JPH0529119Y2 - - Google Patents

Description

【考案の詳細な説明】 （産業上の利用分野） 本考案は、水供給源からの水を通水装置、例え
ば殺菌用塩素や重金属を浄化する浄水器、ミネラ
ル鉱石等を充填した飲料水製造装置、又は、除菌
効果のあるUFフイルタ又は中空モジユールを用
いた飲料水製造装置等の通水装置を通して使う際
に、たとえ通水装置内に水が残つていても衛生状
態を確保した状態で外部に水を供給することがで
きる通水装置に関するものである。[Detailed description of the invention] (Industrial application field) The present invention is a water purification device that passes water from a water supply source, such as a water purifier that purifies sterilizing chlorine and heavy metals, and a drinking water production device that is filled with mineral ores. A state in which sanitary conditions are ensured even if water remains in the water passage device when using the device or a water passage device such as a drinking water production device using a sterilizing UF filter or hollow module. This invention relates to a water passage device that can supply water to the outside.

（従来の技術） 従来、水道の水は、それに含まれる殺菌用塩素
や重金属を浄化して使用しているが、その場合の
浄化方法としては水道の水を活性炭の濾過層に通
して、水道の水から殺菌用塩素を除去するととも
に、重金属吸着剤を充填した濾過層をも通過させ
て水道の水から重金属も除去している。(Prior art) Traditionally, tap water is used after being purified of the sterilizing chlorine and heavy metals contained in it. In addition to removing sterilizing chlorine from water, heavy metals are also removed from tap water by passing it through a filtration layer filled with heavy metal adsorbents.

（考案が解決しようとする課題） その場合において、この浄水器では水道水中の
残留塩素が活性炭によりほぼ完全に除去されるた
め、浄水器をある程度長い時間使用しないでいる
と、浄水器の濾過層内に残つた殺菌作用のない水
がそのまま長時間滞留することになり、その結
果、浄水器の濾過層部分には細菌が増殖すること
になり、衛生上極めて大きな問題があつた。(Problem to be solved by the invention) In this case, in this water purifier, residual chlorine in tap water is almost completely removed by activated carbon, so if the water purifier is not used for a certain amount of time, the filtration layer of the water purifier will The remaining non-sterilizing water would stay there for a long time, and as a result, bacteria would grow in the filtration layer of the water purifier, posing an extremely serious sanitary problem.

そこで、この対策として、浄水器の濾過用活性
炭に銀を担持させた銀活性炭を用いて水道水を殺
菌・浄化することも試みられているが、この場
合、銀活性炭に接触している部分の水は細菌の増
殖が抑制されるものの、銀活性炭と接触していな
い濾過層下流側の水や蛇口内の水は大気の汚染等
を受けて細菌を含み、その結果、開栓直後の水に
は細菌の検出が見られると言う問題があつた。 Therefore, as a countermeasure to this problem, attempts have been made to sterilize and purify tap water using silver activated carbon, which is made by loading silver on the filtering activated carbon of water purifiers. Although bacterial growth is suppressed in the water, the water on the downstream side of the filtration layer that has not come into contact with the silver activated carbon and the water in the faucet may be contaminated with air and contain bacteria, and as a result, the water immediately after opening the tap may There was a problem that bacteria could be detected.

だからと言つて、この問題解決のため、銀活性
炭の銀成分を多くすると、殺菌効果は増すもの
の、濾過水に多量の銀が溶出すると言う問題があ
り、これらのことは、ミネラル水を製造する通水
装置においても同様で、通水装置を長時間使用し
ないと、塩素処理された水であれば良いが、塩素
処理されていない水の場合、前記同様、濾過層内
に細菌が増殖すると言う欠点があつた。 However, in order to solve this problem, increasing the silver content of silver activated carbon increases the bactericidal effect, but there is a problem that a large amount of silver will be eluted into the filtered water. The same goes for water passing devices; if the water passing device is not used for a long time, chlorinated water is fine, but if the water is not chlorinated, bacteria will grow in the filtration layer, as mentioned above. There were flaws.

そこで本考案の目的は、通水装置を長時間使用
しない場合でも、衛生状態を十分に保持すること
ができ、又は、飲料水に健康維持・増進効果、又
は、滋養強壮効果を持たせることができる通水装
置を提供することにある。 Therefore, the purpose of this invention is to be able to maintain sufficient sanitary conditions even when the water flow device is not used for a long time, or to provide drinking water with health maintenance/improvement effects or nourishing and tonic effects. The objective is to provide a water passage device that can.

（課題を解決するための手段） 上記の問題点を解決するために、本考案に係る
通水装置は、水供給源から蛇口に至る通水路にお
いて、前記水供給源から供給される水に混入され
る殺菌用塩素を除去する浄水器と、該浄水器を通
じた水をミネラル鉱石でミネラル化する飲料水製
造装置とを備え、前記通水路に対し前記浄水器を
迂回して前記飲料水製造装置へと接続する分岐路
が設けられ、かつ同分岐路には殺菌用薬液が注入
されるエゼクタが設けられ、前記水供給源からの
通水開始の初期にのみ前記水供給源から供給され
る水を前記分岐路へ流れるように切換えを行う切
換バルブが前記通水路と前記分岐路との分岐点に
設置したことを特徴とする。(Means for Solving the Problems) In order to solve the above-mentioned problems, the water flow device according to the present invention provides a water flow device that prevents water from being mixed with the water supplied from the water supply source in the water flow path leading from the water supply source to the faucet. a water purifier that removes sterilizing chlorine; and a drinking water production device that mineralizes the water that has passed through the water purifier with mineral ores; A branch path is provided that connects to the water supply source, and the branch path is provided with an ejector into which a sterilizing chemical solution is injected. The present invention is characterized in that a switching valve for switching the flow of water to the branch path is installed at a branch point between the water passageway and the branch path.

（作用） このように構成された通水装置においては、通
常は、水供給源から供給される水は、浄水器で殺
菌性塩素が除去され、その後、飲料水製造装置に
おいてミネラル鉱石によつてミネラル化されて、
蛇口から流出する。(Function) In a water flow device configured in this way, normally, the water supplied from the water supply source is treated with sterilizing chlorine removed in a water purifier, and then treated with mineral ores in a drinking water production device. mineralized,
It flows out of the faucet.

次に、蛇口を閉めると、飲料水製造装置内に
は、殺菌性塩素が除去された水が溜まり、その水
では時間の経過とともに細菌が増殖し得る。 When the faucet is then turned off, water from which the germicidal chlorine has been removed accumulates in the drinking water production device, and bacteria can grow in that water over time.

そして、再度蛇口を開くと、水供給源から供給
される水は切換バルブによつて分岐路へと流れ、
エゼクタからその分岐路内の水に殺菌用薬液が注
入され、その殺菌用薬液を含んだ水が飲料水製造
装置に流入する。 Then, when the faucet is opened again, the water supplied from the water supply source flows to the branch path by the switching valve.
A sterilizing chemical solution is injected from the ejector into the water in the branch path, and the water containing the sterilizing chemical solution flows into the drinking water production device.

このため、その飲料水製造装置内の水が殺菌さ
れ、細菌に汚染された水が蛇口から流出すること
はない。 Therefore, the water in the drinking water production device is sterilized, and water contaminated with bacteria does not flow out from the faucet.

（考案の効果） この結果、本考案に係る通水装置によれば、長
時間の不使用の後においても衛生的な水を供給す
ることができる。また、通常は殺菌用塩素が除去
されかつミネラル化された水が供給されるため、
健康に良い水を供給することができる。(Effect of the invention) As a result, the water flow device according to the invention can supply sanitary water even after a long period of non-use. In addition, water is usually supplied that has been freed from sterilizing chlorine and has been mineralized.
It can provide healthy water.

（実施例） 次に、本考案に関連する第１実施例を第１図及
び第２図に基づいて説明する。(Example) Next, a first example related to the present invention will be described based on FIGS. 1 and 2.

水供給源の例えば水道に接続されるＴ型外部配
管口１の一方の分岐口２は、水供給源からの水に
含まれる殺菌用塩素や重金属を浄化するための銀
活性炭を充填した浄水器３から手動切替の３方弁
４を経て、二次処理装置として水供給源からの水
をミネラル化するためのミネラル鉱石等を充填し
た飲料水製造装置５又は除菌効果のあるUFフイ
ルタ又は中空モジユール系飲料水製造装置５から
蛇口６に接続され、又、Ｔ型外部配管口１の他方
の分岐口７は、定流量弁８からエゼクタ９と手動
切替の３方弁４を経て、飲料水製造装置５から蛇
口６に接続され、エゼクタ９の吸込み口１０には
殺菌用薬液を入れた薬液容器１１が接続されてい
る。 One branch port 2 of the T-shaped external piping port 1 connected to a water supply source, for example, a water supply, is connected to a water purifier filled with silver activated carbon for purifying sterilizing chlorine and heavy metals contained in the water from the water supply source. 3 through a manually switched three-way valve 4, a drinking water production device 5 filled with mineral ores, etc. for mineralizing water from a water supply source as a secondary treatment device, or a UF filter with a sterilizing effect or a hollow The modular drinking water production device 5 is connected to a faucet 6, and the other branch port 7 of the T-shaped external piping port 1 is connected to a constant flow valve 8, an ejector 9, and a manual switching three-way valve 4 to supply drinking water. The manufacturing device 5 is connected to a faucet 6, and the ejector 9 has a suction port 10 connected to a chemical solution container 11 containing a sterilizing chemical solution.

次に、本実施例の作用について説明する。 Next, the operation of this embodiment will be explained.

このように構成された殺菌機構付通水装置１２
において、３方弁４をエゼクタ９通路不通側に切
替えた状態で蛇口６を開くと、外部には通水装置
１２の浄水器３と飲料水製造装置５とを通して水
道水中に含まれる殺菌用塩素や重金属が浄水器３
内の銀活性炭に吸着除去されて浄化され、かつ、
飲料水製造装置５内のミネラル鉱石でミネラル化
された状態又はUFフイルタ或は中空モジユール
により除菌された状態で供給される。 Water passing device 12 with sterilization mechanism configured in this way
When the faucet 6 is opened with the three-way valve 4 switched to the ejector 9 passage closed side, the sterilizing chlorine contained in the tap water is passed through the water purifier 3 of the water flow device 12 and the drinking water production device 5 to the outside. and heavy metals in water purifier 3
It is adsorbed and removed by the silver activated carbon inside and purified, and
The drinking water is supplied mineralized with mineral ores in the drinking water production device 5 or sterilized by a UF filter or hollow module.

この３方弁４のエゼクタ９通路不通側切替状態
において、エゼクタ９は通水経路になつていない
ため、通水装置１２を通つて外部に供給される水
に殺菌用薬液は混入されず、又、この連続通水状
態においては、殺菌用塩素が除去された水であつ
ても、滞留しない水には細菌増殖の条件がないた
め殺菌の必要性もない。 When the ejector 9 passage of the three-way valve 4 is switched to the side where the ejector 9 passage is not flowing, the ejector 9 is not a water passage path, so the sterilizing chemical solution is not mixed into the water supplied to the outside through the water passage device 12. In this state of continuous water flow, even if the water is free of sterilizing chlorine, there is no need for sterilization since there are no conditions for bacterial growth in the water that does not stagnate.

次に、この通水状態において水道の蛇口６を閉
めると、通水装置１２内に水が残り、該水は特に
水道水中に含まれる殺菌用塩素が浄水器３内の銀
活性炭で吸着除去されていることもあつて、特
に、銀活性炭に接触していない菌抑制効果のない
部分に滞留した部分の水は時間の経過とともに大
気による汚染等により細菌が増殖している。 Next, when the water faucet 6 is closed in this state of water flow, water remains in the water flow device 12, and the sterilizing chlorine contained in the tap water is adsorbed and removed by the silver activated carbon in the water purifier 3. Particularly, bacteria proliferate in the water stagnant in areas that are not in contact with the silver activated carbon and have no bacteria-inhibiting effect due to air pollution and the like over time.

特に、浄水器３にUFフイルタ又は中空モジユ
ール系飲料水製造装置５を接続した場合、飲料水
製造装置５中は除菌された菌が滞留しているた
め、その増殖は著しい。 In particular, when a UF filter or hollow module type drinking water production device 5 is connected to the water purifier 3, bacteria that have been sterilized remain in the drinking water production device 5, and their proliferation is significant.

この細菌増殖状態において通水装置１２から外
部に水を供給する場合は、まず３方弁４をエゼク
タ９通路通水側に切替えた状態で蛇口６を開く
と、水道水はＴ型外部配管口１の他方の分岐口７
から定流量弁８とエゼクタ９と手動切替の３方弁
４を経て飲料水製造装置５に供給される。 When supplying water to the outside from the water passage device 12 in this state of bacterial growth, first switch the three-way valve 4 to the water passage side of the ejector 9 passage and open the faucet 6, then the tap water will flow through the T-shaped external piping port. The other branch port 7 of 1
The water is then supplied to the drinking water production device 5 via a constant flow valve 8, an ejector 9, and a manually switched three-way valve 4.

従つて、通水の際にはエゼクタ９から薬液容器
１１内の殺菌用薬液が吸出され、この薬液が通水
装置１２の飲料水製造装置５内に滞留していた水
にも供給され、この細菌を含んだ滞留水はエゼク
タ９からの薬液によつて殺菌されながら、新しい
水道水とともに飲料水製造装置５によつてミネラ
ル化されながら蛇口６を通つて外部に供給され
る。 Therefore, when water is passed through, the sterilizing chemical liquid in the chemical liquid container 11 is sucked out from the ejector 9, and this chemical liquid is also supplied to the water stagnant in the drinking water production device 5 of the water passing device 12. The accumulated water containing bacteria is sterilized by the chemical solution from the ejector 9, and is mineralized by the drinking water production device 5 together with new tap water before being supplied to the outside through the faucet 6.

その結果、この殺菌機構付通水装置１２は該装
置１２を長時間使用しない場合でも、衛生状態を
十分に保持した状態で外部にきれいな水を供給す
ることができ、特に、この場合は、エゼクタ９の
前に定流量弁８が接続されているため、通水中に
おいてエゼクタ９からは常に一定割合の薬液しか
供給されていないため、外部に供給される水に対
する薬液の濃度を一定にすることができるととも
に、薬液の補充等の管理を容易にすることができ
る。 As a result, this water passage device 12 with a sterilization mechanism can supply clean water to the outside while maintaining a sufficiently sanitary state even when the device 12 is not used for a long time. In particular, in this case, the ejector Since the constant flow valve 8 is connected in front of the ejector 9, only a constant proportion of the chemical solution is always supplied from the ejector 9 during water flow, so it is possible to maintain a constant concentration of the chemical solution with respect to the water supplied to the outside. In addition, it is possible to easily manage replenishment of chemical solutions, etc.

なお、前記の如く、通水初期に殺菌を行うのも
良いが、長時間使用しない場合にエゼクタから吸
出される薬液を前もつて通水装置内に充満させ
て、通水装置内の細菌増殖を抑制することもでき
る。 As mentioned above, it is good to sterilize the water at the beginning of the water flow, but if the water flow device is not used for a long time, the water flow device may be filled with the chemical solution sucked out from the ejector in advance to prevent bacterial growth inside the water flow device. can also be suppressed.

次に、第３図〜第５図は本考案に関連する第２
実施例であつて、この場合の通水装置１３は、網
の目状目切りのカートリツジケース内に菌抑制効
果のない濾過剤、例えば重金属吸着剤又はミネラ
ル化剤を充填したカートリツジ１４を交換可能に
挿着した浄水器１５の上流位置に、水供給源に接
続される手動切替の３方弁１６の一方の分岐口１
７を直接接続し、かつ、３方弁１６の他方の分岐
口１８を定流量弁１９とエゼクタ２０を介して接
続し、エゼクタ２０の吸込み口２１に殺菌剤収納
筒２２を取付け、該殺菌剤収納筒２２上端のキヤ
ツプ２３を外した後、漏斗２４のゴム栓２５を差
込んで、殺菌剤収納筒２２内に殺菌剤を入れるよ
うにした他は、構成、作用、効果とも前記第１実
施例とほぼ同様である。 Next, FIGS. 3 to 5 show second figures related to the present invention.
In this embodiment, the water passage device 13 replaces a cartridge 14 filled with a filtering agent that does not have a bacterium-inhibiting effect, such as a heavy metal adsorbent or a mineralizing agent, in a mesh-cut cartridge case. One branch port 1 of a manual switching three-way valve 16 connected to a water supply source is installed upstream of the water purifier 15 that can be inserted.
7 is connected directly, and the other branch port 18 of the three-way valve 16 is connected to the constant flow valve 19 via the ejector 20, and the disinfectant storage cylinder 22 is attached to the suction port 21 of the ejector 20, and the disinfectant storage cylinder 22 is attached to the suction port 21 of the ejector 20. The configuration, operation, and effects are the same as in the first embodiment, except that after removing the cap 23 at the upper end of the storage tube 22, the rubber stopper 25 of the funnel 24 is inserted to introduce the sterilizer into the sterilizer storage tube 22. This is almost the same as the example.

次に、第６図〜第８図は本考案に関連する第３
実施例であつて、この場合の通水装置２６は、網
の目状目切りのカートリツジケース２７の中心位
置にカートリツジケース２７を貫通する殺菌水通
路２８を設け、カートリツジケース２７内に菌抑
制効果のある銀活性炭を充填したカートリツジ２
９を交換可能に挿着した浄水器３０の上流位置
に、水供給源に接続される手動切替の３方弁３１
の一方の分岐口３２を直接接続し、かつ、カート
リツジ２９を貫通する殺菌水通路２８の上流位置
に３方弁３１の他方の分岐口３３を定流量弁３４
とエゼクタ３５を介して接続した他は、構成、作
用、効果とも前記第２実施例とほぼ同様である。 Next, FIGS. 6 to 8 show third figures related to the present invention.
In this embodiment, the water passage device 26 is provided with a sterilizing water passage 28 passing through the cartridge case 27 at the center of the mesh-shaped cartridge case 27. Cartridge 2 filled with silver activated carbon, which has antibacterial effect
A manual switching three-way valve 31 connected to a water supply source is installed upstream of the water purifier 30 into which the water purifier 30 is replaceably inserted.
One branch port 32 of the three-way valve 31 is directly connected to the constant flow valve 34, and the other branch port 33 of the three-way valve 31 is connected directly to the upstream position of the sterile water passage 28 passing through the cartridge 29.
The configuration, operation, and effects are substantially the same as those of the second embodiment, except that the second embodiment is connected to the second embodiment via the ejector 35.

次に、第９図及び第１０図は本考案に関連する
第４実施例であつて、この場合の通水装置３６
は、前記第３実施例の通水装置２６に、前記第１
実施例と同様の二次処理装置、即ち、水供給源か
らの水をミネラル化するためのミネラル鉱石等を
充填した飲料水製造装置３７又はUFフイルタ或
は中空モジユールを用いた飲料水製造装置３７を
蛇口３８との間に接続した他は、構成、作用、効
果とも前記第１及び第３実施例とほぼ同様であ
る。 Next, FIGS. 9 and 10 show a fourth embodiment related to the present invention, in which a water passage device 36
In the water passage device 26 of the third embodiment, the first
A secondary treatment device similar to the embodiment, ie, a drinking water production device 37 filled with mineral ores etc. for mineralizing water from a water supply source, or a drinking water production device 37 using a UF filter or hollow module. The configuration, operation, and effects are substantially the same as those of the first and third embodiments, except that the faucet 38 is connected to the faucet 38.

次に、第１１図〜第１３図は本考案に関連する
第５実施例であつて、この場合の通水装置３９
は、浄水器４０内の濾過用カートリツジ４１の濾
過層が第１濾過層４２、第２濾過層４３、第３濾
過層４４の３つに分割され、濾過層上流側より銀
活性炭、重金属吸着剤、ミネラル化剤がそれぞれ
充填され、重金属吸着剤とミネラル化剤は菌抑制
効果がないため、両層４３，４４内には殺菌水通
路４５を貫通させず、銀活性炭の第１濾過層４２
のみに殺菌水通路４５を貫通させ、殺菌剤収納筒
４６内の殺菌剤により第２濾過層４３と第３濾過
層４３４重金属吸着剤とミネラル化剤も殺菌が行
えるようにした他は、構成、作用、効果とも各実
施例とほぼ同様である。 Next, FIGS. 11 to 13 show a fifth embodiment related to the present invention, in which a water passage device 39 is shown.
The filtration layer of the filtration cartridge 41 in the water purifier 40 is divided into three parts: a first filtration layer 42, a second filtration layer 43, and a third filtration layer 44, and silver activated carbon and heavy metal adsorbent are added to the filtration layer from the upstream side. , a mineralizing agent are filled respectively, and since the heavy metal adsorbent and the mineralizing agent have no bacteria suppressing effect, the sterilizing water passage 45 is not penetrated into both layers 43 and 44, and the first filtration layer 42 of silver activated carbon is
The sterilizing water passage 45 is passed through only the sterilizing water passage 45, and the second filtration layer 43 and the third filtration layer 434, the heavy metal adsorbent and the mineralizing agent can also be sterilized by the sterilizing agent in the sterilizing agent storage cylinder 46. The operation and effect are almost the same as those of each embodiment.

なお、殺菌剤収納筒を含む薬液容器内の殺菌用
薬液を通水開始の初期においてのみエゼクタを通
して通水装置に供給するためのバルブであつて、
例えば第１４図に示すように、通水開始をスロー
スイツチ４７で検知した後の一定時間図示省略タ
イマ回路による作動のバルブ４８を殺菌用薬液の
供給路４９上に接続することもでき、この場合に
おいて、スロースイツチ４７のオフ時間に応じて
バルブ４８のオン時間を適宜長くすることによつ
て、薬液供給量を細菌増殖量に対応して最適制御
することができ、又、通水路上に各薬液別エゼク
タを接続し、各エゼクタの選択された１個又は複
数個から殺菌用又はイオン化用又は漢方用等の薬
液を適宜吸出させることによつて、飲料水に殺
菌、又は、健康維持・増進効果、又は、滋養強壮
効果等を持たせることもできる。 In addition, the valve is for supplying the sterilizing chemical solution in the chemical solution container including the sterilizing agent storage cylinder to the water passing device through the ejector only at the initial stage of starting water passing.
For example, as shown in FIG. 14, a valve 48 that is activated by a timer circuit (not shown) for a certain period of time after the slow switch 47 detects the start of water flow can be connected to the supply path 49 for the sterilizing chemical solution. By appropriately lengthening the ON time of the valve 48 according to the OFF time of the slow switch 47, the amount of chemical solution supplied can be optimally controlled in accordance with the amount of bacterial growth. By connecting ejectors for each chemical solution and sucking out a chemical solution for sterilization, ionization, Chinese medicine, etc. from one or more selected ejectors, drinking water can be sterilized or health maintenance/improvement can be achieved. It is also possible to impart effects such as nutritional and tonic effects.

【図面の簡単な説明】[Brief explanation of the drawing]

第１図は本考案の第１実施例の正面図、第２図
はその平面図、第３図は本考案の第２実施例の破
断正面図、第４図は第３図のＡ−Ａ線断面図、第
５図はその要部詳細図、第６図は本考案の第３実
施例の破断正面図、第７図は第６図のＢ−Ｂ線断
面図、第８図はその要部詳細図、第９図は本考案
の第４実施例の破断正面図、第１０図は第９図の
Ｃ−Ｃ線断面図、第１１図は本考案の第５実施例
の破断正面図、第１２図は第１１図のＤ−Ｄ線断
面図、第１３図はその要部詳細図、第１４図は本
考案の他の実施例の説明図である。 １２，１３，２６，３６，３９……通水装置、
９，２０，３５……エゼクタ、１１……薬液容
器、２２……殺菌剤収納筒。 Fig. 1 is a front view of the first embodiment of the present invention, Fig. 2 is a plan view thereof, Fig. 3 is a cutaway front view of the second embodiment of the invention, and Fig. 4 is A-A in Fig. 3. 5 is a detailed view of the main part, FIG. 6 is a cutaway front view of the third embodiment of the present invention, FIG. 7 is a sectional view taken along line B-B of FIG. 6, and FIG. Detailed view of main parts, FIG. 9 is a broken front view of the fourth embodiment of the present invention, FIG. 10 is a cross-sectional view taken along the line C-C of FIG. 9, and FIG. 11 is a broken front view of the fifth embodiment of the present invention. 12 is a sectional view taken along the line DD in FIG. 11, FIG. 13 is a detailed view of the main part thereof, and FIG. 14 is an explanatory view of another embodiment of the present invention. 12, 13, 26, 36, 39...water passage device,
9, 20, 35... Ejector, 11... Chemical solution container, 22... Disinfectant storage cylinder.

Claims (1)

【実用新案登録請求の範囲】 水供給源から蛇口に至る通水路において、前記
水供給源から供給される水に混入される殺菌用塩
素を除去する浄水器と、該浄水器を通じた水をミ
ネラル鉱石でミネラル化する飲料水製造装置とを
備え、 前記通水路に対し前記浄水器を迂回して前記飲
料水製造装置へと接続する分岐路が設けられ、か
つ同分岐路には殺菌用薬液が注入されるエゼクタ
が設けられ、 前記水供給源からの通水開始の初期にのみ前記
水供給源から供給される水を前記分岐路へ流れる
ように切換えを行う切換バルブが前記通水路と前
記分岐路との分岐点に設置したことを特徴とする
通水装置。[Claim for Utility Model Registration] A water purifier that removes sterilizing chlorine mixed into the water supplied from the water supply source in a water passage leading from the water supply source to the faucet, and a water purifier that removes sterilizing chlorine from the water supplied from the water supply source, A drinking water production device that mineralizes with ore, and a branch path is provided to the water passage that connects to the drinking water production device by bypassing the water purifier, and a sterilizing chemical solution is provided in the branch path. An ejector for injecting the water is provided, and a switching valve that switches the water supplied from the water supply source to flow into the branch channel only at the beginning of water flow from the water supply source is provided between the water flow channel and the branch channel. A water flow device characterized by being installed at a junction with a road.