200823616 九、發明說明: 【發明所屬之技術領域】 本發明是有關於一種電腦數值控制(CNC)工具機的技 、 術領域,且特別是有關於一種電腦數值控制(CNC)工具機 生產監控糸統與方法。 【先前技術】 f) ,電腦數值控制(CNC)工具機為一種已經被廣泛地使用 於製t各種機器設備的工具機器。傳統上,當使用工具機 對^件進行加工前,必須先載入或編輯加工程式。進行加 工=,管理者會希望能從遠端取得工具機目前的加工生產 ^怎與貝,如工具機是否運轉中?加工程式資料、操作 員工資料、機台稼動率(machine utilization)等。 尤其,當工廠中設置有數台同型態或是不同型態的工 j% ’官理者若是要取得每—台卫具機目前的加工生產 狀,必須親自或是派人到工作現場逐一檢視抄 錄,相當不方便。 、同π g理者無法一次取得所有機台即時的加工生產 «與資訊’造成在加卫排程上的不方便。若是於加工過 中-栈發生異常狀況,除非剛好有人察覺排除,否 則可此舍生誤加工或是停機狀況,對生產的效率與產量, 【發明内容】 6 200823616 本务明的目的就是在提供一種電腦數值控制(cnc)工 具機生產監控系統與方法,用以提供即時性與整體性的工 具機生產資訊。 本毛月的另一目的是在提供一種電腦數值控制 工具機生產監控系統與方法,可提供方便使用的遠端監控 . 方式。 依據本發明之一種電腦數值控制(CNC)工具機生產監 n Μ統’包含有—監控主機與-顯示裝置。監控主機包: 有NC解譯模組、一生產監控分析模組以及一使用者介 面模組。 、—解譯模組係將接收自工具機的第一格式資料解譯 轉成第二格式資料,該些第二格式資料並以-暫存播的型 式儲存。 生產監控分析模組係分析該暫存檔中所包含的預設 控:碼,預設㈣碼中更可包含有控制碼參數以取得工具 機台目前的生產狀態與資料。200823616 IX. Description of the invention: [Technical field of invention] The present invention relates to the technical field of computer numerical control (CNC) machine tools, and in particular to a computer numerical control (CNC) machine tool production monitoring糸System and method. [Prior Art] f) The computer numerical control (CNC) machine tool is a tool machine that has been widely used in various machine tools. Traditionally, the machining program must be loaded or edited before machining with the machine tool. For processing =, the manager will hope to get the current processing and production of the machine tool from the far end. How to work with the shell, such as whether the machine tool is running? Processing program data, operating staff data, machine utilization, etc. In particular, when there are several sets of the same type or different types of work in the factory, if the official manager wants to obtain the current processing and production status of each of the Taiwanese implements, he must personally or send people to the work site to examine them one by one. Transcription is quite inconvenient. The same π g ruler can not get all the machine's instant processing and production «and information' caused inconvenience in the maintenance schedule. If there is an abnormality in the processing of the medium-stack, unless it is just detected by someone, it can be misprocessed or shut down, and the efficiency and output of production, [invention] 6 200823616 The purpose of this book is to provide A computer numerical control (cnc) machine tool production monitoring system and method for providing instant and integral tool machine production information. Another purpose of this month is to provide a computer numerical control tool machine production monitoring system and method that can provide convenient remote monitoring. According to the invention, a computer numerical control (CNC) machine tool production monitoring system includes a monitoring host and a display device. Monitoring host package: There are NC interpretation module, a production monitoring and analysis module and a user interface module. The interpreting module converts the first format data received from the machine tool into a second format data, and the second format data is stored in a temporary storage format. The production monitoring analysis module analyzes the preset control code included in the temporary archive: the preset (4) code may further include control code parameters to obtain the current production status and data of the tool machine.
U 〜使用者介面模㈣將該生產監控分析模組所分析取 =具機台目前的生產狀態與資料,轉換為—使用者可視 、R界® @晨員不裝置係I員示該使用者可視的資訊界 依據本發明之一種電腦數值控制(CNC)工具機生產監 控方^,包含有使用-監控主機接收來自於卫具機的第— 格式貝料’並將該第_格式資料解譯轉成第二格式資料 後’以-暫存槽儲存該些第二格式f料;使用—生產監控 200823616 分析挺組分析該暫存檔中所包含之預設控制碼以及盆令 的控制石馬參數,以取得工具機台目前的生產狀態與資料; ,用-使用者介面模組將該生產監控分析模組所分析取 什之工具機台目前的生產狀態與資料,轉換為一使用者可 視的資訊介面;使用一顯示裝置,顯示該使用者可視的資 訊介面。 Ο 〇 糟此,本發明可提供管理者於相對於工具機位置的遠 端(如辦公室内)即時監看各卫具機台的作業狀態與資料, 了解工廠的生產狀態與資訊。此外,這些作業狀態與資料 各可以儲存於電腦資料庫中’可便於日後追縱,或是進行 統計分析的母體資料,作為人員績效的考核時參考。 本發明將這些工具機台目前的生產狀態與資料,轉換 為-使用者可視的資訊介面並顯示於顯示裝置上,管理者 可一目了然,於使用上相當便利。 【實施方式】 口月參知第1圖所不’本發明較佳實施例之電腦數值控 制(CNC)工具機生產監控系統1Q,係可適用於監控一或多 台工具機600之生產狀態,生產監控系統10包含有一監 控主機100以及一顯示裝置2qq。 請參照第2圖所示,監控主機1〇〇包含有一 π解譯 模組110、-生產監控分析模組12G以及—使用者介面模 組13〇。敗解譯模組UG,本模組主要魏為負責將接收 來自於工具機600的第一格式資料,如加工程式資料或指 8U ~ User Interface Module (4) The production monitoring and analysis module analyzes the current production status and data of the machine, and converts it to - user visual, R boundary ® @晨员不装置系 I, the user The visual information industry according to the present invention is a computer numerical control (CNC) machine tool production monitoring system, including a use-monitoring host to receive the first format of the material from the visor machine and interpreting the _ format data After converting to the second format data, the second format f material is stored in the temporary storage slot; the usage-production monitoring 200823616 analyzes the preset control code included in the temporary archive and the control stone horse parameter of the basin command. In order to obtain the current production status and data of the tool machine; and use the user interface module to convert the current production status and data of the tool machine analyzed by the production monitoring and analysis module into a user-visible Information interface; using a display device to display the information interface visible to the user.糟 糟 糟 , , , , , , , , , , , , , , , , , , , , 本 本 本 本 本 本 管理者 管理者 管理者 管理者 管理者 管理者 管理者 管理者 管理者 管理者 管理者 管理者 管理者 管理者 管理者 管理者 管理者 管理者 管理者 管理者 管理者In addition, these job status and data can be stored in the computer database' to facilitate future tracking, or to perform statistical analysis of the parent data, as a reference for the assessment of personnel performance. The invention converts the current production state and data of the tool machine into a user-visible information interface and displays it on the display device, and the manager can see at a glance, which is quite convenient in use. [Embodiment] The computer numerical control (CNC) machine tool production monitoring system 1Q of the preferred embodiment of the present invention is applicable to monitoring the production status of one or more machine tools 600. The production monitoring system 10 includes a monitoring host 100 and a display device 2qq. Referring to FIG. 2, the monitoring host 1 includes a π interpretation module 110, a production monitoring analysis module 12G, and a user interface module 13A. The module UG, the main module of this module is responsible for receiving the first format data from the machine tool 600, such as processing data or instructions.
Ο 200823616 令(第一袼式如ISO袼式、ΕΙΑ袼式、ASCII格式等)作檢 查及解澤,將内容轉成其它模組所需格式(第二格式)資 料,並將該些資㈣—暫存槽的型式儲存於記憶體中,如 暫存έ己憶體(buffer)。 —請進一步參照第3圖所示,生產監控分析模組12〇, 本模組主要分析卫具機_目前的生產狀態與資料等。關 於機台生產狀態例如停機狀態、換刀狀態或是正常運轉狀 態等。而機台生產資料例如工作程式編號、作業員編號、 作業時間、日期、機台編號、產品編號等等。這些機台生 產狀態與資料,可經由分析暫存檔所包含的預設控制碼以 及預設控制碼中的控制碼參數,取得機台生產狀態與資 料0 預設控制碼可使用數字字串方式, 如 ”〇88〇1”、^680^^08809,:,,06809, 録 現在的狀態,如”时代表機台加工開= 碼,”⑽09”代表機台加工結束的控制碼,並可視機台的 需求做修改。控制碼參數可使用英文字母字串方 式,” DATE,,、,,TIME,,#,來代表機台現在的運作資料, 亦可視貫際的需求做修改、增加以及删除等。本較佳實施 例中, 列舉了 部分的控制碼,如表一所示: r - __ 表一 控制碼 狀態 控制碼參數 說明 範例 200823616 06801 開始 DATE-#3011 DATE :曰期參 數 #3011:機器日 期變數 06801 DATE-#3011 TIME-#3012 MACHINE-M001 TIME-13012 TIME :時間參 數 #3011:機器時 間變數 EMPLOYEE-E003 MAKE-20060207008-1-1 PROC-BT40-01 WORK-L005-1 TYPE-A001 MACHINE 機台編號參數 EMPLOYEE 員工編號參數 MAKE 製令編號參數 PROC 產品編號蒼數 WORK 工作代號參數 TYPE 分類代號參數 對於熟習此項技藝的人士應可認同,控制碼以及控制 碼參數的字母、字亊、符號等的選用,是一種設計上的選 擇。本發明較佳實施例所揭露的上列控制碼,僅為部分且 說明性質。 機台端所傳送出的生產監控的控制碼(或是控制碼參 數)資料,會被由NC解譯模組110解譯後暫存於該暫存檔 中。因此,生產監控分析模組120可由該暫存檔中取得控 制碼(或是控制碼參數)資料,以供後續模組處理。 200823616 Ο 請參照第3圖與第4圖所示,使用者介面模組13〇係 將生產監控分析模組120分析的控制碼(或是控制碼參數) 所的的機台狀態與資料,轉換為使用者可視的資訊界面 400’並於顯示裝置2〇〇上顯示出來。使用者可視的資訊 "面400如使用電腦視窗介面,而顯示裝置2⑻可使用一 顯示^。如此,顯示器可以顯示出各機台現在的狀態以及 2作貝Λ ’並可由即時的分析控制碼資料後,進行更新狀 態以及工作資訊,使管理者獲得即時且最新的生產資訊。 例如’使用者可視的資訊介面4〇〇可以於顯示器以不 同區塊4〇1來表示各機台現在的狀態以及工作資料。每— 區塊_包含有一燈號區4〇2、一資訊區彻以及一狀態 區4〇4。燈號區402的顏色,可以用來區分機台的狀態, 例如’紅色代表故障停機,綠色代表正常作業中,黃色代 表暫時停機(如進行刀具更換作轉)。f訊區彻包含有 =同攔位顯示卫作資料,如產品編號、產品名稱、應作數 里、已製作數量、平均時間、稼動率等,或是其他如工作 號、作業員編號、作業時間、曰期、機台編號等。 項^ 4〇4則顯示出機台目前的連線狀態等。對於熟習此 =的人士應可認同,上述資訊介面彻的區塊4心 攔位的選用,是一種設計上的選擇。 ^ 如此-來,管理者料於遠端(如辦公室⑴ ^台的作業狀態與資料’這些作業狀態與資料各可^ :於電腦資料庫中’可便於曰後追蹤,或是進行統計= 、母體貧料,作為人員績效的考核時參考。 200823616 。月#<’、、第2圖與第5圖所示,本發明較佳實施例更可 包含:,端控制分析模組140與一檔案分析模組15〇。 遢端控制刀析拉組14〇,此模組主要提供管理者由遠 端(即監控主機_端)對連紅具機_進行加工程式的 傳輸與更新等作業。包含由工具機_端將程式上傳回監 控主機1GG端儲存,以及由卫具機_端要求由監控主機 1〇〇端下載程式等操作。為方便說明,「上傳」表示程式由 η υ =具機_端傳送至監控主機端刚,「下載」表示程式由 監控主機100端傳送至工具機600端。 使用者可於工具機_端輸入指令代碼, ΗΚ)取得指令代碼後,如步驟·,會執行指令以二 表進行的操作,如步驟5Q1,來進行程式的上傳、下載^ ^旬、更新等操作。指令代碼可使用英文字母或字串來 如”…”、”"。在本吻^^ 中,各種指令代碼如表二所示:Ο 200823616 Order (the first type such as ISO ΕΙΑ袼, ΕΙΑ袼, ASCII format, etc.) for inspection and interpretation, the content into other modules required format (second format) data, and the funds (4) - The type of the temporary storage slot is stored in the memory, such as a temporary buffer. - Please refer to Figure 3 for further production monitoring and analysis module 12〇. This module mainly analyzes the current production status and data of the Guard Machine. Regarding the machine production status, such as the stop status, tool change status, or normal operation status. Machine production materials such as work program number, worker number, work time, date, machine number, product number, etc. The production status and data of these machines can be obtained by analyzing the preset control code included in the temporary archive and the control code parameters in the preset control code to obtain the machine production status and data. The preset control code can be digital string. Such as "〇88〇1", ^680^^08809,:,06809, record the current status, such as "when on behalf of the machine processing open = code," (10) 09" represents the control code of the machine processing end, and visual machine The requirements of the station are modified. The control code parameters can be expressed in English alphabetic strings, DATE,,,,, TIME,,#, to represent the current operational data of the machine, and can be modified, added, and deleted according to the requirements of the machine. Wait. In the preferred embodiment, some control codes are listed, as shown in Table 1: r - __ Table 1 Control Code Status Control Code Parameter Description Example 200823616 06801 Start DATE-#3011 DATE: Time Period Parameter #3011: Machine Date Variable 06801 DATE-#3011 TIME-#3012 MACHINE-M001 TIME-13012 TIME : Time parameter #3011: Machine time variable EMPLOYEE-E003 MAKE-20060207008-1-1 PROC-BT40-01 WORK-L005-1 TYPE-A001 MACHINE Machine number parameter EMPLOYEE Employee number parameter MAKE Order number parameter PROC Product number number WORK Work code parameter TYPE Classification code parameter should be recognized by those who are familiar with the art, control code and control code parameters of letters, characters, symbols The selection of the other is a design choice. The above listed control codes disclosed in the preferred embodiments of the present invention are only partial and illustrative in nature. The control code (or control code parameter) data of the production monitoring transmitted by the machine end is temporarily interpreted by the NC interpretation module 110 and temporarily stored in the temporary archive. Therefore, the production monitoring analysis module 120 can obtain the control code (or control code parameter) data from the temporary archive for subsequent module processing. 200823616 Ο Please refer to Figures 3 and 4, the user interface module 13 converts the machine status and data of the control code (or control code parameter) analyzed by the production monitoring and analysis module 120. The information interface 400' visible to the user is displayed on the display device 2A. The user-visible information " face 400 uses a computer window interface, and the display device 2 (8) can use a display ^. In this way, the display can display the current status of each machine and the status of the camera, and can update the status and work information after the analysis of the control code data, so that the manager can obtain instant and up-to-date production information. For example, the user-visible information interface 4 can display the current status and work data of each machine in different blocks 4〇1 on the display. Each block_ contains a signal area 4〇2, an information area, and a status area 4〇4. The color of the signal area 402 can be used to distinguish the status of the machine. For example, 'red indicates a fault shutdown, green indicates normal operation, and yellow indicates temporary stop (such as tool change rotation). The area of the f zone contains the same block display material, such as product number, product name, number of copies, number of productions, average time, utilization rate, etc., or other such as job number, operator number, homework Time, schedule, machine number, etc. Item ^ 4〇4 shows the current connection status of the machine. Those who are familiar with this = should be able to agree that the selection of the above-mentioned information interface block 4 is a design choice. ^ So - come, the manager is expected to be at the far end (such as the office (1) ^ station's job status and data 'these job status and information can be ^: in the computer database' can be easily tracked, or statistics =, The parent lean material is used as a reference for the assessment of the performance of the person. 200823616. The month #<', the second figure and the fifth figure, the preferred embodiment of the present invention may further comprise: the end control analysis module 140 and a The file analysis module 15〇. The terminal control knife pull-up group 14〇, this module mainly provides the manager to transfer and update the processing program from the remote (ie monitoring host_end) to the red machine. Including the uploading of the program back to the monitoring host 1GG end by the machine tool _ terminal, and the downloading of the program by the monitoring host 1 terminal by the guard machine _ terminal. For convenience of explanation, "uploading" means that the program is composed of η υ = The machine_end is transmitted to the monitoring host, and the "download" means that the program is transmitted from the monitoring host 100 to the tool machine 600. The user can input the command code on the machine tool_end, and then obtain the command code, such as the step, Will execute the instructions to the second table The operation of the line, such as step 5Q1, is to upload the program, download the program, update, and so on. The instruction code can use English letters or strings such as "...", "". In this kiss ^^, the various instruction codes are shown in Table 2:
兔免標案 料夾 資料夾 里資料夾 受狀態設定 竺ϋ回受狀態設定 表二 ~--——__ 指令代碼所代表進行的操作 12 200823616 Ν5 “PMS” “Ill Ν99’ Ν55: 取得 檔案更名 ----~-- 控控制碼_ 式檔案目錄明細 在程式的最 要求傳回要求傳回資料夾内程式檔案明 Ο ‘Ν26, 要求傳回要求傳回資料夾内程式檔案明 相同的 -^ϋΑ-lJlg、時間以及大小)__ 人 、 對於热習此項技藝的人士應可認同,上述指 、子母子串、符唬等的選用,是一種設計上的選擇。 本毛月車乂‘貫施例所揭露的上列指令代碼,僅為部分且 明性質。 請進一步參照第6a圖與第6b圖所示,指令代碼通常 輸入於耘式編號(〇碼)的下一行。舉例來說,第以圖中, 私式編娩(01234),而第二行的(F123)即為指令代碼”F,,, 代表將耘式01234由工具機6〇〇端上傳回監控主機1〇〇端 並,存於資料夾ρ123中(工具機台係使用fanuc 〇τ帽 為說明)。第6b圖中,程式編號(00001),而第二行的F006 與第二行的/(ER16),即為結合使用輸入的兩指令代碼” F,, 與/,代表將監控主機1〇〇端的資料夾F〇〇6中,符合搜 尋條件ER16的程式目錄資料下載傳回工具機_端。 此外’在權案傳輸的過程中,本模組會將程式的歷程 13 200823616 寫入一回受槽(即log才當)中,當操作者由工具機_端輸 入指令代碼”M900”時,即表示不要求監控主機1〇〇將回受 檔傳回給工具機_端。相反的,作者由工具機_ 端輸入指令代碼,,膽01,,時,即表示要求監控主機_將回 又檔傳回給工具機6〇〇端。另外,輸入指令代碼”pMS,,時, , 表示在程式傳輸中,加入前述生產監控分析模組12〇所需 的生產監控用的控制碼(或是控制碼參數)。 ,請參照第2圖與第7圖所示,檔案分析模組13〇主要 ,處理由工具機600端上載到監控主機200端的程式,當 遠端控制分析模組140的指令代碼要求將連線工具機6〇田〇 的加工程式上傳到監控主機1〇〇後,播案分析模組13〇將 對^傳的加工程式進行處理與儲存。由於上載作業可能會 θ次上傳數個程式,樓案分析模組會先判斷這些程式 T否需分開儲存?如步驟所示。若是必須分開儲存, =案刀析核組130會先分割檔案後分開儲存,如步驟7〇ι ^川2所示。若是不須分開儲存,播案分析模組會讀取暫 =中作者所設定的存槽狀態,檢查路徑、標名重複 :戈疋更名等槽案處理,最後於儲存時同時加人程式註解。 目同的’在㈣處理的過程中,本模組會將程式的歷程寫 辨=標中’如步驟702與7〇3所示。回受槽可如前述, 二#作者所輸入的指令代碼,回傳至工具機_。 〜、本^明已以一較佳貫施例揭露如上,然其並非用 =本發明’任何熟習此技藝者,在不脫離本發 神和關内,當可作各種之更動與潤飾,因此本發明之保 14 200823616 護範圍當視後附之申請專利範圍所界定者為準。 【圖式簡單說明】 為讓本發明之上述和其他目的、特徵、優點與實施例 能更明顯易懂,所附圖式之詳細說明如下: 第1圖係繪示依照本發明一較佳實施例使用於監控複 數工具機的不意圖。 第2圖係繪示第1圖中較佳實施例之電腦數值控制工 具機台生產監控系統的方塊圖。 第3圖係繪示第2圖中較佳實施例之生產監控分析模 組的流程圖。 第4圖係繪示第2圖中較佳實施例之資訊介面的示意 圖。 第5圖係緣不第2圖中較佳實施例之遠端控制分析模 組的流程圖。 ' 第6a圖與第6b圖係繪示第5圖中較佳實施例之遠端 控制分析模組的指令代碼操作示意圖。 第7圖係繪示第2圖中較佳實施例之檔案分析模組的 流程圖。 【主要元件符號說明】 1〇 ·生產監控系統 402 :燈號區 100 ·監控主機 403 :資訊區 15 200823616 110 : NC解譯模組 404 120 : 生產監控分析模組 500 130 : 使用者介面模組 501 140 : 遠端控制分析模組 600 150 : 檔案分析模組 700 200 : 顯示裝置 701 400 : 資訊介面 702 401 : 區塊 703 狀態區 步驟 步驟 工具機 步驟 步驟 步驟 步驟 ΟThe rabbit clip-free folder folder is subject to status setting 竺ϋReturn status setting table 2~--——__ Command code representative operation 12 200823616 Ν5 “PMS” “Ill Ν99' Ν55: Get file rename ----~-- Control code _ file directory details in the program's most requested return request to return the file file in the folder Ο 'Ν26, request to return the request to return the file file in the folder is the same - ^ϋΑ-lJlg, time and size) __ People, those who are interested in this skill should be able to agree that the selection of the above-mentioned fingers, sons and daughters, and symbols are a design choice. The above listed instruction code disclosed in the example is only partial and explicit. Please refer to the 6a and 6b diagrams, the instruction code is usually entered in the next line of the 编号 number (weight). In the figure, private delivery (01234), and the second line (F123) is the instruction code "F,", which means that the magazine 01234 is uploaded from the machine tool 6 to the monitoring host 1〇〇 End and stored in the folder ρ123 (tool machine system Use fanuc 〇τ cap for explanation). In Fig. 6b, the program number (00001), and the second line of F006 and the second line of / (ER16), that is, the two instruction codes "F," combined with /, represent the host to be monitored. In the folder F〇〇6, the program directory data matching the search condition ER16 is downloaded back to the tool machine _ terminal. In addition, during the process of transferring the rights, the module will write the program history 13 200823616 into the slot. (ie, log only), when the operator inputs the instruction code "M900" from the machine tool_ terminal, it means that the monitoring host 1 is not required to transmit the return file back to the machine tool _ end. On the contrary, the author When the machine tool _ terminal input command code, biliary 01,, means that the monitoring host is required to send back the file back to the tool machine 6 terminal. In addition, input the command code "pMS,,,,, In the transmission, the control code (or control code parameter) for production monitoring required by the production monitoring and analysis module 12 is added. Please refer to FIG. 2 and FIG. 7 , the file analysis module 13 〇 mainly processes the program uploaded from the tool machine 600 end to the monitoring host 200 end, and the instruction code of the remote control analysis module 140 is required to be connected. After the processing program of the machine tool 6 〇田〇 is uploaded to the monitoring host 1 , the broadcast analysis module 13 处理 processes and stores the processed program. Since the uploading operation may upload several programs θ times, the building analysis module will first determine whether these programs need to be stored separately. As shown in the steps. If it must be stored separately, the case knife analysis group 130 will first split the file and store it separately, as shown in step 7〇ι^川2. If it is not necessary to store separately, the broadcast analysis module will read the status of the storage slot set by the author in the temporary =, check the path, the name is duplicated: the name of the file is changed, and finally the program annotation is added at the time of storage. For the same reason, in the process of (4) processing, the module will write the history of the program = as shown in steps 702 and 7〇3. The return slot can be returned to the machine tool_ as described above, and the instruction code input by the author #. 〜~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ The scope of the protection of the present invention is defined in the scope of the patent application. BRIEF DESCRIPTION OF THE DRAWINGS The above and other objects, features, advantages and embodiments of the present invention will become more <RTIgt; The example is used to monitor the complex machine tool. Figure 2 is a block diagram showing the production monitoring system of the computer numerical control tool machine of the preferred embodiment of Figure 1. Figure 3 is a flow chart showing the production monitoring analysis module of the preferred embodiment of Figure 2. Figure 4 is a schematic diagram showing the information interface of the preferred embodiment of Figure 2. Figure 5 is a flow chart of the remote control analysis module of the preferred embodiment of the second embodiment. 'Fig. 6a and Fig. 6b are diagrams showing the operation of the instruction code of the remote control analysis module of the preferred embodiment of Fig. 5. Figure 7 is a flow chart showing the file analysis module of the preferred embodiment of Figure 2. [Main component symbol description] 1〇·production monitoring system 402: light area 100 · monitoring host 403: information area 15 200823616 110 : NC interpretation module 404 120 : production monitoring analysis module 500 130 : user interface module 501 140 : Remote Control Analysis Module 600 150 : File Analysis Module 700 200 : Display Device 701 400 : Information Interface 702 401 : Block 703 Status Area Step Steps Tool Machine Step Step Step Step Ο
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