五、新型說明: 【新型所屬之技術領域】 種紐品質集巾管理之裝置,尤指提供制在大型的酬場所,如 =可對賣場内部各個區域之空氣品f,經由—内部設有各因應不同 二氣内容物之感知設備所構成的檢測設備,配合—控制電路及一叶算裝置 1執行’而將該採樣空氣集中監控,所得訊息提供監控人㈣以進行防範 【先前技術】 有關於空氣品質對人_影響有著賴_,無論是有她體或是任 可可破壞呼吸道或肌膚的有機物,甚錄減紐等,得是在大型公共場 合,至居家環境或人類活動之封閉室内㈣,必需注重空氣品質的狀態是 否處於安全標準,以維護人體健康。 相關空氣品質的管理,我國環保署也推動了室内空氣品f的訴求,並 要求業者自滩的監控管理’如賣場絲家或麵¥舍,使用者可得自行 ’則擴及整個國度,可廣泛維護國人身體健康,依據環保 署谈至的管職示’進行有管理人Μ的講習訓練及通告機 制’若有問_可提出請⑽极善,但該行政総,尚需核備執行。 =關线品質的監控項目,包含有—氧化碳、二氧化碳、或揮發性物 體、或帽、_及將微粒和臭氧及溫度等,各別要求其體積濃度百萬 分之比例’及落驗的4和單位容積重量比等,因此由於 目檢驗,贱在監控管理方禱投从量人力,且侧設備由== 能達成有錄控。 相關空氣之菌體檢測方式,有我國專利公告第漏55號『過敏原檢測 裝置及方法』,它·光波的檢測以檢測㈣體的密度,若到達—警示值則 啟動抽離裝置,以過渡該區域的空氣。 11'' 、 M379058 類如上述的技術,更有多種用途之檢測設備,檢測若超過該項目的安 全值之後即啟動警示及後置處理工作,如稀釋或除菌等安全維護措施。 相關之技術應用為必需經由採樣後經由光學儀器分析,只能特定對單 一項目作單向檢測,分析之後可得一單項監控數據,但無法符合大型封= 空間之氣體品質的監控要求。 【新型内容】 因此,本創作之主要目的在提供一種氣體品質集中管理之裝置,尤指 •使用於大型的室内封閉空間,可對分割之各區域空間存在的空氣品質,^ 中管理並能作單項監控者。 ~ 本創作之再一目的在提供一種氣體品質集中管理之裝置,係利用一管 理總成,包含有具多項空氣内容物之檢測單元,經由多數歧分之採樣管路, 荒集各麵域的空氣之後進行分析,所得項目參數顯示給監控人員作為龄 控參考。 ‘瓜 本創作之第二目的在提供一種氣體品質集中管理之裝置,係在管理總 成所設檢測單元内部’設有多種項目之感知設備,每一感知設備經由所屬 ,入閥導人空氣,終端由—貞魏置讀空氣驅動,使檢測單元導通採樣 籲官路’其所設感知設備所獲得的資減由—計算裝置計算比對,藉此,得 -從表示裝置提出訊息。 【實施方式】 、本創作之氣體品質集巾管理之裝置,尤指提供在大型活動空間、或學 ,、營=或居豕等房舍室内之每-分祕域所獨自存在之空氣,導入集中 =^、管控操作可對單—區域氣献態做多概質之分析管理,取得數 據將自紐提㈣’峨管理人胃參考及據崎行防範措施。 4 有關本創作之裝置财方式及1作原理之N容,請 首先請參閱第1 m % - . %圖式說月如下: 空間被創^顧^管。理^,輯大型室内 飲枓區、絲用品區等各區域,及如營舍、校舍等社 在空氣内容物超過安全認定值時,裝置會it :動=控人員進行防範措施’或再進-步指定一 對抗,包含有—管理總成1◦◦,對外歧分出有多數具壓力V. New type of description: [New technical field] New type of quality management towel management device, especially for providing large-scale remuneration places, such as = air products in various areas of the store, through - internal In response to the detection device formed by the sensing device of the different contents of the two gases, the control-control circuit and the one-leaf computing device 1 perform 'and the sampling air is centrally monitored, and the obtained message provides the monitoring person (4) for prevention [prior art] Air quality has a lag on people's influence. Whether it is her body or any cocoa that destroys the respiratory tract or the skin's organic matter, it is recorded in large public places, to the home environment or the closed room of human activities (4). It is necessary to pay attention to whether the state of air quality is in a safe standard to maintain human health. Relevant air quality management, China's Environmental Protection Agency has also promoted the demand for indoor air products, and requires operators to monitor and manage from the beach, such as the store's silk home or face, the user can get it's own expansion to the entire country, Extensively safeguarding the health of the Chinese people, according to the management instructions of the EPD, the "Training Training and Notification Mechanism for Managers" is available. If you have a question, you can ask (10) to be very good, but the administrative is still required to be executed. = off-line quality monitoring items, including - carbon monoxide, carbon dioxide, or volatile objects, or caps, and the proportion of particulates and ozone and temperature, each requiring a volume concentration of parts per million 'and the test 4 and the unit volume to weight ratio, etc., so due to the visual inspection, the monitoring management party prayed for the amount of manpower, and the side equipment by == can achieve record control. The detection method of the relevant air bacteria is the "Allergen Detection Device and Method" of China Patent Announcement No. 55. It detects the density of the body (four), and if it reaches the warning value, it starts the extraction device to transition. The air in the area. 11'' and M379058 are the above-mentioned technologies, and there are many kinds of testing equipments for various purposes. If the safety value of the project is exceeded, the warning and post-processing work, such as safety maintenance measures such as dilution or sterilization, are started. The relevant technical application is that it must be analyzed by optical instrument after sampling. Only one-way detection can be performed for a single item. After analysis, a single monitoring data can be obtained, but it cannot meet the monitoring requirements of gas quality of large sealing space. [New content] Therefore, the main purpose of this creation is to provide a device for centralized management of gas quality, especially for large indoor enclosed spaces, which can manage and can be used for the air quality of the divided regions. Single monitor. ~ A further objective of the present invention is to provide a device for centralized management of gas quality, which utilizes a management assembly, which comprises a detection unit having a plurality of air contents, and which is separated by various sampling lines. After the air is analyzed, the obtained project parameters are displayed to the monitoring personnel as a reference for age control. The second purpose of 'Guben's creation is to provide a device for centralized management of gas quality, which is a sensing device with multiple items in the detection unit of the management assembly. Each sensing device is guided by the air. The terminal is driven by the air reading, so that the detecting unit conducts the sampling and appeals the road. The credit reduction obtained by the sensing device is calculated by the computing device, thereby obtaining a message from the indicating device. [Embodiment] The device for managing the gas quality towel of the present invention, in particular, the air provided in the large-scale event space, or in the secret room of the house, such as the school, the camp, or the residence, is introduced. Concentration =^, management and control operations can be used to analyze and manage the single-regional gas supply. The data will be obtained from Niti (4)'s management of the stomach reference and according to the anti-corrosion measures. 4 For the device mode of this creation and the N-capacity of the principle, please refer to the 1 m % - . % schema for the following month: The space is created by ^^^^. Management, the large indoor drinking area, silk supplies area and other areas, and such as camps, school buildings, etc. when the air content exceeds the safety value, the device will: move = control personnel to take preventive measures 'or re-entry - Steps specify a confrontation, including - management assembly 1 ◦◦, there is a lot of pressure on external differences
管路3的工作端,各別處位在室内空間7所區分域理$ 100設有-_部2’以供多數的採鮮路3另—端匯集,_負'=二 串接-檢測設備i而導接匯集部2,則是負壓裝置10工作時,對 【產生負壓力,驅使意圖採樣之區域71的空氣從所屬的採樣管路3川二 檢測设備1,使該採樣氣體接受檢測設備i所檢測。 "L .表有一控制電路4°及一計算裝置4,向外複設有-訊 ^不裝置5或-傳訊裝置6 ’其中訊息表示裝置5及傳訊裝置6,係提供 虽檢測設備1所採集分析空氣内容物,如—氧化碳、 ^ =粒子等,綱安全财值時,得發生提示訊號,提醒管理:=為= 範參考,或為遠端資訊傳達。 其中的控制電路40及計算裝置4,各別為管理總成⑽工作程序 管理,主要在工作時機上由控織路4Q為管理主角,在分析判斷工作 异裝置4為依據’基本上控制電路4G為—操控邏輯電路,它可與計算裝置 4同體。 本創作即為集中管理多數區域71的空氣品質,及多項空氣品質分別檢 測目的’以及分析時間不同,則是利用控制電路4〇辦程控制,它可依昭 管理人員的工作設定,如在每天的卜3點或其他時程,分程啟動檢職備】、 及負顯置10和計算裝置4,以及可單—奴其_之區域7i監管而盆他 不選入的區域7卜則控制其所J的止· 31關閉通路,使狀檢測設備1 的氣體為單-區域7】之來源,其中止逆間31為—電虹作方式,受控於 M379058 控制電路40。 利用管理總成100歧分有多數的採樣管路3,各別導通室内空間7所設 的區域71 ’經由控制電路40的控制,得有選擇單一區域71採樣的操作, 使檢測設備1能完全應對選取的區域71作空氣品質分析,經由計算裝置4 计鼻以得樣品資訊。 又在單一選定的區域71所存在空氣,又有需應對不同物質項目的檢知, 則在檢測設備1的架構上’必須有多項感應及分項分流的設施,有關本創 •作之檢測設備1所構成之方式及原理請配合參照第2圖所示,檢測設備! 一側連接導通匯集部2,匯集部2歧分有多數採樣管路3,採樣管路3各別 探接在所蒐樣的室内空間7,檢測設備1的另一側連接一負壓裝置1〇,負 •壓裝置1〇是負壓工作機具’負壓裝置1〇作為抽離氣體,道路導通後,意 向採樣的區域71所存在空氣’經控制電路40的控制後,則隨從所屬的採 樣管路3進入檢測設備1。 檢測設備1為一多項目檢驗的設備,它必需有多種感應檢知設備建構, 以及流入氣體必須能單獨處於其一單項檢知設備,則是檢測設備1的設置 為由一殼體11 ’内部分設有·一匯入部113及一匯出部114,匯入部113導 通匯集部2,匯出部114導通負壓裝置10,匯入部113與匯出部114之間, 由多數的感知設備111所併合阻隔,每一感知設備ηι各別設有關開通路 之導入閥112,又母一導入閥112為電磁工作方式接受控制電路的分成 •控制。 • 則是意圖管控區域71裡部之其一室内空間7時,則控制電路40控制 所屬的止逆閥31打開及指示負壓裝置10工作,其他的採樣管路3所設的 止逆閥31皆為關閉,於是得到單間區域空氣採樣。 經上述汲入之空氣樣品,又為被選擇為單項檢驗,如一氧化碳檢測, 則僅能進入一氧化碳所屬的感知設備111 ’則該感知設備U1相對所設有導 入閥112即受到控制電路40的操作而開啟’(其他項目的導入閥112為關 閉)’採裸入之空氣則僅能導進於上述一氧化碳的感知設備111接受檢驗, 該感知設備111所得的數據則交由計算裝置4判斷,計算裝置4並提示出 資訊顯示,儲存、或交由訊息表不裝置5或傳訊裝置6作後續訊息通告。 6 M379058 在匯集部2相關多數採樣管路3的入口位置 樣管路3入口端,止封閱21,該止封㈣同為電磁工作;式 土逆閥31 一者皆叉控制電路4〇操作關閉的情況下, 1❻的工作壓力大小狀態’而使採樣管路3的内部殘存由 的壓力’-般以空氣結構料負壓的情況下, 斤〜響 及=除卻,因此該採樣管路3在工作時間外可維持‘的=明== =控1的採樣邱,該止封閥21相同受到控制電㈣ 本裝置之檢測設備1受到人為設定意圖採向所選單一室内 程初始,首先啟動負壓裝置10,並關連導通檢測設備i = 設備⑴及關連的採樣管路3,其中㈣電㈣會指令負 == 作’而計算裝置4的工作時間為延遲於負壓裝置1Q,且其延遲時間 巧包含官路_先獲前:域留之空氣容積,可奸排除,後軌入二才 是室内空間7裡部現場即時的空氣’則檢測設備工 之氣體進行分析》 田τ貝%狀態 上述本創狀裝置,為猶基核構需求,*她觀路4q及計 置4的設置上’為由可程式積體電路安排,或依賴操作軟體介人,則可^ 列出多種卫作狀態和時機,在計算裝置4為許可下,控制電㈣可同步開 啟-似上的導入閥m ’使採樣找同時導入不同的感知設備m,以同 步分析空氣中不__容物,如畔分析—氧化碳及祕粒子粒握大小 =種Γ,或物理性差異性較大的項目同步檢測,如同步檢測空氣溫度 $喊粒粒徑大小者,其中操作軟體為—般資訊工程,於此請容不再予 其中負壓裝置ίο的單位工作量也會影響檢測工作,則是同邊控 40的控制,可得流量控制。 本創作之裝置基本建構要求有控制電路4Q及計算裝置4,和多項 知之檢測設備1,經多數採樣管路3分區採樣而得空氣品質集中管理, 時可經由訊息表示裝置5及傳訊裝置6的執行,_異常通知_提顿 果。 7 M379058 有關感知設備111的項目區分,它有多項氣體内容物的檢知作用 不同項目有著不_應對設置’如二氧化碳含量濃度之測試分析 二 之檢測設備丨,其卜感知設備m必須備置麵對的檢測裝置,如= 散性的紅外線光波介入檢視之設置,則選定其中 户刀 〜欵知扠備111為對庫 二氧化碳,設有一紅外線光源,作用在一光學室,通過_偵測器(曰7 取得由紅外線光波通過光學室’被光學室内部干_前後波奴變=The working end of the pipeline 3 is located in the indoor space 7 and the domain is divided into $100 with -_part 2' for most of the fresh roads 3 other end collection, _ negative '= two series connection-detection equipment i is connected to the collecting portion 2, when the negative pressure device 10 is in operation, [negative pressure is generated to drive the air of the region 71 intended to be sampled from the sampling line 3 of the associated sampling device 3, so that the sampling gas is received Detected by device i. "L. Table has a control circuit 4 ° and a computing device 4, outwardly set - the communication device 5 or - communication device 6 'where the message display device 5 and the communication device 6, is provided with the detection device 1 Collect and analyze air contents, such as - carbon oxide, ^ = particles, etc., when the safety value, you must generate a reminder signal, remind management: = = = norm, or for remote information. The control circuit 40 and the computing device 4 are respectively managed by the management assembly (10), mainly by the control weaving road 4Q as the management protagonist at the working timing, and in the analysis and judging the working dissimilar device 4 is based on the 'basic control circuit 4G It is a control logic circuit that can be identical to the computing device 4. This creation is to centrally manage the air quality of most areas 71, and the multiple air quality detection purposes and the analysis time are different, it is to use the control circuit 4 〇 process control, it can be set according to the work of the management staff, such as daily 3 points or other time schedules, start the inspection of the divisions, and the negative display 10 and the computing device 4, as well as the area 7i that can be controlled by the area - the area that is not selected by the basin 7 The stop 31 of the J is closed, and the gas of the detecting device 1 is the source of the single-region 7], wherein the anti-reverse chamber 31 is an electric rainbow mode controlled by the M379058 control circuit 40. With the majority of the sampling lines 3 of the management assembly 100, the area 71' provided by the respective conduction indoor spaces 7 is controlled by the control circuit 40, and the operation of selecting the sampling of the single area 71 is performed, so that the detecting device 1 can be completely completed. The selected area 71 should be analyzed for air quality, and the sample information is calculated via the computing device 4. In addition, in the presence of air in a single selected area 71, there is also a need to cope with the detection of different substance items. On the structure of the detecting device 1, there must be a plurality of sensing and sub-divisional facilities, and the testing equipment of the present invention. For the method and principle of the 1st configuration, please refer to the inspection equipment shown in Figure 2! One side is connected to the conduction collecting part 2, and the collecting part 2 is divided into a plurality of sampling lines 3, the sampling lines 3 are respectively connected to the indoor space 7 of the sample, and the other side of the detecting device 1 is connected with a negative pressure device 1 〇, the negative pressure device 1〇 is the negative pressure working tool 'negative pressure device 1〇 as the extracted gas, after the road is turned on, the air present in the intentionally sampled area 71 is controlled by the control circuit 40, then the sampling is followed. The line 3 enters the detection device 1. The detecting device 1 is a multi-item inspection device, which must have a plurality of inductive detecting device constructions, and the inflowing gas must be able to be separately in its single item detecting device, and the detecting device 1 is set to be inside a casing 11' A portion of the inlet portion 113 and a outlet portion 114 are provided. The inlet portion 113 is connected to the collection portion 2, and the outlet portion 114 is connected to the negative pressure device 10, and between the inlet portion 113 and the outlet portion 114. The sensing device 111 is combined and blocked, and each sensing device η1 is provided with an introduction valve 112 for closing the passage, and the mother-introducing valve 112 is divided into and controlled by the electromagnetic working mode. • When it is intended to control one of the indoor spaces 7 in the inner portion of the control area 71, the control circuit 40 controls the associated check valve 31 to open and instruct the operation of the negative pressure device 10, and the check valves 31 provided in the other sampling lines 3 are provided. All are closed, so a single area air sampling is obtained. The air sample that has been invaded by the above is again selected as a single test, such as carbon monoxide detection, and can only enter the sensing device 111 to which the carbon monoxide belongs. Then the sensing device U1 is operated by the control circuit 40 with respect to the introduction of the introduction valve 112. And the opening '(the introduction valve 112 of other items is closed)' the air that is taken into the air can only be inspected by the sensing device 111 of the above-mentioned carbon monoxide, and the data obtained by the sensing device 111 is judged by the computing device 4, and the calculation is performed. The device 4 prompts the information display, stores, or delivers the message table 5 or the communication device 6 for subsequent message announcement. 6 M379058 In the collection part 2, the inlet position of the majority sampling line 3 is the inlet end of the sample line 3, and the sealing is sealed. The sealing (4) is the same as the electromagnetic operation; the type earth counter valve 31 is the fork control circuit. In the case of closing, the working pressure level state of 1 ' and the residual pressure of the inside of the sampling line 3 are generally reduced by the air structure material, and the sampling line 3 is removed. Outside the working time, the sampling of the =====control 1 can be maintained, and the sealing valve 21 is controlled by the same power. (4) The detecting device 1 of the device is artificially set to the initial single indoor process, and is started first. The negative pressure device 10 is connected to the conduction detecting device i = the device (1) and the associated sampling line 3, wherein (4) the electric (4) will command negative == ' and the operating time of the computing device 4 is delayed by the negative pressure device 1Q, and Delay time coincides with the official road _ first before: the air volume left in the domain, can be raped and excluded, the rear rail into the second is the indoor space 7 inside the scene of the instantaneous air 'the analysis of the gas of the equipment for analysis" Tian Taubei% The above-mentioned creased device Demand, * her view of the road 4q and the set of 4 on the 'scheduled by the programmable circuit, or rely on the operation of the software, you can ^ list a variety of security status and timing, under the permission of the computing device 4 The control electric (4) can be synchronously turned on - similar to the introduction of the valve m ' so that the sampling can be simultaneously imported into different sensing devices m to simultaneously analyze the air in the __ contents, such as the analysis - carbon oxide and secret particle size = Kinds of cockroaches, or items with large physical differences, such as synchronous detection of air temperature $ shouting particle size, where the operating software is general information engineering, please do not give the negative pressure device ίο The unit workload will also affect the inspection work, which is the control of the same side control 40, and the flow control can be obtained. The basic construction of the device of the present invention requires a control circuit 4Q and a computing device 4, and a plurality of known detection devices 1, which are centrally sampled by a plurality of sampling pipelines 3 to obtain centralized management of air quality, and can be represented by the message display device 5 and the communication device 6 Execution, _ exception notification _ Teton fruit. 7 M379058 The project classification of the sensing device 111, which has a plurality of detection functions of gas contents, different items have different detection devices such as the test analysis of the carbon dioxide concentration concentration, and the sensing device m must be prepared to face The detection device, such as the setting of the scattered infrared light wave intervention inspection, selects the knives ~ 欵 叉 叉 111 111 for the library carbon dioxide, with an infrared light source, acting in an optical chamber, through the _ detector (曰7 Acquired by infrared light waves passing through the optical chamber 'by being dried inside the optical chamber _ before and after the wave slave =
息,再交由計算裝置4處理光電轉換及比對健,依此設置而得化= 之濃度判斷,則該感知設備111必須設有一光學腔室(圖上未示),* 灭 光源、偵測晶片、光學腔室前後經所屬的導入閥112決定導通1匯入 及匯出部114,進一步導接所求區域71的採樣管路3及負壓裝置1〇二得一 申連通路,所分析數據由計算裝置4判斷後從訊息表示裝置/及傳訊裳^ 達成進一步通告之執行。 、 在裝置接受人員設定啟動後,控制電路4〇則依指示規則而在設定之時 機,選擇單一區域71,及單一或同步檢測不同空氣内容物項目而單—戍同 步開啟所屬項目之感知設備lu所設之導入閥112,藉負壓裝置ι〇產生汲 引動力而選擇其一區域71的空氣採樣為分析對象。And the information is processed by the computing device 4 to process the photoelectric conversion and the comparison, and the sensing device 111 must be provided with an optical chamber (not shown), * extinguishing the light source, detecting The measuring wafer and the optical chamber are controlled by the associated inlet valve 112 to determine the conduction 1 inlet and outlet portion 114, and furtherly connect the sampling line 3 of the desired region 71 and the negative pressure device 1 to obtain a connection path. The analysis data is judged by the computing device 4 and then executed from the message presentation device/and the communication device. After the device acceptor setting is started, the control circuit 4 selects a single area 71 at the set timing according to the instruction rule, and detects the different air content items singly or synchronously, and simultaneously turns on the sensing device of the project by the same time. The introduction valve 112 is provided, and the air sampling of the region 71 is selected by the negative pressure device to generate the stimuli.
經由控制電路40的控制,複可實施一塊以上的區域71經匯集部2的 5作用在單項的感知設備lu,或二項的感知設備⑴進行多區同步單項 空氣内容物或多項内容物的同步分析,於是控制電路40的設定可依實際要 ,,設定出適合的工作間竭時段多區域,或多項内容物之交錯或同步^測 操作,其設定循求程式寫入所得。 凊再配合參閱第3圖所示,依據本創作之裝置’得實施方法如下說明, 首先將室内空間7預先分割出多數的區域71之後,進行管路佈局81作業, 該作業順從如第1圖之關係安排,經由管理總成1〇〇所設的負壓裝置10進 行負壓力驅動,控制電路4G則控制採樣管路3所設的止逆閥31而進行採 樣作業82的作業,該作業為利用負壓裝置1〇的工作使意向採擷的區域71 =存在空氣導入管理總成1〇〇所設的檢測設備丨,檢測設備丨獲得樣品即進 '亍檢測作業83作業’測得數據則交由計算裝置4判斷並發生訊息提示84 的操作’以得本創作基本卫作目的。 8 MJ/9058 上述的採樣作業82,過程中先由控制電路4〇選定意向之區域71,及 選定檢測設備1㈣之獨械知設備U1,制雜作誠知設備1U所屬 的導入閥112’使採樣管路3汲人之空氣得流繼測設備丨_知設備lu, 並從負壓裝置10釋出,其巾採樣階紐完成,顺制電路4Q反向操作止 逆間31 ’使之關Μ,甚至匯集部2所設的止封㈤21,該採樣管路3内部處 於負壓狀態。 又控制電路40對止逆閥31、負壓裝置1〇或導入閥112或計算裝置4, 甚至感知設備111之獅選擇嶋料序,獅使帛者建人程式使可達成。 。另有多種内容物的檢測設置應對需求者,有一氧化碳,相同於二氧化 碳的基礎&置有紅外線錢、光學室、侧晶#,差別是需設有過遽相同 吸收能力物質之祕,如過雜浮粒子,水氣分子等,以濾過出一氧化碳 使之集體進人光學室接受檢視,彻-氧化碳具吸收紅外線光的特性及所 發生之紅外絲密纽變差異值,而依據峨為-氧化碳體積濃度含量, 其判斷相同由計算裝置4工作。 另有如臭氧的含量比檢知,則藉由臭氧對紫外線光波吸收的特性而在 所屬感知叹備111備置有紫外線光源、光學室、細晶片等,建立在所屬 之感知設備11卜誠知設備lu縣單獨魏之感知設備ηΐβ 、另有W類物質,則需透财氣檢體錢後H液減析設備, 輔以試劑等機具’經Φ光n統取得屬析喊面積絲為航比之判斷, 此,置係屬較繁雜,唯經由控制電路4Q的控制,加上自動化機具備操作, 同可達成自動化檢驗裝置,所得訊號同整合由計算裝置4判斷,或再經訊 息表示裝置5及傳訊裝置6的執行而達成通告。 ,本創作之實施’應用了管理總成1〇〇歧分多數具耐壓的採樣管路3,分 別伸探至不同的區域71 ’受控制電路40控制經負壓裝置1㈣負載導引意 圖檢測的區域Π内部存在的空氣品質,集中在管理總成剛所設的檢測設 備1作檢測,檢測設備i又受控制電路4〇的控制可選擇檢測空氣内容物之 項目所得各種訊息經計算裝置4計算後得紀錄,並從訊息表示裝置5出 L ^由傳訊裝置6達成遠端通告,得應用本創作之裝置,可達成對各區 氣質自動控手·^又,且得提示及遠端通告,或反向遠端操控之性質, 9 M379058 得到全面具體的空氣品質利便有效管控,為目前相關設備革新創作懇請貴 審查官明鑑,並請指示及早日完成審核為禱。 【圖式簡單說明】 第1圖係為本創作裝置圖。 第2圖係為本創作檢測設備導流控制結構圖。 第3圖係為本創作檢測流程圖。 【主要元件符號說明】 10 :負壓裝置 111 :感知設備 114 :匯出部 3:採樣管路 40 :控制電路 7:室内空間 82 :採樣作業 I :檢測設備 II :殼體 113 :匯入部 21 :止封閥 4:計算裝置 6:傳訊裝置 81 :管路佈局 φ 84 :訊息提示 100 :管理總成 112 :導入閥 2 :匯集部 31 :止逆閥 5:訊息表示裝置 71 :區域 83 :檢測作業Through the control of the control circuit 40, more than one area 71 can be implemented to act on the single sensing device lu via the aggregation unit 2, or the two sensing devices (1) can synchronize the multi-zone synchronized single air content or multiple contents. After the analysis, the setting of the control circuit 40 can be set according to the actual situation, and the appropriate working time period multi-region, or the interleaving or synchronization operation of a plurality of contents is set, and the setting program is written. Referring to Fig. 3, the method for implementing the apparatus according to the present invention will be described as follows. First, after the indoor space 7 is divided into a plurality of areas 71 in advance, the pipe layout 81 is performed, and the operation is as shown in Fig. 1. The relationship arrangement is driven by the negative pressure device 10 provided in the management assembly 1 and the control circuit 4G controls the check valve 31 provided in the sampling line 3 to perform the sampling operation 82. The operation of the negative pressure device 1〇 enables the intentional picking area 71=the detection device set by the air introduction management assembly 1〇〇, and the detecting device 丨 obtains the sample and enters the '亍detecting operation 83 operation' to measure the data. The operation of the message prompt 84 is judged by the computing device 4 to achieve the basic security purpose of the present creation. 8 MJ/9058 The sampling operation 82 described above, in the process, the control unit 4 selects the intent area 71 first, and the unique detection device U1 of the selected detection device 1 (4), and the introduction valve 112' to which the device 1U belongs is known. Sampling pipeline 3 汲 之 空气 继 继 继 继 继 继 继 继 继 继 继 知 知 知 知 知 知 知 知 知 知 知 知 知 知 知 知 知 知 知 知 知 知 知 知 知 知 知 知 知 知 知 知 知Μ, even the seal (5) 21 provided in the collecting portion 2, the inside of the sampling line 3 is in a negative pressure state. In turn, the control circuit 40 selects the strobe selection valve 31, the negative pressure device 1 or the introduction valve 112 or the computing device 4, and even the lion device of the sensing device 111. . There are also a variety of content testing settings to meet the demand, carbon monoxide, the same as the carbon dioxide base & with infrared money, optical room, side crystal #, the difference is the need to have the same absorption capacity of the substance, such as The floating particles, the water and gas molecules, etc., filter out the carbon monoxide and make it collectively enter the optical chamber for inspection. The characteristics of the osmotic carbon absorbing infrared light and the difference of the infrared ray density change occur, and according to the 峨- The carbon oxide volume concentration content, which is judged to be the same, is operated by the computing device 4. In addition, if the content ratio of ozone is detected, the ultraviolet light source, the optical chamber, the thin wafer, and the like are provided in the sensation sigh 111 by the characteristic of the absorption of ultraviolet light by the ozone, and the sensing device 11 is established. County separate Wei's sensory equipment ηΐβ, and other W-class substances, it is necessary to pass through the gas and check the money after the H liquid depreciation equipment, supplemented by reagents and other tools 'according to the Φ light n system to obtain the area of the shouting area for the air ratio Judging, this is more complicated, only through the control of the control circuit 4Q, plus the automatic machine has the operation, the automatic verification device can be reached, the obtained signal is integrated with the calculation device 4, or the message display device 5 An announcement is made by the execution of the communication device 6. The implementation of this creation 'applies to the management assembly 1 〇〇 differential majority of the pressure-resistant sampling pipeline 3, respectively, to different areas 71 'controlled by the control circuit 40 through the negative pressure device 1 (four) load guidance intention detection The air quality existing in the area 集中 is concentrated on the detection device 1 set up by the management assembly for detection, and the detection device i is controlled by the control circuit 4〇 to select various information obtained by the item for detecting the air content through the calculation device 4 After the calculation, the record is obtained, and the remote notification is obtained from the message display device 5, and the remote notification is obtained by the communication device 6. The device of the present application can be applied to achieve the automatic control of the temperament of each region, and the prompt and the remote notification are obtained. , or the nature of reverse remote control, 9 M379058 is fully controlled by the specific air quality. For the current related equipment innovation, please ask your reviewer, and please instruct and complete the audit as soon as possible. [Simple description of the diagram] Figure 1 is a diagram of the creation device. The second figure is the structure diagram of the flow control of the creation detection device. The third picture is the flow chart of the creation detection. [Description of main component symbols] 10: Negative pressure device 111: Sensing device 114: Remittance portion 3: Sampling line 40: Control circuit 7: Indoor space 82: Sampling operation I: Detection device II: Housing 113: Importing portion 21: Stop valve 4: Calculation device 6: Communication device 81: Pipe layout φ 84: Message prompt 100: Management assembly 112: Introduction valve 2: Collection portion 31: Check valve 5: Message display device 71: Area 83 : Inspection work