TW201930174A - Reverse osmosis water purifier faucet dedicated to hydraulic type of bucket and large water discharge method thereof including a faucet with enlarged amount of water, a reverse osmosis water purifier and a water storage cylinder - Google Patents
Reverse osmosis water purifier faucet dedicated to hydraulic type of bucket and large water discharge method thereof including a faucet with enlarged amount of water, a reverse osmosis water purifier and a water storage cylinder Download PDFInfo
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本發明涉及一種淨水技術,尤指一種專用於水壓水桶型之反滲透淨水器龍頭及其大水量出水方法之技術範疇。The invention relates to a water purification technology, in particular to a technical scope of a reverse osmosis water purifier faucet and a large water discharge method dedicated to a water pressure bucket type.
按,工業化的國家,其水源常遭到汙染,因此,自來水廠會對水源作必要之處置,並投以消毒藥水,以提升自來水的飲用安全,相對地,則會影響到飲用的口感。故一般家庭用戶均會安裝淨水器,該淨水器會對自然水的雜質、消毒水作更一步處理,俾利提升飲用的口感及其安全。According to the industrialized countries, the water source is often polluted. Therefore, the water plant will make necessary disposal of the water source and put it into disinfection water to improve the drinking safety of the tap water. In contrast, it will affect the taste of drinking. Therefore, the general household users will install a water purifier, which will further process the impurities of natural water and disinfectant water to enhance the taste and safety of drinking.
請參閱圖8所示者,則為習式反滲透淨水器9之配置圖,通常自然水經一濾心91及一RO膜濾心92會過濾成純水、廢水,其中該純水:廢水的比例為1:3,故約有1/4純水會儲存於蓄水壓力筒93內,而其餘3/4的廢水則被排放掉,其中該蓄水壓力筒93會設有一彈性膜,當該蓄水壓力筒93蓄滿純水時,則該彈性膜會對該純水施予彈力,進而形成水壓,待打開出一水開關94時,則純水從該出水開關94,然而此種以蓄水壓力筒93的彈性膜作為出水的動力源,該出水開關94的出水量通常很小,實有需要加以改善。Referring to FIG. 8, the configuration diagram of the conventional reverse osmosis water purifier 9 is generally filtered into pure water and waste water through a filter 91 and a RO membrane filter 92, wherein the pure water: The ratio of the waste water is 1:3, so about 1/4 of the pure water is stored in the water storage pressure cylinder 93, and the remaining 3/4 of the waste water is discharged, wherein the water storage pressure cylinder 93 is provided with an elastic film. When the water storage pressure cylinder 93 is filled with pure water, the elastic film applies an elastic force to the pure water to form a water pressure. When the water switch 94 is opened, pure water is discharged from the water outlet switch 94. However, such an elastic film of the water storage pressure cylinder 93 serves as a power source for the water discharge, and the water discharge amount of the water discharge switch 94 is usually small, and it is necessary to improve it.
因此,鑑於上述習式反滲透淨水器9及其出水開關94之問題點,於是開發出本發明一種專用於水壓水桶型之反滲透淨水器龍頭及其大水量出水方法,故本發明之主要目的在於:提供可大水量出水的一種專用於反滲透淨水器之龍頭;本發明之次要目的在於:提供一單軸多通道切換水道裝置,使其能的大水量供水的反滲透淨水器龍頭。Therefore, in view of the above problems of the conventional reverse osmosis water purifier 9 and its water outlet switch 94, the present invention has developed a reverse osmosis water purifier faucet dedicated to a hydraulic bucket type and a large water discharge method thereof. The main purpose of the invention is to provide a faucet dedicated to reverse osmosis water purifiers with large water output; the secondary purpose of the present invention is to provide a single-shaft multi-channel switching waterway device capable of reverse osmosis of a large water supply Water purifier faucet.
為達上述目的,本發明運用了下述技術手段,係包含有:一種水壓水桶型之反滲透淨水器龍頭之大水量出水方法,係包含下述步驟:一加大出水量龍頭流道建立步驟,係於一加大水量龍頭建立一純水供水流道及一廢水流道,其中該廢水流道更包含有一第一廢水流道與一第二廢水流道;一反滲透淨水器建立步驟,係建立一反滲透淨水器,且於該反滲透淨水器所設一蓄水筒、加大水量龍頭之間分別建立該第一廢水流道;一壓水增壓步驟,係於該蓄水筒內部設有一純水儲放區及一廢水儲放區,又該純水儲放區、廢水儲放區之間設置有一彈性膜片,其中該蓄水筒的純水儲放區、反滲透淨水器、加大水量龍頭之間建立該純水供水流道,而該蓄水筒的廢水儲放區、加大水量龍頭之間建立該第一廢水流道,俾利該廢水儲放區所形成壓力會對該純水儲放區施力;一逆止閥建立步驟,係於該加大水量龍頭、蓄水筒之間的純水供水流道設有一逆止閥,以防該純水供水流道逆流。In order to achieve the above object, the present invention utilizes the following technical means, which comprises: a large-scale water discharge method of a water pressure bucket type reverse osmosis water purifier faucet, which comprises the following steps: an enlarged water outlet faucet flow passage The establishing step is to establish a pure water supply flow channel and a waste water flow channel in an enlarged water tap, wherein the waste water flow channel further comprises a first waste water flow channel and a second waste water flow channel; and a reverse osmosis water purifier In the establishing step, a reverse osmosis water purifier is established, and the first wastewater flow channel is respectively established between a water storage tank and an increased water volume faucet of the reverse osmosis water purifier; A pure water storage area and a waste water storage area are disposed inside the water storage tank, and an elastic diaphragm is disposed between the pure water storage area and the waste water storage area, wherein the water storage tank of the water storage tank is disposed The pure water supply water flow channel is established between the district, the reverse osmosis water purifier and the enlarged water volume faucet, and the first wastewater flow channel is established between the wastewater storage area of the water storage tank and the enlarged water volume faucet. The pressure generated by the wastewater storage area will exert force on the pure water storage area; Check valve establishing step, based on the increased water faucet, water flow path between the water supply tube is provided with a check valve to prevent backflow of the water supply flow channel.
本發明另一種水壓水桶型之反滲透淨水器之加大水量龍頭,係使用上述請求項1所述大水量出水方法,係包含有:一龍頭本體,係內設有一容置空間及一出水通道,且於該容置空間底部設有一第一接口、一第二接口、一第三接口及一第四接口,其中該第四接口俾供接設連通該出水通道,而該第一接口俾供接設連通該純水供水流道,而該第二接口俾供接設連通該第二廢水流道,而該第三接口俾供接設連通該第一廢水流道;及一切換閥心組,係裝設於該龍頭本體的容置空間內,可進行切換導通關閉該純水供水流道與該廢水流道。The water faucet of the reverse osmosis water purifier of the present invention is the water faucet of the above-mentioned claim 1, which comprises: a faucet body, a accommodating space and a a water outlet channel, and a first interface, a second interface, a third interface, and a fourth interface are disposed at the bottom of the accommodating space, wherein the fourth interface 接 is connected to connect the water outlet channel, and the first interface The second port is connected to the second water supply channel, and the third port is connected to the first wastewater channel; and a switching valve The heart group is installed in the accommodating space of the faucet body, and can be switched on and off to close the pure water supply flow channel and the waste water channel.
上述該切換閥心組係更包含有一固定閥片及一活動閥片,且該活動閥片須位於該固定閥片頂面,兩者可進行相對旋轉,又該固定閥片分別貫穿設有一第一通孔、一第二通孔、一第三通孔、一第四通孔,且該第一、二、三、四通孔必須分別對應該容置空間所設第一、二、三、四接口,另於該活動閥片的底面設有一第一連通凹槽及一第二連通凹槽,其中該第一連通凹槽俾供連通該固定閥片的第一、四通孔,而該第二連通凹槽俾供連通該固定閥片的第二、三通孔。The switching valve core system further includes a fixed valve piece and a movable valve piece, and the movable valve piece has to be located on the top surface of the fixed valve piece, the two can be relatively rotated, and the fixed valve piece is respectively provided with a first a through hole, a second through hole, a third through hole, and a fourth through hole, and the first, second, third, and fourth through holes must be respectively disposed in the first, second, and third portions of the accommodating space. a fourth interface, and a first communication groove and a second communication groove are disposed on the bottom surface of the movable valve piece, wherein the first communication groove 俾 is connected to the first and fourth through holes of the fixed valve piece. The second communication groove 俾 is connected to the second and third through holes of the fixed valve piece.
上述該容置空間的第四接口設於該容置空間的中心處,而該第一、二、三接口分別圍繞於該第四接口。The fourth interface of the accommodating space is disposed at a center of the accommodating space, and the first, second, and third interfaces respectively surround the fourth interface.
上述該切換閥心組的活動閥片所設第一連通凹槽設為長條狀,而所設第二連通凹槽則設為月形狀。The first communication groove provided in the movable valve piece of the switching valve core group is formed in an elongated shape, and the second communication groove is provided in a moon shape.
本發明藉由上述技術手段,可以達成如下功效: 1.本發名藉由該加大水量龍頭經由該切換閥心組關閉該純水供水流道時,則會導通該第二廢水流道,並排放廢水;待該加大水量龍頭經由該切換閥心組導通該純水供水流道進行供水時,會關閉廢水流道,讓該廢水流入該蓄水筒所設廢水儲放區並蓄積一壓力(P),該壓力(P)會對該純水儲放區施力,以加速該純水供水流道大水量地供水。 2.本發明在不需要額外新增一個泵浦或抽手馬達,運用既有水壓,據以加大淨水器的供水量,可節省淨水器的安裝成本。According to the above technical means, the present invention can achieve the following effects: 1. When the enlarged water faucet closes the pure water supply water channel via the switching valve core group, the second wastewater flow channel is turned on. Discharging and discharging the waste water; when the water pumping faucet conducts the water supply through the switching valve core group to conduct the water supply, the waste water flow channel is closed, and the waste water flows into the wastewater storage area of the water storage tank and accumulates Pressure (P), which applies a force to the pure water storage area to accelerate the supply of water in the pure water supply passage. 2. The invention saves the installation cost of the water purifier by eliminating the need to additionally add a pump or a hand-cranked motor and using the existing water pressure to increase the water supply amount of the water purifier.
首先,請參閱圖1至圖4所示者,係為本發明關於一種水壓水桶型之反滲透淨水器龍頭之大水量出水方法A,係包含下述步驟:一加大出水量龍頭流道建立步驟(a),係於一加大水量龍頭B建立一純水供水流道C及一廢水流道D,其中該廢水流道D更包含有一第一廢水流道D1與一第二廢水流道D1;一反滲透淨水器建立步驟(b),係建立一反滲透淨水器E,且於該反滲透淨水器E所設一蓄水筒F、加大水量龍頭B之間分別建立該第一廢水流道D1;一壓水增壓步驟(c),係於該蓄水筒F內部設有一純水儲放區F1及一廢水儲放區F2,又該純水儲放區F1、廢水儲放區F2之間設置有一彈性膜片F3,其中該蓄水筒F的純水儲放區F1、反滲透淨水器E、加大水量龍頭B之間建立該純水供水流道C,而該蓄水筒F的廢水儲放區F2、加大水量龍頭B之間建立該第一廢水流道D1,俾利該廢水儲放區F2所形成壓力會對該純水儲放區F1施力;及一逆止閥建立步驟(d),係於該加大水量龍頭B、蓄水筒F之間的純水供水流道C設有一逆止閥G,以防該純水供水流道C逆流;First, referring to FIG. 1 to FIG. 4, the present invention relates to a large-scale water discharge method A for a water-pressure bucket type reverse osmosis water purifier faucet, which comprises the following steps: The road establishing step (a) is to establish a pure water supply channel C and a wastewater channel D in an enlarged water tap B, wherein the wastewater channel D further comprises a first wastewater channel D1 and a second wastewater. The flow channel D1; a reverse osmosis water purifier establishing step (b), is to establish a reverse osmosis water purifier E, and between the water storage cylinder F and the enlarged water volume faucet B of the reverse osmosis water purifier E The first wastewater flow channel D1 is separately established; a pressurized water pressurization step (c) is provided in the water storage tank F with a pure water storage area F1 and a waste water storage area F2, and the pure water storage area An elastic diaphragm F3 is disposed between the zone F1 and the wastewater storage zone F2, wherein the pure water storage zone F1, the reverse osmosis water purifier E, and the enlarged water volume faucet B of the water storage cylinder F establish the pure water supply The flow path C, and the first waste water flow path D1 is established between the waste water storage area F2 of the water storage tank F and the enlarged water quantity tap B, and the waste water storage area F2 is formed. The force will exert a force on the pure water storage area F1; and a check valve establishing step (d), which is provided with a check in the pure water supply flow path C between the enlarged water amount faucet B and the water storage tube F Valve G, in case the pure water supply flow channel C is countercurrent;
藉由上述各步驟構成本發明水壓水桶型之反滲透淨水器龍頭之大水量出水方法A,該加大水量龍頭B經由該切換閥心組2關閉純水供水流道C時,則會導通該廢水流道D的第二廢水流道D2,並排放廢水;待該加大水量龍頭B經由該切換閥心組2導通該純水供水流道C時,會關閉廢水通道D,讓該廢水流入該蓄水筒F所設廢水儲放區F2並蓄積一壓力P,使該壓力P會對該純水儲放區F1施力,以加速該純水供水流道C大水量地供水。The above-mentioned steps constitute a large-water discharge method A of the reverse osmosis water purifier faucet of the hydraulic bucket type of the present invention, and when the enlarged water faucet B closes the pure water supply passage C via the switching valve core group 2, Turning on the second wastewater flow channel D2 of the wastewater flow channel D, and discharging the wastewater; when the enlarged water volume tap B conducts the pure water supply flow channel C via the switching valve core group 2, the wastewater channel D is closed, and the The wastewater flows into the wastewater storage area F2 provided in the water storage tank F and accumulates a pressure P, so that the pressure P forces the pure water storage area F1 to accelerate the water supply of the pure water supply flow path C with a large amount of water.
請參閱圖3至圖7所示,係為本發明關於一種反滲透淨水器E之加大水量龍頭B,係使用上述水壓水桶型之反滲透淨水器龍頭之大水量出水方法A,其中該加大水量龍頭B係包含有:Referring to FIG. 3 to FIG. 7 , the present invention relates to a water faucet B for a reverse osmosis water purifier E, which is a large water effluent method A using the above-mentioned water pressure bucket type reverse osmosis water purifier faucet. Among them, the increased water volume faucet B contains:
一龍頭本體1,如圖4及圖5所示者,係內設有一容置空間10及一出水通道15,且於該容置空間10底部設有一第一接口11、一第二接口12、一第三接口13及一第四接口14,其中該第四接口14設於該容置空間10的底部的中心處並須連通該出水通道15,而該第一接口11俾供連通接設於該純水供水流道C,該第二接口12俾供接設連通該第二廢水流道D2,而該第三接口13俾供接設連通該第一廢水流道D1;及A faucet body 1 , as shown in FIG. 4 and FIG. 5 , is provided with a receiving space 10 and a water outlet channel 15 , and a first interface 11 and a second interface 12 are disposed at the bottom of the accommodating space 10 . a third interface 13 and a fourth interface 14 are disposed at the center of the bottom of the accommodating space 10 and must communicate with the water outlet channel 15, and the first interface 11 is connected to the connection The second water supply channel C, the second port 12 is connected to the second wastewater channel D2, and the third port 13 is connected to the first wastewater channel D1;
一切換閥心組2,係裝設於該龍頭本體1的容置空間10內,可進行切換導通關閉該純水供水流道C與該廢水流道D,俾利於供水及對該蓄水筒F蓄積壓力,如圖7所示者;進一步,該切換閥心組2係更包含有一固定閥片21及一活動閥片22,且該活動閥片22須位於該固定閥片21頂面,兩者可進行相對旋轉,又該固定閥片21分別貫穿設有一第一通孔211、一第二通孔212、一第三通孔213、一第四通孔214,如圖6及圖7所示者,且該第一、二、三、四通孔必須分別對應該容置空間10所設第一、二、三、四接口,另於該活動閥片22的底面設有一第一連通凹槽221及一第二連通凹槽222,其中藉由一把手連動該活動閥片22作旋轉,使該活動閥片22的第一連通凹槽221俾供連通該固定閥片21的第一、四通孔,而該第二連通凹槽222俾供連通該固定閥片21的第二、三通孔。A switching valve core group 2 is installed in the accommodating space 10 of the faucet body 1, and can be switched on and off to close the pure water supply water channel C and the wastewater flow channel D, thereby facilitating water supply and the water storage tube The accumulating pressure is as shown in FIG. 7; further, the switching valve core group 2 further includes a fixed valve piece 21 and a movable valve piece 22, and the movable valve piece 22 is located on the top surface of the fixed valve piece 21, The two sides of the fixed valve plate 21 are respectively provided with a first through hole 211, a second through hole 212, a third through hole 213, and a fourth through hole 214, as shown in FIG. 6 and FIG. As shown, the first, second, third, and fourth through holes must respectively correspond to the first, second, third, and fourth interfaces of the accommodating space 10, and the first floor of the movable valve plate 22 is provided with a first connection. a groove 221 and a second communication groove 222, wherein the movable valve piece 22 is rotated by a handle to rotate the first communication groove 221 of the movable valve piece 22 to communicate with the fixed valve piece 21 And a second through hole, and the second communication groove 222 is connected to the second and third through holes of the fixed valve piece 21.
進一步,如圖6及圖7所示者,該容置空間10的第四接口14設於該容置空間10的中心處,而該第一、二、三接口分別佈設圍繞於該第四接口14外圍,而該第一、二、三、四通孔亦相應於該第一、二、三接口之佈置;另該活動閥片22的第一連通凹槽221設為長條狀,而所設第二連通凹槽222則設為月形狀,以利連通切換相關接口。Further, as shown in FIG. 6 and FIG. 7 , the fourth interface 14 of the accommodating space 10 is disposed at a center of the accommodating space 10 , and the first, second, and third interfaces are respectively disposed around the fourth interface. 14 periphery, and the first, second, third, and fourth through holes also correspond to the arrangement of the first, second, and third interfaces; and the first communication groove 221 of the movable valve piece 22 is formed into a strip shape, and The second communication groove 222 is set to have a moon shape to facilitate communication with the switching related interface.
請參閱圖1、圖3及圖4所示,藉由該加大水量龍頭B經由其把手連動該切換閥心組2關閉純水供水流道C時,則會導通該廢水流道D,即該切換閥心組2會連通該第一廢水流道D1及第一廢水流道D2,進而排放出廢水;待該加大水量龍頭B經由其把手連動該切換閥心組2導通該純水供水流道C於進行供水時,會關閉廢水通道D,讓該廢水流入該蓄水筒F所設廢水儲放區F2並蓄積一壓力P,使該壓力P會對該純水儲放區施力,以加速該純水供水流道C大水量地流入該加大水量龍頭B的出水通道15,以利大水量地供水。Referring to FIG. 1 , FIG. 3 and FIG. 4 , when the enlarged water faucet B is connected to the switching valve core group 2 via its handle to close the pure water supply flow channel C, the wastewater flow channel D is turned on, that is, The switching valve core group 2 communicates with the first wastewater flow channel D1 and the first wastewater flow channel D2 to discharge the waste water; the enlarged water volume tap B is connected to the switching valve core group 2 via the handle thereof to conduct the pure water supply. When the water supply channel C performs water supply, the wastewater passage D is closed, and the waste water flows into the waste water storage area F2 of the water storage tank F to accumulate a pressure P, so that the pressure P exerts a force on the pure water storage area. In order to accelerate the pure water supply passage C, a large amount of water flows into the outlet passage 15 of the enlarged water amount tap B to supply water with a large amount of water.
綜上所述各實施例,本發明係關於一種專用於水壓水桶型之反滲透淨水器龍頭及其大水量出水方法,且其各實施例的構成結構未曾見於諸書刊或公開使用,誠符合專利申請要件,懇請 鈞局明鑑,早日准予專利,至為感禱;In view of the above embodiments, the present invention relates to a reverse osmosis water purifier faucet dedicated to a hydraulic bucket type and a large water discharge method thereof, and the constitution of each embodiment has not been seen in various books or publicly used. In accordance with the requirements of the patent application, I would like to ask the Bureau to give an examination and grant the patent as soon as possible.
需陳明者,以上所述乃是本申請案之具體實施例及所運用之技術原理,若依本申請案之構想所作之改變,其所產生之功能作用仍未超出說明書及圖式所涵蓋之精神時,均應在本申請案之範圍內,合予陳明。It is to be understood that the above is a specific embodiment of the present application and the technical principles applied thereto. If the changes made according to the concept of the present application, the functional effects produced by the present application are still beyond the scope of the specification and the drawings. In the spirit of this application, it shall be given to Chen Ming within the scope of this application.
[本發明][this invention]
A‧‧‧水壓水桶型之反滲透淨水器龍頭之大水量出水方法A‧‧‧Water-pressure bucket type reverse osmosis water purifier faucet
(a)、(b)、(c)、(d)‧‧‧步驟(a), (b), (c), (d) ‧ ‧ steps
B‧‧‧加大水量龍頭B‧‧‧Enlarge water faucet
C‧‧‧純水供水流道C‧‧‧pure water supply channel
D‧‧‧廢水流道D‧‧‧ Wastewater channel
D1‧‧‧第一廢水流道D1‧‧‧First Wastewater Runner
D2‧‧‧第二廢水流道D2‧‧‧Second wastewater channel
E‧‧‧反滲透淨水器E‧‧‧Reverse Osmosis Water Purifier
F‧‧‧蓄水筒F‧‧‧Water storage
F1‧‧‧純水儲放區F1‧‧‧ pure water storage area
F2‧‧‧廢水儲放區F2‧‧‧ Wastewater storage area
F3‧‧‧彈性膜片F3‧‧‧elastic diaphragm
G‧‧‧逆止閥G‧‧‧ check valve
P‧‧‧壓力P‧‧‧ pressure
1‧‧‧龍頭本體1‧‧‧ Leading body
10‧‧‧容置空間10‧‧‧ accommodating space
11‧‧‧第一接口11‧‧‧ first interface
12‧‧‧第二接口12‧‧‧second interface
13‧‧‧第三接口13‧‧‧ third interface
14‧‧‧第四接口14‧‧‧fourth interface
15‧‧‧出水通道15‧‧‧Water outlet
2‧‧‧切換閥心組2‧‧‧Switching valve core group
21‧‧‧固定閥片21‧‧‧Fixed valve
211‧‧‧第一通孔211‧‧‧ first through hole
212‧‧‧第二通孔212‧‧‧Second through hole
213‧‧‧第三通孔213‧‧‧ third through hole
214‧‧‧第四通孔214‧‧‧fourth through hole
22‧‧‧活動閥片22‧‧‧Active valve
221‧‧‧第一連通凹槽221‧‧‧First connecting groove
222‧‧‧第二連通凹槽222‧‧‧second connecting groove
[習式][Literature]
9‧‧‧習式反滲透淨水器9‧‧‧Chinese reverse osmosis water purifier
91‧‧‧濾心91‧‧‧ filter heart
92‧‧‧RO膜濾心92‧‧‧RO membrane filter
93‧‧‧蓄水壓力筒93‧‧‧Water storage pressure cylinder
94‧‧‧出水開關94‧‧‧Water switch
圖1:本發明加大水量龍頭與反滲透淨水器之配置圖。 圖2:本發明反滲透淨水器龍頭的大水量出水方法之步驟流程圖。 圖3:本發明加大水量龍頭之立體外觀圖。 圖4:本發明加大水量龍頭之立體分解圖。 圖5:本發明加大水量龍頭之組合平面圖。 圖6:本發明加大水量龍頭的切換閥心組之立體分解圖。 圖7:本發明加大水量龍頭的切換閥心組之作動示意圖。 圖8:習式反滲透淨水器之配置圖。Figure 1: The configuration diagram of the water faucet and the reverse osmosis water purifier of the present invention. Figure 2 is a flow chart showing the steps of the large-water effluent method of the reverse osmosis water purifier faucet of the present invention. Figure 3: The three-dimensional appearance of the water faucet of the present invention. Figure 4: An exploded perspective view of the water faucet of the present invention. Figure 5: A plan view of the combination of the enlarged water faucet of the present invention. Fig. 6 is an exploded perspective view showing the switching valve core group of the water faucet of the present invention. Fig. 7 is a schematic view showing the operation of the switching valve core group of the water faucet according to the present invention. Figure 8: Configuration diagram of the conventional reverse osmosis water purifier.
Claims (5)
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TWM368487U (en) * | 2009-07-07 | 2009-11-11 | zheng-gang Lin | A water input/output assembly device of a water processor |
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CN105408259A (en) * | 2013-05-11 | 2016-03-16 | 株式会社保美纯 | Reclaimed water apparatus |
TWM522071U (en) * | 2015-09-10 | 2016-05-21 | Maxtec Plastics Inc | Water storage tank of reverse osmosis water purification system |
CN105344245A (en) * | 2015-11-27 | 2016-02-24 | 宁波福特恩净水设备有限公司 | Reverse osmosis water purifier and water production method achieved through water purifier |
US9856987B2 (en) * | 2015-12-03 | 2018-01-02 | Topper Manufacturing Corporation | Distribution valve |
CN106865695B (en) * | 2017-03-21 | 2024-03-12 | 厦门百霖净水科技有限公司 | Dense water hydraulic RO water storage system |
TWM553221U (en) * | 2017-05-24 | 2017-12-21 | Ying Lin Tsai | Device for storing and using un-potable water produced by reverse osmosis water purifier |
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