動本體22、壓固暨沖切機 構23、一第一定位機構及一第二定位機構朝基座21之方 向運動。步驟S03係由第一定位機構及第二定位機構之複 數疋位το件241、251其中之一組穿設可撓性物件7之複 數對位孔。步驟s〇4係由壓固暨沖切機構23之一壓固單 兀231固定可撓性物件7於基座21上。最後,步驟s〇5 係由壓固暨沖切機構23之一沖切單元232沖切已定位之 Ο可撓性物件7之待沖切區域。其中,第一定位機構及第二 疋位機構係於壓固暨沖切機構23每一次作動後交替執行 定位動作。詳細的定位沖切方法已於上述實施例中—併說 明’於此不再加以贅述。 ° “上所述,因依據本發明之一種沖切機台及定位沖切 方法,沖切機台係包含有第一定位機構及第二定位機構之 至少兩組定位機構,藉由調整該等定位機構與對位孔之門 相對的關係的位置,而可充分利用可撓性物件的所有 積。與習知技術相較之後,本發明之技術得以縮短此次、、中 13 201043424 切之可撓性物件與下一次沖切 少原物料之使用及節省成本。 之可撓性物件的距離, 以減 以上所述僅為舉例性,而非為限制性者。 本發明之精神與範疇,而對盆 未脫離 應包含於後附之申請專利範圍中。 勾 【圖式簡單說明】 圖1為習知之沖切機台之一示意圖; 圖2為依據本發明較佳實施例之沖切機台之 圖3 圖;以及 為依據本發明較佳實施例之沖切機 台之—俯视201043424 VI. Description of the Invention: [Technical Field] The present invention relates to a punching machine, and more particularly to a punching machine for punching a flexible article. [Prior Art] Due to the lack of oil and the deterioration of the environment, people gradually realized the significance of environmental protection and relatively influenced the direction of technology industry design. In the past, in the technology industry, the focus was on achieving high performance and specifications. Today's products are designed with energy efficiency, high efficiency, long life and reduced material usage. Currently, a flexible circuit board commonly used in electronic products is produced by punching a flexible article similar to a negative film through a punching machine. The flexible object may be a chiptop film (COF) or a flexible printed circuit (FPC). When the flexible article to be die-cut is conveyed to the position to be die-cut, the punching machine station positions the area to be punched on the flexible object, and then punches the flexible to be punched. object. Please refer to FIG. 1 , which is a schematic diagram of a flexible object. Since the general die cutting machine is designed with the plurality of alignment holes 6 of the flexible object 1 as a positioning function. However, the mechanism for general positioning is also fixed, so that the area to be die-cut on the flexible article 1 must match the spacing of the alignment holes 6 by an integral multiple thereof. Therefore, there is often a case where the distance Wi between the two areas to be punched is wide as shown in Fig. 1. Here, the distance Wi is 4.745 mm for 201043424 (for example, the material between the two areas to be punched will become Waste can no longer be used separately, resulting in material waste and material cost increase. Secondly, how to provide a punching machine that shortens the distance between two areas to be punched on the flexible object. In order to avoid the waste of raw materials and the cost of minerals, it has become one of the important issues. [Invention] In view of the above problems, the object of the present invention is to provide a punching machine and a positioning punching method to shorten the flexibility of punching. The distance between the object and the next blankable material to reduce the use of the original material and to save costs. To achieve the above object, the punching machine according to the present invention is used for punching. The flexible object, the punching machine comprises a base, a body, a pressing and punching mechanism, a first positioning mechanism and a second positioning mechanism. The base has a punching slit for carrying flexibility Object. The body is opposite to the base The pressing and punching mechanism is connected with the body, and has a pressing single element and a punching unit. The pressing unit is disposed around the punching unit, and the pressing and punching mechanism is disposed between the body and the base, and The punching unit is disposed corresponding to the punching slit of the base. The first positioning mechanism is disposed on the body and is provided with a pressing and punching mechanism. The second positioning mechanism is adjacent to the first positioning mechanism, and is disposed on the body and is configured to be pressed and fixed. The first punching mechanism has a first spacing between the first positioning mechanism and the second positioning mechanism. In the present invention-embodiment, one of the flexible objects is provided with a plurality of alignment holes, adjacent to the side In the embodiment of the present invention, the first pitch is smaller than or greater than the second interval 201043424. In an embodiment of the invention, the first positioning mechanism and the second positioning mechanism are respectively The first positioning mechanism and the second positioning mechanism each have four positioning elements, and the positioning elements are disposed corresponding to the opposite sides of the alignment holes. The positioning elements and the flexible object In an embodiment of the present invention, the area enclosed by the positioning elements of the first positioning mechanism and the area enclosed by the positioning elements of the second positioning mechanism are To achieve the above object, a die cutting machine according to the present invention is for cutting a flexible article, the flexible article comprising a plurality of first regions and a plurality of second regions, the first region and the The second region is adjacently staggered, and a plurality of alignment holes are disposed on one side of the flexible object, and at least one of the alignment holes in the first region is a first alignment hole. At least one of the alignment holes of the two regions is a second alignment hole, and the punching machine includes a base, a body, a pressing and punching mechanism, a first positioning mechanism and a second positioning The base has a punching cutout, and the base is for carrying the flexible object. The body is disposed opposite to the base. The pressing and punching mechanism is connected with the body, and has a pressing unit and a punching unit. The pressing unit is disposed around the punching unit, and the pressing and punching mechanism is disposed between the body and the base, and is die cut. The unit is arranged corresponding to the punching cut of the base. The first positioning mechanism is disposed on the body and is provided with a pressing and punching mechanism. The second positioning mechanism is disposed adjacent to the first positioning mechanism, and is disposed on the body and passes through the pressing and punching mechanism. The first positioning 201043424 has a first spacing between the mechanism and the second positioning mechanism. Wherein, when one of the first regions of the flexible article is located at the base, the first alignment hole of the first region is located at a position corresponding to the first positioning mechanism, and when one of the flexible objects is When an area is located at the base, the second alignment hole of the second area is located at a position corresponding to the second positioning mechanism. In an embodiment of the invention, adjacent ones of the alignment holes have a second spacing therebetween. In an embodiment of the invention, the first pitch is less than or greater than the second lay length. In an embodiment of the invention, the first positioning mechanism and the second positioning mechanism each have a 'positioning element, and the positioning element is disposed corresponding to the opposite side of the alignment hole. In an embodiment of the invention, the first positioning mechanism and the second positioning mechanism each have four positioning elements. The positioning elements are disposed corresponding to the opposite sides of the flexible objects. In an embodiment of the invention, the area enclosed by the positioning elements of the first positioning mechanism is different from the area enclosed by the positioning elements of the second positioning mechanism. In order to achieve the above object, according to the positioning punching method of the punching machine of the present invention, the punching machine comprises a base, a body, a pressing and punching mechanism, a first positioning mechanism and a second positioning. The mechanism, the positioning and punching method comprises the steps of: conveying a flexible object through a space between the pressing and punching mechanism and the base; providing a force on the body to drive the body, pressing and punching mechanism, a positioning mechanism and a second positioning mechanism move toward the direction of the base 201043424; one of the first positioning mechanism and the second positioning mechanism passes through the plurality of alignment holes of the flexible object; and the pressing and punching mechanism A pressing unit fixes the flexible object; and the punching unit of the pressing and punching mechanism punches the to-be-cut region of the positioned flexible object. In an embodiment of the invention, the first positioning mechanism and the second positioning mechanism alternately perform the positioning action after each actuation of the pressing and punching mechanism. According to the above, according to the punching machine and the positioning and punching method according to the present invention, the punching machine system comprises at least two sets of positioning mechanisms of the first positioning mechanism and the second positioning mechanism, by adjusting the positioning. The relative relationship between the mechanism and the alignment hole, and the full area of the flexible object can be fully utilized. After comparing with the prior art, the technique of the present invention can shorten the distance between the squeezable object and the next die-cut flexible object, thereby reducing the use of the original material and saving cost. [Embodiment] Embodiments - Symbols will be described below with reference to the related drawings, and the same components will be referred to by the same reference numerals. 'Please refer to FIG. 2 and FIG. 3 at the same time, the ® 2 is a schematic view of the punching machine of the present invention, and FIG. 3 is a top view of the punching machine of the present invention. The punching machine 2 includes a base 21, a body 22, a compacting and punching mechanism 23, a first positioning mechanism and a second positioning mechanism. The punching machine 2 is used for punching a flexible object 7. The flexible object of the embodiment is exemplified by a chip on film (COF), which may also be -201043424 Flexible Printed Circuit (FPC). The flexible article 7 includes a plurality of first regions 71 and a plurality of second regions 72 that are staggered adjacent to the second regions 72. The plurality of alignment holes are disposed on one of the opposite sides of the flexible object 7. The at least one of the alignment holes located in the first region 71 is a first alignment hole 81, and the pair of the second region 72 are located. At least one of the bit holes is a second alignment hole 82. The adjacent alignment holes have a second pitch P2 between them. In addition, in the first region 71 and the second region 72 of the embodiment, the four alignment holes are the first alignment hole 81 ❹ and the second alignment hole 82. The base 21 is used to carry the flexible article 7. The base 21 of this embodiment has a punching slit 211, and the position where the flexible article 7 to be punched is placed is opposed to the punching slit 211 of the base 21. The body 22 is disposed opposite to the base 21. The punching machine 2 of the embodiment further includes a first elastic supporting mechanism, and the first elastic supporting mechanism further has four first elastic supporting members 261, and the first elastic supporting members 261 respectively connect the body 22 and the base 21 To fix the position between the body 22 and the base 21. The first elastic supporting member 261 of this embodiment is a spring. The pressing and punching mechanism 23 is disposed between the body 22 and the base 21 and coupled to the body 22. The pressing and punching mechanism 23 has a pressing unit 231 and a punching unit 232. The pressing unit 231 is disposed around the punching unit 232, and the pressing unit 231 has an opening such that the punching unit 232 can pass through the pressing unit 231. In addition, the punching machine 2 of the embodiment further includes a second elastic supporting mechanism, and the second elastic supporting mechanism further has four second elastic 201043424 sexual supporting members 271, and the second elastic supporting members 271 are connected and pressed. The pressing unit 231 of the cutting mechanism 23 and the body 22 are fixed to their relative positions. The second elastic support member 271 of this embodiment is a spring. The punching unit 232 is provided corresponding to the punching slit 211 of the base 21. The first positioning mechanism and the second positioning mechanism are disposed adjacent to each other, and the first positioning mechanism and the second positioning mechanism are both disposed on the body 22 and pass through the pressing unit 231 of the pressing and punching mechanism 23. The first positioning mechanism and the second positioning mechanism each have two positioning elements or four positioning elements, and the number of positioning elements can be determined according to the design of the punching machine 2. The first positioning mechanism and the second positioning mechanism of the embodiment are Each of the four positioning elements 241, 251 is taken as an example. Further, the positioning members 241, 251 are disposed corresponding to the opposite sides of the flexible object 7 having the alignment holes. Furthermore, the first positioning mechanism and the second positioning mechanism of the embodiment have a first pitch Pi. In addition, when the first positioning mechanism and the second positioning mechanism each have four positioning elements 241, 251, the area enclosed by the first positioning elements 241 of the first positioning mechanism and the second positioning of the second positioning mechanism The area enclosed by the elements 251 is different. The punching machine 2 of this embodiment further includes a conveying mechanism and a driving mechanism (not shown). The transport mechanism includes an input member 281, an output member 282, and a ratchet 283. The input member 281 and the output member 282 are disposed on opposite sides of the base 21, and the input member 281 and the output member 282 are rotated by the ratchet 283. The input member 281 transports the flexible article 7 through the space between the press-forming and punching mechanism 23 and the base 21 until the flexible article 7 to be die-cut is transported to the position 10 opposite the punching slit 211 of the base 21. 201043424 set. At this time, the driving mechanism will provide a force on the body 22 to drive the body 22, the pressing and punching mechanism 23, the first positioning mechanism and the second positioning mechanism to move in the direction of the base 21, the direction of which is substantially vertical In the direction in which the flexible article 7 is transported. The driving mechanism drives the body 22, the pressing and punching mechanism 23, the first positioning mechanism and the second positioning mechanism to act until the first clamping elements 241 of the first positioning mechanism pass through the first region 71. The second positioning members 251 of the pair of holes 81 or the second positioning mechanism pass through the second alignment holes 82 of the second region 72 and position the flexible article 7 on the base 21. The pressing unit 231 of the pressing and punching mechanism 23 fixes the flexible article 7 to be die-cut to the base 21 to prevent the flexible article 7 from being displaced during punching. When one of the first regions 71 of the flexible article 7 is located above the punching slit 211 of the base 21, the first-aligning holes 81 of the first region 71 are located at positions corresponding to the first positioning mechanism. The cutting table 2 performs the positioning operation by the first positioning elements 241 of the first fixed clamping mechanism, and penetrates the first alignment holes 81 of the first region 71. When one of the first regions 72 of the flexible article 7 is located above the punching slit 211 of the base 21, the second alignment holes 82 of the second region 72 are located at positions corresponding to the second positioning mechanism. The cutting table 2 performs the positioning operation by the second positioning members 251 of the second positioning mechanism, and penetrates the second alignment holes 82 of the second region 72. Then, the driving mechanism continues to drive the body 22, the punching unit 232 of the pressing and punching mechanism 23 to move toward the base 21, and the punching unit 11 201043424 232 is punched and cut to be fixed on the base 21. After the first elastic support element #26i and the second elastic support members 271 are pressed by the body===, they will have an elastic restoring force. Therefore, when the punching is cut into two parts, the body 22 and the pressing and punching mechanism μ are back to the original position due to the hybrid restoring force of the first f elastic supporting mechanism and the second elastic supporting structure. When the flexible article 7 to be (4) is transported to the position opposite to the punching slit 211 of the disk 21, the above-described action is performed again. The punched flexible article 7 will be dropped along the punching slit 211 so that the distance between the most positional elements 241, 2Μ of the clamping mechanism and the fourth position mechanism is adjacent to the first spacing P1. The distance between the alignment holes of the sex object 7 is the second pitch. The second pitch P1 may be smaller or larger than the second pitch. In this embodiment, the predetermined S'1 is smaller than the second pitch. I, when the positioning elements 241, 251 of the first positioning mechanism and the first mechanism are disposed in the aligning hole of the slidable material, the positioning elements (4), 251 of the other group are only on the flexible object 7, Not worn in the alignment holes. In addition, the first structure positioning mechanism is 'painful' after each operation of the punching machine 2, such as 'this punching is performed by the positional component 241 of the first positioning mechanism, and the first region is worn. 71 1 of the first alignment holes 81. Then, the next punching is performed by the positioning of the second positioning mechanism 251, and the second alignment hole 82 is found 72. In addition, in the punching machine 2, the distance between the flexible object to be die-cut and the next 12 201043424 flexible object to be die-cut is exemplified by 2 375 mm, compared with the prior art. The punching machine 2 of the present embodiment can reduce the conventional 4.75 mm to 2.375 mm. Referring to Fig. 4, a positioning punching method for a punching machine according to a preferred embodiment of the present invention includes steps s〇1 to s〇5. Referring to the above embodiment and the matching diagrams 2 and 3, the step S01 is to transport a flexible object 7 through a conveying mechanism through a space between the pressing and punching mechanism and a base 21. Step S02 is provided by the driving mechanism to the body 22 to drive the body 22, the pressing and punching mechanism 23, a first positioning mechanism and a second positioning mechanism to move toward the base 21. Step S03 is to pass through a plurality of alignment holes of the flexible object 7 by one of the plurality of clamping positions 241, 251 of the first positioning mechanism and the second positioning mechanism. In step s4, the flexible article 7 is fixed to the base 21 by a pressing unit 231 of the pressing and punching mechanism 23. Finally, step s〇5 is to punch the region to be punched of the positioned flexible article 7 by the punching unit 232 of one of the pressing and punching mechanisms 23. Wherein, the first positioning mechanism and the second clamping mechanism alternately perform the positioning action after each actuation of the pressing and punching mechanism 23. Detailed positioning and punching methods have been described in the above embodiments - and are not described herein again. ° "Before, according to the cutting machine table and the positioning punching method according to the present invention, the punching machine system comprises at least two sets of positioning mechanisms of the first positioning mechanism and the second positioning mechanism, by adjusting the same The position of the positioning mechanism in relation to the door of the alignment hole can make full use of all the products of the flexible object. Compared with the prior art, the technology of the present invention can be shortened by this time, and the middle 13 201043424 can be cut. The use of the flexible article and the next die-cutting material and the cost-saving. The distance of the flexible article is reduced by the above, but is not intended to be limiting. The spirit and scope of the present invention FIG. 1 is a schematic view of a conventional punching machine; FIG. 2 is a die cutting machine according to a preferred embodiment of the present invention. Figure 3; and a blanking machine according to a preferred embodiment of the present invention - top view
圖4為依據本發明較佳實施例之定位沖切方法之 施流程圖。 【主要元件符號說明】 1、7 :可撓性物件 2 :沖切機台 21 ♦基座 211 :沖切口 22 :本體 23 .壓固暨沖切機構 231 :壓固單元 232 :沖切單元 14 201043424 241 -定位元件 251 ' %二 二定位元件 261 :第- -彈性支撐元件 271 :第二彈性支撐元件 281 :輸入元件 282 :輸出元件 283 :棘輪 6 : 對位孔 71 : 第一 區域 72 : 第二 區域 81 : 第一 對位孔 82 : 第二 對位孔 Pi · 第一 間距 P2 : 第二 間距 SOI 〜S05 :步驟4 is a flow chart of a positioning punching method in accordance with a preferred embodiment of the present invention. [Description of main component symbols] 1, 7: Flexible object 2: Punching machine 21 ♦ Base 211: punching slit 22: body 23. Pressing and punching mechanism 231: pressing unit 232: punching unit 14 201043424 241 - Positioning element 251 '%22 positioning element 261: - - Elastic support element 271: Second elastic support element 281: Input element 282: Output element 283: Ratchet 6: Registration hole 71: First area 72: Second region 81: first alignment hole 82: second alignment hole Pi · first pitch P2: second pitch SOI~S05: step