JP3485813B2 - Electrolyzed water generator - Google Patents
Electrolyzed water generatorInfo
- Publication number
- JP3485813B2 JP3485813B2 JP31046598A JP31046598A JP3485813B2 JP 3485813 B2 JP3485813 B2 JP 3485813B2 JP 31046598 A JP31046598 A JP 31046598A JP 31046598 A JP31046598 A JP 31046598A JP 3485813 B2 JP3485813 B2 JP 3485813B2
- Authority
- JP
- Japan
- Prior art keywords
- water
- tank
- cooler
- passage
- switching valve
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Landscapes
- Water Treatment By Electricity Or Magnetism (AREA)
Description
【発明の属する技術分野】本発明は希望により冷却した
アルカリ水を取り出すことができる電解水生成器に関す
る。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electrolyzed water generator capable of taking out cooled alkaline water if desired.
【従来の技術】近年、アルカリ水は健康によいとされ、
電気分解により生成するアルカリ生水器が商品化され
た。ところが、夏季には水道水の水温が上昇して約20
度程度にもなり、そのまま飲用するには不都合である。
人間が飲用する場合の最も美味しいと感ずる水温は10
度から15度の間とされている。この様な理由により、
特開平6−154758号公報に見られるように電解槽
により生成されたアルカリ水を冷却槽にて冷却して適度
な水温のアルカリ冷却水を取り出すようにしたものがあ
る。2. Description of the Related Art Recently, alkaline water is considered to be good for health.
Alkaline water generators produced by electrolysis have been commercialized. However, in the summer, the temperature of tap water increased and the temperature was about 20.
However, it is inconvenient to drink as it is.
The water temperature that humans feel is the most delicious when drinking is 10
It is said to be between 15 and 15 degrees. For this reason,
As disclosed in Japanese Patent Application Laid-Open No. 6-154758, there is one in which alkaline water generated in an electrolytic cell is cooled in a cooling tank to take out alkaline cooling water having an appropriate water temperature.
【発明が解決しようとする課題】また、アルカリ水は水
道水の水質や好みによりイオン濃度を調節する必要があ
るため、ph調節ツマミが設けられている。勿論、この
ph調節ツマミは電解槽の陽極と陰極間に印加する電流
を変化させるものであるが、前述の先行技術では電解槽
より生成されたアルカリ水を冷却槽内に貯水するため、
冷却したアルカリ水を取り出す場合には定められたイオ
ン濃度の冷却アルカリ水だけしか取り出せないことにな
った。換言すれば、仮に水質や好みによりアルカリ水の
イオン濃度を調節しても電解槽内に貯水されるのは、そ
の調節された一種類の濃度のものだけであり、好みの違
う人は貯水して冷却されたアルカリ水を飲用することが
できなかった。さらに、電解槽内に給水する水は、電気
分解によりアルカリ水と酸性水とに生成されるわけであ
るが、もともと酸性水は飲用することがなく排水され
る。このため、アルカリ水の出水量を増やせば排出する
酸性水も増えることになり無駄水となった。本発明は、
浄水カートリッジと電解槽との間に冷却器を設けて、切
換弁により浄水を直接電解槽に給水して常温アルカリ水
を得る場合と、浄水を貯水して冷却し、飲用時に電解槽
に給水して冷却アルカリ水を得る場合を選択し、且つ水
道水を電解槽の陽極室に給水してアルカリ水の取り出し
量を多くしたものである。Since the alkaline water needs to have its ion concentration adjusted depending on the quality and taste of tap water, a pH adjusting knob is provided. Of course, this pH adjusting knob changes the electric current applied between the anode and the cathode of the electrolytic cell, but in the above-mentioned prior art, since the alkaline water generated from the electrolytic cell is stored in the cooling tank,
When the cooled alkaline water is taken out, only the cooled alkaline water having a predetermined ion concentration can be taken out. In other words, even if the ion concentration of alkaline water is adjusted according to the water quality or preference, only one adjusted concentration will be stored in the electrolytic cell, and people with different preferences will store it. It was not possible to drink the chilled alkaline water. Further, the water supplied to the electrolytic cell is electrolyzed into alkaline water and acidic water, but the acidic water is originally drained without drinking. For this reason, if the amount of alkaline water discharged is increased, the amount of acidic water discharged will also increase, resulting in wasted water. The present invention is
A cooler is installed between the water purification cartridge and the electrolytic cell, and when the purified water is directly supplied to the electrolytic cell by the switching valve to obtain room temperature alkaline water, and when the purified water is stored and cooled, it is supplied to the electrolytic cell when drinking. In this case, the amount of alkaline water taken out is increased by selecting the case of obtaining the cooling alkaline water by supplying tap water to the anode chamber of the electrolytic cell.
【課題を解決するための手段】本発明は、浄水カートリ
ッジと、冷却器と、電気分解によりアルカリ水と酸性水
を生成する電解槽と、前記浄水カートリッジと前記冷却
器との間の通水路に設けた切換弁と、前記冷却器と前記
電解槽の陰極室間を連絡する送水路と、前記切換弁と前
記送水路を連絡し前記冷却器をバイパスする迂回水路
と、前記浄水カートリッジと切換弁との間の通水路と前
記電解槽の陽極室間を連絡する原水路とを備え、前記原
水路から供給する原水は酸性水として取り出し、前記切
換弁は、冷却器により冷却された水を送水路を介して陰
極室内に給水する場合と、浄水カートリッジの水を冷水
器をバイパスして迂回水路を介して陰極室内に給水する
場合とを選択するものである。また、前記冷却器は、ペ
ルチェ素子を用いて冷却するものであって、浄水を貯水
するタンクを有し、前記タンク内の上下部を連通する循
環水路を設け、この循環水路にタンク内の下部の貯留水
を吸水してタンク内の上部から吐水しながら該タンク内
の貯留水を循環させるポンプを設けたものである。The present invention provides a water purification cartridge, a cooler, an electrolytic cell for producing alkaline water and acidic water by electrolysis, and a water passage between the water purification cartridge and the cooler. A switching valve provided, a water passage connecting the cooler and the cathode chamber of the electrolytic cell, a bypass water passage connecting the switching valve and the water passage to bypass the cooler, the water purification cartridge and the switching valve And a raw water passage connecting the anode chamber of the electrolytic cell, the raw water supplied from the raw water passage is taken out as acidic water, and the switching valve sends the water cooled by the cooler. The case of supplying water into the cathode chamber through the water channel or the case of supplying water in the water purification cartridge into the cathode chamber through the bypass water channel by bypassing the water cooler is selected. Further, the cooler is a device for cooling using a Peltier element, has a tank for storing purified water, and has a circulating water passage communicating between the upper and lower parts of the tank, and the circulating water passage has a lower part in the tank. A pump is provided to circulate the stored water in the tank while absorbing the stored water and discharging the water from the upper portion in the tank.
【発明の実施の形態】本発明の実施例を図面に基づいて
説明する。図1は本発明の電解水生成器の説明図であ
る。(1)は成水器本体、(2)は水道水(原水)の給
水/停止を行う水栓、(3)は水道水にカルシウムを添
加する添加器、(4)はカルシウムが添加された水道水
中の不純物を除去する浄水カートリッジ、(5)は浄水
カートリッジ(4)により浄化された浄水を貯水した状
態で冷却する冷却器で、タンク(6)と、このタンクの
底壁に取り付けたペルチェ素子(7)と、タンクの側壁
の鉛直方向に取り付けられタンク内の上下部を連通する
循環パイプ(8)を有し、この循環パイプは循環水路
(9)を構成すると共に、この水路の一部にタンク内下
部の水を吸引して強制的にタンク内上部に吐水するポン
プ(10)を取り付けている。前記ペルチェ素子(7)
は、吸熱側(11)を前記タンク(6)の底壁に密着さ
せ、放熱側(12)を大気中に露呈しており、この放熱
側を冷却ファン(13)により冷却するようにしてい
る。(14)は前記タンク(6)内に投入させて固定し
た貯水温度を検出する温度検出素子で、この素子により
検出した温度に基づいて制御回路(図示せず)によって
一定温度或は所望温度に制御する。(15)は電気分解
によりアルカリ水と酸性水を生成する電解槽で、陽極
(16)を有する陽極室(17)と、陰極(18)(1
8)を有する陰極室(19)(19)を有し、陽極室
(17)と陰極室(19)(19)との間を隔膜(2
0)により分離している。(21)は前記浄水カートリ
ッジ(4)と前記冷却器(5)の上部とを連絡する通水
路、(22)は前記通水路に設けた三方弁タイプの切換
弁で、使用者の好みにより浄水を前記タンク(6)内に
給水、或はタンク内に給水せず迂回水路(23)を介し
て前記電解槽(15)の陰極室(19)(19)に給水
する。(24)は前記タンク(6)の下部と前記電解槽
(15)の陰極室(19)(19)とを連絡する送水路
で、この水路を経て陽極室(17)内に、給水した浄水
はアルカリ水となり、またこの水路の一部にタンク
(6)から吐水する冷水中の微細な不純物を除去する中
空糸膜フィルター(25)を設けている。前記迂回水路
(23)と陰極室(19)(19)との連結部は、前記
中空糸膜フィルター(25)と陰極室(19)(19)
との間に連結している。(26)は前記浄水カートリッ
ジ(4)と切換弁(22)との間の通水路(21)と前
記電解槽(15)の陽極室(17)間を連絡する原水路
で、この水路を経て陽極室(17)内に給水した水道水
は酸性水となつて吐水する。(27)は前記陰極室(1
9)(19)と連通する吐水パイプ、(28)は前記陽
極室(17)と連通する排水パイプである。次に動作に
ついて述べる。例えば冬季や春先、晩秋の季節には比較
的水道水の水温が低くアルカリ水を直接飲用するに適し
た10〜15度程となつている。従って、この時期には
切換弁(22)を操作して通水路(21)と迂回水路
(23)とを連通しペルチェ素子(7)への直流電源電
圧の印加を停止し、陽極(16)と陰極(18)(1
8)間に直流電源電圧を印加する。この状態で水栓
(2)を開放すると、水道水が添加器(3)を介して浄
水カートリッジ(4)内に給水され、このカートリッジ
によって浄化された浄水は通水路(21)、迂回水路
(26)、送水路(24)を介してそれぞれの陰極室
(19)(19)内に給水する。一方、浄水の一部は原
水路(26)を介して陽極室(17)内に給水され、そ
れぞれの室内で電気分解が行われイオンが移動して陰極
室(19)(19)内にはアルカリ水が生成され吐水パ
イプ(27)から取り出し、陽極室(17)内には酸性
水が生成され排水パイプ(28)から排水される。斯し
て、夏季や初夏、初秋の季節では水道水の温度が高く気
温や地域によって20度以上にも上昇するが、この様な
水温の高いアルカリ水は飲用するには適さないものであ
る。このような時期には、切換弁(22)を操作して通
水路(21)と迂回水路(26)との連通を遮へいし、
浄水の全てを通水路を介してタンク(6)内に給水する
と共にペルチェ素子(7)に直流電源電圧を印加して吸
熱側(11)より吸熱し貯留した浄水を冷却する。タン
ク(6)内が満水になると、図示していないが水位検出
装置によって水栓(2)を遮へいし水道水の給水を停止
し、タンク(6)内の浄水は温度検出素子(14)によ
り検出した温度に基づいて10〜15度になるように制
御回路によりペルチェ素子(7)に印加する電圧を制御
する。冷却中においては循環ポンプ(10)を駆動しタ
ンク(6)内の下部の浄水をタンク(6)内の上部に給
水し冷却を促進させるが、循環ポンプ(10)は、実際
にはペルチェ素子(7)が冷却動作を行っている間に運
転を行った方が冷却効率が向上する。そして、アルカリ
冷水を取り出す場合は、水栓(2)を開放し水道水をタ
ンク(6)内に給水し、この水道水の水圧によってタン
ク内の冷却された浄水を中空糸膜フィルター(25)を
介して陰極室(19)(19)内に給水すると共に、浄
水カートリッジ(4)から送水される浄水の一部を原水
路(26)を介して陽極室(17)内に給水する。この
結果、陽極室(17)内と陰極室(19)(19)内で
は電気分解によってイオンが移動し、陽極室(17)で
は酸性水が生成され、陰極室(19)(19)では冷却
されたままのアルカリ水が生成され、それぞれ排水パイ
プ(28)と吐水パイプ(27)から流出する。Embodiments of the present invention will be described with reference to the drawings. FIG. 1 is an explanatory view of an electrolyzed water generator of the present invention. (1) is a water purifier body, (2) is a faucet for supplying / stopping tap water (raw water), (3) is an adder for adding calcium to tap water, and (4) is for adding calcium A water purification cartridge for removing impurities in tap water, (5) is a cooler for cooling the purified water purified by the water purification cartridge (4) in a stored state, and is a tank (6) and a Peltier attached to the bottom wall of this tank. It has an element (7) and a circulation pipe (8) which is vertically attached to the side wall of the tank and communicates with the upper and lower parts of the tank. The circulation pipe constitutes a circulation water channel (9) and one of the water channels. A pump (10) for sucking the water in the lower part of the tank and forcibly discharging the water to the upper part of the tank is attached to the part. The Peltier element (7)
Makes the heat absorbing side (11) adhere to the bottom wall of the tank (6) and exposes the heat radiating side (12) to the atmosphere, and the heat radiating side is cooled by a cooling fan (13). . Reference numeral (14) is a temperature detection element for detecting the stored water temperature which is fixed by being put in the tank (6), and is set to a constant temperature or a desired temperature by a control circuit (not shown) based on the temperature detected by this element. Control. (15) is an electrolytic cell for producing alkaline water and acidic water by electrolysis, which includes an anode chamber (17) having an anode (16) and a cathode (18) (1).
8) having a cathode chamber (19) (19) having a diaphragm (2) between the anode chamber (17) and the cathode chamber (19) (19).
Separated by 0). (21) is a water passage that connects the water purification cartridge (4) and the upper part of the cooler (5), and (22) is a three-way valve type switching valve provided in the water passage, and water purification is performed according to the preference of the user. Is supplied to the tank (6) or is not supplied to the tank and is supplied to the cathode chambers (19) and (19) of the electrolytic cell (15) through the bypass water passage (23). Reference numeral (24) is a water supply channel that connects the lower part of the tank (6) and the cathode chambers (19) and (19) of the electrolytic cell (15), and the purified water supplied to the anode chamber (17) through this channel. Becomes alkaline water, and a hollow fiber membrane filter (25) for removing fine impurities in cold water discharged from the tank (6) is provided in a part of this water channel. The hollow fiber membrane filter (25) and the cathode chambers (19) and (19) are connected to the bypass water passage (23) and the cathode chambers (19 and 19).
It is connected between and. Reference numeral (26) is a raw water passage that connects the water passage (21) between the water purification cartridge (4) and the switching valve (22) and the anode chamber (17) of the electrolyzer (15) via this water passage. The tap water supplied into the anode chamber (17) becomes acidic water and is discharged. (27) is the cathode chamber (1
9) A water discharge pipe communicating with (19), and (28) a drainage pipe communicating with the anode chamber (17). Next, the operation will be described. For example, in winter, early spring, and late autumn, the temperature of tap water is relatively low, which is about 10 to 15 degrees, which is suitable for drinking alkaline water directly. Therefore, at this time, the switching valve (22) is operated to connect the water passage (21) and the bypass water passage (23) to stop the application of the DC power supply voltage to the Peltier element (7), and the anode (16) And cathode (18) (1
Apply a DC power supply voltage during 8). When the faucet (2) is opened in this state, tap water is supplied to the water purification cartridge (4) through the adder (3), and the purified water purified by this cartridge flows through the water passage (21) and the bypass water passage (21). 26), and water is supplied into each cathode chamber (19) (19) through the water supply channel (24). On the other hand, a part of the purified water is supplied to the anode chamber (17) through the raw water channel (26), electrolysis is performed in each chamber, and ions move to enter the cathode chambers (19) (19). Alkaline water is generated and taken out from the water discharge pipe (27), and acidic water is generated in the anode chamber (17) and drained from the drain pipe (28). Thus, in the summer, early summer, and early fall seasons, the temperature of tap water is high and rises to 20 ° C. or higher depending on the temperature and region, but such alkaline water having a high water temperature is not suitable for drinking. At such time, the switching valve (22) is operated to block the communication between the water passage (21) and the bypass water passage (26),
All of the purified water is supplied into the tank (6) through the water passage, and a DC power supply voltage is applied to the Peltier element (7) to absorb the heat from the heat absorption side (11) and cool the stored purified water. When the tank (6) is filled with water, a water level detector (not shown) shields the faucet (2) to stop the supply of tap water, and the purified water in the tank (6) is discharged by the temperature detection element (14). The voltage applied to the Peltier device (7) is controlled by the control circuit so that the temperature becomes 10 to 15 degrees based on the detected temperature. During cooling, the circulation pump (10) is driven to supply the purified water in the lower portion of the tank (6) to the upper portion of the tank (6) to promote cooling, but the circulation pump (10) is actually a Peltier element. The cooling efficiency is improved when the operation is performed while (7) is performing the cooling operation. When taking out the alkaline cold water, the faucet (2) is opened to supply tap water into the tank (6), and the purified water cooled in the tank by the water pressure of the tap water is used as the hollow fiber membrane filter (25). Water is supplied to the cathode chambers (19) and (19) via the water supply chamber, and a part of the purified water supplied from the water purification cartridge (4) is supplied to the anode chamber (17) via the raw water passage (26). As a result, ions move by electrolysis in the anode chamber (17) and the cathode chambers (19) and (19), acidic water is generated in the anode chamber (17), and cooling is performed in the cathode chambers (19) and (19). The as-produced alkaline water is generated and flows out from the drain pipe (28) and the water discharge pipe (27), respectively.
【発明の効果】以上の様に本発明は、浄水カートリッジ
により浄化された浄水を切換弁によって、冷却器内に給
水して冷却した後に電解槽の陰極室内に給水、或は冷却
器に給水せず直接陰極室内に給水してアルカリ水を取り
出すため、水道水の水温に応じて、或は好みに応じて常
温のアルカリ水、或はアルカリ冷水を取り出すことがで
きる。特に、給水弁が前述のどちらの位置を選択してア
ルカリ水を取り出す場合であっても陽極室と陰極室とに
別々に浄水を給水するため、陽極室内に給水した浄水は
酸性水として吐水し、陰極室内に給水した浄水はアルカ
リ水として取り出し、十分な量な冷却されたアルカリ水
を取り出すことができる。即ち、陰極室内に給水する水
量はそのままアルカリ水となり、陽極室内に給水する浄
水量を少なくすることができ節水効果を奏する。前述の
アルカリ冷水を取り出す場合は、夏季等の外気温が高い
時期であり、この時の飲用量も多くなるが、冷水器内の
冷水はそのほとんどをアルカリ冷水として取り出すこと
ができ、アルカリ冷水の必要な時に必要な温度で必要な
量を取り出すことができる。また、冷水器にはペルチェ
素子を用いて冷却するため、本体の小型化を図ると共
に、浄水を貯水するタンクに循環水路及びポンプを設け
てタンク内の上下の浄水を循環させるため冷却効率が向
上する。As described above, according to the present invention, the purified water purified by the water purification cartridge is supplied to the cooler by the switching valve to cool it, and then the water is supplied to the cathode chamber of the electrolytic cell or to the cooler. Instead, since the alkaline water is taken out by directly supplying water into the cathode chamber, it is possible to take out the alkaline water at room temperature or the alkaline cold water according to the water temperature of the tap water or as desired. In particular, no matter which of the above positions the water supply valve selects to take out alkaline water, the purified water is separately supplied to the anode chamber and the cathode chamber, so the purified water supplied to the anode chamber is discharged as acidic water. The purified water supplied into the cathode chamber can be taken out as alkaline water, and a sufficient amount of cooled alkaline water can be taken out. That is, the amount of water supplied to the cathode chamber becomes alkaline water as it is, and the amount of purified water supplied to the anode chamber can be reduced, and a water saving effect can be achieved. When the above-mentioned alkaline cold water is taken out, the outside air temperature is high, such as in summer, and the drinking amount at this time is also large, but most of the cold water in the water cooler can be taken out as alkaline cold water. The required amount can be taken out at the required temperature at the required time. In addition, because the Peltier element is used for cooling the water cooler, the main body is made smaller, and the tank for storing purified water is equipped with a circulating water channel and a pump to circulate the purified water above and below the tank to improve cooling efficiency. To do.
【図1】本発明の電解水生成器の説明図である。FIG. 1 is an explanatory view of an electrolyzed water generator of the present invention.
1 成水器本体 4 浄水カートリッジ 5 冷却器 6 タンク 7 ペルチェ素子 9 循環水路 10 ポンプ 15 電解槽 17 陽極室 19 陰極室 21 通水路 22 切換弁 23 迂回水路 24 送水路 26 原水路 1 water vaporizer body 4 water purification cartridge 5 cooler 6 tanks 7 Peltier element 9 Circulating waterways 10 pumps 15 Electrolyzer 17 Anode chamber 19 Cathode chamber 21 waterway 22 Switching valve 23 Detour waterway 24 waterways 26 Raw waterway
───────────────────────────────────────────────────── フロントページの続き (72)発明者 山下 武司 鳥取県鳥取市南吉方3丁目201番地 鳥 取三洋電機株式会社内 (72)発明者 天野 経久 大阪府守口市京阪本通2丁目5番5号 三洋電機株式会社内 (56)参考文献 特開 平9−276869(JP,A) 特開 平8−281268(JP,A) 特開 平9−192664(JP,A) 特開 平7−136657(JP,A) 特開 平5−146782(JP,A) 特開 平6−154758(JP,A) 特開 平8−210749(JP,A) (58)調査した分野(Int.Cl.7,DB名) C02F 1/46 ─────────────────────────────────────────────────── ─── Continuation of front page (72) Takeshi Yamashita Takeshi Yamashita 3-201 Minamiyoshikata, Tottori City, Tottori Prefecture Tottori Sanyo Electric Co., Ltd. Sanyo Electric Co., Ltd. (56) Reference JP-A-9-276869 (JP, A) JP-A-8-281268 (JP, A) JP-A-9-192664 (JP, A) JP-A-7-136657 (JP, A) JP-A-5-146782 (JP, A) JP-A-6-154758 (JP, A) JP-A-8-210749 (JP, A) (58) Fields investigated (Int. Cl. 7) , DB name) C02F 1/46
Claims (2)
解によりアルカリ水と酸性水を生成する電解槽と、前記
浄水カートリッジと前記冷却器との間の通水路に設けた
切換弁と、前記冷却器と前記電解槽の陰極室間を連絡す
る送水路と、前記切換弁と前記送水路を連絡し前記冷却
器をバイパスする迂回水路と、前記浄水カートリッジと
切換弁との間の通水路と前記電解槽の陽極室間を連絡す
る原水路とを備え、前記原水路から供給する原水は酸性
水として取り出し、前記切換弁は、冷却器により冷却さ
れた水を送水路を介して陰極室内に給水する場合と、浄
水カートリッジの水を冷水器をバイパスして迂回水路を
介して陰極室内に給水する場合とを選択することを特徴
とする電解水生成器。1. A water purification cartridge, a cooler, an electrolytic cell for generating alkaline water and acid water by electrolysis, a switching valve provided in a water passage between the water purification cartridge and the cooler, and the cooling. Water passage that connects between the reactor and the cathode chamber of the electrolytic cell, a bypass water passage that connects the switching valve and the water passage and bypasses the cooler, a water passage between the water purification cartridge and the switching valve, and A raw water channel connecting between the anode chambers of the electrolytic cell, the raw water supplied from the raw water channel is taken out as acidic water, and the switching valve feeds the water cooled by the cooler into the cathode chamber via the water channel. The electrolyzed water generator is characterized in that the water in the water purification cartridge is bypassed to the water cooler to be supplied to the cathode chamber through the bypass water channel.
却するものであって、浄水を貯水するタンクを有し、前
記タンク内の上下部を連通する循環水路を設け、この循
環水路にタンク内の下部の貯留水を吸水してタンク内の
上部から吐水しながら該タンク内の貯留水を循環させる
ポンプを設けたことを特徴とする請求項1に記載の電解
水生成器。2. The cooler, which cools by using a Peltier element, has a tank for storing purified water, and has a circulating water passage communicating between upper and lower parts of the tank, and the tank is provided in the circulating water passage. The electrolyzed water generator according to claim 1, further comprising a pump that circulates the stored water in the tank while absorbing the stored water in the lower portion and discharging the stored water from the upper portion in the tank.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP31046598A JP3485813B2 (en) | 1998-10-30 | 1998-10-30 | Electrolyzed water generator |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP31046598A JP3485813B2 (en) | 1998-10-30 | 1998-10-30 | Electrolyzed water generator |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| JP2000135487A JP2000135487A (en) | 2000-05-16 |
| JP3485813B2 true JP3485813B2 (en) | 2004-01-13 |
Family
ID=18005584
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP31046598A Expired - Fee Related JP3485813B2 (en) | 1998-10-30 | 1998-10-30 | Electrolyzed water generator |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JP3485813B2 (en) |
Families Citing this family (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| KR102245152B1 (en) * | 2019-08-29 | 2021-04-28 | 지니스(주) | Cool water ionizer |
-
1998
- 1998-10-30 JP JP31046598A patent/JP3485813B2/en not_active Expired - Fee Related
Also Published As
| Publication number | Publication date |
|---|---|
| JP2000135487A (en) | 2000-05-16 |
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