555698 A7 B7 五、發明說明(l ) 〔發明所屬之技術領域〕 β 本發明,係關於不受使用原水的水質影響之貯置型強 電解水生成裝置者。 〔習知技藝〕 已有在自來水等的原水將食鹽等電解質以一定比例添 加而導入密閉之電解槽,在經由電解槽內的離子滲透性隔 膜分離之極室的陰陽極間把直流電流通電,進行水之電解 及離子滲透作用,在陰極側生成陰極水,而在陽極側生成 陽極水,把陰極水排水,而將陽極水做爲殺菌性水使用之 強電解水生成裝置。 強電解水做爲消毒,殺菌水有效,係眾所周知之事β 例如,在特開平6 - 2 9 2 7 1 1號公報,係把在原水添 加食鹽所生成的低Ρ Η之陽極水,做爲具有消毒,殺菌水 有效者。而且,在該強電解水因未投入如有機殺菌液的具 有殺菌性之藥劑,故不含有害的物質,因無藥劑之殘留性 故成爲可靠的消害,殺菌水。 要連續地生成如此的強電解水,必須對自來水等原水 經常補給電解質如食鹽,而且,需要配合原水的性質,把 電解質以一定之比例添加等複雜之操作。 本來,原水的組成就不固定。不僅將由地域性,亦即 由該地區之氣象條件會變化,由於季節,時間帶也將時時 刻刻變化。自來水等原水幾乎全部都是來自河川等的地表 水,係海水蒸發成兩水而浸漬在地下者。因此,在蒸發之 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) -ϋ ϋ Βϋ I ϋ ϋ n ϋ a— I I · ϋ ϋ (請先閱讀背面之注意事項寫本頁) 訂: 經濟部智慧財產局員工消费合作社印製 555698 Α7 _ Β7 五、發明說明) 過程在海水中所含有的物質,將和蒸發一起式由飛散而混 入,被包含在上述原水中。並且,在地下從岩石等溶出之 成份也被包含在內。在原水等,包含有如此的成因之各種 離子,例如,氯離子和硫酸根離子等的陰離子式鈉和鐵等 之陽離子。而且,已知爲了殺菌而添加氯。被添加的氯之 一部份將離解,而生成氯離子式次氯酸離子。此等物質也 溶解在原水,其溶解度係經常變動。 對如此經常變動的原水,即使將電解質以一定之比例 添加,原水的傳導度也很少會固定成一定,電解之結果生 成的電解吐水,也不會固定爲一定之性狀,而將不斷地變 化。因此,在吐水配管設置0 R P計式P Η計等測定器, 以手動式控制電路控制在所希望的電解度之範圍,把所定 範圍的吐水供爲利用,而且把所希望之電解度以外的吐水 排出。如此地,因已往之強電解水生成裝置設有各種測定 裝置,故價格成爲昂貴,難以做爲家庭用被使用。 一方面,在家庭中,被希望做爲例如,切菜板和餐具 洗•淨,抹布的洗淨和洗手用,嗽口用之消毒,殺菌水,能 夠使用容易被製造,而不會藥液之強電解水。 〔發明所要解決之課題〕 因此,本發明係爲了使原水的性狀一定,將原水和食 鹽事先混合,設置能夠收容混合的高導電水之保存槽,和 經由感知從該槽流出的高導電水之水位察覺器,和未使用 時關閉而通電時將開放的通電時開放型電磁閥,把高導電 (請先閲讀背面之注意事項SRk 寫本頁) 經濟部智慧財產局員工消费合作社印製 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公爱) -5- 555698 A7 B7 五、發明說明6 ) 的水壓動作型流量控制閥。 (請先閱讀背面之注意事項@寫本頁) 〔發明之實施例〕 在本發明,被供給電解槽的高導電水,係由在原水混 合所定之氯化鹼化合物,以其傳導性被保持略一定的狀態 保存在保存槽。從保存槽排出至電解槽之高導電水,將由 配設在槽下方部的水位察覺器被確認其有無,對應在配管 流動的流量之電流,將被施加在電解槽的陰陽極間。結果 ,從電解槽被吐出的電解液之電解度將成爲一定。更且, 配設在水位察覺器和電解槽間的通電時開放型電磁閥,由 於在非通電時或電源切斷時將關閉,僅在通電時開放,故 僅在通電時槽內之高導電水將被供給電解槽,能夠把所定 量的電解水吐出在產生裝置所設之承接容器載置空間載置 的承接容器。 〔實施例〕 經濟部智慧財產局員工消費合作社印製 第1圖及第2圖係關於本發明的貯置型強電解水產生 裝置之動作說明圖及主要部份斜視圖。 1係高導電水的保存槽,將被供給電解槽之高導電水 ,係在原水混合所定的氯化鹼化合物,使其導電度將成爲 略一定地被生成。例如,在自來水等原水事先溶解1 0 0 〜1,OOOppm之食鹽。以如此的所定濃度之高導電 水被貯水在保存槽的狀態,裝置將成爲能夠使用狀態。 2係濾網,而3爲水位察覺器。水位察覺器係爲了僅 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公爱) 經濟部智慧財產局員工消费合作社印製 555698 A7 B7 五、發明說明6 ) 在僅在保存槽有前述高導電水存在時才使機器動作’和計 量高導電水的傳導性者,由相鄰之2張金屬片構成。4係 通電時開型電磁閥,在非通電時將關閉’僅在通電時開放 。5係電解槽,以離子透過性隔膜6分隔,具有插入陰電 極7的陰極室8和插入陽電極9之陽極室1 0,爲了在陰 陽電極間施加直流電壓而把導入電解槽5的高導電水電解 用者。1 1係排洩旋塞,和從水位察覺器至通電時開型電 磁閥的配管12,電解槽5之底部配管13,以及’通電 時開型電磁閥4的電解槽側端連結,能夠把在該部之高導 電水以排水口 1 8排水者。1 4及1 5爲陰極室8及陽極 室1 0的吐水□,在裝置內開口。1 6係控制電路,控制 電路1 6將接收從前述水位察覺器3之資訊信號,而且將 進行通電時開型電磁閥4,電解槽5的通電控制。並且, 至少附設有裝置之動作開關,顯示燈等。1 7係爲了把電 力供給向電解槽5施加電流用的控制系統用之變壓器,該 電源將以商業電力被供給。再者,1 9係防止由虹吸作用 的電解槽內之吐水的脫氣配管,除了圖示構成外也可以從 電解槽本身開孔而脫氣。 現在,將所定量的高導電水保存在保存槽1,使通電 時開型電磁閥成爲開狀態,亦即,做爲電解水產生狀態時 ,高導電水將經由通電時開型電磁閥4從底部配管13流 至電解槽5,由施加在陰陽電極間的直流電流被電解,陰 極水將從陰極室吐水口,而陽極水將從陽極室吐水□,從 各別之吐水口 1 4及1 5吐水。此等將被承接在各別的承 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) •8-555698 A7 B7 V. Description of the invention (l) [Technical field to which the invention belongs] β The present invention relates to a storage type strong electrolyzed water generating device that is not affected by the water quality of raw water. [Know-how] Already, electrolytes such as table salt have been added to a sealed electrolytic cell in raw water such as tap water at a certain ratio, and a direct current is passed between the anode and the anode of the electrode compartment separated by the ion-permeable membrane in the electrolytic cell. The electrolysis and ion penetration of water are used to generate cathode water on the cathode side and anode water on the anode side to drain the cathode water and use the anode water as a strong electrolyzed water generator for sterilizing water. Strongly electrolyzed water is effective for disinfection and sterilization. It is a well-known thing. For example, in Japanese Unexamined Patent Publication No. 6-2 9 2 7 1 1, low-P 阳极 anode water produced by adding salt to raw water is used as Have effective disinfection and sterilization water. In addition, since strong germicidal agents such as organic germicidal liquid are not added to this strong electrolytic water, no harmful substances are contained, and since there is no residual property of the medicament, it becomes a reliable disinfection and germicidal water. In order to continuously generate such strong electrolyzed water, the raw water such as tap water must be frequently replenished with electrolytes such as salt, and complex operations such as adding electrolytes at a certain ratio must be matched with the properties of the raw water. Originally, the composition of raw water was not fixed. Not only will it vary by region, but also by the weather conditions in the area, and the time zone will change every moment due to the season. Almost all raw water, such as tap water, comes from surface water such as rivers. The seawater evaporates into two waters and is submerged in the ground. Therefore, the national paper standard (CNS) A4 (210 X 297 mm) is applicable to the paper size of the evaporation paper. -Ϋ ϋ Βϋ I ϋ ϋ n ϋ a— II · ϋ ϋ (Please read the precautions on the back first to write this page ) Order: Printed by the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs 555698 Α7 _ B7 V. Description of the invention) The substances contained in the seawater will be dispersed by evaporation together with evaporation and included in the above raw water. In addition, components dissolved from rocks and the like under the ground are also included. Raw water and the like contain various ions of this cause, for example, anions of sodium and iron, and cations such as chloride and sulfate. Furthermore, it is known to add chlorine for sterilization. Part of the added chlorine will dissociate and generate chloride ion hypochlorite ion. These substances are also dissolved in raw water, and their solubility often changes. For raw water that is constantly changing, even if the electrolyte is added at a certain ratio, the conductivity of the raw water is rarely fixed to a certain level, and the electrolytic spouting water generated as a result of the electrolysis will not be fixed to a certain property and will continue to change. . Therefore, a measuring device such as a 0 RP meter type P meter is installed in the spouting pipe, and a manual control circuit is used to control the range of the desired degree of electrolysis to supply the spouted water in a predetermined range for use. Spit water is discharged. As described above, since the conventional strong electrolyzed water generating device is provided with various measuring devices, the price is expensive and it is difficult to use it for domestic use. On the one hand, in the home, it is expected to be used for example, washing and cutting board and tableware, washing and washing of rags, disinfection of mouthwash, sterilizing water, can be used easily and can be manufactured without medicinal solution Strong electrolyzed water. [Problems to be Solved by the Invention] Therefore, in order to make the properties of raw water constant, the present invention mixes raw water and table salt in advance, and provides a storage tank capable of accommodating the mixed highly conductive water, and a highly conductive water flowing out of the tank through sensing. Water level sensor, and solenoid valve that is open when power is turned on when not in use and open when power is on, is highly conductive (please read the precautions on the back SRk first to write this page) Printed by the Intellectual Property Bureau of the Ministry of Economic Affairs and Consumer Cooperatives The standard applies to China National Standard (CNS) A4 specifications (210 X 297 public love) -5- 555698 A7 B7 V. Description of invention 6) Hydraulic pressure-operated flow control valve. (Please read the precautions on the back @write this page) [Example of the invention] In the present invention, the highly conductive water supplied to the electrolytic cell is a predetermined alkali chloride compound mixed with raw water, and its conductivity is maintained. The slightly fixed state is stored in the storage tank. The highly conductive water discharged from the storage tank to the electrolytic cell will be confirmed by a water level detector arranged below the tank, and a current corresponding to the flow rate flowing through the piping will be applied between the cathode and the anode of the electrolytic cell. As a result, the degree of electrolysis of the electrolytic solution discharged from the electrolytic cell becomes constant. In addition, the open-type solenoid valve provided between the water level sensor and the electrolytic cell is closed when the power is not applied or when the power is turned off, and is opened only when the power is applied. Therefore, the high conductivity in the tank is performed only when the power is applied. Water will be supplied to the electrolytic tank, and the amount of electrolyzed water can be discharged from the receiving container placed in the receiving container mounting space provided in the generating device. [Example] Printed by the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs Figures 1 and 2 are diagrams illustrating the operation of the storage-type strong electrolyzed water generating device of the present invention and main parts perspective views. The 1-series high-conductivity water storage tank will be used to mix the high-conductivity water supplied to the electrolytic tank with the predetermined alkali chloride compound in the raw water so that its conductivity will be generated to a certain degree. For example, 100 to 1,000 ppm of common salt is previously dissolved in raw water such as tap water. When the highly conductive water having such a predetermined concentration is stored in a storage tank, the device will be usable. Series 2 strainer, while 3 is a water level sensor. The water level sensor is designed to apply the Chinese National Standard (CNS) A4 specification (210 X 297 public love) only for this paper size. It is printed by the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs 555698 A7 B7 V. Invention Description 6) The above-mentioned highly conductive water only causes the machine to operate and the measurement of the conductivity of the highly conductive water is composed of two adjacent metal sheets. Series 4 solenoid valve open when energized, closed when not energized ’and only open when energized. The 5 series electrolytic cell is separated by an ion-permeable membrane 6. It has a cathode chamber 8 inserted into the negative electrode 7 and an anode chamber 10 inserted into the positive electrode 9. The high conductivity is introduced into the electrolytic cell 5 in order to apply a DC voltage between the positive and negative electrodes. Water electrolysis users. The 1 1 series drain cock is connected to the piping 12 from the water level sensor to the solenoid valve that is open when the power is on, the piping 13 at the bottom of the electrolytic tank 5 and the electrolytic tank side end of the solenoid valve 4 that is open when the power is on. Part of the highly conductive water is drained by the drainage port 18. 14 and 15 are spouts of the cathode chamber 8 and the anode chamber 10, and are opened in the device. A 16-series control circuit, the control circuit 16 will receive the information signal from the aforementioned water level sensor 3, and will perform the energization control of the solenoid valve 4 and the electrolytic cell 5 which are open at the time of energization. In addition, at least an operation switch, a display lamp and the like of the device are attached. The 17 series is a transformer for a control system for supplying electric current to the electrolytic cell 5 in order to supply electric power. This power source will be supplied with commercial electric power. In addition, the 19-series degassing piping to prevent water from being spewed out of the electrolytic cell by siphoning can be degassed by opening a hole in the electrolytic cell itself in addition to the configuration shown in the figure. Now, the amount of highly conductive water is stored in the storage tank 1 so that the open-type solenoid valve is turned on when the power is turned on, that is, when the electrolyzed water is generated, the highly conductive water is discharged from the open-type solenoid valve 4 when the power is turned on. The bottom pipe 13 flows to the electrolytic cell 5 and is electrolyzed by the direct current applied between the cathode and anode electrodes. The cathode water will be spouted from the cathode chamber, and the anode water will be spouted from the anode chamber. 4 and 1 5 Spit water. These will be accepted on each paper. The paper size applies to the Chinese National Standard (CNS) A4 (210 X 297 mm) • 8-
555698 Α7 Β7 五、發明說明) 接容器31,32而能夠使用。 以此狀態吐出的陽極水,通常顯示p Η 2 · 8,氧化 還原電位(ORP ) 1 0 5 0程度,將充份做爲消毒,殺 菌水而作用。此時,同時吐出之陰極水,雖然有時承接在 容器後予以排水,可是因爲能夠確保ρ Η 1 2以上,故能 使用在被要求高Ρ Η的各種用途,例如,能夠做爲酸之中 和劑等使用。在本裝置,能夠由混合在陰極水排水,而使 排水之Ρ Η做爲中性。 在高導電水未含所定的鹽份時,或希望使電解槽成爲 空時,能夠旋開排洩旋塞,把該高導電水排除。 可是,上述高導電水在槽裝滿時將以相當於其壓力高 的水壓,並且,在槽幾乎空時將以幾乎無水壓之狀態,使 高導電水流入電解槽。如此地,在槽裝滿時,並且,在槽 幾乎空時也以相同的電解度操作電解槽時,從電解槽吐出 之電解水將成爲違反初始目的之水,具有會把不具有殺菌 效果的水吐水之虞。 做爲如此時的對策,如由崗申請者在特願平6 — 2 3 0 4 9 6號公報所述,能夠從槽外部測定在槽內的高 導電水之水位,按照槽內的水位將最適當之電壓加在電解 槽,以使電解槽的電解強度成爲可變之旋加電壓可變手段 ,加以調整。 亦即,如密接在保存高導電水的槽之外面設置一對電 極,在電極間施加高頻測定電壓,能夠由槽內的高導電水 之介質常數的變化之阻抗的變化程度,測定高導電水之存 (請先閱讀背面之注意事項3寫本頁)555698 Α7 Β7 V. Description of the invention) It can be used after being connected to the containers 31 and 32. The anode water discharged in this state usually shows p Η 2 · 8 and the oxidation-reduction potential (ORP) level of 1 0 50, which is sufficient for disinfection and sterilization. At this time, although the cathodic water discharged at the same time may be drained after being received in the container, it can be used for various applications that require high P 因为 because it can ensure ρ Η 12 or more. For example, it can be used as an acid. And agents. In this device, the water mixed in the cathode can be used to drain water, so that the drained water can be made neutral. When the highly conductive water does not contain a predetermined amount of salt, or when it is desired to make the electrolytic cell empty, the drain cock can be unscrewed to remove the highly conductive water. However, when the above-mentioned highly conductive water is filled with a water pressure corresponding to a high pressure when the tank is filled, and when the tank is almost empty, the highly-conductive water is caused to flow into the electrolytic tank with almost no water pressure. In this way, when the tank is full, and when the electrolytic tank is operated with the same degree of electrolysis when the tank is almost empty, the electrolyzed water discharged from the electrolytic tank will be water that violates the original purpose, and will have no sterilizing effect. Water spit out water. As a countermeasure at this time, as described by the post applicant in Japanese Patent Application No. 6-2 3 0 4 9 6, the level of highly conductive water in the tank can be measured from the outside of the tank, and the water level in the tank can be determined according to the water level in the tank. The most appropriate voltage is applied to the electrolytic cell, so that the electrolytic strength of the electrolytic cell becomes variable, and the voltage can be adjusted by means of variable voltage. That is, if a pair of electrodes are provided in close contact with the outer surface of the tank that holds highly conductive water, and a high-frequency measurement voltage is applied between the electrodes, the degree of change in impedance of the dielectric constant of the highly conductive water in the tank can be used to measure high conductivity. Water storage (please read the note on the back 3 to write this page)
I 經濟部智慧財產局貝工消费合作社印製 本紙張尺度適用中國國家標準(CNS)A4規格(210 χ 297公茇) -9- 555698 A7 B7 經濟部智慧財產局員工消費合作社印製 五、發明說明6 ) 在量。 · 此時,因不需要將察覺器放入槽內部,故察覺器的電 極不會被鹽水侵蝕,在長期之使用,能確實地測定水位。 並且,從電解槽被吐水之陽極水很衛生。 另外,能夠以第3圖所示的機械性方法,使從槽內吐 出之高導電水成爲一定。 在第3圖,保存槽1 - 1設有水壓動作型流量控制閥 2 1。在該流量控制閥2 1的底部,經由反彈性構件2 4 設有將以水壓動作之隔膜2 2而成的針閥2 3。一方面, 設有從槽內之底部2 5通過針閥2 3之配管1 2 - 1,通 過配管1 2 - 1的電解質溶液,將以流量控制閥2 3之圓 錐接觸面26被控制。再者,27係塡料構件,而28爲 通氣孔。 亦即,在保存槽1 - 1被保存有大量的高導電水時, 其水壓將會加在隔膜2 2,而抗拒反彈性構件2 4,把針 閥2 3壓低。結果,圓錐接觸面2 6之空隙將幾乎消失, 而抑制通過配管1 2 - 1的高導電水之水流。反之,保存 槽1 - 1的電解質溶液幾乎空時,隔膜2 2將無水壓,反 彈性構件2 4將被開放而推高針閥2 3。結果,圓錐接觸 面2 6之空隙將擴大,通過配管1 2 — 1的高導電水之水 流將會增加。亦即,能夠由保存在保存槽的高導電水之量 ,自動地控制通過配管12-1之高導電水。 由第1圖及第2圖所示的裝置所產生之強電解水,以 開放狀態長時間放置時,效力將會逐漸降低。尤其,對於 --------------R (請先閲讀背面之注意事項3¾ 寫本頁) 訂: 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) •10- 555698 A7 — B7 經濟部智慧財產局員工消費合作社印製 五、發明說明6 ) 和空氣的接觸,光之透過,和溫度很敏感。因此,以上述 裝置所產生的強電解水,以立刻用完成產生使用之量爲理 想。然而,還是有將產生剩餘的強電解水之可能性。在如 此時以專用之承接容器保存爲理想。 第4圖係顯示在如此時使用的承接容器之圖。再者, 承接容器係能夠做爲陰極水承接容器3 1,陽極水承接容 器3 2用而共通地使用者。 第4圖中,承接容器3 2係其全體由耐酸,耐鹼性遮 光性構件所形成,在承接容器軀幹部3 3,形成有自由開 閉的蓋子3 4。在蓋子之中央部設有開口部3 5,成爲吐 水口 1 4,1 5能夠以貫通狀態吐水。並且,在承接容器 軀幹部3 3設有由流入強電解水而會浮起的由特氟龍( teflon )中空成形加工之浮蓋3 6,強電解水將從在其中 央部開口的通孔3 7流入。浮蓋3 6係使接受容器軀幹部 配合強電解水之利用,自由地上下至承接容器軀幹3 3的 下方部內周面之停止器3 8爲止者。並且,在注口 3 9前 端部也設有開放蓋4 0。 被保存在如此的承接容器之強電解水,能夠儘量減少 和空氣的接觸,光之透過,把剩餘的強電解水,比較安全 地保存。 〔發明之效果〕 如以上所述,根據本發明時,將把原水和食鹽在事先 混合,能夠使原水的性狀成爲一定而收容之保存槽,和感 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公爱) -11 - 請 先 閱 讀 背 面 之 注 意 事I Printed by the Shelley Consumer Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs. The paper size applies the Chinese National Standard (CNS) A4 specification (210 χ 297 gong) -9- 555698 A7 B7 Printed by the Consumer Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs Note 6) In quantity. · At this time, because the sensor does not need to be placed in the tank, the electrode of the sensor will not be corroded by the salt water, and the water level can be reliably measured in long-term use. In addition, the anode water spouted from the electrolytic cell is hygienic. In addition, the mechanical method shown in FIG. 3 can be used to make the highly conductive water discharged from the tank constant. In Fig. 3, the storage tank 1-1 is provided with a hydraulically operated flow control valve 21. A needle valve 23 is formed on the bottom of the flow control valve 21 via a resilient member 2 4 and the diaphragm 22 is operated by hydraulic pressure. On the one hand, a pipe 1 2-1 provided from the bottom 25 in the tank through a needle valve 2 3 and an electrolytic solution through the pipe 1 2-1 is controlled by the cone contact surface 26 of the flow control valve 23. In addition, the 27 series is a material member, and 28 is an air vent. That is, when a large amount of highly conductive water is stored in the holding tank 1-1, the water pressure will be applied to the diaphragm 2 2 and the rebound-resistant member 2 4 will lower the needle valve 23. As a result, the voids of the conical contact surface 26 will almost disappear, and the flow of highly conductive water passing through the pipes 1 2-1 will be suppressed. Conversely, when the electrolyte solution in the storage tank 1-1 is almost empty, the diaphragm 2 2 will have no water pressure, and the inelastic member 2 4 will be opened and the needle valve 23 will be pushed up. As a result, the gap of the conical contact surface 26 is enlarged, and the flow of highly conductive water passing through the pipes 1 2 to 1 is increased. That is, the amount of highly conductive water stored in the storage tank can automatically control the highly conductive water passing through the pipe 12-1. The strong electrolyzed water produced by the devices shown in Figures 1 and 2 will gradually reduce its effectiveness when left open for a long time. In particular, for -------------- R (please read the note on the back 3¾ to write this page) Order: This paper size applies to China National Standard (CNS) A4 (210 X 297 mm) %) • 10- 555698 A7 — B7 Printed by the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs 5. Description of Invention 6) Contact with air, light transmission, and temperature sensitivity. Therefore, it is desirable to use the strong electrolyzed water generated by the above-mentioned device to immediately use the amount produced. However, there is still the possibility that the remaining strong electrolyzed water will be produced. It is ideal to store it in a dedicated receiving container at this time. Fig. 4 is a view showing a receiving container used in this case. Furthermore, the receiving container can be used as a cathode water receiving container 31 and an anode water receiving container 32 in common. In Fig. 4, the receiving container 32 is formed of an acid-resistant and alkali-resistant light-shielding member as a whole, and a free-closable lid 34 is formed on the receiving container body 3 3. An opening 3 5 is provided at the center of the lid, and it becomes a water discharge port 14 and 15 which can discharge water in a through state. In addition, the receiving vessel trunk portion 3 is provided with a Teflon hollow forming processing cap 3 6 which is caused to flow by flowing strong electrolyzed water, and the strong electrolyzed water will have a through hole opened in a central portion thereof. 3 7 inflows. The floating cover 3 6 allows the trunk portion of the receiving container to freely move up and down to the stopper 3 8 on the inner peripheral surface of the lower portion of the receiving trunk 3 3 in cooperation with the use of strong electrolytic water. An open cover 40 is also provided at the front end of the nozzle 39. The strong electrolyzed water stored in such a receiving container can minimize contact with air and transmit light, so that the remaining strong electrolyzed water can be stored relatively safely. [Effects of the Invention] As described above, according to the present invention, raw water and table salt are mixed in advance, so that the properties of the raw water can be fixed and stored in a storage tank, and the Chinese paper standard (CNS) A4 is applied to the paper size. Specifications (210 X 297 public love) -11-Please read the notes on the back first
:H 頁I I I I I I訂 齊 555698 A7 B7 五、發明說明6 ) (請先閲讀背面之注意事項寫本頁) 知從該槽流出的高導電水之水位察覺器,及經由未使用時 將關閉,和通電同時開放的通電時開放型電磁閥,把高導 電水供給電解槽而產生強電解水,並且由於在該產生裝置 設置能載置承接從電解槽吐出的陰陽極水之承接容器的承 接容器載置空間,能夠容易地且廉價地獲得少量之強電解 水。 上述構成的裝置,因零件數少且經長期安定地動作, 故能夠使裝置做爲不需要維修使之動作。而且能夠把裝置 全體構成小型,在設置後之維持管理,也能夠容易進行維 修等。 〔圖面之簡單說明〕 〔第1圖〕 係關於本發明的貯置型強電解水產生裝置之動作說明 圖。 〔第2圖〕 經濟部智慧財產局員工消费合作社印製 係關於本發明的貯置型強電解水產生裝置之主要部份 斜視圖。 〔第3圖〕 係顯示使從槽內吐出的電解質溶液量成爲一定之水壓 動作型流量控制閥之圖。 〔第4圖〕 係顯示本發明的承接容器之圖。 -12- 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公釐) 555698 A7 B7 五、發明說明(10 ) 〔圖號說明〕 經濟部智慧財產局員工消費合作社印製 1 保存槽 2 濾網 3 水位察覺器 4 通電時開型電磁閥 5 電解槽 11 排洩旋塞 12 配管 13 底部配管 * 14 陰極室吐水口 15 陽極室吐水口 16 控制電路 21 水壓動作型流量控制閥 32 承接容器 (請先 :—;------i!裝 〃先閲讀背面之注意事項 寫本頁) 本紙張尺度適用中國國家標準(CNS)A4規格(210 X 297公茇) -13-: Page IIIIII III 555698 A7 B7 V. Description of the invention 6) (Please read the precautions on the back to write this page) Know the water level detector of the highly conductive water flowing out of the tank, and it will be closed when not in use, and The solenoid valve that is open at the same time when the current is turned on, supplies highly conductive water to the electrolytic cell to generate strong electrolyzed water, and the generating device is provided with a receiving container capable of receiving a receiving container for receiving the anode and anode water discharged from the electrolytic cell. It is possible to easily and inexpensively obtain a small amount of strong electrolyzed water by installing space. The device configured as described above can operate the device without maintenance because it has a small number of parts and operates stably for a long period of time. In addition, the entire device can be made compact, maintenance can be maintained after installation, and maintenance can be easily performed. [Brief description of the drawing] [Fig. 1] It is a diagram for explaining the operation of the storage type strong electrolyzed water generating device of the present invention. [Fig. 2] Printed by the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economics This is a perspective view of the main part of the storage-type strong electrolyzed water generating device of the present invention. [Fig. 3] Fig. 3 is a diagram showing a hydraulic pressure-operated flow control valve in which the amount of the electrolyte solution discharged from the tank is constant. [Fig. 4] A view showing a receiving container according to the present invention. -12- This paper size is in accordance with Chinese National Standard (CNS) A4 (210 X 297 mm) 555698 A7 B7 V. Description of Invention (10) [Illustration of Drawing No.] Printed by the Consumers ’Cooperative of Intellectual Property Bureau of the Ministry of Economic Affairs 1 Storage tank 2 Strainer 3 Water level sensor 4 Open solenoid valve when energized 5 Electrolyzer 11 Drain cock 12 Piping 13 Bottom piping * 14 Cathode chamber water outlet 15 Anode chamber water outlet 16 Control circuit 21 Hydraulically operated flow control valve 32 Receiving container (Please first: —; ------ i! Please read the precautions on the back before writing this page for the decoration) This paper size is applicable to China National Standard (CNS) A4 (210 X 297 cm) -13-