CN214880418U - Acidic oxidation potential water generator supporting linkage of water tank - Google Patents

Abstract

The utility model discloses a support acid oxidation potential water generator of water tank linkage belongs to acidizing water generator technical field, including water storage box, electrolysis box and positive electrode, the overlap joint of water storage box upper end one side has first case lid, first case lid upper end one side is provided with the alarm lamp, is located alarm lamp one side first case lid upper end has the water pump through bolted connection. The utility model discloses a set up second level sensor, third level sensor, can be in real time to the water level real time monitoring of ionic membrane both sides in the electrolysis box, then make salt solution in time mend corresponding space in the electrolysis box under the assistance of water pump and first valve, preparation with guaranteeing acidic oxidation potential water can normally go on, the gaseous accessible blast pipe that salt solution electrolysis produced is discharged, the blast pipe can be connected with outside container, gases such as oxygen that can make salt solution electrolysis produce can be collected like this, so as to recycle, can practice thrift the cost.

Description

Acidic oxidation potential water generator supporting linkage of water tank

Technical Field

The utility model relates to an acidic oxidation potential water generator, in particular to an acidic oxidation potential water generator supporting linkage of a water tank, belonging to the technical field of acidic oxidation potential water generators.

Background

The electrolyzed oxidizing water was first developed in japan in the 80 s of the 20 th century, and was first used in the medical field because of its remarkable bactericidal effect against MRSA (methicillin-resistant staphylococcus aureus called "superbug"). Through years of research and practice, the advantages of high efficiency of acidic electrolyzed oxidizing water sterilization, no residual toxicity after sterilization, no harm to human bodies, no pollution to the environment, contribution to environmental protection and the like are gradually accepted by people. At present, the preparation process, the sterilization mechanism and the popularization and application in many fields of the acid oxidation potential water are still hot points of research.

The existing electrolyzed oxidizing water generator needs to manually monitor the allowance of salt solution, the stable operation of preparation work is difficult to be ensured when preparing electrolyzed oxidizing water for a long time, the existing electrolyzed oxidizing water generator can cause poor preparation effect due to the insufficient water level at a positive electrode or a negative electrode when preparing electrolyzed oxidizing water, and gas generated by preparation cannot be collected and is relatively wasted.

SUMMERY OF THE UTILITY MODEL

The main objective of the utility model is to provide a support water tank linkage's acidic oxidation potential water generator to solve current acidic oxidation potential water generator and need the surplus of artifical control salt solution, be difficult to guarantee the problem of going on of stability of preparation work when preparing acidic oxidation potential water for a long time.

The purpose of the utility model can be achieved by adopting the following technical scheme:

an acidic oxidation potential water generator supporting water tank linkage comprises a water storage tank, an electrolytic tank and an anode, wherein a first tank cover is lapped on one side of the upper end of the water storage tank, an alarm lamp is arranged on one side of the upper end of the first tank cover, a water pump is connected to the upper end of the first tank cover positioned on one side of the alarm lamp through a bolt, a first water level sensor is arranged on one inner wall of the water storage tank, a water pumping pipe is arranged on one side wall of the water pump, a water delivery pipe is arranged on the other side wall of the water pump, a double-head water supply pipe is arranged at one end, away from the water pump, of the water delivery pipe, a second tank cover is arranged on the periphery of the lower end of the double-head water supply pipe, the electrolytic tank is arranged at the lower end of the second tank cover, an ionic membrane is arranged in the middle of the electrolytic tank, first valves are arranged on the side walls of two branch pipe heads of the double-head water supply pipe, and the anode is arranged on the upper end of the first tank cover positioned on one side of the double-head water supply pipe, and a negative electrode is arranged on one side of the positive electrode, drain pipes are arranged at the lower ends of the two side walls of the electrolytic tank, and a second valve is arranged at the upper ends of the drain pipes.

Preferably, the alarm lamp with first case lid upper end is through bolted connection, first level sensor with the water storage box inner wall passes through bolted connection, the drinking-water pipe and the raceway all with the water pump passes through flange joint, the drinking-water pipe inserts inside the water storage box.

Preferably, one end of the water pipe, which is far away from the water pump, is connected with the double-end water supply pipe through a flange, the first valve is connected with the double-end water supply pipe through threads, a clamping groove which is welded with the middle part of the bottom end of the electrolytic tank is arranged on the periphery of the lower end of the ionic membrane, and a sealing gasket is clamped and fixed between the clamping groove and the ionic membrane.

Preferably, the positive electrode and the negative electrode are inserted into the second box cover, and the parts of the positive electrode and the negative electrode inserted into the electrolytic box are respectively positioned on two sides of the ionic membrane.

Preferably, the water discharge pipe is welded with the side wall of the electrolytic tank, the second valve is connected with the water discharge pipe through threads, a second water level sensor is connected with the inner wall, close to the positive electrode, in the electrolytic tank through a screw, and a third water level sensor is connected with the inner wall, close to the negative electrode, in the electrolytic tank through a screw.

Preferably, the two sides of the upper end of the second box cover, which are positioned on the other side of the double-head water supply pipe, are connected with exhaust pipes through flanges.

Preferably, the two exhaust pipes are respectively communicated with spaces on two sides of the ionic membrane in the electrolytic tank, and a third valve is connected to one side wall of each exhaust pipe through threads.

The utility model has the advantages of:

the utility model provides a pair of support water tank linkage's acid oxidation potential water generator, through setting up water storage box, first level sensor, alarm lamp, water pump, drinking-water pipe, raceway, double-end flow pipe and first valve, when the water level of salt solution is not enough in the water storage box, the alarm lamp can in time report to the police to inform the staff, can guarantee like this that there is sufficient salt solution to supply with to the electrolysis box in the water storage box, guarantee that acid oxidation potential water generator can be stable for a long time work of carrying on. The problem that the existing electrolyzed oxidizing water generator needs to manually monitor the surplus of the salt solution, and the stable operation of the preparation work is difficult to ensure when the electrolyzed oxidizing water is prepared for a long time is solved; and the utility model discloses a set up second level sensor, third level sensor, can be in real time to the water level real time monitoring of ion membrane both sides in the electrolysis box, then make salt solution in time mend corresponding space in the electrolysis box under the assistance of water pump and first valve, preparation to guarantee acid oxidation potential water can normally go on, the gaseous accessible blast pipe that salt solution electrolysis produced is discharged, the blast pipe can be connected with outside container, gas such as oxygen that can make salt solution electrolysis produce can be collected like this, so as to recycle, can practice thrift the cost. The problems that the existing electrolyzed oxidizing water generator has poor preparation effect due to insufficient water level at the positive electrode or the negative electrode when preparing electrolyzed oxidizing water, and gas generated by preparation cannot be collected and is relatively wasted are solved.

Drawings

FIG. 1 is a schematic view of the overall structure of a preferred embodiment of an electrolyzed oxidizing water generator supporting tank linkage according to the present invention;

FIG. 2 is a front cross-sectional view of a reservoir supporting a preferred embodiment of a tank-linked electrolyzed oxidizing water generator in accordance with the present invention;

FIG. 3 is a front cross-sectional view of an electrolytic tank of a preferred embodiment of a electrolyzed oxidizing water generator supporting a tank linkage according to the present invention.

In the figure: 1-water storage tank, 2-first tank cover, 3-alarm lamp, 4-water pump, 5-first water level sensor, 6-water pumping pipe, 7-water conveying pipe, 8-double-head water conveying pipe, 9-second tank cover, 10-electrolytic tank, 11-ionic membrane, 12-first valve, 13-positive electrode, 14-negative electrode, 15-water discharging pipe, 16-second valve, 17-clamping groove, 18-sealing gasket, 19-second water level sensor, 20-third water level sensor, 21-air discharging pipe and 22-third valve.

Detailed Description

In order to make the technical solutions of the present invention clearer and clearer for those skilled in the art, the present invention will be described in further detail with reference to the following embodiments and the accompanying drawings, but the embodiments of the present invention are not limited thereto.

As shown in fig. 1-3, the electrolyzed oxidizing water generator supporting linkage of a water tank provided in this embodiment comprises a water storage tank 1, an electrolytic tank 10 and a positive electrode 13, wherein a first tank cover 2 is overlapped on one side of the upper end of the water storage tank 1, an alarm lamp 3 is arranged on one side of the upper end of the first tank cover 2, a water pump 4 is connected to the upper end of the first tank cover 2 on one side of the alarm lamp 3 through a bolt, a first water level sensor 5 is arranged on one inner wall of the water storage tank 1, a water pumping pipe 6 is arranged on one side wall of the water pump 4, a water conveying pipe 7 is arranged on the other side wall of the water pump 4, a double-headed water supply pipe 8 is arranged at one end of the water conveying pipe 7 away from the water pump 4, a second tank cover 9 is arranged on the periphery of the lower end of the double-headed water supply pipe 8, the electrolytic tank 10 is arranged at the lower end of the second tank cover 9, an ionic membrane 11 is arranged in the middle of the electrolytic tank 10, and first valves 12 are arranged on the two side walls of the branch pipe heads of the double-headed water supply pipe 8, the upper end of the first box cover 2 positioned on one side of the double-head water supply pipe 8 is provided with a positive electrode 13, one side of the positive electrode 13 is provided with a negative electrode 14, the lower ends of the two side walls of the electrolytic box 10 are both provided with drain pipes 15, and the upper end of the drain pipe 15 is provided with a second valve 16.

Referring to fig. 1-2, the alarm lamp 3 is connected with the upper end of the first box cover 2 through screws, the first water level sensor 5 is connected with the inner wall of the water storage box 1 through screws, the water pumping pipe 6 and the water delivery pipe 7 are both connected with the water pump 4 through flanges, the water pumping pipe 6 is inserted into the water storage box 1, the water storage box 1 is used for bearing the prepared saline water with certain concentration, the first water level sensor 5 can sense the level of the saline water in the water storage box 1 in real time and feed back sensing information to the external control equipment of the equipment in real time, when the external control equipment of the equipment finds that the water level in the water storage box 1 is insufficient, the alarm lamp 3 is controlled to alarm, the water pump 4 can pump out the saline water in the water storage box 1 through the water pumping pipe 6 during working, and then outputs the saline water through the water delivery pipe 7.

Referring to fig. 1 and 3, one end of the water pipe 7, which is far away from the water pump 4, is connected with the double-head water supply pipe 8 through a flange, the first valve 12 is connected with the double-head water supply pipe 8 through a thread, a clamping groove 17 welded with the middle part of the bottom end of the electrolytic tank 10 is arranged on the periphery of the lower end of the ionic membrane 11, a sealing gasket 18 is fixed between the clamping groove 17 and the ionic membrane 11 in a clamping and pressing manner, the water pump 4 sends the salt solution to the spaces on two sides of the ionic membrane 11 in the electrolytic tank 10 through the water pipe 7 and the double-head water supply pipe 8, the space for inputting the salt solution into the electrolytic tank 10 can be controlled by regulating and controlling the first valve 12, the sealing gasket 18 can enable the lower end of the ionic membrane 11 and the clamping groove 17 to have good sealing performance, the ionic membrane 11 can enable ions to pass through, and liquid is separated.

Referring to fig. 1 and 3, the positive electrode 13 and the negative electrode 14 are inserted into the second case cover 9, and the portions of the positive electrode 13 and the negative electrode 14 inserted into the electrolytic case 10 are respectively located on both sides of the ionic membrane 11.

Referring to fig. 1 and 3, a water discharge pipe 15 is welded to a side wall of an electrolytic tank 10, a second valve 16 is connected to the water discharge pipe 15 by a screw, a second water level sensor 19 is connected to an inner wall of the electrolytic tank 10 close to a positive electrode 13 by a screw, a third water level sensor 20 is connected to an inner wall of the electrolytic tank 10 close to a negative electrode 14 by a screw, the positive electrode 13 electrolyzes a saline solution to mainly generate a chlorine evolution reaction and an oxygen evolution reaction, and acidic electrolyzed water having a pH value greater than 11.0 and mainly containing chlorine gas, hypochlorous acid, hypochlorite, hydrochloric acid, dissolved oxygen, ozone and the like can be generated in the electrolytic tank 10, and the negative electrode 14 electrolyzes the saline solution to mainly generate a hydrogen evolution reaction, thereby generating alkaline electrolyzed water having a pH value greater than 11.0 and mainly containing hydrogen gas and a dilute sodium hydroxide solution, and having a strong cleaning effect.

Referring to fig. 1, exhaust pipes 21 are connected to both sides of the upper end of the second cover 9 at the other side of the double-headed water supply pipe 8 by flanges, and gas generated by electrolysis of the salt solution can be discharged through the exhaust pipes 21.

Referring to fig. 1 and 3, two exhaust pipes 21 are respectively connected to spaces on both sides of the ionic membrane 11 in the electrolytic cell 10, a third valve 22 is screwed to a side wall of the exhaust pipe 21, and the exhaust pipe 21 is connected to an external container, so that gas such as oxygen generated by electrolysis of the saline solution can be collected for reuse.

As shown in fig. 1 to fig. 3, the operation of a electrolyzed oxidizing water generator supporting linkage of a water tank provided in this embodiment is as follows:

step 1: the acidic oxidation potential water generator uses an external power supply, and is controlled by external control equipment to work, the water storage tank 1 is used for bearing the salt water with a certain concentration which is prepared, the water level of the salt water in the water storage tank 1 can be sensed by the first water level sensor 5 in real time, and the sensing information is fed back to the external control equipment of the equipment in real time, when the external control equipment of the equipment finds that the water level in the water storage tank 1 is not enough, the alarm lamp 3 can be controlled to alarm, so that the staff can add the prepared salt water into the water storage tank 1 in time.

Step 2: when the water pump 4 works, the saline water in the water storage tank 1 can be pumped out through the water pumping pipe 6, then the saline water is respectively conveyed into spaces at two sides of the ionic membrane 11 in the electrolytic tank 10 through the double-head water conveying pipe 8 of the water conveying pipe 7, the ionic membrane 11 can enable ions to pass through and block liquid, the positive electrode 13 mainly performs chlorine evolution reaction and oxygen evolution reaction on the saline water in an electrolysis way, acidic electrolyzed oxidizing water with the pH value larger than 11.0 and mainly comprising hydrogen and dilute sodium hydroxide solution can be generated in the electrolytic tank 10 and mainly comprises chlorine, hypochlorous acid, hypochlorite, hydrochloric acid, dissolved oxygen, ozone and the like, the negative electrode 14 mainly performs hydrogen evolution reaction on the saline water in an electrolysis way, alkaline electrolyzed oxidizing water or alkaline electrolyzed oxidizing water prepared by equipment can be discharged through the water discharging pipe 15 to be stored or used, but the water level height of 11 both sides of ionic membrane in second water level sensor 19 and the real-time perception electrolysis box 10 of third water level sensor 20, and with perception information feedback to external control equipment, if the water level of ionic membrane 11 one side is lower in the discovery electrolysis box 10, external control equipment can control water pump 4 work, and regulate and control first valve 12, so that salt solution in time mends corresponding space in the electrolysis box 10, can normally go on in order to guarantee the preparation of acid oxidation potential water, the gaseous accessible blast pipe 21 discharge that salt solution electrolysis produced, blast pipe 21 can be connected with outside container, gas such as the oxygen that can make salt solution electrolysis produce like this can be collected, so that recycle.

The above description is only a further embodiment of the present invention, but the scope of protection of the present invention is not limited thereto, and any person skilled in the art can replace or change the technical solution and the concept of the present invention within the scope of the present invention.

Claims (7)

1. A electrolyzed oxidizing water generator supporting linkage of a water tank, which comprises the water tank (1), an electrolytic tank (10) and a positive electrode (13), and is characterized in that: a first box cover (2) is lapped on one side of the upper end of the water storage box (1), an alarm lamp (3) is arranged on one side of the upper end of the first box cover (2), a water pump (4) is connected to the upper end of the first box cover (2) positioned on one side of the alarm lamp (3) through a bolt, a first water level sensor (5) is arranged on one inner wall of the water storage box (1), a water pumping pipe (6) is arranged on one side wall of the water pump (4), a water conveying pipe (7) is arranged on the other side wall of the water pump (4), a double-end water conveying pipe (8) is arranged at one end, away from the water pump (4), of the water conveying pipe (7), a second box cover (9) is arranged on the periphery of the lower end of the double-end water conveying pipe (8), the electrolytic box (10) is arranged at the lower end of the second box cover (9), an ionic membrane (11) is arranged in the middle part of the electrolytic box (10), and first valves (12) are arranged on two branch pipe head side walls of the double-end water conveying pipe (8), the upper end of the first box cover (2) positioned on one side of the double-end water supply pipe (8) is provided with the positive electrode (13), one side of the positive electrode (13) is provided with the negative electrode (14), the lower ends of the two side walls of the electrolytic box (10) are respectively provided with a water drain pipe (15), and the upper end of the water drain pipe (15) is provided with a second valve (16).

2. A electrolyzed oxidizing water generator supporting tank linkage according to claim 1 wherein: alarm lamp (3) with first case lid (2) upper end is through bolted connection, first level sensor (5) with water storage box (1) inner wall passes through bolted connection, drinking-water pipe (6) and raceway (7) all with water pump (4) pass through flange joint, drinking-water pipe (6) insert inside water storage box (1).

3. A electrolyzed oxidizing water generator supporting tank linkage according to claim 1 wherein: keep away from raceway (7) water pump (4) one end with double-end water supply pipe (8) pass through flange joint, first valve (12) with double-end water supply pipe (8) pass through threaded connection, ionic membrane (11) lower extreme periphery be provided with welded draw-in groove (17) in electrolysis box (10) bottom middle part, draw-in groove (17) with card pressure is fixed with sealed pad (18) between ionic membrane (11).

4. A electrolyzed oxidizing water generator supporting tank linkage according to claim 1 wherein: the positive electrode (13) and the negative electrode (14) are inserted into the second box cover (9), and the parts of the positive electrode (13) and the negative electrode (14) inserted into the electrolytic box (10) are respectively positioned on two sides of the ionic membrane (11).

5. The electrolyzed oxidizing water generator supporting tank linkage as set forth in claim 4 wherein: the water drain pipe (15) is welded with the side wall of the electrolytic tank (10), the second valve (16) is connected with the water drain pipe (15) through threads, a second water level sensor (19) is connected to the inner wall, close to the positive electrode (13), in the electrolytic tank (10) through screws, and a third water level sensor (20) is connected to the inner wall, close to the negative electrode (14), in the electrolytic tank (10) through screws.

6. The electrolyzed oxidizing water generator supporting linkage of a water tank as set forth in claim 5, wherein: and both sides of the upper end of the second box cover (9) positioned on the other side of the double-head water supply pipe (8) are connected with exhaust pipes (21) through flanges.

7. A electrolyzed oxidizing water generator supporting tank linkage according to claim 6 wherein: two blast pipes (21) respectively with the electrolysis box (10) interior the space intercommunication of ionic membrane (11) both sides, there is third valve (22) through threaded connection on a lateral wall of blast pipe (21).

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