JPH07241563A - Electrolytic ionic water making apparatus - Google Patents

Electrolytic ionic water making apparatus

Info

Publication number
JPH07241563A
JPH07241563A JP3609194A JP3609194A JPH07241563A JP H07241563 A JPH07241563 A JP H07241563A JP 3609194 A JP3609194 A JP 3609194A JP 3609194 A JP3609194 A JP 3609194A JP H07241563 A JPH07241563 A JP H07241563A
Authority
JP
Japan
Prior art keywords
water
storage tank
storage tanks
tank
lead
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.)
Granted
Application number
JP3609194A
Other languages
Japanese (ja)
Other versions
JP3373285B2 (en
Inventor
Yasuo Hara
安夫 原
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Hoshizaki Electric Co Ltd
Original Assignee
Hoshizaki Electric Co Ltd
Priority date (The priority date 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 date listed.)
Filing date
Publication date
Application filed by Hoshizaki Electric Co Ltd filed Critical Hoshizaki Electric Co Ltd
Priority to JP03609194A priority Critical patent/JP3373285B2/en
Publication of JPH07241563A publication Critical patent/JPH07241563A/en
Application granted granted Critical
Publication of JP3373285B2 publication Critical patent/JP3373285B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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Abstract

PURPOSE:To prevent the deterioration of ionic water received in respective storage tanks by ionic water flowing in the respective storage tanks by forming large diameter lead-out pipes having a diameter larger than that of respective lead-out pipes and connected and made to communicate with the outflow ends of the lead-out pipes, respectively and attached to the respective storage tanks so that the upper end parts thereof are allowed to protrude to the upper spaces of the storage tanks through the water in the tanks. CONSTITUTION:A large diameter conduit 45 having a diameter larger than that of a lead-out pipe 37 is formed in a storage tank 40 so that the upper end part thereof is allowed to protrude to the upper space R1 of the storage tank 40 through the water in the tank and connected and made to communicate with the upper end of the lead-out pipe 37 and a float switch 46 is arranged corresponding to the upper end opening of the large diameter conduit 45. A large diameter conduit 55 having a diameter larger than that of a lead-out pipe 38 is formed in a storage tank 50 so that the upper end part thereof is allowed to protrude to the upper space R2 of the storage tank 50 through the water in the tank and connected to the upper end of the lead-out pipe 38 and a float switch 56 is arranged corresponding to the upper end opening of the large diameter conduit 55. Ionic water overflows the upper end openings of the large diameter conduits 45, 55 to flow down in a water curtain like state along the outer peripheral surfaces of the conduits and flows in the storage tanks 40, 50 in an untroubled state without causing waves.

Description

【発明の詳細な説明】Detailed Description of the Invention

【0001】[0001]

【産業上の利用分野】本発明は、原水を電気分解して酸
性イオン水とアルカリ性イオン水を生成する電解イオン
水生成装置に関する。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electrolytic ionic water generator for electrolyzing raw water to generate acidic ionic water and alkaline ionic water.

【0002】[0002]

【従来の技術】電解イオン水生成装置の一つとして、供
給される原水をアルカリ性イオン水と酸性イオン水に電
気分解してそれぞれ送出する電解装置と、この電解装置
から各導出管を通してそれぞれ送出されたアルカリ性イ
オン水と酸性イオン水を貯溜する一対の貯溜タンクと、
前記電解装置の作動を制御する制御装置とを備えてなる
ものが、例えば特開平5−68975号公報に示されて
いる。
2. Description of the Related Art As one of electrolyzed ion water generators, an electrolyzer which electrolyzes the supplied raw water into alkaline ionized water and acidic ionized water and delivers the electrolyzed ionized water, and an electrolyzer which delivers the electrolyzed ionized water through each outlet pipe. A pair of storage tanks for storing alkaline ionized water and acidic ionized water,
A device provided with a control device for controlling the operation of the electrolysis device is disclosed in, for example, Japanese Patent Application Laid-Open No. 5-68975.

【0003】[0003]

【発明が解決しようとする課題】上記した従来の電解イ
オン水生成装置においては、各導出管の流出端が各貯溜
タンクの底部に連通接続されていて、各導出管を通して
各貯溜タンクに流入する各イオン水が各貯溜タンク内に
収容されている各イオン水中に流れ込むため、各流入イ
オン水中に含まれているガス(アルカリ性イオン水に含
まれる水素ガスまたは酸性イオン水に含まれる酸素ガ
ス)の浮上によって各貯溜イオン水が撹拌される。な
お、各導出管の流出端が各貯溜タンクの底部ではなくて
上部空間に連通接続されていて、各導出管を通して各貯
溜タンクに流入する各イオン水が各貯溜タンク内に収容
されている各イオン水中に落下流入する場合には、各流
入イオン水中に含まれているガスの浮上のみならず、各
貯溜タンクに落下流入する各流入イオン水によって各貯
溜イオン水が撹拌される。ところで、各貯溜タンク内に
収容されている各イオン水は撹拌されると、PH値及び
酸化還元電位が低下して劣化することがある。本発明
は、上記した問題に対処すべくなされたものであり、そ
の目的は各貯溜タンク内に収容されている各イオン水を
各貯溜タンクに流入する各イオン水にて劣化させること
のない電解イオン水生成装置を提供することにある。
In the above-mentioned conventional electrolytic ionized water generator, the outflow end of each outlet pipe is connected to the bottom of each storage tank so that it flows into each storage tank through each outlet pipe. Since each ionized water flows into each ionized water contained in each storage tank, the gas (hydrogen gas contained in alkaline ionized water or oxygen gas contained in acidic ionized water) contained in each inflowing ionized water By floating, each stored ion water is agitated. The outflow end of each outlet pipe is connected not to the bottom of each storage tank but to the upper space, and each ionized water flowing into each storage tank through each outlet pipe is stored in each storage tank. When falling and flowing into the ionized water, each stored ionized water is agitated not only by the floating of the gas contained in each inflowing ionized water, but also by each inflowing ionized water falling and flowing into each storage tank. By the way, when the ion water contained in each storage tank is agitated, the PH value and the oxidation-reduction potential may decrease and deteriorate. The present invention has been made to address the above-mentioned problems, and an object thereof is an electrolysis that does not deteriorate each ion water stored in each storage tank by each ion water flowing into each storage tank. An object is to provide an ionized water generator.

【0004】[0004]

【課題を解決するための手段】上記した目的を達成する
ために、本発明においては、供給される原水をアルカリ
性イオン水と酸性イオン水に電気分解してそれぞれ送出
する電解装置と、この電解装置から各導出管を通してそ
れぞれ送出されたアルカリ性イオン水と酸性イオン水を
貯溜する一対の貯溜タンクと、前記電解装置の作動を制
御する制御装置とを備えてなる電解イオン水生成装置に
おいて、前記各導出管より通路径が大径で前記各導出管
の流出端にそれぞれ連通接続され上端部を前記各貯溜タ
ンク内の水面下から上部空間に向けて突出させてなる一
対の大径導管を設けた。この場合において、前記電解装
置が前記原水を貯える貯水タンクを備えるとともに同貯
水タンク内の原水を給送するポンプを備え、また前記両
貯溜タンクが前記電解装置より上方に配設される構成を
採用するのが望ましい。
In order to achieve the above-mentioned object, in the present invention, an electrolyzer which electrolyzes the supplied raw water into alkaline ionized water and acidic ionized water and sends them out, respectively, and this electrolyzer. In the electrolyzed ionized water production apparatus comprising a pair of storage tanks for storing the alkaline ionized water and the acidic ionized water respectively sent out from the respective derivation pipes, and a control device for controlling the operation of the electrolyzer, A pair of large-diameter conduits having a diameter larger than that of the pipes and connected to the outflow ends of the respective outlet pipes so as to communicate with the outflow ends of the respective discharge tanks and projecting the upper ends thereof from below the water surface toward the upper space are provided. In this case, the electrolysis device is provided with a water storage tank for storing the raw water, a pump for feeding the raw water in the water storage tank, and both storage tanks are arranged above the electrolysis device. It is desirable to do.

【0005】[0005]

【発明の作用効果】本発明による電解イオン水生成装置
においては、電解装置から各導出管を通してそれぞれ送
出されたアルカリ性イオン水と酸性イオン水が各大径導
管を通して各貯溜タンクに流入し、その際に、各流入イ
オン水が各大径導管内にて各導出管内より流速を遅くさ
れ、各大径導管中にて各流入イオン水中に気泡化されて
混入している各ガスが気液分離されて各大径導管の上端
開口から上部空間に放出されるとともに、各流入イオン
水が各大径導管の上端開口から溢れて同管の周囲を水幕
状に流下し波立ちのない静かな状態で各貯溜タンク内の
各イオン水中に流れ込む。したがって、各貯溜タンク内
の各イオン水の撹拌による劣化が抑制される。
In the electrolytic ionized water producing apparatus according to the present invention, the alkaline ionized water and the acidic ionized water, which are respectively sent out from the electrolyzing apparatus through the respective outlet pipes, flow into the respective storage tanks through the large diameter conduits, at that time. In addition, the flow velocity of each inflowing ion water is slower in each large-diameter pipe than in each outflow pipe, and each gas that has been bubbled and mixed in each inflowing ion water in each large-diameter pipe is separated into gas and liquid. Is discharged from the upper opening of each large-diameter conduit to the upper space, and each inflowing ion water overflows from the upper opening of each large-diameter conduit and flows down like a water curtain around the same pipe in a quiet state without waviness. Pour into each ionized water in each storage tank. Therefore, deterioration due to agitation of each ion water in each storage tank is suppressed.

【0006】また、前記電解装置が前記原水を貯える貯
水タンクを備えるとともに同貯水タンク内の原水を給送
するポンプを備え、前記両貯溜タンクが前記電解装置よ
り上方に配設される構成を採用した場合には、ポンプの
停止によって各大径導管と各導出管の内部に残った水が
貯水タンクに向けて逆流する作用が得られるため、この
逆流を利用して逆電洗浄(制御装置により電解装置の両
電極にイオン水生成時とは逆の電圧を印加して行う洗
浄)を行うことが可能であり、各大径導管によって逆流
水量を十分に確保することができる。
Further, the electrolysis apparatus is provided with a water storage tank for storing the raw water, a pump for feeding the raw water in the water storage tank, and both storage tanks are arranged above the electrolysis apparatus. In this case, when the pump is stopped, the water remaining inside the large-diameter conduits and the outlet pipes will flow back to the water storage tank. Cleaning can be performed by applying a voltage opposite to that at the time of ionized water generation to both electrodes of the electrolyzer), and a sufficient amount of backflow water can be secured by each large-diameter conduit.

【0007】[0007]

【実施例】以下に、本発明の一実施例を図面に基づいて
説明する。図1は本発明による電解イオン水生成装置を
示していて、この電解イオン水生成装置は原水(水道
水)を所要量貯える貯水タンク10を備えている。貯水
タンク10は、制御装置100に接続された水位センサ
11(上限水位と下限水位を検出するもの)を内部に備
えていて、この水位センサ11からの信号により給水管
19に設けた電磁開閉弁V1が開閉されて貯水タンク1
0内の水位が所定の範囲に維持されるように構成されて
いる。また、貯水タンク10にはオーバーフローパイプ
12が設けられるとともに、電解槽30の両流入口31
a,31bに分岐して接続される接続管13が取付けら
れていて、接続管13には制御装置100によって作動
を制御される電動ポンプP1と手動で調整可能な流量調
整バルブV2,V3がそれぞれ介装されていて、略同量
の原水が接続管13を通して電解槽30の両流入口31
a,31bに供給されるように構成されている。また、
貯水タンク10には同タンク内の原水に混入している炭
酸(電解性能を阻害するもの)を除去するための循環撹
拌電動ポンプP2とパイプ14が取付けられるとともに
電動吸引ファン15が上蓋10a(気密的かつ脱着可能
に取付けられている)に取付けられていて、電動ポンプ
P2と電動吸引ファン15は所定の周期で同時に駆動さ
れるように構成されている。また、給水管19は浄水器
18を介して水道(図示省略)に接続されている。な
お、水道水に含まれる炭酸が少ない場合には、循環撹拌
電動ポンプP2とパイプ14と電動吸引ファン15を省
略して実施する。
An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 shows an electrolytic ion water generator according to the present invention, which is provided with a water storage tank 10 for storing a required amount of raw water (tap water). The water storage tank 10 has a water level sensor 11 (which detects an upper limit water level and a lower limit water level) connected to the control device 100 therein, and an electromagnetic opening / closing valve provided in the water supply pipe 19 by a signal from the water level sensor 11. V1 is opened and closed to hold water tank 1
The water level within 0 is configured to be maintained within a predetermined range. Further, the water storage tank 10 is provided with an overflow pipe 12, and both inlets 31 of the electrolytic cell 30 are provided.
A connecting pipe 13 branched and connected to a and 31b is attached to the connecting pipe 13, and an electric pump P1 whose operation is controlled by the control device 100 and manually adjustable flow rate adjusting valves V2 and V3, respectively. Almost the same amount of raw water is provided through the connecting pipe 13 and both inlets 31 of the electrolytic cell 30.
a, 31b. Also,
The water storage tank 10 is equipped with a circulating stirring electric pump P2 and a pipe 14 for removing carbonic acid (which hinders electrolytic performance) mixed in the raw water in the water storage tank 10, and an electric suction fan 15 is installed on the upper lid 10a (airtight). The electric pump P2 and the electric suction fan 15 are simultaneously driven in a predetermined cycle. Further, the water supply pipe 19 is connected to a water supply (not shown) via a water purifier 18. When the tap water contains a small amount of carbonic acid, the circulation stirring electric pump P2, the pipe 14 and the electric suction fan 15 are omitted.

【0008】電解槽30は、一対の流入口31a,31
bと一対の流出口31c,31dを有する槽本体31
と、この槽本体31内に対向配設した一対の電極32,
33と、これら両電極32,33間に配設されて各電極
32,33を収容する各電極室34,35を形成する隔
膜36によって構成されていて、各電極32,33とし
てはチタン基材の表面に白金メッキ或いは白金イリジウ
ムを焼成してなるものが採用され、また左方の電極室3
4には流入口31aと流出口31cが連通し、右方の電
極室35には流入口31bと流出口31dが連通してい
る。また、各流出口31c,31dには各導出管37,
38が接続されていて、各導出管37,38は上端にて
上方に配設した各貯溜タンク40,50の底壁にそれぞ
れ接続されている。
The electrolytic cell 30 includes a pair of inlets 31a, 31
tank body 31 having b and a pair of outlets 31c and 31d
And a pair of electrodes 32 disposed opposite to each other in the tank body 31,
33 and a diaphragm 36 disposed between the electrodes 32, 33 to form electrode chambers 34, 35 for accommodating the electrodes 32, 33. The electrodes 32, 33 are made of titanium base material. The surface of the electrode is platinum plated or platinum iridium is fired, and the electrode chamber 3 on the left side is used.
4, an inflow port 31a and an outflow port 31c communicate with each other, and an electrode chamber 35 on the right side communicates with an inflow port 31b and an outflow port 31d. In addition, the outlet pipes 37,
38 is connected, and the outlet pipes 37, 38 are respectively connected to the bottom walls of the storage tanks 40, 50 arranged above at the upper ends thereof.

【0009】各電極32,33は電極切換器110を介
して電源回路120に接続されている。電極切換器11
0は、制御装置100からの信号に応じて両電極32,
33に印加される直流電圧の正逆を切り換えるものであ
り、図1の仮想線で示した状態にて制御装置100から
正電信号を受けたとき実線の状態に切り替わって電源回
路120のマイナス電極を電極32に接続するとともに
プラス電極を電極33に接続し、また図1の実線で示し
た状態にて制御装置100から逆電信号を受けたときに
仮想線の状態に切り替わって電源回路120のマイナス
電極を電極33に接続するとともにプラス電極を電極3
2に接続するようになっている。電源回路120は交流
電圧を所定値の直流電圧に変換するものであり、制御装
置100からOFF信号を受けたときにはマイナス電極
とプラス電極間の直流電圧がゼロとなるように、また制
御装置100からON信号を受けたときにはマイナス電
極とプラス電極間に所定値の直流電圧が印加されるよう
になっている。
The electrodes 32 and 33 are connected to a power supply circuit 120 via an electrode switch 110. Electrode changer 11
0 represents both electrodes 32, in response to a signal from the control device 100.
The DC voltage applied to the switch 33 is switched between normal and reverse, and when a positive electric signal is received from the control device 100 in the state shown by the phantom line in FIG. Is connected to the electrode 32, the positive electrode is connected to the electrode 33, and when a reverse signal is received from the control device 100 in the state shown by the solid line in FIG. The negative electrode is connected to the electrode 33 and the positive electrode is connected to the electrode 3.
It is designed to connect to 2. The power supply circuit 120 is for converting an AC voltage into a DC voltage having a predetermined value, so that when the OFF signal is received from the control device 100, the DC voltage between the negative electrode and the positive electrode becomes zero, and from the control device 100. When receiving the ON signal, a DC voltage having a predetermined value is applied between the minus electrode and the plus electrode.

【0010】左方の貯溜タンク40は、アルカリ性イオ
ン水を所要量貯える小容量タンクであり、水位センサ4
1(上限水位と下限水位を検出するもの)とオーバーフ
ローパイプ42(図示省略の排水路に接続されている)
が設けられるとともに手動で開閉可能な排水弁43とオ
ーバーフローパイプ42に接続された排水管44が設け
られている。また、貯溜タンク40には、導出管37よ
り通路径が大径で上端部を貯溜タンク40内の水面下か
ら上部空間R1に向けて突出させてなる大径導管45が
導出管37の上端開口に対応して配設されて導出管37
の上端(流出端)に連通接続されるとともに、大径導管
45の上端開口に対応してフロートスイッチ46が配設
されている。また、貯溜タンク40の底壁には連通管4
7の一端が接続されていて、この連通管47は本体90
の外側に取付けた手動で開閉可能な止水弁48と連通管
49を通して補助タンク60に接続されている。
The storage tank 40 on the left side is a small capacity tank for storing a required amount of alkaline ionized water, and the water level sensor 4
1 (which detects the upper limit water level and the lower limit water level) and the overflow pipe 42 (connected to a drainage channel not shown)
Is provided, and a drain valve 43 that can be opened and closed manually and a drain pipe 44 connected to the overflow pipe 42 are provided. Further, in the storage tank 40, a large-diameter conduit 45 having a passage diameter larger than that of the outlet pipe 37 and having an upper end projecting from below the water surface in the reservoir tank 40 toward the upper space R1 is opened at the upper end of the outlet pipe 37. Corresponding to the outlet pipe 37
A float switch 46 is provided so as to be connected to the upper end (outflow end) of the same and to correspond to the upper end opening of the large-diameter conduit 45. Further, the communication pipe 4 is provided on the bottom wall of the storage tank 40.
7, one end of which is connected, and the communication pipe 47 is connected to the main body 90.
It is connected to the auxiliary tank 60 through a water shutoff valve 48 that can be opened and closed manually and a communication pipe 49 that is attached to the outside of the.

【0011】一方、右方の貯溜タンク50は、酸性イオ
ン水を所要量貯える小容量タンクであり、水位センサ5
1(上限水位と下限水位を検出するもの)とオーバーフ
ローパイプ52(図示省略の排水路に接続されている)
が設けられるとともに手動で開閉可能な排水弁53とオ
ーバーフローパイプ52に接続された排水管54が設け
られている。また、貯溜タンク50には、導出管38よ
り通路径が大径で上端部を貯溜タンク50内の水面下か
ら上部空間R2に向けて突出させてなる大径導管55が
導出管38の上端開口に対応して配設されて導出管38
の上端(流出端)に連通接続されるとともに、大径導管
55の上端開口に対応してフロートスイッチ56が配設
されている。また、貯溜タンク50の底壁には連通管5
7の一端が接続されていて、この連通管57は本体90
の外側に取付けた手動で開閉可能な止水弁58と連通管
59を通して補助タンク70に接続されている。
On the other hand, the storage tank 50 on the right side is a small capacity tank for storing a required amount of acidic ionized water, and the water level sensor 5
1 (which detects the upper limit water level and the lower limit water level) and the overflow pipe 52 (which is connected to a drainage channel not shown)
And a drain valve 53 that can be opened and closed manually and a drain pipe 54 connected to the overflow pipe 52. Further, in the storage tank 50, a large-diameter conduit 55 having a passage diameter larger than that of the outlet pipe 38 and an upper end portion protruding from below the water surface in the storage tank 50 toward the upper space R2 is opened at the upper end of the outlet pipe 38. Corresponding to the outlet pipe 38
Is connected to the upper end (outflow end) of the float switch 56 and is provided with a float switch 56 corresponding to the upper end opening of the large-diameter conduit 55. Further, a communication pipe 5 is provided on the bottom wall of the storage tank 50.
7, one end of which is connected, and the communication pipe 57 is connected to the main body 90.
It is connected to the auxiliary tank 70 through a water shutoff valve 58 that can be opened and closed manually and a communication pipe 59 that is attached to the outside.

【0012】各貯溜タンク40,50に設けた各水位セ
ンサ41,51と各フロートスイッチ46,56は、各
タンク40,50の上蓋40a,50a(脱着可能で図
示省略の通気孔を有する)に取付けられていて、本体9
0の脱着可能な上蓋90aを外しかつ各タンク40,5
0の上蓋40a,50aを外すことにより、容易に保守
点検できるように構成されている。また、各水位センサ
41,51と各フロートスイッチ46,56は制御装置
100にそれぞれ接続されていて、各水位センサ41,
51と各フロートスイッチ46,56からの信号に基づ
いて電動ポンプP1、電極切換器110、電源回路12
0等の作動が制御されるように構成されている。なお、
各フロートスイッチ46,56は水流検出センサとして
使用されている。
The water level sensors 41 and 51 and the float switches 46 and 56 provided in the storage tanks 40 and 50 are attached to the upper lids 40a and 50a of the tanks 40 and 50 (removable and have vent holes (not shown)). Installed, body 9
0 removable lid 90a is removed and each tank 40, 5
By removing the upper lids 40a and 50a of 0, maintenance and inspection can be easily performed. Further, the water level sensors 41, 51 and the float switches 46, 56 are connected to the control device 100, respectively.
The electric pump P1, the electrode switching device 110, and the power supply circuit 12 based on the signals from 51 and the float switches 46 and 56.
The operation such as 0 is controlled. In addition,
Each float switch 46, 56 is used as a water flow detection sensor.

【0013】左方の補助タンク60は、左方の貯溜タン
ク40と同様にアルカリ性イオン水を貯えるものであ
り、上蓋60aに通気孔(図示省略)を有していて、左
方の貯溜タンク40の許容上限水位、すなわちオーバー
フローパイプ42の上端より所要量上方まで貯溜可能と
なるように配置されており、底壁には電動ポンプP3を
介装した供給管61と手動で開閉可能な排水弁62を介
装した排水管63が取付けられている。一方、右方の補
助タンク70は、右方の貯溜タンク50と同様に酸性イ
オン水を貯えるものであり、上蓋70aに通気孔(図示
省略)を有していて、左方の貯溜タンク50の許容上限
水位、すなわちオーバーフローパイプ52の上端より所
要量上方まで貯溜可能となるように配置されており、底
壁には電動ポンプP4を介装した供給管71と手動で開
閉可能な排水弁72を介装した排水管73が取付けられ
ている。各電動ポンプP3,P4は、各供給管61,7
1の供給側端部に設けた各スイッチ(図示省略)に連動
して作動するように構成されている。なお、各電動ポン
プP3,P4と各供給管61,71と各排水弁62,7
2と各排水管63,73は仮想線にて示したように各連
通管49,59に接続することも可能であり、かかる場
合には各補助タンク60,70に設けるポートを単一と
してシンプルな構成とすることができる。
The left auxiliary tank 60 stores alkaline ionized water similarly to the left storage tank 40, has a vent hole (not shown) in the upper lid 60a, and has a left storage tank 40. The upper limit of the overflow pipe 42, that is, the upper limit of the overflow pipe 42, is arranged so that the required amount of water can be stored above the bottom wall. A drainage pipe 63 having an intermediate part is attached. On the other hand, the right auxiliary tank 70 stores acidic ionized water in the same manner as the right storage tank 50, and has a vent hole (not shown) in the upper lid 70a, so that the left storage tank 50 has The upper limit of the overflow pipe 52, that is, the upper limit of the overflow pipe 52, is arranged so that the required amount of water can be stored above, and the bottom wall is provided with a supply pipe 71 with an electric pump P4 interposed and a drain valve 72 that can be opened and closed manually. An inserted drainage pipe 73 is attached. The electric pumps P3, P4 are connected to the supply pipes 61, 7 respectively.
It is configured to operate in conjunction with each switch (not shown) provided at the end of the supply side of No. 1. In addition, each electric pump P3, P4, each supply pipe 61, 71, and each drain valve 62, 7
2 and each drainage pipe 63, 73 can also be connected to each communication pipe 49, 59 as shown by the phantom line. In such a case, a single port is provided for each auxiliary tank 60, 70, which is simple. It can be configured in various ways.

【0014】上記のように構成した本実施例において
は、補助タンク60内のアルカリ性イオン水または補助
タンク70内の酸性イオン水が使用により減少して各補
助タンク60,70内の水位が低下すると、各貯溜タン
ク40,50内の水位も同様に低下し、その水位が下限
水位に至ると各水位センサ41,51からの信号に基づ
いて制御装置100が電動ポンプP1と電極切換器11
0と電源回路120を制御し、電動ポンプP1が駆動さ
れるとともに、電極切換器110が実線状態に維持され
電源回路120がON信号を受けてマイナス電極とプラ
ス電極間に所定値の直流電圧が印加されて電解槽30の
両電極32,33に正電圧印加される。
In this embodiment constructed as described above, when the alkaline ionized water in the auxiliary tank 60 or the acidic ionized water in the auxiliary tank 70 is reduced by use, the water level in each of the auxiliary tanks 60, 70 is lowered. Similarly, the water level in each storage tank 40, 50 also drops, and when the water level reaches the lower limit water level, the control device 100 causes the electric pump P1 and the electrode switching device 11 to operate based on the signals from the water level sensors 41, 51.
0 and the power supply circuit 120 are controlled, the electric pump P1 is driven, the electrode switch 110 is maintained in the solid line state, the power supply circuit 120 receives an ON signal, and a DC voltage of a predetermined value is applied between the negative electrode and the positive electrode. A positive voltage is applied to both electrodes 32 and 33 of the electrolytic cell 30.

【0015】このため、貯水タンク10内の原水が電動
ポンプP1と接続管13と各流量調整バルブV2,V3
を通して電解槽30の各電解室34,35に供給される
とともに、原水が電解槽30内で電気分解されて、マイ
ナス側電極32の電極室34からは水酸イオンが増加し
たアルカリ性イオン水が導出管37と大径導管45を通
して貯溜タンク40内に貯えられ、またプラス側電極3
3の電極室35からは水素イオンが増加した酸性イオン
水が導出管38と大径導管55を通して貯溜タンク50
内に貯えられる。
Therefore, the raw water in the water storage tank 10 is the electric pump P1, the connecting pipe 13, and the flow rate adjusting valves V2 and V3.
Is supplied to each of the electrolysis chambers 34 and 35 of the electrolyzer 30, and the raw water is electrolyzed in the electrolyzer 30, and the alkaline ionized water in which the hydroxide ions are increased is derived from the electrode chamber 34 of the negative electrode 32. It is stored in the storage tank 40 through the pipe 37 and the large-diameter conduit 45, and the positive electrode 3
From the electrode chamber 35 of No. 3, acidic ionized water with increased hydrogen ions is passed through the outlet pipe 38 and the large-diameter conduit 55 to the storage tank 50.
Stored in.

【0016】ところで、各大径導管45,55では、各
イオン水の流速が遅くされてゆっくりと上昇し、アルカ
リ性イオン水に含まれる水素ガスと酸性イオン水に含ま
れる酸素ガスが各イオン水から分離されて各大径導管4
5,55の上端から各貯溜タンク40,50の上部空間
R1,R2に放出され、また各イオン水は各大径導管4
5,55の上端開口から溢れて管の周囲を水幕状に流下
し波立ちのない静かな状態で各貯溜タンク40,50内
の各イオン水中に流れ込む。したがって、各貯溜タンク
40,50内の各イオン水の撹拌による劣化が抑制され
る。なお、電動ポンプP1が駆動を開始されかつ両電極
32,33への正電圧印加が開始された後、設定時間経
過しても両フロートスイッチ46,56が作動しない場
合には、両イオン水が正常に流れていないと判断して制
御装置100が電動ポンプP1の駆動を停止させるとと
もに両電極32,33への正電圧印加を停止させるよう
になっている。
By the way, in each of the large-diameter conduits 45 and 55, the flow velocity of each ionized water is slowed and slowly rises, and hydrogen gas contained in alkaline ionized water and oxygen gas contained in acidic ionized water are discharged from each ionized water. Separated for each large-diameter conduit 4
5, 55 are discharged from the upper ends of the storage tanks 40, 50 into the upper spaces R1, R2 of the storage tanks 40, 50.
It overflows from the upper end openings of 5, 55 and flows down around the pipe like a water curtain, and flows into each ionized water in each storage tank 40, 50 in a quiet state without waviness. Therefore, deterioration due to agitation of each ionized water in each storage tank 40, 50 is suppressed. After the electric pump P1 is started to be driven and the positive voltage is applied to both electrodes 32 and 33, if both float switches 46 and 56 do not operate even after a set time elapses, both ionized water is discharged. When it is determined that the electric current does not flow normally, the control device 100 stops driving the electric pump P1 and stops applying a positive voltage to both electrodes 32 and 33.

【0017】上記した正電圧印加によるイオン水生成作
動により貯水タンク10内の水位が設定範囲の下限に達
すると、水位センサ11が作動しこれに基づいて制御装
置100から電磁開閉弁V1に開弁信号が出力され、電
磁開閉弁V1が開かれて水道水が浄水器18と給水管1
9を通して貯水タンク10に補給される。かかる水道水
の補給により貯水タンク10内の水位が設定範囲の上限
に達すると、水位センサ11が作動しこれに基づいて制
御装置100から電磁開閉弁V1に閉弁信号が出力さ
れ、電磁開閉弁V1が閉じられ水道水の補給が止まる。
When the water level in the water storage tank 10 reaches the lower limit of the set range by the above-described operation of generating ionized water by applying the positive voltage, the water level sensor 11 operates and the controller 100 opens the solenoid opening / closing valve V1 based on this. A signal is output, the electromagnetic on-off valve V1 is opened, and tap water is supplied to the water purifier 18 and the water supply pipe 1.
It is supplied to the water storage tank 10 through 9. When the water level in the water storage tank 10 reaches the upper limit of the set range due to the replenishment of tap water, the water level sensor 11 operates, and based on this, the control device 100 outputs a valve closing signal to the electromagnetic on-off valve V1, and the electromagnetic on-off valve. V1 is closed and tap water supply is stopped.

【0018】また、上記した正電圧印加によるイオン水
生成作動により両方の貯溜タンク40,50内の水位が
設定範囲の上限に達して両水位センサ41,51が作動
すると、これに基づいて制御装置100が両電極32,
33への正電圧印加を停止させるものの、電動ポンプP
1の駆動を所定時間維持した後に停止させる。このた
め、電動ポンプP1が停止するときには各大径導管4
5,55の上端部位にまで電気分解されていない原水が
供給されることとなる。ところで、電動ポンプP1の停
止後には、制御装置100により電極切換器110にて
電極の接続が実線状態から仮想線状態に切り換えられて
電解槽30の電極32が電源回路60のプラス電極に接
続されるとともに電極33がマイナス電極に接続され、
また電源回路120が制御装置100からON信号を受
けてマイナス電極とプラス電極間に所定値の直流電圧が
所定時間印加されて、電解槽30の両電極32,33に
逆電圧印加され、各大径導管45,55と各導出管3
7,38から各電極室34,35に落差により原水が自
動的に供給される状態にて、いわゆる逆電洗浄がなされ
電極32からカルシウム,ナトリウム等付着物が剥離さ
れて原水とともに貯水タンク10に向けて電解槽30外
に排出される。なお、上記した電動ポンプP1の停止後
所定時間経過したときには、制御装置100により電源
回路120のマイナス電極とプラス電極間の直流電圧が
ゼロとされるとともに電極切換器110にて電極の接続
が仮想線状態から実線状態に切り換えられて電解槽30
の電極32が電源回路60のプラス電極に接続されると
ともに電極33がマイナス電極に接続され、再作動に備
える。
Further, when the water level in both storage tanks 40, 50 reaches the upper limit of the set range and both water level sensors 41, 51 are actuated by the above-mentioned operation of generating ionized water by applying the positive voltage, the control device is based on this. 100 is both electrodes 32,
Although the positive voltage application to 33 is stopped, the electric pump P
After the driving of No. 1 is maintained for a predetermined time, it is stopped. Therefore, when the electric pump P1 is stopped, each large-diameter conduit 4 is
The raw water that has not been electrolyzed is supplied to the upper end portions of 5, 55. By the way, after the electric pump P1 is stopped, the control device 100 switches the electrode connection from the solid line state to the virtual line state by the electrode switch 110, and the electrode 32 of the electrolytic cell 30 is connected to the positive electrode of the power supply circuit 60. And the electrode 33 is connected to the negative electrode,
Further, the power supply circuit 120 receives an ON signal from the control device 100, a direct current voltage of a predetermined value is applied for a predetermined time between the negative electrode and the positive electrode, and a reverse voltage is applied to both electrodes 32 and 33 of the electrolytic cell 30. Diameter conduits 45 and 55 and each outlet pipe 3
In a state where raw water is automatically supplied to the electrode chambers 34 and 35 from the electrodes 7, 38 by so-called reverse electrolysis cleaning, deposits such as calcium and sodium are peeled off from the electrodes 32 and the raw water is stored in the water storage tank 10. Toward the outside of the electrolytic cell 30. When a predetermined time has elapsed after stopping the electric pump P1 described above, the control device 100 sets the DC voltage between the negative electrode and the positive electrode of the power supply circuit 120 to zero, and the electrode switcher 110 virtually connects the electrodes. The electrolytic cell 30 is switched from the line state to the solid line state.
The electrode 32 is connected to the positive electrode of the power supply circuit 60, and the electrode 33 is connected to the negative electrode to prepare for re-operation.

【0019】ところで、本実施例においては、水位セン
サ41,51を内部に設けた各貯溜タンク40,50を
小容量タンクとし、貯溜タンク40,50の許容上限水
位より上方まで貯溜可能な補助タンク60,70を貯溜
タンク40,50に連通管47、49,57、59を通
して連通させたため、本体90内に貯溜タンク40,5
0をコンパクトに収納することができるとともに、貯溜
タンク40,50に設けた水位センサ41,51によっ
て補助タンク60,70の水位も同時に検出できる。し
たがって、本体90の外に配設される補助タンク60,
70に水位検出手段を設ける必要がなく、補助タンク6
0,70は何の制約もなく用途に応じて任意の容量に設
定でき、必要に応じて追加の補助タンクを容易に増設す
ることができて、製作性が極めて良い。
By the way, in this embodiment, the storage tanks 40 and 50 having the water level sensors 41 and 51 provided therein are small-capacity tanks, and auxiliary tanks capable of storing above the allowable upper limit water level of the storage tanks 40 and 50. Since 60 and 70 are communicated with the storage tanks 40 and 50 through the communication pipes 47, 49, 57 and 59, the storage tanks 40 and 5 are provided in the main body 90.
0 can be stored compactly, and the water levels of the auxiliary tanks 60 and 70 can be simultaneously detected by the water level sensors 41 and 51 provided in the storage tanks 40 and 50. Therefore, the auxiliary tank 60 disposed outside the main body 90,
It is not necessary to provide a water level detecting means in 70, and the auxiliary tank 6
0 and 70 can be set to an arbitrary capacity according to the application without any restriction, and an additional auxiliary tank can be easily added as needed, and the manufacturability is extremely good.

【0020】また、本実施例においては、貯溜タンク4
0,50に排水弁43,53と排水管44,54を設け
て貯溜水を全排水可能とし、補助タンク60,70と貯
溜タンク40,50との連通管47、49,57、59
に止水弁48,58を介装し、止水弁48,58より補
助タンク側に供給管61,71を設けたため、止水弁4
8,58を止めることにより補助タンク60,70内の
貯溜水を使用しながら、排水弁43,53を開いて貯溜
タンク40,50内の貯溜水を全排水させて水位センサ
41,51とフロートスイッチ46,56の保守点検お
よび貯溜タンク40,50内の掃除を行うことができ、
水及び電力の浪費を最小限に抑えながら水位センサ4
1,51とフロートスイッチ46,56の保守点検およ
び貯溜タンク40,50内の掃除を短時間に行うことが
できる。
Further, in this embodiment, the storage tank 4
The drainage valves 43 and 53 and the drainage pipes 44 and 54 are provided at 0 and 50 to enable the total drainage of the stored water, and the communication pipes 47, 49, 57 and 59 between the auxiliary tanks 60 and 70 and the storage tanks 40 and 50.
Since the water shutoff valves 48 and 58 are provided in the water supply pipes and the supply pipes 61 and 71 are provided on the auxiliary tank side of the water shutoff valves 48 and 58,
By using the stored water in the auxiliary tanks 60, 70 by stopping 8, 58, the drain valves 43, 53 are opened to completely drain the stored water in the storage tanks 40, 50, and the water level sensors 41, 51 and the float. Maintenance and inspection of the switches 46 and 56 and cleaning of the storage tanks 40 and 50 can be performed,
Water level sensor 4 while minimizing waste of water and power
Maintenance and inspection of 1, 51 and the float switches 46, 56 and cleaning of the storage tanks 40, 50 can be performed in a short time.

【0021】上記実施例においては、水道水を原水とし
て本発明を実施したが、例えば特開平4−75576号
公報に示されている装置によって得られる食塩水を原水
として本発明を実施することも可能である。また、単一
の電動ポンプP1により電解槽10に原水がそれぞれ供
給されるように構成して本発明を実施したが、一対のの
電動ポンプにより電解槽10に原水がそれぞれ供給され
るように構成して本発明を実施することも可能である。
また、上記実施例においては、両貯溜タンク40,50
に対応して両補助タンク60,70を設けて本発明を実
施したが、何れか一方のタンク(必要としない方)を省
略して実施することも可能である。なお、上記実施例の
本体90に収納された構成、すなわち貯水タンク10,
電動ポンプP1,電解槽30,電極切換器110及び電
源回路120等からなり制御装置100によって作動を
制御される電解装置と、この電解装置から送出されたア
ルカリ性イオン水と酸性イオン水をそれぞれ貯溜する両
貯溜タンク40,50を備えた電解イオン水生成装置は
補助タンク60,70を省略して使用することも可能で
あり、その場合には両止水弁48,58の配設位置に両
電動ポンプP3,P4と両供給管61,71を配設して
実施するのが望ましい。
In the above embodiments, the present invention was carried out using tap water as raw water, but the present invention may also be carried out using salt water obtained by the apparatus disclosed in Japanese Patent Laid-Open No. 4-75576 as raw water. It is possible. Further, although the present invention has been implemented in such a manner that the raw water is supplied to the electrolysis tank 10 by the single electric pump P1, the raw water is supplied to the electrolysis tank 10 by the pair of electric pumps. It is also possible to carry out the present invention.
Further, in the above embodiment, both storage tanks 40, 50 are
Although the present invention has been implemented by providing both auxiliary tanks 60 and 70 corresponding to the above, it is also possible to omit one of the tanks (the one that is not necessary) and implement the present invention. The structure housed in the main body 90 of the above embodiment, that is, the water storage tank 10,
An electrolysis device including an electric pump P1, an electrolysis tank 30, an electrode switching device 110, a power supply circuit 120, etc., the operation of which is controlled by a control device 100, and alkaline ionized water and acid ionized water sent from the electrolysis device are respectively stored. The electrolytic ionized water generator provided with both storage tanks 40 and 50 can be used without the auxiliary tanks 60 and 70. In that case, both electric water valves are installed at the positions where the both stop valves 48 and 58 are arranged. It is desirable that the pumps P3 and P4 and the two supply pipes 61 and 71 are provided for implementation.

【0022】また、上記実施例においては、各導出管3
7,38と各大径導管45,55を各貯溜タンク40,
50の底壁を介して連通接続したが、各貯溜タンク4
0,50の底壁より下方または上方にて各導出管37,
38と各大径導管45,55を直接に連通接続させて実
施することも可能である。また、上記実施例において
は、各貯溜タンク40,50の底壁を貫通するようにし
て、各導出管37,38と各大径導管45,55を設け
たが、各貯溜タンク40,50の周壁を貫通するように
して、各導出管37,38と各大径導管45,55を設
けて実施することも可能である。
Further, in the above embodiment, each outlet pipe 3
7, 38 and the large diameter conduits 45, 55 to the storage tanks 40,
Although connected through the bottom wall of 50, each storage tank 4
Each outlet pipe 37 below or above the bottom wall of 0, 50
It is also possible to directly connect 38 and the large diameter conduits 45, 55 to each other. Further, in the above embodiment, the outlet pipes 37, 38 and the large diameter conduits 45, 55 are provided so as to penetrate through the bottom walls of the respective storage tanks 40, 50. It is also possible to implement by providing the respective outlet pipes 37 and 38 and the large diameter conduits 45 and 55 so as to penetrate the peripheral wall.

【図面の簡単な説明】[Brief description of drawings]

【図1】 本発明による電解イオン水生成装置の一実施
例を示す図である。
FIG. 1 is a diagram showing an embodiment of an electrolytic ionized water generator according to the present invention.

【符号の説明】[Explanation of symbols]

10…貯水タンク、13…接続管、30…電解槽、3
2,33…電極、34,35…電極室、36…隔膜、3
7,38…導出管、40,50…貯溜タンク、41,5
1…水位センサ(水位検出手段)、42,52…オーバ
ーフローパイプ、43,53…排水弁、44,54…排
水管、45,55…大径導管、R1,R2…上部空間、
100…制御装置、110…電極切換器、120…電源
回路、P1…電動ポンプ。
10 ... Water tank, 13 ... Connection pipe, 30 ... Electrolyzer, 3
2, 33 ... Electrodes, 34, 35 ... Electrode chambers, 36 ... Diaphragm, 3
7, 38 ... Outlet pipe, 40, 50 ... Storage tank, 41, 5
1 ... Water level sensor (water level detection means), 42, 52 ... Overflow pipe, 43, 53 ... Drain valve, 44, 54 ... Drain pipe, 45, 55 ... Large diameter conduit, R1, R2 ... Upper space,
100 ... Control device, 110 ... Electrode changer, 120 ... Power supply circuit, P1 ... Electric pump.

Claims (2)

【特許請求の範囲】[Claims] 【請求項1】 供給される原水をアルカリ性イオン水と
酸性イオン水に電気分解してそれぞれ送出する電解装置
と、この電解装置から各導出管を通してそれぞれ送出さ
れたアルカリ性イオン水と酸性イオン水を貯溜する一対
の貯溜タンクと、前記電解装置の作動を制御する制御装
置とを備えてなる電解イオン水生成装置において、前記
各導出管より通路径が大径で前記各導出管の流出端にそ
れぞれ連通接続され上端部を前記各貯溜タンク内の水面
下から上部空間に向けて突出させてなる一対の大径導管
を設けたことを特徴とする電解イオン水生成装置。
1. An electrolyzer for electrolyzing the supplied raw water into alkaline ionic water and acidic ionic water and delivering the same, and a reservoir for the alkaline ionic water and acidic ionic water respectively delivered from the electrolyzing device through respective outlet pipes. A pair of storage tanks, and a controller for controlling the operation of the electrolyzer, wherein the electrolytic ionized water generator has a passage diameter larger than each of the outlet pipes and communicates with the outflow end of each of the outlet pipes. A pair of large-diameter conduits, which are connected and have their upper ends protruding from below the water surface in each of the storage tanks toward the upper space, are provided.
【請求項2】 前記電解装置が前記原水を貯える貯水タ
ンクを備えるとともに同貯水タンク内の原水を給送する
ポンプを備え、また前記両貯溜タンクが前記電解装置よ
り上方に配設されていることを特徴とする請求項1に記
載の電解イオン水生成装置。
2. The electrolyzer comprises a water storage tank for storing the raw water, a pump for feeding the raw water in the water storage tank, and both storage tanks are arranged above the electrolyzer. The electrolytic ion water generator according to claim 1.
JP03609194A 1994-03-07 1994-03-07 Electrolytic ionic water generator Expired - Fee Related JP3373285B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP03609194A JP3373285B2 (en) 1994-03-07 1994-03-07 Electrolytic ionic water generator

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP03609194A JP3373285B2 (en) 1994-03-07 1994-03-07 Electrolytic ionic water generator

Publications (2)

Publication Number Publication Date
JPH07241563A true JPH07241563A (en) 1995-09-19
JP3373285B2 JP3373285B2 (en) 2003-02-04

Family

ID=12460088

Family Applications (1)

Application Number Title Priority Date Filing Date
JP03609194A Expired - Fee Related JP3373285B2 (en) 1994-03-07 1994-03-07 Electrolytic ionic water generator

Country Status (1)

Country Link
JP (1) JP3373285B2 (en)

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2006122729A (en) * 2004-10-26 2006-05-18 Shimazaki Denki Kk Water filling part structure of water storage tank
JP2008126212A (en) * 2006-11-24 2008-06-05 Hoshizaki Electric Co Ltd Apparatus for producing electrolyzed water
WO2017077993A1 (en) * 2015-11-05 2017-05-11 株式会社日本トリム Electrolyzed water generation device, and hydrogen water server and device for producing water for dialysis solution preparation, both equipped with electrolyzed water generation device
WO2017077992A1 (en) * 2015-11-05 2017-05-11 株式会社日本トリム Hydrogen water server

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2006122729A (en) * 2004-10-26 2006-05-18 Shimazaki Denki Kk Water filling part structure of water storage tank
JP4540446B2 (en) * 2004-10-26 2010-09-08 島崎電機株式会社 Water injection part structure of the water tank
JP2008126212A (en) * 2006-11-24 2008-06-05 Hoshizaki Electric Co Ltd Apparatus for producing electrolyzed water
WO2017077993A1 (en) * 2015-11-05 2017-05-11 株式会社日本トリム Electrolyzed water generation device, and hydrogen water server and device for producing water for dialysis solution preparation, both equipped with electrolyzed water generation device
WO2017077992A1 (en) * 2015-11-05 2017-05-11 株式会社日本トリム Hydrogen water server
JP2017087109A (en) * 2015-11-05 2017-05-25 株式会社日本トリム Hydrogen water server
JP2017087110A (en) * 2015-11-05 2017-05-25 株式会社日本トリム Electrolytic water generator, hydrogen water server provided therewith and method for producing water for dialysis liquid preparation
KR20180078224A (en) * 2015-11-05 2018-07-09 가부시키가이샤니혼트림 An electrolytic water producing device, a water-containing server having the electrolytic water producing device, and a manufacturing device of a dialysis liquid preparing water

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