1354714 九、發明說明: 【發明所屬之技術領域】 本發明輻射式電職置’主要是朗於電解水機之輕 射式電解槽_酸性水層流與鹼性水層流之平穩水流技術 上。 【先前技術】 按,傳統習用的直立式電解槽,其問題在於: 一、直立式電解槽進水口與出水口的單位面積相等或 相近’進入電極板入口的流賴離開電極板出叫流速相 等或相近’因此無法減緩分流處的流速,比較容易產生亂 流現像。 一、直立式電解槽進水口與出水口的單位面積相等, 電解電流㈣目近,如欲加大出水口的電極間距時,相對會 增加出水Π的f阻’也因輯少出知處之總電解電流, 相對減y巾性水層喊圍,使得酸性水層流與驗性水層流 的分流顯得比較困難。 ;f、直立式電麵該雜水A水口無性水出水口多 數二十由上方取水’導致電解後電解槽會錢水留滯,需 另外认置殘水概裝置,增加成本,若無設置殘水排放裝 置會因殘水而孳生細菌,也會造成飼離子沉殺,加速電 解槽積舞,私電解時,又因先錢水未經完整電解即先 /爪出使得無法達到氧化還原餘的標準值。 四、直立錢觸—般設計進水Π在下,ώ水口在上 ’故需-定水壓導入,方能施作,對於水壓較低,例如: • 飲水機之貯水槽’必_由抽水馬達加壓,即無法適 用0 五、直立^電解槽多數使用大量獅鎖©及其陰極電 極板與陽極電極板的拆卸触裝均極為不便,科也增加 成本。 、直立^電解槽無法裝設在飲水機貯水槽底下的爲 . 平空間内’必須將電解槽設置在飲水機内部,比較佔空間 鲁,而且必須外接的管路’將水導入電解槽的進水口電解 後,再利用管路將酸性水與祕水導出連接至飲水機的出 水口,徒然增加組裝時的麻煩與困擾,而且成本增加另 外鹼性水出水管路易積鈣,需定期清洗。 七、直立式電解槽之電極間距固定,所以無法針對軟 水區域或硬水區域做適度電極間距之調整,故適用範圍仍 •有限制’同時其間隔物位於電解槽内,亦會導致亂流。 【發明内容】 •本發明人目前從事相關產品的製造、設計,累積多年 的實務經驗與心得’針對上述直立式電解槽所既存的問題 與缺失,積極地投入創新與改良的精神,完成一輻射式電 解裝置。 本發明解決直立式電解槽問題一所應用的技術手段以 及對照先前術的功效-在於:如第十五圖所示,將輕射 式電解裝置’由内向外,分成a、b、c、d、e五等分 ,若依流速而言,則Sa>Sb>Sc>Sd>Se,水流由 内向外里直線輻射狀擴散時,除了流速由内往外逐漸緩慢 1354714 之外’又因為酸性水層流與驗性水層流呈平行相對直線方 白進行’因此沒有酸性水層流與驗性水層流交錯水流產生 ,故除上述能有效減緩分流處Se-的流速外,更有助於 穩定水流,減少亂流產生。 本發明解決直立式電解槽問題二所應用的技術手段以 及對照先前技術的功效二在於:如第十六_示,將輕射 式電解裝置’由内向外,分成a、b、c、d、e五等分 ,該上述區段之總電流分別為! a< Σ b< j c< Z d< j e ,E區段屬於最外圍區段,總電解電流最大,因此如果欲 微幅加大出水口的陰極電極板與陽極電極板的電極間距, 雖然會略為降低電解電流,但仍不影響正常電解之進行, 故可有效擴大中性水層的範圍,使得陰、陽離子的分流, 更為容易。 本發明解決直立式電解槽問題三所應用的方法及裝置 以及對照先前技術的功效三在於:輻射式電解裝置使呈水 平配置時,其甲只要一方出水口由下方取水,就可以藉由 該出水口排放電解槽内的殘水,無需另設殘水排放裝置, 故能降低成本,而且可以有效解決殘水孽生細菌及殘水加 速積i弓的問題。 本發明解決直立式電解槽問題四所應用的技術手段以 及對照先前技術的功效四在於:由於輻射式電解裝置之陰 極電極板與陽極電極板呈平行配置,所以只要水流從電解 槽上方的進水口導入’低水壓之水流即可呈平行直線方向 向外平穩輻射擴散’因此可設置於飲水機的貯水槽之下方 1354714 ’使水流進入電解槽進行電解。 本發明解決直立式電解槽問題五所應用的技術手段以 及對照先前技術的功效五在於:輻射式電解裝置可以設計 成上下二圓盤型座體與蓋體,直接在座體與蓋體設置可以 互相對鎖的内、外螺紋,即可直接鎖固電解槽,無需使用 大置螺絲鎖固’拆卸與組裝極為方便。 本發明解決直立式電解槽問題六所應用的技術手段以 及對照先前技術的功效六在於:由於輻射式電解裝置屬於 扁平型結構,故可以直接裝設在飲水機貯水槽底下的扁平 空間内,因此不佔空間,而且可以直接將飲水機貯水槽的 水導入電賴,省去外接管路與管路積觸細清洗的麻 煩與不便。 本發明解決直立式電解槽問題七所應用的技術手段以 及對照先前技術的功效七在於:輕射式電解裝置可設計成 圓盤型,如上述功效一、二所述,由於無隔膜設計,又進 水口位於軸心,出水口位於圓心之周邊,因此可藉由座體 周邊不同咼度的間隔物,同時配合軸心導電體與陰極電極 板間之止水墊圈高低變化,除了可以調整陰極電極板與陽 極電極板之電極間距外,同時架構出完全沒有水流障礙之 電解空間,因為無水流障礙,所以更有效平穩水流,使得 鹼性水層流與酸性水層流之分流更為容易,更有效避免混 流。 【實施方式】 為使專精熟悉此項技藝之人仕業者易於深入瞭解本發 1354714 明的裝置内容以及所輯成的功紐益,_舉四個具體 實施例,並配合圖式詳細介紹說明如下: -種輻射式電解裝置,敬請參閲第—圖所示:係本發 明實施例一之立體組合剖示圖。與第二、三圖所示:係本 發明實施例一之立體分解示意圖一、二。主要是由座體工 ◦、導電體2 0、陽極電極板3 〇、陰極電極板4 〇、鎖 固元件5 0、蓋體6 0、進出水接頭7 〇與若干個止水塾 圈Q1〜Q 7所組成;其中: 座體10呈圓盤狀’座體丄〇中心向下設有鏤空的套 接部11,套接部11外部可供進出水接頭7 0套設,並 由止水塾圈Q 1〜Q 2止水’座體1 q底面還設有螺孔部 12,可供鎖固進出水接頭7 〇,座體1〇頂面設有複數 等为呈H射脉置的隔板丨3,作為平穩架設陽極電極板 3 0之用’同時在母一片隔板13之間形成酸性水流路1 3 1,座體1〇頂面設有四鱗分的穿孔14,可供陽極 電極板3 0的四個正極導電部33穿出,套接们丄内部 «又有進出水隔管15,進水隔管15内壁與外壁設有若干 等刀的隔板151、151,内壁的隔板151除了可 以作為導電體2 0套設時,令其粒於中心位置之用外, 更可以在進水隔管15内壁形成原水進水流路工5 2,外 壁的隔板151除了可以作為進出水接頭7 〇套設時, 令其定位於巾錄置之料,更可以在進水喊丨5外壁 形成酸性水出水流路15 3,酸性水出水流路!5 3底部 設有複數個等分的酸性水出水孔丄5 4,進出水隔管丄5 1354714 上方設有一圈結合槽15 5與内階緣15 θ,結合槽15 5可供%極電極板30結合之用,内階緣156可供設置 一止水塾圈Q3,防止原水與酸性水混合,座體1〇内園 對應於陽極電極板3 0與陰極電極板4 〇分流處設有圓環 狀的分流⑽1 6 ’藉崎陽極電極板3 〇與陰極電極板 4 0電解時所產生的鹼性水層流與酸性水層流分剖開來, 分流凸肋16對應於陰極電極板4〇底面設有若干等分不 同尚度的第一組間隔物161與第二組間隔物16 2,可 以配合導電體2 0與陰極電極板4 0間之止水墊圈q 5的 问低變化,作為定位陰極電極板4 〇與陽極電極板3 〇電 極間距之用,同時架構出完全沒有水流障礙之電解空間, 第-組間隔物161與第二組間隔物!6 2兩侧設有第一 定位部16 3與第二定位部工6 4,防止陽極電極板3 〇 轉動,座體1〇對應於蓋體6 〇外壁設有外螺纹17,作 為與蓋體6 0互相對鎖之用,座體1〇頂部還設有外階緣 18,可供壓置一止水墊圈Q 4,作為對鎖時止水之用; 導電體2 0—端設有外螺紋21與定位階緣2 2,可 供鎖固元件5 0鎖固陰極電極板4 〇,並由止水塾圈Q 5 止水,止水_q 5的高低猶著不同高度的第—組間隔 物161或第二組間隔物16 2作變化,導電體2 〇另一 端係穿出進出水接頭7 0,並由止水塾圈Q6〜q7止水 ,可供接上負極電源; 陽極電極板3 G呈®餘,陽極電極板3 0中心設有 進水口 3 1 ’進水口 3 i周_壓設有棚部3 2以及四 個正極導電部3 3,補強部3 2的作用除了可以防止陽極 電極板3 0_扭曲不平之外,還可以定位於進出水隔管 15上方的結合槽15 5,同時配合止水塾圈q 3,防止 原水與酸性水混合; 陰極電極板4 0呈圓盤狀,陰極電極板4 〇中心設有 穿孔41,穿孔41可供導電體2 〇的外螺紋2工穿設之 用’穿孔4 1周圍沖壓設有補強部42,防止陰極電極板 4 ^翻扭曲不平’陰極電極板4 Q0周還設有若干等分 的定位凸部43,可供定位在座體10不同高度的第-組 間隔物1 6 1或者是第二關隔物1 6 2 ; 鎖固元件5 G為—導電材質,可供鎖©於導電體2 〇 的外螺紋21,作為將導電體2 〇與陰極電極板4 〇鎖固 成一體之用; 蓋體6 0呈圓盤狀,蓋體6 〇中心向上設有驗性水出 水接頭61 ’鹼性水出水接頭6 μ圍設有驗性水集水槽 ^2 ’蓋體60底面的驗性水集水槽62圓周設有複數等 分呈幅射狀配置的隔板6 3,除了作為平穩架設陰極電極 板40之同時在每—片隔板6 3之間形成驗性水流路 6 31 ’蓋體6 〇内壁設有内螺紋6 4,作為與座體1〇 的外螺紋17互相對鎖之用,蓋體6〇底部還設有内階緣 6 5 ’可供容設—止水㈣Q4,作為對鎖時止水之用; 進出水接頭7〇内部鏤空,進出水接頭7〇中心對應 於座體1G的套接部11處設有三個階段不同内徑的第-、第二、第三階緣7 1、72、73,第-階緣71的内 1354714 徑最大,第二階緣7 2的内徑次之,第三階緣7 3的内徑 最小,第一階緣71與第二階緣7 2之間設有酸性水集水 槽7 4,第三階緣7 3設有非圓形的定位孔7 5,可供導 電體20穿設時定位之用,進出水接頭7〇對應於座體工 0的螺孔部12處設有透孔部7 6,作為鎖固座體1〇之 用,進出水接頭7 0—側對應於酸性水集水槽74處設有 酸性水出水接頭7 7 ’並由止水墊圈q1、q 2止水,進 出水接頭7 0另一侧對應於第二階緣7 2與第三階緣7 3 之間設有原水進水接頭7 8,並由止水墊圈q 2、Q 6、 Q *7止水者。 實施例一電解時’敬請參閱第四、五圖所示;係本發 明實施例一之使用狀態與C—C斷面組合示意圖。原水由 進出水接頭7 0的原水進水接頭7 8流進座體1〇中心, 經由進出水隔管15内壁隔板151(請參閱第三圖所示 )所區隔出來的原水進水流路15 2與陽極電極板3 0中 心的進水口 31導入,原水呈水平向外直線方向輻射擴散 出去;電解時,在陽極電極板3 〇與陰極電極板4 〇二對 應侧形成酸性水層流與鹼性水層流,酸性水層流與鹼性水 層流經由圓環狀的分流凸肋16分剖開來。 酸性水層流向下經由座體10頂面複數等分隔板13 (請參閱第二圖所示)所形成的酸性水流路131,先導 引至進水隔管15外壁隔板151>(請參閱第三圖所示 )所形成的酸性水出水流路15 3,再由酸性水出水流路 15 3底部複數個等分的酸性水出水孔15 4流至酸性水 C S ) 11 1354714 集水槽7 4,最後由酸性水集水槽74導引至進出水接頭 7 0的酸性水出水接頭7 7出水。 驗性水層流向上經由蓋體6 Q底面複數等分的隔板6 3所形成的驗性水流路6 31 ’再由驗性水集水槽6 2導 引至中心的鹼性水出水接頭61出水。 實施例二,本發明所提供的輻射式電解裝置,除了可 以設計成實關-(請參閱第__示),雛水從蓋體 6 0中心驗性水出水接頭6 1出水_態之外,亦可以設 計成實施例二,敬請參閱第六_示:係本發财施例二 之立體組合剖示圖。與第七圖所示:係本發明實施例二之 使用狀態示意圖。鹼性水從導電體2 〇中心鹼性水出水口 2 3出水的型態’主要是將蓋體6 Q中心雜水出水接頭 6 1 (請參閱第一圖所示)去掉封閉,再將導電體2〇中 心貫穿鹼性水出水口2 3,讓鹼性水可以直接從導電體2 0中心的鹼性水出水口 2 3出水。 實施例二,本發明所提供的輻射式電解裝置,敬請參 閱第八圖所示:係本發明實施例三之立體組合剖示圖。與 第九圖所示:係本發明實施例三之烟狀態示意圖。實施 例二亦可以在陽極雜板3 q與陰極電極板4 〇之間設置 離子交換膜100,藉以取代分流凸肋16(請參閱第六 圖所示)者。 μ 實施例四,本發明所提供的輻射式電解裝置,除了可 以設計成實施例-(請參閱第—圖所示)座體i 〇在下方 、蓋體6 0在上方的型態之外,亦可以設計成實施例四, 12 1354714 騎示:係本發明實施例四之立體組合剖示 +一圖所不:係本發明實施例四之立體 /刀解不意圖一、二。座體10在上方、蓋體6 0在下方的 型態,同_f配合設置導電裝置㈣,進出水接^= 即==快速拆裝的型態,另外一般性的電解機設計 ’其驗性水出如均大於·料知,且設置 當驗性水出水口設置於下方,義水出水口設置於上方, 足’或進水k量較小時,酸性水無法由上 =驗性水混流的情形,為了避免此現象,二= 性水出水接頭61增設一壓力閥組9 〇 ;其中: 座體10的套接部11設有卡榫111,進出水接頭 卡棒111處設有棒槽7〇1,做為座體= 快速拆裝之用,導電裝置8 0在進出水 ,7 0外徑與對應於正極導電部3 3處設有正極導電座 二正極導電座8!内部設有彈性元件s工與正極導電 ^二並由座蓋8 3蓋設住正極導電座81,讓正極導 以個彈性元件S1的彈力,與陽極電極板3 ^:個正極導電部3 3保持良好的接觸導電狀態,導電 在㈣水_7 Q巾心對應於物^2 〇處設有 =導電座84(請參閱第十三圖所示),負極導電座8 =精有彈性藉S2與負極導電柱85,並由螺帽n 負極導電柱85的外部,讓負極導電柱85可以利 彈性轉S 2的彈力,與導電體2 〇保持良好的接觸導 13 1354714 電狀態; 蓋體60的驗性水出水接頭61設有内螺紋66(請 參閱第十三圖所示),彳供鎖設動閥组90,屋力閥組 9 0的閥座91設有外螺紋9 2,可供鎖設於蓋體6 〇其 驗性水出水接頭61的内螺紋6 6,閥座91内部設有止 水塾圈9 3、閥件94彈性元件S3,閥座9 1與止水墊 f93★中心設有驗性水入水口95、96,間座91周圍 設有若干等分的缝水流道97 (請參M第十三圖所示) 閥件9 4由彈性元件s 3的彈力封閉住止水塾圈9 3的 驗性水人水σ9 6,藉以增加驗性水出水接頭61出水口 處的壓力,該瞼性水出水口的壓力,可以依照實際需求, 調整彈性70件s 3之雜係數大小,細改魏性水出水 口之壓力大小,迫使酸性水由上方的酸性水出水接頭7 7 流出,解決酸性水無法由上方排出,而與驗性水混流問題 者。 實施例四電解時,敬請參閱第十三、十四圖所示:係 本發明實施例四之使紐態與s — s_組合示意圖。電 解時,在陽極電極板3 〇與陰極電極板4 〇二對應側形成 酸性水層流與鹼性水層流,酸性水層流與驗性水層流經由 圓環狀的分流凸肋16分剖開來,鹼性水層流向下匯聚於 鹼性水集水槽6 2時,壓力閥組9 〇產生一股向上的壓力 ,可以防止酸性水層流向下混流,最後由酸性水集水槽7 4導引至進出水接頭70的酸性水出水接頭77出水,鹼 性水在推開閥件9 4之後,鹼性水從鹼性水流道9 7與鹼 丄〇〕4/14 性水出水接頭61出水。 本發明所提供的糾式電職置,進水喊面積,遠 小於位於圓周外圍的酸性水與檢性水出水的截面積換言 之將電極板週邊設計為出水σ,可以制最大之出水口面 積,使得出水口之流速緩慢下來,故能有效平穩水流,並 讓水μ呈平行直線方向輻射擴散出去,平穩地電解成上層 的酸性水層流與下層的驗性水層流,同時讓二電極板周邊 之電解電流大於進水處的電解電流,也因二電極板周邊自 然產生的集膚效應(Skineffect),更加大二電極板周邊之電 解電流’利用此現象,可微幅加大二電極板之周邊間距, 藉以擴大酸性水層流與鹼性水層流之間的中性水層流範圍 ’有利於酸性水層流與鹼性水層流之分流。 综合上述所陳之本發明,是在提供一種電解水機之輻 射式電解裝置,經過本發明人實際製作完成以及反覆操作 測試之後,證實的確可以達到本發明所預期的功能效益, 同時又為目前坊間尚無見聞之「首先創作」,具有「產業 上的利用價值」,誠然已經符合發明專利之成立要義,爰 依專利法之規定,向鈞局提出發明專利之申請。 【圖式簡單說明】 第一圖:係本發明實施例一之立體組合剖示圖。 第二圖:係本發明實施例一之立體分解示意圖一。 第三圖:係本發明實施例一之立體分解示意圖二。 第四圖:係本發明實施例一之使用狀態示意圖。 第五圖:係第四圖之C—C斷面組合示意圖。 15 1354714 第六圖:係本發明實施例二之立體組合剖示圖。 第七圖:係本發明實施例二之使用狀態示意圖。 第八圖:係本發明實施例三之立體組合剖示圖。 第九圖:係本發明實施例三之使用狀態示意圖。 第十圖:係本發明實施例四之立體組合剖示圖。 第十一圖:係本發明實施例四之立體分解示意圖一。 第十二圖:係本發明實施例四之立體分解示意圖二。 第十三圖:係本發明實施例四之使用狀態示意圖。 第十四圖:係第十三圖之S—S斷面組合示意圖。 第十五圖:係本發明電解槽之流速示意圖。 第十六圖:係本發明電解槽之電流示意圖。 【主要元件符號說明】 11 套接部 1 2 螺孔部 131 酸性水流路 15 進出水隔管 15 1 隔板 153 酸性水出水流路 155 結合槽 16 分流凸肋 162 第二組間隔物 164 第二定位部 18 外階緣 2 1 外螺紋 111 13 14 15 1 15 2 15 4 15 6 16 1 16 3 17 2 0 10 座體 卡榫 隔板 穿孔 隔板 原水進水流路 酸性水出水孔 内階緣 第一組間隔物 第一定位部 外螺紋 導電體 13547141354714 IX. Description of the invention: [Technical field of the invention] The radiant electric service of the invention is mainly used in the light-flow type electrolytic cell of the electrolysis water machine_the smooth water flow technology of the acidic water laminar flow and the alkaline water laminar flow . [Prior Art] According to the conventional vertical cell, the problems are as follows: 1. The unit area of the inlet and outlet of the vertical cell is equal or similar. The flow entering the inlet of the electrode plate leaves the electrode plate at the same flow rate. Or similar 'so can't slow down the flow rate at the split, it is more likely to produce turbulent flow. 1. The unit area of the inlet and outlet of the vertical electrolyzer is equal, and the electrolysis current (4) is close. If you want to increase the electrode spacing of the outlet, the relative resistance of the water will increase. The total electrolysis current is relatively difficult to reduce the shunting of the acidic water layer and the laminar water layer. ;f, upright electric surface, the water, the A water outlet, the asexual water outlet, most of the water from the top, the water will be left behind after electrolysis, the residual water will be reserved, and the cost will be increased. Setting the residual water discharge device will cause bacteria due to residual water, and will also cause the sinking of the feed ions, accelerate the electrolysis cell dance, and the private electrolysis, because the first money water has not been completely electrolyzed, the first / claw out so that the redox cannot be achieved. The standard value of the remainder. Fourth, the erect money touches - the design is designed to enter the water squatting, the water sluice is on the 'required - the water pressure is introduced, can be applied, for the water pressure is low, for example: • The water tank of the water dispenser must be pumped Motor pressurization, that is, it can not be applied. 5. V. Upright ^ electrolytic cell Most of the use of a large number of lion locks and their cathode electrode plates and anode electrode plates are extremely inconvenient to remove, and the department also increases the cost. , erect ^ electrolytic cell can not be installed under the bottom of the water tank of the water dispenser. In the flat space, 'the electrolytic cell must be placed inside the water dispenser, which is more space-consuming, and the external pipe must be imported into the cell. After the nozzle is electrolyzed, the acidic water and the secret water are exported to the water outlet of the water dispenser by using the pipeline, which increases the trouble and trouble in assembly, and the cost increases. The alkaline water outlet pipe is easy to accumulate calcium, and needs to be cleaned regularly. 7. The electrode spacing of the vertical cell is fixed, so it is impossible to adjust the proper electrode spacing for the soft water area or the hard water area. Therefore, the applicable range is still limited. At the same time, the spacer is located in the electrolytic cell, which also causes turbulent flow. SUMMARY OF THE INVENTION The present inventor is currently engaged in the manufacture and design of related products, and has accumulated many years of practical experience and experience. In response to the existing problems and lacks of the above-mentioned vertical electrolyzers, the spirit of innovation and improvement is actively invested to complete a radiation. Electrolytic device. The invention solves the technical means of applying the problem of the vertical electrolytic cell and the effect of comparing the previous operation - that: as shown in the fifteenth figure, the light-emitting electrolyzer is divided into a, b, c, d from the inside to the outside , e five equal parts, if according to the flow rate, then Sa>Sb>Sc>Sd>Se, when the water flows from the inside to the outside in a linear radial diffusion, except that the flow rate gradually slows from the inside to the outside 1354714' and because of the acidic water layer The flow and the experimental aqueous laminar flow are parallel and relatively straight and white. Therefore, there is no flow of acidic water laminar flow and interrogative water laminar flow. Therefore, in addition to the above, the flow rate of Se- can be effectively slowed down, which is more conducive to stability. Water flow reduces turbulence. The technical means for solving the problem of the vertical electrolytic cell 2 and the effect of the prior art are as follows: as shown in the sixteenth embodiment, the light-emitting electrolyzer is divided into a, b, c, d from the inside to the outside. e five equal parts, the total current of the above sections is! a< Σ b< j c< Z d< je , E segment belongs to the outermost segment, and the total electrolysis current is the largest, so if the electrode spacing between the cathode electrode plate and the anode electrode plate of the water outlet is to be slightly increased, The electrolysis current is slightly reduced, but the normal electrolysis is still not affected, so the range of the neutral water layer can be effectively expanded, and the shunting of the anions and cations is made easier. The method and device for solving the three problems of the vertical electrolytic cell and the third function of the prior art are as follows: when the radiant electrolysis device is arranged horizontally, the water can be taken out by the water outlet as long as one of the water outlets is taken from below. The residual water in the electrolysis tank is discharged from the nozzle, so there is no need to set up a residual water discharge device, so the cost can be reduced, and the problem of accumulating residual bacteria and residual water can be effectively solved. The technical means for solving the four problems of the vertical electrolytic cell and the efficacy of the prior art are as follows: since the cathode electrode plate and the anode electrode plate of the radiant electrolysis device are arranged in parallel, as long as the water flows from the water inlet above the electrolytic cell The introduction of 'low water pressure water flow can be smoothly radiated and diffused in a parallel straight line direction' so it can be placed under the water tank of the water dispenser 1354714 'to make the water flow into the electrolytic cell for electrolysis. The technical method for solving the problem of the vertical electrolysis cell and the effect of the prior art are as follows: the radiant electrolysis device can be designed as a upper and lower disc-shaped seat body and a cover body, and the two sides can be arranged directly on the seat body and the cover body. The inner and outer threads of the lock can directly lock the electrolytic cell, and it is easy to disassemble and assemble without the use of large screws. The technical means for solving the problem of the vertical electrolytic cell 6 and the efficacy of the prior art are as follows: since the radiant electrolysis device has a flat structure, it can be directly installed in the flat space under the water tank of the water dispenser, so It does not take up space, and it can directly introduce the water of the water tank of the water dispenser into the electric raft, which saves the trouble and inconvenience of the external pipeline and the pipeline. The invention solves the technical means applied in the problem of the vertical electrolytic cell 7 and the efficacy according to the prior art. The seventh is that the light-emitting electrolyzer can be designed into a disc type, as described in the above-mentioned effects one and two, due to the absence of the diaphragm design, The water inlet is located at the axial center, and the water outlet is located at the periphery of the center of the circle. Therefore, the spacers of different widths around the seat body can be used to simultaneously change the height of the water stop gasket between the shaft conductor and the cathode electrode plate, except that the cathode electrode can be adjusted. In addition to the electrode spacing between the plate and the anode electrode plate, the electrolysis space with no water flow obstruction is constructed at the same time. Because of the no-flow flow obstacle, the water flow is more effectively and smooth, and the shunting of the alkaline water laminar flow and the acidic aqueous laminar flow is easier. Effectively avoid mixed flow. [Embodiment] In order to make the person skilled in the art familiar with the art easy to understand the contents of the device and the benefits of the compilation, the four specific embodiments are described in detail with reference to the drawings. As follows: - A type of radiant electrolysis device, please refer to the first figure: a three-dimensional combination sectional view of the first embodiment of the present invention. As shown in the second and third figures, it is a three-dimensional exploded schematic view of the first embodiment of the present invention. Mainly by the seat work, the conductor 20, the anode electrode plate 3 阴极, the cathode electrode plate 4 〇, the locking element 50, the cover body 60, the inlet and outlet joints 7 〇 and a number of water stop loops Q1~ The composition of the Q 7; wherein: the seat body 10 has a disk-shaped 'seat body 丄〇 center with a hollow sleeve portion 11 downwardly, and the outer portion of the socket portion 11 is provided for the water inlet and outlet joints 70, and is sealed by water.塾圈 Q 1~Q 2 Stop water 'Seat 1 q The bottom surface is also provided with a screw hole 12 for locking the water inlet and outlet joints 7 〇, and the top surface of the seat body 1 is provided with a plurality of H-shaped veins. The partition 丨3 serves as a smooth erection of the anode electrode plate 30. At the same time, an acidic water flow path 1 3 is formed between the mother piece partitions 13. The top surface of the seat body 1 is provided with four-square perforations 14 for The four positive electrode conductive portions 33 of the anode electrode plate 30 are pierced, and the inner and outer sides of the socket are provided with a water inlet and outlet pipe 15, and the inner wall and the outer wall of the water inlet pipe 15 are provided with a plurality of knives 151 and 151. In addition to being used as the conductor 20, the partition 151 can be used for the center position of the partition 151, and the raw water inlet flow path 52 can be formed on the inner wall of the inlet block 15 for the outer wall. Except when the plate 151 may be joint as set out of the water jacket 7 billion, so that it is positioned opposite the recording material the towel, but also call Shu outer wall 5 form an acidic water discharge passage 153 of water, acidic water discharge passage! 5 3 is provided with a plurality of aliquots of acidic water outlet holes 4 5 4 at the bottom, and a water inlet pipe 丄 5 1354714 is provided with a ring of coupling grooves 15 5 and an inner edge 15 θ , and a coupling groove 15 5 is available for the % electrode plate For the combination of 30, the inner edge 156 can be provided with a water stop ring Q3 to prevent the raw water from mixing with the acidic water, and the inner body of the seat body 1 corresponds to the anode electrode plate 30 and the cathode electrode plate 4 The annular shunt (10) 1 6 'the samarium anode electrode plate 3 〇 and the cathode electrode plate 40 are generated when the alkaline water laminar flow and the acidic water layer flow are separated, and the split rib 16 corresponds to the cathode electrode plate 4 The bottom surface of the crucible is provided with a plurality of first spacers 161 and a second group of spacers 16 2 which are equally divided, and can match the low variation of the water stop washer q 5 between the conductor 20 and the cathode electrode plate 40. As the positioning of the cathode electrode plate 4 〇 and the anode electrode plate 3 〇 electrode spacing, while constructing an electrolysis space completely free of water flow obstacles, the first group of spacers 161 and the second group of spacers! 6 2 is provided with a first positioning portion 16 3 and a second positioning portion 6 4 on both sides to prevent the anode electrode plate 3 from rotating, and the seat body 1 is provided with an external thread 17 corresponding to the outer wall of the cover body 6 as a cover body 60 0 for mutual lock, the top of the seat 1 还 also has an outer edge 18, which can be used to press a water stop washer Q 4 as a water stop for the lock; the conductor 20-end is provided The thread 21 and the positioning edge 22 are provided for the locking element 50 to lock the cathode electrode plate 4 〇, and the water stop ring Q 5 stops the water, and the water stop _q 5 is at the same height as the first group. The spacer 161 or the second group of spacers 16 2 is changed, and the other end of the conductor 2 is passed through the water inlet and outlet joints 70, and is stopped by the water stop coils Q6 to q7 to be connected to the anode power supply; The plate 3 G is in a surplus, and the anode electrode plate 30 is provided with a water inlet 3 1 'water inlet 3 i week _ pressure is provided with a shed portion 3 2 and four positive electrode conductive portions 3 3 , and the function of the reinforcing portion 3 2 can be In addition to preventing the anode electrode plate from being twisted, it can also be positioned in the coupling groove 15 5 above the water inlet and outlet pipe 15, and at the same time, the water stop ring q 3 is matched to prevent the raw water from being mixed with the acidic water. The cathode electrode plate 40 is in the shape of a disk, and the cathode electrode plate 4 has a through hole 41 at the center thereof, and the through hole 41 is provided for the external thread 2 of the electric conductor 2 to be used for piercing. The cathode electrode plate 4 is prevented from being twisted and twisted. The cathode electrode plate 4 is further provided with a plurality of equally spaced positioning protrusions 43 for positioning the first group spacers 1 1 1 or second at different heights of the body 10. The spacer member 1 6 2 is a conductive material for locking the external thread 21 of the conductor 2 , as a body for locking the conductor 2 〇 and the cathode electrode plate 4 into one body; The cover body 60 is in the shape of a disk, and the cover body 6 is provided with an auditing water outlet joint 61 in the center. The alkaline water outlet joint 6 μ is provided with an auditing water collecting tank ^2 'the water of the bottom surface of the cover body 60 The sump 62 is provided with a plurality of partitions 63 which are arranged in a radiant manner on the circumference of the sump 62, except that a ceramic water flow path 6 31 'cover is formed between each of the separators 63 as a smooth erection of the cathode electrode plates 40. 6 The inner wall of the crucible is provided with internal threads 64, which are used for locking the external threads 17 of the seat body 1,, and the bottom of the cover body 6 is also provided inside. Edge 6 5 'can be accommodated - water stop (4) Q4, used as a water stop for lock; inlet and outlet joints 7〇 internal hollow, inlet and outlet joints 7〇 center corresponding to the seat 1G socket part 11 is provided with three The first, second, and third order edges 7 1 , 72 , 73 of different inner diameters of the inner diameter, the inner 1354714 of the first step edge 71 has the largest diameter, the inner diameter of the second step edge 7 2 is second, and the third step edge 7 The inner diameter of 3 is the smallest, and the acidic water sump 7 4 is disposed between the first step edge 71 and the second step edge 7 2 , and the third step edge 7 3 is provided with a non-circular positioning hole 7 5 for the electric conductor. 20 for positioning when laying, the inlet and outlet joints 7〇 corresponding to the screw hole portion 12 of the seat body 0 is provided with a through hole portion 7 6 as a locking seat body 1 , the inlet and outlet joints 70 - side Corresponding to the acidic water sump 74, there is an acidic water outlet joint 7 7 ' and the water stop washers q1, q 2 stop the water, and the other side of the inlet and outlet joint 70 corresponds to the second edge 7 2 and the third edge 7 3 There is a raw water inlet joint 7 8 and the water stop washer q 2, Q 6 , Q *7 stop the water. In the first embodiment, the electrolysis is carried out. Please refer to the fourth and fifth figures. It is a schematic diagram of the combination of the use state and the C-C cross section of the first embodiment of the present invention. The raw water flows into the center of the seat body 1 from the raw water inlet joint 7 8 of the inlet and outlet joint 70, and the raw water inlet flow path is separated by the inner wall partition 151 of the inlet and outlet water separator 15 (see the third figure). 15 2 is introduced into the water inlet 31 of the center of the anode electrode plate 30, and the raw water is radiated and diffused horizontally outwardly; in the electrolysis, an acidic water laminar flow is formed on the opposite side of the anode electrode plate 3 and the cathode electrode plate 4 The alkaline water laminar flow, the acidic aqueous laminar flow and the alkaline aqueous laminar flow are cut along the annular split rib 16 . The acidic water layer flow is directed downward through the acidic water flow path 131 formed by the plurality of partition plates 13 (see the second figure) on the top surface of the base 10, and is first guided to the outer wall partition 151 of the water inlet pipe 15 (please Referring to the third embodiment, the formed acidic water outlet channel 15 3 is further flowed from the bottom of the acidic water outlet channel 15 3 to the acidic water outlet port 15 4 to the acidic water CS) 11 1354714 sump 7 4. Finally, the acidic water sump 74 is guided by the acidic water sump 74 to the acidic water outlet joint 7 of the inlet and outlet joint 70. The green water flow path 6 31 ' formed by the separator 6 3 which is aliquoted by the bottom surface of the cover body 6 Q is further guided to the center alkaline water outlet joint 61 by the test water collecting tank 6 2 . Water. Embodiment 2, the radiant electrolysis device provided by the present invention can be designed to be practically closed (see __), and the young water is discharged from the cover body 60 center water inlet joint 6 1 It can also be designed as the second embodiment. Please refer to the sixth _: a three-dimensional combination diagram of the second embodiment of the present invention. FIG. 7 is a schematic view showing the state of use of the second embodiment of the present invention. The type of alkaline water from the electrical conductor 2 〇 central alkaline water outlet 2 3 'mainly is to remove the cover 6 Q center miscellaneous water outlet joint 6 1 (see the first figure), then turn off the conductive The center of the body 2 traverses the alkaline water outlet 2 3 so that the alkaline water can be directly discharged from the alkaline water outlet 23 at the center of the conductor 20 . Embodiment 2 The radiant electrolysis apparatus provided by the present invention is referred to in the eighth embodiment: a perspective sectional view of the third embodiment of the present invention. And FIG. 9 is a schematic view showing the state of the smoke of the third embodiment of the present invention. In the second embodiment, the ion exchange membrane 100 may be disposed between the anode separator 3q and the cathode electrode plate 4, in place of the split rib 16 (see the sixth drawing). μ Embodiment 4, the radiant electrolysis device provided by the present invention can be designed not only as an embodiment - (please refer to the first figure), the seat body i 〇 is below, and the cover body 60 is above. It can also be designed as the fourth embodiment, 12 1354714 riding: the three-dimensional combination of the fourth embodiment of the present invention is not shown: the three-dimensional / knife solution of the fourth embodiment of the present invention is not intended to be one or two. The seat body 10 is on the upper side and the cover body 60 is in the lower shape. The conductive device (4) is arranged in conjunction with the _f, and the water inlet and outlet are combined with the ==== quick disassembly type, and the general electrolysis machine design is tested. If the water is out of the water, the water is set at the bottom, and the water outlet is set at the top. When the foot's or the amount of water is small, the acid water cannot be used. In the case of mixed flow, in order to avoid this phenomenon, a pressure valve group 9 is added to the two water outlet joints 61; wherein: the socket portion 11 of the seat body 10 is provided with a cassette 111, and the inlet and outlet joint rods 111 are provided with rods. The groove 7〇1 is used as the seat body= for quick disassembly and assembly, the conductive device 80 is in the water inlet and outlet, and the outer diameter of the 70 is opposite to the positive electrode conductive portion 33, and the positive electrode conductive seat 2 positive electrode conductive seat 8 is provided! The positive electrode conductive member 81 is covered by the cover member 83, and the positive electrode is guided by the elastic force of the elastic member S1, and is kept good with the anode electrode plate 3: a positive electrode conductive portion 33. Contact conductive state, conductive in (4) water _7 Q towel center corresponding to the object ^ 2 〇 where = conductive seat 84 (see the thirteenth figure Shown), the negative electrode conductive seat 8 = fine elastic by S2 and the negative electrode conductive column 85, and by the nut n the negative electrode conductive column 85, so that the negative electrode conductive column 85 can be elastically transferred to the elastic force of S 2, and the electrical conductor 2 Maintaining a good contact 13 1354714 electrical state; the cap water outlet 61 of the cover 60 is provided with an internal thread 66 (see Figure 13), the lock valve set 90, the house valve group 9 The valve seat 91 of 0 is provided with an external thread 92, which can be locked to the internal thread 6 of the cover body 6 and its water-repellent water outlet joint 61. The valve seat 91 is provided with a water stop ring 9 3 and a valve member 94. The elastic member S3, the valve seat 9 1 and the water stop pad f93 ★ are provided with an inspecting water inlet 95, 96, and a plurality of equally spaced slit water passages 97 are arranged around the seat 91 (refer to Fig. 13 The valve member 94 is closed by the elastic force of the elastic member s 3 to seal the water of the water stop ring σ9 of the water stop ring 9 3, thereby increasing the pressure at the water outlet of the water-repellent water outlet joint 61, which is the outlet of the alkaline water outlet Pressure, according to the actual demand, adjust the elastic coefficient of 70 pieces of s 3, finely change the pressure of the Wei water outlet, and force the acidic water from the upper acid Out of the outlet connector 77, to address the acidic water can not be discharged from the top, with the experience of water were mixed problem. For the fourth embodiment, please refer to the thirteenth and fourteenth drawings: a schematic diagram of the combination of the new state and the s_s_ in the fourth embodiment of the present invention. During electrolysis, an acidic water laminar flow and an alkaline aqueous laminar flow are formed on the opposite side of the anode electrode plate 3 〇 and the cathode electrode plate 4 ,, and the acidic aqueous laminar flow and the abridged aqueous laminar flow are distributed via the annular split rib 16 When the alkaline water layer flows down to the alkaline water sump 62, the pressure valve group 9 〇 generates an upward pressure, which prevents the acidic water layer from flowing downward, and finally the acidic water sump 7 4 The acidic water outlet joint 77 leading to the inlet and outlet joint 70 is discharged, and the alkaline water is pushed away from the valve member 94, and the alkaline water is discharged from the alkaline water passage 97 and the alkali 丄〇4/14 water outlet joint 61. Water. The corrective electric service provided by the invention has a water inlet area which is far smaller than the cross-sectional area of the acidic water and the detection water outlet water located at the periphery of the circumference, in other words, the periphery of the electrode plate is designed as the water discharge σ, and the largest outlet area can be made. The flow rate of the water outlet is slowed down, so that the water flow can be effectively and smoothly, and the water μ is radiated and diffused in a parallel straight line direction, and is smoothly electrolyzed into an upper layer of the acidic water layer flow and the lower layer of the anerotropic water layer flow, and the two electrode plates are simultaneously made. The electrolysis current around the inlet is larger than the electrolysis current at the inlet, and the skin effect (Skin effect) naturally generated around the two electrode plates, and the electrolysis current around the second electrode plate. The peripheral spacing between the acidic aqueous laminar flow and the alkaline aqueous laminar flow is beneficial to the diversion of the acidic aqueous laminar flow and the alkaline aqueous laminar flow. In view of the above-mentioned invention, a radiant electrolysis device for providing a water ionizer is proved to be able to achieve the functional benefits expected by the present invention after the actual production and repeated operation tests of the present inventors, and at the same time There is no such thing as "first creation" and "industrial use value". It is true that it has already met the founding principle of the invention patent and applied for an invention patent to the bureau in accordance with the provisions of the Patent Law. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective sectional view showing a first embodiment of the present invention. FIG. 2 is a perspective exploded view of the first embodiment of the present invention. FIG. 3 is a perspective exploded view of the first embodiment of the present invention. Figure 4 is a schematic view showing the state of use of the first embodiment of the present invention. Figure 5: Schematic diagram of the C-C section combination in the fourth figure. 15 1354714 FIG. 6 is a perspective sectional view showing a second embodiment of the present invention. Figure 7 is a schematic view showing the state of use of the second embodiment of the present invention. Figure 8 is a perspective sectional view showing a third embodiment of the present invention. Figure 9 is a schematic view showing the state of use of the third embodiment of the present invention. Figure 10 is a perspective sectional view showing a fourth embodiment of the present invention. Figure 11 is a perspective exploded view of the fourth embodiment of the present invention. Figure 12 is a perspective exploded view of the fourth embodiment of the present invention. Figure 13 is a schematic view showing the state of use of the fourth embodiment of the present invention. Figure 14: Schematic diagram of the S-S section combination of the thirteenth figure. Figure 15 is a schematic view showing the flow rate of the electrolytic cell of the present invention. Figure 16 is a schematic diagram of the current of the electrolytic cell of the present invention. [Main component symbol description] 11 Socket 1 2 screw hole 131 acidic water flow path 15 inlet and outlet water separator 15 1 partition 153 acidic water outlet flow path 155 coupling groove 16 split rib 162 second group spacer 164 second Positioning part 18 outer edge 2 1 external thread 111 13 14 15 1 15 2 15 4 15 6 16 1 16 3 17 2 0 10 seat body 榫 穿孔 穿孔 隔板 隔板 原 原 原 原 原 原 酸性 酸性 酸性 酸性a set of spacers, first positioning portion, externally threaded conductor 1354714
2 2 定位階緣 2 3 鹼性水出水口 3 0 陽極電極板 3 1 進水口 3 2 補強部 3 3 正極導電部 4 0 陰極電極板 4 1 穿孔 4 2 補強部 43 定位凸部 5 0 鎖固元件 6 0 蓋體 6 1 驗性水出水接頭 6 2 鹼性水集水槽 6 3 隔板 6 3 1 驗性水流路 64 内螺紋 6 5 内階緣 7 0 進出水接頭 70 1 榫槽 7 1 第一階緣 7 2 第二階緣 7 3 第三階緣 74 酸性水集水槽 7 5 定位孔 76 透孔部 7 7 酸性水出水接頭 78 原水進水接頭 8 0 導電裝置 8 1 正極導電座 8 2 正極導電片 8 3 座蓋 8 4 負極導電座 8 5 負極導電柱 9 0 壓力閥組 9 1 閥座 9 2 外螺紋 9 3 止水塾圈 9 4 閥件 9 5 鹼性水入水口 9 6 驗性水入水口 9 7 驗性水流道 10 0 離子交換膜 N 螺帽 Q 1〜 Q 7 止水墊圈 S 1〜 S3 彈性元件 172 2 positioning edge 2 3 alkaline water outlet 3 0 anode electrode plate 3 1 water inlet 3 2 reinforcement 3 3 positive electrode 4 0 cathode plate 4 1 perforation 4 2 reinforcement 43 positioning protrusion 5 0 locking Element 6 0 Cover body 6 1 Authentic water outlet joint 6 2 Alkaline water sump 6 3 Partition 6 3 1 Authentic water flow path 64 Internal thread 6 5 Inner edge 7 0 Inlet and outlet joint 70 1 Groove 7 1 First edge 7 2 Second edge 7 3 Third edge 74 Acid water sump 7 5 Positioning hole 76 Through hole 7 7 Acid water outlet joint 78 Raw water inlet joint 8 0 Conductive device 8 1 Positive electrode holder 8 2 Positive Conductive Sheet 8 3 Cover 8 4 Negative Conductor 8 5 Negative Conductor 9 0 Pressure Valve 9 1 Seat 9 2 External Thread 9 3 Water Stop 9 9 4 Valve 9 5 Alkaline Water Inlet 9 6 Sexual water inlet 9 7 Acquired water channel 10 0 Ion exchange membrane N Nut Q 1~ Q 7 Water stop washer S 1~ S3 Elastic element 17