M435600 五、新型說明: 【新型所屬之技術領域】 本創作係關於一種網路監控技術,詳而言之,係關於 一種藉由網際網路監控室内空氣品質之監控系統。 【先前技術】 隨著人類在室内的時間越長,室内空氣品質(Indoor Air Quality ;簡稱IAQ)便越加重要。根據統計顯示,國 人一天有將近80%至90%的時間待在室内,包括辦公室、營 業商場或住家等,這些室内空間的空氣品質深深影響著人 類生活和健康。 例如,當室内的二氧化碳濃度過高時會導致頭痛、嗜 睡、反射減退、倦怠等症狀;當室内懸浮微粒過多時會引 發呼吸道相關疾病及心臟血管疾病等。此外,室内的油煙、 二手煙、灰塵或曱醛等可能刺激皮膚、眼睛、鼻子或咽喉, 室外之交通運輸或工商活動所產生的空氣污染物亦會進入 室内,因而污染物容易蓄積進而導致室内空氣品質惡化。 因此,室内空氣污染物對人體健康影響應當受到重視,有 效改善室内空氣品質,方能維護人體健康。 目前市面上提供的氣體偵測機制皆以攜帶式偵測設 備為主,尚未有能完整監控室内空氣品質的機制,導致如 需在室内環境中偵測多種氣體時需攜帶多種氣體偵測設 備,相當不便、無法及時監控且消耗不少人力資源。 【新型内容】 本創作之一目的在於提供一種室内空氣品質監控系 M435600 統,得以偵測室内空氣品質並控制相關空調設備。 本創作之另一目的在於提供一種室内空氣品質監控 系統,係較為便利、可及時監控且省力省時。 於一實施例中,本創作之室内空氣品質監控系統,係 包括:用以偵測室内空氣品質以取得氣體偵測資料之感應 設備、藉由網際網路接收該氣體偵測資料以儲存該氣體偵 測資料之服務平台、以及連接該感應設備及藉由該網際網 路連接該服務平台之伺服器,其中,該伺服器將該感應設 胃備所取得之氣體偵測資料儲存於該伺服器後,藉由該網際 網路傳送該氣體偵測資料至該服務平台,俾供該服務平台 分析該氣體偵測資料。 於另一實施例中,本創作之室内空氣品質監控系統, 係包括:空調設備及控制該空調設備之控制器、用以偵測 室内空氣品質以取得氣體偵測資料之感應設備、連接該控 制器和感應設備之伺服器、具有標準氣體資料並透過網際 籲網路連接該伺服器之服務平台,其中,該感應設備將該氣 體偵測資料傳送至該伺服器儲存,而該伺服器將儲存於其 中的氣體偵測資料傳送至該服務平台以供該服務平台進一 步分析該氣體偵測資料。此外,該服務平台透過該網際網 路將該標準氣體資料儲存至該伺服器,則該伺服器將該標 準氣體資料傳送至該控制器以供該控制器根據該標準氣體 資料或氣體偵測資料來控制該空調設備。 於又一實施例中,本創造之室内空氣品質監控系統, 係包括:用以偵測室内空氣品質以取得氣體偵測資料之感 5 M435600 應設備、控制第一組空調設備並連接該感應設備之第一控 制器、控制第二組空調設備並串接於該第一控制器之第二 控制器、具有標準氣體資料以透過網際網路傳送該標準氣 體資料至該第一控制器和與該第一控制器串接之該第二控 制器及接收該氣體感測資料以儲存該氣體感測資料之服務 平台、以及連接該第一控制器以藉由該網際網路連接該服 務平台之伺服器,其中,該伺服器將自該服務平台所傳送 之標準氣體資料儲存以傳送標準氣體資料至該第一控制器 和該第二控制器,俾供該第一控制器和該第二控制器根據 該標準氣體資料控制該第一組空調設備和該第二組空調設 備,且該伺服器將該感應設備所取得之氣體偵測資料儲存 以傳送該氣體偵測資料至該服務平台,俾供該服務平台分 析該氣體偵測資料。 此外,本創作之室内空氣品質監控系統還可包括用以 顯示該氣體偵測資料之顯示設備,其係連接至該伺服器或 連接至該服務平台。 再者,服務平台復可包括:異常條件輸入模組,係用 以供使用者輸入異常條件;及告警模組,係用以於該氣體 偵測資料符合該異常條件時發出告警訊息。 相較於先前技術,本創作之室内空氣品質監控系統係 應用於一室内環境中,其可測得該室内環境中各種氣體的 氣體偵測資料藉以分析該些氣體偵測資料,更可根據該些 氣體偵測資料或前述之標準氣體資料來控制相關的空調設 備,以維持良好的室内空氣品質。 M435600 【實施方式】 以下藉由特定的實施例說明本創作之技術手段與内 容,所屬技術領域中具有通常知識者及熟習此技藝^人 士,皆可由本說明書所揭示之内容輕易地了解本創作之其 他優點與功效。 須說明的是,本說明書所附圖式所繪示之内容,均僅 用以配合說明書所揭示之内容,以供熟悉此技藝之人士之 修瞭解與閱讀,並非用以限定本創作可實施之限定條件,故 不具技術上之實質意義,任何圖式内容之修飾、改變或調 整,在不影響本創作所能產生之功效及所能達成之目的 下,均應仍落在本創作所揭示之技術内容得能涵蓋之範圍 内。同時,本說明書中所引用之如Γ第一」、「第二」、「第 一組」、「第二組」或「複數」等用語,亦僅為便於敘述之 明瞭,而非用以限定本創作可實施之範圍,其相對關係之 改變或調整,在無實質變更技術内容下,當亦視為本創作 籲可實施之範疇。 第一實施例 請參閱第1圖,本創作之室内空氣品質監控系統包括 本地端之感應設備1卜伺服器14以及遠端之服務平台16。 感應設備11用以偵測室内空氣品質以取得氣體偵測 負料,並將所测得之氣體偵測資料,例如溫度、濕度、一 氧化碳债測資料、二氧化碳偵測資料、甲酿偵測資料、臭 氧偵測資料、細菌偵測資料或懸浮微粒偵測資料等,傳送 於飼服器14 t以儲存該氣體制資料。需說明的是,感應 7 M435600 設備的種類和數量取決於所需偵測的空氣品質項目,並非 受第1圖所限制。 其次,伺服器14和服務平台16係通過網際網路15 相互連接,服務平台16具有標準氣體資料,例如可為預先 儲存之經政府公告的各種標準氣體資料。此外,伺服器14 可接收並儲存感應設備11所測得之氣體偵測資料,更藉由 網際網路15將所儲存之該氣體偵測資料傳送至服務平台 16以供執行進一步的分析,例如將該氣體偵測資料與該標 準氣體資料作比對,分析不同時段、區域的空氣品質狀態。 此外,於本實施例中,本創作之室内空氣品質監控系 統還可包括用以顯示該氣體偵測資料之顯示設備(此圖未 顯示),其係連接至伺服器14以顯示伺服器14所接收之該 氣體偵測資料,或透過網際網路15連接至服務平台16以 顯示服務平台16所接收之該氣體偵測資料。需說明的是, 一個伺服器14可連接多個感應設備11,而伺服器14的配 置可依據所需監測的室内空間數量而調整。 由第1圖所顯示之第一實施例可知,感應設備11能 將所測得之室内氣體偵測資料透過伺服器14而傳送至遠 端,亦即網際網路15另一端之服務平台16,故可收集室 内空氣品質資料並詳細分析之,且伺服器14得被視為氣體 偵測資料的儲存裝置,或視為氣體偵測資料的傳送樞紐, 故於網際網路15中斷時伺服器14仍可儲存氣體偵測資 料,進而當網際網路15恢復時再將氣體偵測資料傳送至服 務平台16。 M435600 第二實施例 請參閱第2A和2B圖,承前所述,本創作之室内空氣 品質監控系統還包括本地端之空調設備12及控制空調設 備12之控制器13。控制器13可透過無線網路或有線網路 連接伺服器14與空調設備12,以接收來自服務平台16儲 存於伺服器14中之標準氣體資料,從而根據該標準氣體資 料控制空調設備12。於本實施例中,遠端之服務平台16 可包括多個模組,例如登入模組161、查詢模組16 2、排程 鲁模組163、分析模組164、異常條件輸入模組165及告警模 組 166。 登入模組161用以供使用者18輸入帳號及密碼以登 入該服務平台16。 查詢模組162用以供使用者18查詢各時段或室内的 各區域之氣體偵測資料,例如可查詢某一棟大樓某一層樓 的其中之一辦公室於某一天下午的室内二氧化碳濃度。 φ 分析模組164用以針對所儲存之該氣體偵測資料,依 照使用者18所指定時段、區域或空調設備進行分析,例如 可分析當月某一楝大樓某一層樓的其中之一辦公室的懸浮 微粒濃度。 排程模組163用以對空調設備12或感應設備11進行 排程管理設定,例如設定上班曰,即星期一至星期五每曰 上午八點固定開啟排風扇,若遇放假日_或臨時停班的通知 則備註不開啟排風扇。 異常條件輸入模組165係用以供使用者18輸入異常 9 M435600 條件,例如輸入二氧化碳濃度的設定值,亦即,當室内空 氣中二氧化碳濃度達到該設定值時視為異常。 告警模組166係用以於該氣體偵測資料符合該異常條 件時發出告警訊息,可用電子郵件或簡訊等方式通知使用 者18。 此外,用以顯示該氣體偵測資料之顯示設備Π係連 接至伺服器14,以顯示伺服器14所接收之該氣體偵測資 料,如第2B圖所示,或透過網際網路15連接至服務平台 16以顯示服務平台16所接收之該氣體偵測資料。 藉此,本創作之室内空氣品質監控系統可藉由本地端 之感應設備11、空調設備12、控制器13、伺服器14以及 通過網際網路15連接遠端之服務平台16,得以監控室内 空氣品質,並當室内的空氣出現異常時,控制器13接收到 服務平台16的告警訊息以令空調設備12進行抽風或排氣 等動作。另一方面,服務平台16更可針對所接收到的氣體 偵測資料,如一氧化碳、二氧化碳濃度等資料,進行彙整 分析。 第三實施例 請參閱第3圖,本創作之室内空氣品質監控系統可包 括本地端之感應設備21、第一組空調設備221、第二組空 調設備222、連接第一組空調設備221和感應設備21之第 一控制器231、連接第二組空調設備222並串接第一控制 器231之第二控制器232、連接第一控制器231之伺服器 24、以及藉由網際網路25連接伺服器24之遠端之服務平 M435600 第3圖所示之第三實施例與第2A圖所示之第二實施 例相同的是,遠端之服務平舍係藉由網際網路連接本地端 之伺服器;不同的是,於第多實施例中之苐一控制器2 31 和第二控制器232可彼此串换’且第一控制器231和第二 控制器2 3 2分別控制第·一組突調设備2 21和苐二組空調設 備222,且其令,感應設備2丨係連接第一控制器231以將 所取得之氣體偵測資料藉由第一控制器231而儲存於伺服 籲器24中。具體實施時,第一解空調設備221可為分離式冷 氣的室内機,第二組空調設谈222可為分離式冷氣的室外 機’藉此以獨立的控制器來搾制各種空調設備。 另外,第二實施例中所揭露之服務平台16的多個模 組及顯示設備17亦可應用於·本實施例中。其次’於本實施 例之其他變化中,感應設備2丨亦可連接至第二控制器232 或伺服器24,且並不限制第一控制器231、第二控制器 φ 232、第一組空調設備221、第二組空調設備232以及感應 設備21之數量。 第四實施例 請參閱第4圖,本創作厶室内空氣品質監控系統係綜 合上述第1圖所示之第一實施例、第2A圖所示之第二實施 例以及第3圖所示之第三實施例,亦即,遠端之服務平台 36措由網際網路35而連接本地端’而本地端可為子系統 A、B、C或其所組成之任何群組。詳言之,於子系統a中, 感應設備31a將所測得之氣體偵測資料儲存於伺服器34a 11 M435600 中,而伺服器34a再將該氣體偵測資料傳送至服務平台 36。於子系、统B中,相較於子系以多了控制器咖和: 調設備32b ’係以服務平台36可將標準氣體資料儲存於伺 服器34b中以作為控制器33b的依據來控制空調設備 32b。於子系統C中,相較於子系統B,第—控制器 和第二控制益332c分別控制第一組空調設備32ic和第二 組空調設備322c。具體實施時,子系統A、B、c可為不^ 大樓或同一楝大樓的不同區域,則伺服器34a、3扑戈3牝 作為資料(標準氣體資料或氣體偵測資料)的傳送樞2。 c 綜上所述,本創作之空氣品質監控系統可例如ς用於 兩類場所,第-類場所為對室内空氣品質有特㈣求者, 包括學校及教育場所、兒童遊樂場所、醫療場所、 、 殘障照護場所等;第二類場所指一般大眾聚二公 或辦公大樓,包括營業商場、交易市場、展覽場所二穷八 大樓、地下街、大幕運輪卫具及車站等室内場二。藉= 於本地端之健器、控制器、感應設備和空調設備二二 ^遠端之服務平台,以轉良好的㈣,= 為便利、可及時監控且省力省時地提供〜種得以偵 空氣品質並控制相關空調設備之室内空氣品質監控系統。 上述各實施例僅例示性說明本創作之原理^點及功 效’並非用以限制本創作之可實施範_。任何熟習此^ 藝之人士均可在不這背本創作之精神及範嘴卞,對上^ 施例進行修飾與改變,而任何運用本創作所揭示上,實 完成之等效改變及修飾,均仍應為下述之申嗜^利範 12 M435600 涵蓋。因此,本創作之權利保護範圍,應如後述之申請專 利範圍所列。 【圖式簡單說明】 第1圖係本創作之室内空氣品質監控系統之第一實施 例示意圖; 第2A圖係本創作之室内空氣品質監控系統之第二實 施例示意圖; 第2B圖係本創作之室内空氣品質監控系統之第二實 ®施例之具有複數模組的服務平台之示意圖; 第3圖係本創作之室内空氣品質監控系統之第三實施 例示意圖;及 第4圖係本創作之室内空氣品質監控系統之第四實施 例示意圖。 【主要元件符號說明】 11、21、31a、31b、31c 感應設備 鲁 12、32、32b空調設備 221、321c 第一組空調設備 222 ' 322c 第二組空調設備 13、 23、33b控制器 231、 331c 第一控制器 232、 332c 第二控制器 14、 24、34a、34b、34c 伺服器 15、 25、35 網際網路 16、 26、36 服務平台 13 M435600 161 登入模組 162 查詢模組 163 排程模組 164 分析模組 165 異常條件輸入模組 166 告警模組 17 顯示設備 18 使用者 A、B、C 子系統M435600 V. New Description: [New Technology Area] This creation is about a network monitoring technology. In detail, it relates to a monitoring system for monitoring indoor air quality through the Internet. [Prior Art] With the longer human beings indoors, Indoor Air Quality (IAQ) is becoming more and more important. According to statistics, people spend nearly 80% to 90% of their time indoors, including offices, shopping malls, or homes. The air quality of these indoor spaces deeply affects human life and health. For example, when the concentration of carbon dioxide in the room is too high, it may cause symptoms such as headache, lethargy, reflex, and burnout; when there are too many suspended particles in the room, it may cause respiratory diseases and cardiovascular diseases. In addition, indoor soot, secondhand smoke, dust or furfural may irritate the skin, eyes, nose or throat. Outdoor air transportation or industrial and commercial activities will also cause indoor air pollutants to enter the room, so that pollutants can accumulate and lead to indoors. The air quality deteriorated. Therefore, the impact of indoor air pollutants on human health should be taken seriously, and indoor air quality can be effectively improved to maintain human health. At present, the gas detection mechanisms provided on the market are mainly portable detection devices, and there is no mechanism for completely monitoring the indoor air quality, which leads to the need to carry a variety of gas detection devices when detecting multiple gases in an indoor environment. Very inconvenient, unable to monitor in time and consume a lot of human resources. [New Content] One of the aims of this creation is to provide an indoor air quality monitoring system M435600 that can detect indoor air quality and control related air conditioning equipment. Another object of the present invention is to provide an indoor air quality monitoring system that is convenient, timely monitored, and labor-saving and time-saving. In one embodiment, the indoor air quality monitoring system of the present invention includes: a sensing device for detecting indoor air quality to obtain gas detecting data, and receiving the gas detecting data through the Internet to store the gas. a service platform for detecting data, and a server connected to the sensing device and the service platform connected to the service platform, wherein the server stores the gas detection data obtained by the sensing device on the server Thereafter, the gas detection data is transmitted to the service platform through the Internet, and the service platform analyzes the gas detection data. In another embodiment, the indoor air quality monitoring system of the present invention comprises: an air conditioning device and a controller for controlling the air conditioning device, a sensing device for detecting indoor air quality to obtain gas detection data, and connecting the control And a server of the sensing device, a service platform having standard gas data and connecting to the server through an internet call, wherein the sensing device transmits the gas detection data to the server for storage, and the server stores The gas detection data is transmitted to the service platform for the service platform to further analyze the gas detection data. In addition, the service platform stores the standard gas data to the server through the internet, and the server transmits the standard gas data to the controller for the controller to detect data according to the standard gas data or gas To control the air conditioning equipment. In still another embodiment, the indoor air quality monitoring system of the present invention includes: a sense of detecting indoor air quality to obtain gas detection data. 5 M435600 should be used to control the first group of air conditioning devices and connect the sensing device. a first controller, a second controller that controls the second group of air conditioning devices and is serially connected to the first controller, has standard gas data to transmit the standard gas data to the first controller through the Internet, and The second controller is connected in series with the second controller and a service platform for receiving the gas sensing data to store the gas sensing data, and a servo connected to the first controller to connect the service platform by using the internet The server stores standard gas data transmitted from the service platform to transmit standard gas data to the first controller and the second controller for the first controller and the second controller Controlling the first group of air conditioning devices and the second group of air conditioning devices according to the standard gas data, and the server stores the gas detection data obtained by the sensing device for transmission The gas detection information to the service platform, service platform to serve for the analysis of the gas detection data. In addition, the indoor air quality monitoring system of the present invention may further include a display device for displaying the gas detection data, which is connected to the server or connected to the service platform. Furthermore, the service platform may include: an abnormal condition input module for the user to input an abnormal condition; and an alarm module for issuing an alarm message when the gas detection data meets the abnormal condition. Compared with the prior art, the indoor air quality monitoring system of the present invention is applied to an indoor environment, which can measure gas detection data of various gases in the indoor environment to analyze the gas detection materials, and These gas detection data or the aforementioned standard gas data are used to control the relevant air conditioning equipment to maintain good indoor air quality. M435600 [Embodiment] Hereinafter, the technical means and contents of the present invention will be described by way of specific embodiments, and those skilled in the art and those skilled in the art can easily understand the present invention by the contents disclosed in the present specification. Other advantages and effects. It is to be understood that the contents of the present disclosure are intended to be used in conjunction with the disclosure of the specification to facilitate the understanding and reading of those skilled in the art, and are not intended to limit the implementation of the present invention. The conditions are limited, so they are not technically meaningful. Any modification, change or adjustment of the contents of the drawings should not be affected by the effects of the creation and the purpose that can be achieved. The technical content can be covered. In the meantime, the terms "first", "second", "first group", "second group" or "plural number" as used in this specification are for convenience only and are not intended to be limiting. The scope of the creation of this creation, the change or adjustment of its relative relationship, in the absence of substantial changes in the technical content, is also considered to be the scope of this creative appeal. First Embodiment Referring to Figure 1, the indoor air quality monitoring system of the present invention comprises a local sensing device 1 and a remote service platform 16. The sensing device 11 is configured to detect the indoor air quality to obtain the gas detecting negative material, and the measured gas detecting data, such as temperature, humidity, carbon monoxide test data, carbon dioxide detecting data, and brewing detection data, Ozone detection data, bacterial detection data or aerosol detection data are transmitted to the feeding device 14 t to store the gas data. It should be noted that the type and number of sensing 7 M435600 devices depend on the air quality items to be detected and are not limited by Figure 1. Secondly, the server 14 and the service platform 16 are interconnected via the Internet 15, and the service platform 16 has standard gas data, such as pre-stored various government-published standard gas data. In addition, the server 14 can receive and store the gas detection data measured by the sensing device 11, and further transmit the stored gas detection data to the service platform 16 via the Internet 15 for performing further analysis, for example, The gas detection data is compared with the standard gas data to analyze the air quality status of different time periods and regions. In addition, in this embodiment, the indoor air quality monitoring system of the present invention may further include a display device (not shown) for displaying the gas detection data, which is connected to the server 14 to display the server 14 The gas detection data is received or connected to the service platform 16 via the Internet 15 to display the gas detection data received by the service platform 16. It should be noted that a server 14 can be connected to a plurality of sensing devices 11, and the configuration of the server 14 can be adjusted according to the amount of indoor space to be monitored. As can be seen from the first embodiment shown in FIG. 1, the sensing device 11 can transmit the measured indoor gas detection data to the remote end through the server 14, that is, the service platform 16 at the other end of the Internet 15. Therefore, the indoor air quality data can be collected and analyzed in detail, and the server 14 can be regarded as a storage device for the gas detection data or as a transmission hub of the gas detection data, so when the Internet 15 is interrupted, the server 14 The gas detection data can still be stored, and then the gas detection data is transmitted to the service platform 16 when the Internet 15 is restored. M435600 Second Embodiment Please refer to Figures 2A and 2B. As described above, the indoor air quality monitoring system of the present invention further includes a local end air conditioner 12 and a controller 13 for controlling the air conditioner 12. The controller 13 can connect the server 14 and the air conditioner 12 via a wireless network or a wired network to receive standard gas data stored in the server 14 from the service platform 16 to control the air conditioner 12 based on the standard gas data. In this embodiment, the remote service platform 16 may include multiple modules, such as a login module 161, a query module 16, a scheduling module 163, an analysis module 164, an abnormal condition input module 165, and an alarm module. Group 166. The login module 161 is used by the user 18 to enter an account number and password to log into the service platform 16. The query module 162 is used by the user 18 to query the gas detection data of each time zone or each area of the room, for example, to query the indoor carbon dioxide concentration of one of the offices of a certain building in a certain afternoon. The φ analysis module 164 is configured to analyze the stored gas detection data according to the time period, region or air conditioning equipment specified by the user 18, for example, to analyze the suspension of one of the offices of a certain floor of the building in the current month. Particle concentration. The scheduling module 163 is configured to perform scheduling management setting on the air conditioning device 12 or the sensing device 11, for example, setting the working hours, that is, the exhaust fan is fixedly turned on every 8:00 am every Monday to Friday, in case of holiday or temporary suspension. Note that the exhaust fan is not turned on. The abnormal condition input module 165 is for the user 18 to input an abnormality 9 M435600 condition, for example, a set value of the input carbon dioxide concentration, that is, an abnormality when the carbon dioxide concentration in the indoor air reaches the set value. The alarm module 166 is configured to send an alarm message when the gas detection data meets the abnormal condition, and notify the user 18 by using an email or a short message. In addition, the display device for displaying the gas detection data is connected to the server 14 to display the gas detection data received by the server 14, as shown in FIG. 2B, or connected to the Internet 15 The service platform 16 displays the gas detection data received by the service platform 16. Thereby, the indoor air quality monitoring system of the present invention can monitor the indoor air by the local sensing device 11, the air conditioning device 12, the controller 13, the server 14, and the service platform 16 connected to the remote through the Internet 15. Quality, and when an abnormality occurs in the air in the room, the controller 13 receives an alarm message from the service platform 16 to cause the air conditioner 12 to perform an action such as exhausting or exhausting. On the other hand, the service platform 16 can perform the analysis of the collected gas detection data, such as carbon monoxide and carbon dioxide concentration. Third Embodiment Referring to FIG. 3, the indoor air quality monitoring system of the present invention may include a local end sensing device 21, a first group of air conditioning devices 221, a second group of air conditioning devices 222, a first group of air conditioning devices 221, and a sensing device. The first controller 231 of the device 21, the second controller 222 connected to the second group of air conditioners 222 and connected in series with the first controller 231, the server 24 connected to the first controller 231, and connected by the Internet 25 The service of the remote end of the server 24 is flat. The third embodiment shown in FIG. 3 is the same as the second embodiment shown in FIG. 2A. The remote service is connected to the local end by the Internet. The server is different; in the first embodiment, the first controller 2 31 and the second controller 232 can be interchanged with each other' and the first controller 231 and the second controller 2 3 2 respectively control the first one. The grouping device 2 21 and the second group of air conditioning devices 222, and the sensing device 2 is connected to the first controller 231 to store the acquired gas detection data by the first controller 231 in the servo In the caller 24. In a specific implementation, the first de-air conditioning device 221 may be a separate air conditioner indoor unit, and the second group air conditioning station 222 may be a separate air conditioner outdoor unit, thereby using various controllers to extract various air conditioning devices. In addition, a plurality of modules and display devices 17 of the service platform 16 disclosed in the second embodiment can also be applied to the present embodiment. Secondly, in other variations of the embodiment, the sensing device 2 can also be connected to the second controller 232 or the server 24, and does not limit the first controller 231, the second controller φ 232, and the first group of air conditioners. The number of devices 221, the second group of air conditioning devices 232, and the inductive devices 21. Fourth Embodiment Referring to FIG. 4, the present indoor air quality monitoring system is a combination of the first embodiment shown in FIG. 1 and the second embodiment shown in FIG. 2A and the third embodiment shown in FIG. The third embodiment, that is, the remote service platform 36 is connected to the local end by the Internet 35 and the local end may be the subsystem A, B, C or any group thereof. In detail, in the subsystem a, the sensing device 31a stores the measured gas detection data in the server 34a 11 M435600, and the server 34a transmits the gas detection data to the service platform 36. In the sub-system and the system B, the controller coffee and the sub-system are more: the tuning device 32b is configured to store the standard gas data in the server 34b by the service platform 36 to be controlled as the basis of the controller 33b. Air conditioning unit 32b. In subsystem C, the first controller and the second control benefit 332c control the first group of air conditioning units 32ic and the second group of air conditioning units 322c, respectively, as compared to subsystem B. In the specific implementation, the subsystems A, B, and c may be different buildings in the building or the same building, and the servers 34a and 3 are used as the transmission hub of the data (standard gas data or gas detection data). . c In summary, the air quality monitoring system of this creation can be used, for example, in two types of places. The first-class places are special (4) for indoor air quality, including schools and educational places, children's playgrounds, medical places, The second type of place refers to the general public gathering or office building, including the business mall, the trading market, the exhibition site, the second poor building, the underground street, the curtain ship guard and the station. Borrow = local health controller, controller, induction equipment and air conditioning equipment 22 2 remote service platform, to turn good (four), = for convenience, timely monitoring and labor saving and time saving to provide air Quality and control of the indoor air quality monitoring system of related air conditioning equipment. The above embodiments are merely illustrative of the principles and functions of the present invention and are not intended to limit the implementation of the present invention. Anyone who is familiar with this art can modify and change the above-mentioned examples without the spirit of this creation, and any equivalent changes and modifications made by the use of this creation. Both should still be covered by the following application. Therefore, the scope of protection of this creation should be as listed in the application patents described below. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing a first embodiment of the indoor air quality monitoring system of the present invention; FIG. 2A is a schematic view showing a second embodiment of the indoor air quality monitoring system of the present invention; A schematic diagram of a service platform with multiple modules of the second embodiment of the indoor air quality monitoring system; FIG. 3 is a schematic diagram of a third embodiment of the indoor air quality monitoring system of the present invention; and FIG. 4 is a creation of the present invention A schematic diagram of a fourth embodiment of an indoor air quality monitoring system. [Main component symbol description] 11, 21, 31a, 31b, 31c Induction equipment Lu 12, 32, 32b air conditioning equipment 221, 321c The first group of air conditioning equipment 222 ' 322c The second group of air conditioning equipment 13, 23, 33b controller 231, 331c first controller 232, 332c second controller 14, 24, 34a, 34b, 34c server 15, 25, 35 internet 16, 26, 36 service platform 13 M435600 161 login module 162 query module 163 row Module 164 Analysis Module 165 Abnormal Condition Input Module 166 Alarm Module 17 Display Device 18 User A, B, C Subsystem