201200227 六、發明說明: 【發明所屬之技術領域】 本發明係關於一種淨水筒、具有淨水筒的淨水裝置、 以及具備淨水裝置的流理台。 【先前技術】 先則’流理台係具備:水龍頭,其吐出自來水、井水 等的原水;以及淨水裝置,其除去漂白粉味、三齒甲烷或 有機物、微粒子等的被包含於前述原水中的不純物而生成 淨水並加以吐出。而且,前述流理台係有:分別從水龍頭 與淨水裝置吐出水的形態;以及於供給原水至水龍頭的給 水s與水龍頭之間配設淨水裝置,來自水龍頭的出水,可 /’、X 一淨水之中選擇切換的形態。分別從水龍頭與淨水 裝置吐出水的形態可直接取得原水與淨水雙方。另一 、 從個水龍碩選擇吐出原水與淨水的形態中,可成 為僅有一個吐出部的簡單構造。 〔爭火裝置係具備過濾部,該過濾部具有將原水過 慮淨化的濾材, a 、材過濾除去不純物(被包含於被供給至 則述過濾部的斤+ Λ、计 系 ^ )’藉此生成淨水。例如,前述過濾部 係由活性碳吸附部鱼 itp a , ^ /、中二4膜镇組所構成;該活性碳吸附 -甲烧等;::成1以吸附漂白粉味的原因物f、三 的細菌、微:子;絲膜模組是用以除去無法以活性碳除去 。而且,將活性碳吸附部與中空絲膜模 201200227 組’作成可-體地安裴在過濾部中或是卸下的淨水筒。每 隔數個月等的—定期間,將前述淨水筒交換為新品,以將 積滯的不純物排出外部,消除因不純物的附著所造成的過 濾性能的降低。 但是,因為淨水筒的交換作業麻煩,而期望有一種交 換作業次數可盡量少的長壽淨水筒。對此,藉由擴大渡材 的級入水的上游通水部的表面積,使伴隨阻塞的過濾性能 的降低難以發生’卩減少淨水筒的交換次數。例如,如日 本專利公開公報特開2嶋·15199號所示,有—種淨水筒, 其是將圓筒狀地成型的成形活性碳用於濾材,以成形活性 奴的外周面作為上游通水部,並以成形活性碳的内周的空 間作為下游通水部’且擴大上游通水部的表面積而成。前 述空間的開口,其—側藉由端蓋密封’另一側被接續於隔 f的接續Π。然後’淨水筒係僅從前述接續口將已被活性 碳過濾的過濾水’供給至中空絲膜模組。 此處,若水並非從圓筒的外周面,而從端面流入成形 活性碳内’則在不純物充分地被除去之前,會發生到達内 周面的短路,降低淨水中的不純物除去率。因此,上述先 :文獻中,前述端蓋的圓盤狀平坦部(密封部)與隔板的 =狀板面(本體板)’被形成與成形活性碳的外徑大約同或 稍大的外徑尺寸,且於圓筒的環狀的端面,介在(隔著)熔 融樹脂等的密封材,液密性地固著,防止來自其端面的水 的流入。 然而,如前所述, 為了淨水筒的長壽化而擴大成形活 201200227 性碳的表面積,但是先 外徑、軸向的尺寸 以,僅可利用增加圓筒的 的問題。並且,若淨二自積’因而有淨水筒的大型化 加,於交換時、=:“:化,則不僅是製造成本的增 外部構成構件。而!由:如:觸淨水裝置、流理台等的 損、裂縫等的不良情況, =的衝擊:會發生破 用靈活度降低的問題。 7裝置、流理台的使 【發明内容】 對此’本發明的目的係椹 — ^ ^ a «j ^ ^ 、'、—種不將活性碳吸附部的 心狀大型化便可長壽化的淨水 筒的使用上 且耠供—種使該淨水 靈活度更“的淨水裝置以及流理台。201200227 VI. Description of the Invention: [Technical Field] The present invention relates to a water purification cartridge, a water purification device having a water purification cartridge, and a flow table having a water purification device. [Prior Art] The flow station has a faucet that discharges raw water such as tap water and well water, and a water purification device that removes bleaching powder, tridentate methane or organic matter, fine particles, and the like, which are contained in the raw water. The impurities are generated to produce purified water and spit out. Further, the flow table has a form in which water is discharged from the faucet and the water purifying device, and a water purifying device is disposed between the water supply s and the faucet that supply the raw water to the faucet, and the effluent from the faucet can be /', X Select a mode of switching among the clean waters. The form of spouting water from the faucet and the water purifying device can directly obtain both the raw water and the purified water. In addition, from the form of Shui Shui Shuo's choice to spit out raw water and clean water, it can be a simple structure with only one spit. [The fire-fighting device includes a filter unit that has a filter medium that purifies the raw water, and a material is filtered to remove impurities (included in the filter unit supplied to the filter unit). Clean water. For example, the filter unit is composed of an activated carbon adsorption unit fish itp a , ^ /, and a medium-four membrane group; the activated carbon adsorption-methyl-burning, etc.;:: 1 to adsorb the bleaching powder taste, f, three Bacteria, micro: sub-; silk film module is used to remove can not be removed with activated carbon. Further, the activated carbon adsorption unit and the hollow fiber membrane mold 201200227 group are formed as a water purification cartridge that can be mounted in the filter unit or removed. The water purification cartridge is exchanged for a new period every few months, etc., so that the accumulated impurities are discharged to the outside, and the deterioration of the filtration performance due to the adhesion of the impurities is eliminated. However, since the exchange of the water purification cartridge is troublesome, it is desirable to have a long life water purification cartridge with as few exchange operations as possible. On the other hand, by increasing the surface area of the upstream water passage portion of the graded water entering the material, it is difficult to reduce the filtration performance accompanying the clogging, and the number of exchanges of the water purification cartridge is reduced. For example, as shown in Japanese Laid-Open Patent Publication No. H2-15199, there is a water purification cartridge in which a cylindrically shaped shaped activated carbon is used for a filter material to form an outer peripheral surface of an active slave as an upstream passage. The water portion is formed by forming the inner peripheral space of the activated carbon as the downstream water passing portion' and expanding the surface area of the upstream water passing portion. The opening of the space described above is sealed on the side by the end cap and the other side is connected to the splice of the partition f. Then, the 'clean water-tube system supplies only the filtered water filtered by the activated carbon from the aforementioned port to the hollow fiber membrane module. Here, if water does not flow from the outer peripheral surface of the cylinder and flows into the molded activated carbon from the end surface, a short circuit to the inner peripheral surface occurs before the impurities are sufficiently removed, and the impurity removal rate in the purified water is lowered. Therefore, in the above-mentioned document, the disk-shaped flat portion (sealing portion) of the end cap and the =-plate surface (main body plate) of the separator are formed to be approximately the same as or slightly larger than the outer diameter of the formed activated carbon. In the annular end surface of the cylinder, the sealing material such as molten resin is interposed in a liquid-tight manner to prevent the inflow of water from the end surface thereof. However, as described above, the surface area of the formed carbon 201200227 is enlarged for the longevity of the water purification cartridge, but the outer diameter and the axial dimension are used only to increase the problem of the cylinder. In addition, if the net two self-products are added, the size of the water purification cartridge is increased, and when it is exchanged, it is not only an external component of the manufacturing cost but also an external component such as a water purification device. The damage of the flow table or the like, the crack, etc., the impact of =: The problem of the reduction of the flexibility of the breakage occurs. 7 The device and the flow table are made. [Invention] The purpose of the present invention is 椹 - ^ ^ a «j ^ ^ , ', - a water purification device that does not increase the size of the heart of the activated carbon adsorption unit and can be used for longevity, and the water purification device that makes the water purification more flexible And a flow station.
本發明的淨水筒,其具備: D 而姑m “ Μ 風m碳’其作為滤材 而被形成中空圓筒狀,兩端面 * -Γ ·+· ^ 虿開口,以及密封蓋,其 封塞則述成形活性碳的第一踹 的第㈣的開口。此淨水筒以下述 為特徵。前述成形活性碳,係至少使水從外周面和 刖述第一端面流入,且使過濾後的 γ攸内周面向内周的空 間“。並且’前述空間’係被前述密封蓋㈣,前述密 封蓋,係具有從前述第一端面的前 u同前返空間突出 的圓筒狀閉㈣。再者’前述閉鎖部,係從前述第—端面 的前述開Π起,閉鎖前述成形活性碳的前述内周面預定尺 寸,以防止水從已閉鎖的内周面向前述空間流出。 在此構成中,除了成形活性碳的外周面:外。,第一端 201200227 面亦成為使水流入成形活性碳内的上游通水部,上游通水 部增加為二面,可-邊防止成形活性麵大型&,一 =增 加上游通水部的表面積。並且,閉鎖部,$ 了防止從第二 端面的開口至預定尺寸為止之間的内周面發生水流出的情 况’水從第-端面流入至從内周面流出為止的最短距離, 係形成可充分地除去不純物的距離以上,#此可防止成形 活性碳内的流路發生短路。因此,不會發生短路而可抑制 :阻塞所造成的過渡性能的降低’延長淨水筒的使用壽 ’可減少伴隨壽命的交換作業的次數。 ^在一實施形態中,前述密封蓋係具備密封部,該密封 被形成圓盤狀’ 以封塞前述第—端面的前述開口。前 述密封部的外徑,被設定成大於前述第—端面的前述開口 的内徑’且小於前述第一端面的外徑。 此構成中,成形活性碳可使水容易從未被第一端面的 密封部覆蓋的面流入。 在一實施形態中,在前述第一端面與前述密封部之 間’形成有水可進入程度的間隙。 此構成中,成形活性碳係可使水不僅是從未被第一端 的在'封°卩覆蓋的面,亦可從被第一端面的密封部覆蓋的 面流入,亦即,可使水從開口除外的第一端面的整個面流 入。 在一實施形態中,前述密封蓋,係藉由前述閉鎖部從 則述第一端面的前述開口被壓入前述成形活性碳的前述内 周’而被固定於前述成形活性碳。 201200227 此構成中,可不使用黏著劑、密封劑等而加以固定, 製作變得容易。 在一實施形態中,將前述成形活性碳的外周半徑減去 内周半徑而得的尺寸設為τ,將前述閉鎖部閉鎖的預定尺 寸設為D肖,前述成形活性碳與前述閉鎖部的尺寸比係處 於〇.5< T/D< 2·5的關係。 此構成中,利用尺寸比T/D位於上述範圍内可確 實地除去游離餘氣,並防止因閉鎖部所造成的對於游離餘 氣的過濾能力降低’且可抑制過滤水的流速降低及過濾水 的生成量的減少’可確保安定的過濾性能。 在只施形態中,在與前述成形活性碳的前述第一端 ::反側的第二端面的開口側,具備隔板。前述隔板具有: 、板,其具備連通前述第二端面的前述開口的接續口; 以及圓筒狀的安裝部,其連通内周前述接續口並在内周被 延長設置,而從前述本體板向前述空間突出。並且,前述 =二經由前述安裝部而被安裝於成形活性碳,不僅是 m面和别述第一端面,亦使水從前述第二端面流入 性碳内。前述安裝部,係從前述第二端面的前 以防止^閉鎖前述成形活性碳的前述内周面預定尺寸, 從已閉鎖的内周面向前述空間流出。 此構成中,因隔板係經由安裝邻而;^ I # π a 碳,成形活性碳的第1面^裝^而被女裝於成形活性 上游通水部的面積^上游通水部,可更增加 為第-閉鎖部,則安裝:,若以密封蓋的閉鎖部作 則女裝部即可發揮作為第二閉鎖部的機 201200227 端面的開 能’安裝部因防止從第二端面的開口至預定尺寸為止之間 的内周面的水的&出,彳防止從第二端面流入的水發生短 路。其結果,可使淨水筒更長壽化。 在-實施形態中’具備軸向連結前述閉鎖部與前述安 裝部之圓管構件,前述圓管構件係於周面具有複數個通水 口 此構成中,因在閉鎖部與安裝部之間配設連結圓管構 件,可向轴向補強密封蓋,即使衝擊施加於淨水筒,亦可 防止密封蓋的脫落、陷入等的不良情況的發生。 在一實施形態中,前述密封蓋具有摘取部,且前述摘 取部具備插通孔,供拆卸用的治具插入。 此構成中’使用者可藉由摘取部來保持淨水筒,能以 不直接接觸濾材的方式來進行淨水筒的交換等的裝卸動 作因此’安裝新的淨水筒時’可防止手指的油脂等的不 純物附著於尚未附著不純物的新濾材上。另一方面,拆卸 舊淨水筒時,可不接觸已附著於濾材上的不純物便可完成 拆卸’可提高衛生性。再者,將裝卸用的治具插入插通孔 而拆却’可防止手指等因附著於摘取部的水而滑脫而造成 掉落淨水筒,而可更安全地進行交換。 在—實施形態中,淨水裝置係具備過濾原水中的不純 # <過濾手段,前述過濾手段係具有裝卸自如之前述的淨 水筒。 此構成中,淨水裝置具備裝卸自如之前述的淨水筒來 作為過濾手段,當因過濾而積滯的不純物造成過濾性能降 201200227 低時,交換前述淨水筒即可容易地消除職性能的降低。 而且’因採用長壽的淨水筒’可減少麻煩的淨水筒的交換 作業的次數,可提高使用靈活度。 广實施形態中,流理台係具備生成淨水的淨水生成 手段’且可將前述淨水生成手段所生成的淨水吐出,將前 述的淨水裝置用於前述淨水生成手段。 ^此構成中,流理台可使用藉由前述淨水裝置所生成的 淨X且^過滤性忐降低時,僅交換前述淨水裝置所具備 的淨水筒即可容易地消除過濾性能降低的情況。而且,因 淨水裝置採用長奇命的淨水筒,交換作業的次數被減少, 可提高使用靈活度。 【實施方式】 以下,基於圖式來說明本發明的各實施形態。 本發明的貫施形態之一例的流理台4〇,係如第7圖所 示,從給水管41所供給的自來水、井水等的原水,可藉由 水路切換閥42而導入水龍頭43與淨水裝置44,分別吐出 原水與淨水裝置44所生成的淨水。淨水裝置44,係如第6 圖所不,具有:從藉由給水管41所供給的原水,過濾不純 物而生成淨水的過濾部45 ;以及將利用過濾部45而生成 的淨水吐出的吐水管49。 過遽部45係具備:外殼,其具有連通給水管4丨的給 水用連通管47和連通吐水管49的吐水用連通管48 ;以及 201200227 淨水筒卜其裂卸自如地被設於外殼46内部的。淨水筒【 係具有二種M m淨水_丨的二㈣材依序過據 從給水管4 1所供給的原水,從原水 八陈云不純物而生成淨 水’然後供給至吐水管49。 淨水筒^係如第1圖所示,具備:以形成中空圓筒 狀的成形活性碳4來作為渡材的活性碳吸附部2 ;以及以 束集複數條多孔質中空纖維而成的中空絲冑Μ來作為濾 材的中空絲膜模組3。活性碳吸附部2與中空絲膜模組3, 係經由隔板13成為-體地被安裝,以活性碳吸附部2過渡 原,後’ 1以中空絲膜模組3過渡,生成淨水。亦即,淨 水筒1係以在原水流動的上游側配置活性碳吸附部2,而 在要供給至吐水管49㈣水流動的下游侧配置中空絲膜 模組3的狀態,裝卸自如地被安裝於過濾部45中。 另外,活性碳吸附部2係具備:轴向c的兩端成為環 狀:面的上述成形活性碳4、以及密封蓋1Q。密封蓋1〇, 被安裝於成形活性碳4的—端,封塞成形活性碳4的一端 :的開口,以密封被形成於成形活性石炭4的内周的圓柱狀 工間5。並且’成形活性碳4的另—端側,被安裝具有相 同尺寸的環狀板面的隔& 13,位於隔板13大約中央的開 口,係連通成形活性碳4的内周的空間5。 因此,在成形活性碳4的外側流動的水(原水)、以及 在㈣活性碳4的内周的空間5流動的水(㈣水),係藉 由在、封蓋10與隔板13而被區隔,於是,向空間5流動的 水’會-直通過成形活性碳4内。亦即,原水係從成形活 201200227 性碳4的内周面7以外的面,流入成形活性碳4而被過渡 後’向成形活性碳4的内周的空間5流出,然後從成形活 性碳4的另一端側的開口,經由隔板13的開口而被供給至 中空絲膜模組3。 若更詳細地說明,密封蓋1〇係具備:圓盤狀的密封部 11 ’其雄封成形活性碳4 一端側開口,以及圓筒狀的閉鎖 部12,其以稍大於或大約相同於成形活性碳4的開口(内 周)的尺寸’從密封部u的板面,相同軸心而突出。亦即, 岔封蓋10 ’係將閉鎖部12壓入成形活性碳4的内周,而 被安裝於成形活性碳4。並且,密封部丨丨,僅密封成形活 性碳4的一端側的開口,原水亦從成形活性碳4的一端側 的端面8(以下稱為第一端面8)流入成形活性碳4的内部。 此處’密封部11的外徑,係如第i圖所示,被設定為大於 成形活性碳4的内徑,但小於成形活性碳4的外徑,因此', 第-端面8可容易地使原水流人未被密封部u覆蓋的面。 再者’在本發明中’第一端面8與密封部u的周緣部未藉 由黏著劑等而被固冑,另外,彼此之間未被填充密封劑, 所以第-端面8與密封部"的周緣部之間被形成水可進入 此’在第一端面8中’原水不僅是從未被密封 的周緣部覆蓋的面,亦可從被覆蓋的面流入。再者, 閉鎖部的外周面壓接於成形活性碳4的内周面7,内周 面7的壓接面7a係藉由閉鎖部12 ^ ^ ^ ^ ^ ^ 接面7a向空間5内流出。 閉鎖肖止水從壓 並且,本發明的閉鎖部12為圓筒狀地突出,與上述先 11 201200227 =文獻的僅是四根腳的情況相異,該四根腳是被設於端 蓋,具有不妨礙水流通所必需的最小限度的長度。 因此,從第一端面8流入成形活性碳4内的原水’至 閉鎖部12的往内周側突出的前端為止,無法向空間5流 出,藉由閉鎖部12,確保了用以確實地除去從第—端面8 流入的原水中的氣的流動距離…密封部u,係將外徑 尺寸設成大於第一端面8的開口的内徑的尺寸,因此,安 裝密封蓋10時’可用以定位。當然地,將閉鎖部12固定 於成形活性碳4上的方法 不限於藉由壓入而進行的壓 接’亦可藉由黏著劑等的黏著構件來黏接閉鎖部12與成形 活性碳4而閉鎖;或是使嫁融樹脂等的密封構件介於閉鎖 部12與成形活性碳4之間,使兩者黏著而閉鎖。 另外’密封蓋10 ’其閉鎖部12的轴向c的尺寸卜較 佳是在從成形活性碳4的外周半徑R2減去内周半徑以而 得到的成形活性碳4的徑向方向的厚度尺寸了的大約一半 至大約二倍的範圍。 此處’基於日本工業標準JIS規格S32〇i家庭用淨水 器試驗方法的游離餘氣除絲能試驗來進行試驗。試驗條 件係以游離餘氯濃度2肩mg八的水作為試驗水,供給至 滤材的水流量也就是過據流量設為2〇L/min泰也就是 活性碳係外徑(直徑)28.5mm、内徑(直徑)85咖、全 長(軸向C的尺寸)62mm之形成圓筒狀的成形活性碳4。 並且,在试驗中,使用了公g丨丨目士」 J 八有 4mm、5mm、8mm、l〇mm、 20mm的尺寸D的五種蘭铛卹,。 禋閉鎖。卩12。又,上述條件下,若僅 12 201200227 使原水從成形活性碳4的外 形活性碳4 #$ 。 D周面7流通,則成 此 的游離餘氣除去率係顯示100% 。 刖述4驗的結果,係如第The water purification cartridge according to the present invention is characterized in that: D and mm "Μ风m碳" are formed as a filter material to form a hollow cylindrical shape, and both end faces * - Γ · · · ^ 虿 openings, and a sealing cover, which is sealed The opening (4) of forming the first crucible of the activated carbon is characterized by the following description: The water purification cylinder is characterized in that the formed activated carbon is at least water flowing from the outer peripheral surface and the first end surface, and the filtered γ攸 inner circumference faces the inner circumference of the space. Further, the "space" is the sealing cover (four), and the sealing cover has a cylindrical closing (four) protruding from the front end of the first end surface and the front space. Further, the blocking portion blocks the inner circumferential surface of the shaped activated carbon from a predetermined opening of the first end surface to prevent water from flowing out from the closed inner circumferential surface. In this configuration, in addition to the outer peripheral surface of the formed activated carbon: the outside. The first end 201200227 is also an upstream water-passing portion for allowing water to flow into the formed activated carbon, and the upstream water-passing portion is increased to two sides, and the forming active surface can be prevented from being large & a = increasing the surface area of the upstream water-passing portion . Further, the closing portion prevents the water from flowing out from the inner circumferential surface between the opening of the second end surface and the predetermined size. The shortest distance from the first end surface to the inner circumferential surface of the water is formed. By sufficiently removing the distance of the impurities, this prevents the flow path in the formed activated carbon from being short-circuited. Therefore, the short circuit can be prevented without being suppressed: the decrease in the transition performance caused by the clogging, and the extension of the life of the water purification cartridge can reduce the number of exchange operations associated with the life. In one embodiment, the sealing cover includes a sealing portion formed in a disk shape to block the opening of the first end surface. The outer diameter of the sealing portion is set to be larger than the inner diameter ' of the opening of the first end surface and smaller than the outer diameter of the first end surface. In this configuration, the formation of activated carbon allows water to easily flow from the surface not covered by the sealing portion of the first end surface. In one embodiment, a gap in which water can enter is formed between the first end surface and the sealing portion. In this configuration, the formed activated carbon system allows the water to flow not only from the surface of the first end covered by the seal, but also from the surface covered by the seal portion of the first end surface, that is, the water can be made The entire surface of the first end face except the opening flows in. In one embodiment, the sealing cover is fixed to the molded activated carbon by being pressed into the inner circumference of the shaped activated carbon from the opening of the first end surface by the closing portion. 201200227 In this configuration, it is easy to manufacture without using an adhesive, a sealant, or the like. In one embodiment, a dimension obtained by subtracting an outer peripheral radius of the formed activated carbon from an inner peripheral radius is τ, and a predetermined dimension at which the closed portion is closed is D, and the formed activated carbon and the size of the closed portion are The ratio is in the relationship of 〇.5<T/D<2.5. In this configuration, by using the size ratio T/D within the above range, the free residual gas can be surely removed, and the filtering ability for the free residual gas due to the blocking portion can be prevented from decreasing, and the flow rate of the filtered water can be suppressed from being lowered and the filtered water can be filtered. The reduction in the amount of production 'ensures stable filtration performance. In the only embodiment, a separator is provided on the opening side of the second end surface opposite to the first end of the shaped activated carbon. The separator includes: a plate having a connection port that communicates with the opening of the second end surface; and a cylindrical attachment portion that communicates with the inner circumferential contact port and is extended from the inner circumference to the main body plate Prominent to the aforementioned space. Further, the above-mentioned = two is attached to the shaped activated carbon via the mounting portion, and not only the m-plane and the first end surface, but also the water flows into the carbon from the second end surface. The mounting portion is configured to prevent a predetermined size of the inner peripheral surface of the formed activated carbon from being blocked from the front end of the second end surface, and to flow out from the closed inner circumferential surface toward the space. In this configuration, since the separator is attached to the adjacent side; the surface of the activated carbon is formed by the first surface of the activated carbon, and the area is upstream of the water passage portion of the forming active upstream water passage portion. Further added to the first-locking portion, the installation: if the sealing portion of the sealing cover is used, the women's department can function as the second locking portion of the machine 201200227. The opening of the end surface of the mounting portion is prevented from opening from the second end surface. The water of the inner circumferential surface between the predetermined dimensions is taken out, and the water flowing in from the second end surface is prevented from being short-circuited. As a result, the water purification cartridge can be made longer. In the embodiment, the present invention includes a circular pipe member that axially connects the locking portion and the mounting portion, and the tubular member has a plurality of water outlets on a circumferential surface thereof, and is disposed between the locking portion and the mounting portion. When the round pipe member is connected, the sealing cover can be reinforced in the axial direction, and even if an impact is applied to the water purification cartridge, it is possible to prevent the sealing cap from falling off or being caught. In one embodiment, the sealing cover has a picking portion, and the picking portion includes an insertion hole for inserting the jig for removal. In this configuration, the user can hold the water purification cartridge by the pick-up portion, and can perform the loading and unloading operation such as the exchange of the water purification cartridge without directly contacting the filter material. Therefore, when the new water purification cartridge is installed, the finger can be prevented. The impurities such as grease adhere to the new filter material to which the impurities have not been attached. On the other hand, when the old water purification cartridge is disassembled, it can be removed without touching the impurities attached to the filter material, which improves hygiene. Further, by inserting the jig for loading and unloading into the insertion hole and removing it, it is possible to prevent the finger or the like from slipping off due to the water adhering to the picking portion, thereby causing the water purifier to be dropped, and the exchange can be performed more safely. In the embodiment, the water purifying device is provided with an impure filter in the raw water, and the filtering means is provided with the above-described water purifying cartridge that can be detachably attached. In this configuration, the water purifying device is provided with a water purification cartridge that is detachable as a filtering means. When the filtration performance is lowered by the impurities accumulated by the filtration, the filtration performance is lowered to 201200227, and the water purification cartridge can be easily exchanged to eliminate the performance. reduce. Moreover, the use of a long-life water purification cartridge reduces the number of troublesome water purifier exchange operations and increases flexibility. In the embodiment, the flow station is provided with the purified water generating means for generating purified water, and the purified water generated by the purified water generating means can be discharged, and the water purifying device described above is used for the purified water generating means. In this configuration, when the flow table can use the net X generated by the water purifying device and the filter enthalpy is reduced, the filter performance can be easily eliminated by exchanging only the water purification cartridge provided in the water purifying device. Happening. Moreover, since the water purification device uses a long water purification cylinder, the number of exchange operations is reduced, and the flexibility of use can be improved. [Embodiment] Hereinafter, each embodiment of the present invention will be described based on the drawings. In the flow table 4 of the embodiment of the present invention, as shown in Fig. 7, the raw water such as tap water or well water supplied from the water supply pipe 41 can be introduced into the faucet 43 by the water passage switching valve 42. The water purifying device 44 discharges the purified water generated by the raw water and the water purifying device 44, respectively. The water purification device 44 includes a filter unit 45 that filters the impurities to generate purified water from the raw water supplied from the water supply pipe 41, and discharges the purified water generated by the filter unit 45. Spitting pipe 49. The dam portion 45 includes a casing having a water supply communication pipe 47 that communicates with the water supply pipe 4 and a water discharge communication pipe 48 that communicates with the water discharge pipe 49; and a 201200227 water purification pipe that is detachably provided to the outer casing 46 Internal. The water purification cartridge [the second (four) material having two kinds of M m water purification _ 依 is sequentially passed through the raw water supplied from the water supply pipe 41, and the purified water is generated from the raw water 八陈云 impurity, and then supplied to the water discharge pipe 49. As shown in Fig. 1, the water purification cartridge includes an activated carbon adsorption unit 2 that forms a hollow cylindrical shaped activated carbon 4 as a material, and a hollow body that is formed by collecting a plurality of porous hollow fibers. The silk fibroin module 3 is used as a filter material. The activated carbon adsorption unit 2 and the hollow fiber membrane module 3 are attached to the bulk of the activated carbon adsorption unit 2 via the separator 13, and the hollow fiber membrane module 3 is transitioned to generate purified water. In the water purification cartridge 1, the activated carbon adsorption unit 2 is disposed on the upstream side of the flow of the raw water, and the hollow fiber membrane module 3 is placed on the downstream side of the flow of the water to be supplied to the water discharge pipe 49 (four), and is detachably mounted. In the filter unit 45. Further, the activated carbon adsorption unit 2 includes the above-described molded activated carbon 4 having a ring-shaped surface at both ends of the axial direction c and a sealing cover 1Q. The sealing cover 1 is attached to the end of the molded activated carbon 4, and the opening of one end of the activated carbon 4 is sealed to seal the cylindrical chamber 5 formed on the inner circumference of the shaped activated carbon charcoal 4. Further, on the other end side of the shaped activated carbon 4, a partition having an annular plate surface of the same size is attached, and an opening located at approximately the center of the separator 13 is a space 5 which communicates with the inner periphery of the formed activated carbon 4. Therefore, water (raw water) flowing outside the molded activated carbon 4 and water ((four) water flowing in the space 5 on the inner circumference of the (four) activated carbon 4 are caused by the cover 10 and the separator 13 Separated, then the water flowing to the space 5 will pass straight through the shaped activated carbon 4. In other words, the raw water flows into the space 5 other than the inner peripheral surface 7 of the forming active 201200227 carbon 4, and flows into the space 5 on the inner circumference of the shaped activated carbon 4, and then forms the activated carbon 4 from the surface. The opening on the other end side is supplied to the hollow fiber membrane module 3 through the opening of the separator 13. As described in more detail, the sealing cover 1 is provided with a disk-shaped sealing portion 11' whose male-formed activated carbon 4 has one end side opening, and a cylindrical locking portion 12 which is slightly larger or approximately the same shape. The size 'opening (inner circumference) of the activated carbon 4 protrudes from the plate surface of the sealing portion u and the same axis. That is, the crucible cover 10' presses the lock portion 12 into the inner periphery of the shaped activated carbon 4, and is attached to the shaped activated carbon 4. In the sealing portion 仅, only the opening on the one end side of the formed activated carbon 4 is sealed, and the raw water also flows into the inside of the molded activated carbon 4 from the end surface 8 (hereinafter referred to as the first end surface 8) on the one end side of the molded activated carbon 4. Here, the outer diameter of the sealing portion 11 is set to be larger than the inner diameter of the shaped activated carbon 4 but smaller than the outer diameter of the shaped activated carbon 4 as shown in Fig. i, so that the first end face 8 can be easily The surface where the raw water flows is not covered by the sealing portion u. Further, in the present invention, the first end surface 8 and the peripheral portion of the sealing portion u are not fixed by an adhesive or the like, and the sealant is not filled between the first end surface 8 and the sealing portion. The water formed between the peripheral portions can enter the 'in the first end face 8'. The raw water is not only the surface covered by the peripheral portion that is not sealed, but also flows from the covered surface. Further, the outer peripheral surface of the lock portion is press-contacted to the inner peripheral surface 7 of the shaped activated carbon 4, and the pressure contact surface 7a of the inner peripheral surface 7 flows out into the space 5 by the closing portion 12^^^^^ . The latching water is pressed from the lock, and the latching portion 12 of the present invention protrudes in a cylindrical shape, which is different from the case where the first 11 201200227=the document is only four legs, and the four legs are provided on the end cap. It has the minimum length necessary to prevent water from flowing. Therefore, the raw water 'flowing into the molded activated carbon 4 from the first end surface 8 to the tip end of the lock portion 12 protruding toward the inner peripheral side cannot flow out into the space 5, and the lock portion 12 ensures the positive removal. The flow distance of the gas in the raw water flowing into the first end surface 8 is the size of the outer diameter of the sealing portion u, which is larger than the inner diameter of the opening of the first end surface 8, and therefore, when the sealing cover 10 is mounted, it can be used for positioning. Needless to say, the method of fixing the lock portion 12 to the molded activated carbon 4 is not limited to the press-bonding by press-in, and the lock portion 12 and the shaped activated carbon 4 may be adhered by an adhesive member such as an adhesive. The sealing member is placed between the lock portion 12 and the shaped activated carbon 4 so that the two are adhered and locked. Further, the size of the axial direction c of the sealing portion 10 of the 'sealing cover 10' is preferably a thickness dimension in the radial direction of the shaped activated carbon 4 obtained by subtracting the inner peripheral radius from the outer peripheral radius R2 of the shaped activated carbon 4. It is about half to about twice the range. Here, the test was conducted based on the free residual gas removal test of the Japanese Industrial Standard JIS Standard S32〇i Household Water Purifier Test Method. The test conditions are as the test water with the free residual chlorine concentration of 2 shoulders mg8, and the water flow rate supplied to the filter medium is also the flow rate of 2 〇L/min, which is the outer diameter (diameter) of the activated carbon system 28.5 mm. A cylindrical shaped activated carbon 4 having an inner diameter (diameter) of 85 coffee and a total length (the dimension of the axial direction C) of 62 mm. In addition, in the test, five kinds of blue sashes of the size D of 4 mm, 5 mm, 8 mm, 10 mm, and 20 mm were used.禋 Locked.卩12. Further, under the above conditions, if only 12 201200227, the raw water is formed from the activated carbon 4 of the activated carbon 4 by the active carbon 4 #$. When the D peripheral surface 7 is circulated, the free residual gas removal rate is 100%. Describe the results of the 4 test, as in the first
圖係各尺斗, _笫2B圖所不,第2A Γ圖中 的游離餘氯濃度的計測結果的表,第 以線連V縱軸係游離餘氯除去率’橫軸係尺寸比Μ, 線連結各尺寸比T/D的圖。 :前述試驗結果所示,閉鎖部12的尺寸〇為—夺, 4 :第殘留有氣’氣的除去不充分。此係因從成形活性碳 4的第-端面Μ -端侧的平面)至未被閉鎖部12閉鎖的 ㈣面7的最短距離短,因而產生短路。並且,可知閉鎖 部:2的尺寸〇為2〇_時,因前述最短距離變長,成形活 性奴4内的水流通阻力増加,活性碳内的流速顯著衰減, 向内周的空間5流出的淨水的生成量減少(又,未圖示淨 水的生成量)。 亦即,T/ D 2 2.5時,前述最短距離過短,水流通阻 力變低’除去氯的過濾能力降低,τ/D$ 〇 5時,前述最 短距離過長,水流通阻力變大’淨水的生成量減少。因此, 密封蓋10,在成形活性碳4與閉鎖部12的尺寸比τ/β於 〇·5〜2.5的範圍下,可防止過濾能力的降低、生成量的減 少等的過濾性能的降低,安定地除去原水中的氣。 另外’隔板13係具備由環狀板所構成的本體板14, 其具有與成形活性碳4的另一側的端面9 (亦即,另一端 側的平面,以下稱為第二端面9)大約相同的外徑尺寸。 位於本體板14大約中央的開口,係成為將經活性碳吸附部 13 201200227 2過遽後的過渡水供給至中空絲膜模組3的接續口 15。並 且,本體板14的一側的面,成為 攻為對向成形活性碳4的笛- 端面9的抵接面’前述抵接面 - 鎖…約相同形狀的圖筒狀的安二、:封/ 10的閉 成形活性碳4内周突出。 …16’破設置成向 々:即’安裝部16’係與密封蓋1〇的閉鎖部㈣樣地, 被壓接於成形活性碳4的内 叫,於成形活性碳4的内 ,成為閉鎖第二端面9側至周面的轴向C的尺寸D, 部分”二閉鎖部。因此,隔板13係經由安裝部Μ的壓 :女裝於成形活性碳4,另外,第二端面9與隔板Η =黏著劑等被固定,第二端面9與隔板13之間被形成 =進入的縫隙。並且’藉由安裝部Μ,第二端面9側的 周面7’也與閉鎖部12壓接的第一端面8側的内周面7 同樣地被閉鎖’且原水不僅是從成形活性碳4的外周面6 或第-端面8側,亦可從第二端面9流入成形活性碳… 一如此,本例的活性碳吸附部2,原水從外周面6和第 端面8及第二端面9流人成形活性碳4内之後,從位於 閉鎖°P 12與安裝部16之間的未被閉鎖的内周面7,向空 間5内流出過濾水。然後,經由接續口 15將前述過濾水供 給至中空絲膜模組3。又,安裝部16的軸向C的尺寸D,, ::前述閉鎖部12的尺寸比T/D的範圍相同地,較佳是 :定為成形活性碳4的厚度尺寸T的-半至二倍之間的尺 、、再者,隔板13的抵接面中,將凹陷形成的同心圓狀的 複數個段部(未圖示),設置成這些轴心與該抵接面的轴心 201200227 一致’藉此,於前述抵接面盘点 回興成形活性碳4的第二端面 之間形成複數環狀間隙,降低彳 降低從則述二面之間進入的原水 的水流通阻力’使原水容易從第二端面9流入。 中空絲膜模組3係具備:有底圓筒狀的框體Μ,其是 以隔板13的前述抵接面的反面(背面)作為底部;以及被配 置於框體24内部的中空絲膜.23。中空絲膜。,係將複數 根多孔質中空纖維,於端部加以束集。框體24的兩端部之 中’位於前述底部的相反側的端部,被設置形成有開口的 開口端25。開口端25的開口係藉由集水蓋26而被覆蓋。 並且,中空絲膜23係以-根-根的纖維的端部排列於同一 面的狀態,被固定於開口端25,各端部之間的間隙以及與 開口端25之間的間隙,係以成形樹脂填埋。 集水蓋26係具備:由與框體24大約相同軸心、相同 直徑的環狀板所構成的本體28;固定用的環狀突起Μ •以 及圓筒狀的連結管3卜環狀突起29,係被形成從盘本體 2?中空絲膜23互相面對面的一面的外周端,向開口端 25突出。連結管31 ’被配置於與本體28的前述—面相反 側的一面的軸心,並與後述的集水空間部27連通。環狀突 起29係於軸向c的前端,具備接合在框體μ的開口端 25側的外周面上的接合部3〇’且集水蓋26藉由接合部μ 的接合而被以於框體24。因此,在本體28與開口端25 的開口面之間,形成集水空間部27,將利用中空絲膜幻 加以過濾而成為淨水之過濾水加以集中,然後,集水空間 部27内的淨水經由本體28的大約中央的開口,被導入連 15 201200227 結管31内。 連結管31,係於軸向c從本體28向外方突出,連結 管3 1的外周被設有〇型環等的彈性體所構成的密封構件 32。並且,若連結管3 1被插入過濾部45的吐水用連通孔 48’則密封構件32介於連結管31與吐水用連通孔48之 間,而使連結管31與吐水用連通孔48之間被密封。亦即, 僅被集中於集水空間部27的淨水,經由連結管31與吐水 用連通孔48而被供給至吐水f 49,且藉由密封構件^的 彈性’淨水筒1經由連結管31裝卸自如地被安裝於過爐部 45 ° 如此,藉由具備閉鎖部12的密封蓋1〇,加上成形活 性碳4的外周“,第一端面8亦成為活性碳吸附部2的 上游通水部,相較於與僅成形活性碳4的一面作為上游通 水部的情況’可增加上游通水部的面積。並且,因密封蓋 W相對於成形活性碳的尺寸比(T/D)為〇5<T/d< 以’可防止游離餘氣的_能力的降低,^可防止過滤水 的生成量的減少,可確保安定的過濾性能。 ㈡扣,风形活性碳4不需大刑仆廿-Γ心Λ 个而大型化亦可抑制過濾性能白 氏’且可延長活性碳吸附部2的壽命。另外,以區隔六 =吸附部2與中空絲膜模組3之隔板㈣安裝部^ ^ -閉鎖部,成形活性碳4的第二端面9亦可為上游遠 =,更增加上料水料表面積,淨水。的壽命變成 :長。並且’被配置於上游側’不純物容易附著的活性破 附〇變得長壽,可降低依據活性碳吸附部2的使用壽 16 201200227 命而進行的交換作業次數,可提高淨水筒1的使用靈活度》 另外’隨著淨水筒1的長壽化,將淨水筒1用於過濾 手段也就是過渡部45中而成的淨水裝置44,可減少麻煩 的淨水筒1的交換作業的次數,可提高使用靈活度。並且, 將淨水裝置44用於淨水生成用的淨水生成手段而成之流 理台40 ’亦成為一種具備將長壽化後的淨水筒作為濾材而 成的流理台,前述交換作業的麻煩被減輕,可提高使用靈 活度。 又,本發明中的流理台4〇不限於分別具備原水的水龍 頭43與淨水用的吐出部,亦可為於内藏式淨水器等的給水 管41與水龍頭43之間具備淨水裝置44,從水龍頭43選 擇原水、淨水而吐水之形態的流理台。並且,本發明中的 淨水裝置44,亦可具備電解淨水的電解部,生成驗性或酸 性的電解水,或者於淨水φ 中添加破稱為鎂、鈣等的礦物質 成分的物質。 另外’作為淨水筒1的盆侦眘始你 旳,、他實施形態的一例,於成形 活性碳4的内周側的閉鎖部12 管構件17,利用圓管構件17 一體之間’配置圓 部16,來補強成形活性碳4。 ,、女眾 ,,, 又,本例中,省略了盥前述 例相同的構成的說明,且因中空 f,、別这The figure is the rule of each ruler, _笫2B is not shown, the table of the measurement result of the free residual chlorine concentration in the 2A Γ diagram, the first line of the V vertical axis is the free residual chlorine removal rate 'horizontal axis size ratio Μ, The line connects the maps of each size ratio T/D. As shown in the above test results, the size of the lock portion 12 is 夺, and the removal of the remaining gas is insufficient. This is because the shortest distance from the plane on the first end face Μ-end side of the shaped activated carbon 4 to the (four) face 7 which is not blocked by the lock portion 12 is short, thereby causing a short circuit. In addition, when the size 〇 of the lock portion 2 is 2 〇 _, the shortest distance becomes long, and the water flow resistance in the formed active slave 4 is increased, and the flow velocity in the activated carbon is remarkably attenuated, and flows out into the inner peripheral space 5. The amount of purified water produced is reduced (again, the amount of purified water is not shown). In other words, when T/D 2 2.5, the shortest distance is too short, and the water flow resistance is low. The filtration capacity for removing chlorine is lowered. When τ/D$ 〇5, the shortest distance is too long, and the water flow resistance becomes large. The amount of water produced is reduced. Therefore, in the sealing cap 10, the size ratio τ/β of the molded activated carbon 4 to the lock portion 12 is in the range of 〇·5 to 2.5, and it is possible to prevent a decrease in filtration performance such as a decrease in the filtration ability and a decrease in the amount of production, and stability. Remove the gas from the raw water. Further, the 'separator 13' includes a main body plate 14 composed of an annular plate having an end surface 9 on the other side of the molded activated carbon 4 (that is, a plane on the other end side, hereinafter referred to as a second end surface 9). Approximately the same outer diameter size. The opening located at the center of the main body plate 14 serves as a connection port 15 for supplying the transition water that has passed through the activated carbon adsorption unit 13 201200227 2 to the hollow fiber membrane module 3. Further, the surface of one side of the main body plate 14 is a cylindrical shape of the same shape as the abutting surface of the opposite end surface 9 of the formed activated carbon 4, and the like. / 10 of the closed shaped activated carbon 4 protruded inside. 16' is broken into a weir: that is, the 'mounting portion 16' is pressed against the sealing portion (four) of the sealing cover 1 ,, and is pressed against the inside of the shaped activated carbon 4 to be locked in the molded activated carbon 4 The dimension D of the axial direction C from the side of the second end face 9 to the circumferential surface is partially "two closed portions. Therefore, the partition 13 is pressed by the mounting portion :: the molded activated carbon 4, and the second end face 9 is The spacer Η = the adhesive or the like is fixed, and the gap between the second end surface 9 and the spacer 13 is formed = the entrance slit. And the 'the peripheral surface 7' on the side of the second end surface 9 is also connected to the latching portion 12 by the mounting portion Μ The inner peripheral surface 7 on the side of the first end face 8 that is crimped is similarly locked' and the raw water is not only from the outer peripheral surface 6 or the first end face 8 side of the shaped activated carbon 4, but also from the second end face 9 to form the activated carbon... In this way, in the activated carbon adsorption unit 2 of the present example, after the raw water is formed into the activated carbon 4 from the outer peripheral surface 6 and the first end surface 8 and the second end surface 9, the untreated portion is between the lock portion P12 and the mounting portion 16. The closed inner peripheral surface 7 flows out of the filtered water into the space 5. Then, the filtered water is supplied to the hollow fiber membrane module 3 via the joint port 15. The dimension D of the axial direction C of the mounting portion 16, :: the size of the aforementioned latching portion 12 is the same as the range of T/D, preferably: half to two times the thickness dimension T of the shaped activated carbon 4 In addition, in the contact surface of the partition plate 13, a plurality of concentric portions (not shown) formed by depressions are provided as the axial center and the axis of the abutting surface 201200227 Consistently, a plurality of annular gaps are formed between the second end faces of the activated carbon 4 on the abutting surface of the abutting surface, and the water flow resistance of the raw water entering between the two surfaces is reduced, thereby making the raw water easy. The hollow fiber membrane module 3 includes a bottomed cylindrical frame body Μ which is a bottom surface of the abutting surface of the partition plate 13 (back surface) as a bottom portion, and is disposed in the frame a hollow fiber membrane of the inside of the body 24. A hollow fiber membrane, which bundles a plurality of porous hollow fibers at the ends. The ends of the frame 24 are located at the opposite ends of the bottom portion. An open end 25 is formed with an opening. The opening of the open end 25 is covered by the water collecting cover 26 Further, the hollow fiber membrane 23 is fixed to the open end 25 in a state in which the ends of the fibers of the root-root are arranged on the same surface, and the gap between the end portions and the gap between the end portions and the opening end 25 are The water collecting cover 26 is provided with a main body 28 composed of an annular plate having the same axial center and the same diameter as the frame body 24, an annular projection for fixing, and a cylindrical connecting tube. The annular projections 29 are formed at the outer peripheral end of the surface of the disk main body 2 and the hollow fiber membrane 23 facing each other, and protrude toward the open end 25. The connecting tube 31' is disposed on the opposite side of the aforementioned surface of the body 28. The axial center of one surface is in communication with a water collecting space portion 27 to be described later. The annular projection 29 is attached to the distal end of the axial direction c, and includes a joint portion 3'' joined to the outer peripheral surface of the opening end 25 side of the frame body 51. The water collecting cover 26 is applied to the frame body 24 by the joining of the joint portion μ. Therefore, between the main body 28 and the opening surface of the opening end 25, the water collecting space portion 27 is formed, and the filtered water which is filtered by the hollow fiber membrane to be purified water is concentrated, and then the inside of the water collecting space portion 27 is cleaned. Water is introduced into the junction tube 31 201200227 via the approximately central opening of the body 28. The connecting pipe 31 protrudes outward from the body 28 in the axial direction c, and the outer periphery of the connecting pipe 31 is provided with a sealing member 32 composed of an elastic body such as a 〇-shaped ring. When the connection pipe 31 is inserted into the water discharge communication hole 48' of the filter unit 45, the sealing member 32 is interposed between the connection pipe 31 and the water discharge communication hole 48, and between the connection pipe 31 and the water discharge communication hole 48. Sealed. In other words, only the purified water concentrated in the water collecting space portion 27 is supplied to the jetting water f 49 via the connecting pipe 31 and the jetting communication hole 48, and the elastic water purifying cylinder 1 of the sealing member is connected via the connecting pipe. 31 is attached to the overheating portion 45° in a detachable manner, and the outer periphery of the activated carbon 4 is added by the sealing cover 1 having the closing portion 12, and the first end surface 8 also becomes the upstream passage of the activated carbon adsorption portion 2. The water portion can increase the area of the upstream water passing portion as compared with the case where only one side of the activated carbon 4 is formed as the upstream water passing portion. And, because of the size ratio (T/D) of the sealing cover W to the formed activated carbon It is 〇5<T/d< to reduce the ability to prevent free residual gas, and to prevent the reduction of the amount of filtered water to ensure stable filtration performance. (2) Buckle, wind-shaped activated carbon 4 does not need to be large The servant-------------------------------------------------------------------------- (4) The mounting portion ^ ^ - the locking portion, the second end face 9 of the shaped activated carbon 4 may also be upstream far =, more In addition, the life of the water-based material is changed to be long, and the active-destructive enthalpy which is easy to adhere to the 'upstream side' becomes long-lived, and can be reduced in accordance with the use of the activated carbon adsorption unit 2 201200227 The number of exchange operations performed can increase the flexibility of the use of the water purification cartridge 1 "In addition, with the longevity of the water purification cartridge 1, the water purification cartridge 1 is used for the filtering means, that is, the water in the transition portion 45. In the device 44, the number of times of the exchange operation of the troublesome water purification cartridge 1 can be reduced, and the flexibility of use can be improved. Moreover, the water purification device 44 can be used for the water purification device for purifying water generation. It is a flow table which has a water purification cartridge which is long-lived as a filter material, and the trouble of the above-mentioned exchange work is reduced, and the flexibility of use can be improved. Moreover, the flow table 4 of the present invention is not limited to having raw water. In the faucet 43 and the discharge portion for the water purification, the water purification device 44 may be provided between the water supply pipe 41 and the faucet 43 such as the built-in water purifier, and the raw water and the purified water may be selected from the faucet 43 to spit water. Flow station. The water purifying device 44 of the present invention may further include an electrolysis unit that electrolyzes water, generates electrolyzed water that is inspective or acidic, or adds a mineral component called magnesium, calcium, or the like to the purified water φ. In addition, as an example of the embodiment of the water purification cartridge 1, the tube member 17 of the lock portion 12 on the inner peripheral side of the molded activated carbon 4 is disposed integrally with the round pipe member 17 The portion 16 is used to reinforce the formation of activated carbon 4, and the female, and, in this example, the description of the same configuration as the above example is omitted, and because of the hollow f,
,, 膜核組3係與前述例A 大約㈣的構成’於對應本例的圖式中省略一部分 詳細地’如第3圖所示’圓管構件 : 向内周貫通成矩形狀的複數個通水 〜:從其外周 圓管。被成形活性碳4過濾後 ,::為格子狀的 ‘"、艮,通過複數個通水 201200227 口 18,流入空間5。並且, 4 ^ 圓S構件17的外周面抵接成形 活! 生奴4的内周面7 ,藉此, 圓官構件17係從内周側向軸 ° ,、徑向方向來補強成形 又〜'古性奴4。再者,圓管構件17 於閉禮邱” ㉟耆劑等的黏考、熔著等,被接合 於閉鎖。p 12的端部,另—踹 ^ ^ ^ 端以黏著等方式而被接合於安裝 邛16的端部,因此,圓管構件17 隔板13上。 將在封蓋10連結固定於 部在淨水筒1的交換時或搬運時,即使接觸過滤 碳:Η'流理台等的外部的構成構件,成形活性 田從“受到衝擊,亦可抑制破損、裂縫的發生。並且, 因圓管構件1 7 & &田t u ϋ ° 未閉鎖成形活性碳4的内周面 7,不會使過濾性降低,不會 I丨且礙過濾水向内周的空間5的 bu•入0 2外’因密封蓋1〇與隔板13被連結固定,可防止發 生因别述衝擊使得密封蓋1〇 閉鎖尺寸變短…* 成“…彈出而脫落、 ^ , r 月 並且,即使密封蓋10被施以由於流 動水壓的變化所造成的水 防止發生密封η。陷入:門5::軸向C的衝擊,亦可 出脫落的情況。 、或疋從成形活性碳4彈 =若可作為補強構相機能,”構件17不限 有貝通成矩形狀的通水口 18, 形的通水口 18,或配置有㈠ 成圓形、橢圓 a配置有六角形開口的蜂巢狀格子。 mi圓5構件17亦可被一體成形地形成於密封蓋 或隔板13的一側。具去 , 再者,上述中,圓管構件17與密封 18 201200227 * :以及板13分別藉由黏著劑等而被互相接合,但 ::藉由卡合而接合。例如,如第4圖所示,圓管構件17 為:板13係破形成為-體成形,圓管構件π係被設置成 ;安裝部16向密封蓋10延伸設置而成的延設部,安裝 P U管構件1 7係如此地被連結。此圓管構件i 7係在 2於密封蓋1G—側的前端具備卡合部Η,閉伟 …”突出的前端側的内周面,具備用以與卡合部二 =卡編。閉鎖部12與圓管構件17係藉由卡合部 來取❹2〇的卡合而被連結。亦即’利用—體成形 或炫著更:易Γ件’可削減接合之處’利用卡合可較黏著 一 谷易連結固定,而可提高淨水筒1的組裝性。 19作又成2能取代設置被卡合部2G的情況,而將卡合部 該卡’、舞性的卡合爪’閉鎖部12與圓管構件17藉由 '…主閉鎖部12而被連結固定。被卡合部亦可被設 例:固官構件17 ’卡合部亦可被設置於閉鎖部12。另外, 的前端側的内周面形成母螺紋(未圖 在圓“舞件η的前端側的外周面形成公 不)’閉鎖部12與圓管構件17藉由、 閉## ^ 糟由圓管構件17被螺合於 ’鎖。"2而被連結固定。或者,亦可藉由 與圓管構件17來進行接合,或將 '。 1成形。再者,密封蓋10= 與圓管構件17 備密封部U,『構件17亦 具備閉鎖部12而僅具 卞丨Π ffl官構件17亦可形成較 ,管構件17更長,圓管構件17的前:= 者於編性碳4的内周面7’延長的圓管構心的前 19 201200227 端與密封部u被接合,而使圓"件17的_“1 面8成為相同面。亦即,在此構成中,圓管構件17的延長 部分’係發揮作為上述密封蓋1〇的閉鎖部12的機能。當 然,相同地’隔板13 ’亦可未具備安裝部16而僅具備: 體板14,將延長的圓管構件17的前端與隔板13的抵接面 之間接合成-冑,以與第二端面9成為相同面。此時,成 形活性碳4的第二端面9亦用以作為上游通水部,圓管構 件17的延長部分,發揮作為安裝部16的機能。 另外,如第5圖所示’因摘取部21被設於密封蓋 的密封部11的軸向c的外側,作t者於淨水筒ι的交換 時,不直接接觸成形活性碳4即可裝卸淨水筒丨。亦即, 安裝新的淨水筒1冑’可防止因作業者的手或钳子等接觸 成形活性碳4,造成手的油脂等附著於成形活性碳4上或 是成形活性碳4發生破損。並且,拆卸舊淨水筒!之際一, 可防止附著於成形活性碳4上的不純物接觸作業者的手或 鉗子,提高衛生性。 再者,摘取部21,如第5圖所示,具有朝向垂直於軸 向C的方向貫通的插通孔22,從過濾部45拆卸淨水筒j 時’以具備鉤子等的裝卸治具(未圖示)插入插通孔。而 勾住即可拆卸淨水筒1。並且,因以前述治具勾住插通 孔22而拆卸’所以即使水弄濕摘取部21,亦不會如手 般地滑落’可更安全地交換。 當然地, 前述圓管構件 具備摘取部21而成的密封部1〇,因係經由 17而被連結固定於隔板1 3,以摘取部2丨來 20 201200227 保持淨水筒1時,可禮管:士士时m + T確貫地防止因來自外部的衝 :蓋10從成形活性碳4脫落,更可提高安全性 使密 摘取部-不限於與成形活性碳4相同轴心 二’The structure of the membrane core group 3 and the above-mentioned example A is approximately (four). In the drawings corresponding to the present example, a part of the detailed description is omitted as shown in Fig. 3. The round pipe member is a plurality of rectangular members that are formed in a rectangular shape in the inner circumference. Pass water ~: from its outer circumference tube. After being filtered by the formed activated carbon 4, the :: is a grid-like ‘", 艮, and flows into the space 5 through a plurality of water passing through the 201200227 port 18. Further, the outer peripheral surface of the 4^ round S member 17 abuts and forms alive! The inner peripheral surface 7 of the raw slave 4, whereby the round member 17 is reinforced from the inner peripheral side to the axial direction and in the radial direction. Further, the round pipe member 17 is joined to the lock by adhesion test, fusion, or the like of the closed ceremony, and the end portion of the p 12 is bonded to the end portion of the p 12 ^ ^ ^ by adhesion or the like. Since the end portion of the crucible 16 is attached, the round pipe member 17 is placed on the partition plate 13. When the cover 10 is coupled and fixed to the portion of the water purification cartridge 1 during exchange or transportation, even if it contacts the filter carbon: Η 'flow station, etc. In the external constituent member, the molded active field is "impacted, and the occurrence of breakage or cracks can be suppressed. Further, since the inner peripheral surface 7 of the activated carbon 4 is not blocked by the round pipe member 1 7 && field, the filterability is not lowered, and the filtered water is prevented from flowing into the inner peripheral space 5 Bu•入0 2外' Because the sealing cover 1〇 and the partition 13 are connected and fixed, it is possible to prevent the sealing cover 1〇 from being locked into a shorter size due to the impact of the other...* into “...popping and falling off, ^, r month and Even if the sealing cap 10 is subjected to water due to a change in the flowing water pressure, the sealing η is prevented from occurring. The trapping: the impact of the door 5:: the axial C may also fall off. Projectile = if it can be used as a reinforced camera, "member 17 does not have a water-passing port 18 in the shape of a bellow, a water-passing port 18, or a honeycomb in which a (a) circular shape and an ellipse a are arranged with a hexagonal opening. lattice. The mi-circle 5 member 17 may also be integrally formed on one side of the sealing cover or the partition plate 13. Further, in the above, the round pipe member 17 and the seal 18 201200227 * : and the plate 13 are joined to each other by an adhesive or the like, respectively, but :: are joined by engagement. For example, as shown in Fig. 4, the round pipe member 17 is such that the plate 13 is formed into a body, the round pipe member π is provided, and the mounting portion 16 is extended to the seal cover 10, The PU pipe member 17 is attached in such a manner. The round pipe member i 7 is provided with an engaging portion 前端 at the front end of the seal cover 1G-side, and the inner peripheral surface of the front end side that protrudes from the front end is provided with the engaging portion and the card-locking portion. 12 and the round pipe member 17 are connected by the engagement of the engaging portion, that is, the use of the body forming or the glare is more: the easy-to-clip piece can reduce the joints. Adhesive and easy to connect and fix, and the assembly of the water purification cartridge 1 can be improved. 19 can be replaced by the case where the engaged portion 2G is provided, and the engaging portion of the card, the dancing claws The lock portion 12 and the round pipe member 17 are connected and fixed by the '... main lock portion 12. The engaged portion may be provided with an example: the solid member 17 'engagement portion may be provided in the lock portion 12. The inner peripheral surface of the front end side is formed with a female thread (not shown in the circle "the outer peripheral surface of the front end side of the dance piece n is formed"). The latching portion 12 and the round pipe member 17 are closed by the round pipe member 17 by the closing member 17 Being screwed to the 'lock. "2 is fixed by the link. Alternatively, it may be joined by the tube member 17, or '. 1 forming. Further, the sealing cover 10= is provided with the sealing member U of the round pipe member 17, and the member 17 is also provided with the locking portion 12, and only the member member 17 can be formed, and the pipe member 17 is longer. The tubular member 17 is longer. The front:= The first 19 201200227 end of the circular tube centered by the inner peripheral surface 7' of the braided carbon 4 is joined to the sealing portion u, and the _"1 surface 8 of the circle " That is, in this configuration, the extension portion ' of the round pipe member 17 functions as the lock portion 12 of the seal cover 1A. Of course, the same as the 'separator 13' may not include the attachment portion 16 but only The body plate 14 is formed by joining the front end of the elongated tubular member 17 and the abutting surface of the partition plate 13 to be the same surface as the second end surface 9. At this time, the second end surface of the activated carbon 4 is formed. 9 is also used as an upstream water-passing portion, and the extension portion of the round pipe member 17 functions as the mounting portion 16. Further, as shown in Fig. 5, the picking portion 21 is provided in the sealing portion 11 of the sealing cover. When the outer side of the axial direction c is used for the exchange of the water purification tube ι, the clean water cartridge can be loaded and unloaded without directly contacting the formed activated carbon 4. The installation of a new water purification cartridge 1胄' prevents contact with the forming of activated carbon 4 by the operator's hand or pliers, and causes the grease or the like of the hand to adhere to the formed activated carbon 4 or the formed activated carbon 4 to be damaged. In the case of the old water purification cartridge, it is possible to prevent the impurities attached to the formed activated carbon 4 from coming into contact with the hand or the pliers of the operator to improve the hygienic property. Further, the picking portion 21, as shown in Fig. 5, has a direction toward the vertical When the insertion hole 22 penetrating in the direction of the axial direction C is detached from the filter unit 45, the insertion hole is inserted into the insertion hole by a detachable jig (not shown) provided with a hook or the like. The cartridge 1 is detached by hooking the insertion hole 22 with the above-mentioned jig. Therefore, even if the water wets the picking portion 21, it does not slip off like a hand, and can be exchanged more safely. Of course, the aforementioned round tube The sealing portion 1a having the member having the picking portion 21 is connected and fixed to the partition plate 13 via the 17, and the picking portion 2 is used for 20 201200227. When the water purifying cartridge 1 is held, the tube can be used: When m + T is surely prevented from being rushed from the outside: the cover 10 is detached from the formed activated carbon 4, and more Improve safety. Make the pick-up part - not limited to the same axis as the shaped activated carbon 4
形或角柱形,亦可為··與密封部u㈣軸心且的P 形;具有沿著密封部U的徑向延伸的長條部分之矩形的: 疋預先安裝裱狀構件於插通孔22内而成的摘取部 —The shape of the shape or the angle of the column may be a P-shape with the axis of the seal portion u (four); a rectangular shape having an elongated portion extending along the radial direction of the seal portion U: 疋 a front-mounted member is inserted into the through hole 22 The inside of the picking department -
溝或凹凸等的止滑部(未圖示),較佳是被設於摘取部U 的周面或側面等的外側。'㈣,作業者於摘拔摘取部21 時,即使水弄濕摘取部21 #,藉由前述止滑部可防 指、钳子等的滑脫。 本發明已記述數個較佳實施形態,但在不料本發明 的精神及範圍亦即申請專利範圍的情況下,該業者可作各 式各樣的修正及變化。 【圖式簡單說明】 第1圖係本發明的淨水筒的實施形態之一例的剖面 圖。 第2A圖係游離餘氣除去試驗的試驗結果。 第2B圖係游離餘氣除去試驗的試驗結果。 第3圖係本發明的淨水筒的實施形態之其他例的省略 一部分而成剖面圖。 第4圖係本發明的淨水筒的實施形態之變化例的省略 一部分而成的剖面圖。 21 201200227 第5圖係本發明的淨水筒的實施形態之密封蓋具有摘 取部的例子的重要部位擴大剖面圖。 第6圖係不意地說明本發明的淨水裝置的實施形態之 一例的剖面圖。 第7圖係示意地說明本發明的流理台的實施形態之一 例的剖面圖。 【主要元件符號說明】 1 : 淨水筒 2 :活性碳吸附杳 3 : 中空絲膜模組 4 :成形活性碳 5 : 空間 6 :外周面 7 : 内周面 7a :壓接面 8 : 第一端面 9 .第二端面 10 :密封蓋 11 :密封部 12 :閉鎖部 13 :隔板 14 :本體板 1 5 :接續口 16 :安裳部 17 :圓管構件 18 :通水口 1 9 :卡合部 20 •被卡合部 21 :摘取部 22 •插通孔 23 :中空絲膜 24 :框體 25 :開口端 26 :集水蓋 27 :集水空間部 28 :本體 29 :環狀突起 30 :接合部 31 :連結管 22 201200227 32 :密封構件 40 ·· 41 :給水管 42 : 43 :水龍頭 44 : 45 :過濾部 46 · 47 :給水用連通管 48 : 49 :吐水管 流理台 水路切換閥 淨水裝置 外殼 吐水用連通管 23It is preferable that the anti-slip portion (not shown) such as a groove or a projection is provided on the outer side of the circumferential surface or the side surface of the picking portion U. (4) When the operator picks up the picking portion 21, even if the water wets the picking portion 21#, the slip preventing portion can prevent slippage of the fingers and the like. The present invention has been described in terms of several preferred embodiments, and various modifications and changes can be made by those skilled in the art without departing from the spirit and scope of the invention. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a cross-sectional view showing an example of an embodiment of a water purification cartridge according to the present invention. Figure 2A is a test result of the free residual gas removal test. Figure 2B is a test result of the free residual gas removal test. Fig. 3 is a cross-sectional view showing a part of the other embodiment of the water purification cartridge according to the present invention. Fig. 4 is a cross-sectional view showing a part of a modification of the embodiment of the water purification cartridge of the present invention. 21 201200227 Fig. 5 is an enlarged cross-sectional view showing an important part of an example in which the sealing cap of the embodiment of the water purification cartridge according to the present invention has an extracting portion. Fig. 6 is a cross-sectional view showing an example of an embodiment of the water purifying apparatus of the present invention. Fig. 7 is a cross-sectional view schematically showing an example of the embodiment of the flow table of the present invention. [Description of main component symbols] 1 : Water purification cartridge 2: Activated carbon adsorption 杳3 : Hollow fiber membrane module 4: Formed activated carbon 5 : Space 6 : Outer peripheral surface 7 : Inner peripheral surface 7a : Crimp surface 8 : First End face 9. Second end face 10: Sealing cover 11: Sealing portion 12: Locking portion 13: Separator 14: Main body plate 1 5: Connection port 16: Anshang portion 17: Round pipe member 18: Water outlet 1 9 : Engagement Portion 20 • Engaged portion 21: Picking portion 22 • Inserting through hole 23: Hollow fiber membrane 24: Frame 25: Open end 26: Water collecting cover 27: Water collecting space portion 28: Main body 29: Annular projection 30 : joint portion 31 : connecting pipe 22 201200227 32 : sealing member 40 ·· 41 : water supply pipe 42 : 43 : faucet 44 : 45 : filter portion 46 · 47 : water supply pipe 48 : 49 : spout pipe flow switch Valve water purifying device housing spouting communication pipe 23