CN213294827U

CN213294827U - Efficient electrolysis sewage treatment device

Info

Publication number: CN213294827U
Application number: CN202021854450.4U
Authority: CN
Inventors: 尹永明; 周春松; 葛东方
Original assignee: Yixing Yongjie Environmental Protection Equipment Co ltd
Current assignee: Yixing Yongjie Environmental Protection Equipment Co ltd
Priority date: 2020-08-31
Filing date: 2020-08-31
Publication date: 2021-05-28
Anticipated expiration: 2030-08-31

Abstract

The utility model discloses an efficient electrolytic sewage treatment device, wherein a left and right moving groove which is in a rectangular groove shape and penetrates left and right is formed at the lower part of an electrolytic tank; the upper side wall of the left-right moving groove is flush with the lower end faces of the anode electrode plate and the cathode electrode plate respectively; the dirt removing device comprises a cuboid lifting scraping plate and a rectangular frame-shaped horizontal scraping frame; the lifting wiping plate is arranged in the electrolytic bath in a lifting way, and a pair of vertical jacks respectively matched with the anode electrode plate and the cathode electrode plate are formed on the lifting wiping plate; the lifting wiping plate is vertically sleeved on the anode electrode plate and the cathode electrode plate; the horizontal wiping frame is inserted into the left-right moving groove from left to right, and a left closing plate is formed at the left end of the horizontal wiping frame; the utility model has the advantages that: simple structure, the vertical removal and the horizontal removal of wiping the frame through the lift wiping board accomplish the scrubbing work of positive pole plate, negative electrode plate and filter upside, and easy operation effectively improves electrolysis efficiency.

Description

Efficient electrolysis sewage treatment device

Technical Field

The utility model relates to a technical field of electrolysis sewage, concretely relates to efficient electrolysis sewage treatment device.

Background

Electrolytic catalytic oxidation technique is mainly applied to high concentration, the preliminary treatment of the organic chemical industry sewage of high salinity difficult degradation, change the molecular structure of difficult degradation material in the sewage, reduce the COD of sewage, improve the biodegradability of sewage, make the sewage of considerable part can reach the purpose of administering, and current electrolytic catalytic oxidation sewage treatment plant is after long-time the use, can produce a large amount of mud residues, influence electrolytic catalytic oxidation sewage treatment plant's electrolytic catalytic oxidation effect, but the process that present electrolysis equipment handled residual sludge is wasted time and energy, the effect is poor.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an efficient electrolysis sewage treatment device aiming at the technical problem that the process of the existing electrolysis device for treating the residual sludge wastes time and energy.

The utility model provides an above-mentioned technical problem's technical scheme as follows: an efficient electrolytic sewage treatment device comprises an electrolytic tank and a decontamination device, wherein the electrolytic tank is hollow and cuboid; the bottom of the electrolytic cell is provided with a plurality of supporting legs; a drain pipe is arranged in the center of the bottom of the electrolytic bath; an anode electrode plate and a cathode electrode plate which are arranged in bilateral symmetry are arranged on the upper side wall of the electrolytic cell; the upper part of the left side wall of the electrolytic bath is provided with a water inlet pipe, and the upper part of the right side wall is provided with an exhaust pipe; a filter plate is arranged at the bottom inside the electrolytic cell; the lower end faces of the anode electrode plate and the cathode electrode plate are flush; gaps are respectively arranged between the upper end surface of the filter plate and the lower end surfaces of the anode electrode plate and the cathode electrode plate; a left and right moving groove which is in a rectangular groove shape and penetrates left and right is formed at the lower part of the electrolytic tank; a blocking plate is formed on the right end surface of the electrolytic cell and seals a right end outlet of the left-right moving cell; the upper side wall of the left-right moving groove is flush with the lower end faces of the anode electrode plate and the cathode electrode plate respectively; the lower side wall of the left-right moving groove is flush with the upper end surface of the filter plate; the dirt removing device comprises a cuboid lifting scraping plate and a rectangular frame-shaped horizontal scraping frame; the length and width of the lifting scraping plate are the same as the length and width of the interior of the electrolytic bath; the lifting wiping plate is arranged in the electrolytic bath in a lifting way, and a pair of vertical jacks respectively matched with the anode electrode plate and the cathode electrode plate are formed on the lifting wiping plate; the lifting wiping plate is vertically sleeved on the anode electrode plate and the cathode electrode plate; the horizontal wiping frame is inserted into the left-right moving groove from left to right, and a left closing plate is formed at the left end of the horizontal wiping frame; when the horizontal wiping frame is completely inserted into the left and right moving groove, the left closing plate is tightly attached to the left end surface of the electrolytic bath.

Preferably, a pair of lifting cylinders which are arranged symmetrically left and right are fixed on the upper end surface of the electrolytic bath; the lifting scraping plate is fixed at the lower end of the piston rods of the pair of lifting cylinders.

Preferably, the lifting wiper plate is provided with a water supply pipe; the water supply pipe vertically penetrates through the upper side wall of the electrolytic bath; a plurality of nozzles which are uniformly distributed are embedded in the lower end surface of the lifting wiping plate; the water supply pipe is communicated with the nozzle; the other end of the water supply pipe is connected with an external water supply device.

Preferably, the bottom of the electrolytic bath is provided with a plurality of evenly distributed sewage pipes; the drain pipe and the water discharge pipe are respectively provided with a valve.

Preferably, the horizontal wiping frame is sleeved with a rectangular frame-shaped sealing ring; the sealing ring is positioned between the left closing plate and the left end surface of the electrolytic tank.

Preferably, a plurality of connecting screws which are uniformly distributed are arranged on the left end surface of the electrolytic cell; the connecting screw rod is screwed with a connecting nut; the left closing plate is sleeved on the connecting screw rod from left to right and is fixed through the connecting nut.

Preferably, a pull ring is disposed on the left end surface of the left closing plate.

Preferably, the bottom surface of the supporting leg is provided with a mounting limit plate.

The beneficial effects of the utility model reside in that: simple structure, the vertical removal and the horizontal removal of wiping the frame through the lift wiping board accomplish the scrubbing work of positive pole plate, negative electrode plate and filter upside, and easy operation effectively improves electrolysis efficiency.

Drawings

FIG. 1 is a schematic structural view of a cross section of the electrolytic cell of the present invention;

FIG. 2 is a schematic structural view of a cross section of the utility model during decontamination;

in the figure, 10, an electrolytic cell; 100. a groove is moved left and right; 11. supporting legs; 12. mounting a limiting plate; 13. a water inlet pipe; 14. an exhaust pipe; 15. a blocking plate; 16. a drain pipe; 17. a blow-off pipe; 18. a filter plate; 19. Connecting a screw rod; 191. a connecting nut; 20. a decontamination device; 21. a lifting cylinder; 22. a lifting wiping plate; 23. a water supply pipe; 24. a nozzle; 25. a horizontal wiping frame; 251. a left closure plate; 252. a pull ring; 26. A seal ring; 30. an anode electrode plate; 40. and a cathode electrode plate.

Detailed Description

As shown in FIGS. 1 and 2, an efficient electrolytic sewage treatment apparatus comprises an electrolytic bath 10 having a hollow rectangular parallelepiped shape inside and a sewage disposal device 20; the bottom of the electrolytic cell 10 is provided with a plurality of supporting legs 11; a drain pipe 16 is arranged at the center of the bottom of the electrolytic bath 10; an anode electrode plate 30 and a cathode electrode plate 40 which are arranged symmetrically left and right are arranged on the upper side wall of the electrolytic cell 10; the upper part of the left side wall of the electrolytic bath 10 is provided with a water inlet pipe 13, and the upper part of the right side wall is provided with an exhaust pipe 14; the bottom inside the electrolytic cell 10 is provided with a filter plate 18; the lower end faces of the anode electrode plate 30 and the cathode electrode plate 40 are flush; gaps are respectively arranged between the upper end surface of the filter plate 18 and the lower end surfaces of the anode electrode plate 30 and the cathode electrode plate 40; a left-right moving groove 100 in a rectangular groove shape penetrating left and right is formed at the lower part of the electrolytic bath 10; a blocking plate 15 is formed on the right end face of the electrolytic cell 10, and the blocking plate 15 seals the outlet at the right end of the left-right moving cell 100; the upper side wall of the left-right moving groove 100 is flush with the lower end faces of the anode electrode plate 30 and the cathode electrode plate 40 respectively; the lower side wall of the left-right moving groove 100 is flush with the upper end surface of the filter plate 18; the dirt removing device 20 includes a rectangular parallelepiped elevating wiper plate 22 and a rectangular frame-shaped horizontal wiper frame 25; the length and width of the lifting wiper 22 are the same as the length and width of the interior of the electrolytic bath 10; the lifting wiping plate 22 is arranged in the electrolytic bath 10 in a lifting way, and a pair of vertical insertion holes respectively matched with the anode electrode plate 30 and the cathode electrode plate 40 are formed on the lifting wiping plate 22; the lifting wiping plate 22 is vertically sleeved on the anode electrode plate 30 and the cathode electrode plate 40; the horizontal wiper frame 25 is inserted into the left-right movement groove 100 from left to right and a left closing plate 251 is formed at the left end of the horizontal wiper frame 25; when the horizontal wiper frame 25 is completely inserted into the left-right moving bath 100, the left closing plate 251 is closely attached to the left end surface of the electrolytic bath 10.

As shown in fig. 1 and 2, a pair of lifting cylinders 21 arranged in bilateral symmetry are fixed on the upper end surface of the electrolytic cell 10; the elevation wiper 22 is fixed to the lower ends of the piston rods of the pair of elevation cylinders 21.

As shown in fig. 1 and 2, the lifting wiper plate 22 is provided with a water supply pipe 23; the water supply pipe 23 vertically penetrates the upper sidewall of the electrolytic bath 10; a plurality of nozzles 24 which are uniformly distributed are embedded in the lower end surface of the lifting wiping plate 22; the water supply pipe 23 communicates with the nozzle 24; the other end of the water supply pipe 23 is connected to an external water supply device.

As shown in figures 1 and 2, a plurality of evenly distributed sewage pipes 17 are arranged at the bottom of the electrolytic tank 10; the drain pipe 17 and the drain pipe 16 are respectively provided with a valve.

As shown in fig. 1 and 2, a rectangular frame-shaped seal ring 26 is fitted over the horizontal wiping frame 25; the sealing ring 26 is located between the left closing plate 251 and the left end face of the electrolytic cell 10.

As shown in fig. 1 and 2, a plurality of connecting screws 19 are uniformly distributed on the left end surface of the electrolytic cell 10; the connecting screw rod 19 is screwed with a connecting nut 191; the left closing plate 251 is sleeved on the connecting screw rod 19 from left to right and is fixed by the connecting nut 191.

As shown in fig. 1 and 2, a pull ring 252 is provided on a left end surface of the left closing plate 251.

As shown in fig. 1 and 2, a mounting stopper plate 12 is provided on the bottom surface of the support leg 11.

The working principle of the high-efficiency electrolytic sewage treatment equipment;

during electrolysis, as shown in fig. 1, the lifting scraping plate 22 is at the uppermost end, the horizontal scraping frame 25 is at the rightmost end, the left closing plate 251 is tightly attached to the left end face of the electrolytic cell 10, sewage enters from the water inlet pipe 13 and is electrolyzed through the anode electrode plate 30 and the cathode electrode plate 40, so that pollutants are precipitated, and treated water is discharged through the water discharge pipe 16;

when removing the dirt, as shown in fig. 2, firstly emptying the electrolytic tank 10, then descending the lifting wiping plate 22 until the lower end surface of the lifting wiping plate 22 is flush with the lower end surfaces of the anode electrode plate 30 and the cathode electrode plate 40 respectively, so that the lifting wiping plate 22 wipes the inner side walls of the anode electrode plate 30, the cathode electrode plate 40 and the electrolytic tank 10 in the descending process, then manually pulling the horizontal wiping frame 25 leftwards, so that the horizontal wiping frame 25 wipes the upper end surface of the filter plate 18, the lower end surface of the cathode electrode plate 40, the lower end surface of the anode electrode plate 30 and the lower end surface of the lifting wiping plate 22, so that the sludge leaves the electrolytic tank 10 along with the horizontal wiping frame 25, then the horizontal wiping frame 25 returns to the right, then the nozzle 24 sprays water to wash the filter screen 18, and finally the sewage is discharged from the sewage discharge pipe 17; and finally, the lifting scraping plate 22 rises to return, so that decontamination is completed, and the process is simple to operate and good in decontamination effect.

The above description is only for the preferred embodiment of the present invention, and for those skilled in the art, there are variations on the detailed description and the application scope according to the idea of the present invention, and the content of the description should not be construed as a limitation to the present invention.

Claims

1. An efficient electrolysis sewage treatment device, which is characterized in that: comprises an electrolytic tank (10) with a hollow cuboid shape inside and a decontamination device (20); the bottom of the electrolytic cell (10) is provided with a plurality of supporting legs (11); a drain pipe (16) is arranged at the center of the bottom of the electrolytic cell (10); an anode electrode plate (30) and a cathode electrode plate (40) which are arranged symmetrically left and right are arranged on the upper side wall of the electrolytic cell (10); a water inlet pipe (13) is arranged on the upper part of the left side wall of the electrolytic tank (10), and an exhaust pipe (14) is arranged on the upper part of the right side wall; a filter plate (18) is arranged at the bottom inside the electrolytic cell (10); the lower end faces of the anode electrode plate (30) and the cathode electrode plate (40) are flush; gaps are respectively arranged between the upper end surface of the filter plate (18) and the lower end surfaces of the anode electrode plate (30) and the cathode electrode plate (40); a left-right moving groove (100) which is in a rectangular groove shape and penetrates left and right is formed at the lower part of the electrolytic tank (10); a blocking plate (15) is formed on the right end face of the electrolytic cell (10), and the blocking plate (15) seals the outlet at the right end of the left-right moving cell (100); the upper side wall of the left-right moving tank (100) is flush with the lower end faces of the anode electrode plate (30) and the cathode electrode plate (40) respectively; the lower side wall of the left-right moving groove (100) is flush with the upper end surface of the filter plate (18); the decontamination device (20) comprises a cuboid lifting wiping plate (22) and a rectangular frame-shaped horizontal wiping frame (25); the length and width of the lifting wiping plate (22) are the same as the length and width of the interior of the electrolytic bath (10); the lifting wiping plate (22) is arranged in the electrolytic bath (10) in a lifting way, and a pair of vertical insertion holes which are respectively matched with the anode electrode plate (30) and the cathode electrode plate (40) are formed on the lifting wiping plate (22); the lifting wiping plate (22) is vertically sleeved on the anode electrode plate (30) and the cathode electrode plate (40); the horizontal wiping frame (25) is inserted into the left-right moving groove (100) from left to right, and a left closing plate (251) is formed at the left end of the horizontal wiping frame (25); when the horizontal wiping frame (25) is completely inserted into the left and right moving groove (100), the left closing plate (251) is closely attached to the left end surface of the electrolytic bath (10).

2. The apparatus for treating electrolytic wastewater according to claim 1, wherein: a pair of lifting cylinders (21) which are arranged symmetrically left and right are fixed on the upper end surface of the electrolytic bath (10); the lifting scraping plate (22) is fixed at the lower end of the piston rod of the pair of lifting cylinders (21).

3. The apparatus for treating electrolytic wastewater according to claim 1, wherein: a water supply pipe (23) is arranged on the lifting wiping plate (22); a water supply pipe (23) vertically penetrates through the upper side wall of the electrolytic tank (10); a plurality of nozzles (24) which are uniformly distributed are embedded in the lower end surface of the lifting wiping plate (22); the water supply pipe (23) is communicated with the nozzle (24); the other end of the water supply pipe (23) is connected to an external water supply device.

4. A high efficiency electrolytic wastewater treatment apparatus according to claim 3, wherein: a plurality of evenly distributed sewage pipes (17) are arranged at the bottom of the electrolytic tank (10); valves are respectively arranged on the sewage discharge pipe (17) and the water discharge pipe (16).

5. The apparatus for treating electrolytic wastewater according to claim 1, wherein: a rectangular frame-shaped sealing ring (26) is sleeved on the horizontal wiping frame (25); the sealing ring (26) is positioned between the left closing plate (251) and the left end face of the electrolytic cell (10).

6. The apparatus for treating electrolytic wastewater according to claim 1, wherein: a plurality of connecting screw rods (19) which are uniformly distributed are arranged on the left end surface of the electrolytic cell (10); a connecting nut (191) is screwed on the connecting screw rod (19); the left closing plate (251) is sleeved on the connecting screw rod (19) from left to right and is fixed through a connecting nut (191).

7. The apparatus for treating electrolytic wastewater according to claim 1, wherein: a pull ring (252) is arranged on the left end face of the left closing plate (251).

8. The apparatus for treating electrolytic wastewater according to claim 1, wherein: the bottom surfaces of the supporting legs (11) are provided with installation limiting plates (12).