JPS6019088A - Washing system in electrolytic apparatus of water - Google Patents

Abstract

PURPOSE:To perform smooth washing by preventing the skidding of a pump, by constituting a bypass passage to the alkali ion water discharge passage from a cathode chamber through a change-over valve while communicating the bypass passage with the acidic water discharge passage from an anode chamber. CONSTITUTION:When the washing start switch is operated, a control system 24 maintains a water supply valve 12 to a closed state at first and keeps a pump 18 to a stopped state while allows a spool valve 19 to perform change-over operation and drives a pump 16 to supply a washing solution to a water supply chamber 7. During a time when a required amount of the washing solution is supplied to the water supply chamber 7, a part of acidic water is discharged to drain 11 through a pipeline 10. Under this state, water in an electrolytic tank 1 starts recirculation to a direction shown by the dotted arrow by driving a pump 21. In a process for flowing the washing solution, the substance precipitated and adhered to a cathode 5 is dissolved and substances adhered to the inner walls of a cathode chamber and a pipeline 8 are also washed off and peeled off.

Description

DETAILED DESCRIPTION OF THE INVENTION The unexploded FJA mainly relates to a cleaning method in a water electrolysis device for producing high-quality water suitable for drinking by electrolysis.

Since this type of water electrolyzer is used continuously over a long period of time, calcium and other substances are deposited on the surface of the cathode in the cathode chamber, causing a problem in which the current conductivity decreases. . Therefore, the deposits are peeled off from the surface of the negative electrode by temporarily applying a DC voltage of opposite polarity to the negative electrode and the positive electrode. As another method, attempts have been made to chemically remove water by mixing vinegar or the like into water and circulating it in an electrolytic cell. The advantage of this method is that not only deposits can be removed from the electrode surface, but also deposits attached to the inner wall of the electrode chamber or the inner wall of the extraction passage can be decomposed and removed. A pump is used to circulate the kernels during washing, but the circulation system cannot be closed. This is because the gas generated during cleaning or normal electrolysis must be exhausted naturally, and if this gas is pumped into the pump,
The pong spins idly, causing a knocking phenomenon.

The present invention has been developed based on the above circumstances, and even if gas is generated in the circulation system, it can be naturally discharged without introducing it to the pump side, and idling of the pump can be avoided and a smooth cleaning action can be performed. The present invention aims to provide a cleaning method for a water electrolysis device as described above.

For this purpose, the present invention distributes and supplies water from a water supply point to a cathode chamber and an anode chamber, and applies a DC voltage to a cathode and an anode disposed in each electrode chamber to separate the two electrode chambers. In a device that generates alkaline ionized water in the multi-cathode chamber side and acidic water in the anode chamber side by electroosmosis and electrolysis through a porous partition wall, a passage for discharging alkaline ionized water from the cathode chamber is provided. pi/via the switching valve
(The above-mentioned bypass path is connected to the path for discharging acidic water from the anode chamber, and the circulation circuit is connected to the cathode chamber and the anode chamber through the water supply point during cleaning with the pump installed in the bypass path. The invention is characterized in that a passage higher than the level of the pump is provided in the acid water discharge passage at a point communicating with the bypass passage.

Hereinafter, one embodiment of the present invention will be specifically described with reference to the drawings. In the figure, reference numeral 1 is an electrolytic cell, and is a cylindrical partition wall 2 (which may be plate-shaped) made of a porous, e.g., bisque, or electropermeable membrane such as a microfilter, with an anode chamber 3 on the inside and an anode chamber 3 on the outside. The cathode chamber 4 is partitioned into two sections, and a cathode 5 is disposed within the cathode chamber 4, and an anode 6 is disposed within the anode chamber 3.

The lower ends of the cathode chamber 4 and the anode chamber 3 communicate with a water supply chamber 7 configured at the bottom of the electrolytic cell 1, and the upper ends of the cathode chamber 4 communicate with a water storage tank 9 via a conduit 8. The upper end of the anode chamber 3 is drained to a drain 11 via a conduit 10. - An electromagnetic open/close type water supply valve 12 is communicated with the water supply chamber 7 via a water purifier 13 (filter made of activated carbon or the like), and the water supply valve 12 is communicated with water supply via a pipe line 14.

In addition, a cleaning liquid is supplied to the water supply chamber 7 via a check valve 15 to a pump 16, and a chemical solution such as calcium chloride is supplied to a pump 7'18 via a check valve 17. It is now being supplied by the government.

The conduit 8 is provided with an electromagnetic switching type spool valve 19 so that the conduit 8 can be switched to communicate with the pin-out passage 2°. The bypass line 20 is the pipe line 1
0, and a pump 21 is provided on the way. The delivery side of the pump 21 is directed to the pipe line 8, and the waste suction side is directed to the pipe line 10. In addition, the pipe line 1o is provided with a passage 22 which is raised above the level of the pump at a point where it communicates with the binoculars passage 20.

In the figure, reference numeral 23 indicates a level sensor provided in the water tank 9. The level sensor 23 detects the water level and outputs a signal to the control system 24 at the upper and lower limit positions. In the control system 24, the pumps 21, 16
In this configuration, the electrolyzer is operated as follows. First, normal electrolysis will be explained. When the level sensor 23 detects the lower limit level of the water tank 9 and sends a signal to the control system 24, the control system 24 inputs a signal to open the water supply valve 12 and applies a DC voltage between the electrodes 5.4. In the electrolytic cell 1, water undergoes electrolytic action and electroosmotic action. At the same time, the pores 7'18 are activated to achieve mineral replenishment containing alkaline ionized water, such as calclum chloride solution. During the electrolysis process, calcium chloride and the like permeate into the water in the cathode chamber 4 as calcium hydroxide and calcium ions. The generated alkaline ion water is introduced into the water storage ta9 via the pipe line 8 and the stool valve 19. On the other hand, the acidic water generated in positive & room 3 is pipe 1
It is discharged to the drain 11 via 0't-. When the water level in the water tank 9 reaches its upper limit, the senna 23 sends a signal to the control system 24 again, the water supply valve 12 is closed, and the DC voltage applied between the electrodes 5, 6 is released. Note that hydrogen in the cathode chamber 4, oxygen in the anode chamber 3, etc. generated in the electrolyzed water are discharged together with the water. In this way, water electrolysis is achieved continuously for the required amount of water.

Next, a case in which the cathode N4 and the like are cleaned with a cleaning liquid such as vinegar (edible vinegar) will be specifically explained. When the user of the device operates the switch to start washing, the control flII system 24i1: first, the water supply valve 12'f:
The pump 18 is maintained in the closed state and the pump 18 is maintained in the stopped state, and the stool valve 19 is turned off and the pump 1 is operated.
6 to supply the cleaning liquid to the water supply chamber 7. F5r While the hair R washing liquid is supplied to the water supply chamber 7, a portion of the acidic water is discharged to the drain 11 via the pipe lo. Under this situation, when the pump 21 is driven, the water in the electrolytic ttH is
Circulation begins in the direction of the dotted arrow. Therefore, water flows from the water supply chamber 7 to the anode chamber 3, the binoculars 20, the pump 21, the pipe 8% cathode chamber 4, and the water supply chamber 7 in this order, and the cleaning liquid passes through these and reaches the cathode 5 in the process. It dissolves the deposited substances and also washes and peels off the substances that have adhered to the inner wall of the cathode chamber 4, the inner wall of the conduit 8, etc. The gaseous acid remaining in the decomposition tank 1 or generated by chemical reaction with the cleaning solution enters the pipe 10 along with the circulating solution, but where does it branch from the bypass 20? The flow i1 floats on the path 22 due to the difference in specific gravity, and a force is exerted on the yi portion of the path 22. Therefore, no gas is introduced into the pump 21, idling of the pump 21 is avoided, and knocking phenomenon is avoided. Washing liquid is S
At the stage where the amount is injected, the drive of the bomb J16 is stopped. At the time when cleaning in the electrolytic cell 1 is completed (after a time set by a timer or the like in the control system has elapsed), the water supply valve 12 is opened. The amount of water in the circulation system including the pipe W1 increases due to the tension, and during circulation by the pump 21, washing water flows out to the drain 11 via the pipe line 10. Ti, tank opening 1
The cleaning water of the circle is diluted with the newly added water,
When the water returns to the normal state (time set in advance in the control system), the pump 21 is stopped and the stool pal 7'1
9 is switched back to the state shown in the figure, the pump 18 is driven, and a current voltage is applied to the electrodes 5.6. That is,
The process returns to electrolysis control based on water level detection in the water tank 9 again.

As described in detail above, in an electrolytic device that generates alkaline ionized water by electrolyzing in a flowing water state, when a Bonf circulation system is used for cleaning, the present invention is aimed at reducing the amount of water that is generated in the electrolysis tank and remains in the electrolytic cell. There is no possibility of gas or gas generated by chemical reaction with the cleaning liquid being introduced into the pump and causing knocking, and the cleaning water is diluted by the water supply.

This can be achieved by simply draining the water from the discharge passage in the process of returning it to the normal water state, and the excellent effect of not having to provide a control system such as a switching valve is achieved.

[Brief explanation of drawings]

BRIEF DESCRIPTION OF THE DRAWINGS It is a system diagram which shows one Example of drawing sample invention. 1... Electrolytic cell, 2... Partition wall, 3...
... Positive supply room, 4 ... Cathode room, 5 ...
Cathode, 6... Anode, 7... Water supply chamber, 8
...Pipe line, 9...Water tank, 10...
...Pipe line, 11...Drain, 12...
・Water supply valve, 13...Water purifier, 14...
Conduit, check pal 6 for 15... 16...,
tf pump 17...Check valve, 18...
...Ponnia', 19 river-spool valve, 2o
・・・・・・Painoyasu road, 21・・・・・・Pump,
22...Route, 23...Repel sensor, 24...Control system. Patent applicant Tatsuo Saki Procedural amendment (method) January 1, 1981 1, Case description 1988 Patent Review No. 124905 2, Name of the invention Cleaning method in water electrolyzer 3, Amendment Relationship with the case of the person who filed the patent application Address: 2-7-18 Nishi, Kamifukuoka-shi, Saitama Prefecture, IO, 25th 1980 (shipped) 5. Subject of amendment

Claims (1)

[Claims] Water is distributed and supplied from the water supply point to the cathode chamber and the anode chamber, and a DC voltage is applied to the cathode and anode electrodes arranged in each electrode chamber, and electricity permeates through the porous partition wall that separates the two electrode chambers. , in which alkaline ionized water is generated in the multi-cathode chamber side and acidic water is generated in the anode chamber side by electrolysis, a bypass path is configured through a switching valve in the path for discharging alkaline ionized water from the cathode chamber. The bypass passage is connected to a passage for discharging acidic water from the anode chamber, and a pump provided in the pinous passage forms a circulation circuit between the cathode chamber and the anode chamber through the water supply point during cleaning, and A cleaning method for a water electrolyzer, characterized in that a passage higher than the level of the pump is provided in the acid water discharge passage at a point communicating with the bypass passage.