CN220537929U

CN220537929U - Sodium hypochlorite generator structure

Info

Publication number: CN220537929U
Application number: CN202321988499.2U
Authority: CN
Inventors: 周展朋
Original assignee: Yixing Shoujia Environmental Protection Equipment Co ltd
Current assignee: Yixing Shoujia Environmental Protection Equipment Co ltd
Priority date: 2023-07-27
Filing date: 2023-07-27
Publication date: 2024-02-27
Anticipated expiration: 2033-07-27

Abstract

The utility model discloses a sodium hypochlorite generator structure, wherein an electrolytic tank, a soft water pump and a brine pump are arranged on the front end surface of a vertical partition plate, and a water softener and a soft water tank are arranged behind the vertical partition plate; the left and right sides of the inside of the electrolytic cell are respectively provided with an electrolytic cell anode and an electrolytic cell cathode, and after the power is on, the electrolytic cell is electrolyzed without adding iodine salt solution to generate sodium hypochlorite solution with a certain concentration. According to the sodium hypochlorite generator, the soft water pump, the brine pump, the water softener, the soft water tank, the interconnected pipeline system and the valves on the pipelines are integrated in the cabinet body, so that the whole structure of the sodium hypochlorite generator is reduced in size and occupied space; the dilute brine is electrolyzed by adopting a diaphragm-free electrolysis method to prepare a low-concentration sodium hypochlorite solution, has the characteristics of easily available raw materials, pure products, safety and reliability, and is suitable for treating various chlorinated disinfectant waters.

Description

Sodium hypochlorite generator structure

Technical Field

The utility model relates to the technical field of sodium hypochlorite generators, in particular to a sodium hypochlorite generator structure.

Background

The sodium hypochlorite generator is a special device for generating a sodium hypochlorite disinfectant by electrolyzing a non-iodized salt solution. The produced sodium hypochlorite disinfectant is used in the prior art, is hardly attenuated in short-time storage, and has good disinfection effect. Sodium hypochlorite solution is a strong oxidant, can kill various organisms and bacteria in water, and can not chemically react with other substances in water, so that the treatment safety is far higher than that of other types of equipment. The method is commonly used in scenes such as running water plants, sewage treatment plants, secondary water supply, rural drinking water reconstruction, swimming pools and the like. The pipeline system among the devices of the existing sodium hypochlorite generator is complicated, so that the devices are scattered in installation and large in occupied area, and therefore, the sodium hypochlorite generator structure is provided.

Disclosure of Invention

The present utility model is directed to a sodium hypochlorite generator structure, which solves the above-mentioned problems.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the sodium hypochlorite generator structure comprises a cabinet body, wherein a vertical partition plate is arranged in the cabinet body, an electrolytic tank, a soft water pump and a brine pump are arranged on the front end surface of the vertical partition plate, the soft water pump and the brine pump are positioned below the electrolytic tank, and a water softener and a soft water tank are arranged behind the vertical partition plate;

the left and right sides of the inside of the electrolytic cell are respectively provided with an electrolytic cell anode and an electrolytic cell cathode, and after the power is on, the electrolytic cell is electrolyzed without adding iodine salt solution to generate sodium hypochlorite solution with a certain concentration.

The water softener is characterized in that the water softener box is connected with a water softener flow meter through a water softener pump, the water softener flow meter is connected with an electrolytic tank through a pipeline I, a first check valve and a flushing pipe with a flushing water inlet valve are further connected to the pipeline I, the flushing pipe is connected to the water softener and a water softener outlet, and the water softener outlet is further connected to the top of the water softener;

the bottom of the pipeline I is also connected with a sewage outlet and a pickling water inlet, the sewage outlet is provided with an electrolytic tank emptying valve, the top of the electrolytic tank is connected with a secondary acid outlet, the sewage outlet and a pickling water outlet through a pipeline II, and the joint of the sewage outlet and the pickling water outlet and the pipeline II is respectively provided with a flushing water valve and a pickling water outlet valve;

the top of the water softener is also connected with a brine inlet and a tap water inlet, and the brine inlet is connected with a first check valve through a brine pump.

Compared with the prior art, the utility model has the beneficial effects that: according to the sodium hypochlorite generator, the soft water pump, the brine pump, the water softener, the soft water tank, the interconnected pipeline system and the valves on the pipelines are integrated in the cabinet body, so that the whole structure of the sodium hypochlorite generator is reduced in size and occupied space;

the dilute brine is electrolyzed by adopting a diaphragm-free electrolysis method to prepare a low-concentration sodium hypochlorite solution, has the characteristics of easily available raw materials, pure products, safety and reliability, and is suitable for treating various chlorinated disinfectant waters.

Drawings

FIG. 1 is a schematic perspective view of the whole structure of the present utility model;

FIG. 2 is a schematic side view of the present utility model;

FIG. 3 is an enlarged schematic view of the structure of FIG. 2A according to the present utility model;

FIG. 4 is a schematic view of the front cross-sectional structure of the present utility model;

FIG. 5 is a schematic view of the rear cross-sectional structure of the present utility model;

FIG. 6 is a schematic perspective view showing the connection of the soft water flowmeter, the soft water pump, the water softener and the soft water tank according to the present utility model;

fig. 7 is a schematic perspective view of another view of fig. 6 according to the present utility model.

In the figure: 1. an upper cover; 2. a protective door; 3. a base; 4. a touch screen; 5. an observation window; 6. a cabinet body; 7. a standby port; 8. a secondary acid outlet; 9. a pickling water inlet; 10. a pickling water outlet; 11. a sewage outlet; 12. a brine inlet; 13. a tap water inlet; 14. a soft water outlet; 15. an electrolytic cell; 16. a vertical partition; 17. a soft water flowmeter; 18. a soft water pump; 19. a first check valve; 20. a brine pump; 21. an electrolyzer vent valve; 22. flushing out the water valve; 23. washing out a water valve by acid; 24. a rectifying cabinet; 25. a water softener; 26. a soft water tank; 27. flushing the water inlet valve.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-7, the present utility model provides a technical solution: the utility model provides a sodium hypochlorite generator structure, includes the cabinet body 6, the front and back surface upper portion of the cabinet body 6 all is equipped with touch-sensitive screen 4 and observation window 5, and the top of vertical baffle 16 is fixed with the diaphragm, and the rectifier cabinet 24 is installed to the diaphragm upper end, and touch-sensitive screen 4 is connected respectively in soft water flowmeter 17, soft water pump 18, brine pump 20, first check valve 19, electrolysis trough relief valve 21, flushing water intaking valve 27, flushing water outlet valve 22 and pickling water outlet valve 23 through the rectifier cabinet 24.

The inside of the cabinet body 6 is provided with a vertical partition plate 16, an electrolytic tank 15, a soft water pump 18 and a brine pump 20 which are positioned below the electrolytic tank 15 are arranged on the front end surface of the vertical partition plate 16, and a water softener 25 and a soft water tank 26 are arranged behind the vertical partition plate 16;

the top of the cabinet body 6 is fixed with an upper cover 1, lifting rings are arranged at four corners of the upper cover 1, the front and rear parts of the cabinet body 6 are respectively provided with a protective door 2, the bottom of the cabinet body 6 is provided with a base 3, and a soft water pump 18 and a brine pump 20 are arranged on the base 3.

The soft water tank 26 is connected with a soft water flowmeter 17 through a soft water pump 18, the soft water flowmeter 17 is connected with an electrolytic tank 15 through a pipeline I, the pipeline I is also connected with a first check valve 19 and a flushing pipe with a flushing water inlet valve 27, the flushing pipe is connected with a water softener 25 and a soft water outlet 14, and the soft water outlet 14 is also connected with the top of the water softener 25;

the bottom of the pipeline I is also connected with a sewage outlet 11 and a pickling water inlet 9, the sewage outlet 11 is provided with an electrolytic tank emptying valve 21, the top of the electrolytic tank 15 is connected with a secondary acid outlet 8, the sewage outlet 11 and a pickling water outlet 10 through a pipeline II, and the joints of the sewage outlet 11 and the pickling water outlet 10 and the pipeline II are respectively provided with a flushing water valve 22 and a pickling water outlet valve 23;

the top of the water softener 25 is also connected with a brine inlet 12 and a tap water inlet 13, and the brine inlet 12 is connected with a first check valve 19 through a brine pump 20.

A standby port 7 is arranged beside the secondary acid outlet 8 at the upper part of the side wall of the cabinet body 6, and an acid washing water inlet 9, an acid washing water outlet 10, a sewage outlet 11, a salt water inlet 12, a tap water inlet 13 and a soft water outlet 14 are sequentially arranged at the bottom of the side wall of the cabinet body 6.

Specifically, when in use, 3.5% of non-iodized salt solution is added into the equipment, sodium hypochlorite solution with a certain concentration is generated by electrolyzing the non-iodized salt solution, the sodium hypochlorite solution is stored, and then the sodium hypochlorite solution is added to a disinfection point by a metering pump.

Pouring industrial salt into a concentrated salt bucket, opening a soft water valve to introduce soft water into the concentrated salt bucket, dissolving the concentrated salt, pouring the concentrated salt into a dilute salt bucket from the concentrated salt bucket by using a concentrated salt pump, and then adding the soft water into the dilute salt bucket to prepare the 3.5% non-iodized salt solution.

Then, a valve is opened to adjust the brine pump 20, and 3.5% of the solution without iodine salt passes through a sandwich type electrolytic tank 15 consisting of a group of cathodes and anodes according to a set flow;

and starting the high-frequency switching power supply, and starting the sodium hypochlorite generator to work. Thus, the whole equipment produces the sodium hypochlorite disinfectant, and stores the sodium hypochlorite disinfectant in a sodium hypochlorite disinfectant container for storage for later use, so that the sodium hypochlorite disinfectant is added at any time, and then the sodium hypochlorite disinfectant is added into water to be treated by using the adding metering pump.

Through the series of operations, the sodium hypochlorite disinfectant with sterilizing effect can be continuously produced by using the sodium hypochlorite generator.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims

1. Sodium hypochlorite generator structure, including cabinet body (6), its characterized in that: the novel water softener is characterized in that a vertical partition plate (16) is arranged in the cabinet body (6), an electrolytic tank (15), a soft water pump (18) and a brine pump (20) are arranged on the front end surface of the vertical partition plate (16), and a water softener (25) and a soft water tank (26) are arranged behind the vertical partition plate (16);

the soft water tank (26) is connected with a soft water flowmeter (17) through a soft water pump (18), the soft water flowmeter (17) is connected with an electrolytic tank (15) through a pipeline I, the pipeline I is also connected with a first check valve (19) and a flushing pipe with a flushing water inlet valve (27), the flushing pipe is connected with a soft water softener (25) and a soft water outlet (14), and the soft water outlet (14) is also connected with the top of the soft water softener (25);

the bottom of the pipeline I is also connected with a drain outlet (11) and a pickling water inlet (9), an electrolytic tank emptying valve (21) is arranged on the drain outlet (11), the top of the electrolytic tank (15) is connected with a secondary acid outlet (8), the drain outlet (11) and a pickling water outlet (10) through a pipeline II, and a flushing water valve (22) and a pickling water outlet valve (23) are respectively arranged at the joint of the drain outlet (11) and the pickling water outlet (10) and the pipeline II;

the top of the water softener (25) is also connected with a brine inlet (12) and a tap water inlet (13), and the brine inlet (12) is connected with a first check valve (19) through a brine pump (20).

2. A sodium hypochlorite generator structure as claimed in claim 1, wherein: the utility model discloses a solar energy water heater, including cabinet body (6), baffle, brine pump (18), brine pump (20), first check valve (19), electrolysis trough blow valve (21), wash water intaking valve (27), wash out water valve (22) and pickling play water valve (23), front and back surface upper portion of cabinet body (6) all is equipped with touch-sensitive screen (4) and observation window (5), and the top of vertical baffle (16) is fixed with the diaphragm, and rectifier cabinet (24) are installed to the diaphragm upper end, and touch-sensitive screen (4) are connected respectively in soft water flowmeter (17), soft water pump (18), brine pump (20) through rectifier cabinet (24).

3. A sodium hypochlorite generator structure as claimed in claim 2, wherein: the top of the cabinet body (6) is fixed with an upper cover (1), lifting rings are arranged at four corners of the upper cover (1), the front and rear parts of the cabinet body (6) are respectively provided with a protective door (2), the bottom of the cabinet body (6) is provided with a base (3), and a soft water pump (18) and a brine pump (20) are arranged on the base (3).

4. A sodium hypochlorite generator structure as claimed in claim 1, wherein: a standby port (7) is arranged beside a secondary acid outlet (8) at the upper part of the side wall of the cabinet body (6), and an acid washing water inlet (9), an acid washing water outlet (10), a sewage draining outlet (11), a brine inlet (12), a tap water inlet (13) and a soft water outlet (14) are sequentially arranged at the bottom of the side wall of the cabinet body (6).