M429518 :爾由於本創作之模組化淨水設備,包括多個 ,:者可針對水源之水質或是需水量架設不同 調:之淨水模組r支架上,藉以對模組化淨水 地二:且利用一管路模組連接淨水模組’即可快 ΐ間淨水設備之組裝。當要搬移模組化淨水設備 打ΰ曰_移動支架來移動模組化模 組化淨水設料解後分別㈣。 【實施方式】 與請’閱第1圖以及第2圖,其中第i圖為本創作 二,例^組化淨水設傷1的立體圖,第2圖為本創作 貝施例之^組化淨水設備1的分解®。模組化淨水設備 包括一,支架1〇、一第一淨水模組2〇、一第二淨水模組3〇、 一第三,水模組4〇以及一管路模組50。支架10可為一移 、、卜^支木10包括一承載基座11、複數個側壁12以 及硬數個滾輪13。側壁12分別設置於承載基座11上之邊 =六並^直承载基座11,側壁12以及承載基座11之形成 :谷置空間S1。滾輪13設置於承載基座丨〗之下方。因此, 處支架1() #動模組化淨水設備1至水源 動二、者亦可藉由推動支架10,使模組化淨水設備1移 或===上具,例如汽車、船、 動至各地P,、’ 以化淨水設備1能快速地移 時,淨纽務。线組切水設们搭載於船上 Θ由抽取船身附近之水源,以解決船上之用水問題。 5 M429518 第一淨水模組20、第二淨水模組30以及第三淨水模 組40設置於承載基座11上,並位於侧壁12之間以及容置 空間S1内。管路模組50以可拆卸的方式連接第一淨水模 組20、第二淨水模組30以及第三淨水模組40,藉以提高 模組化淨水設備1之組裝速度。管路模組50包括一主入水 管51,經由主入水管51吸取水源處之污水,並將污水依 序輸送至第一淨水模組20、第二淨水模組30以及第三淨 水模組40過濾。 承載基座11可為一板狀結構。每一侧壁12包括一框 架121以及一側板122。框架121由複數個金屬桿件1211 所構成,框架121可以鎖固的方式鎖固於承載基座11上。 側板122可為一塑膠板,卡合於框架121上。滾輪13亦可 以鎖固的方式鎖固於承載基座11上。因此,使用者可快速 地將侧壁12、框架121以及滾輪13組合於承載基座11上, 以完成支架10之組裝。 第一淨水模組20包括一第一殼體21、複數個第一加 強肋22以及一第一把手23。第一殼體21為一中空結構, 設置於承載基座11上並位於容置空間S1内。為了減輕第 一殼體21之重量,第一殼體21可以塑膠材質製成。另外 第一加強肋22分別設置於第二殼體31之側面,以加強第 一殼體21之強度。第一把手23可設置於第一殼體21,以 方便使用者搬運第一殼體21。 第一殼體21包括一第一入水口 21卜一第一排污口 212 以及一第一出水口 213。第一入水口 211以及第一排污口 M429518 212設置於第一殼體21之底部,且第一出水口 213設置於 第一殼體21之頂部。亦即,第一排污口 212於第一殼體 21之高度低於第一入水口 211,第一入水口 211於第一殼 體21之高度低於第一出水口 213。 第二淨水模組30包括一第二殼體31、複數個第二加 強肋32以及一第二把手33。第二殼體31為一中空結構, 設置於承載基座11上並位於容置空間S1内。為了減輕第 φ 二殼體31之重量,第二殼體31可以塑膠材質製成。另外 第二加強肋32分別設置於第二殼體31之側面,以加強第 二殼體31之強度。第二把手33可設置於第二殼體31,以 方便使用者搬運第二殼體31。 第二殼體31包括一第二入水口 311、一第二排污口 312 以及一第二出水口 313。第二入水口 311以及第二棑污口 312設置於第二殼體31之底部,且第二出水口 313設置於 第二殼體31之頂部。亦即,第二排污口 312於第二殼體 • 31之高度低於第二入水口 311,第二入水口 311於第二殼 體31之高度低於第二出水口 313。 第三淨水模組40包括一第三殼體41、複數個第三加 強肋42以及一第三把手43。第三殼體41為一中空結構, 設置於承載基座11上並位於容置空間S1内。為了減輕第 三殼體41之重量,第三殼體41可以塑膠材質製成。另外 第三加強肋42分別設置於第三殼體41之側面,以加強第 三殼體41之強度。第三把手43可設置於第三殼體41,以 方便使用者搬運第三殼體41。 7 M429518 第三殼體41包括一第三入水口 411、一第三排污口 412 以及一第三出水口 413。第三入水口 411以及第三排污口 412設置於第三殼體41之底部.,且第三出水口 413設置於 第三殼體41之頂部。亦即,第三排污口 412於第三殼體 41之高度可低於第三入水口 411,第三入水口 411於第三 殼體41之高度低於第三出水口 413。 於本實施例中,第二淨水模組30設置於第一淨水模組 20以及第三淨水模組40之間。第二殼體31位於第一殼體 21以及第三殼體41之間。第一殼體21之第一加強肋22 可接觸於第二殼體31,以及第二殼體31之第二加強肋32 可接觸第一殼體21,且第二殼體31之第二加強肋32可接 觸於第三殼體41,以及第三殼體41之第三加強肋42可接 觸第二殼體31,藉此可輔助第一殼體21、第二殼體31以 及第三殼體41之間的定位,使得模組化淨水設備1更加穩 固。 另外,模組化淨水設備1更可包括複數個固定結構 A1,當第一淨水模組20、第二淨水模組30以及第三淨水 模組40設置於支架10後可以固定結構A1將第一殼體21、 第二殼體31以及第三殼體41更穩固地固定於支架10上。 請參考第3圖,為本創作之模組化淨水設備1的部份 分解圖。管路模組50更包括一主殼體52' —主出水管53、 一第一連接管54、一第二連接管55、一紫外線殺菌單元 56、一第一馬達57以及一第二馬達58。主入水管51以及 主出水管53貫穿於主殼體52並延伸至主殼體52内部。第 M429518 一連接管54、第二連接管55、紫外線殺菌單元56、第一 馬達57以及第二馬達58設置於主殼體52内部。 主入水.管51連接於第一入水口 211,第一連接管54 連通於第一出水口 213以及第二入水口 311。第二連接管 55連通於第二出水口 313以及第三入水口 411。主出水管 53連通於第三出水口 413。 紫外線殺菌單元56可設置於主出水管53,於另一實 φ 施例中,複數個紫外線殺菌單元56可分別耦接於第一出水 口 213、第二出水口 313、及/或第三出水口 413。 第一馬達57可耦接於主入水管51,第二馬達58可耦 接於主出水管53。於另一實施例中,第一馬達57及或第 二馬達58可不設置於管路模組50,而可選擇性地設置於 承載基座11上。 藉由本實施例之管路模組50,使用者僅需將各淨水模 組之入水口以及出水口與管路模組50連接,即可快速簡易 • 的完成模組化淨水設備1之組裝。 請參考第4圖,為本創作一實施例之模組化淨水設備 1的示意圖,其中第一淨水模組20可為一沈澱式淨水模 組,可針對粒徑大於10/zm之砂土等雜質進行過濾。在第 一淨水模組20中設有複數個傾斜板24、一第一排污板25、 一第一止擋閥26以及一溢流槽27。傾斜板24傾斜地設置 在第一殼體21内,並位於第一入水口 211以及第一出水口 213之間。 傾斜板24彼此大致平行排列,兩相鄰的傾斜板24之 9 M429518 間形成一沈澱通道A2,傾斜板24相 一 可為45度至80度,最佳可為 ,:一水平面之夹角 厌取侄了為60度。傾斜板 -可拆卸式模組’以方便使用者替換一=形成 可於傾斜板24内形成多個沈澱通道(圖未干)貫施例中, 排污板25傾斜地設置於第-殼體:ι内之底邻 其中第一排污口 212鄰近於第一排污板h 楚」, 水口 211鄰近;^第一雜-知第一入 、、弟心板25之頂端。溢流槽2卜 第一殼體21内之頂部,第一遠接总 叹置於 之内部。 #連接官^延伸至溢流槽” 、ώ於本實施例中,主人水管51可延伸至-水源中,例如 心、湖泊:或水槽,並利用第一馬達57將水源中之污水 抽入主入水官5;!。之後污水經由主人水管5ι輸送至第— 淨水模組2G之第-殼體21中。第—止擔閥^設置於第— 排…12 ’當第-止擋閥%關閉時,可防止污水由第— 排污口 212排出。 由於污水持續注入第一殼體21内,因此污水之水位合 不斷地升高,最後使得污水經由傾斜板24以及溢流槽& 流入第一連接管54後排出第一淨水模組20。 當污水進入第一淨水模組2〇時,為第一階段之淨水步 $因此污水可月匕會含有大量之如泥沙、石塊等大顆粒雜 質,此時大顆粒雜質會因重力落於第一排污板25上,並沿 著第一排污板25朝向第一出水口 213滑動,並雄 出水口犯以及第一排污板25底端附近。貝、弟 §污水ml經沈殿通道A2時,污水内之大顆粒雜質經由 10 M429518 與傾斜板24之接觸,加速沈澱於傾斜板。沈澱於傾斜板 24之雜質會沿著傾斜板24向下滑動,最後堆積於第一排 污板25上。 當污水至苐一殼體21之頂部時,污水之水位必須超過 >益流槽27之頂部才能流入溢流槽27,因此需漂浮至污水 頂部之雜質才能流入溢流槽27,因此可藉由溢流槽27進 一步防止大顆粒之雜質流出第一殼體21。 第二淨水模組30為第二階段之淨水步驟,第二淨水模 組30可針對粒徑大於1/zm的懸浮固體物及有機污染物進 行處理。第二淨水模組30更包括一過濾單元34、一第二 排污板35以及一第二止擋閥36。 過;慮單元34可拆卸地設置於第二殼體31内,以方便 使用者更換。過濾單元34位於第二入水口 311以及第二出 水口 313之間。過濾單元34可包括複數個軟質擔體,例如 多孔性擔體341以及二孔隙板342,多孔性擔體341可由 聚氨醋(PU)泡綿或是不織布等材質所構成。粒徑大於1 # m的懸浮固體物及有機污染物可附著於多孔性擔體341。 另由於污水可穿過孔隙板342,但是多孔性擔體341無法 穿過孔隙板3。42,因此多孔性擔體341可被限制於兩孔隙 板342之間,以防止多孔性擔體341經由第二出水口 313 或是第二排污口 312流失。 第二排污板35傾斜地設置於第二殼體31内之底部, 第二排污口 312鄰近於第二排污板35之底端,第二入水口 311鄰近於第二排污板35之頂端。如同第一淨水模組2〇, M429518 體料,接管54以及第二入水口 311以第二殼 ^ 35 ^ % # 附近。第二止擋^6#=3,ί端以及第二排污口犯 閥36關閉時 排…12 ’當第二止擋 έ 了防止万水經由第二止擋閥30排出。 瘦體二之\—^接管54不斷的灌注污水,使得污水於第二 1水口 3^ 並流經過遽單元34過遽後,經由第 -出土口 313排出第二殼體31。 淨水模組4G為本實施例第三階段之淨水步驟,第 / _ 40可為一薄膜式淨水模組,可針對粒 曾二的微細顆粒、細菌、腐植質、固體物有機物等雜 質或疋污染物進行過濾。 …、 第三淨水模組40可包括一濾膜單元44以及一 擔閥46。據膜單元44設置於第三殼體41内,並可位於 心及第三出水口 413之間◊主出水· Μ穿過 2出水口 413延伸至第三殼體41内部,_單元44包 複數個遽膜元件441,遽膜元件441之 53之内部相連通。 I、主出水官 >可水經由第二連接管55以及第三入水口 411進入 殼體411’第三止擋閥46設置於第三排污口 412,當第: 止擔閥46關_ ’可防止污水經㈣三讀閥%排出。 ,出水管53可連接-第二馬達58,使得第三殼體^内之 >可^經由濾膜元件441過濾後成為一潔淨水,並流至主出 水管53後排出。紫外線殺菌單元56裝設於主出水管53, 12 M429518 可針對潔淨水内可能殘留之細菌做一殺菌之步驟。 每隔一段時間,使用者可藉由打開第一止擋閥26、第 二止擋閥36以及第三止擋閥46,使得堆積於第一淨水模 組20、第二淨水模組30以及第三淨水模組40之污泥等雜 質排出可分別經由第一排污口 212、第二排污口 312以及 第三排污口 412排出,以方便使用者清理。 請參考第4圖,第一出水口 213距離承載基座11之高 φ 度高於第二出水口 313距離承載基座11之高度,第二出水 口 313距離承載基座11之高度高於第三出水口 413距離承 載基座11之高度,此外,第一出水口 213距離承載基座 11之高度高於第二入水口 311距離承載基座11之高度, 第二出水口 313距離承載基座11之高度高於第三入水口 411距離承載基座11之高度。因此,本實施例之模組化淨 水設備1可利用重力原理使得第一淨水模組20之污水自動 經由第一連接管54流至第二淨水模組30,且第二淨水模 • 組30之污水自動由第二連接管55流至第三淨水模組40, 並不需要額外的能源。另外,第二馬達58亦可省略,僅利 用主出水管53中潔淨水的重力及虹吸力,抽取流經濾膜元 件441之潔淨水。 於本創作中具有三組淨水模組,然而淨水模組之數目 並不以三組為限。此外,各模組單元亦可以進行串聯、並 聯等方式組合,並不予以限制。此外,每一淨水模組之過 濾機制亦不予以限制。熟悉此領域具有技術之人可參考本 說明書依據需求設置四組以上之淨水模組,或是設置兩組 13 M429518 以下之淨水模組。 請參考第5圖,為本創作一實施例之模組化淨水系統 100的示意圖。模組化淨水系統100包括複數個淨水設備 1 a、1 b。淨水設備1 a包括三個淨水模組B1,淨水設備1 b 包括四個淨水模組B2,淨水設備1 a與淨水設備1 b並聯。 淨水設備1 a之主入水管C1以及淨水設備1 b之主入水管 C2經由主入水管C3連接。主入水管C3可延伸至一水源 處。淨水設備1 a之主出水管D1以及淨水設備1 b之主出 水管D2經由主出水管D3連接,淨水設備1 a和淨水設備 lb所產生之潔淨水經由主出水管D3排出。 因此,藉由模組化淨水設備1 a、1 b之並聯,可加大潔 淨水之供給量。 於另一實施例中,可不裝設主入水管C3,因此主入水 管C1和主入水管C2可分別至不同之水源處抽取。又一實 施例中,可不裝設主出水管D3,因此主出水管D1和主出 水管D3可將所產生之潔淨水輸送至不同的地方。 經由本實施例之揭示,熟悉此領域技術之人可依據需 求,並聯不同數目之模組化淨水設備1,藉以提高使用上 之便利。 綜上所述,由於本創作之模組化淨水設備,包括多個 淨水模組,使用者可針對水源之水質或是需水量架設不同 功能或是數目之淨水模組於一支架上,藉以對模組化淨水 設備進行調整,且利用一管路模組連接淨水模組,即可快 速簡易地完成淨水設備之組裝。當要搬移模組化淨水設備 14 M429518 時,可藉由推動移動支架來移動模組化淨水設備或是將模 組化淨水設備拆解後分別搬運。 本創作雖以各種實施例揭露如上,然而其僅為範例參 考而非用以限定本創作的範圍,任何熟習此項技藝者,在 不脫離本創作之精神和範圍内,當可做些許的更動與潤 飾。因此上述實施例並非用以限定本創作之範圍,本創作 之保護範圍當視後附之申請專利範圍所界定者為準。M429518: Due to the modular water purification equipment of this creation, including multiple, the water quality of the water source or the water demand can be set differently: the water purification module r bracket, so as to the modular water purification Second: and use a pipeline module to connect the water purification module' to quickly assemble the water purification equipment. When you want to move the modular water purification equipment, smash the _ mobile bracket to move the modularized model to the grouped water purification solution (4). [Embodiment] Please refer to Figure 1 and Figure 2, where the i-th picture is the creation of the second, the case of the group of water purification set 1, and the second picture is the creation of the example Decomposition of Water Purification Equipment 1 . The modular water purification device comprises a bracket 1 , a first water purification module 2 , a second water purification module 3 , a third, a water module 4 , and a pipeline module 50 . The bracket 10 can be a shift, and the support 10 includes a carrier base 11, a plurality of side walls 12, and a plurality of rollers 13. The side walls 12 are respectively disposed on the side of the carrier base 11 = six straight bearing bases 11, and the side walls 12 and the carrier base 11 are formed: a valley space S1. The roller 13 is disposed below the carrier base. Therefore, the bracket 1 () can be moved from the modular water purification device 1 to the water source. Alternatively, the modular water purification device 1 can be moved or replaced by, for example, a car or a ship. Move to the local P, 'When the water purification equipment 1 can move quickly, the net business. The line group cut water installations are mounted on the ship. The water source near the hull is extracted to solve the water problem on the ship. 5 M429518 The first water purification module 20, the second water purification module 30, and the third water purification module 40 are disposed on the carrier base 11 and located between the side walls 12 and the accommodation space S1. The pipe module 50 detachably connects the first water purification module 20, the second water purification module 30, and the third water purification module 40, thereby improving the assembly speed of the modular water purification device 1. The pipeline module 50 includes a main water inlet pipe 51, sucks the sewage at the water source through the main water inlet pipe 51, and sequentially delivers the sewage to the first water purification module 20, the second water purification module 30, and the third purified water. Module 40 filters. The carrier base 11 can be a plate-like structure. Each side wall 12 includes a frame 121 and a side panel 122. The frame 121 is composed of a plurality of metal rod members 1211, and the frame 121 is locked to the carrier base 11 in a locking manner. The side plate 122 can be a plastic plate that is engaged with the frame 121. The roller 13 can also be locked to the carrier base 11 in a locking manner. Therefore, the user can quickly assemble the side wall 12, the frame 121, and the roller 13 to the carrier base 11 to complete the assembly of the bracket 10. The first water purification module 20 includes a first housing 21, a plurality of first reinforcing ribs 22, and a first handle 23. The first housing 21 is a hollow structure disposed on the carrier base 11 and located in the accommodating space S1. In order to reduce the weight of the first casing 21, the first casing 21 may be made of a plastic material. Further, the first reinforcing ribs 22 are respectively disposed on the side of the second casing 31 to reinforce the strength of the first casing 21. The first handle 23 can be disposed on the first housing 21 to facilitate the user to carry the first housing 21. The first housing 21 includes a first water inlet 21, a first drain port 212, and a first water outlet 213. The first water inlet 211 and the first sewage outlet M429518 are disposed at the bottom of the first casing 21, and the first water outlet 213 is disposed at the top of the first casing 21. That is, the height of the first sewage outlet 212 in the first casing 21 is lower than the first water inlet 211, and the height of the first water inlet 211 in the first casing 21 is lower than the first water outlet 213. The second water purification module 30 includes a second housing 31, a plurality of second reinforcing ribs 32, and a second handle 33. The second housing 31 is a hollow structure disposed on the carrier base 11 and located in the accommodating space S1. In order to reduce the weight of the second φ second casing 31, the second casing 31 may be made of a plastic material. Further, second reinforcing ribs 32 are respectively disposed on the side of the second casing 31 to reinforce the strength of the second casing 31. The second handle 33 can be disposed on the second housing 31 to facilitate the user to carry the second housing 31. The second housing 31 includes a second water inlet 311, a second sewage outlet 312, and a second water outlet 313. The second water inlet 311 and the second sewage outlet 312 are disposed at the bottom of the second casing 31, and the second water outlet 313 is disposed at the top of the second casing 31. That is, the second drain port 312 is lower than the second water inlet 311 in the second casing 31, and the second water inlet 311 is lower in the second shell 31 than the second water outlet 313. The third water purification module 40 includes a third housing 41, a plurality of third reinforcing ribs 42, and a third handle 43. The third housing 41 is a hollow structure disposed on the carrier base 11 and located in the accommodating space S1. In order to reduce the weight of the third casing 41, the third casing 41 may be made of a plastic material. Further, the third reinforcing ribs 42 are respectively disposed on the side faces of the third casing 41 to reinforce the strength of the third casing 41. The third handle 43 can be disposed on the third housing 41 to facilitate the user to carry the third housing 41. 7 M429518 The third housing 41 includes a third water inlet 411, a third sewage outlet 412, and a third water outlet 413. The third water inlet 411 and the third sewage outlet 412 are disposed at the bottom of the third casing 41. The third water outlet 413 is disposed at the top of the third casing 41. That is, the third drain port 412 can be lower than the third water inlet 411 at the height of the third casing 41, and the third water inlet 411 is lower than the third water outlet 413 by the third casing 41. In the embodiment, the second water purification module 30 is disposed between the first water purification module 20 and the third water purification module 40. The second housing 31 is located between the first housing 21 and the third housing 41. The first reinforcing rib 22 of the first housing 21 may contact the second housing 31, and the second reinforcing rib 32 of the second housing 31 may contact the first housing 21, and the second reinforcement of the second housing 31 The rib 32 may be in contact with the third housing 41, and the third reinforcing rib 42 of the third housing 41 may contact the second housing 31, thereby assisting the first housing 21, the second housing 31, and the third housing The positioning between the bodies 41 makes the modular water purification device 1 more stable. In addition, the modular water purification device 1 may further include a plurality of fixed structures A1. When the first water purification module 20, the second water purification module 30, and the third water purification module 40 are disposed on the bracket 10, the structure may be fixed. The A1 fixes the first housing 21, the second housing 31, and the third housing 41 more firmly to the bracket 10. Please refer to Figure 3 for a partial exploded view of the modular water purification equipment 1 of the present invention. The pipeline module 50 further includes a main casing 52' - a main outlet pipe 53, a first connecting pipe 54, a second connecting pipe 55, an ultraviolet sterilizing unit 56, a first motor 57 and a second motor 58. . The main inlet pipe 51 and the main outlet pipe 53 penetrate through the main casing 52 and extend to the inside of the main casing 52. The M425518 one connecting pipe 54, the second connecting pipe 55, the ultraviolet sterilizing unit 56, the first motor 57, and the second motor 58 are disposed inside the main casing 52. The main inlet water pipe 51 is connected to the first water inlet 211, and the first connection pipe 54 is connected to the first water outlet 213 and the second water inlet 311. The second connecting pipe 55 communicates with the second water outlet 313 and the third water inlet 411. The main outlet pipe 53 is connected to the third water outlet 413. The ultraviolet sterilizing unit 56 can be disposed in the main water outlet pipe 53. In another embodiment, the plurality of ultraviolet ray sterilizing units 56 can be respectively coupled to the first water outlet 213, the second water outlet 313, and/or the third outlet. Nozzle 413. The first motor 57 can be coupled to the main water inlet pipe 51, and the second motor 58 can be coupled to the main water outlet pipe 53. In another embodiment, the first motor 57 and the second motor 58 may not be disposed on the pipeline module 50, but may be selectively disposed on the carrier base 11. With the pipeline module 50 of the embodiment, the user only needs to connect the water inlet and the water outlet of each water purification module with the pipeline module 50, and the modular water purification equipment can be quickly and easily completed. Assembly. Please refer to FIG. 4 , which is a schematic diagram of a modular water purification device 1 according to an embodiment of the present invention. The first water purification module 20 can be a sedimentary water purification module, and can be used for a particle size greater than 10/zm. Impurities such as sand are filtered. A plurality of inclined plates 24, a first draining plate 25, a first stop valve 26, and an overflow groove 27 are provided in the first water purification module 20. The inclined plate 24 is disposed obliquely inside the first casing 21 and between the first water inlet 211 and the first water outlet 213. The inclined plates 24 are arranged substantially parallel to each other, and a sedimentation passage A2 is formed between 9 M429518 of the two adjacent inclined plates 24, and the inclined plates 24 may have a phase of 45 to 80 degrees, and preferably, the angle of the horizontal plane is annoying. It took 60 degrees. The sloping plate-detachable module' is convenient for the user to replace one = forming a plurality of sedimentation channels in the inclined plate 24 (not shown). In the embodiment, the sewage plate 25 is obliquely disposed on the first housing: ι The inner bottom adjacent to the first discharge port 212 is adjacent to the first drain plate h, and the water port 211 is adjacent to the first end; the first miscellaneous first, the top of the disc 25. The overflow trough 2 is at the top of the first casing 21, and the first remote end is always placed inside. #连接官^ extends to the overflow tank", in the present embodiment, the master water pipe 51 can extend into the water source, such as the heart, the lake: or the sink, and use the first motor 57 to pump the sewage in the water source into the main After entering the water officer 5;!, the sewage is then sent to the first housing 21 of the first water purification module 2G via the main water pipe 5. The first stop valve ^ is set in the first row...12' as the first stop valve % When closed, the sewage can be prevented from being discharged from the first sewage outlet 212. Since the sewage is continuously injected into the first casing 21, the water level of the sewage is continuously increased, and finally the sewage flows into the first through the inclined plate 24 and the overflow tank & After connecting a pipe 54, the first water purification module 20 is discharged. When the sewage enters the first water purification module 2, it is the first stage of the water purification step. Therefore, the sewage can contain a large amount of sand and stone. Large particles of impurities, such as large particles, will fall on the first draining plate 25 by gravity, and slide along the first draining plate 25 toward the first water outlet 213, and the male outlet and the first draining plate 25 Near the bottom end. Bei, brother § sewage ml through the Shen Dian channel A2, the large particles in the sewage The impurities are accelerated to be deposited on the inclined plate via the contact of 10 M429518 with the inclined plate 24. The impurities deposited on the inclined plate 24 will slide down the inclined plate 24 and finally accumulate on the first drain plate 25. When the sewage reaches the shell At the top of the body 21, the water level of the sewage must exceed the top of the > the flow tank 27 to flow into the overflow tank 27, so that impurities floating to the top of the sewage can flow into the overflow tank 27, and thus can be further advanced by the overflow tank 27. Preventing impurities of large particles from flowing out of the first casing 21. The second water purification module 30 is a second stage water purification step, and the second water purification module 30 is capable of suspending solid matter and organic pollution having a particle diameter larger than 1/zm. The second water purification module 30 further includes a filter unit 34, a second drain plate 35, and a second stop valve 36. The unit 34 is detachably disposed in the second housing 31. The filter unit 34 is located between the second water inlet 311 and the second water outlet 313. The filter unit 34 may include a plurality of soft supports, such as a porous support 341 and a two-hole plate 342, which is porous. Body 341 can be made of polyurethane (PU) It is composed of a material such as cotton or non-woven fabric. Suspended solids and organic contaminants with a particle size larger than 1 # m can be attached to the porous support 341. Also, since the sewage can pass through the aperture plate 342, the porous support 341 cannot be worn. The porous plate 341 can be confined between the two aperture plates 342 to prevent the porous support 341 from being lost through the second water outlet 313 or the second drain 312. The second drain plate 35 is obliquely disposed at the bottom of the second housing 31, the second drain 312 is adjacent to the bottom end of the second drain plate 35, and the second water inlet 311 is adjacent to the top end of the second drain plate 35. Group 2〇, M429518 body material, nozzle 54 and second water inlet 311 are in the vicinity of the second shell ^ 35 ^ % #. The second stop ^6#=3, ί terminal and the second row of fouling valve 36 when the valve is closed, the row 1212' when the second stop έ prevents the water from being discharged through the second stop valve 30. The slimming body 2 is connected to the sewage, so that the sewage passes through the second unit 3 and flows through the crucible unit 34, and then the second casing 31 is discharged through the first-exit port 313. The water purification module 4G is the water purification step of the third stage of the embodiment, and the / _ 40 may be a membrane type water purification module, which can be used for impurities such as fine particles, bacteria, humus, solid organic matter and the like. Or 疋 contaminants are filtered. The third water purification module 40 may include a filter unit 44 and a load valve 46. The membrane unit 44 is disposed in the third casing 41 and is located between the core and the third water outlet 413. The main water outlet Μ extends through the 2 water outlet 413 to the inside of the third casing 41. The diaphragm elements 441 and the inner portions of the diaphragm elements 441 are connected to each other. I. Main water discharge officer> Water can enter the housing 411 via the second connecting pipe 55 and the third water inlet 411. The third stop valve 46 is disposed at the third drain port 412, when the first: the stop valve 46 is closed _ ' It can prevent the sewage from being discharged through the (4) three-read valve. The outlet pipe 53 can be connected to the second motor 58 so that the > in the third casing can be filtered through the membrane element 441 to become a clean water, and then discharged to the main outlet pipe 53 and discharged. The ultraviolet sterilizing unit 56 is installed in the main water outlet pipe 53, 12 M429518 can perform a sterilization step for bacteria which may remain in the clean water. At intervals, the user can deposit the first water trap module 20 and the second water purification module 30 by opening the first stop valve 26, the second stop valve 36, and the third stop valve 46. The impurities such as the sludge of the third water purification module 40 can be discharged through the first sewage outlet 212, the second sewage outlet 312, and the third sewage outlet 412, respectively, to facilitate cleaning by the user. Referring to FIG. 4, the height φ of the first water outlet 213 is higher than the height of the second water outlet 313 from the bearing base 11, and the height of the second water outlet 313 is higher than the height of the bearing base 11. The height of the first water outlet 213 is higher than the height of the second water inlet 311 from the bearing base 11, and the second water outlet 313 is away from the bearing base. The height of 11 is higher than the height of the third water inlet 411 from the carrier base 11. Therefore, the modular water purification device 1 of the present embodiment can utilize the principle of gravity to automatically cause the sewage of the first water purification module 20 to flow through the first connecting pipe 54 to the second water purification module 30, and the second water purification mode. • The sewage from group 30 is automatically flowed from the second connecting pipe 55 to the third water purification module 40, and does not require additional energy. Further, the second motor 58 may be omitted, and the clean water flowing through the filter element 441 may be extracted only by the gravity and the siphon force of the clean water in the main outlet pipe 53. There are three sets of water purification modules in this creation, but the number of water purification modules is not limited to three groups. In addition, each module unit may be combined in series, in parallel, or the like, and is not limited. In addition, the filtration mechanism of each water purification module is not limited. Those skilled in the art can refer to this manual to set up more than four sets of water purification modules according to requirements, or to set up two sets of water purification modules below 13 M429518. Please refer to FIG. 5, which is a schematic diagram of a modular water purification system 100 according to an embodiment of the present invention. The modular water purification system 100 includes a plurality of water purification devices 1 a, 1 b. The water purification equipment 1a includes three water purification modules B1, and the water purification equipment 1b includes four water purification modules B2, and the water purification equipment 1a is connected in parallel with the water purification equipment 1b. The main inlet pipe C1 of the water purification equipment 1a and the main inlet pipe C2 of the water purification equipment 1b are connected via the main inlet pipe C3. The main inlet pipe C3 can be extended to a water source. The main outlet pipe D1 of the water purifying device 1a and the main outlet pipe D2 of the water purifying device 1b are connected via the main outlet pipe D3, and the clean water generated by the water purifying device 1a and the water purifying device 1b is discharged through the main outlet pipe D3. Therefore, the supply amount of the clean water can be increased by the parallel connection of the modular water purification equipment 1 a and 1 b. In another embodiment, the main water inlet pipe C3 may not be installed, so that the main water inlet pipe C1 and the main water inlet pipe C2 may be respectively extracted to different water sources. In still another embodiment, the main outlet pipe D3 may not be installed, so that the main outlet pipe D1 and the main outlet pipe D3 can deliver the generated clean water to different places. Through the disclosure of the present embodiment, a person skilled in the art can connect different numbers of modular water purification devices 1 in parallel according to requirements, thereby improving the convenience of use. In summary, due to the modular water purification equipment of the creation, including multiple water purification modules, the user can set different functions or a number of water purification modules on a support for the water quality or water demand of the water source. In order to adjust the modular water purification equipment and connect the water purification module with a pipeline module, the assembly of the water purification equipment can be completed quickly and easily. When moving the modular water purification equipment 14 M429518, the modular water purification equipment can be moved by moving the mobile bracket or the modular water purification equipment can be disassembled and transported separately. The present invention is disclosed in the above embodiments, but it is merely an example and is not intended to limit the scope of the present invention. Anyone skilled in the art can make some changes without departing from the spirit and scope of the present invention. With retouching. The above-described embodiments are not intended to limit the scope of the present invention, and the scope of the present invention is defined by the scope of the appended claims.
15 M429518 【圖式簡單說明】 第1圖為本創作之模組化淨水設備的立體圖; 第2圖為本創作之模組化淨水設備的分解圖; 第3圖為本創作之模組化淨水設備的部份分解圖; 第4圖為本創作之模組化淨水設備的示意圖;以及 第5圖為本創作之模組化淨水系統的示意圖。 【主要元件符號說明】 模組化淨水系統100 ; 模組化淨水設備1、1 a、1 b ; 支架10 ; 承載基座11 ; 側壁12 ; 框架121 ; 金屬桿件1211 ; 側板122 ; 滾輪13 ; 第一淨水模組20 ; 第一殼體21 ; 第一入水口 211 ; 第一排污口 212 ; 第一出水口 213 ; 第一加強肋22 ; 第一把手23 ; 16 M429518 傾斜板24 ; 第一排污板25 ; 第一止擋閥26 ; 溢流槽27 ; 第二淨水模組30 ; 第二殼體31 ; 第二入水口 311 ; 第二排污口 312 ; 第二出水口 313 ; 第二加強肋32 ; 第二把手33 ; 過濾單元34 ; 多孔性擔體341 ; 孔隙板342 ; 第二排污板35 ; 第二止擋閥36 ; 第三淨水模組40 ; 第三殼體41 ; 第三入水口 411 ; 第三排污口 412 ; 第三出水口 413 ; 第三加強肋42 ; 第三把手43 ; 濾膜單元44 ; 17 M429518 濾膜元件441 ; 第三止擋閥46 ; 管路模組50 ; 主入水管51 ; 主殼體52 ; 主出水管53 ; 第一連接管54 ; 第二連接管55 ; 紫外線殺菌單元56 ; 第一馬達57 ; 第二馬達58 ; 固定結構A1 ; 沈殿通道A2 ; 淨水模組Bl、B2 ; 主入水管Cl、C2、C3 ; 主出水管Dl、D2、D3 ; 容置空間S1。 1815 M429518 [Simple description of the diagram] Figure 1 is a perspective view of the modular water purification equipment of the creation; Figure 2 is an exploded view of the modular water purification equipment of the creation; Partial exploded view of the water purification equipment; Figure 4 is a schematic diagram of the modular water purification equipment of the creation; and Figure 5 is a schematic diagram of the modular water purification system of the creation. [Main component symbol description] Modular water purification system 100; modular water purification equipment 1, 1 a, 1 b; bracket 10; bearing base 11; side wall 12; frame 121; metal rod 1211; side plate 122; Roller 13; first water purification module 20; first housing 21; first water inlet 211; first sewage outlet 212; first water outlet 213; first reinforcing rib 22; first handle 23; 16 M429518 inclined plate 24 The first drain plate 25; the first stop valve 26; the overflow tank 27; the second water purification module 30; the second casing 31; the second water inlet 311; the second sewage outlet 312; the second water outlet 313 Second reinforcing rib 32; second handle 33; filter unit 34; porous support 341; aperture plate 342; second drain plate 35; second stop valve 36; third water purification module 40; Body 41; third water inlet 411; third drain port 412; third water outlet 413; third reinforcing rib 42; third handle 43; filter unit 44; 17 M429518 filter element 441; third stop valve 46 Pipeline module 50; main inlet pipe 51; main casing 52; main outlet pipe 53; first connecting pipe 54; second connecting pipe 55; ultraviolet sterilizing unit 56; Second motor 58; fixed structure A1; Shen Dian channel A2; water purification module Bl, B2; main inlet pipes Cl, C2, C3; main outlet pipes Dl, D2, D3; accommodation space S1. 18