M432016 五、新型說明: 【新型所屬之技術領域】 本創作係提供一種飲水設備及系統,詳而言之,係關於一種 節能且具人性化控制界面之智慧型飲水設備及系統。 【先前技術】 一般市面上的飲水機,其出水頭的位置常常低於正常人的眼 睛高度,當使用者手持接水容器欲接水時,容易誤判飲水機出水 頭的出水位置,造成出水灑落於飲水機承載盤或喷濺至地上,不 但浪費水資源也影響飲水機的整體效能。且若使用者欲接取者係 熱水,灑落的熱水極有可能燙傷使用者手部,造成更嚴重的傷害。 可見,一般飲水機在安全性上仍有缺失。 另外,飲水機的水質亦是一大問題。當自來水公司的供水水 質因颱風等因素而變差時,一般飲水機仍持續透過自來水管線汲 水,使用者容易喝到品質較差的水。且大量的混濁水會縮短飲水 器濾心的壽命,造成飲水成本的提高。 復次,目前飲水機的濾心係採用定期更換的方式,由飲水機 廠商指派服務人員定期至客戶方更換濾心。然而,濾心是否應更 換與飲水機使用頻率及水質好壞均有關聯性,習知的定期更換方 式很可能造成尚不該換的濾心(使用頻率較低)被換掉,而早該換 的濾心(使用頻率高且水質差)延遲一段時間才更換,這種做法僅 是方便飲水機廠商作業,但對消費者而言係不符合成本效益。 再者,一般飲水機多設有熱水槽與冷水槽,熱水槽係用以儲 存飲水機預先加熱的熱水。而當熱水槽之熱水水位低到一定程度 時,飲水機才開始對冷水加熱以補充熱水。這種作法最大的缺點 3 M432016 是,當接取熱水的使用量不多時,熱水槽仍一直持續消耗能量為 熱水保溫。當接取熱水的使用量過多時,使用者則必須等待熱水 製作,浪費時間。即便調整熱水槽的尺寸規格或修改飲水機加熱 邏輯,也不可能適用於使用者端的所有情狀與態樣。 另一方面,目前的飲水機係單機操作模式,無法與其他飲水 機或製造廠商進行即時訊息交換,因此無法優化其效能。舉例而 - 言,當公司某一層某一區域的飲水機故障時,該區域的使用者會 . 轉往其他區域的飲水機取水,故同一層其他區域的飲水機應該要 增加其熱水製作量,然而,習知的飲水機並無資料分享與交換機 ® 制,造成使用者接水的不便利。且當飲水機廠商接獲維修通知時, 由於不知道到底是何種飲水機零件故障,造成維修上的不便利與 維修時間上的浪費。 因此,如何能提出一種智慧型飲水設備及系統,能提供使用 者較習知飲水機更方便、安全、節能且人性化的飲水服務,是本 領域之技術人員極欲尋找的答案。 I 【新型内容】 -鑒於上述習知技術之種種缺點,本創作之目的在於提供一種 -智慧型飲水設備及系統,可達到方便、安全、節能且人性化的供 水效能。 為達上述及其他目的,本創作提供一種智慧型飲水設備,包括:儲 水槽,係用以儲存水;進出水迴路管線,係連接該儲水槽,用以 將水進.出該儲水槽;出水頭,係連接該進出水迴路管線,用以依 據使用者的指令將儲存於該儲水槽的水導出至外部;以及出水輔 4 M432016 .助光源》又置於卻近该出水頭,係提供光源以輔助該使用者確認 該出水頭的出水位置。 y 本創作又提供—種智慧型飲水設備,包括:進水管線;過滤 益’具有;慮〜’係、連接該進水管線,用以透過該濾心過濾由進水 官線輸入的水,儲水槽,係連接該過滤器,用以儲存經該過遽器 秦 過濾'的水’出水頭’係連接該儲水槽,用以依據使用者的指令將 _儲存於該儲水槽的水導出至外部;以及濁度偵測器 ,係用以偵測 • 並判斷該進水管線中的水濁度。 本創作還提供―種智慧型飲水設備,包括:進水管線;過渡 器’具有渡心’係、連接該進水管線,用以透過該據心過渡由進水 官線輸入的水;儲水槽,係連接該過濾器,用以儲存經該過濾器 過濾的水;出水頭,係連接該儲水槽,用以依據使用者的指令將 儲存於該儲水槽的水導出至外部;以及濾心偵測器 ,係用以偵測 並判斷該濾心的狀態。 籲 本創作另提供-種智慧型飲水設備,包括:進水管線;過遽 s,具有濾乂、’係連接該進水管線m透職濾^過濾由進水 官線輸入的水;儲水槽,係連接該過濾器,用以儲存經該過濾器 過濾的水,冷熱水槽,係連接該儲水槽,用以對儲存於該儲水槽 的水進行加熱或製冷;丨水頭,係連接該儲水槽及該冷熱水槽, 用以依據使用者的指令將儲存於該儲水槽及該冷熱水槽的水導出 至外部,狀態偵測器,係用以偵測及判斷該智慧型飲水設備的狀 態,並產生狀慼訊息’·以及效率管理器,係利用智慧型演算法分 5 M432016 析該狀態訊息’以對該進水管線、該過濾器、該儲水槽、該冷熱 水槽或該出水頭進行效率控制。 本創作再提供一種智慧型飲水系統,包括:複數飲水設備及 訊息中心。該飲水設備包括:進水管線;過濾器,具有濾心,係 連接該進水管線,用以透過該濾心過濾由進水管線輸入的水;儲 水槽’係連接該過濾器,用以儲存經該過濾器過濾的水;出水頭, 係連接該儲水槽,用以依據使用者的指令將儲存於該儲水槽的水 導出至外部;及狀態偵測器,係用以偵測及判斷該飲水設備的狀 禮’並產生狀態訊息。而訊息中心係透過網路連結該飲水設備, 用以接收該飲水設備發出之該狀態訊息,並產生對應之控制命令。 相較於習知技術,本創作之智慧型飲水設備及系統透過人性 化界面的設計,可解決習知飲水機的種種缺失,以提供使用者更 方便、安全及節能的飲水服務。 【實施方式】 以下係藉由特定的具體實施例說明本創作之技術内容,熟悉 此技術之人士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’亦可藉由其他不同的具體實施例加以施行或應用。 如第1A圖所示’係本創作之智慧型飲水設備一實施例的示意 圖。智慧型飲水設備1包括用以儲存水之儲水槽1〇、連接該儲水 槽10且用以將水進出該儲水槽10之進出水迴路管線11、連接該 進出水迴路管線1丨且用以依據使用者的指令將儲存於該儲水槽 6 料:^υΐ6 的尺導出至外部之出水頭12、以及設置於鄰近該出水頭I〗以 提供光源伽該❹者確認該出水頭12的出水位置之出水輔助光 '、13於本實知例中,出水頭12周圍設置有兩組出水輔助光源 13 ’出水輔助光源13可包括至少-組發光裝置(例如LED燈),當 使用者手持接水容H (例如杯子或碗等容器)欲接取飲水設備的出 水時,可透過該些發光裝置於接水容器上產生至少—組光標示, 使用者錯由該光標示即可定位出水頭12的出水點,因此能將接水 容器調整到最佳的接水位置,以防止出水喷灑,且也能避免使用 者的手被熱水燙傷。 如第1B圖所不,係本創作之智慧型飲水設備之光標示定位的 示意圖。接水容器14上可發現有兩組光標示131,用以定位出水 頭的出水點,當使用者目視接水容器14的底部不存在光標示131 或该些光標示131並未出現於接水容器14中央時,代表使用者必 須調整接水容器14的接水位置。透過此方式,可解決習知飲水設 備易導致出水灑落於飲水機外的問題,提供使用者安全且節能的 取水環境。又光標示可為光點、光條或由光形成之圖形,可於發 光裝置上設置不同結構之光罩或光柵以產生各種形狀之光標示。 於另一實施態樣中,本創作之智慧型飲水設備1可另包括設 置於出水頭12周圍的光線感測器,當接水容器丨4於出水頭丨2下 方接水時,光線感測器能接收出水輔助光源13的發射至接水容器 14的反射光以產生接水容器14的水位資訊。亦或者是包括設置於 出水頭12周圍之影像辨識器,當接水容器14於出水頭12下方接 7 M432016 . 水時,影像辨識器能擷取並辨識接水容器14的影像以產生接水容 器14的水位資訊。舉例而言,出水頭12周圍可設置一組鏡頭, " 用以擷取接水容器14的影像,並將影像傳至内建於飲水設備之分 * 析模組進行判斷,影像中顯示.當水位的外緣與接水容器14的外緣 之距離愈來愈短時,代表水位持續上升中,當到達一内建之警戒 * 值時,智慧型飲水設備可透過聲音、燈號或其他方式告知使用者 ' 即將滿水位,亦於飲水設備中另設置一出水控制器,以依據水位 • 資訊控制出水頭12的開啟、關閉是減少出水頭12的出水量。若 基於節能之目的,智慧型飲水設備1中可設置物體感測器,用以 於一預定範圍内偵測物體(例如水杯或使用者的手)是否存在,藉 以控制該出水頭或該出水輔助光源13的開啟與關閉。簡言之,如 果出水頭附近沒有任何飲水設備以外之物體,就無須開啟出水輔 助光源13。 於再一實施態樣中,本創作之智慧型飲水設備1可另包括設 • 置於該出水頭下方之容器承載盤,用以供該使用者置放接水容器 14。如申請專利範圍第5項所述之智慧型飲水設備,其中,前述 之出水輔助光源13除了設置於出水頭12周圍外,亦可設置於該 容器承載盤周圍,用以於該容器承載盤上產生光標示131或其他 亮點以定位出水頭12的出水位置。當然,容器承載盤亦可具備重 量感測器,當接水容器14於出水頭12下方接水時,重量感測器 能偵測接水容器14的重量以產生接水容器14的水位資訊。舉例 而言,使用者除了將接水容器14的容量預先輸入至智慧型飲水設 8 M432016 . 備1,亦可透過鏡頭、光線感測或其他辨識方法估算接水容器14 的容量,於得知接水容器14的容量資訊後,再搭配重量感測器即 * 可具體得出水位資訊。 ' 於又一實施態樣甲,本創作之智慧型飲水設備1可另包括水 分蒸發器,係設置於例如前述之容器承載盤上,係用以將容器承 " 載盤内之水分蒸發,其中,水分蒸發器可具有金屬片及加熱單元, ' 當金屬片被加熱單元加熱時,所產生的環境溫差會使金屬片周圍 9 之水分蒸發。 如第2A圖所示,係本創作之智慧型飲水設備另一實施例的示 意圖。智慧型飲水設備2包括用以進水管線25、具有濾心之過濾 器27、連接過濾器27之儲水槽20、連接該儲水槽20之出水頭22、 以及用以偵測並判斷進水管線25中的水濁度之濁度偵測器26,其 中,過濾器27係連接進水管線25,用以透過濾心過濾由進水管線 2 5輸入的水,而儲水槽2 0用以儲存經過渡器2 7過渡的水,出水 • 頭22係依據使用者的指令將儲存於儲水槽20的水導出至外部。 圖式中,進水管線25右方的兩個箭號代表進水的方向。 如第2B圖所示,係本創作之智慧型飲水設備2的濁度偵測器 之示意圖,其中,濁度偵測器26包括光發射元件260、光感測元 件261及分析元件262,光發射元件260及光感測元件261係分別 設置於進水管線2 5的兩側,且進水管線2 5係由透光材料形成, 其中,光發射元件260於進水管線25 —側(上方)發射光線(如圖 式中兩組由上往下之虛線箭號)並穿透進水管線25而由另一側(下 9 M432016 - 方)之光感測元件261接收,以由分析元件262分析光感測元件261 所接收之光線進而判斷進水管線25中的水濁度。舉例而言,進水 管線25某一段或某一節可由透光材料製成’使光發射元件260發 射之光線(如可見光或不可見光)可穿透,由分析元件262分析光 感測元件261擷取之資料,當判斷進水管線25的透光效果變差 時’即可對應得出進水管線25的水濁度上升。此時,智慧型飲水 設備2可透過聲音、燈號或其他方式告知使用者水濁度上升,亦 • 可於濁度偵測器26中另設置一進水控制器263,以依據水濁度控 制進水管線25的開啟、關閉或進水量。 於一態樣中,本實施例之智慧型飲水設備2可另包括出水輔 助光源23,設置於鄰近該出水頭22,可提供光源以輔助使用者確 認出水頭22的出水位置。當然,還可設置一物體感測器,用以於 一預定範圍内偵測物體是否存在,且據以控制出水頭22或出水輔 助光源23的開啟與關閉。 • 如第2C圖所示,係本創作之智慧型飲水設備2的濾心偵測器 之示意圖,其中,濾心偵測器27係用以偵測並判斷濾心270的狀 態。濾心偵測器27包括有進水流量偵測元件271、出水流量偵測 元件272及分析元件273。進水流量偵測元件271及出水流量偵測 元件272係分別設置於濾心270的進水端及出水端,用以偵測濾 心進水端的進水流量及濾心出水端的出水流量,以由分析元件273 分析進水流量及出水流量進而判斷濾心270的狀態。另外,濾心 偵測器中亦可設置進水壓力偵測元件及出水壓力偵測元件,其 M432016 - 中,進水壓力偵測元件及出水壓力偵測元件係分別設置於濾心的 進水端及出水端,用以偵測濾心進水端的進水壓力及濾心出水端 的出水壓力,以由分析元件273分析進水壓力及出水壓力進而判 斷濾心270的狀態,亦可利用流速偵測元件進行判斷。舉例而言, 當進水流量(流速)及出水流量(流速)差距過大時,代表濾心27〇 阻塞嚴重,此時,智慧型飲水設備2可透過聲音、燈號或其他方 式告知使用者應更換濾心270。 春 如第3圖所示,係本創作之智慧型飲水設備又-實施例的方 塊圖。此智慧型飲水設備包括進水管線、具有.之過濾器、連 接該過遽器之儲水槽、連接該儲水槽以對儲存於該儲水槽的水進 仃加熱或製冷之冷熱水槽、連接該儲水槽及該冷熱水槽以依據使 用者的指令將儲存於該儲水槽及該冷熱水㈣水導出至外部之出 水頭、_及判斷該智慧型飲水設備的狀態之狀態偵測器、以及 利用智慧型演算法分析該狀態訊息以對該進水管線、該過遽器、 4 K槽1¾冷熱水槽或該出水頭進行效率控制之效率管理器。 為@化内各並突顯本實施例之特徵,本圖式中並未描繪出進 水官線、過濾、器、儲水槽、冷熱水槽及出水頭,僅將狀態摘測器 38與效率管理器39以方塊圖方式呈現。又為了說明上方便,另定 義與狀_測器38連結之冷水量感測器38〇、熱水量感測器撕、 使用數據紀錄器382。 +例而。狀態偵測器38可利用數據紀錄器382取得使用者 D ’、、、J^、冷水的穴峰時間與離峰時間,再透過冷水量感測器· 11 M432016 •及熱水量感測器381偵測各個時段的冷熱水消耗量,將該些數據 及資料均輸人效率管理器39進行分析,最後,由效率管理器列 依據尖峰時間與離峰時間對應控制冷熱水槽的加熱時間與製冷時 間。此種設計具有省水、錢及省時的功效,提供使用者更便利 的取水環境。圖式中顯示,狀態偵測器38可與各式各樣之感測器 或外部網路連結’藉以取得各類訊息,將之匯整後傳至效率管理 •器39’經效率管理器39進行分析後,即可對飲水設備進行各種智 • 慧型控制。 例如,狀態偵測器38與前述濁度偵測器連結後,即可具備濁 度偵測功能’用以偵測並判斷該進水管線中的水濁度。再者,狀 態偵測器38與前述遽心價測器連結後,即可具備遽心偵測功能, 用以偵測並判斷濾心的狀態。 於-態樣巾,本實施例之智慧型飲水設備可具有複數個熱水 槽且7狀態傾測器38偵測使用者操取熱水與冷水的尖峰時間與 •離峰時間,以由效率管理器39依據尖峰時間與離峰時間對應控制 複數個熱水槽的全部或—部的使用狀態及加熱時間。例如,效率 管理器39於最離峰時間時可鶴複數㈣水槽之-者進行加熱及 保溫於最尖峰時間時可對複數個熱水槽之全部進行加熱及保溫。 此種設計—樣具有省水、省電及省時的功效。 如第4 ®所示’係本創作之智慧型飲m實施例的示意 圖。智慧型飲水系統4包括複數飲水設備(如圖式第-飲水設備 40卜第二飲水設備4〇2、第三飲水設備4〇3)及訊息中心*卜其中, 12 M432016 • 訊息中心41係透過網路42連結該些飲水設備,用以接收該飲水 設備發出之各種狀態訊息,並產生對應之控制命令。本創作之智 慧麼飲水糸統中的飲水設備必須具備狀態偵測器,用以读測及判 斷該飲水設備的狀態以產生狀態訊息,並將狀態訊息透過網路42 回傳訊息中心41進行判斷與決策。 舉例而吕,狀態偵測器可為滤心偵測器,用以偵測並判斷該 濾心的狀態訊息,並將該濾心的狀態訊息回傳至該訊息中心,以 ® 由該訊息中心判斷是否發出濾心更換命令。例如,當訊息中心41 判斷第一飲水設備401及第二飲水設備4〇2皆須更換濾心時,可 依據維修人員的位置與飲水設備位置進行路徑規劃,節省廠商的 人力資源成本,同時也能迅速解決客戶端(飲水設備使用者)的問 題。 詳言之,狀態偵測器可用以偵測及判斷該飲水設備各項元件 的狀態訊息,並將狀態訊息回傳至訊息中心41,以由訊息中心Μ 籲判斷飲水設備各項元件呈現異常或錯誤時發出維修命令,此, 當訊息中心41掌握所有的飲水設備狀態後,不管是客戶端的維 修、保養或其他需求均能即時掌握,再透過分析演算法擬定策略, 俾提供客戶全方位的整合性供水服務。訊息中心41可包括效能管 理窃,用以執行前述之分析演算法及策略擬定。例如,當訊息中 〜41接收到複數飲水設備之狀態訊息均呈現異常或錯誤時,效能 官理器可依據該複數飲水設備之位置資訊、該複數飲水設備之型 號資Λ、備料資訊或維修人員位置資訊產生最佳化的維修建議方 13 M432016 •縱上所述,本創作之智慧型飲水設備及系統,利用各種不同 的機構設計以及資料連結,能提供使用者較f知飲水機更方便、 安全、節能且人性化的飲水服務。 上述實施例僅例示性說明本創作之.原理及功效,而非用於限 制摘作。任何熟習此項技術之人士均可在不料本創作之精神 及範嘴下,對上述實施例進行修飾與改變。目此,本創作之權利 癱保護範圍,應如後述之申請專利範圍所列。 【圖式簡單說明】 第1A圖係本創作之智慧型飲水設備一實施例的示意圖; 第1B圖係、本創作之智慧型飲水設備之光標示定位的示意圖; 第2A圖係本創作之智慧型飲水設備另一實施例的示意圖; 第2B圖係本創作之智慧型飲水設備的濁度偵測器之示意圖; 第2C圖係本創作之智慧型飲水設備的濾心偵測器之示意圖; 第3圖係本創作之智慧型飲水設備 又一實施例的方塊圖;以及 第4圖係本創作之智慧型飲水系統—實施例的示意圖。 【主要元件符號說明】 I ' 2 本創作之智慧型飲水設備 10 ' 20 儲水槽 II 進出水迴路管線 M432016M432016 V. New Description: [New Technology Area] This creation provides a drinking water equipment and system. In detail, it is a smart drinking water equipment and system with energy-saving and humanized control interface. [Prior Art] Generally, the position of the water dispenser in the market is often lower than the height of the eyes of a normal person. When the user wants to pick up the water from the water container, it is easy to misjudge the water outlet position of the water dispenser, causing the water to spill. The water dispenser carrying trays or splashing onto the ground not only wastes water resources but also affects the overall performance of the water dispenser. And if the user wants to pick up the hot water, the hot water that is spilled is very likely to burn the user's hand, causing more serious injury. It can be seen that the general water dispenser is still lacking in safety. In addition, the water quality of the water dispenser is also a big problem. When the water supply quality of the water supply company deteriorates due to factors such as typhoon, the general water dispenser continues to drain water through the tap water pipe, and the user can easily drink poor quality water. And a large amount of turbid water will shorten the life of the filter of the drinker, resulting in an increase in the cost of drinking water. Repeatedly, the current filter system of the water dispenser is periodically replaced, and the water dispenser manufacturer assigns service personnel to periodically replace the filter. However, whether the filter should be replaced is related to the frequency of use of the water dispenser and the quality of the water. The regular replacement method is likely to cause the filter (the lower frequency of use) that has not been replaced to be replaced. The replacement filter (high frequency of use and poor water quality) is delayed for a period of time. This is only convenient for water dispenser manufacturers, but it is not cost-effective for consumers. In addition, the general water dispenser is provided with a hot water tank and a cold water tank, and the hot water tank is used to store the hot water preheated by the water dispenser. When the hot water level of the hot water tank is low to a certain extent, the water dispenser starts to heat the cold water to supplement the hot water. The biggest disadvantage of this method 3 M432016 is that when the amount of hot water used is not much, the hot water tank still consumes energy for hot water insulation. When the amount of hot water used is too much, the user must wait for the hot water to be produced, wasting time. Even if you adjust the size of the hot water tank or modify the water heater heating logic, it is not possible to apply to all situations and aspects of the user end. On the other hand, the current water dispenser is a stand-alone mode of operation that does not allow instant message exchange with other water dispensers or manufacturers, so its performance cannot be optimized. For example, when a water dispenser in a certain area of a company fails, the user in the area will transfer water to the water dispenser in other areas, so the water dispenser in other areas of the same floor should increase the amount of hot water produced. However, the conventional water dispenser has no data sharing and switch® system, which makes the user inconvenient to receive water. Moreover, when the water dispenser manufacturer receives the maintenance notice, it is not known which kind of water dispenser parts are faulty, resulting in inconvenience in maintenance and waste of maintenance time. Therefore, how to propose a smart drinking water device and system can provide a drinking water service that is more convenient, safe, energy-saving and humanized than a conventional water dispenser, and is an answer that the skilled person in the field is eager to find. I [New Content] - In view of the above-mentioned shortcomings of the prior art, the purpose of the present invention is to provide a smart drinking water device and system that can achieve convenient, safe, energy-saving and humanized water supply efficiency. For the above and other purposes, the present invention provides a smart drinking water device comprising: a water storage tank for storing water; an inlet and outlet circuit line connected to the water storage tank for introducing water out of the water storage tank; a head connecting the water inlet and outlet circuit for discharging water stored in the water storage tank to the outside according to a user's instruction; and a water supply auxiliary 4 M432016. The light source is placed near the water head to provide a light source To assist the user to confirm the water outlet position of the water outlet. y This creation also provides a kind of intelligent drinking water equipment, including: the water inlet pipeline; the filter benefit has; the cable is connected to the water inlet line, and the water input from the water inlet line is filtered through the filter core. a water storage tank connected to the filter for storing the water 'water outlet' filtered by the filter, for connecting the water storage tank to the water stored in the water storage tank according to a user's instruction External; and turbidity detector for detecting and determining the turbidity of the water in the inlet line. The creation also provides a kind of intelligent drinking water equipment, including: a water inlet pipeline; a transitional 'with a heart' system, connecting the water inlet pipeline for water input through the water inlet official line through the heart-shaped transition; Connecting the filter for storing water filtered by the filter; the water outlet is connected to the water storage tank for discharging water stored in the water storage tank to the outside according to a user's instruction; and filtering the heart The detector is used to detect and judge the state of the filter. The author also provides a kind of intelligent drinking water equipment, including: water inlet pipeline; over 遽s, with filter raft, 'connecting the water inlet pipeline m through the filter ^ filtering the water input from the inlet official line; Connecting the filter for storing water filtered by the filter, the hot and cold water tank is connected to the water storage tank for heating or cooling the water stored in the water storage tank; the water head is connected to the water storage tank And the hot and cold water tank is configured to export the water stored in the water storage tank and the hot and cold water tank to the outside according to a user's instruction, and the state detector is configured to detect and judge the state of the smart drinking water device, and generate The message '· and the efficiency manager are analyzed by the intelligent algorithm according to 5 M432016 to determine the status message 'to control the efficiency of the water inlet line, the filter, the water storage tank, the hot and cold water tank or the water outlet. This creation provides a smart drinking water system that includes: multiple drinking water equipment and a message center. The drinking water device comprises: a water inlet pipeline; a filter having a filter core connected to the water inlet pipeline for filtering water input from the water inlet pipeline through the filter core; the water storage tank is connected to the filter for storing The water filtered by the filter; the water outlet is connected to the water storage tank for discharging the water stored in the water storage tank to the outside according to a user's instruction; and the state detector is for detecting and judging the water The watering equipment's ritual' produces a status message. The message center connects the drinking water device through the network to receive the status message sent by the drinking device and generate corresponding control commands. Compared with the prior art, the intelligent drinking water equipment and system of the present invention can solve various kinds of missing water dispensers through the design of the humanized interface, so as to provide users with more convenient, safe and energy-saving drinking water service. [Embodiment] The following is a description of the technical content of the present invention by a specific embodiment, and those skilled in the art can easily understand other advantages and effects of the present invention by the contents disclosed in the present specification. Specific embodiments are implemented or applied. As shown in Fig. 1A, a schematic view of an embodiment of a smart drinking device of the present invention. The smart drinking water device 1 includes a water storage tank 1 for storing water, an inlet and outlet circuit 11 connected to the water storage tank 10 for introducing water into and out of the water storage tank 10, and a connection between the water inlet and outlet circuit 1 and The user's instruction is to store the water in the water storage tank 6 : 6 导出 6 to the external water outlet head 12 , and to be disposed adjacent to the water outlet head I to provide a light source gamma to confirm the water outlet position of the water outlet head 12 The effluent auxiliary light ', 13 is in the present embodiment, two sets of water effluent auxiliary light sources 13 are disposed around the water outlet head 12 'The water effluent auxiliary light source 13 may include at least a group of illuminating devices (for example, LED lights), when the user holds the water receiving capacity H (for example, a container such as a cup or a bowl), when the water of the drinking water device is to be taken out, the light-emitting device can generate at least a group light mark on the water receiving container, and the user can locate the water head 12 by the light mark. The water outlet point can therefore adjust the water receiving container to the optimal water receiving position to prevent the water from being sprayed, and also to prevent the user's hand from being burnt by hot water. As shown in Figure 1B, it is a schematic diagram of the light marking and positioning of the intelligent drinking water equipment of the present invention. Two sets of light marks 131 can be found on the water receiving container 14 for positioning the water outlet point of the water head. When the user visually sees that there is no light mark 131 at the bottom of the water receiving container 14, the light marks 131 do not appear in the water receiving water. When the container 14 is centered, it means that the user has to adjust the water receiving position of the water receiving container 14. In this way, it is possible to solve the problem that the conventional drinking water device is easy to cause the water to spill out of the water dispenser, and provide a safe and energy-saving water intake environment for the user. Further, the light mark may be a light spot, a light bar or a pattern formed by light, and a reticle or grating of different structure may be disposed on the light-emitting device to generate light marks of various shapes. In another embodiment, the smart drinking device 1 of the present invention may further include a light sensor disposed around the water outlet head 12, and the light sensor is sensed when the water receiving container 4 receives water under the water outlet head 2 The device can receive the reflected light emitted from the water auxiliary light source 13 to the water receiving container 14 to generate the water level information of the water receiving container 14. Or the image identifier disposed around the water outlet head 12, when the water receiving container 14 is connected to the water head 12 under the water head 12, the image identifier can capture and recognize the image of the water receiving container 14 to generate water. The water level information of the container 14. For example, a set of lenses can be arranged around the water outlet head 12, and the image of the water receiving container 14 can be captured and transmitted to the analysis module built into the drinking water device for judging, and the image is displayed. When the distance between the outer edge of the water level and the outer edge of the water receiving container 14 is getting shorter, the water level is continuously rising. When a built-in warning value is reached, the smart drinking water device can transmit sound, light or other. The method informs the user that 'the water level is about to be full, and another water outlet controller is also set in the drinking water equipment to control the opening and closing of the water head 12 according to the water level and information to reduce the water output of the water head 12. For the purpose of energy saving, an intelligent object can be provided in the smart drinking water device 1 for detecting the presence of an object (for example, a water cup or a user's hand) within a predetermined range, thereby controlling the water head or the water outlet assisting device. The light source 13 is turned on and off. In short, if there is no object other than the drinking water device near the water head, it is not necessary to open the water auxiliary light source 13. In still another embodiment, the smart drinking device 1 of the present invention may further comprise a container carrying tray disposed under the water outlet for the user to place the water receiving container 14. The smart drinking water device of claim 5, wherein the water outlet auxiliary light source 13 is disposed around the water receiving head 12 or around the container carrying tray for loading on the container carrying tray. A light marker 131 or other bright spot is generated to locate the water outlet location of the water head 12. Of course, the container carrier tray can also be provided with a weight sensor. When the water receiving container 14 receives water under the water outlet head 12, the weight sensor can detect the weight of the water receiving container 14 to generate the water level information of the water receiving container 14. For example, the user can input the capacity of the water receiving container 14 to the smart drinking water device 8 M432016. The capacity of the water receiving container 14 can also be estimated through the lens, light sensing or other identification methods. After the capacity information of the water receiving container 14 is used, the water level information can be specifically obtained by using the weight sensor. In another embodiment, the smart drinking device 1 of the present invention may further comprise a moisture evaporator, which is disposed on, for example, the aforementioned container carrier tray for evaporating water in the container. Among them, the water evaporator may have a metal piece and a heating unit, 'When the metal piece is heated by the heating unit, the ambient temperature difference generated causes the water around the metal piece to evaporate. As shown in Fig. 2A, it is a schematic diagram of another embodiment of the inventive smart drinking device. The smart drinking water device 2 includes a water inlet pipe 25, a filter with a filter core 27, a water storage tank 20 connecting the filter 27, a water outlet head 22 connecting the water storage tank 20, and a water inlet pipe for detecting and judging the water inlet pipe. The water turbidity turbidity detector 26 of 25, wherein the filter 27 is connected to the water inlet pipe 25 for filtering the water input from the water inlet pipe 25 through the filter core, and the water storage tank 20 is used for storage. The water that has transitioned through the transition unit 27, the water supply head 22 directs the water stored in the water storage tank 20 to the outside according to a user's instruction. In the figure, the two arrows on the right side of the inlet pipe 25 represent the direction of the incoming water. As shown in FIG. 2B, it is a schematic diagram of a turbidity detector of the smart drinking device 2 of the present invention, wherein the turbidity detector 26 includes a light emitting element 260, a light sensing element 261, and an analyzing component 262. The transmitting element 260 and the light sensing element 261 are respectively disposed on both sides of the water inlet pipe 25, and the water inlet pipe 25 is formed of a light transmissive material, wherein the light emitting element 260 is on the side of the water inlet pipe 25 (above Transmit light (two sets of dashed arrows from top to bottom in the figure) and penetrate the water inlet line 25 and receive by the light sensing element 261 of the other side (lower 9 M432016 - square) to analyze the component 262 analyzes the light received by the light sensing element 261 to determine the turbidity of the water in the water inlet line 25. For example, a certain section or a section of the water inlet line 25 may be made of a light transmissive material to make the light emitted by the light emitting element 260 (such as visible light or invisible light) permeable, and the light sensing element 261 is analyzed by the analyzing element 262. When the data is judged, when it is judged that the light transmission effect of the water inlet pipe 25 is deteriorated, the water turbidity of the water inlet pipe 25 can be correspondingly increased. At this time, the smart drinking water device 2 can inform the user of the increase in water turbidity through sound, light or other means, and can also provide a water inlet controller 263 in the turbidity detector 26 to depend on the water turbidity. The opening, closing or water inflow of the water inlet line 25 is controlled. In one aspect, the smart drinking device 2 of the present embodiment may further include a water auxiliary light source 23 disposed adjacent to the water outlet 22 to provide a light source to assist the user in recognizing the water outlet position of the water head 22. Of course, an object sensor can also be provided for detecting the presence or absence of an object within a predetermined range, and accordingly controlling the opening and closing of the water head 22 or the water supply auxiliary light source 23. • As shown in Fig. 2C, it is a schematic diagram of the filter detector of the smart drinking device 2 of the present invention, wherein the filter detector 27 is used to detect and judge the state of the filter 270. The filter heart detector 27 includes an inflow water flow detecting element 271, an outflow flow detecting element 272, and an analyzing element 273. The inflow water flow detecting component 271 and the water flow detecting component 272 are respectively disposed at the water inlet end and the water outlet end of the filter core 270 for detecting the inflow flow rate of the inlet end of the filter core and the outlet flow rate of the outlet end of the filter core, The inflow water flow rate and the water discharge flow rate are analyzed by the analysis element 273 to determine the state of the filter element 270. In addition, the water pressure detecting component and the water pressure detecting component may also be disposed in the filter heart detector, and the water inlet pressure detecting component and the water pressure detecting component are respectively set in the water inlet of the filter core in M432016 - The end and the water outlet are used for detecting the inlet pressure of the inlet end of the filter core and the outlet pressure of the outlet end of the filter core, so that the analysis component 273 analyzes the inlet water pressure and the outlet pressure to determine the state of the filter core 270, and can also utilize the flow velocity detection. The measuring component makes a judgment. For example, when the difference between the inflow flow rate (flow rate) and the outlet flow rate (flow rate) is too large, it means that the filter core 27 is severely blocked. At this time, the smart drinking water device 2 can inform the user through sound, light or other means. Replace the filter 270. Spring As shown in Figure 3, it is a block diagram of the intelligent drinking water device of the present invention. The smart drinking water device comprises a water inlet pipeline, a filter having a filter, a water storage tank connected to the water tank, a hot and cold water tank connected to the water storage tank to heat or cool the water stored in the water storage tank, and connected to the storage tank. The water tank and the hot and cold water tank are used to export the water storage tank and the hot and cold water (4) water to the external water outlet according to a user's instruction, and to determine the state of the smart water drinking device, and to utilize the smart type. The algorithm analyzes the status message to an efficiency manager that controls the efficiency of the water inlet line, the filter, the 4 K tank, the hot and cold water tank, or the water outlet. For the features of this embodiment, the inlet water line, the filter, the water storage tank, the hot and cold water tank and the water outlet are not depicted in the figure, and only the state extractor 38 and the efficiency manager are described. 39 is presented in a block diagram. For convenience of explanation, the cold water amount sensor 38 连结, the hot water amount sensor tear, and the data recorder 382 which are connected to the detector 38 are defined. +Examples. The state detector 38 can use the data recorder 382 to obtain the peak time and the peak time of the user D ', , J^, cold water, and then pass the cold water sensor · 11 M432016 • and the hot water sensor 381 The amount of cold and hot water consumption in each period is measured, and the data and data are input to the efficiency manager 39 for analysis. Finally, the heating manager controls the heating time and the cooling time of the hot and cold water tank according to the peak time and the peak time. This design has the effect of saving water, money and time, providing users with a more convenient water intake environment. As shown in the figure, the status detector 38 can be connected to a wide variety of sensors or external networks to generate various types of messages, which are aggregated and passed to the efficiency manager 39' via the efficiency manager 39. After the analysis, various intelligent and intelligent control of the drinking water equipment can be performed. For example, after the state detector 38 is coupled to the turbidity detector, a turbidity detection function can be provided to detect and determine the turbidity of the water in the water inlet line. Moreover, after the state detector 38 is connected to the aforementioned heart rate detector, the heart detection function can be provided to detect and determine the state of the filter heart. In the case of the sample towel, the smart drinking water device of the embodiment may have a plurality of hot water tanks and the 7-state tilt detector 38 detects the peak time and the off-peak time of the user to take hot water and cold water for efficiency management. The device 39 controls the use state and heating time of all or part of the plurality of hot water tanks according to the peak time and the peak time. For example, the efficiency manager 39 can heat and heat all of the plurality of hot water tanks during the most off-peak time when the cranes are heated and insulated at the peak time. This design has the effect of saving water, saving electricity and saving time. As shown in Fig. 4®, it is a schematic diagram of an embodiment of the smart drink m of the present invention. The intelligent drinking water system 4 includes a plurality of drinking water equipment (as shown in the figure - drinking water equipment 40 second drinking water equipment 4 〇 2, third drinking water equipment 4 〇 3) and the information center * 卜, 12 M432016 • message center 41 through The network 42 connects the drinking water devices to receive various status messages from the drinking water device and generate corresponding control commands. The wisdom of the creation of the drinking water device in the drinking water system must have a status detector for reading and judging the status of the drinking device to generate a status message, and the status message is sent back to the message center 41 via the network 42 for judgment. And decision making. For example, the status detector can be a filter detector for detecting and judging the status message of the filter, and transmitting the status message of the filter to the message center to be used by the message center. Determine whether to issue a filter replacement command. For example, when the message center 41 judges that the first drinking device 401 and the second drinking device 4〇2 have to replace the filter, the route planning can be performed according to the position of the maintenance personnel and the position of the drinking device, thereby saving the human resource cost of the manufacturer, and also It can quickly solve the problem of the client (water drinking device user). In detail, the status detector can be used to detect and judge the status information of the components of the drinking device, and return the status message to the message center 41, so that the message center can call for the components of the drinking water device to be abnormal or When the error occurs, the maintenance order is issued. After the message center 41 has mastered all the status of the drinking water equipment, whether it is the maintenance, maintenance or other requirements of the client, it can be grasped immediately, and then the strategy is developed through the analysis algorithm to provide customers with all-round integration. Sexual water service. The message center 41 may include performance management hacking to perform the aforementioned analysis algorithms and strategy formulation. For example, when the status message of the plurality of drinking water devices in the message ~41 is abnormal or wrong, the performance official device may be based on the location information of the plurality of drinking water devices, the model information of the plurality of drinking water devices, the preparation information or the maintenance personnel. Maintenance information for optimal location information 13 M432016 • In summary, the smart drinking water equipment and system of this creation, using various institutional designs and data links, can provide users with more convenience than drinking water dispensers. Safe, energy-saving and user-friendly drinking water service. The above embodiments are merely illustrative of the principles and functions of the present invention and are not intended to be limiting. Anyone skilled in the art can modify and change the above embodiments without the spirit of the present invention. In view of this, the scope of protection of this creation and the scope of protection shall be as listed in the scope of application for patents mentioned later. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1A is a schematic diagram of an embodiment of a smart drinking water device of the present invention; FIG. 1B is a schematic diagram of light indicating positioning of the intelligent drinking water device of the present invention; FIG. 2A is a wisdom of the present creation Schematic diagram of another embodiment of a type of drinking water apparatus; FIG. 2B is a schematic diagram of a turbidity detector of the intelligent drinking water apparatus of the present invention; FIG. 2C is a schematic diagram of a filter heart detector of the intelligent drinking water apparatus of the present invention; Fig. 3 is a block diagram of still another embodiment of the smart drinking device of the present invention; and Fig. 4 is a schematic view of an embodiment of the smart drinking water system of the present invention. [Main component symbol description] I ' 2 Creative water drinking device 10 ' 20 Water storage tank II Inlet and outlet circuit pipeline M432016
12、 22 出水頭 13、 23 出水辅助光源 131 光標不 14 接水容器 25 進水管線 26 濁度偵測器 260 光發射元件 261 光感測元件 262 、273 分析元件 27 過濾器 270 瀘心 271 進水流量偵測元件 272 出水流量4貞測元件 38 狀態偵測器 380 冷水量感測器 381 熱水量感測器 382 使用數據紀錄器 39 效率管理器 4 本創作之智慧型飲水系統 401 第一飲水設備 402 第二飲水設備 403 第三飲水設備 41 訊息中心 42 網路 1512, 22 Outlet 13 and 23 Outlet auxiliary light source 131 Cursor not 14 Water receiving container 25 Inlet line 26 Turbidity detector 260 Light emitting element 261 Light sensing element 262, 273 Analysis element 27 Filter 270 271 271 Water flow detecting element 272 Outflow flow rate 4 Detecting element 38 State detector 380 Cold water amount sensor 381 Hot water amount sensor 382 Using data logger 39 Efficiency manager 4 Creative water drinking system 401 First drinking water equipment 402 second drinking device 403 third drinking device 41 message center 42 network 15