200948516 九、發明說明: . 【發明所屬之技術領域】 . 本發明涉及一種裁切裝置,尤苴、.+s 尤其涉及一種可連續裁切 之裁切裝置。 【先前技術】 銅猪基材係製作柔性電路板之主要材料,一般卷成滚 湾狀以運輸或存放。於柔性電路㈣程巾,㈣對卷料銅 治基材進行適當之裁切加工’以得到長度符合規格之銅箔 基材,再進行後續之電路板加卫。採用目前常用之㈣基 材裁切機進賴切加卫,要求鋼荡基材於裁切之時刻處於 靜止狀態’因此’㈣基材於進行送料及裁切這兩個階段 ^間存—個特餘之狀態,這種裁财式使得裁切之效 率大大降低。 ❹ 、有鑑於此,提供-種可連續裁切之裁切裝置,以提高 裁切效率實屬必要。 【發明内容】 -種裁切裝置,包括機台、輸送機構、刀輪組、驅動 機構以及控制ϋ。該輸送機構安裝於該機台,用於傳送基 ^如銅絲材)。該刀輪組包括可轉動地安裝於該機台之第 -刀輪與第二刀輪。該第—刀輪上安裝有第—刀具,該第 二刀輪上安裝有第二刀*。該驅動機構用於驅動該第一刀 輪與第二刀輪同步轉動,以使該第—刀具與第二刀具相互 7 200948516 ' 咬合從而對該基材進行裁切。該控制器電氣連接於驅動機 - 構。 . 該裁切裝置可連續裁切,不僅可提高裁切效率,而且 裁切長度方便調節。 【實施方式】 下面將結合附圖,對本技術方案之實施方式作進一步 之詳細說明。 請參閱圖1,本技術方案提供之裁切裝置用於裁切卷料 基材,本實施例中,該基材為銅箔基材。所述裁切裝置包 括機台10、輸送機構20、刀輪組30、驅動機構40以及控 制器50。 該輸送機構20包括第一輸送輪組21及第二輸送輪組 22。二者分別位於刀輪組30相對之兩側,第一輸送輪組21 包括並排設置之第一滾輪210及第二滾輪212。第一滚輪 210與第二滾輪212之間距離比所要傳輸之銅箔基材701 厚度略小,當銅箔基材701置於第一滚輪210、第二滚輪 212之間時可借由摩擦力方便帶動銅箔基材701運動。第二 輸送輪組22包括並排設置之第一滚輪220及第二滾輪 222。其中,該第一輸送輪組21用於將待裁切銅箔基材701 送入刀輪組30,第二輸送輪組22用於將完成裁切之銅箔基 材702輸送至後續加工階段。 刀輪組30包括第一刀輪31及第二刀輪32。請參閱圖 2,該第一刀輪31及第二刀輪32具有相同之結構,其互相 8 200948516 平行相對配置。第一刀輪31包括第一輪軸311、第一刀座 .312及第一刀具313,其具體結構如圖3所示,第一輪軸311 . 可轉動地設置於機台10上。第一刀座312為帶有固持部314 之圓筒,設置於第一輪軸311之表面。第一刀具313為矩 形刀片,其長度與待裁切銅箔基材701寬度相等,寬度滿 足第一刀具313與第二刀具323咬合之要求。該第一刀具 313通過固持部314固定於第一刀座312上,不需拆卸刀座 即可方便地更換刀具。第二刀輪32包括第二輪軸321、第 ®二刀座322及第二刀具323。該第二刀具323與第一刀具 313相對上下接觸,其接觸位置即為裁切處60。 請參閱圖4,驅動機構40及控制器50均設置於機台 10上。該驅動機構40包括第一驅動器41及第二驅動器42。 本實施例中,第一驅動器41及第二驅動器42均為馬達。 第一驅動器41通過皮帶43與第一輪軸311相連接,以帶 動第一刀輪31之旋轉。第二驅動器42通過皮帶44與第二 ❿輪軸321相連接,以帶動第二刀輪32之旋轉。第一驅動器 41及第二驅動器42均與控制器50電氣連接。可理解,工 作時,第一驅動器41與第二驅動器42之頻率相同。圖4 中,第一刀具313及第二刀具323已離開裁切處60。 請參閱圖1,進行銅箔基材裁切工作時,卷料銅箔基材 70通過第一輸送輪組21下料,將待裁切之銅箔基材701 輸送至刀輪組30處。第一驅動器41帶動第一刀輪31逆時 針旋轉,第二驅動器42帶動第二刀輪32順時針旋轉。通 過控制器50調節第一驅動器41及第二驅動器42之轉速, 9 200948516 使得第-刀輪31及第二刀輪3 •刀輪3!與第二刀輪32相咬合,Hi錢切處第一 .切斷。然後由第二輸送輪組22將完成刀之銅泊基材7〇1 輸送至後續加工階段。第一刀輪 ^刀之銅箱基材702 次後,於第-驅動器41及第二驅:二刀輪32咬合一 轉,當二者再次同睥至"丄盗42之帶動下繼續旋 结其从㈣時裁處6〇時,再次將待裁切之銅 第刀齡3切斷。如此重複’即可實現連續裁切。可理解, ❹第二刀輪32轉向還可相同,即第-刀二 程Τ時針旋轉或同時逆時針旋轉,只須保證 材中以可控之週期相互咬合即可實現對刪 調即該銅基材裁切裝置之裁切長度有以下途徑:一 ,改變第一輸送輪組21及第二輸送輪組22之轉速。採 種方法增加完成裁切之㈣基材7G2長度時,需將第 輸送輪、、且21及第二輸送輪組22之轉速增力口。由於第一 ⑩驅動器41及第二驅動器42之轉速一定,第一刀輪31、及第 了刀輪32每轉過一周之時間一定。第-輸送輪組21及第 一輸送輪組22之轉速增加,使得第一刀輪31及第二刀輪 32每轉過一周之時間内經過裁切處6〇之待裁切之銅箔基 材701長度増加’從而達到裁切長度增加之目之;另一種 為改變第一驅動器41及第二驅動器42之轉速。採用這種 方法增加完成裁切之銅箔基材702長度時,需將第一驅動 器41及第一驅動器42之轉速減小,從而使第一刀輪31及 第一刀輪32母轉過一周之時間延長。由於兩次到達裁切處 200948516 2之間隔時間延長’通過其之待裁切之㈣基材如長度 …加,乂而達到裁切長度增加之目的。可理解,還可將以 •上方法結合起來調節該裁切裝置之裁切長度。 、可理解,可於刀輪組之前設置一長度測量裝置,或於 裁切處加設感測器,並將其與控制器電氣連接 切裝置之裁切長度更易控制。 于乂裁 綜上所述,本發明已符合發明專利之要件,遂依法提 ❹專利申明准,以上所述者僅為本發明之較佳實施方式, 不月t*以此限制本案之中請專利s圍。舉凡熟悉本案技藝 之人士援依本發明之精神所作等效修飾或變化,皆應涵蓋 於以下申請專利範圍内。 【圖式簡單說明】 圖1係本技術方案提供之裁切裝置之結構示意圖。 圖2係本技術方案提供之裁切裝置之刀輪組動作示意 圖。 〇 圖3係本技術方案提供之裁切裝置之第一刀輪結構示 意圖。 圖4係本技術方案提供之裁切裝置之結構示意圖。 【主要元件符號說明】 機台 10 輸送機構 20 第一輸送輪組 21 第二輸送輪組 22 刀輪1且 30 第一刀輪 31 第一刀輪 32 驅動機構 40 11 200948516 第一驅動器 41 皮帶 43 ' 44 裁切處 60 第一滚輪 210 、 220 第一輪軸 311 第一刀座 312 第二刀座 322 固持部 314 第二驅動器 42 控制器 50 卷料銅箱基材 70 第二滾輪 212 ' 222 第二輪軸 321 第一刀具 313 第二刀具 323 銅绪基材 701 ' 702200948516 IX. Description of the invention: [Technical field to which the invention pertains] The present invention relates to a cutting device, and particularly to a cutting device capable of continuous cutting. [Prior Art] Copper pig substrates are the main materials for making flexible circuit boards, and are generally rolled into a roll shape for transportation or storage. In the flexible circuit (4), the (4) appropriate cutting of the coiled copper substrate is performed to obtain a copper foil substrate of a length conforming to the specification, and then the subsequent circuit board is added. The commonly used (4) substrate cutting machine is used for cutting and cultivating, and the steel slab substrate is required to be at a static state at the time of cutting. Therefore, (4) the substrate is in the two stages of feeding and cutting. In the state of extraordinarily, this kind of cutting style makes the efficiency of cutting greatly reduced. 、 In view of this, it is necessary to provide a cutting device that can continuously cut to improve cutting efficiency. SUMMARY OF THE INVENTION A cutting device includes a machine table, a conveying mechanism, a cutter wheel set, a driving mechanism, and a control unit. The conveying mechanism is mounted on the machine for conveying a base such as a copper wire. The cutter wheel set includes a first cutter wheel and a second cutter wheel rotatably mounted to the machine table. A first cutter is mounted on the first cutter wheel, and a second cutter* is mounted on the second cutter wheel. The driving mechanism is configured to drive the first cutter wheel and the second cutter wheel to rotate synchronously, so that the first cutter and the second cutter are engaged with each other to cut the substrate. The controller is electrically connected to the drive unit. The cutting device can be continuously cut, which not only improves the cutting efficiency, but also makes the cutting length easy to adjust. [Embodiment] Hereinafter, embodiments of the present technical solution will be further described in detail with reference to the accompanying drawings. Referring to FIG. 1, the cutting device provided by the technical solution is used for cutting a coil substrate. In this embodiment, the substrate is a copper foil substrate. The cutting device includes a machine table 10, a conveying mechanism 20, a cutter wheel set 30, a drive mechanism 40, and a controller 50. The transport mechanism 20 includes a first transport wheel set 21 and a second transport wheel set 22. The two are respectively located on opposite sides of the cutter wheel set 30, and the first transport wheel set 21 includes a first roller 210 and a second roller 212 arranged side by side. The distance between the first roller 210 and the second roller 212 is slightly smaller than the thickness of the copper foil substrate 701 to be transported, and the friction can be obtained when the copper foil substrate 701 is placed between the first roller 210 and the second roller 212. It is convenient to drive the movement of the copper foil substrate 701. The second transport wheel set 22 includes a first roller 220 and a second roller 222 disposed side by side. The first transport wheel set 21 is used to feed the copper foil substrate 701 to be cut into the cutter wheel set 30, and the second transport wheel set 22 is used to transport the finished copper foil substrate 702 to a subsequent processing stage. . The cutter wheel set 30 includes a first cutter wheel 31 and a second cutter wheel 32. Referring to FIG. 2, the first cutter wheel 31 and the second cutter wheel 32 have the same structure, and are arranged in parallel with each other 8 200948516. The first cutter wheel 31 includes a first axle 311, a first cutter base 312, and a first cutter 313. The specific structure is as shown in FIG. 3, and the first axle 311 is rotatably disposed on the machine base 10. The first holder 312 is a cylinder having a holding portion 314 and is disposed on the surface of the first wheel shaft 311. The first cutter 313 is a rectangular blade having a length equal to the width of the copper foil substrate 701 to be cut, and the width satisfies the requirement that the first cutter 313 and the second cutter 323 are engaged. The first cutter 313 is fixed to the first holder 312 by the holding portion 314, and the cutter can be easily replaced without disassembling the holder. The second cutter wheel 32 includes a second axle 321 , a second tool holder 322 , and a second cutter 323 . The second cutter 323 is in upper and lower contact with the first cutter 313, and the contact position is the cut portion 60. Referring to FIG. 4, the driving mechanism 40 and the controller 50 are all disposed on the machine table 10. The drive mechanism 40 includes a first driver 41 and a second driver 42. In this embodiment, the first driver 41 and the second driver 42 are both motors. The first actuator 41 is coupled to the first axle 311 via a belt 43 to drive the rotation of the first cutter wheel 31. The second actuator 42 is coupled to the second wheel axle 321 via a belt 44 to drive the rotation of the second cutter wheel 32. Both the first driver 41 and the second driver 42 are electrically connected to the controller 50. It can be understood that the first driver 41 and the second driver 42 have the same frequency during operation. In FIG. 4, the first cutter 313 and the second cutter 323 have left the cutting portion 60. Referring to FIG. 1, when the copper foil substrate is cut, the coiled copper foil substrate 70 is discharged through the first transport wheel set 21, and the copper foil substrate 701 to be cut is transported to the cutter wheel set 30. The first driver 41 drives the first cutter wheel 31 to rotate counterclockwise, and the second driver 42 drives the second cutter wheel 32 to rotate clockwise. The rotation speeds of the first driver 41 and the second driver 42 are adjusted by the controller 50, 9 200948516, so that the first cutter wheel 31 and the second cutter wheel 3 • the cutter wheel 3! are engaged with the second cutter wheel 32, and the Hi-cutting section is 1. Cut off. The copper-plated substrate 7〇1 of the finished blade is then transported by the second conveyor wheel set 22 to a subsequent processing stage. After the first knife wheel ^ knife copper box substrate 702 times, the first drive 41 and the second drive: the second cutter wheel 32 bite a turn, when the two are again driven to the " bandit 42 to continue to spin When it is cut off from (4), it will cut off the third age of the copper to be cut. Repeat this so that continuous cutting can be achieved. It can be understood that the second cutter wheel 32 can also be turned in the same direction, that is, the second stroke of the first knife is rotated by the hour hand or rotated counterclockwise, and it is only necessary to ensure that the material is interlocked with each other in a controlled cycle to realize the deletion and the copper. The cutting length of the substrate cutting device has the following steps: First, the rotation speeds of the first conveying wheel set 21 and the second conveying wheel set 22 are changed. When the seeding method is added to increase the length of the cut (4) substrate 7G2, the rotation speed of the first conveying wheel, and 21 and the second conveying wheel set 22 is increased. Since the rotational speeds of the first 10 driver 41 and the second driver 42 are constant, the time for each revolution of the first cutter wheel 31 and the first cutter wheel 32 is constant. The rotation speeds of the first conveying wheel set 21 and the first conveying wheel set 22 are increased, so that the first cutting wheel 31 and the second cutting wheel 32 pass through the cutting position 6 times of the copper foil base to be cut every one revolution. The length of the material 701 is increased by 'to achieve the purpose of increasing the cutting length; the other is to change the rotational speed of the first driver 41 and the second driver 42. When the length of the cut copper foil substrate 702 is increased by this method, the rotation speeds of the first driver 41 and the first driver 42 are reduced, so that the first cutter wheel 31 and the first cutter wheel 32 are rotated one week. The time is extended. Due to the two-time reach of the cutting place, the interval between the extensions of 200948516 2 is extended by the (4) substrate to be cut, such as the length, and the cutting length is increased. It will be appreciated that the cutting length of the cutting device can also be adjusted in combination with the above method. It can be understood that a length measuring device can be arranged before the cutter wheel set, or a sensor can be added at the cutting position and electrically connected with the controller. The cutting length of the cutting device can be more easily controlled. As described above, the present invention has met the requirements of the invention patent, and the patent application is stipulated in accordance with the law. The above description is only a preferred embodiment of the present invention, and no such limitation is required in this case. Patent s circumference. Equivalent modifications or variations made by persons skilled in the art in light of the spirit of the invention are intended to be included within the scope of the following claims. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic structural view of a cutting device provided by the present technical solution. Fig. 2 is a schematic view showing the action of the cutter wheel set of the cutting device provided by the technical solution. 〇 Figure 3 is a schematic view of the first cutter wheel structure of the cutting device provided by the technical solution. FIG. 4 is a schematic structural view of a cutting device provided by the technical solution. [Main component symbol description] Machine 10 conveying mechanism 20 First conveying wheel set 21 Second conveying wheel set 22 Cutter wheel 1 and 30 First cutter wheel 31 First cutter wheel 32 Drive mechanism 40 11 200948516 First drive 41 Belt 43 ' 44 Cutting point 60 First roller 210, 220 First axle 311 First seat 312 Second seat 322 Holder 314 Second drive 42 Controller 50 Coil copper base 70 Second roller 212 ' 222 Two axles 321 first cutter 313 second cutter 323 copper thread substrate 701 ' 702
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