TWM465404U - Special shape multi-blade cutting machine - Google Patents

Abstract

The utility model relates to a multi-blade cutting machine comprising a machine pedestal, an X axial displacement mechanism, a first cutting tool set, and a second cutting tool set. The X axial displacement mechanism is arranged on the machine pedestal, and comprises a first dynamic displacement shaft and a second dynamic displacement shaft. The first dynamic displacement shaft comprises a first dynamic component and a first displacement shaft. The second dynamic displacement shaft comprises a second dynamic component and a second displacement shaft. The first displacement shaft and the second displacement shaft are arranged side by side. The first dynamic component is arranged on one side of the X axial displacement mechanism and the second dynamic component is arranged on the other side. The first cutting tool set is hinged on the first dynamic displacement shaft, and the second cutting tool set is hinged on the second dynamic displacement shaft. According to the utility model, cutting can be carried out simultaneously with multiple tools, such that cutting path setting is simplified, and production efficiency is improved.

Description

異形多刃切割機Shaped multi-blade cutting machine

本創作係關於一種玻璃切割機之設計，特別是關於一種能夠裁切特殊形狀的異形多刃切割機。This creation is about the design of a glass cutter, especially for a profiled multi-blade cutter that can cut special shapes.

隨著科技發展，玻璃係大量運用於LCD螢幕、數位相機鏡頭、手機面板等產業，對於高精度切割之特殊形狀玻璃的需求日益成長。習知的裁切玻璃基板之方法是使用切割刀輪(Scribe Wheel)進行裁切，切割刀輪之輪面處設有細微的鑽石。在進行裁切時，待裁切的玻璃基板經高速旋轉的切割刀輪觸切形成一切割線，再將以裂片刀施加衝擊力而使玻璃基板沿著切割線斷裂。不過，此方式在裁切時會產生碎屑，因此在製程中尚需加入去除碎屑以及乾燥等補拙程序。且裁切時僅以X、Y二軸作動，因而對玻璃基板只能作平面形狀之裁切，而難以應付特殊形狀玻璃基板。With the development of technology, the glass system is widely used in LCD screens, digital camera lenses, mobile phone panels and other industries, and the demand for high-precision cutting special shape glass is growing. A conventional method of cutting a glass substrate is to use a Scribe Wheel for cutting a fine diamond at the surface of the cutter wheel. When the cutting is performed, the glass substrate to be cut is contacted by a high-speed rotating cutter wheel to form a cutting line, and then the impacting force is applied by the splitting knife to break the glass substrate along the cutting line. However, this method generates debris during cutting, so it is necessary to add a process such as removing debris and drying in the process. Moreover, only the X and Y axes are actuated during the cutting, so that the glass substrate can only be cut in a planar shape, and it is difficult to cope with a special shape glass substrate.

為了克服上述的問題，目前有能夠做三軸運動的光學切割機，可藉由加工桌台將玻璃基板朝待裁切之方向進行X軸或Y軸移動，再加上使裁切刀具可上下升降的Z軸位移機構，而能夠提供對玻璃基板進行特殊形狀之異形切割。In order to overcome the above problems, there is currently an optical cutting machine capable of three-axis motion, which can move the glass substrate to the X-axis or the Y-axis in the direction to be cut by processing the table, and the cutting tool can be moved up and down. The Z-axis displacement mechanism of the lifting and lowering can provide a special shape cutting of the glass substrate.

然而，在進行異形切割時，因刀具本身僅能切割直線，在遇到多角度圓弧切割時，必須利用X軸和Y軸人工自由拖刀之方式調整，來達成以多數直線作出趨近圓弧的切割線，如此一來，加工速度勢必因此緩慢，且加工品質容易因過多鋸齒狀而 與實際形狀有所誤差，因此在生產效率與產品品質兩方面都有待改善。However, in the case of profile cutting, the tool itself can only cut the straight line. When encountering multi-angle arc cutting, it must be adjusted by the X-axis and Y-axis artificial free dragging knife to achieve the approaching circle with most straight lines. The cutting line of the arc, as a result, the processing speed is bound to be slow, and the processing quality is easily due to excessive jaggedness. There is an error in the actual shape, so there is room for improvement in both production efficiency and product quality.

緣此，本創作之目的即是提供一種質精效高的異形多刃切割機，用以解決習知技術之問題Therefore, the purpose of this creation is to provide a high-quality and special-shaped multi-blade cutting machine to solve the problems of the prior art.

本創作為解決習知技術之問題所採用之技術手段為一種異形多刃切割機，包含：一機台座，機台座包括一切割平台、一Y軸向滑道、以及一Y軸向傳動機構，切割平台設置於Y軸向滑道之上且與Y軸向傳動機構耦接，並供一待切割基板設置於切割平台之上；一X軸向位移機構，設置於機台座之上，包括一第一動力位移軸件、一第二動力位移軸件，第一動力位移軸件包括一第一動力構件以及一第一位移軸，第二動力位移軸件包括一第二動力構件以及一第二位移軸，第一位移軸以及第二位移軸為並排設置，第一動力構件設置於X軸向位移機構之一側且第二動力構件設置於另一側；一第一切割刀件組，樞接於第一動力位移軸件，包括一CCD偵測元件、一Z軸向傳動機構、一旋轉機構、以及一刀座，CCD偵測元件設置鄰近於刀座，刀座與Z軸向傳動機構以及旋轉機構耦接，並供一刀具設置於刀座；一第二切割刀件組，樞接於第二動力位移軸件，包括一CCD偵測元件、一Z軸向傳動機構、一旋轉機構、以及一刀座，CCD偵測元件設置鄰近於刀座，刀座與Z軸向傳動機構以及旋轉機構耦接，並供一刀具設置於刀座。The technical means used in the present invention to solve the problems of the prior art is a profiled multi-blade cutting machine comprising: a machine base comprising a cutting platform, a Y-axis slide, and a Y-axis transmission mechanism. The cutting platform is disposed on the Y-axis slide and coupled to the Y-axis transmission mechanism, and a substrate to be cut is disposed on the cutting platform; an X-axis displacement mechanism is disposed on the machine base, including a a first power displacement shaft member, a second power displacement shaft member, the first power displacement shaft member includes a first power member and a first displacement shaft, and the second power displacement shaft member includes a second power member and a second The displacement shaft, the first displacement shaft and the second displacement shaft are arranged side by side, the first power component is disposed on one side of the X-axis displacement mechanism and the second power component is disposed on the other side; a first cutting blade group, the pivot Connected to the first power displacement shaft member, including a CCD detecting component, a Z-axis transmission mechanism, a rotating mechanism, and a tool holder, the CCD detecting component is disposed adjacent to the tool holder, the tool holder and the Z-axis transmission mechanism, and Rotating mechanism coupling And a cutter is disposed on the knife seat; a second cutting blade set is pivotally connected to the second power displacement shaft member, including a CCD detecting component, a Z-axis transmission mechanism, a rotating mechanism, and a tool holder, CCD The detecting component is disposed adjacent to the tool holder, the tool holder is coupled to the Z-axis transmission mechanism and the rotating mechanism, and a tool is disposed on the tool holder.

在本創作的一實施例中，其中第一位一軸以及第二位移軸為螺桿。In an embodiment of the present invention, the first one axis and the second axis are screws.

在本創作的一實施例中，更包括一控制機構，連接二組Z軸向傳動機構、第一動力構件、第二動力構件、Y軸向傳動機構、以及二組CCD偵測元件。In an embodiment of the present invention, a control mechanism is further included, and the two sets of Z-axis transmission mechanisms, the first power component, the second power component, the Y-axis transmission mechanism, and the two sets of CCD detecting components are connected.

在本創作的一實施例中，其中Z軸向傳動機構更包括一沿Z軸向配置的Z軸向滑道。In an embodiment of the present invention, the Z-axis transmission mechanism further includes a Z-axis slide disposed along the Z-axis.

在本創作的一實施例中，其中第一動力位移軸件之位移軸與第二動力位移軸件之位移軸為等長。In an embodiment of the present invention, the displacement axis of the first power displacement shaft member and the displacement axis of the second power displacement shaft member are of equal length.

在本創作的一實施例中，其中第一動力位移軸件與第二動力位移軸件沿著Z軸向而上下並列設置。In an embodiment of the present invention, the first power displacement shaft member and the second power displacement shaft member are arranged side by side in the Z-axis direction.

經由本創作所採用之技術手段，本創作之異形多刃切割機之刀具藉由旋轉機構驅動而能夠進行多角度圓弧切割，進而實現高精度的異形裁切。Through the technical means adopted by the creation, the tool of the special-shaped multi-blade cutting machine of the present invention can be driven by a rotating mechanism to perform multi-angle arc cutting, thereby realizing high-precision profile cutting.

再者，本創作之異形多刃切割機能夠以多刀具同時進行裁切，且設定切割路徑時，其中一個刀件組能夠以相對另一個刀件組之位置而作動，進而簡化切割路徑之設定而且提高生產效率。Furthermore, the shaped multi-blade cutting machine of the present invention can simultaneously cut with multiple tools, and when setting the cutting path, one of the group of blades can be moved relative to the position of the other group of blades, thereby simplifying the setting of the cutting path. And improve production efficiency.

此外，第一動力構件和第二動力構件分設於X軸向位移機構之二側，能夠使馬達運轉的熱源分散，降低熱源集中帶來的熱故障風險，並且藉由力平衡的結構配置使減少刀具加工運作時的震動，有助於穩定產品之加工精度。In addition, the first power member and the second power member are disposed on two sides of the X-axis displacement mechanism, which can disperse the heat source of the motor operation, reduce the risk of thermal failure caused by the concentration of the heat source, and are configured by the force balance structure. Reducing the vibration during tooling operation helps to stabilize the machining accuracy of the product.

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。The specific embodiments used in the creation will be further illustrated by the following examples and accompanying drawings.

100‧‧‧異形多刃切割機100‧‧‧ Shaped multi-blade cutting machine

1‧‧‧機台座1‧‧‧ machine pedestal

11‧‧‧切割平台11‧‧‧ cutting platform

12‧‧‧Y軸向滑道12‧‧‧Y axial slide

13‧‧‧Y軸向傳動機構13‧‧‧Y axial transmission

131‧‧‧Y軸向動力構件131‧‧‧Y axial power components

132‧‧‧位移軸132‧‧‧displacement axis

2‧‧‧X軸向位移機構2‧‧‧X axial displacement mechanism

21‧‧‧第一動力位移軸件21‧‧‧First dynamic displacement shaft

211‧‧‧第一位移軸211‧‧‧First displacement axis

212‧‧‧第一動力構件212‧‧‧First power component

22‧‧‧第二動力位移軸件22‧‧‧Second dynamic displacement shaft

221‧‧‧第二位移軸221‧‧‧Second displacement axis

222‧‧‧第二動力構件222‧‧‧Second power components

3‧‧‧第一切割刀件組3‧‧‧First cutting blade set

31‧‧‧CCD偵測元件31‧‧‧CCD detection components

32‧‧‧Z軸向傳動機構32‧‧‧Z axial drive mechanism

321‧‧‧Z軸向滑道321‧‧‧Z axial slide

33‧‧‧旋轉機構33‧‧‧Rotating mechanism

34‧‧‧刀座34‧‧‧Tool holder

341‧‧‧刀具341‧‧‧Tools

4‧‧‧第二切割刀件組4‧‧‧Second cutting blade set

41‧‧‧CCD偵測元件41‧‧‧CCD detection components

42‧‧‧Z軸向傳動機構42‧‧‧Z axial transmission

421‧‧‧Z軸向滑道421‧‧‧Z axial slide

43‧‧‧旋轉機構43‧‧‧Rotating mechanism

44‧‧‧刀座44‧‧‧Tool holder

441‧‧‧刀具441‧‧‧Tools

5‧‧‧控制機構5‧‧‧Control agency

第1圖係顯示依據本創作之一實施例的異形多刃切割機的立體圖；第2圖係顯示依據本創作之實施例的異形多刃切割機的上視圖；第3圖係顯示依據本創作之實施例的異形多刃切割機的側視圖；第4圖係顯示依據本創作之實施例的異形多刃切割機的前視圖。1 is a perspective view showing a profiled multi-blade cutter according to an embodiment of the present invention; FIG. 2 is a top view showing a profiled multi-blade cutter according to an embodiment of the present creation; and FIG. 3 is a view showing the creation according to the present invention. A side view of a profiled multi-blade cutter of an embodiment; FIG. 4 is a front elevational view of a profiled multi-blade cutter in accordance with an embodiment of the present invention.

請參閱第1圖至第4圖，第1圖係顯示依據本創作之一實施例的異形多刃切割機的立體圖，第2圖係顯示依據本創作之實施例的異形多刃切割機的上視圖，第3圖係顯示依據本創作之實施例的異形多刃切割機的側視圖，第4圖係顯示依據本創 作之實施例的異形多刃切割機的前視圖。Referring to FIGS. 1 through 4, FIG. 1 is a perspective view showing a profiled multi-blade cutter according to an embodiment of the present invention, and FIG. 2 is a view showing a profiled multi-blade cutter according to an embodiment of the present invention. View, Fig. 3 is a side view showing a profiled multi-blade cutting machine according to an embodiment of the present invention, and Fig. 4 is a view showing the basis of the present invention. A front view of the profiled multi-blade cutter of the embodiment.

如圖所示，依據本創作之一實施例的異形多刃切割機100，包含一機台座1、一X軸向位移機構2、一第一切割刀件組3、一第二切割刀件組4以及一控制機構5。As shown in the figure, the profiled multi-blade cutting machine 100 according to an embodiment of the present invention comprises a machine base 1, an X-axis displacement mechanism 2, a first cutting blade set 3, and a second cutting blade set. 4 and a control mechanism 5.

機台座1包括一切割平台11、一Y軸向滑道12、以及一Y軸向傳動機構13。切割平台11設置於該Y軸向滑道12之上，供一待切割之玻璃基板(圖未示)放置。Y軸向傳動機構13包括一Y軸向動力構件131以及一位移軸132。位移軸132為一螺桿，位移軸132之一端與Y軸向動力構件131相接，受Y軸向動力構件131之驅動而軸轉。切割平台11設置於位移軸132上，在Y軸向動力構件131驅動位移軸132軸轉時，切割平台11受位移軸132之螺紋帶動而於Y軸向滑道12進行Y軸向移動。The machine base 1 includes a cutting platform 11, a Y-axis slide 12, and a Y-axis transmission mechanism 13. The cutting platform 11 is disposed on the Y-axis slide 12 for placement on a glass substrate (not shown) to be cut. The Y-axis transmission mechanism 13 includes a Y-axis power member 131 and a displacement shaft 132. The displacement shaft 132 is a screw, and one end of the displacement shaft 132 is in contact with the Y-axis power member 131, and is axially driven by the Y-axis power member 131. The cutting platform 11 is disposed on the displacement shaft 132. When the Y-axis power member 131 drives the displacement shaft 132 to rotate, the cutting platform 11 is driven by the thread of the displacement shaft 132 to move in the Y-axis direction on the Y-axis slide 12.

X軸向位移機構2橫跨設置於該機台座1而位於切割平台11上方，其包括一第一動力位移軸件21以及一第二動力位移軸件22。第一動力位移軸件21以及第二動力位移軸件22係平行於X軸向而並排設置。在本實施例中，第一動力位移軸件21與第二動力位移軸件22係在Z軸向上下並列配置。The X-axis displacement mechanism 2 is disposed above the cutting platform 11 across the machine base 1 and includes a first power displacement shaft member 21 and a second power displacement shaft member 22. The first power displacement shaft member 21 and the second power displacement shaft member 22 are arranged side by side in parallel with the X-axis direction. In the present embodiment, the first power displacement shaft member 21 and the second power displacement shaft member 22 are arranged side by side in the Z-axis direction.

第一動力位移軸件21包括一第一位移軸211以及一第一動力構件212，第二動力位移軸件22包括一第二位移軸221以及一第二動力構件222。第一位移軸211以及第二位移軸221皆為螺桿，此二者係沿著Z軸向而平行地並列設置於X軸向位移機構2之中。較佳地，第一位移軸211以及第二位移軸221係為等長。The first power displacement shaft member 21 includes a first displacement shaft 211 and a first power member 212. The second power displacement shaft member 22 includes a second displacement shaft 221 and a second power member 222. The first displacement shaft 211 and the second displacement shaft 221 are both screws, which are juxtaposed in parallel along the Z-axis in the X-axis displacement mechanism 2. Preferably, the first displacement axis 211 and the second displacement axis 221 are of equal length.

第一動力構件212設置於X軸向位移機構2之右側，且連接於第一位移軸211之右端，而第二動力構件222則交錯地設置於X軸向位移機構2之左側，且第二動力構件222連接於第二位移軸221之左端。藉由這樣的配置，第一動力構件212和第二動力構件222分設於X軸向位移機構2之二側，能夠使馬 達運轉的熱源分散，降低熱源集中帶來的熱故障風險，並且藉由力平衡的結構配置使減少刀具加工運作時的震動，有助於穩定產品之加工精度。The first power member 212 is disposed on the right side of the X-axis displacement mechanism 2 and connected to the right end of the first displacement shaft 211, and the second power member 222 is alternately disposed on the left side of the X-axis displacement mechanism 2, and the second The power member 222 is coupled to the left end of the second displacement shaft 221. With such a configuration, the first power member 212 and the second power member 222 are disposed on two sides of the X-axis displacement mechanism 2, enabling the horse to be The heat source of the operation is dispersed, the risk of thermal failure caused by the concentration of the heat source is reduced, and the structural arrangement of the force balance is used to reduce the vibration during the machining operation of the tool, which helps to stabilize the processing precision of the product.

請配合參閱第3圖。第一切割刀件組3樞設於第一動力位移軸件21的第一位移軸211，包括一CCD偵測元件31、一Z軸向傳動機構32、一旋轉機構33、以及一刀座34。CCD偵測元件31設置刀座34之上方，用以對下方之待加工物件進行定位偵測。Z軸向傳動機構32包括一Z軸向滑道321，Z軸向傳動機構32與刀座34連接，用以驅動刀座34以Z軸向作動於Z軸向滑道321。刀座34供一刀具341設置，並與旋轉機構33相連接，旋轉機構33能夠帶動刀座34作動而使刀具341進行360度旋轉。Please refer to Figure 3. The first cutting blade set 3 is pivotally disposed on the first displacement shaft 211 of the first power displacement shaft member 21, and includes a CCD detecting component 31, a Z-axis transmission mechanism 32, a rotating mechanism 33, and a seat 34. The CCD detecting component 31 is disposed above the blade holder 34 for positioning detection of the object to be processed below. The Z-axis transmission mechanism 32 includes a Z-axis slide 321 that is coupled to the holder 34 for driving the holder 34 to act in the Z-axis slide 321 in the Z-axis. The holder 34 is provided for a cutter 341 and is coupled to the rotation mechanism 33. The rotation mechanism 33 can move the holder 34 to rotate the cutter 341 360 degrees.

第二切割刀件組4與第一切割刀件組3相似，其樞接於該第二動力位移軸件22，包括一CCD偵測元件41、一Z軸向傳動機構42、一旋轉機構43、以及一刀座44。CCD偵測元件41設置刀座44之上方，用以對下方之待加工物件進行偵測定位。Z軸向傳動機構42包括一Z軸向滑道421，Z軸向傳動機構42與刀座44連接，用以驅動刀座44以Z軸向作動於Z軸向滑道421。刀座44供一刀具441設置，並與旋轉機構43相連接，旋轉機構43能夠帶動刀座44作動而使刀具441進行360度旋轉。The second cutting blade set 4 is similar to the first cutting blade set 3, and is pivotally connected to the second power displacement shaft member 22, and includes a CCD detecting component 41, a Z-axis transmission mechanism 42, and a rotating mechanism 43. And a knife seat 44. The CCD detecting component 41 is disposed above the blade holder 44 for detecting and positioning the object to be processed below. The Z-axis drive mechanism 42 includes a Z-axis slide 421 that is coupled to the seat 44 for driving the seat 44 to actuate the Z-axis slide 421 in the Z-axis. The holder 44 is provided for a cutter 441 and is coupled to the rotation mechanism 43, and the rotation mechanism 43 can move the holder 44 to rotate the cutter 441 360 degrees.

控制機構5設置於機台座1之內，並分別連接控制Y軸向傳動機構13、第一動力構件212、第二動力構件222、Z軸向傳動機構32、42、CCD偵測元件31、41、以及旋轉機構33、43。控制機構5能夠根據所輸入的資訊以及來自CCD偵測元件31、41的定位資訊，而對應控制上述機構與構件。The control mechanism 5 is disposed in the machine base 1 and is respectively connected to control the Y-axis transmission mechanism 13, the first power member 212, the second power member 222, the Z-axis transmission mechanisms 32, 42, and the CCD detecting elements 31, 41. And the rotating mechanisms 33, 43. The control mechanism 5 is capable of correspondingly controlling the above-described mechanism and member based on the input information and the positioning information from the CCD detecting elements 31, 41.

藉由以上所述之結構，第一切割刀件組3以及第二切割刀件組4能夠藉由旋轉機構33、43而進行多角度圓弧切割，進而達到高精度的裁切而提升生產品質。With the above-described configuration, the first cutting blade group 3 and the second cutting blade group 4 can be multi-angle circular arc cutting by the rotating mechanisms 33, 43 to achieve high-precision cutting and improve production quality. .

欲使用異形多刃切割機100時，首先需將圖面欲切 割之路徑與切割圖層編排完成後載入控制機構5之中，再設定X軸與Y軸要切割直線、弧線的切割速度、切割壓力，並利用刀座44上方的CCD偵測元件31、41做待切割之玻璃對位校正。對位完成後，由控制機構5對應控制Y軸向傳動機構13、第一動力構件212、第二動力構件222、Z軸向傳動機構32、42、以及旋轉機構33、43，使得刀座34、44能夠於待加工之玻璃上做出X、Y與Z軸向的移動而裁切玻璃基板至所需之形狀。藉由第一切割刀件組3和第二切割刀件組4的設置，在設定切割路徑時，其中一個刀件組能夠以相對另一個刀件組之位置而作動，進而簡化切割路徑之設定而提高生產效率。When you want to use the special-shaped multi-blade cutting machine 100, you first need to cut the drawing. After the cutting path and the cutting layer are arranged, the loading control mechanism 5 is loaded, and then the X-axis and the Y-axis are cut to cut the straight line, the arc cutting speed, the cutting pressure, and the CCD detecting elements 31, 41 above the tool holder 44 are used. Correction of the glass alignment to be cut. After the alignment is completed, the Y-axis transmission mechanism 13, the first power member 212, the second power member 222, the Z-axis transmission mechanisms 32, 42, and the rotation mechanisms 33, 43 are controlled by the control mechanism 5 such that the holder 34 44 can make the X, Y and Z axial movements on the glass to be processed to cut the glass substrate to the desired shape. By the arrangement of the first cutting blade set 3 and the second cutting blade set 4, when setting the cutting path, one of the blade sets can be moved relative to the position of the other blade set, thereby simplifying the setting of the cutting path. And improve production efficiency.

在本實施例中，本創作之異形多刃切割機100的X軸向位移機構2係樞接有第一切割刀件組3以及第二切割刀件組4，然而，異形多刃切割機100也可以設置有二組以上的切割刀件組，並且以X軸向位移機構2中的位移軸沿著Z軸向而並列設置於X軸向位移機構2之中，且每個動力構件分別交錯設置X軸向位移機構2的一側的此種配置為佳，以達到平均重量的效果，使得X軸向位移機構2藉由力平衡的結構配置而減少刀具加工運作時的震動，進而穩定產品之加工精度。In the present embodiment, the X-axis displacement mechanism 2 of the shaped multi-blade cutting machine 100 of the present invention is pivotally connected with the first cutting blade set 3 and the second cutting blade set 4, however, the profiled multi-blade cutting machine 100 It is also possible to provide two or more sets of cutting blades, and the displacement axes in the X-axis displacement mechanism 2 are juxtaposed in the X-axis displacement mechanism 2 along the Z-axis, and each of the power members is respectively staggered. It is preferable to provide such a configuration of one side of the X-axis displacement mechanism 2 to achieve an average weight effect, so that the X-axis displacement mechanism 2 reduces the vibration during the tool processing operation by the force-balanced structural configuration, thereby stabilizing the product. Processing accuracy.

由以上之實施例可知，本創作所提供之異形多刃切割機確具產業上之利用價值，故本創作業已符合於專利之要件。惟以上之敘述僅為本創作之較佳實施例說明，凡精於此項技藝者當可依據上述之說明而作其它種種之改良，惟這些改變仍屬於本創作之創作精神及以下所界定之專利範圍中。It can be seen from the above embodiments that the special-shaped multi-blade cutting machine provided by the present invention has industrial utilization value, so the original operation has been in conformity with the requirements of the patent. However, the above description is only for the preferred embodiment of the present invention, and those skilled in the art may make other improvements according to the above description, but these changes still belong to the creative spirit of the creation and the following definitions. In the scope of patents.

100‧‧‧異形多刃切割機100‧‧‧ Shaped multi-blade cutting machine

1‧‧‧機台座1‧‧‧ machine pedestal

11‧‧‧切割平台11‧‧‧ cutting platform

12‧‧‧Y軸向滑道12‧‧‧Y axial slide

132‧‧‧位移軸132‧‧‧displacement axis

2‧‧‧X軸向位移機構2‧‧‧X axial displacement mechanism

211‧‧‧第一位移軸211‧‧‧First displacement axis

221‧‧‧第二位移軸221‧‧‧Second displacement axis

3‧‧‧第一切割刀件組3‧‧‧First cutting blade set

4‧‧‧第二切割刀件組4‧‧‧Second cutting blade set

5‧‧‧控制機構5‧‧‧Control agency

Claims (6)

一種異形多刃切割機，包含：一機台座，該機台座包括一切割平台、一Y軸向滑道、以及一Y軸向傳動機構，該切割平台設置於該Y軸向滑道之上且與該Y軸向傳動機構耦接，並供一待切割基板設置於該切割平台之上；一X軸向位移機構，設置於該機台座之上，包括一第一動力位移軸件、一第二動力位移軸件，該第一動力位移軸件包括一第一動力構件以及一第一位移軸，該第二動力位移軸件包括一第二動力構件以及一第二位移軸，該第一位移軸以及該第二位移軸係為並排設置，該第一動力構件設置於該X軸向位移機構之一側且該第二動力構件設置於另一側；一第一切割刀件組，樞接於該第一動力位移軸件，包括一CCD偵測元件、一Z軸向傳動機構、一旋轉機構、以及一刀座，該CCD偵測元件設置鄰近於該刀座，該刀座與該Z軸向傳動機構以及該旋轉機構耦接，並供一刀具設置於該刀座；一第二切割刀件組，樞接於該第二動力位移軸件，包括一CCD偵測元件、一Z軸向傳動機構、一旋轉機構、以及一刀座，該CCD偵測元件設置鄰近於該刀座，該刀座與該Z軸向傳動機構以及該旋轉機構耦接，並供一刀具設置於該刀座。 A profiled multi-blade cutting machine comprising: a machine pedestal comprising a cutting platform, a Y-axis slide, and a Y-axis transmission mechanism, the cutting platform being disposed on the Y-axis slide Coupling with the Y-axis transmission mechanism, and a substrate to be cut is disposed on the cutting platform; an X-axis displacement mechanism is disposed on the machine base, including a first power displacement shaft member, a first a second power displacement shaft member, the first power displacement shaft member comprising a first power member and a first displacement shaft, the second power displacement shaft member comprising a second power member and a second displacement shaft, the first displacement The shaft and the second displacement shaft are arranged side by side, the first power component is disposed on one side of the X-axis displacement mechanism and the second power component is disposed on the other side; a first cutting blade group is pivotally connected The first power displacement shaft member includes a CCD detecting component, a Z-axis transmission mechanism, a rotating mechanism, and a tool holder. The CCD detecting component is disposed adjacent to the tool holder, the tool holder and the Z-axis Coupling to the transmission mechanism and the rotating mechanism, and a tool is disposed on the tool holder; a second cutting blade member pivotally connected to the second power displacement shaft member, including a CCD detecting component, a Z-axis transmission mechanism, a rotating mechanism, and a tool holder, The CCD detecting component is disposed adjacent to the tool holder, the tool holder is coupled to the Z-axis transmission mechanism and the rotating mechanism, and a tool is disposed on the tool holder. 如申請專利範圍第1項所述之異形多刃切割機，其中該第一位移軸以及該第二位移軸係為螺桿。 The profiled multi-blade cutter of claim 1, wherein the first displacement shaft and the second displacement shaft are screws. 如申請專利範圍第1項所述之異形多刃切割機，更包括一控制機構，連接該二組Z軸向傳動機構、該第一動力構件、該第二動力構件、該Y軸向傳動機構、以及該二組CCD偵測元件。 The profiled multi-blade cutting machine according to claim 1, further comprising a control mechanism connecting the two sets of Z-axis transmission mechanisms, the first power component, the second power component, and the Y-axis transmission mechanism And the two sets of CCD detecting elements. 如申請專利範圍第1項所述之異形多刃切割機，其中該第一切割刀件組以及該第二切割刀件組的該Z軸向傳動機構更包括一沿Z軸向配置的Z軸向滑道。 The profiled multi-blade cutting machine of claim 1, wherein the first cutting blade set and the Z-axis transmission mechanism of the second cutting blade set further comprise a Z-axis arranged along the Z-axis. To the slide. 如申請專利範圍第1項所述之異形多刃切割機，其中該第一動力位移軸件之該位移軸與該第二動力位移軸件之該位移軸係為等長。 The profiled multi-blade cutting machine of claim 1, wherein the displacement axis of the first power displacement shaft member and the displacement axis of the second power displacement shaft member are of equal length. 如申請專利範圍第1項所述之異形多刃切割機，其中該第一動力位移軸件與該第二動力位移軸件係沿著Z軸向而上下並列設置。 The profiled multi-blade cutting machine of claim 1, wherein the first power displacement shaft member and the second power displacement shaft member are arranged side by side along the Z-axis.