201005513 九、發明說明: 【發明所屬之技術領域】 統 本發明涉及-種區域W管理方法及其電觸系 【先前技術】 在企業中,作為生產中重要角八 少的組成部分。它不僅關係著企業的生不可缺 到企業運作的效率。如何讓機械更』ς读更關係 為重要使用狀況進订監控’提高企業的效率則變得尤 目:’大部分生產車間的機台數量很多不易於 者i控管理,不能夠即時地掌 ;&理 成機台使用分配出錯,工作效率降低。台的當前狀態,造 【發明内容】 馨於以上内容,有必要描也 ❹域機台的電腦系統及方法。〃㊣夠有效監控管理區 —種用於區域機台監控管理 存儲有用戶所要監控管理=圖該電腦系統 圖上有機厶. 賤口的刀佈圖,所述分佈 有機口的㈣圖不’該電腦系統還存 二::所述資訊包括每個機台在分佈圖中的虛擬 個機台的物理鎖及邏輯鎖,該 標母 用於當用戶使用完機台時,將 2匕括·執行模組, 修改為釋放狀態,並同時更的邏輯鎖由佔用狀態 狀態標識色,·獲取模組,用於该機台模型圖示的 、田用戶舄要使用機台時,根 201005513 據用戶所^制賴纟的虛誠標及㈣㈣物理靜 ^亥機台的物理狀態,當所述機台的物理狀態是正常時, =於餘該機台的邏輯鎖;及所述執行模組,還用於當 :取的機台邏輯鎖表示該機台的資源為釋放狀態時,將 力二二㈣輯祕改為佔用狀態,朗時更新分佈圖中該 機口模型圖示的狀態標識色。201005513 IX. Description of the invention: [Technical field to which the invention pertains] The present invention relates to a region W management method and an electric contact system thereof. [Prior Art] In an enterprise, it is an essential component of production. It is not only related to the efficiency of the company's operations. How to make the machine more readable and more relevant for the important use of the situation to monitor the 'increasing the efficiency of the enterprise becomes more obvious: 'Most of the production workshops are not easy to manage the number of machines, can not be immediately; & physics machine use distribution error, work efficiency is reduced. The current state of the station, created [Summary of the content] In addition to the above content, it is necessary to describe the computer system and method of the local machine. 〃 够 够 有效 有效 有效 有效 有效 有效 有效 有效 有效 有效 有效 有效 有效 有效 有效 有效 有效 有效 有效 有效 有效 有效 有效 有效 有效 有效 有效 有效 有效 有效 有效 有效 有效 有效 有效 有效 有效 有效 有效 有效 有效 有效 有效 有效 有效 有效 有效 有效 有效 有效The computer system also saves two:: the information includes the physical lock and the logical lock of the virtual single machine in each map of the machine, and the standard parent is used to execute the machine when the user finishes using the machine. The module is modified to release state, and at the same time, the more logical lock is identified by the occupied state status, and the acquisition module is used for the machine model icon. When the user wants to use the machine, the root 201005513 is based on the user. ^ 制 纟 纟 虚 及 及 ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( It is used to: when the machine logic lock of the machine indicates that the resource of the machine is released, the force 22 (4) is changed to the occupied state, and the state identification color of the machine port model in the distribution map is updated.
電俨種利用電腦系統運行區域機台監控管理的方法,該 區域系先存儲有供監控查看的分佈圖,該分佈圖上有監控 台二=有機台的模型圖示,所述電腦系統還存儲有每個機 ς鎖分佈圖所處位置的虛擬座標,每個機台的物理鎖及邏 述機二該方法包括如下步驟:當用戶使用完機台後,將所 分佈台的邏輯鎖由佔用狀態修改為釋放狀態,並同時更新 機4圖中該機台模型圖示的狀態標識色;當用戶需要使用 〇時’根據用戶所需要使用的機台的虛擬座標及該機台 ^ 裡鎖的值獲取該機台的物理狀態;當所述機台的物理 :態是正常時,獲取該機台的邏輯鎖;及當所述機台的邏 輯鏔表示該機台的資源為釋放狀態時,將該機台的邏輯鎖 C改為佔用狀態,並同時更新分佈圖中該機台模型圖示的 狀態檫識色。 相較於習知技術,所述區域機台監控管理方法及其電 腦系稣,將所需要監控管理的機台區域化,並即時更新分 佈圖,使得用^可:看到所述機台的當前最新狀況。 【貫施方式】 如圖1所示,是本發明用於區域機台監控管理的電腦 201005513 系統較佳實施例的硬體架構圖。該電腦系統包括:主機1, • 資料庫2。所述主機1用於對機台進行監控管理,所述資 . 料庫2可以在主機1内,也可以置於主機1之外。該主機 1中存儲用戶需要監控管理的機台的分佈圖。該分佈圖中 有多個機台。所述資料庫2用於存儲所有需要監控的機台 . 的參數,所述機台的參數包括:每個機台的虛擬座標,每 個機台的物理鎖及邏輯鎖。所述虛擬座標是每個機台所在 區域的座標值,用戶可將分佈圖中的機台進行劃分區域, ® 如圖6所示,所述分佈圖中的機台被分成3個區域:A區、 B區及C區。假設B區有如圖所示的六台機台,所述六台 機台的虛擬座標可設置為:B01,B02,B03,ΒΙΟ,B20 及B30。於所述分佈圖上,以一定的模型圖示表示機台, 本實施例中,以矩形圖形為機台的模型圖示,並將每個機 台的模型圖示和該機台的參數綁定。本實施例中,該物理 鎖的值可表示為1,2, 3,分別表示該機台的物理狀態為 ^ 正常狀態,故障狀態,維修中狀態。根據實際使用情況, 使用者還可以增加各種實用的狀態,正常未分配位置、故 障未送修、故障修理完成等。所述邏輯鎖是對各個機台邏 輯任務的管理,該邏輯鎖表示該機台資源的佔用或者釋 放,本實施例中,該邏輯鎖的值可表示為0或者1,該邏 輯鎖的值為0表示該機台的資源為佔用狀態,該邏輯鎖的 值為1表示該機台的資源為釋放狀態。所述資料庫2中還 存儲有機台所處各種狀態所對應的標識色,方便用戶查看 辨別機台的當前狀況。如圖2所示,當機台正常時且機台 201005513 資源處於釋放狀態時,表明機台目前“正常空閒”,設置一 ^ 種標識色;當機台正常且該機台的資源為佔用狀態時,表 . 明該機台目前“正常使用中”,設置另一種標識色;當機台 的物理鎖的值為故障或者維修中時,則表明機台的狀態為 “故障”或者“維修中”,且分別對應不同于“正常空閒”及“正 常使用中”的一種標識色。 所述主機1還包括一個任務更新定時器100,該任務 更新定時器100用於定時從資料庫2中讀取所有機台的當 ® 前資訊,如每隔5分鐘。該系統還包括與所述主機1相連 的鍵盤3、滑鼠4及顯示器5,作為監控管理機台的輸入輸 出設備。所述顯示器5用於顯示所述機台的分佈圖,供用 戶查看機台的當前資訊。 如圖3所示,是圖1中主機1的較佳實施例的功能模 組圖。所述模組是具有特定功能的軟體程式段,該軟體存 儲於電腦可讀存儲介質或其他存儲設備,可被電腦或其他 _ 包含處理器的計算裝置執行,從而完成監控管理區域機台 的系列流程。所述主機1包括:保存模組10、獲取模組12、 執行模組14及判斷模組16。 保存模組10用於保存分佈圖中各個機台所分配位置 的當前虛擬座標。 獲取模組12用於當用戶需要使用機台時,根據用戶 所需要使用的機台的虛擬座標從資料庫2中獲取該機台的 物理鎖的值。 判斷模組16用於根據所獲取的物理鎖的值判斷該機 201005513 台是否正常。 ‘ 當該機台不正常時,該獲取模組12用於根據該物理 ‘鎖的值從資料庫2中獲取該物理狀況下所對應的標識色。 執行模組14用於根據所獲取的標識色更新分佈圖中該機 台的標識色,以提示用戶該機台目前所處的物理狀態。 所述獲取模組12還用於當所述機台正常時,獲取該 機台的邏輯鎖的值。 所述判斷模組16還用於根據所獲取的邏輯鎖的值判 斷該機台的資源是否為釋放狀態。 一所述執行模組14還用於當所獲取的機台邏輯鎖的值 表^亥機台的資源為釋放狀態時,將該機台的邏輯鎖修改 為資源佔用狀態,根據圖2中所示的“正常使用"大態所 對應的標識色將分佈圖令該機台模型圖示的標識色更改為 正常使用中,,所對應的標識色。 :所獲取的機台邏輯鎖的值表示該機台的資源為佔 ❹ 時4執行模組14還用於提示用戶該機台正在使用 中。 ㈣户^述執行模組14還用於當用戶不再使用機台時,將 "σ的邏輯鎖由佔用狀態修改為釋放狀態。 #读2述=斷模組16還用於根據所述任務更新定時器100 m由沾,貝料庫2中所有機台的當前資訊,判斷所述分佈 一、母個機台的資訊是否與資料庫2中所對應機 刖貧讯不您人 ,,, 次料 Q。例如:該機台的使用時間已到,該機台在 中的邏輯鎖為釋放狀態,物理鎖為正常狀態,但 201005513 、· 是該機台在分佈圖中的狀態標識色還是顯示為“正在使用 ^ 中”狀態所對應的標識色,則分佈圖中的該機台資訊與資料 • 庫2中該機台的資訊不符合。 所述執行模組14還用於當分佈圖中的機台資訊與所 述機台在資料庫2中的資訊不符合時,更新所述機台在分 佈圖中的機台模型圖示的狀態標識色。 如圖4所示,是本發明區域機台監控管理方法較佳實 施例的作業流程圖。 ® 步驟S30,當管理者需要對分佈圖中的機台進行分配 位置時,保存模組10保存管理者為各個機台所分配位置的 當前虛擬座標。 步驟S32,當用戶需要使用機台時,獲取模組12根據 用戶所需要使用的機台的虛擬座標從資料庫2中獲取該機 台的物理鎖的值。 步驟S34,判斷模組16用於根據所獲取的物理鎖的值 φ 判斷該機台是否正常。當該機台正常時,進入步驟S36, 當該機台不正常時,進入步驟S44。 步驟S36,獲取模組12從資料庫2中獲取該機台的邏 輯鎖的值。 步驟S38,判斷模組16根據所獲取的邏輯鎖的值判斷 該機台的資源是否為釋放狀態。當該機台的資源為釋放狀 態時,進入步驟S40,當該機台的資源為佔用狀態時,進 入步驟S46。 步驟S40,所述執行模組14將該機台的邏輯鎖修改為 201005513 資源佔用狀態,根據圖2,目前該機台所處的狀態是“正常 ‘ 使用中”,所述獲取模組12獲取“正常使用中”狀態所對應 . 的標識色。 步驟S42,所述執行模組14根據所獲取的標識色更新 分佈圖中該機台模型圖示的標識色。 步驟S44,當所獲取的機台物理鎖的值為機台不正常 時,所述獲取模組12根據該物理鎖的值從資料庫2中獲取 該物理狀況下所對應的標識色,並轉入步驟S42。 ® 步驟S46,當所獲取的機台邏輯鎖的值表示該機台的 資源為佔用狀態時,根據圖2,目前該機台所處的狀態是 “正常使用中”,所述獲取模組12從資料庫2中獲取該狀態 下所對應的標識色,並轉入步驟S42。 當用戶不再需要使用機台時,執行模組14將在資料 庫中修改該機台的邏輯鎖,使其由佔用狀態修改為釋放狀 態,並同時更新分佈圖中該機台模型圖示的標識色。 _ 如圖5所示,是定時更新分佈圖中機台資訊的較佳實 施例的作業流程圖。 步驟S51,任務更新定時器100定時讀取所述資料庫 2中的所有機台的當前資訊,如每隔5分鐘。所述當前資 訊包括機台的物理鎖及邏輯鎖。 步驟S53,判斷模組16根據所述任務更新定時器100 所讀取的資料庫2中所有機台的當前資訊,判斷所述分佈 圖中的該機台資訊是否與資料庫2中對應機台的資訊不符 合。例如:該機台的使用時間已到,該機台在資料庫2中 11 201005513 的邏輯鎖為釋放狀 分佈圖中的狀態標識色還是在:二是該機台在 應的標識色,則分佈圖中蒼正在/吏用中,,狀態所對 台的資訊不符合。當所、戒=機口資讯與資料庫2中該機 庫2令所、fii A W 4刀佈圖令的機台當前資訊與資料 庫_所述機D的資訊符合時 佈时的機台當前 /㈣7田所述刀 合時,轉至步驟^ 中所述機台的資訊不符 ❹ ❷ 資心:戶:5;撼所述執行模組14根據資料庫中機台的當前 台在分佈圖中的機台模型圖示的狀態標識 色使私識色與資料庫中該機台的狀態所對應的標識色 -致、’攸而刷新分佈圖中所有機台的最新使用資訊。 以上所述僅為本發明之較佳實施例而已,且已達廣泛 之使用功效’凡其絲麟本㈣所揭示之精神下所完 之均等變化或修飾’均應包含在下述之申請專利範 【圖式簡單說明】 圖1係本發明用於區域機台監控管理的電腦系統較佳 實施例之硬體架構圖。 圖2係本發明中機台狀態定義表。 圖3係圖1中主機工的較佳實施例之功能模組圖。 圖4係本發明區域機台監控管理方法較佳實施例之作 業流程圖。 圖5係定時更新分佈圖中機台資訊的較佳實施例之作 業流程圖。 圖6係本發明區域機台監控管理系統及方法之介面 12 201005513The electric raft uses a computer system to operate the regional machine monitoring and management method. The area first stores a distribution map for monitoring and viewing. The distribution map has a model diagram of the monitoring station 2=organic table, and the computer system also stores There are virtual coordinates of the position where each machine lock map is located, and the physical lock and logic machine of each machine includes the following steps: when the user finishes using the machine, the logical lock of the distributed station is occupied. The state is modified to the release state, and at the same time, the state identification color of the machine model diagram in the machine 4 map is updated; when the user needs to use the ', the virtual coordinates of the machine used according to the user's needs and the lock of the machine are locked. The value acquires the physical state of the machine; when the physical state of the machine is normal, the logical lock of the machine is acquired; and when the logic of the machine indicates that the resource of the machine is released, The logic lock C of the machine is changed to the occupied state, and the status 檫 color of the machine model icon in the distribution map is updated at the same time. Compared with the prior art, the regional machine monitoring and management method and the computer system thereof regionalize the machine that needs to be monitored and managed, and update the distribution map in real time, so that the machine can be seen. Current status. [Comprehensive Mode] As shown in FIG. 1, it is a hardware architecture diagram of a preferred embodiment of the computer 201005513 system for regional machine monitoring and management. The computer system includes: host 1, • database 2. The host 1 is used for monitoring and managing the machine. The resource library 2 can be located in the host 1 or outside the host 1. The host 1 stores a distribution map of the machines that the user needs to monitor and manage. There are multiple machines in the map. The database 2 is used to store parameters of all the machines that need to be monitored. The parameters of the machine include: virtual coordinates of each machine, physical locks and logical locks of each machine. The virtual coordinates are coordinate values of the area where each machine is located, and the user can divide the machine in the distribution map into regions. As shown in FIG. 6, the machine in the distribution map is divided into three areas: A District, Zone B and Zone C. Assume that there are six machines in the B area as shown in the figure, and the virtual coordinates of the six machines can be set to: B01, B02, B03, ΒΙΟ, B20 and B30. On the map, the machine is represented by a certain model diagram. In this embodiment, a rectangular figure is used as a model diagram of the machine, and the model diagram of each machine and the parameters of the machine are tied. set. In this embodiment, the value of the physical lock can be expressed as 1, 2, and 3, respectively indicating that the physical state of the machine is ^ normal state, fault state, and maintenance state. Depending on the actual use, the user can also add various practical statuses, normal unallocated positions, faults not repaired, and fault repair completed. The logical lock is a management of a logical task of each machine, and the logical lock represents the occupation or release of the resource of the machine. In this embodiment, the value of the logical lock can be represented as 0 or 1, and the value of the logical lock is 0 indicates that the resource of the machine is occupied. The value of the logical lock is 1 indicating that the resource of the machine is released. The database 2 also stores the color corresponding to the various states in which the organic station is located, so that the user can view the current status of the identification machine. As shown in Figure 2, when the machine is normal and the machine 201005513 resource is in the released state, it indicates that the machine is currently "normally idle" and sets a color; when the machine is normal and the resource of the machine is occupied When the machine is in the "normal use", set another identification color; when the value of the physical lock of the machine is faulty or under maintenance, it indicates that the status of the machine is "fault" or "maintenance" ", and respectively correspond to a different color than "normal idle" and "normal use". The host 1 further includes a task update timer 100 for periodically reading the pre-information information of all the machines from the database 2, such as every 5 minutes. The system also includes a keyboard 3, a mouse 4, and a display 5 connected to the host 1 as an input and output device for monitoring the management machine. The display 5 is configured to display a distribution map of the machine for the user to view current information of the machine. As shown in Fig. 3, it is a functional block diagram of the preferred embodiment of the host 1 of Fig. 1. The module is a software program segment having a specific function, and the software is stored in a computer readable storage medium or other storage device, and can be executed by a computer or other computing device including a processor, thereby completing a series of monitoring and management area machines. Process. The host 1 includes a save module 10, an acquisition module 12, an execution module 14, and a determination module 16. The save module 10 is used to save the current virtual coordinates of the locations assigned to the various machines in the distribution map. The obtaining module 12 is configured to acquire the value of the physical lock of the machine from the database 2 according to the virtual coordinates of the machine used by the user when the user needs to use the machine. The judging module 16 is configured to judge whether the machine 201005513 is normal according to the obtained value of the physical lock. ‘ When the machine is not normal, the acquisition module 12 is configured to acquire the color corresponding to the physical condition from the database 2 according to the value of the physical ‘lock. The execution module 14 is configured to update the identification color of the machine in the distribution map according to the acquired identification color to prompt the user of the physical state of the machine. The obtaining module 12 is further configured to acquire a value of a logical lock of the machine when the machine is normal. The determining module 16 is further configured to determine, according to the acquired value of the logical lock, whether the resource of the machine is in a released state. The execution module 14 is further configured to modify the logical lock of the machine to a resource occupied state when the resource of the obtained machine logical lock value table is released, according to FIG. 2 The "normal use" of the "normal use" of the logo color corresponding to the map will change the logo color of the machine model icon to the normal use, the corresponding logo color. : The value of the acquired machine logic lock When the resource of the machine is occupied, the execution module 14 is also used to prompt the user that the machine is in use. (4) The execution module 14 is also used when the user no longer uses the machine, " The logical lock of σ is changed from the occupied state to the released state. #读2述=The broken module 16 is also used to update the timer 100 m according to the task, and the current information of all the machines in the shell library 2 is judged. The distribution is as follows: whether the information of the parent machine and the corresponding information in the database 2 are not yours, and the secondary material Q. For example, the time of use of the machine has arrived, the logic of the machine is in the middle. The lock is in the released state, the physical lock is in the normal state, but 201005513, · is the machine in The status indicator color in the layout is still displayed as the identification color corresponding to the “in use ^” status, and the machine information in the distribution map and the data in the library 2 are not in conformity with the information of the machine. The group 14 is further configured to update the state identification color of the machine model icon in the distribution map when the machine information in the distribution map does not match the information of the machine in the database 2. 4 is a flow chart showing the operation of the preferred embodiment of the regional machine monitoring management method of the present invention. In step S30, when the manager needs to allocate a position to the machine in the distribution map, the saving module 10 saves the manager. The current virtual coordinates of the location assigned to each machine. Step S32, when the user needs to use the machine, the acquisition module 12 acquires the physical lock of the machine from the database 2 according to the virtual coordinates of the machine used by the user. In step S34, the determining module 16 is configured to determine whether the machine is normal according to the acquired value of the physical lock φ. When the machine is normal, the process proceeds to step S36, and when the machine is not normal, the process proceeds to step S44. Step S36, obtained The module 12 obtains the value of the logical lock of the machine from the database 2. In step S38, the determining module 16 determines whether the resource of the machine is released according to the value of the acquired logical lock. When the resource is in the release state, the process proceeds to step S40, and when the resource of the machine is in the occupied state, the process proceeds to step S46. In step S40, the execution module 14 changes the logical lock of the machine to the 201005513 resource occupation state, according to the figure. 2, the current state of the machine is "normal" in use, the acquisition module 12 obtains the identification color corresponding to the "normal use" state. Step S42, the execution module 14 is based on the acquired The logo color updates the logo color of the machine model icon in the distribution map. In step S44, when the value of the obtained physical lock of the machine is abnormal, the acquiring module 12 acquires the color corresponding to the physical condition from the database 2 according to the value of the physical lock, and turns Proceed to step S42. ® step S46, when the value of the acquired machine logic lock indicates that the resource of the machine is occupied, according to FIG. 2, the current state of the machine is "normal use", and the acquisition module 12 The identification color corresponding to the state is acquired in the database 2, and the process proceeds to step S42. When the user no longer needs to use the machine, the execution module 14 will modify the logical lock of the machine in the database to change from the occupied state to the released state, and simultaneously update the icon of the machine model in the distribution map. Logo color. As shown in Fig. 5, it is a workflow diagram of a preferred embodiment of periodically updating the machine information in the distribution map. In step S51, the task update timer 100 periodically reads the current information of all the machines in the database 2, such as every 5 minutes. The current information includes the physical lock and logical lock of the machine. Step S53, the determining module 16 determines, according to the current information of all the machines in the database 2 read by the task update timer 100, whether the machine information in the distribution map is corresponding to the corresponding machine in the database 2. The information does not match. For example, the usage time of the machine has arrived. The logical lock of the machine in the database 2 201005513 is the state identification color in the release profile or the following: Second, the identification color of the machine is distributed. In the picture, Cang is in use/disappearing, and the information on the status of the station does not match. When the machine, the information and the database 2, the hangar 2, the fii AW 4 knife and the machine information of the current information and the database _ the machine D information meets the time of the machine At the time of the current / (4) 7 field, the information transferred to the machine in step ^ does not match ❹ 资 :: Household: 5; 执行 The execution module 14 is based on the current station distribution map of the machine in the database. The state identification color of the machine model in the middle makes the identification color corresponding to the state of the machine in the database and the status of the machine in the database, and refreshes the latest usage information of all the machines in the distribution map. The above is only the preferred embodiment of the present invention, and has been used for a wide range of functions. The equivalent change or modification of the spirit disclosed in the spirit of the syllabus (4) should be included in the following patent application. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a hardware architecture diagram of a preferred embodiment of a computer system for regional machine monitoring and management. Fig. 2 is a table showing the state of the machine in the present invention. 3 is a functional block diagram of a preferred embodiment of the mainframe worker of FIG. 1. Fig. 4 is a flow chart showing the operation of the preferred embodiment of the regional machine monitoring and management method of the present invention. Figure 5 is a flow diagram of a preferred embodiment of a preferred embodiment of periodically updating machine information in a profile. Figure 6 is an interface of the regional machine monitoring and management system and method of the present invention 12 201005513
【主要元件符號說明】 主機 1 資料庫 2 任務更新定時期 100 鍵盤 3 滑鼠 4 顯示器 5[Main component symbol description] Host 1 Database 2 Task update period 100 Keyboard 3 Mouse 4 Display 5
保存模組 10 獲取模組 12 執行模組 14 判斷模組 16 保存機台被分配的當前位置的虛擬座標 S30 根據所述虛擬座標獲取用戶所要使用的機台的物理 鎖的值 S32 根據所述物理鎖的值判斷該機台是否正常 S 3 4 獲取該機台的邏輯鎖的值 S36 根據該邏輯鎖判斷該機台的資源是否為釋放狀態 S38 修改該機台的邏輯鎖 S40 修改分佈圖上該機台的狀態標識色 S42 獲取機台不正常狀態所對應的標識色 S 44 獲取該狀態下的標識色 S46 13The storage module 10 acquires the module 12, and executes the module 14 to determine the virtual coordinates S30 of the current position assigned by the module 16 to save the machine. According to the virtual coordinates, the value of the physical lock of the machine to be used by the user is obtained. The value of the lock determines whether the machine is normal. S 3 4 Obtain the value of the logical lock of the machine. S36 According to the logical lock, determine whether the resource of the machine is released. S38 Modify the logical lock of the machine. S40 Modify the distribution map. The status flag color S42 of the machine station acquires the identification color S 44 corresponding to the abnormal state of the machine station. Obtain the identification color S46 13 in the state.