CN210340432U - Disinfection system for directly generating ozone water in water pipeline - Google Patents

Abstract

The utility model discloses a disinfection system for directly generating ozone water in a water pipeline, wherein a generator comprises n generator anodes and n +1 generator cathodes, n is a natural number which is more than or equal to 1, the generator anode is a coating titanium anode, and the generator cathode is a titanium cathode or a stainless steel cathode; the footstock comprises a base, a damping valve, a flow switch, a water inlet and outlet, a socket, a generator control panel and the like, wherein the anode and the cathode are immersed in water with the conductivity larger than 30 mus/cm, then constant current is supplied, the power supply voltage range is 3.5-12V, water is electrolyzed under the action of an electric field, and oxygen ions generate ozone microbubbles under the action of an anode catalyst. The ozone micro bubbles are quickly dissolved in water to directly generate ozone water which can be used for removing the biomembrane on the pipe wall and sterilizing and disinfecting the pipeline water. The utility model is environment-friendly, has high ozone generating efficiency, low cost, simple process operation and easy large-scale production; the generator is easy to replace, convenient to use, simple in structure and low in cost.

Description

Disinfection system for directly generating ozone water in water pipeline

The technical field is as follows:

the utility model relates to a disinfection system for directly generating ozone water in a water pipeline, belonging to the technical field of an electrolytic ozone water generator.

Background art: at present, the ozone water generating method is generally generated by mixing ozone gas with water, the ozone gas is generally manufactured by a high-voltage discharge method and a low-voltage electrolysis method, namely an ozone water generator for generating ozone by electrolyzing water, the anode material of the ozone water generator mostly adopts lead dioxide, the lead dioxide is extremely easy to be poisoned to reduce the catalytic activity, therefore, tap water cannot be directly used as electrolysis water, and pure water also needs to be electrolyzed to generate ozone gas to be mixed with water, therefore, the ozone water equipment must be provided with a pure water device and a mixing device, the complexity of the equipment is increased, the volume of the equipment is increased, and the cost of the equipment is increased. Therefore, it is necessary to find a scheme for producing ozone water by directly using tap water as electrolysis water.

The utility model has the following contents:

the utility model aims to overcome the defects of the prior art and provide a disinfection system for directly generating ozone water in a water pipeline.

The utility model provides a technical scheme as follows: the disinfection system for directly generating ozone water in a water pipeline comprises an ozone water generator and a top seat movably connected with the ozone water generator, and is characterized in that the ozone water generator comprises n generator anodes and n +1 generator cathodes, wherein n is a natural number not less than 1, the generator anodes are coating titanium anodes, and the generator cathodes are made of metal titanium or stainless steel; the footstock comprises a base, the base is provided with a base water inlet, a base water outlet and a generator connecting port, a damping valve is arranged in the base, a flow switch is arranged above the base, the water inlet of the flow switch is connected with the base water inlet through a pipeline, the water outlet of the flow switch is connected with the base water outlet through a pipeline, a generator connecting wire socket and a power supply inlet wire socket are arranged on a control box cover connected above the base, and a generator control panel is arranged in the control box cover; the generator control panel is connected with the flow switch, is connected with an external power supply through a power inlet wire socket, and is connected with the generator anode and the generator cathode through a generator connecting wire socket.

Furthermore, the generator anodes and the generator cathodes are arranged in a crossed mode, the bottom of each generator anode is electrically connected, and the bottom of each generator cathode is electrically connected; the generator anode and the generator cathode are both fixed on the generator shell container barrel, and the generator bottom cover is arranged at the bottom of the generator shell container barrel; the top of the generator anode and the generator cathode is provided with a clapboard, the top of the generator shell container barrel is provided with an upper cover, and the upper cover is provided with a generator water inlet and a generator water outlet; an anode conductive stud and a cathode conductive stud which are connected with the generator connecting wire socket are arranged in the generator shell container barrel, and the generator anode and the generator cathode are connected with the generator connecting wire socket through the anode conductive stud and the cathode conductive stud.

Furthermore, the upper cover of the ozone water generator is inserted into the generator connecting port of the base, and the water inlet and the water outlet of the generator are communicated with the generator connecting port on the top seat; the upper cover is provided with an upper buckle, the lower part of the base is provided with a lower buckle, and the upper buckle and the lower buckle are connected in a clamping manner.

Furthermore, the control box cover is composed of a control box lower cover and a control box upper cover, a generator connecting wire socket and a power supply inlet wire socket are respectively arranged on two sides of the control box upper cover, and a generator control panel is arranged in the control box upper cover.

The utility model has the advantages that: the utility model directly uses tap water as electrolysis water to directly generate ozone water; the problems that the lead dioxide catalyst is easy to be poisoned and loses catalytic activity and the lead pollutes the environment are solved, and the cost is low; the quick-assembly and quick-disassembly design ensures that the generator is easy to replace and convenient to operate, and the coating titanium anode manufacturing process is simple to operate and easy for large-scale production. It has the following components:

1. the ozone water generator of the utility model directly uses tap water, the generator is connected with constant current direct current, water is electrolyzed under the action of an electric field, and oxygen ions generate ozone micro bubbles under the action of an anode catalyst. The ozone micro-bubbles are quickly dissolved in water to directly generate ozone water. The link of generating ozone gas and mixing with water to generate ozone water which is commonly adopted at present is saved, and the utility model has the advantages of simple structure and low cost.

2. The utility model adopts the tin dioxide coating as the anode, the process operation is simple, and the scale production is easy. Solves the problems that the lead dioxide catalyst is easy to be poisoned and loses catalytic activity and the lead pollutes the environment, and the cost of the tin dioxide coating is low.

3. The utility model discloses a fast-assembling makes the generator easily change with the design of quick-release formula, convenient operation.

4. The flow switch is adopted to sense the water flow change and directly generate ozone water according to the requirement.

Description of the drawings:

fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure of the ozone water generator of FIG. 1;

FIG. 3 is a schematic structural view of the top seat of FIG. 1;

fig. 4 is a schematic block diagram of the present invention.

The specific implementation mode is as follows: the following detailed description of the embodiments of the present invention is made with reference to the accompanying drawings:

as shown in fig. 1-4, a disinfection system for directly generating ozone water in a water pipeline comprises an ozone water generator 1 and a top seat 2 movably connected with the ozone water generator, wherein the ozone water generator 1 comprises n generator anodes 1-4 and n +1 generator cathodes 1-3, n is a natural number not less than 1, and the generator anodes 1-4 and the generator cathodes 1-3 are arranged in a crossed manner to ensure the maximum effective acting area; wherein, the generator anode 1-4 is a coating titanium anode, at least 1 piece, the material of the generator cathode 1-3 is metallic titanium or stainless steel, preferably metallic titanium; the bottom parts of 1-4 anodes of each generator are electrically connected; the bottoms of the cathodes 1-3 of the generators are electrically connected; the generator anode 1-4 and the generator cathode 1-3 are both fixed on the generator shell container barrel 1-5 and are respectively connected with the anode and the cathode of the generator through the anode conductive stud 1-9 and the cathode conductive stud 1-8, and the generator bottom cover 1-7 is arranged at the bottom of the generator shell container barrel 1-5 to protect the charged part. The top of the generator anode 1-4 and the generator cathode 1-3 is provided with a clapboard 1-2 to avoid the short circuit of the anode and the cathode. The top of the generator shell container barrel 1-5 is provided with an upper cover 1-1, and the upper cover 1-1 is provided with a generator water inlet 1-1-1 and a generator water outlet 1-1-2; an anode conductive stud 1-9 and a cathode conductive stud 1-8 which are connected with a generator connecting wire socket 2-5 are arranged in a generator shell container barrel 1-5, and a generator anode 1-4 and a generator cathode 1-3 are connected with the generator connecting wire socket 2-5 through the anode conductive stud 1-9 and the cathode conductive stud 1-8. The upper cover 1-1 is provided with an upper buckle 1-1-3. The footstock 2 comprises a base 2-1, a lower buckle 2-1-1 is connected with the lower part of the base 2-1, a base water inlet 2-1-2 and a base water outlet 2-1-3 are respectively arranged at two ends of the base 2-1, a generator connector 2-1-4 is arranged at the lower end of the middle part of the base 2-1, a damping valve 2-2 is arranged in the base 2-1, a flow switch 2-3 is arranged above the base 2-1, the water inlet of the flow switch 2-3 is connected with the base water inlet 2-1-2 through a pipeline, the water outlet of the flow switch 2-3 is connected with the base water outlet 2-1-3 through a pipeline, a control box lower cover 2-8 and a control box upper cover 2-4 are connected with the upper part of the base 2-1, a generator connecting wire socket 2-5 and a power supply wire socket 2-4 are respectively arranged 6, a generator control board 2-7 is arranged inside the control box upper cover 2-4. The generator control board 2-7 is connected with the flow switch 2-3, the generator control board 2-7 is connected with an external power supply through a power supply inlet wire socket 2-6, and the generator control board 2-7 is connected with the cathode conductive stud 1-8 and the anode conductive stud 1-9 through a generator connecting wire socket 2-5.

Inserting an ozone water generator 1 into a top seat 2, namely inserting an upper cover 1-1 of the ozone water generator 1 into a generator connecting port 2-1-4 of a base 2-1, then rotating the ozone water generator 1 to fasten the ozone water generator through an upper buckle 1-1-3 and a lower buckle 2-1-1 of the base 2-1, and sealing through an O-shaped sealing ring 1-6 on the water inlet and outlet position of the upper cover of the ozone water generator 1; and the water inlet 1-1-1 and the water outlet 1-1-2 of the generator are communicated with the generator connector 2-1-4 on the top seat 2.

Immersing a generator anode and a generator cathode of an ozone water generator consisting of a coating titanium anode into water with the conductivity of more than 30 mus/cm; and then supplying power for the anode of the generator and the cathode of the generator by constant current, wherein the range of the power supply voltage is 3.5-12V. Water is electrolyzed under the action of the electric field, and oxygen ions generate ozone microbubbles under the action of the anode catalyst. The ozone micro-bubbles are quickly dissolved in water to directly generate ozone water.

When the water-saving device is used, water is firstly electrified, when water flows in a pipeline, water with the conductivity larger than 30 mu s/cm is divided into two paths through a water inlet 2-1-2 of a base, one path directly enters a water outlet 2-1-3 of the base through a flow switch 2-3, the other path enters the interior of a generator through a damping valve 2-2 and a water inlet 1-1-1 of the generator, the damping valve 2-2 has the function of ensuring that the flow switch 2-3 is divided into enough water flow, so that the flow switch 2-3 is more sensitive, a signal of the flow switch 2-3 is transmitted to a generator control panel 2-7, the generator control panel 2-7 provides constant current power supply for the generator through a generator connecting wire socket 2-5 and through a cathode conductive stud 1-8 and an anode conductive stud 1-9, the power supply voltage range is 3.5-12V, and the generator is started to work. Under the action of the electric field, water is electrolyzed, and oxygen ions generate ozone and oxygen microbubbles under the action of the anode catalyst. The ozone micro-bubbles are quickly dissolved in water to directly generate ozone water. The ozone water is converged into the water outlet 2-1-3 of the base through the water outlet 1-1-2 of the generator and flows out for removing the biomembrane on the pipe wall and sterilizing the water in the pipeline. When the water in the pipeline stops flowing, the generator control panel 2-7 can immediately stop supplying power to the ozone water generator 1 after obtaining a water cut-off signal; if it is desired to obtain ozone water with higher concentration in the next usage period, the power supply to the ozone water generator 1 can be continued for a while and then stopped, preferably delayed for 10 seconds, by setting the generator control boards 2 to 7, so that the ozone water with high concentration is stored in the ozone water generator 1, and the ozone water with high concentration is instantly supplied in the next usage period to meet some application fields.

It should be understood that parts of the specification not set forth in detail are well within the prior art. The above embodiments are only for describing the preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, and various modifications and improvements made by those skilled in the art without departing from the spirit of the present invention should fall within the protection scope defined by the claims of the present invention.

Claims (4)

1. A disinfection system for directly generating ozone water in a water pipeline comprises an ozone water generator (1) and a top seat (2) movably connected with the ozone water generator, and is characterized in that the ozone water generator (1) comprises n generator anodes (1-4) and n +1 generator cathodes (1-3), wherein n is a natural number more than or equal to 1, the generator anodes (1-4) are coating titanium anodes, and the generator cathodes (1-3) are metal titanium cathodes or stainless steel cathodes; the footstock (2) comprises a base (2-1), the base (2-1) is provided with a base water inlet (2-1-2), a base water outlet (2-1-3) and a generator connector (2-1-4), a damping valve (2-2) is arranged in the base (2-1), a flow switch (2-3) is arranged above the base (2-1), the water inlet of the flow switch (2-3) is connected with the base water inlet (2-1-2) through a pipeline, the water outlet of the flow switch (2-3) is connected with the base water outlet (2-1-3) through a pipeline, a control box cover connected above the base (2-1) is provided with a generator connecting socket (2-5) and a power supply inlet wire socket (2-6), a generator control panel (2-7) is arranged in the control box cover; the generator control board (2-7) is connected with the flow switch (2-3), the generator control board (2-7) is connected with an external power supply through a power supply inlet wire socket (2-6), and the generator control board (2-7) is connected with the generator anode (1-4) and the generator cathode (1-3) through a generator connecting wire socket (2-5).

2. A system for direct ozonated water disinfection in a water line according to claim 1, wherein the generator anodes (1-4) are arranged across the generator cathodes (1-3), the bottom of each generator anode (1-4) is electrically connected, and the bottom of each generator cathode (1-3) is electrically connected; the generator anode (1-4) and the generator cathode (1-3) are both fixed on the generator shell container barrel (1-5), and the generator bottom cover (1-7) is arranged at the bottom of the generator shell container barrel (1-5); the top of the generator anode (1-4) and the generator cathode (1-3) is provided with a clapboard (1-2), the top of the generator shell container barrel (1-5) is provided with an upper cover (1-1), and the upper cover (1-1) is provided with a generator water inlet (1-1-1) and a generator water outlet (1-1-2); an anode conductive stud (1-9) and a cathode conductive stud (1-8) which are connected with a generator connecting wire socket (2-5) are arranged in a generator shell container barrel (1-5), and a generator anode (1-4) and a generator cathode (1-3) are connected with the generator connecting wire socket (2-5) through the anode conductive stud (1-9) and the cathode conductive stud (1-8).

3. The disinfection system for directly generating ozone water in a water pipeline according to claim 2, wherein the upper cover (1-1) of the ozone water generator (1) is inserted into the generator connecting port (2-1-4) of the base (2-1), and the generator water inlet (1-1-1) and the generator water outlet (1-1-2) are communicated with the generator connecting port (2-1-4) on the top seat (2); an upper buckle (1-1-3) is arranged on the upper cover (1-1), a lower buckle (2-1-1) is arranged below the base (2-1), and the upper buckle (1-1-3) is clamped with the lower buckle (2-1-1).

4. A disinfecting system for directly generating ozone water in water pipeline according to claim 1, characterized in that said control box cover is composed of a control box lower cover (2-8) and a control box upper cover (2-4), both sides of the control box upper cover (2-4) are respectively equipped with a generator connecting socket (2-5) and a power inlet socket (2-6), and a generator control panel (2-7) is arranged in the control box upper cover (2-4).

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