200929026 九、發明說明: 【發明所屬之技術領域】 本發明係有關一種應變處理方法與系統尤其是指應用 於工安緊急應變處置之一種緊急應變人員組織方法及其緊 急應變處理方法與系統。 【先前技術】 近年來國内高科技產業界發生多次重大的工安事件, 由於高科技產業的投資資本額高產業精英集中,因此每當 有工安事件發生時,所造成的人員傷亡、嚴重的財物與社 會成本損失,是難以用金錢衡量估計的。再加上近年來科 技產業的進步以及工商業之需求增加,更帶動高科技廠房 持續不斷的在新增擴建。因此,隨之而來的工安問題越來 越嚴重,緊急事故潛在的危險不容忽視,搶救措施更是刻 不容缓,·分秒必爭;當事故發生時,若能有效的縮短救災 時間,相對的必定就能減少損失。 在救災的處理過程中每一分每一秒與每一個環節都是 關鍵,必須運用的相當適當,但往往面臨緊急事故問題時, 現場人員的心理素質以及臨場抗壓性不一,常常於緊急情 況發生時無法按照標準處理步驟執行,再加上所需具備的 相關資料及應用的工具時都非常凌亂,當下甚至還須從龐 大且繁多的文件庫中調閱所須之書面文件來參考。在習用 之技術中,如:美國專利US. Pat. No. 7,148,795或者是 US. Pat. No. 6,134,949等技術中多僅限於通報方法的建 6 200929026 立,對於如何整合系統建立應變人員編組,應變流程與系 統資源或安全設備的整合與管理以供管理者進行應變處理 調度之參考,並未有一套具體做法。 又根據國際上保險公司對製程工業之意外事故的理賠 案例分析,可知意外事故之原始肇因主要為人員失誤或疏 忽(50%)、製程異常或失誤(20%)以及設備異常或失誤 (30%)。針對上述的肇因分析,進一步檢視資產風險控管的 解決對策,應具備下列特徵: (1) 透過即時資訊整合架構與資訊科技之應用,提供即 時資料之遠距擷取、資訊萃取、知識建立,達到製程與 設備異常狀態之即時監視與遠距診斷的預警目標。 (2) 建立異常狀態即時通報機制,整合應變資訊與資 源,達到即時、有效之異常事件導引資訊系統功能,除 可記取事故處理的歷史經驗外,並應透過資訊系統之設 計進一步達成零人為失誤的終極目標。 P (3)建立有效的異常狀態管理策略,提供合適的製程監 控系統設置安全指引、完整的警報管理制度、及合理規 劃的應變系統與管理機制。 (4)透過適當的教育訓練,以確保人員可遵循良好的制 度及善用解決方案或系統所提供的各項功能。新世代緊 急應變支援管理系統主要針對廠内需求建構專屬指揮 者緊急應變。 綜合上述,因此亟需一種緊急應變人員組織方法及其 緊急應變處理方法與系統以於第一時間傳遞救災相關資訊 7 200929026 應 【發明内容j 〜^發明提供—種緊急應變人員組織方法,其由取 二I::員基本資訊,建立現場值班人員與合』訓練 參 = 進而產生一緊急應變人員編組,以供緊 心、應變扣揮統籌管理使用。 即時錢魏財法與系統,其係結合 =ί=測系統、火警偵測系統、地震侦測系統、 :時會自動觸發該災害事故情境之預先建立的 :義腳2 導與提供指揮者各項應變搶救策略與參考建 ❹ 搜尋與供完善的設備 策時的考量依據,使其下達者做決 在一實施例中,本發明提供— 法’其係包括有下列步驟:建立變人員組織方 照資訊,儲存於一資料庫中;取得現^^^^ 身份與合格訓練證照資訊.、根^搜補資料庫之該人員 人員編組。 1,根據比對結果形成—緊急應變 在另一實施例中,本發明# 發月更柃供-種緊急應變處理方 200929026 '法,係包括有下列步驟:監控到異常狀況,並建立一異常 通報;根據該異常通報,判別出緊急應變事故種類與發生 區域;根據該事故種類與發生區域,由一指揮控制系統產 生一應變流程,並提供所需資材資訊;根據前述實施例所 述之緊急應變人員組織方法,形成一緊急應變人員編組; 以及根據該應變流程、該緊急應變人員編組與該所需資材 資訊進行緊急應變處理。 ©在另一實施例中,本發明更提供一種緊急應變處理系 統,其係包括有:一資料庫,係儲存人員身份與合格訓練 證照資訊與緊急應變人員編組等資訊;一人員確認管理模 組,其係可根據現場值班人員基本資訊,比對搜尋該資料 庫之人員身份與合格訓練證照資訊,形成一緊急應變人員 編組,並儲存於該資料庫中;一工安資訊整合模組,其係 可根據工安監測訊號進行判斷,以決定是否要產生一異常 通報;#及一指揮控制系統,其係可接收該異常通報並產 Ο 生一緊急應變演練腳本,提供一應變流程、所需資材資訊 與該緊急應變人員編組等資訊。 【實施方式】 為使貴審查委員能對本發明之特徵、目的及功能有 更進一步的認知與瞭解,下文特將本發明之裝置的相關細 部結構α及設計的理念原由進行說明,以使得審查委員可 以了解本發明之特點,詳細說明陳述如下: 請參閱圖一所示,該圖係為本發明之緊急應變人員組 9 200929026 織方法實施例流程示意圖。該f 應變人員組織方法包括 有下列步驟:首先’進行步驟20,建立-人員身份與合格 訓練證照資訊’儲存於L中。接著進行步驟21,取 得現場值班人貞基本資訊。在本步财主要係彻通訊方 式詢問現場值班人員。該通訊方式係為自動撥打值班人員 所持之無線通崎置(例如:手機)或者是所在位置之有線 e ❹ 1訊裝置(例如:電話)’而撥打的方式可設定為主動式定 時撥打或者是由特定人員手動撥打的方式來進行。 閱圖—所示,在本實施例巾’湘通訊方式取得 ==員基本資訊之方式更包括有下列步驟,首先如 步驟211所不,取得所須聯絡之現場值班人員 相關通訊裝置(手機咬雷話早 按照輪班制度來〜定播㈣5唬碼。接著進行步驟212 ’ 不二二語音詢問以及回覆方式等。當然,如果撥打 丄Γ以藉由設定週期性的重複撥打直到取得聯200929026 IX. INSTRUCTIONS: TECHNICAL FIELD The present invention relates to a strain processing method and system, and more particularly to an emergency strain personnel organization method and an emergency strain processing method and system applied to industrial safety emergency strain disposal. [Prior Art] In recent years, there have been many major industrial and safety incidents in the domestic high-tech industry. Due to the high investment capital of high-tech industries, the concentration of industrial elites is concentrated. Therefore, whenever there is a work safety incident, the casualties caused, Serious financial and social cost losses are difficult to measure by money. Coupled with the advancement of the technology industry in recent years and the increasing demand for industry and commerce, the company has continued to expand its new high-tech plants. Therefore, the attendant work safety problem is becoming more and more serious. The potential danger of an emergency cannot be ignored. The rescue measures are urgent, and every second counts. When an accident occurs, if the disaster relief time can be effectively shortened, the relative Reduce losses. In the process of disaster relief, every minute and every step is the key, and it must be used appropriately. However, when faced with emergency problems, the psychological quality of the field personnel and the on-site compression resistance are often different. When the situation occurs, it can't be carried out according to the standard processing steps. In addition, the related information and the tools used are very messy. Now you need to read the required written documents from a large and extensive file library for reference. In the conventional technology, such as: US Patent US. Pat. No. 7, 148, 795 or US. Pat. No. 6, 134, 949 and other technologies are mostly limited to the construction method of the notification method 2009 20092626, for how to integrate the system to establish the strain personnel group, strain There is no specific practice for the integration and management of processes and system resources or security devices for managers to perform contingency scheduling. According to the international insurance company's claims case analysis of accidents in the process industry, it can be known that the original cause of the accident is mainly personnel error or negligence (50%), process abnormality or error (20%), and equipment abnormalities or mistakes (30). %). In view of the above-mentioned analysis of the cause of the problem, the following measures should be taken to further examine the countermeasures for asset risk control: (1) Provide remote data acquisition, information extraction and knowledge creation through the application of instant information integration architecture and information technology. , to achieve the early warning target of remote monitoring and remote diagnosis of process and equipment abnormal state. (2) Establish an abnormal notification mechanism and integrate information and resources to achieve an immediate and effective anomaly event guidance information system function. In addition to the historical experience of accident handling, it should further achieve zero-personality through the design of the information system. The ultimate goal of mistakes. P (3) Establish an effective abnormal state management strategy, provide appropriate process monitoring system security guidelines, a complete alarm management system, and a properly planned response system and management mechanism. (4) Through appropriate education and training to ensure that personnel can follow a good system and make good use of the functions provided by the solution or system. The new generation of emergency response support management system is designed to build emergency response for the dedicated commander. In view of the above, there is a need for an emergency response personnel organization method and an emergency response processing method and system for transmitting disaster relief related information in the first time. 7 200929026 [Invention content j ~ ^ invention provided - an emergency response personnel organization method, Take the second I:: basic information of the staff, establish on-site staff on duty and the training of the participants = and then generate an emergency response personnel group for the purpose of tight-hearted, strain-carrying management. The instant money Weifa method and system, combined with =ί=test system, fire detection system, earthquake detection system, : will automatically trigger the pre-established situation of the disaster accident situation: pros and cons 2 provide guidance to the various strains Rescue strategy and reference construction The basis for consideration of the search and improvement of the equipment policy is to make it a decision. In one embodiment, the present invention provides a method of "providing the following steps: establishing a change of personnel organization information" , stored in a database; obtain the current ^^^^ identity and qualified training license information. The root ^ search database of the personnel group. 1. Forming according to the comparison result - emergency strain In another embodiment, the present invention includes the following steps: monitoring an abnormal condition and establishing an abnormality. According to the abnormality notification, the type and the occurrence area of the emergency strain accident are determined; according to the type and the occurrence area of the accident, a strain process is generated by a command and control system, and the required materials information is provided; the emergency according to the foregoing embodiment The contingency personnel organization method forms an emergency response personnel group; and according to the contingency process, the emergency response personnel group and the required materials information for emergency response processing. In another embodiment, the present invention further provides an emergency strain processing system, which includes: a database, information such as storage personnel identity and qualified training license information and emergency response personnel grouping; and a personnel confirmation management module According to the basic information of the on-duty staff, the department can compare the identity of the database and the qualified training license information to form an emergency response personnel group and store it in the database; a construction safety information integration module, It can be judged according to the safety monitoring signal to determine whether an abnormal notification is to be generated; # and a command and control system, which can receive the abnormal notification and produce an emergency response drill script to provide a response process and Information on materials and the organization of the emergency response personnel. [Embodiment] In order to enable the reviewing committee to have a further understanding and understanding of the features, objects and functions of the present invention, the related detailed structure α of the device of the present invention and the concept of the design are explained below so that the reviewing committee The features of the present invention can be understood. The detailed description is as follows: Please refer to FIG. 1 , which is a schematic flowchart of an embodiment of the emergency response personnel group 9 200929026. The method of organizing the f-strain includes the following steps: First, 'go step 20, establish-personal identity and qualified training license information' is stored in L. Then proceed to step 21 to get the basic information of the on-site duty person. In this step, the main reason is to consult the on-site duty personnel in the communication mode. The communication method is to automatically dial the wireless communication device (for example: mobile phone) held by the person on duty or the wired e-device (for example: telephone) of the location, and the mode can be set as active timed dialing or It is done manually by a specific person. As shown in the figure, in the embodiment, the method of obtaining the basic information of the user's communication method includes the following steps. First, as shown in step 211, the relevant communication device (the mobile phone bite) of the on-site duty person to be contacted is obtained. Raytheon will follow the shift system to broadcast (4) 5 weights. Then proceed to step 212 'No. 2 voice inquiry and reply method, etc. Of course, if you dial 丄Γ to set the periodic repeat call until you get the link
St美:在本步驟中’也可以包含現場值班人員主 的方式。最後’進行步驟213,收到現場 ΐ 本f訊°#現場值班人員收到聯絡電話 人二:丨藉由語音或者是按鍵的方式輸入基本資訊,例如: 人貝識別號或者是姓名等。 售圖—所*,在取得現場舞人^本資訊之 ί搜驟22,根據該現場值班人員基本資訊比 二人員身份與合格訓練證照資訊。在本 步驟中主U將現場絲人貞_祕本 員識別號或者是姓名等,搜尋根據㈣20 _於資料料 200929026 •之人員身份與合格訓練證照資訊,主要是關於工安訓練合 格或者是相關工安證照等資訊,例如:急救人員資格、消 防滅火訓練資格等,然後針對現場值班人員基本資訊逐二 進行比對,確認現場值班人員的應變處理資格。當然,該 資料庫中的工安訓練合格或者是相關工安證照等資訊皆須 隨時更新,以便掌握人員的應變處理資格。最後,進行步 驟23,根據步驟22之比對結果,建立一緊急應變人員編 組,例如:搶救組、管制組、救護組或支援組等,組別的 ❹ 編制可以根據工廠特性以及需求而調整。最後,可藉由步 驟2 4 ’將該緊急應變人員編組寫入該資料庫儲存。 請參閱圖三所示,該圖係為本發明之緊急應變處理方 法實施例流程示意圖。在本實施例中,該緊急應變處理方 法3包括有下列步驟:首先進行步驟30,監控到異常狀況, 並建立一異常通報。如圖四所示,在步驟3〇中,主要分為 下列步驟,首先進行步驟301,戴取工廠現場之工安監測 訊號進入一工安資訊資料庫中。在本步驟中,該工安資訊 資料庫已存有工薇現場佈設之各種感測器名稱與編號,例 如:火災感測器、振動感測器或者是氣體感测器等,但不 以此為限’感測器會即時性的將偵測到的工安監測訊號, 傳至資料庫中儲存。 之後’藉由步驟302將該工安監測訊號與該工安資訊 資料庫的警界值作訊號的解析與比對。在本步驟中,由於 該工安資訊資料庫除了儲存即時之工安監測訊號外,更儲 存有各種感測器之工安標準資訊警界值,凡超出上下管制 警界值者皆為異常的警報。因此,可將儲存之工安監測訊 11 200929026 號與對應的工安標準資訊警界值進行比對,進而可以判斷 現在工廠現場是否有異常發生。如果比較的結果發現達到 警報界線,則進行步驟303,判斷為異常狀況,發出該異 常通報。發出異常通報的方式,一方面可以透過通訊網路 將訊息傳遞到緊急應變中心的一指揮控制系統,並由談指 揮控制系統告知指揮者或現場值班人員。除此之外,也可 以透過擴播的方式發出警報,如:特殊氣體警報、偵煙警報 或者是漏液警報等,但不以此為限,警告工廠現場的所有 ® 人員。之後更可藉由步驟304,將每一次之異常通報進行 分類並建立事件紀錄,以利事後進行事故檢討與災因分析。 再回到圖三所示,在步驟30監控到異常狀況,並建立 一異常通報之後,會進行步驟31,根據該異常通報,判別 出緊急應變事故種類與發生區域。然後,以步驟32根據該 事故種類與發生區域,由一指揮控制系統產生一應變流 程,並提供所需資材資訊。其中所需資材資訊包括有工廠 0 進行圖面、工安所需設備數量與設置位置、物質安全資料 表、北美應變指南或前述之任意組合其中之一。當然,隨 著工廠的性質,該資材資訊會有不同,因此不以前述所述 為限。由於工安事故發生時,隨著緊急情況的嚴重程度, 多少會對於指揮者造成影響。因此,為了避免不同的指揮 者有不同的處置或者是從大量的處置準則中尋找出合適之 處理流程所需消耗大量的時間,在步驟31與步驟32中, 可以自動根據該異常通報判別出事故種類與發生區域,產 生對應之一應變流程,以提供指揮者作處置的依據,減少 人為疏失之可能性。該應變流程包括有應變步驟明細以及 12 200929026 應變時間軸。另外,在步驟32中已經了解事故發生區域, 因此該指揮控制系統可以從該區域中列出所需資材資訊, 以提供指揮者作運用。 接著,進行步驟33,根據圖一之緊急應變人員組織方 法,形成一緊急應變人員編組。有了步驟32與步驟33所 產生之該應變處理流程、該緊急應變人員編組以及該所需 資材資訊,指揮者便可進行步驟34根據該應變流程、該緊 急應變人員編組與該所需資材資訊進行緊急應變處理。 請參閱圖五所示,該圖係為本發明之緊急應變處理系 統實施例示意圖。基於前述之方法所建立之緊急應變處理 系統4包括有:一工安資訊整合模組4 0、一人員確認管理 模組41、一指揮控制系統42以及一資料庫43。其中該資 料庫43係儲存人員身份與合格訓練證照資訊與緊急應變 人員編組等資訊。 該工安資訊整合模組40其係可根據工安監測訊號進行 判斷,以決定是否要產生一異常通報。在本實施例中,該 工安資訊模組40更包括有至少一個警示模組401、一工安 資訊資料庫402以及一判斷單元403。該至少一個警示模 組401,其係分別設置於工廠現場之特定位置,並利用至 少一感測器以監控工廠之狀態以產生一工安監測訊號。該 警示模組401可以為火警偵測模組、煙霧偵測模組、振動 偵測模組、氣體偵測模組、化學漏液偵測模組、地震感測 模組或者是其他配合工廠需求而設置之模組的組合。每一 個模組都由感測器感測現場之狀態,進而產生一工安監測 訊號。該工安資訊資料庫402,其係可儲存設置於工廠現 13 200929026 %之该感測器所產生之§亥工女li測訊號,該工安資气資料 庫402内更存有各種工安標準資訊警界值。 貝’ Ο Ο 該判斷單元403,其係可由該警示模組取得該工安龄測 訊號並與儲存在該工安資訊資料庫對應之工安標準資 界值進行比對,如果發生異常,則產生該異常‘報胃二二 別出緊急應變事故種類與發生區域。此外,該判斷單元4〇3 更可將該異常通報進行分類並建立事件紀錄於該工^資訊 資料庫402内。在本實施例中,該判斷單元4〇3係可二二 電Γ運算裝置,例如:電腦、工作站或者是其他的高階飼 服器等。該電子運算裝置可與該工安資訊資料庫4〇2整合 為^。該判斷單元403内具有緊急事件判斷演算法,以根 據該工安監測訊號,判斷異常是否發生。由於該工安資訊 資料庫402除了儲存即時之工安監測訊號外,更儲存有各 種工安標準資訊警界值,因此,可將儲存之工安監測訊號 與對應的該工安標準資訊警界值進行比較,進而可以判斷 現在工廠現場上疋否有異常發生。如果比較的結果發現達 U超出警界值,則判斷為異常狀況,發出該異常通報。 i庙異本通報的方式’除了透過通訊網路將訊息傳遞至緊 j變中心之該指揮控制系統42之外,也可以透過擴播的 :、如·特殊氣體警報、偵煙警報或者是漏液警報等,但 二=為限警告工廠現場的所有人員。至於判斷之方法 流程如圖四所示。 如圖五與圖六邱:+ ^ A1 . „ V不接下來說明該人員確認管理模組 庫據現場值班人員基本資訊,比對搜尋該資料 庫之人貝身分與合格訓練證照資訊,形成-緊急應變人 200929026 員編組’並儲存於資料庫43中。在本實施例中,該人員確 認管理模組41具有一聯絡單元410以及一比對單元411。 該聯絡單元410,其係可利用通訊方式取得現場值班人員 基本資訊。在本實施例中,該聯絡單元可利用習用技術之 自動撥話之語音通訊設備來實施。該聯絡單元410係取得 所須聯絡之現場值班人員名單以及其相關通訊裝置(手機St. Beauty: In this step, the method of on-site duty personnel can also be included. Finally, go to step 213 and receive the scene. f 本 f ° °# On-site duty personnel receive the contact number. Second: 输入 input basic information by voice or button, such as: person identification number or name. Sales map - the *, in the field of the dancers ^ this information ί search 22, according to the on-site staff on the basis of the basic information than the two personnel identity and qualified training license information. In this step, the main U will be on the spot, the secret identification number or the name, etc., and search for the identity and qualified training license information according to (4) 20 _ in the information material 200929026 • mainly related to the safety training of the work safety or related Information such as work safety certificates, such as: qualifications for first-aid personnel, qualifications for fire-fighting training, etc., and then compare the basic information of on-site duty personnel to confirm the qualifications of on-site duty personnel. Of course, the information on the work safety training in the database or the related work safety certificate must be updated at any time in order to grasp the qualifications of the personnel. Finally, in step 23, according to the comparison result of step 22, an emergency response personnel group is established, for example, a rescue group, a control group, an ambulance group or a support group, and the group 编制 can be adjusted according to the characteristics of the plant and the demand. Finally, the emergency response personnel can be grouped into the database for storage by step 2 4 '. Please refer to FIG. 3, which is a schematic flow chart of an embodiment of the emergency strain processing method of the present invention. In the present embodiment, the emergency strain processing method 3 includes the following steps: First, step 30 is performed to monitor an abnormal condition, and an abnormality notification is established. As shown in Figure 4, in step 3, it is mainly divided into the following steps. First, step 301 is performed, and the industrial safety monitoring signal of the factory site is taken into a work safety information database. In this step, the name of the various sensors and the number of the sensors on the site of the work are stored in the work safety information database, such as fire sensors, vibration sensors or gas sensors, but not For the limit sensor, the detected safety monitoring signal will be transmitted to the database. Then, by step 302, the security monitoring signal and the police value of the work safety information database are used as signals for analysis and comparison. In this step, in addition to the storage of the immediate safety monitoring signals, the work safety information database also stores the standard information security values of various sensors, and all those who exceed the upper and lower control police values are abnormal. alarm. Therefore, it is possible to compare the stored work safety monitoring signal 2009 200926 with the corresponding work safety standard information police value, and then it can be judged whether there is an abnormality at the factory site. If the result of the comparison finds that the alarm boundary is reached, then step 303 is performed to determine that the abnormal condition is issued and the abnormality notification is issued. The method of sending an abnormal notification can be transmitted to the command and control system of the emergency response center through the communication network, and the commander or the on-site duty person can be informed by the talk control system. In addition, alarms can be issued by means of a broadcast, such as a special gas alarm, a smoke detection alarm or a liquid leakage alarm, but not limited to all ® personnel at the factory site. Then, by step 304, each abnormal notification can be classified and an event record can be established to facilitate the accident review and the cause analysis. Returning to Figure 3, after monitoring the abnormal condition in step 30 and establishing an abnormality notification, step 31 is performed to determine the type and occurrence area of the emergency strain accident based on the abnormality notification. Then, in step 32, a strain flow is generated by a command and control system based on the type of the accident and the occurrence area, and the required material information is provided. The required information includes the factory 0 drawing, the number and location of equipment required for safety and safety, the material safety data sheet, the North American strain guide or any combination of the above. Of course, depending on the nature of the factory, the information on the materials will be different and therefore not limited to the foregoing. As a result of an accident, the severity of the emergency will affect the commander. Therefore, in order to avoid different directors having different disposals or a large amount of time required to find a suitable processing flow from a large number of disposal criteria, in steps 31 and 32, an accident can be automatically determined based on the abnormality notification. The type and the occurrence area produce a corresponding strain process to provide the basis for the conductor to dispose and reduce the possibility of human error. The strain process includes a sizing step detail and a 12 200929026 strain time axis. In addition, the incident occurrence area is known in step 32, so the command and control system can list the required material information from the area to provide the commander for use. Next, step 33 is performed to form an emergency response personnel group according to the emergency response personnel organization method of FIG. With the strain processing flow generated in steps 32 and 33, the emergency response personnel grouping, and the required material information, the commander can perform step 34 according to the contingency process, the emergency response personnel grouping, and the required materials information. Perform emergency response treatment. Please refer to FIG. 5, which is a schematic diagram of an embodiment of an emergency strain processing system of the present invention. The emergency strain processing system 4 established based on the foregoing method includes: a work safety information integration module 40, a personnel confirmation management module 41, a command control system 42, and a database 43. The material library 43 is information such as the storage personnel identity and qualified training license information and emergency response personnel grouping. The work safety information integration module 40 can be judged according to the safety monitoring signal to determine whether an abnormal notification is to be generated. In this embodiment, the work safety information module 40 further includes at least one alert module 401, a work safety information database 402, and a determination unit 403. The at least one warning module 401 is disposed at a specific location on the factory site and utilizes at least one sensor to monitor the status of the factory to generate a safety monitoring signal. The warning module 401 can be a fire detection module, a smoke detection module, a vibration detection module, a gas detection module, a chemical leak detection module, a seismic sensing module, or other matching factory requirements. And the combination of the modules set up. Each module senses the state of the site by the sensor, which in turn generates a safety monitoring signal. The work safety information database 402 can store the § haigong female li test signal generated by the sensor which is installed in the factory at 2009 20092626%, and the work safety resource database 402 has various work safety Standard information police value. The judgment unit 403 can obtain the work age measurement signal by the warning module and compare it with the work safety standard value stored in the work safety information database. If an abnormality occurs, This abnormality is generated. The type of emergency accident and the area where the emergency occurred are reported. In addition, the determining unit 4〇3 can further classify the abnormality notification and establish an event record in the work information database 402. In the present embodiment, the judging unit 4〇3 is a two-electrode computing device, such as a computer, a workstation, or other high-end feeder. The electronic computing device can be integrated with the work safety information database 4〇2. The judging unit 403 has an emergency judgment algorithm for determining whether an abnormality has occurred based on the safety monitoring signal. In addition to storing the immediate safety monitoring signals, the Safety Information Database 402 also stores various information security standards. Therefore, the storage safety monitoring signals and the corresponding safety standards can be used. The values are compared, and it can be judged whether there is an abnormality at the factory site. If the result of the comparison is found to exceed the police value, it is judged to be an abnormal condition, and the abnormality notification is issued. i Temple's method of notification is 'in addition to transmitting the message to the command and control system 42 through the communication network, it can also be broadcasted: eg, special gas alarm, smoke alarm or liquid leakage alarm Etc., but two = limit to warn all personnel at the factory site. As for the method of judgment, the process is shown in Figure 4. Figure 5 and Figure 6 Qiu: + ^ A1 . „ V does not explain the personnel to confirm the management module library according to the basic information of the on-duty staff, compare the search for the database and the qualified training license information, form - The emergency responder 200929026 is grouped and stored in the database 43. In this embodiment, the person confirmation management module 41 has a contact unit 410 and a comparison unit 411. The contact unit 410 is capable of utilizing communication. The method obtains basic information of on-site duty personnel. In this embodiment, the contact unit can be implemented by using a voice communication device of an automatic dialing of a conventional technology. The contact unit 410 obtains a list of on-site duty personnel to be contacted and related communications. Device
❹ 或電話)之號碼,以通訊方式與現場值班人員聯絡,以取得 該現場值班人員基本資訊。該比對單元411,其係可根據 該聯絡單元取得之該現場值班人員基本資訊,比對搜尋該 資料庫之該人員身份與合格訓練證照資訊,形成一緊急應 變人員編組,並儲存於該資料庫中43。在本實施例中該人 員確認管理模組41可以利用圖一以及圖二所示之流程取 得之該現場值班人員基本資訊,形成一緊急應變人員編 組,以供緊急事故發生時,人員調度之用。在本實施例中, 该人員確認管理模組41係可建立於一電子運算裝置内,例 如:電腦、工作站或者是具有高速演算能力之伺服器。而 在該電子運算裝置内則設置有該資料庫43。 及資料庫43 ’其係儲存人員身份與合格訓練證照資訊 ^緊急應變人員編組等資訊。此外,資料庫43更記錄有應 =流程與所需資材資訊’其中所需資材資訊係為工廠進行 圖^工安所需設備數量與設置位置、物質安全資料表、 北美應彎指南或前述之任意組合其中之一。 緊4 i 4 1 其係可接收該異常通報並產生一 供一應變流程、所需資材資訊與該 緊急應變人貝編_資訊。請參_七,在 15 200929026 制系純42更具有一應變程序模組420、-廠巴圖 層杈組421、〜處鐵杳、、庵萬饰如 敬區圖 組423。今絲 拉、植422以及一應變指揮模 .43 賴組,,根_異常魏與該資料庫 碎生巴朽> 需設備數置與設置位置繪製出對應事故種類 , ,、知生區域之〜變流程, 貝 步驟明細以及應㈣心」 矛更包括有應變 序模组咖應時圖七與圖八所示,該應變程 之相關人。可緣製所需之該應變流程,以讓指揮者或所屬 ❹關狀^知道應為之應變處理流程。在此模組中除了利 树^構之概念提供使用者能夠快速的組構 針對特定之災害類型可以連結相對應之物質安t 去”北美應變指南。除此之外在每-個執行步驟中使 句可針對執行人數、應變時間、應變明細、使 附件進行組構’特別值得-提的該應變流程編: =與該㈣庫43直接連結’因此所有與器 =下拉式選單方式呈現,-方面避免人員輪二 .❹ 失誤’另-方面讓使用者輸人之資料能夠與工廠 結合。 。 該廠區圖層模組421,其係由該資料庫43中之工 需設備數量與設置位置’結合工廠進行圖面,在該工廠= 仃圖面中顯示該工安所需設備數量與設置位置。在本 例中’該廠區圖層模組421可提供工廠進行圖面與該: 庫43文件互相搜尋之功能,進行特定廠區樓層與特定工— 所需設備類別之查詢與顯示,在此功能中提供所有 = 需設備苓柱位給使用者了解該工安 斤 位置,可快速的由該資料庫43中搜芯===之設置 十出該工文所需設備所 200929026 位於廠區之樓層與柱位;此外,更提供了使用者針對災害 冷、熱區工安所需設備搜尋功能。 該應變資源管理模組422,其係提供該資料庫43中所 有資訊之檢視與報表製作功能,利用該應變資源管理模組 422可以搜尋資料庫43中已經儲存之該緊急應變人員編 組、該應變流程與該所需資材資訊,其中所需資材資訊係 為工廠進行圖面、工安所需設備數量與設置位置、物質安 全資料表、北美應變指南或前述之任意組合其中之一等相 關資訊並產生相關之報表,以供指揮者運用。 該應變指揮模組423,為本發明之緊急應變處理系統4 之核心,主要目的在提供指揮者在真實緊急情況或演練情 況下,提供最適當的所有相關資訊供指揮者瀏覽。應變指 揮模組423其係可根據該應變程序模組420所產生的該應 變流程、廠區圖層模組421結合該資料庫43中之工安所需 設備數量與設置位置的該工廠進行圖面與該應變資源管理 模組422產生之該報表,產生一緊急應變演練腳本以提供 指揮者潮覽並作為指揮判斷之依據。其中,該緊急應變演 練腳本包括相關之該應變流程、該緊急應變人員編組、該 物質安全資料表、該北美應變指南與該工安所需設備數量 與設置位置。 另外,指揮控制系統42更包括一通訊系統45,可主動 呼叫外部支援單位44,例如:消防以及醫療所屬之單位來 輔助支援緊急應變事故。當發生一異常通報造成工安事件 後,該指.揮控制系統42會建立一緊急應變演練腳本並以自 動迸出的方式呈現,在該指揮控制系統42中提供與此次相 17 200929026 關之該應變錄、該緊急應變人員敵、該㈣安 表、該北美應變指南與該工安所需設備數量與設置位置等 資訊’並且在該指揮控制系、统42中會提供支援單 資訊以及依照當時腳本設定之自動撥號魏通; 系統45進行聯繫。 田及通況 ❹ ❹ 惟以上所述者,僅為本發明之實施例,者、 制本發明範圍。即大凡依本發明中請專以之限 變化及修飾’仍將不失本發明之要義所在,之均等 明之精神和_,故錢視為本㈣ H脫離本發 綜合上述,本發明脖之—鮮^步實施狀況。 及其緊急應變處理方法與純,變人員組織方法 二:設備搜尋與救災工具資二指2;資=佈 =確。因此可以滿足業界之需求::二災指令時能 γ力以及帶動週遭產業之發展 該產業之 =申請發明所需具備之要件,故麦依:ίΓ專利法所 謹請*審查委貝允撥時間惠明專利之 為禱。 香現,並賜准專利 18 200929026 【圖式簡單說明】 圖一係為本發明之緊急應變人員組織方法實施例流程示意 圖。 圖二係為本發明取得現場值班人員基本資訊流程示意圖。 圖三係為本發明之緊急應變處理方法實施例流程示意圖。 圖四係為本發明形成緊急通報之流程示意圖。 圖五係為本發明之緊急應變處理系統實施例示意圖。 φ 圖六係為本發明之人員管理確認模組運作示意圖。 圖七係為本發明之指揮控制系統組成示意圖。 圖八係為本發明之應變程序模組所產生之樹狀結構示意 圖。 【主要元件符號說明】 2- 緊急應變人員組織方法 20〜24-步驟 211〜213-步驟 3- 緊急應變處理方法 30〜34_步驟 301〜304-步驟 4- 緊急應變處理系統 40-工安資訊整合模組 401- 警示模組 402- 工安資訊資料庫 19 200929026 ' 403-判斷單元 41-人員確認管理模組 410- 聯絡單元 411- 比對單元 4 2 -指揮控制糸統 420- 應變程序模組 421- 廠區圖層模組 φ 422-應變資源管理模組 423-應變指揮模組 43- 資料庫 44- 外部支援單位 4 5 -通訊系統 20❹ or telephone number, communicate with the on-site duty personnel by means of communication to obtain basic information of the on-site duty officer. The comparison unit 411 can form an emergency response personnel group according to the basic information of the on-the-spot personnel obtained by the contact unit, and compare the identity of the person searching for the database with the qualified training license information, and store the data in the emergency response personnel. 43 in the library. In this embodiment, the personnel confirmation management module 41 can use the basic information of the on-the-spot personnel obtained by the processes shown in FIG. 1 and FIG. 2 to form an emergency response personnel group for emergency dispatching and personnel scheduling. . In this embodiment, the personnel confirmation management module 41 can be built in an electronic computing device, such as a computer, a workstation, or a server with high-speed computing capabilities. The database 43 is provided in the electronic computing device. And the database 43 ''s storage personnel identity and qualified training license information ^ emergency response personnel grouping and other information. In addition, the database 43 records the information of the process and required materials. The required information is the number of equipment and location required for the factory, the material safety data sheet, the North American bend guide or the foregoing. Combine one of them arbitrarily. Tight 4 i 4 1 can receive the anomaly notification and generate a response process, the required materials information and the emergency response. Please refer to _7, in 15 200929026 system pure 42 more than a strain program module 420, - factory Batu layer 杈 group 421, ~ at the shovel, 庵 饰 如 敬 敬 敬 敬 423 423. This silk pull, plant 422 and a strain command module. 43 Lai group, root _ anomalous Wei and the database fragmented> The number of devices required to set the location to map out the corresponding accident type, The variable process, the shell step details and the (four) heart" spears also include the strain sequence module, the time chart shown in Figure 7 and Figure 8, the relevant person of the strain process. This contingency process can be tailored to allow the commander or affiliate to know what should be the process. In this module, in addition to the concept of the tree structure, the user can quickly configure the corresponding material type to link the corresponding material to the North American strain guide. In addition, in each execution step The sentence can be used for the number of executions, the time of response, the details of the response, the attachment of the attachment is particularly worthy of the contingency process: = directly linked to the (four) library 43 'so all the devices = drop-down menu presentation, - In terms of avoiding personnel rounds. 失 Errors 'other-side information that allows users to enter people can be combined with the factory. The plant layer module 421 is composed of the number of work-required equipment in the database 43 combined with the set position The factory carries out the drawing, and displays the number of equipment and setting position required for the safety and safety in the factory = 。 surface. In this example, the factory layer module 421 can provide the factory to map and the library: The function, the specific plant floor and the specific work - the required equipment category query and display, in this function provide all = need equipment column position to the user to understand the work position, can be fast From the database, the search for the core === ten out of the equipment required for the work of the 200929026 located on the floor and column of the plant; in addition, the user is required to search for equipment for disaster cold and hot area The strain resource management module 422 provides a view and report creation function for all the information in the database 43. The strain resource management module 422 can search the emergency personnel group that has been stored in the database 43. The contingency process and the required materials information, wherein the required materials information is related to the factory drawing, the number and location of equipment required for work safety, the material safety data sheet, the North American strain guide, or any combination of the foregoing. The information and related reports are generated for use by the commander. The contingency command module 423 is the core of the emergency strain processing system 4 of the present invention, and the main purpose is to provide the commander with the most appropriate situation in the case of a real emergency or drill. All relevant information is available to the leader. The strain command module 423 can be based on the strain generated by the strain program module 420. The process and plant layer module 421 combines the number of equipment required for the work safety in the database 43 with the set location of the plant and the report generated by the strain resource management module 422 to generate an emergency response script to provide The commander’s view is used as the basis for command and judgment. The emergency response script includes the relevant contingency process, the emergency response personnel group, the material safety data sheet, the North American response guide and the number of equipment required for the work safety. In addition, the command and control system 42 further includes a communication system 45, which can actively call an external support unit 44, for example, a fire-fighting and medical-related unit to assist in supporting an emergency response accident. When an abnormal notification causes a safety incident, The finger control system 42 will establish an emergency response drill script and present it in an automatic manner. The command and control system 42 provides the record record of the phase 17 200929026, the emergency response personnel, the (4) Ann's watch, the North American contingency guide and the information on the number and location of the equipment required for the work safety' The command and control system and system 42 will provide support order information and automatically dial Weitong according to the script set at the time; system 45 will contact. Field and Conditions ❹ 以上 However, the above description is only for the embodiments of the present invention, and the scope of the present invention is made. That is to say, according to the invention, please change and modify the meaning of the invention. It will not lose the essence of the invention, and the spirit of the equal and the _, so the money is regarded as this (four) H from the above-mentioned synthesis, the neck of the invention - Freshly implemented status. And its emergency response processing method and pure and variable personnel organization method 2: equipment search and disaster relief tools, the second finger 2; capital = cloth = indeed. Therefore, it can meet the needs of the industry:: γ 指令 指令 以及 以及 以及 以及 以及 以及 以及 以及 以及 以及 以及 γ γ γ γ γ γ γ γ = = = = = = = = = = = = = = = = = = = = = = = = = Huiming's patent is a prayer. Scented and patented 18 200929026 [Simplified illustration of the drawings] Figure 1 is a schematic flow chart of an embodiment of an emergency response personnel organization method of the present invention. Figure 2 is a schematic diagram of the basic information flow of the on-site duty personnel of the present invention. FIG. 3 is a schematic flow chart of an embodiment of an emergency strain processing method according to the present invention. Figure 4 is a schematic diagram of the process of forming an emergency notification according to the present invention. Figure 5 is a schematic diagram of an embodiment of an emergency strain treatment system of the present invention. φ Figure 6 is a schematic diagram of the operation of the personnel management confirmation module of the present invention. Figure 7 is a schematic diagram of the composition of the command and control system of the present invention. Figure 8 is a schematic diagram of a tree structure produced by the strain program module of the present invention. [Description of main component symbols] 2- Emergency personnel organization method 20 to 24 - Steps 211 to 213 - Step 3 - Emergency strain processing method 30 to 34 - Step 301 to 304 - Step 4 - Emergency strain processing system 40 - Gongan Information Integration module 401 - warning module 402 - Gongan information database 19 200929026 ' 403 - judgment unit 41 - personnel confirmation management module 410 - contact unit 411 - comparison unit 4 2 - command control system 420 - strain program module Group 421 - Plant Layer Module φ 422 - Strain Resource Management Module 423 - Strain Command Module 43 - Database 44 - External Support Unit 4 5 - Communication System 20