M418269 五、新型說明: 【新型所屬之技術領域】 本新型係關於-種熱水供應系統及熱水供應系統之控制裝 置’特別是-種具細遙妙置的熱水供齡統及熱水供 之控制裝置。 【先前技術】 熱水器主要係利用瓦斯燃燒或是使用電熱以對水進行加熱處 理’以提供適#的水溫供人键洗。細受季節、轉、瓦· 錢電流穩定度料在因素影響,常無法將水溫控制在恒溫^ 態,往往造成水溫的忽冷忽熱,對於使用者而言產生極大的不便。 現有具有怪_控的熱水器,係具有一冷水輸入管,盆用來 餅水輸人於财_部的—水箱。熱水器彻峨瓦斯崎水 相内健存的錢行加熱,而水箱内加熱之後的熱賴是由熱水器 =熱水輸出管輸出。為了偵測熱水器輸出的水溫,熱水輸出管。 =裝财-溫顧·,並另外裝設有瓦斯流量控制器以控制 2流^制器以控制耗電功率。此外,藉由—水溫控制器電性 度感測器與瓦斯流量控㈣之間,使水溫控繼 器以增加或減少瓦斯流量,藉以調整輸出水溫維持在 並益然而’上述藉由調整瓦斯流量以控制水溫的手段 之間會具有較大的誤差範圍存在。于,、際水恤與麵的水溫 f且,當使用者於室喊用上触溫操控的熱水器 時’使时法騎改㈣水器㈣水溫度,因此使財必須欠 M418269 藉由直接調整水龍頭的冷熱水出水比例來達到及時改變出水溫度 的效果。然而,在以水龍頭的冷熱水出水比例調整出水溫度的同 時,使用者皆需親自以身體(如手)接觸出水水流來試探溫度,以 -將出水溫度調整到使用者滿意的地步。如此一來,使用者將容易 因調整水龍頭的冷熱水出水比例之不當,造成片刻之出水水溫過 冷或是過熱的現象,甚至因此造成燙傷意外的發生。 【新型内容】 本新型提供一種熱水供應系統,藉以解決習用出水溫度的調 整需要藉由使用者以自身身體測試水溫來適當調整水龍頭的冷熱 水出水比例,如此易造成燙傷意外發生之問題。 本新型所揭露之熱水供應系統,其包含一熱水儲槽、一冷水 * · · 源、一水温調節裝置、一驅動裝置、多個感應裝置、一控制裝置 及一遠端遙控裝置。水溫調節裝置具有一冷水入口、一熱水入口 以及連通冷水入口及熱水入口的一出水口。熱水入口連接熱水儲 槽’冷水入口連接冷水源。驅動裝置設置於水溫調節裝置,驅動 裝置驅動水溫調節裝置調整冷水入口之冷水流量以及熱水入口之 鲁 熱水流量。多個感應裝置分別設置於冷水入口、熱水入口以及出 - 水口處’這些感應裝置偵測冷水入口、熱水入口以及出水口的水 流量及水溫。控制裝置電性連接驅動裝置,控制裝置接收這些感 、 應裝置所測得的多筆水溫及流量資訊。遠端遙控裝置發送一設定 、 數值至控制震置,控制裝置根據設定數值及這些筆水溫及流量資 訊而控制驅動裝置驅動水溫調節裝置調整出水口之水溫及流量。 本新·型所揭露之熱水供應系統之控制裝置,其包含一水溫調 4 M418269 節裝置、一驅動裝置、多個感應裝置、一控制裝置及一遠端遙控 裝置。水溫調節裝置具有一冷水入口、一熱水入口以及連通冷水 入口及熱水入口的一出水口。驅動裝置設置於水溫調節裝置’驅 動裝置驅動水溫調節裝置調整冷水入口之冷水流量以及熱水入口M418269 V. New description: [New technical field] This new type is related to the control device of the hot water supply system and the hot water supply system, especially the hot water supply system and hot water with fine remoteness. For the control device. [Prior Art] The water heater mainly uses gas combustion or uses electric heat to heat the water to provide a suitable water temperature for key washing. It is often affected by factors such as season, turn, and watt-money current stability. It is often impossible to control the water temperature in a constant temperature state, which often causes the water temperature to be hot and cold, which is extremely inconvenient for the user. The existing water heater with strange control has a cold water input pipe, and the pot is used for the water in the water tank. The water heater is heated by the money stored in the gas phase, and the heat after heating in the water tank is output by the water heater = hot water outlet pipe. In order to detect the water temperature of the water heater output, the hot water outlet tube. = Filling-Warming, and additionally equipped with a gas flow controller to control the 2 flow controller to control the power consumption. In addition, by the water temperature controller electrical sensor and the gas flow control (four), the water temperature control device is used to increase or decrease the gas flow, thereby adjusting the output water temperature to maintain and benefit. There is a large margin of error between the means of adjusting the gas flow to control the water temperature. In, the water temperature of the water and the face of the water, and when the user shouts in the room to use the temperature-controlled water heater, 'the time to ride the horse (four) water (four) water temperature, so the money must owe M418269 by direct Adjust the proportion of hot and cold water in the faucet to achieve the effect of changing the temperature of the water in time. However, while adjusting the temperature of the water with the proportion of hot and cold water from the faucet, the user needs to personally touch the water flow with the body (such as a hand) to test the temperature, so as to adjust the temperature of the water to the satisfaction of the user. In this way, the user will easily adjust the faucet's improper proportion of hot and cold water, causing the water temperature of the effluent to be too cold or overheated for a while, and even cause a burn accident. [New content] The present invention provides a hot water supply system, so as to solve the problem of the accidental occurrence of burns, the user needs to adjust the water temperature of the faucet by the user to test the water temperature by himself. The hot water supply system disclosed in the present invention comprises a hot water storage tank, a cold water source, a water temperature adjusting device, a driving device, a plurality of sensing devices, a control device and a remote control device. The water temperature regulating device has a cold water inlet, a hot water inlet, and a water outlet connecting the cold water inlet and the hot water inlet. The hot water inlet is connected to the hot water storage tank. The cold water inlet is connected to the cold water source. The driving device is disposed in the water temperature adjusting device, and the driving device drives the water temperature adjusting device to adjust the cold water flow of the cold water inlet and the hot water flow of the hot water inlet. A plurality of sensing devices are respectively disposed at the cold water inlet, the hot water inlet, and the outlet-water outlet. These sensing devices detect the water flow rate and water temperature of the cold water inlet, the hot water inlet, and the water outlet. The control device is electrically connected to the driving device, and the control device receives the plurality of water temperature and flow rate information measured by the sensing device. The remote remote control device sends a setting and a value to the control, and the control device controls the driving device to drive the water temperature adjusting device to adjust the water temperature and flow rate of the water outlet according to the set value and the pen water temperature and flow information. The control device of the hot water supply system disclosed in the present invention comprises a water temperature adjustment 4 M418269 device, a driving device, a plurality of sensing devices, a control device and a remote control device. The water temperature regulating device has a cold water inlet, a hot water inlet, and a water outlet connecting the cold water inlet and the hot water inlet. The driving device is disposed in the water temperature adjusting device. The driving device drives the water temperature adjusting device to adjust the cold water flow of the cold water inlet and the hot water inlet.
之熱水流量。多個感應裝置分別設置於冷水入口、熱水人口以及 出水口處’這些感應裝置偵測冷水入口、熱水入口以及出水口的 水流量及水溫。控制裝置電性連接驅動裝置,控制裝置接收這些 感應裝置所測得的多筆水溫及流量資訊。遠端遙控裝置發送一設 定數值至控制裝置,控制裝置根據設定數值及這些筆水溫及流量 資訊而控制驅動I置驅動水溫調節.裝置調整出水口之水溫及流 4^ ° 根據上述本新型所揭露之熱水供應系統,使用者係藉遠端道 餘穿望的出水溫度或是出水流量’控制裝置根據遠端 之望數值而進行調整水溫裝冷 '熱水達 :::::使 及水流量,'定身遙溫 自行調整_的冷、熱水 _财>皿’以 有關本新敗__實作=^_傷傷害。 細說明如下,其内宏 ' 錄配合圖式在實施方式中詳 術内容並據以實施 何心^目關技術者了解本新型之技 匕且根據本說明奎你 又 熟習相關技術者可輕易地理解:仙路之内容及圖式,任何 .【實施方式】 孓相關之目的及優點。 请參照「第1圖」,「第i圖」所示為根據本新型一實施例之 熱水供應系統的結構方塊示意圖。 本實施例之熱水供應系統10,其包含一熱水儲槽6〇〇、一冷 水源700、-水溫調節裝置·、一驅動裝置2〇〇、多個感應裝置 3〇〇、一控制裝置400及一遠端遙控裝置5〇〇。 本實施例之水溫調節裝置1〇〇具有具有一冷水入口 11〇、一熱 水入口 120以及-出水口 130,冷水入口 11〇、熱水入口 12〇及出 水口 130係互相連通。冷水入口 11()連接冷水源7〇〇,冷水源7〇〇 可以是但不侷限於-般的供水水塔’冷水源雇提供冷水經由冷 水入口 110進入水盈調節裝置熱水入口 連接熱水儲槽 600 ’熱水儲槽600存放有熱水,熱水儲槽6〇〇提供熱水經由熱水 入口 120進入水溫調節裝置100。其中,熱水儲槽6〇〇可以只是一 儲水槽,其熱水來源可藉由其他附屬的加熱設備而將冷水升溫至 熱水,譬如熱水賴6GG的熱水來源可藉由冷水經太陽能加熱或 電熱加熱而成。或者,熱水__本身即為具有加熱功能的加 熱器,譬如瓦斯熱水器、電熱水器或太陽能熱水器,但不以此為 限。 冷水與熱水分別經由冷水入口 11〇及熱水入口 12〇而進入水 溫調節裝置100内,冷水與熱水並於水溫調節裝置1〇〇内進行混 合與熱交換,並由出水口 130排出水溫調節裝置100外以供使用 者使用。其中,由於冷水入口 Π〇、熱水入口 12〇及出水口 13〇 係互相連通,因此冷水入口 11〇的冷水進水流量與熱水入口 12〇 的熱水進水流量之總合,即為出水口 130的出水量總合。舉例來 M418269 S兄’假设冷水Λπ 110的冷水進水流量為V卜熱水入D 120的熱 水進水流量為V2,出水口⑽的出水流量V3,則w、%與^滿 足關係式一:V1+V2=V3。 亚且,由於冷水與熱水係於水溫調節裝置100内進行混合與 熱交換而由出知130排出,因此由出水口⑽排出的水流之出 •水溫度係由進入水溫調節裝置1〇〇⑽冷水及熱水的水量與溫度 來決疋。更進-步來說,假設冷水的溫度為Ή,熱水的溫度為丁2, •出水口 130的出水溫度為T3 ’則根據能量守怪定律,需滿足關係 式二:T1*V1+T2.V2=T3.V3。 由關係式-與關係式二可得到以下式子:T1.vm2v2=T3. (V1+V2)。上述式子經過整理後’可得到關係式三:T3=(:Tm V2)/(V1+V2)。因此’影響出水溫度T3畔數為冷水溫度τ卜冷 水進水流量熱水溫度Τ2以及熱錢賴量V2。藉由調整上 述參數,皆可改變出水溫度T3。 簡而言之’在冷水溫度T1與熱水溫度T2大致保持穩定之定 值的狀悲下,水溫度Τ3可藉由冷水進水流量V1與熱水進水流量 V2的比例搭配來進行調整。換言之,水溫調節裝置1〇〇即可控制 冷水入σ 110的冷水進水流量以及熱水入〇 12〇的熱水進水流 量,以進行调節出水口 130的出水溫度之功效。 此外,^個感應裝置3〇〇係分別設置於冷水入口 HQ '熱水入 口 120以及出水口 130。感應裝置3〇〇用以偵測冷水入口 11〇的冷 水溫度τι與冷水進水流量V1、熱水入口 12〇的熱水溫度Τ2與熱 水進水加·里V2以及出水口 13〇的出水溫度Τ3與出水流量等資 M418269 訊0 驅動裝置200設置於水溫調節裝置100,驅動裝置2〇〇用以驅 動水溫調節裝置100控制冷水入口 110的冷水進水流量7丨以及熱 水入口 120的熱水進水流量V2。 控制裝置400電性連接驅動裝置200’控制裝置4〇〇接收感應 裝置300所測得的冷水溫度T1、冷水進水流量V1、熱水溫度Τ2、 熱水進水流量V2、出水溫度Τ3及出水流量V3的資訊,並根據上 述的資訊操控驅動裝置2〇〇驅動水溫調節裝置100。遠端遙控褒置 500用以供使用者於遠端操控控制裝置4〇〇,以調整出水溫度Τ3 及出水流量V3能夠達到使用者期望的狀態。 請繼續參照「第.1圖」。詳細來說,控制裝置400更包含一操 控單元410、一計算單元420及一第二接收單元430。遠端遙控裝 置500更包含一顯示單元51〇、一輸入單元520、一輸出單元530 及一第一接收單元540。 其中,顯示單元51〇可為一螢幕,輸入單元520可為一按鍵。 第一接收單元540以及第二接收單元43〇分別可接收感應裝置所 發送的冷水溫度Τ1、冷水進水流量V1、熱水溫度Τ2、熱水進水流 量V2、出水溫度T3及出水流量V3的資訊數值。顯示單元510可 選擇性的顯示上述水流溫度及流量的資訊。舉例來說,使用者可 藉由遠端遙控裝置5〇〇的顯示單元51〇而只看到冷水溫度τι、熱 水溫度丁2及出水溫度T3,並根據目前的出水溫度T3判斷是否要 δ周整出水溫度T3的設定值。或者,使用者藉由遠端遙控裴置500 的顯示單元510除了得知冷水溫度Ή、熱水溫度Τ2及出水溫度 8 M418269 T3外,包含冷水進水流量v卜熱水進水流量^及出水流㈣的 資訊也可一併獲得。 —使用者可藉由輸人單元_輸人舰灿水溫度T3以及出水 流量V3,而制麵輸⑽設定錄(如上述出水溫度T3或出水 流量V3)經由輪出單元53〇發送至控織置働,控制裝置棚的 ••第二接收單元430則接收此設定數值。計算單元420根據第二接 收單元430由輸出料53〇處所接收的設定數值以及由感應裝置 籲3〇0處所接收的冷水溫度Τ卜冷水進水流量V卜熱水溫度Τ2及敎 水進水流量V2,以計算獲得一操控指令。操控單元根據此操 控指令而控伽練置· ’令驅動裝置驅動水溫調節裝置 100適當的控制冷水進水流量V1及熱水進水流量V2。 舉例來說,若冷水溫度T1為20度,熱水溫度T2為8〇度, 林進水流量VI絲秒_毫升,熱水進水流量V2為每秒1〇〇 笔升,則此時的出水溫度T3為50度,而出水流量V3為每秒2〇〇 毫升0 I 饭设使用者覺得水溫太熱而期望將出水溫度丁3調降為祁 度’且期望出水流量V3能夠維持目前流量,則只需對輸入單元52〇 的酿度操控功能輸入35度,則計算單元420便會根據這些水量及 水温的數值以及關係式三的規則,進而計算出一最適當的操控指 令。操控單元410根據此操控指令控制驅動裝置2〇〇驅動水溫調 節裝置100,令冷水進水流量VI提升為每秒150毫升以及熱水進 水流量V2減少為每秒50毫升,使得出水流量V3維持每秒2〇〇毫 升,而出水溫度T3則因冷水進水流量vi的提升以及熱水進水流 M418269 量V2的減少而下降為35度。 若使用者覺得水社㈣期黯^水流量V3提升為每秒獅 毫升,且^望出水溫度T3能夠維持目前溫度’則只需對輸入單元 520的水1操控功能輸入3〇〇毫升,則計算單元42〇便會根據這些 水量及水溫的數值以及_式三的酬,進而計算出—最適當^ 操控指令。操控單元410根據此操控指令控制驅動裝置 水溫調節裳置1〇〇 ’令冷水進水流量V1提升為每秒15〇毫升以及 熱水紗流量㈣時提升絲秒⑽毫升,使得丨核量^提 升為每秒300毫升,而出水溫度T3維持為5〇度。 若使用者同時覺得水流太小且水溫太高,則可同時對輸入單 元520的水量及溫度操㈣能輸人触触溫及出水量,計算單 το 420便會根據這些水量及水溫的數值以及關係式三的規則,進 而計算出一最適當的操控指令。 。若使用者期望將水溫調至最高,則可對輸入單元52〇的溫度 操控功能輸人最高溫齡。此時,計算單元42以接下達切斷ς 水進水流量ν!的指令,亦即使冷水進水流量V1為零而完全由= 水進水流量V2提供出水口所需的出水流量V3。反之,若使用者期 望將水溫調至最低,則可對輸入單元52〇的溫度操控功能輸入最 低溫指令。此時,計算單元42〇 Μ下達切斷熱水進水流量Μ的 指令,亦即使熱水進水流量V2為零而完全由冷水進水流量W提 供出水口所需的出水流量y3。 此外,遠端遙控裝置500 _示單元⑽也可具有錯誤提示 功能’亦即若制者所輸人的脉溫度T3或是出水流量Μ已超 M418269 良/Jm調卽裝置100能夠達成的範圍時,顯示單元510便會顯示 % σ知使用者。舉例來說,當使用者輸入期望的出水溫度 Τ3為90度時,而熱水溫度Τ2卻只有8〇度。此時使用者所輸入的 湧王出水溫度便已超出水溫調節裝置100能夠達成的範圍,顯 不單兀510便會顯示錯誤訊息提醒使用者進行修正。 ; 此外,當出水口 130不斷出水的同時,熱水儲槽600的熱水 乂及冷水源的冷水溫度Τ1可能會有些許的溫差變化。此 •時’控制袭置_透過感應裝置對熱水溫度Τ2以冷水溫度T1 的監測’可隨時修正冷水進水流量VI與熱水進水流量V2,以使出 水’皿度T3此夠維持於一恆溫狀態,以提供使用者良好的供水品質。 根據上述本實施例所揭露之熱水供應系統,使用者係藉遠端 4置來輸人期望的出水溫度或是出水流量’控制|置根據遠 糕遙控裝置傳达的期望數值而進行調整水溫調節裝置的冷、熱水 進水机m進而使出水溫度或流量制使时的期待。並 籲且,控制裝置透過感應裝置監測冷、熱水溫度,以隨時修正冷、 •…、尺的進水/瓜里’使出水溫度能夠穩定地維持於怪溫狀,離。是以 這樣的熱水供應系統,可令使用者藉由遠端遙控裝置來胖 =水流如達觸定的期望值,避免仙者以自身身體來測試: /皿以自仃调整水龍頭的冷、熱水出水比例所造成可能的费傷 害。 隹;’、;、本新1之^例揭露如上所述’然並翻以限定本新 型,任何熟習相關技藝者,在不脫離本新型之精神和範圍内,舉 凡依本新型申請朗所述之祕、構造、及料當可做些許 M418269 之變更,因此本新型之專利保護範圍須視本說明書所附之申請專 利範圍所界定者為準。 【圖式簡單說明】 系统的結構方 第1圖所示為根據本新型一實施例之熱水供應 塊示意圖。 【主要元件符號說明】 10 熱水供應系統 100 水溫調節裝置 110 冷水入口 120 熱水入口 130 出水口 200 驅動裝置 300 感應裝置 400 控制裝置 410 操控單元 420 計算單元 430 弟一接收單元 500 遠端遙控裝置 510 顯示單元 520 輸入單元 530 輸出單元 540 第一接收單元 600 熱水儲槽 12 M418269 700 冷水源Hot water flow. A plurality of sensing devices are respectively disposed at the cold water inlet, the hot water population, and the water outlet. These sensing devices detect the water flow and water temperature of the cold water inlet, the hot water inlet, and the water outlet. The control device is electrically connected to the driving device, and the control device receives the plurality of water temperature and flow information measured by the sensing device. The remote remote control device sends a set value to the control device, and the control device controls the drive I to drive the water temperature adjustment according to the set value and the pen water temperature and flow rate information. The device adjusts the water temperature and flow of the water outlet 4^° according to the above In the new hot water supply system disclosed, the user uses the remote water channel to see the outlet water temperature or the outlet water flow rate. The control device adjusts the water temperature according to the value of the remote end. The hot water reaches:::: : Make and water flow, 'fixed body temperature to adjust _ cold, hot water _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ The details are as follows, the macros in the book are combined with the details in the implementation method, and according to the implementation of the technology, the technicians understand the technology of the new model and according to the description, you can easily learn the relevant technology. Understand: the content and schema of Xianlu, any. [Implementation] 孓 related purposes and advantages. Please refer to "FIG. 1", which is a block diagram showing the structure of a hot water supply system according to an embodiment of the present invention. The hot water supply system 10 of the present embodiment comprises a hot water storage tank 6〇〇, a cold water source 700, a water temperature adjusting device, a driving device 2〇〇, a plurality of sensing devices 3〇〇, and a control. The device 400 and a remote control device 5 are. The water temperature adjusting device 1 of the present embodiment has a cold water inlet 11 〇, a hot water inlet 120 and a water outlet 130, and the cold water inlet 11 〇, the hot water inlet 12 〇 and the water outlet 130 are in communication with each other. The cold water inlet 11 () is connected to the cold water source 7 〇〇, and the cold water source 7 〇〇 can be, but is not limited to, a general water supply tower. The cold water source employs cold water to enter the water balance adjusting device through the cold water inlet 110 to connect the hot water storage to the hot water storage. The tank 600 'the hot water storage tank 600 stores hot water, and the hot water storage tank 6 provides hot water to enter the water temperature adjusting device 100 via the hot water inlet 120. Among them, the hot water storage tank 6 can be just a water storage tank, and the hot water source can raise the cold water to the hot water by other auxiliary heating equipment, for example, the hot water source of the hot water can be cooled by the solar energy. Heated or heated by electric heating. Alternatively, the hot water__ itself is a heating heater, such as a gas water heater, an electric water heater or a solar water heater, but is not limited thereto. The cold water and the hot water enter the water temperature adjusting device 100 through the cold water inlet 11 and the hot water inlet 12 respectively, and the cold water and the hot water are mixed and exchanged in the water temperature adjusting device 1 , and the water outlet 130 The water temperature adjusting device 100 is discharged outside for the user to use. Wherein, since the cold water inlet port, the hot water inlet 12〇 and the water outlet 13 are connected to each other, the total of the cold water inlet flow rate of the cold water inlet 11〇 and the hot water inlet flow rate of the hot water inlet 12〇 is The water output of the water outlet 130 is summed. For example, M418269 S brother's assumption that the cold water inlet flow rate of cold water Λ π 110 is V, the hot water inlet flow rate of hot water into D 120 is V2, and the outlet flow rate V3 of the water outlet (10), then w, % and ^ satisfy the relationship :V1+V2=V3. In addition, since the cold water and the hot water are mixed and exchanged in the water temperature adjusting device 100 and are discharged from the water 130, the water flow discharged from the water outlet (10) is supplied to the water temperature adjusting device. 〇 (10) The amount of cold water and hot water is determined by the amount of water and temperature. In the further step, it is assumed that the temperature of the cold water is Ή, the temperature of the hot water is 丁2, and the temperature of the outlet of the water outlet 130 is T3'. According to the law of energy stagnation, it is necessary to satisfy the relationship 2: T1*V1+T2 .V2=T3.V3. From the relation - and the relationship 2, the following formula can be obtained: T1.vm2v2 = T3. (V1 + V2). After the above formula is sorted, the relationship 3 can be obtained: T3 = (: Tm V2) / (V1 + V2). Therefore, the number of the affected water temperature T3 is the cold water temperature τ, the cold water inlet water flow rate, the hot water temperature Τ2, and the hot money amount V2. The water temperature T3 can be changed by adjusting the above parameters. In short, the water temperature Τ3 can be adjusted by the ratio of the cold water inflow flow rate V1 to the hot water inflow flow rate V2 in the case where the cold water temperature T1 and the hot water temperature T2 are substantially constant. In other words, the water temperature adjusting device 1 can control the cold water inflow flow rate of the cold water into the σ 110 and the hot water inflow flow rate of the hot water into the crucible 12 to perform the effect of adjusting the outlet water temperature of the water outlet 130. Further, the sensing devices 3 are respectively disposed at the cold water inlet HQ 'hot water inlet 120 and the water outlet 130. The sensing device 3 is configured to detect the cold water temperature τι of the cold water inlet 11〇 and the cold water inlet flow rate V1, the hot water temperature Τ2 of the hot water inlet 12〇, the hot water inlet and the water V2, and the outlet of the water outlet 13〇. The temperature Τ3 and the outlet flow rate and the like are provided. The driving device 200 is disposed in the water temperature adjusting device 100, and the driving device 2 is configured to drive the water temperature adjusting device 100 to control the cold water inlet flow rate 7丨 of the cold water inlet 110 and the hot water inlet 120. The hot water inflow rate V2. The control device 400 is electrically connected to the driving device 200'. The control device 4 receives the cold water temperature T1 measured by the sensing device 300, the cold water inflow water flow V1, the hot water temperature Τ2, the hot water inflow flow rate V2, the outlet water temperature Τ3, and the effluent. The flow rate V3 is information, and the water temperature adjusting device 100 is driven by the driving device 2 according to the above information. The remote remote control device 500 is configured for the user to remotely control the control device 4 to adjust the water temperature Τ3 and the water discharge flow rate V3 to a state desired by the user. Please continue to refer to "Fig. 1". In detail, the control device 400 further includes an operation unit 410, a calculation unit 420, and a second reception unit 430. The remote control device 500 further includes a display unit 51, an input unit 520, an output unit 530, and a first receiving unit 540. The display unit 51 can be a screen, and the input unit 520 can be a button. The first receiving unit 540 and the second receiving unit 43 可 can respectively receive the cold water temperature Τ1, the cold water inlet flow rate V1, the hot water temperature Τ2, the hot water inlet flow rate V2, the outlet water temperature T3, and the effluent flow rate V3 sent by the sensing device. Information value. The display unit 510 can selectively display information on the temperature and flow rate of the water flow. For example, the user can only see the cold water temperature τι, the hot water temperature □2 and the effluent temperature T3 by the display unit 51 of the remote control device 5, and judge whether or not δ according to the current effluent temperature T3. The set value of the peripheral water temperature T3. Alternatively, the display unit 510 of the remote control device 500 includes the cold water inlet flow rate, the hot water inlet flow rate, and the cold water inlet temperature, the hot water temperature Τ2, and the outlet water temperature 8 M418269 T3. Information on the flow (4) can also be obtained. - The user can transmit the (10) setting record (such as the above-mentioned outlet water temperature T3 or the outlet water flow rate V3) via the wheel-out unit 53〇 to the control weaving by means of the input unit _ input ship canopy temperature T3 and the outlet flow rate V3. The second receiving unit 430 of the control device shed receives the set value. The calculating unit 420 is based on the set value received by the second receiving unit 430 from the output material 53〇 and the cold water temperature received by the sensing device 〇3〇0, the cold water inlet flow rate V, the hot water temperature Τ2, and the sluice water inlet flow rate. V2, to obtain a manipulation command by calculation. The control unit controls the driving device according to the operation command to cause the driving device to drive the water temperature adjusting device 100 to appropriately control the cold water inflow flow rate V1 and the hot water inflow flow rate V2. For example, if the cold water temperature T1 is 20 degrees, the hot water temperature T2 is 8 degrees, the forest water flow rate is VI seconds _ml, and the hot water inlet flow rate V2 is 1 liter per liter, then the water temperature at this time T3 is 50 degrees, and the outlet flow rate V3 is 2 inches per second. 0 I The user feels that the water temperature is too hot and expects to reduce the outlet temperature to 3, and the expected outlet flow V3 can maintain the current flow. Then, only 35 degrees of the brewing manipulation function of the input unit 52〇 is input, and the calculating unit 420 calculates a most appropriate manipulation command according to the values of the water amount and the water temperature and the rule of the relational formula 3. The control unit 410 controls the driving device 2 to drive the water temperature adjusting device 100 according to the manipulation command, so that the cold water inlet flow rate VI is increased to 150 ml per second and the hot water inflow flow rate V2 is reduced to 50 ml per second, so that the outlet flow V3 is made. Maintaining 2 〇〇2 per second, and the effluent temperature T3 is reduced to 35 degrees due to the increase in the cold water inflow flow vi and the decrease in the hot water inflow M418269 amount V2. If the user thinks that the water flow rate V3 of the water company (fourth) is increased to lion milliliters per second, and that the water temperature T3 can maintain the current temperature, then only the water 1 control function of the input unit 520 is required to input 3 milliliters. The calculation unit 42 will calculate the most appropriate control command based on the values of the water amount and the water temperature and the reward of the third type. The control unit 410 controls the water temperature adjustment of the driving device according to the manipulation command to increase the cold water inlet flow rate V1 to 15 〇 per second and the hot water yarn flow rate (four) to increase the wire seconds (10) cc, so that the nucleus amount ^ The lift is 300 ml per second, while the outlet water temperature T3 is maintained at 5 degrees. If the user feels that the water flow is too small and the water temperature is too high, the water volume and temperature of the input unit 520 can be simultaneously operated. (4) The temperature and the water output can be input, and the calculation of the single το 420 will be based on the water volume and the water temperature. The values and the rules of relation three, in turn, calculate the most appropriate manipulation command. . If the user desires to adjust the water temperature to the highest level, the temperature control function of the input unit 52 can be input to the highest temperature. At this time, the calculation unit 42 receives the command to cut off the turbulent water inlet flow rate ν!, and even if the cold water inlet flow rate V1 is zero, the water discharge flow rate V2 required for the outlet is completely provided by the = water inlet flow rate V2. Conversely, if the user desires to adjust the water temperature to a minimum, the lowest temperature command can be input to the temperature control function of the input unit 52A. At this time, the calculation unit 42 〇 Μ gives an instruction to cut off the hot water inflow flow rate ,, and even if the hot water inflow flow rate V2 is zero, the cold water inflow flow rate W completely supplies the outlet flow rate y3 required for the outlet. In addition, the remote control device 500-display unit (10) may also have an error prompt function 'that is, if the pulse temperature T3 of the person input by the maker or the flow rate of the water flow exceeds the range that can be achieved by the M418269 good/Jm adjustment device 100. The display unit 510 displays % σ to know the user. For example, when the user inputs the desired outlet temperature Τ3 to 90 degrees, the hot water temperature Τ2 is only 8 degrees. At this time, the temperature of the rushing water input by the user has exceeded the range that the water temperature adjusting device 100 can achieve, and an error message is displayed to prompt the user to perform the correction. In addition, while the water outlet 130 continuously discharges water, the hot water temperature of the hot water storage tank 600 and the cold water temperature of the cold water source Τ1 may have a slight temperature difference. This time 'control attack _ through the induction device for the hot water temperature Τ 2 to monitor the cold water temperature T1' can be corrected at any time to the cold water inflow flow VI and the hot water inflow flow V2, so that the effluent 'degree T3 is enough to maintain A constant temperature state to provide users with a good water quality. According to the hot water supply system disclosed in the above embodiment, the user adjusts the water according to the desired value of the remote control device by using the remote terminal 4 to input the desired outlet temperature or the outlet flow rate. The cold and hot water water inlet m of the temperature regulating device further expects the temperature or flow rate of the water to be produced. Moreover, the control device monitors the temperature of the cold and hot water through the sensing device to correct the cold water, water, water, water, water, water, water, water, water, water, water, water, water, water, water, water, water This is a hot water supply system that allows the user to use the remote control device to get fat = water flow as expected, to prevent the immortal from testing with his own body: / dish to adjust the cold and hot of the tap Possible cost damage caused by the proportion of water in the water. 、; ',;, the new example of the new 1 is disclosed as described above, and the person skilled in the art is not limited to the spirit and scope of the present invention. The secrets, constructions, and materials are subject to change of M418269. Therefore, the scope of patent protection of this new type shall be subject to the definition of the patent application scope attached to this specification. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view showing a hot water supply block according to an embodiment of the present invention. [Main component symbol description] 10 Hot water supply system 100 Water temperature adjustment device 110 Cold water inlet 120 Hot water inlet 130 Water outlet 200 Drive device 300 Induction device 400 Control device 410 Control unit 420 Calculation unit 430 Brother-receiving unit 500 Remote control Device 510 Display unit 520 Input unit 530 Output unit 540 First receiving unit 600 Hot water storage tank 12 M418269 700 Cold water source