五、新型說明: 【新型所屬之技術領域】 資料ίΐΐΐ,—種水機能調理系統,其係利關建水質水溫 運d 算及邏輯判斷來控制其各裝置的啟動、關 閉以及運轉速度,關時提供水溫與水質的調理。 【先前技術】 量大產品,例如電熱式飲水機,可依照貯槽數 度可八膽式賤膽式’其中單膽電熱式飲水機之供水溫 i-種水溫二法段式’採自然降溫方式’僅能選 水機由於有兩個水溫;而雙細熱式飲 ^斤乂可同日可楗供兩種水溫,但仍無法滿 域之自來/二?Ϊ溫之需求。再者,上述兩者的水質均為所屬區 Ρ屬於中性之低、中硬度水,故現有之電数 啡沖泡^適^水『在水溫或水^方面均無法提供茶品沖泡、咖 【新型内容】 内建水機能調理系統,其可透過控制器並搭配 及運轉速度,而_提供水溫與水f的調理,以滿足不同 ,照本創作之-實施例,提供—種水機能調 二ΓΤ”口; 一溫度調理裝置,具有-又水二 ϋ: ΐ水口、一出水口、以及-氣體吸入口,盆中ί _:至:ΐί調理裝置的出水匯流口 ’以及此出水口之下 二; 一氣體產生裝置’連接至微細氣泡吸入 =裝置的出水口之上游;一使用者=; 内建水質水溫資料庫與内建程式,其中溫度調理裝置、^細^ -M403634 吸入攪拌裝置、氣體產生裝置、配方調理裝置、以及使用者介面 係與控制器訊號連接,並且受到控制器的控制。 本創作之其他實施樣態以及優點可從以下與用以例示本創作 原理範例之隨附圖式相結合的詳細說明而更顯明白。此外,為了 不對本創作造成不必要的混淆,在本說明書中將不再贅述為人所 熟知的元件與原理。 【實施方式】 圖1顯示依照本創作之一實施例之水機能調理系統之運作方 式的流程示意圖。依照本創作,使用者僅需在水機能調理系統的 使用者介面上簡單選擇其欲飲用的飲料類別(例如茶品、咖啡 '養 生水等等)以及飲料名稱(例如紅茶、綠茶、烏龍茶、鐵觀音、包種 茶'普洱茶、監山咖啡、曼特寧咖啡、摩卡咖啡、高約水、高鎖 水、尚氧水、碳酸水等等),然後與使用者介面訊號連接的微電腦 控制益可依據使用者的選擇(即來自使用者介面的訊號)而利用内 建水質水溫資料庫與内建程式進行運算,經數位運算(邏輯)判斷之 後’透過數位A號處理(DSP,digital signal processor)技術將運算資 料轉換為類比控制訊號以控制水機能調理系統内之各種裝置如 水溫控制裝置、水質控制裝置等等)的啟動、關閉、以及運轉速度, 進而達到調理水溫與水質之目的。此外,本創作之水機能調理系 統可依據劇7L制侧絲而糾包含水溫異常 等的警告訊息’並且依據喊程式的運算結配更 換等等的警告訊息。 己万更 f ^ 本實施例之水機能調_統1的概略 原水别處絲置3、溫度調理裝置5 , 生裝f 9、配方調理裝置U、使用者介面3〇 ^ 3。原水前處理裝置3、溫度調理裝置5、微細氣 7、氣體產生裝置9、配方調理裝置、 攪拌衣置 =器13訊號連接,並且受到控制器13的控制。水 、、先1的原水入口係連接至一原水來源(未圖示)。原水自ΐ M403634 可從水機能調料、統1的原水人口進人原水前處 ,置3的人水端(此時’原水前處理裝置3的人水端係連接至 機,調理系統1的原水入口),或者從水機能調理系統!的原水入 接進人溫度綱裝置5的人水端(此時,溫度綱裝置5、的入 2係連接至水機能調理纽丨的原水人口),針吾人可藉 或外加幫浦(例如電磁閥,未圖示)而將‘導又 =但若使用外加幫浦(電磁閥)來導入原水時,此外加幫浦可= 制态13訊號連接並且受到控制器]3的控制。以圖2所示之^ 例?言,縣係糊原水來縣身的水駿原水 " 進^其中原水前處理裝置3係介設在水機能調理置系統^ 裝置5的人水端之間° 1原水進入原水 原水可通過第一遽材15、第二濾材Π、第三 =二^及3值調整器21,上述各種濾材與⑼值調整_ 目的而提出,故不應視為限制。舉例而言,第 體ί'Ϊ /44;;7的Pf棉㈣材,其可用以首先去除水㈣固 物以性碳·,其可用以去除水中的有機 及19可為薄_子轉器,例 T^ZTTt:T: ^ — osmosis)^^: 二21 Ί*二v 7中的雜菌並且筛除不必要的離子;以及PH值調整 ^ 其他⑽侧整至弱驗性 水水置3過滤與調整ΡΗ值之後,可從原 ^扁置3的出水端進入溫度調理裝置5的入水端,並且 之人水π的賴進水電酬23以及設置在 7 口的,、、、膽進水電磁閥27而導入到冷膽25與熱膽29 理裝ί?ΪίΪ,、23以及熱膽進水電磁閥27 “接至溫^調 至言:η、,: ::_冷膽25可用以將其内所貯存之水的溫度降低 所^入進行保溫,即用以對從溫度調理裝置5之入水端 所輸的水進行貯存、冷卻、以及保溫;而熱膽29可用以將其内 ,_以對從溫 又,冷膽25與熱膽29 ,貯存、加熱、以及保溫。 測各自的水溫;以i液位·^未^ ,感測器(未圖示),用以監 25 29 ^ „ σ 及熱膽給水微贿浦33。在本 7 ^水^帛浦31以 Γ1以及熱膽給水微型幫二二 ' # ίϊ^/1^ 13 液位低於設定辦,二“ ^膽四内的液位計侧到其 器13會依據來自冷膽25及/ J埶膽52u 制器B,然後控制 訊號傳送到冷膽進水電磁閥23及^膽^^而將控制 動冷膽進水電_ 23及/或_進水電‘^^27 ’俾能啟 到冷膽進水電磁闕控制訊號傳送 y磁閥23及/或熱膽進水電 ^ 冷膽進 3溫度感測器偵測到其水溫係落在設定值白=25=或熱膽29内 訊^傳送到控制器13,然後控制器13 寺來Γίί測 水進行加熱;純水内的 到控制器13,'然後控制器13會依據來自心‘5 : a將峨傳送 之溫度翻11的喊祕控制職傳送到冷^ 2 1、熱膽29内 俾^止對冷膽25内的水進行冷卻及/或停止對4 ίΤ^29 ’ M403634 制控接收到來自伽者介面3G祕號時,控 帝狄H用内建水質水溫資料庫與内建程式進行運算,並經數 ㈣WU傳送到冷膽給水微型幫浦31 tiZnZitVV ’以啟動冷膽給水微型幫浦31及/或熱 匯流口。控制器U可依據嘛質水_;^== 以及熱量比熱原理來操控冷膽給水微型幫士建ϋ 出水匯流口處的水溫調理至設定值,在此出水二 水皿係洛在认疋值外4,此溫度感測器會將訊泸 面30 ’ ^日守,使用者介面30會以文字、圖形、以及聲音至 思、ΐ 一f方上式來提不並警告使用者目前水機能調理系統1係處於 j狀態:調理溫度與流量的—示範混合關_可參 '。、^ 所示之=範混合關係圖的設定條件為熱膽:95t /冷膽’ θ、 供水流量(Q3): 15GGex./min,依據熱量比熱 7 % 、 (id 2〇). (1500 . Q1) x s x (95. Td), #f)j e i3^ Q1J S x 及Q2(即,Q3 - Q1),其中S為水的比熱(1 c義,c : j 的水溫(即,期望的調理水溫)。然後,具有期望)為私 出水匯流,人微細氣泡吸人娜裝置7的人水口7, ^微:田= 吸入攪拌裝置7的人水σ係連接至溫度調理 、二乳泡 。。微細氣泡吸入攪拌裝f 7可具備氣體(如^氣、二7 5 細小化與攪拌的功能,以提升氣體溶入液體之嗖率虱化厌寺) 广3多物質在經過觸媒催化之後可產生二氧 氣’再利賴細氣泡技術將此氣體導人躲 =或虱 高濃度之碳酸水、氧水、氫水,依據侧讀槽何得 南虱水與碳酸水對人體财相當程度之_效果。因此,n創 偏3634 作之貫施例中亦可導入尚乳水、咼鼠水以及碳酸水等等的應用。 以下’將說明在本創作之實施例中的氣體導入應用。 〜 往回參考圖2,氣體產生裝置9係連接至微^氣泡吸入攪拌裝 置7。氣體產生裝置9可包含進氣微型電磁閥35以及與此進氣^ i電磁閥連接的觸媒氣體產生器37。微細氣泡吸入授摔穿置可 f用柏努力(Bernoulli)原理吸入由氣體產生裝置9之觸媒氣體產生 ^ 37所產生的氣體’並冑此氣體混合溶入具有期望調理水溫 中。氣體產生裝置9的概略示範構造係顯示在圖4中。如 ^觸媒氣體產生器37可包含:第一貯槽43,具有原料填料口 j以及^定出口 47,並且用以貯存原料(未圖示);以及第二貯槽 ,一有反應區51、觸媒填料口 53以及出氣口 %, f „示)+貯槽43係與第二貯槽49隔開,並透 出口 47而與第二貯槽49連通。 疋 兩要生Ϊ置/係利闕料與觸媒之間的化學反應來產生所 = 、二氣化碳科,因此其在應用上具有相冬大的 ‘第:在第一貯槽43内置入Η2〇2溶;並且 ί 1 2,當控制器13依照使用者的選擇而將V. New description: 【New technology field】 Data ΐΐΐ,------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- Provide water temperature and water conditioning. [Previous technology] Large-volume products, such as electric water dispensers, can be used according to the number of storage tanks. The water supply temperature of the single-breast electric water dispenser is i-species water temperature two-stage type. The way 'only water can be selected because there are two water temperatures; and the double fine hot drink can be used to supply two kinds of water temperature on the same day, but it is still unable to meet the needs of the local / second? Furthermore, the water quality of the above two are all low-medium and medium-hardness waters in the region, so the existing electric number of coffee is suitable for brewing water. In the water temperature or water, it is impossible to provide tea brewing. , coffee [new content] built-in water function conditioning system, which can be through the controller and match and running speed, and _ provide water temperature and water f conditioning to meet the difference, according to the creation - examples, provide - The water machine can be adjusted to a second port; a temperature regulating device has a water supply port: a water outlet, a water outlet, and a gas suction port, and a basin ί _: to: ΐ 调 调 调 调 调 调 以及 以及 以及Below the water outlet; a gas generating device 'connected to the micro-bubble suction = upstream of the water outlet of the device; a user =; built-in water quality water temperature database and built-in program, wherein the temperature conditioning device, ^ fine ^ - M403634 Inhalation agitation device, gas generating device, formulation conditioning device, and user interface are connected to the controller signal and controlled by the controller. Other implementations and advantages of this creation can be exemplified below and used to illustrate the creative principle. Fan The detailed description of the present invention will be more apparent from the detailed description of the drawings. In addition, in order not to unnecessarily obscure the present invention, the well-known elements and principles are not described in the specification. 1 is a schematic flow chart showing the operation mode of the water function conditioning system according to an embodiment of the present invention. According to the present creation, the user only needs to simply select the type of beverage to be consumed in the user interface of the water conditioning system (for example, tea). Products, coffee 'health water, etc.' and the name of the drink (such as black tea, green tea, oolong tea, Tieguanyin, Baocha tea 'Pu'er tea, Jianshan coffee, Mandheling coffee, mocha, high water, high water lock, The oxygen control, the carbonated water, etc., and then the microcomputer control connected to the user interface signal can be based on the user's choice (ie, the signal from the user interface) using the built-in water quality data library and the built-in program. The operation, after the judgment of the digital operation (logic), converts the operation data into analog control signals through the digital signal processor (DSP) technology to control The startup, shutdown, and operation speeds of various devices in the water conditioning system, such as water temperature control devices, water quality control devices, etc., thereby achieving the purpose of conditioning water temperature and water quality. In addition, the water conditioning system of the creation can be based on the drama. The 7L side wire is corrected to include a warning message such as a water temperature abnormality, and a warning message such as a replacement is performed according to the operation of the shouting program. 千万更f ^ The water source of the present embodiment is the outline of the original water. Wire setting 3, temperature conditioning device 5, raw material f 9, formula conditioning device U, user interface 3〇^ 3. raw water pretreatment device 3, temperature conditioning device 5, fine gas 7, gas generating device 9, formula conditioning device The stirring device=device 13 signal is connected and controlled by the controller 13. The water, the first raw water inlet is connected to a raw water source (not shown). Raw water self-proclaimed M403634 It can be imported from the original water of the water system, and the raw water population of the system 1 is placed in front of the original water. The water terminal of the original water pretreatment device 3 is connected to the machine, and the raw water of the conditioning system 1 is connected. Entrance), or from the water conditioning system! The raw water is taken into the human water end of the temperature device 5 (at this time, the temperature device 5, the 2 series connected to the water function to regulate the raw water population of the New Zealand), the needle can borrow or add a pump (such as electromagnetic The valve, not shown, will be 'conducted' but if an external pump (solenoid valve) is used to introduce the raw water, the additional pump can be connected to the state 13 signal and controlled by the controller]3. According to the example shown in Fig. 2, the water source of the county is the water source of the water source, and the raw water pretreatment device 3 is placed between the water terminals of the water system. ° 1 The raw water entering the raw water can be proposed by the first coffin 15, the second filter, the third=two and the three-value adjuster 21, and the above various filter materials and (9) value adjustment, and therefore should not be regarded as a limitation. For example, the Pf cotton (four) material of the first body ί' Ϊ / 44;; 7 can be used to first remove water (four) solid matter carbon, which can be used to remove organic matter in water and 19 can be thin _ sub-rotator , Example T^ZTTt:T: ^ — osmosis)^^: 2 21 Ί * 2 v 7 bacteria and screen out unnecessary ions; and pH adjustment ^ Other (10) side to weak water 3 After filtering and adjusting the enthalpy value, it can enter the water inlet end of the temperature conditioning device 5 from the water outlet end of the original flat panel 3, and the water π of the human water π is charged and 23 is set in the 7 port, The water solenoid valve 27 is introduced into the cold bladder 25 and the hot bladder 29, and 23, and the hot bladder water inlet solenoid valve 27 "connected to the temperature control to say: η,,: :: _ cold bladder 25 can be used The temperature of the water stored therein is lowered to be insulated, that is, to store, cool, and heat the water sent from the water inlet end of the temperature conditioning device 5; and the hot urinary 29 can be used therein. _With the temperature from the cold, cold gallbladder 25 and hot gallbladder 29, storage, heating, and heat preservation. Measure the respective water temperature; to i liquid level ^ ^ not ^, sensor (not shown), used 25 29 ^ "σ heat lamps and feedwater pump 33 micro bribe. In this 7 ^ water ^ 帛 31 31 31 Γ 1 and hot biliary water supply micro gang 22 ' ί ϊ ^ / 1 ^ 13 liquid level is lower than the setting office, two "^ biliary four liquid level meter side to the device 13 will According to the cold bulb 25 and / J 52 52 52u device B, then the control signal is transmitted to the cold biliary water inlet solenoid valve 23 and ^ 胆 ^ ^ will control the cold biliary into the hydro _ 23 and / or _ into the water '^ ^27 '俾 can start to the cold bile into the water electromagnetic control signal transmission y magnetic valve 23 and / or hot bile into the water ^ cold bile into the 3 temperature sensor detected its water temperature system falls at the set value white = 25 = or hot biliary 29 internal communication ^ is transmitted to the controller 13, then the controller 13 Γ ί ί ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ ̄ The temperature of the transmission is turned over by 11 and the control is transferred to the cold ^ 2 1. The hot urinary 29 is cooled inside the chiller 25 and/or stopped on the 4 Τ Τ ^ 29 ' M403634 control received from the gamma When the interface is 3G secret, the control system Di Li uses the built-in water quality water temperature database and the built-in program to calculate, and after the number (four) WU is transmitted to the cold bile water micro-pull 31 tiZnZitVV 'to start the cold bile water supply Miniature pump 31 and/or hot sink. Controller U can control the water temperature at the outlet of the water supply to the set value according to the principle of heat _;^== and heat specific heat. In this case, the water-discharging water tank is tied to the outside of the value of 4, the temperature sensor will be 30' ^ day guard, the user interface 30 will be text, graphics, and sound to think, ΐ a f The above formula does not warn the user that the current water conditioning system 1 is in the j state: the conditioning temperature and the flow rate - the demonstration hybrid off _ can be entered as ., ^ is shown in the = model of the mixed relationship diagram is hot : 95t / cold biliary ' θ, water supply flow (Q3): 15GGex. / min, according to heat specific heat 7 %, (id 2〇). (1500 . Q1) xsx (95. Td), #f)je i3^ Q1J S x and Q2 (ie, Q3 - Q1), where S is the specific heat of water (1 c meaning, the water temperature of c: j (ie, the desired conditioning water temperature). Then, with the expectation) is the private effluent confluence, person The human mouth 7 of the microbubble suction device 7 , ^ micro: field = the human water σ of the suction agitation device 7 is connected to the temperature conditioning, the second emulsion. The micro bubble suction stirring device f 7 can be provided Body (such as ^ gas, two 7 5 miniaturization and stirring function, to increase the rate of gas dissolved into the liquid 虱 厌 厌 ) ) 广 广 广 广 广 广 广 广 广 广 广 广 广 广 广 广 广 广 广 广 广 广 广 广 广 广 广 广 广 广 广 广 广 广The technology guides the gas to hide or sputum high concentration of carbonated water, oxygen water, and hydrogen water. According to the side reading tank, the effect of Nanxun water and carbonated water on the human body is quite high. Therefore, n is 3634 Applications such as still milk, mole water, carbonated water, and the like can also be introduced in the examples. The gas introduction application in the embodiment of the present invention will be described below. ~ Referring back to Fig. 2, the gas generating device 9 is connected to the micro bubble suction agitating device 7. The gas generating device 9 may include an intake micro solenoid valve 35 and a catalyst gas generator 37 connected to the intake solenoid valve. The fine bubble inhalation can be used to inhale the gas generated by the catalyst gas generated by the gas generating device 9 by the Bernoulli principle and the gas is mixed and dissolved in the desired conditioning water temperature. A schematic exemplary construction of the gas generating device 9 is shown in FIG. For example, the catalyst gas generator 37 may include: a first storage tank 43 having a raw material packing port j and a predetermined outlet 47 for storing raw materials (not shown); and a second storage tank having a reaction zone 51 and a contact The medium filling port 53 and the air outlet port %, f „showing” + storage tank 43 are separated from the second storage tank 49, and are connected to the second storage tank 49 through the outlet 47. The two raw materials are placed and the materials are contacted. The chemical reaction between the media produces the =, two gasification carbon family, so it has a large winter phase in the application: the first tank 43 is built into the 贮2〇2 solution; and ί 1 2, when the controller 13 according to the user's choice
5; r 35時,可啟動進氣微型U 或者進氣微型電二而與大氣連通 區獨一並且在反應 2H2〇2(aq)^<〇 細調)+ 熱量 亦即,進氣微刚泰 定速度與滴入量。因=f可用以控制第一貯槽内之原料的滴 〇2的產量。 σ人僅需掌控H2〇2的滴入量,即可控制 M403634 然後’所產生的氧氣可透過與微細氣泡吸入攪拌裝置7之氣 ,吸入口連接之第二貯槽49的出氣口 55而進入到微細氣泡吸入 攪^裝置7内,並且與來自溫度調理裝置5的水充分混合’以形 成鬲氧水’此係利用氣體來達成期望水質的調理。 雖然在圖2與圖4中僅顯示一個進氣微型電磁閥35以及一個 ,,氣體產生器37,但實際上氣體產生裝置9可包含一或多個進 氣微型電磁闊35以及一或多個觸媒氣體產生器37,俾能依照使用 者的需求而提供不同的氣體。 本創作之貫施例除了導入氣體的應用以外,更可導入機能性 ,加物(包含電解質、礦物質、微量元素、其他健成份料)的應 。以下,將說明在本創作之實施例中的機能性添加物導入應用。 參考圖2,舉例來說,配方調理裝置u連 ,攪拌裝置7的出水口之上游,而微細氣泡吸入攪拌^置 2之下游可連接至水機能調理系統1的調理水出口。配方調理 ^ 11可包含配方調理微型螺動幫浦39以及盘此配方觸理彳發刑 接的配方容器41。在配方容器中可貯二 月等V含微量Μ、礦物質、電解f、其他保健成份 1寻’例如妈、镇、納、鉀、辞、砸等等。當控制哭13依昭使用 2選擇而將誦峨傳送到配相 生添加物依所需的量導人微細氣泡吸人娜裝置7 = ,以利用機能性添加物將水質嗔敕至执〜 — 尺 此夕卜,在水機能調理系統〗的調理水出口 (未圖不),以對調理的水質進行e 4 又置R貝感測态 外時,此水質制3|合將、替:::丨右凋理的水質係落在設定值 會依據此訊13,驗控編3 使用者介面3G會叹字(者介面W,此時, 示並警告使用者目前水機能調理系統 M403634 氧化還原電位計、離子選 感測器可包含但不限於pH計、電導計、 擇電極等等。 雖然在圖2中僅顯示一個@ 個配方調理微型蠕動瞽5; r 35, can start the intake micro U or the intake micro electric two and the atmosphere is connected to the zone and reacts 2H2〇2(aq)^<〇 fine tuning) + heat, that is, the intake micro-rigid Taiding speed and drip. Since =f can be used to control the yield of the drip 2 of the raw material in the first tank. The σ person only needs to control the dripping amount of H2〇2, and then control M403634 and then the generated oxygen can pass through the gas outlet 55 of the second storage tank 49 connected to the suction port of the suction device 7 and the suction port. The fine bubbles are sucked into the agitation device 7, and are sufficiently mixed with the water from the temperature conditioning device 5 to form a helium oxygen water, which utilizes a gas to achieve conditioning of the desired water quality. Although only one intake micro solenoid valve 35 and one, gas generator 37 are shown in FIGS. 2 and 4, the gas generating device 9 may actually include one or more intake micro-electromagnetic widths 35 and one or more The catalyst gas generator 37 can provide different gases according to the needs of the user. In addition to the introduction of gas, the application of this creation can introduce functional properties, additives (including electrolytes, minerals, trace elements, other health ingredients). Hereinafter, the functional additive introduction application in the embodiment of the present creation will be explained. Referring to Fig. 2, for example, the formulation conditioning device u is connected upstream of the water outlet of the agitation device 7, and downstream of the microbubble suction agitation device 2 is connectable to the conditioning water outlet of the hydrodynamic conditioning system 1. Formulation conditioning ^ 11 can include a formula conditioning micro-screw pump 39 and a recipe container 41 that is designed to handle this recipe. In the formula container, it can store two months of V, such as traces of strontium, minerals, electrolysis, and other health care ingredients. 1 Seeking, for example, mother, town, sodium, potassium, rheumatism, sputum, etc. When controlling the crying 13 yizhao uses the 2 selection and transfers the sputum to the phase-matching additive according to the amount required to guide the micro-bubble suction device 7 = to use the functional additive to smash the water to the stagnation ~ - ruler In addition, in the conditioning water outlet of the water function conditioning system (not shown), when the water quality of the conditioning is e 4 and the R shell is sensed, the water quality system will be replaced by: The right water quality of the right side will fall under the set value. According to this news 13, the user interface 3G will sigh (the interface W, at this time, show and warn the user that the current water conditioning system M403634 redox potential The meter, ion-selective sensor may include, but is not limited to, a pH meter, a conductivity meter, a selection electrode, etc. Although only one of the @ recipe-conditioning miniature peristalsis is shown in FIG.
依照本創作,水機能調理系統1係以水為料理之素材,並搭# ,各種「配方調料」,例如機能性添加物、氣體(如氧氣、、丄 氧化碳等)、或其他天然保健素材等,以調理出各式各樣^「料理 水」。内建於控制器的程式與資料庫,就如同「食譜」一妒,使用 者只需在個者介社断鮮騎擇,即可產㈣^的料理 水,其水溫、水質具備沖泡各式飲料及補充人體礦物質及/ 質之最適化機能。 ' 例如,配方調理裝置的配方耗用量在經控制器的内建程式運 算而達到更換設定值時,則控制器會將警告(控制)訊號傳送到使用 者介面,此時使用者介面的配方更換燈(未圖示)會進行閃爍,以提籲 醒使用者直接更換配方容器或補充配方容器中的機能性添加物 (即’微量元素、礦物質、電解質、其他保健成份等等)。具體而言, f制器可依據其内建程式來計算配方調理裝置的每次配方添加 量,即,每次配方添加量(mL)=配方調理微型蠕動幫浦的流量 (mL/Sec)x配方調理微型蠕動幫浦的啟動時間(sec),然後控制器會 ^計每次配方添加量,而每次配方添加量的累計量則為配方耗^ 里。例如,吾人可將更換設定值設定成配方容器之容積的9〇%, 冨控制裔所運异出的配方耗用量已達到此更換設定值(即,配方容 器中的機鸫性添加物只剩下1〇〇/0的容積存量)時,控制器會發出警 ' 告(控制)訊號到使用者介面,此時使用者介面的配方更換9燈^'(未^ M403634 示)會進行閃爍,以提醒使用者更換配方。 以下,參考圖2與圖3來說明本創作之調理水溫與水質的實 施例。 、、 實施例 本實施例係以高鈣礦泉飲用水為例,高鈣礦泉水的内建水溫 ,35°C。首先在使用者介面30上選擇飲用水類別中的高鈣水及其 /辰度,然後控制器13將依據内建資料庫之資訊與内建程式 执 量比熱原理的公式,操控冷膽給水微型幫浦31的輸出流I 冷膽^水微型幫浦33的輸出流量Q2,即,依照内建資料庫之資 訊,高鈣礦泉水的内建水溫為35dc以及供水流量(Q3)=l5〇〇 C.C./min ’ 則可計算出 Q1=12〇〇 c.c/min,Q2=3〇〇c c/min。同 配方調理微型螺動幫浦39會依據控制器13的控制訊號,將高約 水配方依所需的量導入微細氣泡吸入攪拌裝置7的出水口 將水質調整至設定值:鈣離子濃度7〇〜25〇mg/L、鎂離子濃度5〜25 二g^L :總硬度200〜5〇〇 mg/L、PH值7.5〜8.5,此即為高!“之水 質需求。 、本創巧之特色在於透過控制器之内建水質水溫資料庫及 程式的運算與各裝置之間的互動運轉控制,提供最適化之水質、 ϊ'ί二1升或保存沖泡標的物(如茶葉、咖啡、牛奶等)之口感盘 =’同日技具備補充人體礦物f、電解f、 健 成份以增進人體健康之功能。 了次俅健 作已參考較佳實施例及圖^詳加_,但_習林 技=者可瞭解在不糊本創作之精神與範嘴的粒下, 各 種修改、變化以及等效替代,妒 進订各 仍洛入本創作所附的申請專利範圍内。 督代 【圖式簡單說明】 式的本創作之-實施例之水機能_統之運作方 意圖 圖2顯示細本創作之—實施例之水機能_緖的概略: M403634 圖3為調理溫度與流量的一示範混合關係圖。 圖4顯示圖2之氣體產生裝置的概略示範構造。 【主要元件符號說明】 I 水機能調理系統 3 原水前處理裝置 5 溫度調理裝置 7 微細氣泡吸入攪拌裝置 9 氣體產生裝置 II 配方調理裝置 13 控制器 15 第一濾材 17 第二濾材 19 第三濾材 21 pH值調整器 23 冷膽進水電磁閥 25 冷膽 27 熱膽進水電磁閥 29 熱膽 30 使用者介面 31 冷膽給水微型幫浦 33 熱膽給水微型幫浦 35 進氣微型電磁閥 37 觸媒氣體產生器 39 配方調理微型蠕動幫浦 41 配方容器 43 第一貯槽 45 原料填料口 47 滴定出口 49 第二貯槽 反應區 51 M403634 53 觸媒填料口 55 出氣口According to this creation, the water conditioning system 1 uses water as the material for cooking, and uses #, various "recipe seasonings", such as functional additives, gases (such as oxygen, carbon monoxide, etc.), or other natural health materials. Etc., to adjust a variety of "cooking water". The program and database built into the controller are just like the "recipes". Users only need to make a choice of food in the restaurant, and they can produce (4)^ cooking water. The water temperature and water quality are brewed. A variety of beverages and supplements to optimize the body's minerals and / / quality. For example, when the formula consumption of the formula conditioning device reaches the replacement setting value through the built-in program calculation of the controller, the controller transmits a warning (control) signal to the user interface, and the user interface formula at this time. A replacement lamp (not shown) will flash to alert the user to directly replace the formula container or to replenish the functional additive in the formula container (ie, 'trace elements, minerals, electrolytes, other health care ingredients, etc.). Specifically, the f controller can calculate the amount of each formula addition of the formula conditioning device according to its built-in program, that is, the amount of each formula addition (mL) = the flow rate of the formula conditioning micro-peristal pump (mL/Sec) x The recipe adjusts the start-up time (sec) of the micro-peristal pump, and then the controller counts each recipe addition, and the cumulative amount of each recipe addition is the recipe consumption. For example, we can set the replacement setting value to 9〇% of the volume of the formula container, and the formula consumption of the control unit has reached the replacement setting value (that is, the organic additive in the formula container only When the volume storage of 1〇〇/0 is left, the controller will send a warning (control) signal to the user interface. At this time, the user interface's recipe replacement 9 lights ^' (not ^ M403634) will flash. To remind the user to change the recipe. Hereinafter, an embodiment of the conditioning water temperature and water quality of the present creation will be described with reference to Figs. 2 and 3. EXAMPLES This example uses high calcium mineral water as an example. The built-in water temperature of high calcium mineral water is 35 °C. First, the high calcium water and/or the degree of the drinking water in the drinking water category are selected on the user interface 30, and then the controller 13 controls the cold and cold water supply according to the formula of the built-in database and the formula of the built-in program. The output flow of the pump 31 is the output flow Q2 of the cold water pump, ie, according to the information of the built-in database, the built-in water temperature of the high calcium mineral water is 35 dc and the water supply flow rate (Q3) = l5 〇 〇CC/min ' can calculate Q1=12〇〇cc/min, Q2=3〇〇cc/min. The same formula conditioning micro-screw pump 39 will introduce the high-water formula according to the control signal of the controller 13 into the water outlet of the micro-bubble suction agitation device 7 according to the required amount to adjust the water quality to the set value: calcium ion concentration 7〇 ~25〇mg/L, magnesium ion concentration 5~25 2g^L: total hardness 200~5〇〇mg/L, PH value 7.5~8.5, this is high!"The water quality demand., this creative It is characterized by the operation of the controller's built-in water quality and temperature database and program and the interactive operation control between the devices to provide optimal water quality, ϊ'ί2 liter or preserve the brewing target (such as tea, coffee). , milk, etc.) The taste plate = 'The same day technology has the function of supplementing human body minerals f, electrolysis f, and health ingredients to enhance human health. The second work has been referred to the preferred embodiment and the figure ^ _, _ Xi Lin The technicians can understand that under the guise of the spirit of the creation and the scope of the model, various modifications, changes, and equivalent substitutions are still included in the scope of the patent application attached to the creation. Brief Description of the Model - The Water Function of the Example - The Operation of the System Figure 2 shows a schematic representation of the water function of the embodiment - M403634. Figure 3 is an exemplary mixed relationship between conditioning temperature and flow rate. Figure 4 shows a schematic exemplary construction of the gas generating device of Figure 2. Explanation of main components and symbols] I Water conditioning system 3 Raw water pretreatment device 5 Temperature conditioning device 7 Micro bubble suction agitator 9 Gas generator II Formulation device 13 Controller 15 First filter 17 Second filter 19 Third filter 21 pH Value adjuster 23 Cold water inlet solenoid valve 25 Cold biliary 27 Hot biliary water inlet solenoid valve 29 Hot biliary 30 User interface 31 Cold biliary water supply micro pump 33 Hot biliary water supply micro pump 35 Intake miniature solenoid valve 37 Catalyst Gas generator 39 Formulation conditioning Miniature peristaltic pump 41 Formulation container 43 First storage tank 45 Raw material packing port 47 Titration outlet 49 Second tank reaction zone 51 M403634 53 Catalyst packing port 55 Outlet