CN211226485U - Electrolysis device for purifying water - Google Patents

Abstract

The utility model discloses a water purification's electrolytic device, it is including handling case and aeration pipe, and the aeration pipe is arranged in the bottom of handling the case, and the first water inlet has been arranged to the bottom of handling the case, and a plurality of first exhanst exits have been arranged on the lateral wall upper portion of handling the case. The first water inlet is designed at the bottom, and the first discharge port is designed at the upper part, so that the flow path of the wastewater is prolonged, the electrolysis process in wastewater treatment is prolonged, and the electrolysis can be promoted. The utility model has reasonable structure, improves the electrolysis effect, and can be widely applied to the technical field of aquaculture.

Description

Electrolysis device for purifying water

Technical Field

The utility model relates to the technical field of aquaculture, in particular to an electrolytic device for purifying water quality.

Background

With the development of scientific technology and the innovation of aquaculture concepts and industrial aquaculture, the method realizes water recycling and full-name closed management and becomes an environment-friendly aquaculture production mode with high quality, high efficiency, energy conservation and emission reduction. No matter in factory cultivation or traditional cultivation mode, in order to prevent diseases of aquatic products, cultivation waste water must be treated, and the electrolysis effect of the conventional electrolysis device is difficult to achieve the best effect when the electrolysis device is used for treating waste water.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of providing an electrolysis device for purifying water quality, which can ensure the electrolysis effect when treating waste water.

The technical scheme adopted for solving the technical problems is as follows:

the electrolytic device for purifying water quality comprises a treatment tank and an aeration pipe, wherein the aeration pipe is arranged at the bottom of the treatment tank, a first water inlet is arranged at the bottom of the treatment tank, and a plurality of first discharge outlets are arranged on the upper part of the side wall of the treatment tank.

Further, a base used for installing an aeration pipe is arranged at the bottom of the treatment box, and the first water inlet is positioned at the bottom of the base.

Further, an electrolytic medium cartridge and two electrodes are arranged in the treatment tank, the electrolytic medium cartridge being located between the two electrodes.

Further, the electrode is a titanium sheet or graphite.

Further, an upper cover is arranged on the top of the treatment box, and a plurality of second discharge ports are formed in the side wall of the upper cover.

Further, two first connecting portions for mounting the electrodes, respectively, are arranged in the upper cover.

Furthermore, an interlayer is arranged in the treatment box, and a pipeline for connecting an aeration pipe is arranged in the interlayer.

Has the advantages that: the first water inlet is designed at the bottom, and the first discharge port is designed at the upper part, so that the flow path of the wastewater is prolonged, the electrolysis process in wastewater treatment is prolonged, and the electrolysis can be promoted. The utility model has reasonable structure, improves the electrolysis effect, and can be widely applied to the technical field of aquaculture.

Drawings

FIG. 1 is a view showing an internal structure of an electrolyzer;

FIG. 2 is an exploded view of the electrolyzer.

Detailed Description

The present invention will be further described with reference to fig. 1 to 2.

The utility model relates to a water purification's electrolytic device, it is including handling case 11 and aeration pipe 12, and aeration pipe 12 arranges in the bottom of handling case 11, and the first water inlet has been arranged to the bottom of handling case 11, and a plurality of first discharge outlet 13 have been arranged on the lateral wall upper portion of handling case 11. The aeration pipe 12 is used for aeration in the electrolysis device, the gas drives the wastewater to pass through the treatment box 11 from bottom to top, the treatment time of the wastewater can be prolonged, the electrolysis is promoted, and better water purification effect can be achieved through water-gas mixing.

The aquaculture waste water gets into the back from first water inlet, gets into treatment case 11 inner chamber under the effect of aeration pipe 12, discharges from first discharge port 13 after treating case 11 electrolysis, and first discharge port 13 is used for discharging the waste water after handling and the waste gas that produces.

An electrolytic medium box 14 and two electrodes 15 are arranged in the processing box 11, the electrodes 15 are titanium sheets or graphite, the electrodes 15 are substantially of a plate-shaped structure, the two electrodes 15 are oppositely arranged in parallel, and an electrolytic area is arranged between the two electrodes 15. The electrolytic medium box 14 is provided with a special catalyst medium, and can release high-activity hydroxyl free radicals after the electrode is conducted, so that waste in the water body is oxidized and degraded, and the water body purification effect is achieved. The electrolytic medium cartridge 14 is located between the two electrodes 15, and the electric charge in the wastewater passes through the electrolytic region, and hydroxyl radicals are generated by the electrolytic medium cartridge 14. As the wastewater passes through the electrolysis zone, the wastewater enters the bottom of the electrolytic media cartridge 14 and exits the top of the electrolytic media cartridge 14.

The first discharge ports 13 are divided into two groups, the two groups of first discharge ports 13 are respectively positioned at opposite positions of the treatment tank 11, and the two groups of first discharge ports 13 are positioned at positions staggered from the positions of the two electrodes 15, so that the wastewater can conveniently flow from the electrolysis area to the first discharge ports 13.

An upper cover 16 is arranged on the top of the treatment box 11, and a plurality of second discharge ports 17 are formed on the side wall of the upper cover 16, and waste gas generated in the electrolysis process can be discharged through the second discharge ports 17.

Two first connecting parts 18 used for installing the electrodes 15 are arranged in the upper cover 16 respectively, the upper ends of the first connecting parts 18 are of bolt structures, the upper ends of the first connecting parts 18 are connected with a power line and limited by nuts on the upper cover 16, the lower ends of the first connecting parts 18 are fixed with the corresponding electrodes 15, and the electrodes 15 are suspended in the inner cavity of the treatment box 11 through the first connecting parts 18 and the upper cover 16.

The bottom of the treatment tank 11 is provided with a base for mounting the aeration pipe 12, and the first water inlet is positioned at the bottom of the base. The base includes enclosing frame 20 and bottom plate 21, encloses frame 20 and installs on bottom plate 21, and aeration pipe 12 is located and encloses frame 20, and first water inlet is located bottom plate 21, and bottom plate 21 is installed through a plurality of bolt or screw and the bottom of handling the case 11. The base is separated from the inner cavity of the treatment box 11 by a partition plate 22, the partition plate 22 covers the enclosure frame 20, and a plurality of third water inlets are formed in the partition plate 22.

The treatment tank 11 is provided therein with a sandwich in which a pipe 19 for connecting the aeration tube 12 is disposed, and the upper cover 16 is formed with a second connection pipe 23 for mounting with the pipe 19.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art.

Claims (7)

1. The electrolytic device for purifying water quality is characterized in that: the device comprises a treatment box (11) and an aeration pipe (12), wherein the aeration pipe (12) is arranged at the bottom of the treatment box (11), a first water inlet is arranged at the bottom of the treatment box (11), and a plurality of first discharge outlets (13) are arranged on the upper part of the side wall of the treatment box (11).

2. An electrolysis apparatus for purifying water according to claim 1, wherein: the bottom of the treatment box (11) is provided with a base for installing an aeration pipe (12), and the first water inlet is positioned at the bottom of the base.

3. An electrolysis apparatus for purifying water according to claim 1, wherein: an electrolytic medium box (14) and two electrodes (15) are arranged in the processing box (11), and the electrolytic medium box (14) is positioned between the two electrodes (15).

4. An electrolysis apparatus for purifying water according to claim 3, wherein: the electrode (15) is a titanium sheet or graphite.

5. An electrolysis apparatus for purifying water according to claim 3, wherein: an upper cover (16) is arranged at the top of the treatment box (11), and a plurality of second discharge ports (17) are formed on the side wall of the upper cover (16).

6. An electrolysis apparatus for purifying water according to claim 5, wherein: two first connecting portions (18) for mounting the electrodes (15) are arranged in the upper cover (16).

7. An electrolysis apparatus for purifying water according to claim 1, wherein: an interlayer is arranged in the treatment box (11), and a pipeline (19) for connecting the aeration pipe (12) is arranged in the interlayer.

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