201020216 六、發明說明: 【發明所屬之技術領域】 本發明係有關於一種可回收光觸媒之管式水質淨化系 統,尤指一種可依實際空間環境設計不同設置架構,可大 幅縮減系統體積及其所佔空間和增加處理效率之水質淨化 裝置。 春 【先前技術】 利用光觸媒淨化水質’是近年來被普遍採用之技術, 例如中華民國專利公開第200720195號「淨水裝置」,該淨 水裝置包括一水槽、光觸媒、一光源以及一不織布薄膜模 紐。該水槽具有一反應區與一分離區;光觸媒係添加於水 槽中;光源設置於反應區,提供光線與該光觸媒進行反應 以分解水中之污染物;不織布薄膜模組設置於該分離區, 用以過濾水中之光觸媒,進而產生淨化水。而被過濾的光 觸媒會自動回到反應區,繼續進行淨水反應。據此可知, 讀案將水質淨化分為反應區與分離區兩部分(兩步驟),必 %设置水槽以容置水、光觸媒、光源及不織布薄膜模組等 樽件’不僅設備複雜,且當淨化水量愈多時,水槽體積必 項加大,水槽及整體設備所佔空間也隨之增加。再者,水 =積大則_媒處理效果不佳,而且安裝配置光源時難 尚施不易’且有光遮蔽技術上的困難’實不盡理想。 〇本發明申請人本身曾創作並申請一公開第200815292 #專利「触式水質淨化ϋ」,該盤旋式水質淨化器主要包 3 201020216 括一殼體,概呈一筒狀;一滞水盤,設於殼體内部,形成 一螺旋狀之連續盤面,且盤面體設有一軸向之孔道;一紫 =線燈管.轴向貫穿於滯水盤之孔道;藉由滯水盤形成螺 ,水並沿紫外線燈管形成直接而且連續之照射殺菌路 徑,提供水流有一延滯紫外線殺菌之時間及增加與水質的 接觸面積’以強化殺H及氧化分解與還原處理效果,此外, 該盤旋式水質淨化器具有模組化、小型化、易於更換等優 f冑別於傳統水槽式結構。基於傳統水槽式淨水裝置及 '由=體積魔大、佔空間及處理效果不彰之主要缺失以及 逸t =斷創新及精益求精之理念,若能將該盤旋式水質 施於淨水裝置或淨水系統中’將可大量縮減系統 體積’減少所佔空間及增加處理效率。 【發明内容】 2鐘於習知技術之缺失’本發明提出—種可回收光觸媒 赢水質淨化系統’可依實際空間環境設計不同設置架 鬌沾而違到縮減系統體積及所你空間和增進處理效率之 目的0 水質淨化=的包含種可回收光_ 一光觸媒混人、一 a缺盤紋式水質淨化器、薄膜過鴻 解水中現合;:之:水質淨化器’用 過該盤旋式水質淨:器之’ Λ 污水之管道係用=觸: 201020216 水輸入該盤旋式水質淨化器。 進-ίί了!2委員對於本發明之結構目的和功效有更 與遢同,茲配合圖示詳細說明如後。 【實施方式】 用的隨附之圖式來描述本發明為達成目的所使 助說^ 功效,而„以下圖式所列舉之實施例僅為輔 Ο201020216 VI. Description of the Invention: [Technical Field of the Invention] The present invention relates to a tubular water purification system capable of recovering photocatalyst, and particularly relates to a different installation architecture that can be designed according to the actual space environment, which can greatly reduce the system volume and its A water purification device that occupies space and increases processing efficiency. Spring [Prior Art] The use of photocatalyst to purify water quality has been widely used in recent years. For example, the Republic of China Patent Publication No. 200720195 "Water Purification Device" includes a water tank, a photocatalyst, a light source, and a non-woven film mold. New Zealand. The water tank has a reaction zone and a separation zone; the photocatalyst is added to the water tank; the light source is disposed in the reaction zone, and the light is provided to react with the photocatalyst to decompose the contaminants in the water; the non-woven film module is disposed in the separation zone, The photocatalyst in the water is filtered to produce purified water. The filtered photocatalyst will automatically return to the reaction zone and continue the water purification reaction. According to this, the reading case divides the water purification into two parts (two steps): the reaction zone and the separation zone. The water tank must be installed to accommodate water, photocatalyst, light source and non-woven film module. When the amount of purified water is increased, the volume of the water tank must be increased, and the space occupied by the water tank and the overall equipment is also increased. Furthermore, if the water is large, the effect of the medium treatment is not good, and it is difficult to install and arrange the light source, and it is difficult to have light shielding technology. The applicant of the present invention has created and applied for a patent No. 200815292 # patent "Touch Water Purification ϋ", the spiral water purifier main package 3 201020216 includes a casing, which is generally cylindrical; a stagnant water tray, Inside the casing, a spiral continuous disk surface is formed, and the disk surface body is provided with an axial hole; a purple=line lamp tube. The axial direction runs through the hole of the water retention plate; the snail is formed by the water retention disk, and the water is along the ultraviolet rays. The lamp tube forms a direct and continuous irradiation sterilization path, providing a water flow with a delay time of ultraviolet sterilization and increasing contact area with water quality to enhance the effect of killing H and oxidative decomposition and reduction treatment, and further, the spiral water purifier has a mold Group, miniaturization, easy replacement, etc. are distinguished from traditional sink structures. Based on the traditional sink-type water purification device and the concept of 'the volume is huge, the space and the treatment effect are not obvious, and the concept of innovation and excellence, if you can apply the spiral water quality to the water purification device or the net In the water system, 'the size of the system can be reduced greatly' reduces the space occupied and increases the processing efficiency. [Summary of the Invention] 2 hours of the lack of the prior art 'The present invention proposes a kind of recyclable photocatalyst to win the water purification system' can be designed according to the actual space environment, and the design of the frame is reduced to reduce the system volume and your space and enhance the processing. The purpose of efficiency 0 Water purification = contains a variety of recoverable light _ a photocatalyst mixed, a lack of disk type water purifier, film over-water solution;: it: water purifier 'used the spiral water quality净:器' Λ Sewage pipe system = Touch: 201020216 Water enters the spiral water purifier. Into - ίί! 2 The members have more similarities in the purpose and function of the structure of the present invention, and the detailed description of the drawings is as follows. [Embodiment] The accompanying drawings are used to describe the effect of the present invention in order to achieve the object, and the embodiments listed in the following figures are only supplementary.
於所列舉圖式。貝審查委貝瞭解’但本案之技術手段並不限 提佴發明之一實施例之架構示意圖,本發明所 式t 質淨化系統1G,其包括複數相互並聯之盤旋 括心化^ Ua〜Ud ’該盤旋式水質淨化器lla~lld包 111肉ΐ 概呈一筒狀;一滯水盤112,設於該殼體 -虹’形成一螺旋狀之連續盤面,且滯水盤112設有 t之中孔用以貫穿-紫外線燈管113;—透明之罩體 4套設於料㈣f 113 ;可拆式蓋體ιΐ5分設殼體⑴ ^拉可拆裝鎖固,便於水質淨化器lla〜lld内部之清洗; ^封口 1151設蓋體115端’可拆裝鎖固,便於紫外線燈 s 113之更換,請參閱第五圖所示。 該盤旋式水質淨化器11a係連通一進水管道12,該進 水管道12係用以將光觸媒混合污水輸入該盤旋式水質淨 匕器11a,於該進水管道12具有一污水進流泵I?〗、第一 調,閥122及一流量計123,該第一調節閥122係設置於 良進>’IL栗121之入口端,用以控制流入該污水進流果 121之污水流量,該流量計123係設置於該污水進流果^21 5 201020216 之出口端’用以控制流出該污水進流泵121之污水流量, 亦即控制該污水進流泵丨21送入該複數盤旋式水質淨化器 11a〜lid之污水流量;此外’亦可將光觸媒混合於污水中, 再經由該進水管道12及進流泵121及流量計123輸入該盤 旋式水質淨化器11a,當混合有光觸媒之污水進入盤旋式 水質淨化器11a〜lid時,藉由滯水盤112形成螺旋水流, 並沿紫外線燈管113形成直接而且連續之照射氧化及殺菌 路徑’提供水流有一延滯紫外線殺菌之時間及增加與水質 ® 的接觸面積,以強化殺菌及氧化分解與還原處理效果,本 實施例設有四組盤旋式水質淨化器11a〜lid,因此可連續 進行四次污水污染物分解過程,確保污染物被徹底分解; 除光觸媒之外,亦可將該進水管道12連通連通臭氧(〇3)或 雙氧水(HA2)之輔助管道13,可於該污水内加入臭氧(〇3) 或雙氧水(H2〇2),藉由辅助管道13及輔助進流泵131之連 通’以增加反應效果。 其次’於該盤旋式水質淨化器11a〜lid連通有單一或 _ 複數薄膜過濾器14a、14b,該類薄膜過濾器14a、14b係 為一種具濃縮分離之薄膜141過濾器,該複數薄膜過濾器 14a、14b係相互並聯或串聯,可用以過濾已通過該盤旋式 水質淨化器11a〜lid之水中之光觸媒,用以產生淨化水; 其中該薄膜過濾器14b係連通一出水管道15,一第二調節 閥152,該第二調節閥152係用以控制流出該薄膜過濾器 14b之淨化水流量;再者,該薄膜過濾器14a、14b連接於 一回收管路16,該回收管路16係用以回收全數之光觸媒 並送回該進水管道12再使用。 6 201020216 Η 凊參閱第一圖所示本發明另一實施例之架構示意圖, 本實施例之管式水質淨化系統10Α同樣具有複數盤旋式水 質淨化器11a〜lid '複數薄膜過濾器14a、14b,並配合有 進水管道12、污水進流泵121、第一調節閥122、流量計 123 ’以及辅助管道13、輔助進流泵131,以及出水管道 15、第二調郎閥152,以及回收管路16等構件,本實施例 架構與第一圖所示實施例之不同點在於,該複數盤旋式水 質淨化器11a〜lid係相互串聯,該複數薄膜過濾i4a、i4b ❹器亦相互串聯; 請參閱第三圖及第四圖所示本發明之盤旋式水質淨化 器及薄膜過濾器不同連結實施例之示意圖; 第三圖所示實施例係由四組盤旋式水質淨化器 11 a〜lid配合四組薄膜過濾器14a〜14d’其中兩組盤旋式水 質淨化器11a、11c與二組薄膜過濾器ua、14c串聯,另 外兩組盤旋式水質淨化器11 b、11 d與二組薄膜過濾、器 14b、14d串聯,形成雙排式處理路徑,透過一污水進流泵 ❹121將污水分別送入盤旋式水質淨化器lla及盤旋式水質 淨化器lib,分別經由薄膜過滤器i4c、i4d過濾、後所產生 之淨化水可再合流送出。 第四圖所示實施例同樣係由四組盤旋式水質淨化器 11 a〜11 d配合四組薄媒過濾、器14a〜14d ’該四組盤旋式水質 淨化器11a〜lid配合四組薄膜過濾器14a〜14d之排列方式 與第二圖實施例相同’惟其係由盤旋式水質淨化器11 a、 11b、11c、Ud、薄膜過濾器 14a、14b、14c、14ci 依序串 聯為一概成S型之連續路徑,透過一污水進流泵12i將污 201020216 水为別送=盤旋式水質淨化器Ua,最後由薄膜過遽器⑽ 過濾產生淨化水,並由出水管道15送出。 而本發明之輯式水f淨化器及薄膜過滤 器之連結實 施方式係可依水質及水量不同之使用需求而定 ,就如污水 處理量大時可採並聯架構連結,而高濃度污水處理量時可 採串聯架構連結;當然亦可採串、並聯相架構同時連結之 方式以因應使用之需求。 綜亡所述’本發明提供之管式水質淨化系統,其所採 ❻用之盤旋式水質淨化器及薄膜過渡器之數量不限,其設置 方式也不限’可依實際空間環境設計不同設置架構,除上 述實施例之外,可將複數盤旋式水質淨化器相互並聯搭配 •相互串聯之複數薄膜過濾器,或可將複數盤旋式水質淨化 器相互串聯搭配相互並聯之複數薄膜過遽器,且可設置為 第〆圖及第一圖之單排式,或第三圖及第四圖之雙排式, 亦或三排以上。 准以上所述者,僅為本發明之實施例而已,當不能以 參之限定本發明所實施之範圍。即大凡依本發明申請專利範 園所作之均等變化與修飾,皆應仍屬於本發明專利涵蓋之 範園内,謹請貴審查委員明鑑,並祈惠准,是所至禱。 【圖式簡單說明】 第二圖係本發明之一實施例之架構示意圖。 第二圖係本發明另一實施例之架構示意圖。 第^圖及第四圖係本發明之盤旋式水質淨化器及薄膜 過遽器不同連結實施例之示意圖。 、 201020216 第五圖係本發明之淨化器結構示意圖。 【主要元件符號說明】 10、10A-管式水質淨化系統 11a〜lid-盤旋式水質淨化器 111- 殼體 112- 滯水盤 113- 紫外線燈管 美 114-罩體 響 115-可拆式蓋體 • 1151燈管封口 . 12-進水管道 121 -污水進流泵 122- 第一調節閥 123- 流量計 13-輔助管道 ©131-輔助進流泵 14a〜14d-薄膜過濾器 141-薄膜 15-出水管道 152-第二調節閥 16-回收管路 9As shown in the figure. The review of the technical means of the present invention is not limited to the schematic diagram of an embodiment of the invention. The t-purification system 1G of the present invention includes a plurality of spirals in parallel with each other. Ua~Ud ' The spiral water purifier lla~lld package 111 is generally tubular; a water retaining tray 112 is disposed on the shell-Hong' to form a spiral continuous disk surface, and the water retaining disk 112 is provided with a hole in the t It is used to penetrate the UV lamp 113; the transparent cover 4 is set on the material (4) f 113; the detachable cover ιΐ5 is divided into the casing (1) ^ Pullable and detachable lock, convenient for the inside of the water purifier lla~lld Cleaning; ^ Seal 1151 is provided with the end of the cover 115' detachable and locked, which facilitates the replacement of the UV lamp s 113, please refer to the fifth figure. The spiral water purifier 11a is connected to a water inlet pipe 12 for inputting photocatalyst mixed sewage into the spiral water purifier 11a, and the sewage pipe 12 has a sewage inflow pump I. The first adjustment valve 122 and a flow meter 123 are disposed at the inlet end of the Liangjin > 'IL pump 121 for controlling the flow rate of the sewage flowing into the sewage inflowing fruit 121. The flow meter 123 is disposed at the outlet end of the sewage inflowing fruit ^ 21 5 201020216 to control the flow of sewage flowing out of the sewage inflow pump 121, that is, to control the sewage inflow pump 21 to be fed into the plurality of spirals. The sewage flow rate of the water purifier 11a~lid; in addition, the photocatalyst may be mixed in the sewage, and then input into the spiral water purifier 11a via the water inlet pipe 12 and the inflow pump 121 and the flow meter 123, when the photocatalyst is mixed When the sewage enters the spiral water purifier 11a~lid, a spiral water flow is formed by the water retaining disk 112, and a direct and continuous irradiation oxidation and sterilization path along the ultraviolet lamp tube 113 is provided, and the water flow has a time of delaying ultraviolet sterilization. Increasing the contact area with Water Quality® to enhance the effect of sterilization and oxidative decomposition and reduction treatment. In this embodiment, four sets of spiral water purifiers 11a~lid are provided, so that four times of sewage pollutant decomposition process can be continuously performed to ensure pollutants. It is completely decomposed; in addition to the photocatalyst, the water inlet pipe 12 can be connected to an auxiliary pipe 13 connecting ozone (〇3) or hydrogen peroxide (HA2), and ozone (〇3) or hydrogen peroxide (H2〇) can be added to the sewage. 2), by the communication between the auxiliary pipe 13 and the auxiliary inlet pump 131 to increase the reaction effect. Next, the single- or multi-membrane filters 14a and 14b are connected to the spiral water purifiers 11a to 13b. The membrane filters 14a and 14b are a membrane 141 with a concentrated separation membrane, and the plurality of membrane filters. 14a, 14b are connected in parallel or in series to filter the photocatalyst in the water that has passed through the spiral water purifiers 11a to 11d to generate purified water; wherein the membrane filter 14b is connected to a water outlet pipe 15, a second a regulating valve 152 for controlling the flow rate of purified water flowing out of the membrane filter 14b; further, the membrane filters 14a, 14b are connected to a recovery line 16 for use in the recovery line 16 The photocatalyst is recovered and returned to the water inlet pipe 12 for reuse. 6 201020216 Η 凊 Referring to the first schematic diagram of another embodiment of the present invention, the tubular water purification system 10 of the present embodiment also has a plurality of spiral water purifiers 11a~lid 'plural membrane filters 14a, 14b, And cooperated with the water inlet pipe 12, the sewage inflow pump 121, the first regulating valve 122, the flow meter 123' and the auxiliary pipe 13, the auxiliary inflow pump 131, and the water outlet pipe 15, the second adjusting valve 152, and the recovery pipe The structure of the embodiment 16 is different from the embodiment shown in the first embodiment in that the plurality of spiral water purifiers 11a to 11 are connected in series, and the plurality of membrane filters i4a and i4b are also connected in series; Referring to the third and fourth figures, a schematic diagram of different connection embodiments of the spiral water purifier and the membrane filter of the present invention is shown. The third embodiment is shown by four sets of spiral water purifiers 11 a~lid. Four sets of membrane filters 14a-14d', wherein two sets of spiral water purifiers 11a, 11c are connected in series with two sets of membrane filters ua, 14c, and two sets of spiral water purifiers 11 b, 11 d and two sets of membranes The filters 14b and 14d are connected in series to form a double-row treatment path, and the sewage is sent to the spiral water purifier lla and the spiral water purifier lib through a sewage inflow pump ❹121, respectively filtered through the membrane filters i4c and i4d. The purified water produced afterwards can be combined and sent out. The embodiment shown in the fourth figure is also composed of four sets of spiral water purifiers 11 a to 11 d with four sets of thin medium filters 14a to 14d 'The four sets of spiral water purifiers 11a to lid are combined with four sets of membrane filtration. The arrangement of the devices 14a to 14d is the same as that of the second embodiment. However, the spiral water purifiers 11a, 11b, 11c, Ud, the membrane filters 14a, 14b, 14c, 14ci are sequentially connected in series to form an S-type. The continuous path passes through the sewage inflow pump 12i to pollute the 201020216 water as a dosing-circulating water purifier Ua, and finally filters the purified water by the membrane filter (10), and is sent out by the water outlet pipe 15. The connection embodiment of the water purifier and the membrane filter of the present invention may be determined according to the use requirements of different water quality and water quantity, such as a parallel structure connection when the sewage treatment volume is large, and a high concentration sewage treatment amount. The serial architecture connection can be adopted; of course, the serial and parallel phase architectures can also be connected at the same time to meet the needs of use. The comprehensive water quality purification system provided by the present invention has an unlimited number of spiral water purifiers and membrane transition devices for use, and the setting manner is not limited to 'design according to the actual space environment. The structure, in addition to the above embodiments, can be combined with a plurality of spiral water purifiers in parallel with each other, a plurality of membrane filters connected in series, or a plurality of membrane-type water purifiers connected in series with each other in parallel with each other. It can be set as a single row of the first and first figures, or a double row of the third and fourth figures, or three or more rows. The above is only the embodiment of the present invention, and the scope of the invention is not limited thereto. That is to say, the average change and modification made by the applicant in accordance with the patent application scope of the present invention should still belong to the Fan Park covered by the patent of the present invention. I would like to ask your review committee to give a clear explanation and pray for it. It is the prayer. BRIEF DESCRIPTION OF THE DRAWINGS The second drawing is a schematic diagram of an embodiment of an embodiment of the present invention. The second figure is a schematic diagram of the architecture of another embodiment of the present invention. Fig. 4 and Fig. 4 are schematic views showing different embodiments of the spiral water purifier and the film filter of the present invention. , 201020216 The fifth figure is a schematic diagram of the structure of the purifier of the present invention. [Main component symbol description] 10, 10A-tube water purification system 11a~lid-circular water purifier 111- Housing 112- Water retention tray 113- UV lamp beauty 114-cover body 115-detachable cover • 1151 lamp tube seal. 12-Inlet pipe 121 - Sewage inflow pump 122 - First regulator valve 123 - Flow meter 13 - Auxiliary pipe © 131 - Auxiliary inlet pump 14a ~ 14d - Membrane filter 141 - Film 15 - Outlet pipe 152 - second regulating valve 16 - recovery line 9