201132475 六、發明說明: 【發明所屬之技術領娀】 [0001] 本發明涉及板材裁切技術,尤其涉及—種具有較高裁切 良率與較好裁切效率之板材裁切系統。 【先前挂/術】 [0002] 於資訊、通訊及消費性電子產業中’電路板為所有電子 產品不可或缺之基本構成要件。電路板通常由覆銅板( Copper Clad Laminate ’ CCL)製作形成。由於實際講 貝之覆銅板通常為尺寸較大之基本為長方形之板材,製 作電路板時就需要把板材裁切成複數尺寸較小之基板, 基板之尺寸僅需略大於電路板產品之尺寸即可。 [〇〇〇3]於裁切板材時’一般需要將板材放置於裁切機,裁切機 之料爪推送板材至裁切位置,作業員控制裁切刀裁切板 材一刀,然後料爪再次推送板材,作業員再次控制裁切 刀裁切板材一刀。如此複數次,直至將板材裁切成複數 基板。惟,由於作業員並不知曉料爪何時成功推送板材 至裁切位置’因此作業員只能等候較長時間後才進行裁 切,如此可能造成作業時間之浪費。而—旦作業員過早 控制裁切刀裁切板材,則可能造成裁切刀之誤裁切,裁 切出廢板’如此將導致大量裁切廢料之產生,造成板材 之浪費。 [0004」有鑑於此,提供一種可具有較高裁切良率與較好裁切效 率之板材裁切系統實屬必要。 【發明内容】 [⑻05] α下將以實施例說明—種板材裁切系統。 099109280 表單蝙號Α0101 0992016517-0 第4頁/共23頁 201132475 [0006] Ο 一種板材裁切系統,用於控制裁切刀將板材裁切成複數 基板。所述板材裁切系統包括處理模組、板材推送模組 、警示模組、裁切控制模組以及人機介面。所述處理模 組用於根據輸入之板材尺寸以及基板尺寸得出裁切刀裁 切板材之總刀數以及裁切刀每裁切板材一刀前板材移動 之預定距離。所述板材推送模組用於在裁切刀每裁切板 材一刀前推送板材以使板材移動該預定距離。所述警示 模組用於在板材推送模組推送板材移動預定距離後發出 警示訊號。所述裁切控制模組用於被觸發時控制裁切刀 對板材進行裁切。所述人機介面具有第一輸入按鍵、第 二輸入按鍵以及觸發按鍵,所述第一輸入按鍵用於輸入 板材尺寸,所述第二輸入按鍵用於輸入基板尺寸,所述 ...... :::::; 觸發按鍵用於觸發裁切控制模組。 [0007] ❹ 一種板材裁切系統,用於控制裁切刀將板材裁切成複數 基板。所述板材具有基本垂直之第一邊與第二邊,所述 板材裁切系統包括處理模組、板材推送模組、警示模組 、裁切控制模組以及人機介面-所述處理模組用於根據 輸入之板材尺寸以及基板尺寸得出裁切刀於第一邊上裁 切板材之總刀數’裁切刀於第二邊上裁切板材之總刀數 ,裁切刀每於第一邊上裁切板材一刀前板材沿平行於第 一邊之方向上移動之第一預定距離,以及裁切刀每於第 二邊上裁切板材一刀前板材沿平行於第二邊之方向上移 動之第二預定距離。所述板材推送模組用於在裁切刀每 於第一邊上裁切板材一刀前推送板材以使板材沿平行於 第一邊之方向上移動該第·^預定距離,還用於在裁切刀 099109280 表單编號Α0101 第5頁/共23頁 0992016517-0 201132475 每於第二邊上裁切板材一刀前推送板材以使板材沿平行 於第二邊之方向上移動該第二預定距離。所述警示模組 用於在板材推送模組推送板材沿平行於第一邊之方向上 移動第一預定距離後發出第一警示訊號,並且於板材推 送模組推送板材沿平行於第二邊之方向上移動第二預定 距離後發出第三警*訊號。所述裁切㈣模組用於板特 移動第一預定距離後可被觸發以控制裁切刀對板材之第 一邊進行裁切,並用於板材移動第二預定距離後可被觸 發以控制裁切刀對板材之第二邊進行裁切。所述人機介 面具有第一輸入按鍵、第二輸入按鍵、第一觸發按鍵以 及第二觸發按鍵’所述L按於輸人板材尺寸 ’所述第二輸入按鍵用於輸人基觀尺寸,所述第一觸發 按鍵用於觸發裁切控制模組對板g之第一邊進行裁切, 所述第二騎按鍵詩觸發裁切控龍組對板材之第二 邊進行裁切。 [0008] 本技術方案之板材裁切系統中,處理模組可根據輸入之 板材尺相及基板尺寸自動得出裁切刀裁切板材之總刀 數以及裁切刀每裁切板材-刀前板材移動之預定距離, 而板材推送模組於推送板材移動預定距離後,警示模组 會發出-警減號,從而提醒作業員對板材進行裁切, 如此不但提㊅裁切效率’而且還可避免對板材進行誤裁 切’大大提高板材裁切之良率。 【實施方式】 下面將結合及實施例,對本技術方紐供之板材裁 切系統作進一步之詳細說明。 099109280 表單編號A0101 第6頁/共23頁 0992016517-0 [0009] 201132475 [0010] 請參閱圖1,本技術方案第一實施例提供之板材裁切系統 1 〇用於控制裁切位置穩定之裁切刀將移動之板材裁切成 複數基板。所述板材裁切系統10可建構於一或複數電腦 中’其包括人機介面11、資料存儲模組12、處理模組13 、板材推送模組14、警示模組15以及裁切控制模組16。 [0011] ο [0012] 所述人機介面11可為一視窗,其具有複數操作按鍵以及 複數顯示框,用於方便作業員操控板材裁切系統1 〇。於 本實施例中,人機介面11具有第一輸入按鍵111、第二輸 入按鍵112、第一顯示框113、第二顯示框114以及觸發 按鍵115。 ❹ 所述第一輪入按鍵111與第二輸入按邊112可以為文本輸 入框,具有可輸入在且顯示输入内容之能力。所述第一 輸入按鍵111用於輸入板材尺寸並用於顯示輸入之板材尺 寸,所述第二輸入按鍵112用於輸入基板尺寸並用於顯示 輸入之基板尺寸。所述板材尺丈係指板材之長度、寬度 或者長度與寬度。於實際使用中,可根據具體裁切要求 ,選擇於第一輸入按鍵111中輸入板材之長度、輸入板材 之寬度或者輪入板材之長度與寬度。所述基板尺寸係指 基板之長度、寬度或者長度與寬度。於實際使用中,可 根據具體裁切要求’當於第—輸人按鍵⑴中輸入板材之 長度時’於第二輸人按鍵112對應輸人基材之長度;於第 -輸入按鍵111中輪入板材之寬度時,於第二輸入按鍵 112對應輸入基材之寬度;第一輸入按鍵⑴中輸入板材 之長度與見度時,於第二輸入按鍵112對應輸入基材之長 度與寬度。於本實施例中,第-輸人按鍵111用於輪入板 099109280 表單編號Α0101 第7頁/共23頁 0992016517-0 201132475 材之長度,第__ 第-輸入按鍵;^輪入按鍵112用於輪入基板之長度。所述 具有資訊連接關1與第一輸入按鍵112與資料存儲模組12 114與處理模係。所述第—顯示框113與第二顯示框 13之處理結果。3具有貢5fl連接關係,用於顯示處理模組 16。 所㈣發賴115用於觸發餘控制模組 [0013] [0014] 所^資料存_組12用於獲取並 一輸入按鍵U 子儲自人機;I面11之第 輸入之基U 之板材尺相及自第二輪人按鍵Η2 Γ. 訊連接關係,資料存儲模組12與處理模組㈣有資 輸給處理·^可將存儲之板材尺寸以及基板尺寸傳 優選地’所述〜 入按鍵川與^料存儲模組12具有鎖保護功能,第—輪 保護狀態下…〜輪入按鍵112均具有寫保護功能。於鎖 進行數值存儲肋12不允許寫人,不允許對其 料存儲模者數值之修改。於解除鎖保護時,資 行數值輪入’亦即允許對f料存儲模組12進 下存儲之數值進行修改。”保護狀態 鍵111與第二輸入按鍵112被寫保護,不 h改或者輸人。解除寫保護時’才允許輸入或你改 第-輸入按鍵m與第二輸入按鍵112。於本實施^中, 由於第一輸入按鍵111與第二輸入按鍵〗12與資料存儲代 組12具有資訊連接關係,因此,第一輸入按鍵Hi與第一 輸入按鍵112寫保護功能之開啟與資料存儲模組12鎖保1 功能之開啟係相互關聯。亦即,第一輸入按鍵〗 ^ 輸入按鍵112寫保護狀態之開啟會同時觸發資 “ 、竹仔鱗模組 099109280 表單編號A0101 第8頁/共23頁 0992016517-0 201132475 12鎖保濩狀態之開啟,第_輸 入按鍵111與第二輸 解咖時觸物存職組丨2鎖= 狀態之解除 [0015] 所述處理模組邮於自資料射賴組12獲得板材尺 及基板尺寸,並根據計算公式計算得出裁切刀裁切板材 之總刀數以及裁切刀每裁切板材1前板材應當移 預定距離。料總刀數频給人機介叫並顯示於第— 顯示而3,所述預定距離傳輪給人 Ο 二顯示框m,以供作業員知曉。所述計算公式為作業 根據板材裁㈣驗得化經驗料,其可_於處理模 組123内,亦可存儲於資料存儲㈣12心當所述計算公 式存儲於資料存儲模組12時,處理模組13可於從資料 儲模組12獲得板材尺寸以及基板尺寸之同時,獲得該計 算公式。201132475 VI. Description of the Invention: [Technical Profile of the Invention] [0001] The present invention relates to a sheet cutting technique, and more particularly to a sheet cutting system having a higher cutting yield and better cutting efficiency. [Previous Hanging/Surgery] [0002] In the information, communications and consumer electronics industries, 'circuit boards are an essential component of all electronic products. The board is usually formed from a copper clad laminate (CCL Clad Laminate 'CCL). Since the actual copper-clad laminate is usually a relatively large-sized rectangular plate, the circuit board needs to be cut into a plurality of smaller substrates, and the size of the substrate only needs to be slightly larger than the size of the circuit board product. can. [〇〇〇3] When cutting a sheet, it is generally necessary to place the sheet on the cutting machine. The claw of the cutting machine pushes the sheet to the cutting position, and the operator controls the cutting knife to cut the sheet, and then the claw is again Pushing the sheet, the operator once again controls the cutting knife to cut the sheet. This is repeated several times until the sheet is cut into a plurality of substrates. However, since the operator does not know when the claws successfully push the sheet to the cutting position, the operator can only wait for a long time before cutting, which may result in wasted work time. However, if the operator pre-empts the cutting knife to cut the sheet, it may cause the cutting knife to be cut and cut the scrap board. This will result in a large amount of cutting waste, which will result in waste of the board. In view of this, it is necessary to provide a sheet cutting system that can have a higher cutting yield and better cutting efficiency. SUMMARY OF THE INVENTION [(8)05] A sheet cutting system will be described by way of example. 099109280 Form bat number Α0101 0992016517-0 Page 4 of 23 201132475 [0006] 板材 A sheet cutting system for controlling a cutting blade to cut a sheet into a plurality of substrates. The sheet cutting system comprises a processing module, a sheet pushing module, a warning module, a cutting control module and a human machine interface. The processing module is configured to obtain a total number of blades for cutting the sheet according to the input sheet size and the substrate size, and a predetermined distance for the cutting of the sheet before cutting the sheet. The sheet pushing module is configured to push the sheet before the cutting knife cuts the sheet to move the sheet by the predetermined distance. The warning module is configured to issue a warning signal after the plate pushing module pushes the plate to move a predetermined distance. The cutting control module is configured to control the cutting knife to cut the sheet when triggered. The human machine interface has a first input button, a second input button, and a trigger button, the first input button is used to input a plate size, and the second input button is used to input a substrate size, the ..... The :::::; trigger button is used to trigger the crop control module. [0007] A sheet cutting system for controlling a cutting blade to cut a sheet into a plurality of substrates. The sheet material has a first side and a second side that are substantially perpendicular, and the sheet cutting system comprises a processing module, a sheet pushing module, a warning module, a cutting control module, and a human machine interface - the processing module It is used to obtain the total number of cuts of the cutting plate on the first side according to the input plate size and the substrate size. The total number of cuts of the cutting plate on the second side of the cutting knife. a first predetermined distance of the sheet moving in a direction parallel to the first side before cutting the sheet, and a cutting knife cutting the sheet on the second side, the sheet is in a direction parallel to the second side The second predetermined distance of movement. The plate pushing module is configured to push the plate before the cutting knife cuts the plate on the first side to move the plate in a direction parallel to the first side, and is also used for cutting Cutter 099109280 Form No. 1010101 Page 5/Total 23 Page 0992016517-0 201132475 Each time the sheet is cut on the second side, the sheet is pushed forward to move the sheet by a second predetermined distance in a direction parallel to the second side. The warning module is configured to send a first warning signal after the plate pushing module pushes the plate to move a first predetermined distance in a direction parallel to the first side, and pushes the plate along the plate pushing module to be parallel to the second side A third alarm* signal is issued after moving the second predetermined distance in the direction. The cutting (4) module is configured to be used to control the cutting knife to cut the first side of the sheet after the sheet is moved by the first predetermined distance, and can be triggered to control the cutting after the sheet is moved by the second predetermined distance. The cutter cuts the second side of the sheet. The human machine interface has a first input button, a second input button, a first trigger button, and a second trigger button 'the L is pressed to the input panel size', and the second input button is used to input the base size. The first trigger button is used to trigger the cutting control module to cut the first side of the board g, and the second riding button poem triggers the cutting control group to cut the second side of the board. [0008] In the sheet cutting system of the technical solution, the processing module can automatically obtain the total number of cut sheets of the cutting knife according to the input sheet size and the substrate size, and the cutting knife for each cutting sheet - before the knife The predetermined distance of the sheet moving, and after the sheet pushing module moves the predetermined distance of the pushing sheet, the warning module will issue a warning sign to remind the operator to cut the sheet, so that not only the efficiency of the cutting is improved, but also Avoid mis-cutting the sheet' greatly improves the yield of sheet cutting. [Embodiment] Hereinafter, the sheet cutting system of the present technology will be further described in detail in conjunction with the embodiments. 099109280 Form No. A0101 Page 6 / Total 23 Page 0992016517-0 [0009] Please refer to FIG. 1 , the sheet cutting system 1 provided by the first embodiment of the present technical solution is used to control the cutting position stability. The cutter cuts the moving sheet into a plurality of substrates. The sheet cutting system 10 can be constructed in one or more computers. The utility model comprises a human machine interface 11 , a data storage module 12 , a processing module 13 , a plate pushing module 14 , a warning module 15 , and a cutting control module . 16. [0012] The human machine interface 11 can be a window having a plurality of operation buttons and a plurality of display frames for facilitating the operator to manipulate the sheet cutting system 1 . In this embodiment, the human interface 11 has a first input button 111, a second input button 112, a first display frame 113, a second display frame 114, and a trigger button 115. ❹ The first round button 111 and the second input button 112 may be text input boxes with the ability to input and display input content. The first input button 111 is for inputting a sheet size and for displaying an input sheet size, and the second input button 112 is for inputting a substrate size and for displaying the input substrate size. The sheet size refers to the length, width or length and width of the sheet. In actual use, the length of the plate, the width of the input plate, or the length and width of the wheeled plate may be selected in the first input button 111 according to the specific cutting requirements. The substrate size refers to the length, width or length and width of the substrate. In actual use, according to the specific cutting requirement, 'When the length of the plate is input in the first-input button (1)', the length of the input substrate is corresponding to the second input button 112; in the middle of the first-input button 111 When entering the width of the plate, the second input button 112 corresponds to the width of the input substrate; when the length and visibility of the plate are input in the first input button (1), the length and width of the input substrate are corresponding to the second input button 112. In this embodiment, the first-input button 111 is used for the wheel-in board 099109280. Form number Α 0101 page 7 / total 23 page 0992016517-0 201132475 length of the material, the __ first-input button; ^ wheel-in button 112 The length of the substrate is rounded. The information has an information connection 1 and a first input button 112 and a data storage module 12 114 and a processing module. The processing results of the first display frame 113 and the second display frame 13. 3 has a tribute 5fl connection relationship for displaying the processing module 16. (4) The replies 115 are used to trigger the residual control module [0013] [0014] The data storage _ group 12 is used to acquire and input the button U sub-storage from the human-machine; The ruler phase and the second round of the person button Η 2 Γ. The connection relationship, the data storage module 12 and the processing module (4) are available for processing. ^ The stored plate size and the substrate size are preferably 'described> The button Chuan and the material storage module 12 has a lock protection function, and the first wheel protection state... The wheel entry button 112 has a write protection function. The value storage rib 12 is not allowed to write to the lock, and the modification of the value of the storage model is not allowed. When the lock protection is released, the value of the asset is rotated, which allows the value stored in the material storage module 12 to be modified. The protection status key 111 and the second input button 112 are write-protected, and are not changed or input. When the write protection is released, the input is allowed or you change the first-input button m and the second input button 112. In this implementation Since the first input button 111 and the second input button 12 have an information connection relationship with the data storage group 12, the first input button Hi and the first input button 112 are opened for the write protection function and the data storage module 12 is locked. The opening of the 1 function is related to each other. That is, the first input button 〖 ^ the input button 112 write protection status is activated at the same time triggers the ", bamboo scales module 099109280 form number A0101 page 8 / 23 pages 0992016517- 0 201132475 12 lock protection state is turned on, the first input button 111 and the second input and release coffee time touch object storage group 丨 2 lock = state release [0015] The processing module is mailed from the data shooting group 12 The sheet size and the substrate size are obtained, and the total number of cut sheets of the cutting blade is calculated according to the calculation formula, and the cutting plate should be moved by a predetermined distance before each cutting sheet 1 is cut. The total number of knives is given to the human machine and displayed on the first display, and the predetermined distance is transmitted to the display frame m for the operator to know. The calculation formula is that the operation is based on the plate cutting (4) verification experience material, which can be stored in the processing module 123, and can also be stored in the data storage (4) 12 hearts. When the calculation formula is stored in the data storage module 12, the processing mode is processed. The group 13 can obtain the calculation formula while obtaining the sheet size and the substrate size from the data storage module 12.
[0016] G 於本實施例中’記總刀數為N ’記板材長度為l ,記基板 長度為L2,則有經驗公式:N:=l+ ([[/、之商之整數部分 )。1^比1^/1^2之商之整數部分大1之原因在於,板材被裁 切之第一刀係用於切除板邊廢料,以使板材邊緣整齊。 於本實施例中,記裁切刀每裁切一刀前板材應當移動之 預定距離為Wn,η為1至N ’則\為複數數值之組合,而並 非為一個定值◊計算wn之經驗公式為:應切除之板邊 廢料長;Wm=L9,m為2至N。亦即’裁切刀裁切第一刀之 L· 前,板材應當移動將被切除之板邊廢料長之距離,於裁 切第二刀至第N刀之前,板材均應當移動一個基板長度、 。裁切刀裁切完最後一刀即第N刀後,板材可以不再移動 099109280 表單編號A0101 第9頁/共23頁 0992016517-0 201132475 ’以等待作業員取走餘料。 [0017] [0018] 田“、、:所述計算公式並不限於上述經驗公式,w亦可為 個疋值。當板材不需要切除板邊廢料之時候,可有纩 驗公式:N=L1/L2之商之整數部分;Wn=L2,11為1至!^。 另,於板材切割還需要有其他要求時,經驗公式可能還 耑要考慮其他參數或條件,從而可能為其他形式。、 所述板材推送模組14與處理模組13相連接,用在於裁切 刀母裁切板材一刀前推送板材以使板材移動該預定距離 。所述板材推送模組14可包括機械連接之馬達與傳送帶 ,亦可包括機械連接之馬達與料爪,還可為其他可推送 板材之裝置。板材推送模組14推送板材移動該預定距離 後,可發出一啟動訊號以啟動警示模組15輿人機介面11 之觸發按鍵115。如此,可使得警示模組得到啟動訊號後 發出警示訊號,亦即,使得警示模組1 5於板材推送模组 14推送板材移動預定距離後發出警示訊號。所述警示訊 號可為光訊號或聲音訊號》具體地,警示模組15可觸發 一蜂鳴器發出蜂鳴警示,亦可觸發顏色閃動條發出閃爍 警示。觸發按鍵115被啟動後處於可被觸發之狀態,亦即 ,裁切控制模組16處於可被觸發控制之狀態。裁切控制 模組16用於控制裁切刀對板材進行裁切,其與人機介面 11相連接。作業員於聽到或者看到警示訊號後’ <藉由 人機介面Π上之觸發按鍵115觸發裁切控制模組I6 ’從而 使得裁切控制模組1 6控制裁切刀對板材進行裁切。 099109280 板 亦即’於本實施例中,裁切刀裁切板材第一刀之前’ 材推送模組14將推送板材以使其移動一個板邊廢料長度 表單煸號A0101 第10頁/共23頁 0992016517-0 [0019] 201132475 Ο [0020] 之距離,然後警示模組15會發出一警示訊號,作業員得 到警示訊號後可以藉由人機介面11觸發裁切控制模組16 對板材進行第一刀之裁切。裁切刀裁切第一刀之後,第 二刀之前,板材推送模組14將推送板材移動一個基板長 度之距離,然後警示模組15會發出一警示訊號,作業員 得到警示訊號後可藉由人機介面11觸發裁切控制模組16 對板材進行第二刀之裁切。如此複數次,就可將板材裁 切成複數具有要求長度之基板。亦即,使用本技術方案 之板材裁切系統10可以裁切出符合要求之基板,可避免 對板材之錯誤裁切’大大提高板材裁切之良率。 請參見圖2 ’本技術方案第二實施例提供之板材裁切系統 Ο [0021] 20用於控制裁切位置穩定之_切祕對可移動之板材進行 裁切。於本實施例中,板材基本為長方形,具有基本垂 直之第一邊與第二邊,即長邊與寬邊。板材裁切系統20 控制裁切刀從第一邊與第二邊分別對板材進行裁切,從 而將板材裁切成複數基板。所述板材裁切系統20亦包括 人機介面21、資料存儲模組22、處理模組23、板材推送 模組24、警示模組25以及裁切控制模組26。 本實施例中之人機介面21與第一實施例之人機介面11大 致相同,不過本實施例中之人機介面21比第一實施例之 人機介面11具有更複數操作按鍵與更複數顯示框。具體 地,人機介面21具有第一輸入按鍵211、第二輸入按鍵 212、第一顯示框213、第二顯示框214、第三顯示框215 、第四顯示框216、第一觸發按鍵217以及第二觸發按鍵 218。所述第一輸入按鍵211用於輸入板材尺寸並用於顯 099109280 表單編號Α0101 第11頁/共23頁 0992016517-0 201132475 不輪入之板材尺寸,所述第二輸入按鍵212用於輪入基板 尺寸並用於顯示輸入之基板尺寸。於本實施例中,所述 板材尺寸係指板材之長度與寬度。所述基板尺寸係指基 板之長度與寬度。所述第一輸入按鍵211與第二輸入按鍵 212與資料存儲模組22具有資訊連接關係》所述第一顯示 框213、第二顯示框214、第三顯示框215以及第四顯示 框216與處理模組23具有資訊連接關係’用於顯示處理模 組23之處理結果。所述第一觸發按鍵21 7用於觸發裁切控 制模、’且2 6對板材之弟一邊進行裁切,所述第二觸發按鍵 218用於觸發裁切控制模組26對板材之第二邊進行裁切。 所述第一觸發按鍵217與第二觸發按鍵218具有互鎖功能 。亦即,當第一觸發按鍵217可以觸發裁切控制模組26時 ,第二觸發按鍵218被鎖保護;當第二觸發按鍵218可以 觸發裁切控制模組26時,第一觸發按鍵217被鎖保護。 [0022] [0023] 099109280 所述資料存儲模組22用於獲取並存儲自人機介面21之第 -輸入按鍵2H輸人之板材尺寸以及自第二輸人按鍵212 輸入之基板尺寸。請存儲模組22還與處理模組23具有 資訊連接關係,從而可將存儲之板材尺寸以及基板尺寸 傳輸給處理模組23。優選地,所述資料存儲模組^還具 有與第一實關之㈣賴魅12基本相似之鎖保護功 能,第一輸入按鍵211與第二輸人按㈣2㈣具有寫保 護功能。 0992016517-0 所述處理触23用於從資料射錢組22麟板材尺寸以 及基板尺寸,並根據計算公式計算得出裁切刀於第—邊 上裁切板材之總刀數A,裁切刀於第二邊上裁切板材之總 表單編號A0101 第12頁/共23頁 201132475 刀數Β,裁切刀每於第一邊上裁切板材一刀前板材沿平行 於第一邊之方向上移動之第一預定距離c,以及裁切刀每 於第一邊上裁切板材一刀前板材沿平行於第二邊之方向 上移動之第二預定距離D。上述四個數值可以根據與第一 實施例中相近似之經驗計算公式計算得出,傳輸給人機 介面21並分別顯示於第一顯示框213、第二顯示框214、 第三顯示框215以及第四顯示框216。 [0024] Ο 為更清楚說明處理模組23之功能,以下舉例說明上述四 個數值之計算過程。記板材長度為&,板材寬度為%, 基板長度為,基板寬度為F2,當板材不需要切除板邊 廢料之時候,可以有經驗計算公式:丸為^/^之商之整[0016] G In the present embodiment, the total number of knives is N ’, the length of the sheet is l, and the length of the substrate is L2, and there is an empirical formula: N:=l+ ([[/, the integral part of the quotient)). The reason why the integral part of 1^/1^2 is larger than 1^/1^2 is that the first knife cut is used to cut off the edge of the board to make the edge of the board neat. In this embodiment, the predetermined distance that the sheet should be moved before cutting a knife is Wn, and η is 1 to N', and \ is a combination of plural values, and is not a fixed value ◊ an empirical formula for calculating wn It is: the length of the scrap that should be cut off is long; Wm=L9, m is 2 to N. That is, before the cutting knife cuts the first knife L., the sheet should move the length of the scrap that will be cut off. Before cutting the second knife to the Nth knife, the sheet should be moved by one substrate length. . After the cutting knife has cut the last knife, the Nth knife, the plate can no longer move. 099109280 Form No. A0101 Page 9 of 23 0992016517-0 201132475 ‘Await the operator to take the remaining material. [0018] [0018] The field ",,: the calculation formula is not limited to the above empirical formula, w can also be a 疋 value. When the sheet does not need to cut off the edge of the scrap, there may be a test formula: N = L1 The integral part of the quotient of /L2; Wn=L2, 11 is 1 to !^. In addition, when other requirements are required for sheet metal cutting, the empirical formula may also consider other parameters or conditions, and thus may be in other forms. The plate pushing module 14 is connected to the processing module 13 for pushing the plate before the cutting knife cuts the plate to move the plate to the predetermined distance. The plate pushing module 14 can include a mechanically connected motor and The conveyor belt may also include a mechanically connected motor and a claw, and may also be other devices capable of pushing the plate. After the plate pushing module 14 pushes the plate to move the predetermined distance, an activation signal may be issued to activate the warning module 15 The trigger button 115 of the interface 11 is configured to provide a warning signal after the warning module receives the activation signal, that is, the warning module 15 sends a warning message after the plate pushing module 14 pushes the plate to move a predetermined distance. The warning signal may be an optical signal or an audio signal. Specifically, the warning module 15 may trigger a buzzer to emit a buzzer alert, or may trigger a color flashing bar to emit a flashing alert. The trigger button 115 is activated after being activated. The triggered state, that is, the cutting control module 16 is in a state that can be triggered and controlled. The cutting control module 16 is used to control the cutting blade to cut the sheet material, and is connected to the human machine interface 11. After hearing or seeing the warning signal, the player triggers the cutting control module I6 by the trigger button 115 on the human interface, so that the cutting control module 16 controls the cutting blade to cut the sheet. 099109280 The plate is also 'in this embodiment, before the cutting knife cuts the first plate of the plate', the material pushing module 14 will push the plate to move it to a plate edge scrap length form No. A0101 Page 10 of 23 0992016517-0 [0019] 201132475 Ο [0020] the distance, then the warning module 15 will send a warning signal, the operator can obtain the warning signal, the human interface 11 can be used to trigger the cutting control module 16 to the first Knife cut After the cutting knife cuts the first knife, before the second knife, the plate pushing module 14 will push the plate to move the distance of one substrate length, and then the warning module 15 will send a warning signal, and the operator can obtain the warning signal. The cutting control module 16 is triggered by the human machine interface 11 to cut the second knife of the sheet. Thus, the sheet can be cut into a plurality of substrates having the required length. That is, the sheet of the technical solution is used. The cutting system 10 can cut out the substrate that meets the requirements, and can avoid the erroneous cutting of the sheet, which greatly improves the yield of the sheet cutting. Please refer to FIG. 2 'The sheet cutting system provided by the second embodiment of the technical solution Ο [0021] 20 for controlling the stability of the cutting position. The cutting is performed on the movable sheet. In this embodiment, the sheet material is substantially rectangular having a substantially vertical first side and a second side, i.e., a long side and a wide side. The sheet cutting system 20 controls the cutting blade to cut the sheet from the first side and the second side, respectively, thereby cutting the sheet into a plurality of substrates. The sheet cutting system 20 also includes a human machine interface 21, a data storage module 22, a processing module 23, a sheet pushing module 24, a warning module 25, and a cutting control module 26. The human-machine interface 21 in this embodiment is substantially the same as the human-machine interface 11 of the first embodiment, but the human-machine interface 21 in this embodiment has more complex operation buttons and more plurals than the human-machine interface 11 of the first embodiment. Display box. Specifically, the human interface 21 has a first input button 211, a second input button 212, a first display frame 213, a second display frame 214, a third display frame 215, a fourth display frame 216, a first trigger button 217, and The second trigger button 218. The first input button 211 is used to input the plate size and is used to display the 099109280 form number Α 0101 page 11 / 23 pages 0992016517-0 201132475 the plate size is not rounded, the second input button 212 is used to enter the substrate size It is also used to display the input substrate size. In the present embodiment, the sheet size refers to the length and width of the sheet. The substrate size refers to the length and width of the substrate. The first input button 211 and the second input button 212 have an information connection relationship with the data storage module 22, and the first display frame 213, the second display frame 214, the third display frame 215, and the fourth display frame 216 are The processing module 23 has an information connection relationship 'for processing results of the display processing module 23. The first trigger button 217 is used to trigger the cutting control mode, and the second trigger button 218 is used to trigger the second cutting plate of the cutting control module 26 Cut while doing. The first trigger button 217 and the second trigger button 218 have an interlock function. That is, when the first trigger button 217 can trigger the crop control module 26, the second trigger button 218 is locked; when the second trigger button 218 can trigger the crop control module 26, the first trigger button 217 is Lock protection. [0023] 099109280 The data storage module 22 is configured to acquire and store the size of the board input from the first input button 2H of the human machine interface 21 and the size of the substrate input from the second input button 212. The storage module 22 also has an information connection relationship with the processing module 23, so that the stored board size and substrate size can be transmitted to the processing module 23. Preferably, the data storage module further has a lock protection function substantially similar to the first (4) Lai Mei 12, and the first input button 211 and the second input button (4) 2 (4) have a write protection function. 0992016517-0 The processing touch 23 is used to cut the size of the lining plate and the substrate size from the data shooting group 22, and calculate the total number of knives A of the cutting knives on the first side according to the calculation formula, and the cutting knives The total form number of the cut sheet on the second side A0101 Page 12 / 23 pages 201132475 The number of knives, the cutting knife cuts the sheet on the first side, and the sheet moves in the direction parallel to the first side. a first predetermined distance c, and a second predetermined distance D of the cutting plate moving in a direction parallel to the second side before cutting the sheet on the first side. The above four values can be calculated according to the empirical calculation formula similar to that in the first embodiment, and transmitted to the human machine interface 21 and displayed on the first display frame 213, the second display frame 214, and the third display frame 215, respectively. The fourth display box 216. [0024] In order to more clearly illustrate the function of the processing module 23, the calculation process of the above four values will be exemplified below. The length of the sheet is & the width of the sheet is %, the length of the substrate is, and the width of the substrate is F2. When the sheet does not need to be cut off from the edge of the sheet, there is an empirical formula: the whole of the pellet is ^/^
數部分;BaF/F〗之商之整數部分;c等於e ; d等於F 2 2 〇 [0025] 。處理模組23可以根據以上經驗計算公式得出a、B、c及 D之數值’並分別傳輸並顯示於第—顯示框213、第二顯 示框214、第三顯示框215以及第四顯示框216。當然, 以上經驗計算公式僅為舉例說明一種裁切板材時可以採 用之公式’實際使用中還可根據具體裁切要求或者條件 採用其他計算公式。 所述板材推送模組24用於在裁切刀每於第一邊上裁切板 材一刀前推送板材以使板材沿平行於第一邊之方向上移 動該第一預定距離C,還用於在裁切刀每於第二邊上裁切 板材一刀前推送板材以使板材沿平行於第二邊之方向上 移動該第二預定距離D。板材推送模組24推送板材移動第 一預定距離C後發出一第一啟動訊號給警示模組25與人機 介面21,以啟動警示模組25與第一觸發按鍵217。並且, 099109280 表單編號A0101 第13頁/共23頁 0992016517-0 201132475 板材推送模組24推送板材移動第二預定距離D後發出一第 二啟動訊號給警示模組25與人機介面21,以啟動警示模 組25與第二觸發按鍵218。所述第一啟動訊號與第二啟動 訊號可為脈衝不同、頻率不同或者具有其他差異之訊號 ’僅需使得該差異可被啟動警示模組25與人機介面21辨 別出即可。 [0026] [0027] 所述警示模組25用於在收到第一啟動訊號後,即於板材 推送模組24推送板材沿平行於第一邊之方向上移動第一 預定矩離後發出第一警示訊號,並且用於在收到第二啟 動訊號後,即板材推送模組24推送板材沿平行於第二邊 之方向上移動第二預定距離後發出第二警示訊號。所述 第—警示訊號與第二警示訊號可為相同之訊號,亦可為 脈衝不同、頻率不同、亮度不同、音量不同或者具有其 他*差異之訊號。 所述裁切控制模組26用於在板材移動第一預定距離後’ 即第一觸發按鍵217被啟動後,可被第一觸發按鍵217觸 發從而使裁切刀對板材之第一邊進行裁切;裁切控制模 組26還用於在板材移動第二預定距離後’即第二觸發按 鍵218被啟動後,可被第二觸發按鍵218觸發從而使裁切 刀對板材之第二邊進行裁切。由於第一觸發按鍵217與第 二觸發按鍵218具有互鎖功能,因此裁切刀於裁切第一邊 時第二觸發按鍵218不可能被觸發,裁切刀於裁切第二邊 時第一觸發按鍵217亦不可能被觸發,如此即使第一警不 訊號與第二警示訊號相同亦不會影響作業員誤操作’可 避免產生誤裁切。 099109280 表單編號A0101 第丨4頁/共23頁 0992016517-0 201132475 [0028] 採用本技術方案第二實施例之板材裁切系統20對板材進 行裁切時’輸入板材之長度、板材之寬度、基板之長度 與基板之寬度後,處理模組23可計算得出裁切刀於長邊 上應裁切板材之總刀數A,裁切刀於寬邊上裁切板材之總 刀數B ’裁切刀每於長邊上裁切板材一刀前板材應當移動 之第一預定距離C ’以及裁切刀每於寬邊上裁切板材一刀 前板材應當移動之第二預定距離I)。裁切刀可先於長邊上 裁切板材以得到複數具有要求之基板長度之中間板,再 於寬邊上裁切每個中間板,從而即可獲得複數具有要求 Ο 長度與寬度之基板。 [0029] 具體地,裁切刀於長邊上裁切板材第一力乏前,板材推 送模組24將推送板材移動一俩基板長瘦之距離,然後警 示模組25會發出一第一警示訊號,作業員得到警示訊號 後可以藉由人機介面21之第一觸發按鍵21 7觸發裁切控制 模組26對板材進行第二刀之裁切,如此多次,裁切完第a 刀後,即可獲得A個具有要求之基板長度之中間板。然後 Q ’裁切刀可以對每個中間板之寬邊進行裁切,每個中間 板之見邊係4曰原先板材之寬邊。裁切刀於寬邊上裁切中 間板第一刀之前’板材推送模組24將推送板材移動一個 基板寬度之距離,然後警示模組2 5會發出一第二警示訊 號,作業員得到第二警示訊號後可以藉由人機介面21之 第二觸發按鍵218觸發裁切控制模組26對板材進行第二刀 之裁切。如此複數次,裁切完第B刀後,即可從一中間板 獲得B個具有要求之長度與寬度之基板。對每個中間板都 進行如上裁切’即可獲得複數具有要求之長度與寬度之 099109280 表單編號A0101 第15頁/共23頁 0992016517-0 201132475 基板。亦即,使用本技術方案之板材裁切系統2〇可裁切 出符合要求之基板’並可避免對板材之錯誤裁切,提高 板材裁切良率。 [0030] [0031] [0032] [0033] [0034] [0035] [0036] [0037] [0038] [0039] [0040] 综上所述,本發明確已符合發明專利之要件,遂依法提 出專利申請。惟,以上所述者僅為本發明之較佳實施方 式,自不能以此限制本案之申請專利範圍。舉凡熟悉本 案技藝之人士援依本發明之精神所作之等效修飾或變化 ’白應涵蓋於以下申請專利範圍内。 【圖式簡單說明】 圖1係本技術方案第一實施例提供之板材裁切系統之功能 模組圖。 圖2係本技術方案第一實施例提供之板材裁切系統之功能 模組圖。 【主要元件符號說明】 板材裁切系統:1〇、2〇 人機介面:11、21 資料存儲模組:12、22 處理模組:13、23 板材推送模組:14、24 警示模組:15、25 裁切控制模組:1 6、2 6 第一輸入按鍵:111、211 099109280 表單編號A0101 第16頁/共23頁 0992016517-0 201132475 [0041] [0042] [0043] [0044] [0045] [0046] [0047] Ο [0048] 第二輸入按鍵:112、212 第一顯示框:113、213 第二顯示框:114、214 第三·顯示框:21 5 第四顯示框:216 觸發按鍵:115 第一觸發按鍵:217 第二觸發按鍵:218 ❹ 099109280 表單編號Α0101 第17頁/共23頁 0992016517-0Number part; the integer part of the quotient of BaF/F; c is equal to e; d is equal to F 2 2 〇 [0025]. The processing module 23 can calculate the values of a, B, c, and D according to the above empirical calculation formula and transmit and display the same in the first display frame 213, the second display frame 214, the third display frame 215, and the fourth display frame. 216. Of course, the above empirical calculation formula is only an example of a formula that can be used when cutting a sheet. In actual use, other calculation formulas can be used according to specific cutting requirements or conditions. The plate pushing module 24 is configured to push the plate before the cutting knife cuts the plate on the first side to move the plate in the direction parallel to the first side by the first predetermined distance C, and is also used for The cutting knife pushes the sheet before cutting the sheet on the second side to move the sheet in the direction parallel to the second side by the second predetermined distance D. The plate pushing module 24 pushes the plate to move the first predetermined distance C to send a first activation signal to the warning module 25 and the human machine interface 21 to activate the warning module 25 and the first trigger button 217. And, 099109280 Form No. A0101 Page 13 / Total 23 Pages 0992016517-0 201132475 The plate push module 24 pushes the plate to move a second predetermined distance D and then sends a second start signal to the warning module 25 and the human machine interface 21 to start The warning module 25 and the second trigger button 218 are provided. The first activation signal and the second activation signal may be signals with different pulses, different frequencies, or other differences. The only difference is that the difference can be recognized by the activation warning module 25 and the human interface 21. [0027] The warning module 25 is configured to: after receiving the first activation signal, the plate pushing module 24 pushes the plate to move the first predetermined moment in a direction parallel to the first edge A warning signal is used to send a second warning signal after the second pushing signal is received, that is, the plate pushing module 24 pushes the plate to move a second predetermined distance in a direction parallel to the second side. The first warning signal and the second warning signal may be the same signal, or may be signals with different pulses, different frequencies, different brightness, different volume, or other differences. The cutting control module 26 is configured to be triggered by the first trigger button 217 after the sheet is moved by the first predetermined distance, that is, after the first trigger button 217 is activated, so that the cutting knife cuts the first side of the sheet. The cutting control module 26 is further configured to: after the second predetermined distance of the sheet is moved, that is, after the second trigger button 218 is activated, the second trigger button 218 can be triggered to cause the cutting knife to perform the second side of the sheet. Cut. Since the first trigger button 217 and the second trigger button 218 have an interlock function, the second trigger button 218 cannot be triggered when the cutting knife cuts the first side, and the cutting knife is first when cutting the second side. It is also impossible for the trigger button 217 to be triggered, so that even if the first alarm signal and the second warning signal are the same, the operator's misoperation will not be affected to avoid mis-cutting. 099109280 Form No. A0101 Page 4 / Total 23 Pages 0992016517-0 201132475 [0028] When the sheet cutting system 20 of the second embodiment of the present invention cuts the sheet material, the length of the input sheet, the width of the sheet, and the substrate After the length and the width of the substrate, the processing module 23 can calculate the total number of blades A of the cutting knife on the long side, and the total number of cuts of the cutting knife on the wide side B' The first predetermined distance C' at which the cutting plate should be moved on the long side, and the second predetermined distance I should be moved before the cutting plate is cut on the wide side. The cutting knife can cut the sheet on the long side to obtain a plurality of intermediate sheets having the required substrate length, and then cut each intermediate sheet on the wide side, thereby obtaining a plurality of substrates having the required length and width. [0029] Specifically, before the cutting knife cuts the sheet on the long side, the sheet pushing module 24 pushes the sheet to move the distance between the two substrates, and then the warning module 25 sends a first warning. After the operator receives the warning signal, the first trigger button 21 7 of the man-machine interface 21 can be used to trigger the cutting control module 26 to cut the second knife of the sheet, so that after cutting the first knife Then, an intermediate plate having the required substrate length can be obtained. Then the Q' cutting knife can cut the wide side of each intermediate plate, and the edge of each intermediate plate is 4 wide edges of the original plate. Before the cutting knife cuts the first knife of the intermediate plate on the wide side, the plate pushing module 24 will push the plate to move the distance of one substrate width, and then the warning module 25 will send a second warning signal, and the operator gets the second After the warning signal, the second trigger button 218 of the human machine interface 21 can be used to trigger the cutting control module 26 to cut the second knife. Thus, after cutting the B-th blade, B substrates having the required length and width can be obtained from an intermediate plate. For each intermediate plate, the above cutting is performed to obtain the required length and width of the plural. 099109280 Form No. A0101 Page 15 of 23 0992016517-0 201132475 Substrate. That is, the sheet cutting system 2 of the present technical solution can cut the substrate which meets the requirements' and can avoid erroneous cutting of the sheet and improve the cutting yield of the sheet. [0040] [0040] [0040] [0040] In summary, the present invention has indeed met the requirements of the invention patent, File a patent application. However, the above description is only a preferred embodiment of the present invention, and it is not possible to limit the scope of the patent application of the present invention. 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 functional block diagram of a sheet cutting system provided by a first embodiment of the present technical solution. 2 is a functional block diagram of a sheet cutting system provided by the first embodiment of the present technical solution. [Main component symbol description] Plate cutting system: 1〇, 2〇 Human machine interface: 11, 21 Data storage module: 12, 22 Processing module: 13, 23 Plate push module: 14, 24 Warning module: 15,25 Cutting control module: 1 6, 2 6 First input button: 111, 211 099109280 Form number A0101 Page 16 / Total 23 page 0992016517-0 201132475 [0041] [0042] [0044] [0044] [0047] [0048] [0048] Second input button: 112, 212 First display frame: 113, 213 Second display frame: 114, 214 Third · Display frame: 21 5 Fourth display frame: 216 Trigger button: 115 First trigger button: 217 Second trigger button: 218 ❹ 099109280 Form number Α 0101 Page 17 / Total 23 page 0992016517-0