CN115159741B

CN115159741B - High-pulse electrolysis wastewater treatment device for wastewater treatment and with sufficient mixing materials

Info

Publication number: CN115159741B
Application number: CN202210821402.2A
Authority: CN
Inventors: 邓向荣
Original assignee: Guangdong Shaoke Environmental Protection Technology Co ltd
Current assignee: Guangdong Shaoke Environmental Protection Technology Co ltd
Priority date: 2022-07-12
Filing date: 2022-07-12
Publication date: 2023-04-07
Anticipated expiration: 2042-07-12
Also published as: CN115159741A

Abstract

The invention relates to the technical field of wastewater treatment, in particular to a fully-mixed high-pulse electrolysis wastewater treatment device for wastewater treatment. The technical problem of the invention is that: at present, when the waste water is subjected to electrolytic treatment, a redox reagent needs to be mixed into the waste water so as to improve the electrolytic efficiency, and the directly added reagent is difficult to be fully mixed with the waste water in a circulating state. The technical implementation scheme of the invention is as follows: a fully-mixed high-pulse electrolysis wastewater treatment device for wastewater treatment comprises a filter pipe, an impeller and the like; the middle part of the filter pipe is rotationally connected with two impellers. The invention realizes the electrolytic treatment of the wastewater, firstly separates out solid particles in the wastewater to avoid mixing with the electrolyzed impurities, then fully mixes the medicament with the wastewater, controls the amount of the added medicament according to the flow rate of the wastewater to avoid influencing the electrolytic efficiency of the wastewater, and in addition, timely cleans up the dirt generated on the surface of the cathode in the electrolytic process.

Description

High-pulse electrolysis wastewater treatment device for wastewater treatment and with sufficient mixing materials

Technical Field

The invention relates to the technical field of wastewater treatment, in particular to a fully-mixed high-pulse electrolysis wastewater treatment device for wastewater treatment.

Background

At present when carrying out electrolytic treatment to waste water, need sneak into redox medicament in the waste water, in order to improve electrolysis efficiency, to being in the waste water under the circulation state, directly add the medicament and be difficult to with waste water intensive mixing, and can't add the quantity of medicament according to the velocity of flow control of waste water, influence the electrolysis efficiency of waste water, there is solid particle's existence in some waste waters in addition, need to separate in advance and prevent to mix with the impurity of electrolyzing out, electrolysis in-process negative pole surface produces a large amount of dirt in addition, it is difficult to handle, lead to the energy consumption increase, the treatment effeciency reduces.

Disclosure of Invention

The invention provides a high-pulse electrolysis wastewater treatment device for wastewater treatment, which aims to overcome the defects that when the wastewater is subjected to electrolysis treatment at present, a redox reagent needs to be mixed into the wastewater to improve the electrolysis efficiency, the reagent is directly added into the wastewater in a circulating state and is difficult to be fully mixed with the wastewater, the quantity of the added reagent cannot be controlled according to the flow rate of the wastewater, and the electrolysis efficiency of the wastewater is influenced.

The technical scheme is as follows: a fully-mixed high-pulse electrolysis wastewater treatment device for wastewater treatment comprises a filter pipe; the device also comprises an impeller, a filtering unit, a first cleaning unit, a medicament releasing unit, a power unit, an electrolysis unit and a second cleaning unit; the right part of the filter pipe is connected with a filter unit which is used for filtering solid particles in the wastewater; the right part of the filter pipe is connected with two first cleaning units, and the first cleaning units are used for cleaning the filter units; the middle part of the filter pipe is connected with a medicament release unit which is used for releasing the medicament into the wastewater; the middle part of the filter pipe is connected with a power unit; the middle part of the filter pipe is rotationally connected with two impellers, and the two impellers are arranged in an up-and-down symmetrical manner; the power unit is connected with the two impellers and is used for driving the two impellers to rotate so as to fully mix the medicament with the wastewater; the left part of the filter pipe is connected with four electrolysis units which are arranged in an annular array and are used for electrolyzing the wastewater; the left part of the filter pipe is connected with four second cleaning units, the four second cleaning units are arranged in an annular array, and the second cleaning units are used for cleaning dirt generated on the surface of the electrolytic rod.

As a further preferable scheme, the filtering unit comprises a first mounting plate, a first electric sliding rail, a first electric sliding block, a second mounting plate, a straight spring, a connecting rod, a first filter screen, a third mounting plate, a pulley, a fourth mounting plate, a traction rope and a second filter screen; the right part of the upper side of the filter pipe is fixedly connected with a first mounting plate and a third mounting plate, and the third mounting plate is positioned on the right side of the first mounting plate; the right side of the first mounting plate is fixedly connected with a first electric slide rail; the first electric slide rail is connected with a first electric slide block in a sliding manner; the right side of the first electric sliding block is fixedly connected with a second mounting plate; the front part of the lower side and the rear part of the lower side of the second mounting plate are respectively and fixedly connected with a straight spring; the lower parts of the two straight springs are fixedly connected with a first filter screen; the front part of the upper side and the rear part of the upper side of the first filter screen are respectively and fixedly connected with a connecting rod; the two connecting rods are in sliding connection with the second mounting plate; the two straight springs are respectively sleeved on the outer surface of one connecting rod; the filter pipe is connected with the first filter screen in a sliding way; the upper part of the third mounting plate is rotatably connected with a pulley; the outer surface of the third mounting plate is connected with a fourth mounting plate in a sliding manner; the right part of the upper side of the fourth mounting plate is fixedly connected with a traction rope; the traction rope is wound around the pulley; the lower end of the hauling rope is fixedly connected with a second filter screen; the filter pipe is connected with the second filter screen in a sliding way.

As a further preferable scheme, the front first cleaning unit comprises a fifth mounting plate, a collecting box, a sixth mounting plate, a second electric sliding rail, a second electric sliding block, a cleaning block and a cleaning plate; the right part of the front side and the right part of the rear side of the filter pipe are respectively and fixedly connected with a fifth mounting plate; the upper sides of the two fifth mounting plates are respectively and fixedly connected with a collecting box; the right part of the upper side of the filter pipe is fixedly connected with a sixth mounting plate, and the sixth mounting plate is positioned in front of the first filter screen; the left side of the sixth mounting plate is fixedly connected with a second electric slide rail; a second electric sliding block is connected to the second electric sliding rail in a sliding manner; the front part of the left side of the second electric sliding block is fixedly connected with a cleaning block; the rear part of the left side of the second electric sliding block is fixedly connected with a cleaning plate.

As a further preferable scheme, the medicine releasing unit comprises a first transmission shaft, a first baffle, a first transmission wheel, a second transmission shaft, a first arc-shaped plate, a second transmission wheel and a medicine tube; the middle part of the filter pipe is connected with a first transmission shaft through a torsion spring; the middle part of the outer surface of the first transmission shaft is fixedly connected with a first baffle; the front part of the outer surface of the first transmission shaft is fixedly connected with a first transmission wheel; the middle part of the filter pipe is fixedly connected with a medicament pipe, and the medicament pipe is positioned on the left of the first baffle; the middle part of the medicament tube is rotatably connected with a second transmission shaft; the middle part of the outer surface of the second transmission shaft is fixedly connected with three first arc-shaped plates through connecting rods; the three first arc-shaped plates are in sliding connection with the medicament tube; the front part of the outer surface of the second transmission shaft is fixedly connected with a second transmission wheel; the outer ring surface of the second driving wheel is in transmission connection with the first driving wheel through a belt.

As a further preferable mode, the upper electrolysis unit comprises a seventh mounting plate, a cathode bar and an anode bar; the left part of the filter pipe is fixedly connected with a seventh mounting plate; the middle part of the right side of the seventh mounting plate is fixedly connected with a cathode bar; the lower part of the right side of the seventh mounting plate is fixedly connected with an anode bar.

As a further preferable scheme, the upper second cleaning unit comprises an eighth mounting plate, a through pipe, a second arc-shaped plate, a ninth mounting plate, an arc-shaped spring, a third transmission shaft, a second baffle and a helical blade; the left part of the filter pipe is fixedly connected with an eighth mounting plate, and the eighth mounting plate is positioned on the right of the seventh mounting plate; the lower part of the eighth mounting plate is fixedly connected with a through pipe; the right part of the outer surface of the through pipe is fixedly connected with a helical blade; the left part of the through pipe is connected with a second arc-shaped plate in a sliding way; the lower side of the second arc-shaped plate is fixedly connected with an arc-shaped spring; the left part of the through pipe is fixedly connected with a helical blade; a ninth mounting plate is fixedly connected to the left side of the through pipe; the ninth mounting plate is fixedly connected with the arc-shaped spring; a third transmission shaft is fixedly connected to the left side of the eighth mounting plate; the outer surface of the third transmission shaft is connected with a second baffle through a torsion spring.

As a further preferable scheme, the lower parts of the first filter screen and the second filter screen are provided with U-shaped grooves for collecting solid particles.

As a further preferred scheme, the lower part of the cleaning block is provided with a groove.

As a further preferable mode, the upper part, the lower part and the left part of the medicament tube are respectively provided with a through groove for medicament outflow.

As a further preferable scheme, the front side of the second arc-shaped plate is provided with bristles for removing dirt on the surface of the cathode bar.

Compared with the prior art, the invention has the following advantages: the invention realizes the electrolytic treatment of the wastewater, firstly separates out solid particles in the wastewater to avoid mixing with the electrolyzed impurities, then fully mixes the medicament with the wastewater, controls the amount of the added medicament according to the flow rate of the wastewater to avoid influencing the electrolytic efficiency of the wastewater, and in addition, timely cleans the dirt generated on the surface of the cathode in the electrolytic process to avoid the problems of energy consumption increase and treatment efficiency reduction caused by dirt accumulation.

Drawings

FIG. 1 is a schematic perspective view of a first fully mixed high pulse electrolytic wastewater treatment plant for wastewater treatment according to the present invention;

FIG. 2 is a schematic view of a second perspective view of a fully mixed high pulse electrolysis wastewater treatment plant for wastewater treatment according to the present invention;

FIG. 3 is a sectional view showing a first partial perspective structure of a fully mixed high pulse electrolytic wastewater treatment apparatus for wastewater treatment according to the present invention;

FIG. 4 is a schematic view of a first partial perspective view of a fully mixed high pulse electrolytic wastewater treatment plant for wastewater treatment according to the present invention;

FIG. 5 is an enlarged schematic view of the fully mixed high pulse electrolytic wastewater treatment plant for wastewater treatment of the present invention at A;

FIG. 6 is a sectional view of a second partial perspective view of a fully mixed high pulse electrolytic wastewater treatment apparatus for wastewater treatment according to the present invention;

FIG. 7 is a schematic perspective view of a chemical releasing unit of the fully mixed high-pulse electrolytic wastewater treatment apparatus for wastewater treatment according to the present invention;

FIG. 8 is a schematic perspective view of a power unit of a fully mixed high-pulse electrolytic wastewater treatment plant for wastewater treatment according to the present invention;

FIG. 9 is a schematic view of a second partial perspective view of a fully mixed high pulse electrolytic wastewater treatment plant for wastewater treatment according to the present invention;

FIG. 10 is a schematic perspective view of a third partial structure of a fully mixed high pulse electrolytic wastewater treatment plant for wastewater treatment according to the present invention;

FIG. 11 is an enlarged schematic view of the fully mixed high-pulse electrolytic wastewater treatment apparatus for wastewater treatment of the present invention at B.

Number designation in the figures: 1-a filter tube, 201-a first mounting plate, 202-a first electric slide rail, 203-a first electric slide block, 204-a second mounting plate, 205-a straight spring, 206-a connecting rod, 207-a first filter screen, 208-a third mounting plate, 209-a pulley, 2010-a fourth mounting plate, 2011-a traction rope, 2012-a second filter screen, 301-a fifth mounting plate, 302-a collection box, 303-a sixth mounting plate, 304-a second electric slide rail, 305-a second electric slide block, 306-a cleaning block, 307-a cleaning plate, 401-a first transmission shaft, 402-a first baffle, 403-a first transmission wheel, 404-a second transmission shaft, 405-a first arc plate, 406-a second transmission wheel, 407-a medicament tube, 501-a motor, 502-an impeller, 503-a third transmission wheel, 504-a fourth transmission wheel, 601-a seventh mounting plate, 602-a cathode bar, 708-an anode bar, 701-an eighth bar, 702-a second mounting plate, 704-a second arc plate, a ninth mounting plate, a third spring, 705-a third transmission wheel, a helical blade, 706-a helical blade, and a through tube.

Detailed Description

It is to be noted that, in the case of the different described embodiments, identical components are provided with the same reference numerals or the same component names, wherein the disclosure contained in the entire description can be transferred to identical components having the same reference numerals or the same component names in a meaningful manner. The positional references selected in the description, such as upper, lower, lateral, etc., refer also to the directly described and illustrated figures and are to be read into the new position in the sense of a change in position.

Examples

A fully-mixed high-pulse electrolysis wastewater treatment device for wastewater treatment is shown in figures 1-11 and comprises a filter pipe 1;

the device also comprises an impeller 502, a filtering unit, a first cleaning unit, a medicament releasing unit, a power unit, an electrolysis unit and a second cleaning unit; the right part of the filter pipe 1 is connected with a filter unit; the right part of the filter pipe 1 is connected with two first cleaning units; the middle part of the filter pipe 1 is connected with a medicament release unit; the middle part of the filter pipe 1 is connected with a power unit; the middle part of the filter pipe 1 is rotatably connected with two impellers 502, and the two impellers 502 are arranged in a vertical symmetry manner; the power unit is connected with two impellers 502; the left part of the filter pipe 1 is connected with four electrolysis units which are arranged in an annular array; the left part of the filter pipe 1 is connected with four second cleaning units which are arranged in an annular array.

The filtering unit comprises a first mounting plate 201, a first electric sliding rail 202, a first electric sliding block 203, a second mounting plate 204, a straight spring 205, a connecting rod 206, a first filtering net 207, a third mounting plate 208, a pulley 209, a fourth mounting plate 2010, a traction rope 2011 and a second filtering net 2012; a first mounting plate 201 and a third mounting plate 208 are fixedly connected to the right part of the upper side of the filter pipe 1, and the third mounting plate 208 is positioned on the right side of the first mounting plate 201; the right side of the first mounting plate 201 is connected with a first electric slide rail 202 through a bolt; a first electric sliding block 203 is connected on the first electric sliding rail 202 in a sliding manner; a second mounting plate 204 is fixedly connected to the right side of the first electric sliding block 203; a straight spring 205 is fixedly connected to the front part and the rear part of the lower side of the second mounting plate 204 respectively; the lower parts of the two straight springs 205 are fixedly connected with a first filter screen 207; the front part of the upper side and the rear part of the upper side of the first filter screen 207 are respectively fixedly connected with a connecting rod 206; both connecting rods 206 are slidably connected to the second mounting plate 204; two straight springs 205 are respectively sleeved on the outer surface of one connecting rod 206; the filter pipe 1 is connected with the first filter screen 207 in a sliding way; the upper part of the third mounting plate 208 is rotatably connected with a pulley 209; a fourth mounting plate 2010 is slidably connected to the outer surface of the third mounting plate 208; a traction rope 2011 is fixedly connected to the right part of the upper side of the fourth mounting plate 2010; the pull rope 2011 passes around the pulley 209; the lower end of the pull rope 2011 is fixedly connected with a second filter screen 2012; the filter pipe 1 is slidably connected to the second filter 2012.

The first cleaning unit in front comprises a fifth mounting plate 301, a collecting box 302, a sixth mounting plate 303, a second electric slide rail 304, a second electric slide block 305, a cleaning block 306 and a cleaning plate 307; the right part of the front side and the right part of the rear side of the filter pipe 1 are respectively and fixedly connected with a fifth mounting plate 301; the upper sides of the two fifth mounting plates 301 are respectively fixedly connected with a collecting box 302; a sixth mounting plate 303 is fixedly connected to the right part of the upper side of the filter pipe 1, and the sixth mounting plate 303 is positioned in front of the first filter screen 207; a second electric slide rail 304 is connected to the left side of the sixth mounting plate 303 through a bolt; a second electric sliding block 305 is connected on the second electric sliding rail 304 in a sliding manner; the front part of the left side of the second electric sliding block 305 is fixedly connected with a cleaning block 306; the rear part of the left side of the second electric slider 305 is fixedly connected with a cleaning plate 307.

The medicament releasing unit comprises a first transmission shaft 401, a first baffle 402, a first transmission wheel 403, a second transmission shaft 404, a first arc-shaped plate 405, a second transmission wheel 406 and a medicament tube 407; the middle part of the filter pipe 1 is connected with a first transmission shaft 401 through a torsion spring; a first baffle 402 is fixedly connected to the middle of the outer surface of the first transmission shaft 401; a first driving wheel 403 is fixedly connected to the front part of the outer surface of the first driving shaft 401; a medicament pipe 407 is fixedly connected to the middle part of the filter pipe 1, and the medicament pipe 407 is positioned on the left of the first baffle 402; the middle part of the medicament tube 407 is rotatably connected with a second transmission shaft 404; the middle part of the outer surface of the second transmission shaft 404 is fixedly connected with three first arc-shaped plates 405 through connecting rods; the three first arc-shaped plates 405 are all connected with the medicament tube 407 in a sliding manner; the front part of the outer surface of the second transmission shaft 404 is fixedly connected with a second transmission wheel 406; the outer circumferential surface of the second transmission wheel 406 is in transmission connection with the first transmission wheel 403 through a belt.

The power unit comprises a motor 501, a third driving wheel 503 and a fourth driving wheel 504; the middle part of the front side of the filter pipe 1 is fixedly connected with a motor 501; an output shaft of the motor 501 is fixedly connected with the impeller 502 below; the outer surface of the impeller 502 below is fixedly connected with a third driving wheel 503; the outer surface of the upper impeller 502 is fixedly connected with a fourth driving wheel 504; the outer circumferential surface of the fourth driving wheel 504 is in driving connection with the third driving wheel 503 via a belt.

The upper electrolysis unit comprises a seventh mounting plate 601, a cathode bar 602 and an anode bar 603; the left part of the filter pipe 1 is fixedly connected with a seventh mounting plate 601; the middle part of the right side of the seventh mounting plate 601 is fixedly connected with a cathode bar 602; the lower part of the right side of the seventh mounting plate 601 is fixedly connected with an anode bar 603.

The second cleaning unit above comprises an eighth mounting plate 701, a through pipe 702, a second arc-shaped plate 703, a ninth mounting plate 704, an arc-shaped spring 705, a third transmission shaft 706, a second baffle 707 and a helical blade 708; an eighth mounting plate 701 is fixedly connected to the left part of the filter pipe 1, and the eighth mounting plate 701 is positioned on the right of the seventh mounting plate 601; a through pipe 702 is fixedly connected to the lower part of the eighth mounting plate 701; the right part of the outer surface of the through pipe 702 is fixedly connected with a helical blade 708; the left part of the through pipe 702 is connected with a second arc-shaped plate 703 in a sliding way; an arc spring 705 is fixedly connected to the lower side of the second arc plate 703; the left part of the through pipe 702 is fixedly connected with a helical blade 708; a ninth mounting plate 704 is fixedly connected to the left side of the through pipe 702; the ninth mounting plate 704 is fixedly connected with the arc spring 705; a third transmission shaft 706 is fixedly connected to the left side of the eighth mounting plate 701; a second baffle 707 is connected to the outer surface of the third transmission shaft 706 through a torsion spring.

The lower parts of the first filter 207 and the second filter 2012 are both provided with U-shaped grooves for collecting solid particles.

The lower part of the cleaning block 306 is provided with a groove.

The left side of the cleaning plate 307 is provided with bristles for cleaning the solid particles on the first filter screen 207.

The upper part, the lower part and the left part of the medicament tube 407 are respectively provided with a through groove for medicament to flow out.

Two holes are opened in the middle of the seventh mounting plate 601 for connecting the cathode bars 602 and the anode bars 603.

An arc-shaped sliding rail is arranged on the left side of the through pipe 702.

The front side of the second arc-shaped plate 703 is provided with brush bristles for removing dirt on the surface of the cathode rod 602.

Before working, the right end of the filter pipe 1 is communicated with a waste water pipe, the left end of the filter pipe 1 is communicated with a reservoir, waste water is led into the filter pipe 1 when working, the water surface is not contacted with the inner upper wall of the filter pipe 1, the waste water flows into the reservoir after passing through the filter pipe 1, the waste water firstly passes through the second filter screen 2012 when the filter pipe 1 circulates, the solid particles in the waste water are intercepted by the second filter screen 2012, the circulation of the waste water can be influenced after a large amount of solid particles are intercepted by the second filter screen 2012, at the moment, the first electric slide rail 202 is controlled to be started to drive the first electric slide block 203 to move downwards, the first electric slide block 203 drives the second mounting plate 204, the two straight springs 205, the two connecting rods 206 and the first filter screen 207 to move downwards, and then the lower side of the first filter screen 207 is contacted with the inner lower wall of the filter pipe 1, the first filter screen 207 is blocked and does not move downwards any more, the second mounting plate 204 moves downwards continuously to be in contact with the fourth mounting plate 2010, the fourth mounting plate 2010 is driven to move downwards at once, meanwhile, the second mounting plate 204 compresses the two straight springs 205 and slides downwards on the two connecting rods 206, the left end of the traction rope 2011 is driven to move downwards by the fourth mounting plate 2010, the traction rope 2011 slides on the pulley 209, so that the right end of the traction rope 2011 drives the second filter screen 2012 to move upwards, the filter screen part moving to the second filter screen 2012 is positioned above the filter pipe 1, solid particles at the filter screen part can fall during the upward movement of the second filter screen 2012, a U-shaped groove is formed in the lower part of the second filter screen 2012, the falling solid particles are received, and at the moment, the first filter screen 207 intercepts the solid particles in the wastewater; when the filter screen parts of the first filter screen 207 and the second filter screen 2012 are positioned above the filter pipe 1, controlling the two first cleaning units to start to clean the first filter screen 207 and the second filter screen 2012, when the first cleaning unit on the left works, controlling the second electric slide rail 304 to start to drive the second electric slide block 305 to move backwards, driving the cleaning block 306 and the cleaning plate 307 to move backwards by the second electric slide block 305, when the cleaning block 306 and the cleaning plate 307 move, passing through the filter screen part and the groove of the first filter screen 207, firstly, the cleaning plate 307 brushes solid particles on the filter screen down into the groove, and then, the cleaning block 306 scrapes the solid particles in the groove into the collecting box 302 behind for collection; first electronic slide rail 202 of control starts to drive first electronic slider 203 and shifts up after a large amount of solid particulate matters of first filter screen 207 interception for second filter screen 2012 resets the back because self action of gravity descends, and first filter screen 207 shifts up again, so reciprocal realization is to the interception of solid particulate matter in the waste water, and in time clear up solid particulate matter on first filter screen 207 and the second filter screen 2012 and prevent to block up the circulation of influence waste water.

After solid particles are filtered, wastewater flows through the first baffle 402 and the medicament tube 407, redox medicaments are introduced into the medicament tube 407 and used for improving the electrolysis efficiency, the medicaments flow into the wastewater through the three through grooves of the medicament tube 407 and are mixed with the wastewater, when the flow rate of the wastewater is increased, the corresponding medicament amount is also increased, when the wastewater flows through the first baffle 402, the first baffle 402 is driven to rotate clockwise by taking the front view as the reference, the first baffle 402 drives the first transmission shaft 401 to drive the first transmission wheel 403 to rotate, the first transmission wheel 403 drives the second transmission wheel 406 to drive the second transmission shaft 404 to rotate, the second transmission shaft 404 drives the three first arc-shaped plates 405 to rotate clockwise, the three first arc-shaped plates 405 block half of the three through grooves of the medicament tube respectively in the initial state, and after the three first arc-shaped plates 405 rotate clockwise, the areas of the three through grooves of the medicament tube 407 blocked by the three first arc-shaped plates 405 are reduced, so that the medicament release amount is correspondingly increased; when the wastewater mixed with the medicament continuously circulates through the two impellers 502, the starting motor 501 is controlled to drive the lower impeller 502 to rotate, the lower impeller 502 drives the third driving wheel 503 to drive the fourth driving wheel 504 to rotate, the fourth driving wheel 504 drives the upper impeller 502 to rotate, and the two impellers 502 rotate to fully mix the medicament and the wastewater.

Then, the wastewater continuously flows through the four electrolysis units and the four second cleaning units, the four electrolysis units electrolyze the wastewater to separate impurities from water in the wastewater, but along with the electrolytic reaction, a large amount of dirt is generated on the surface of the cathode bar 602 and is difficult to treat, so that the energy consumption is increased, and therefore the four second cleaning units are arranged to clean the cathode bar 602 in time; when the electrolysis unit and the second cleaning unit above work, the cathode bar 602 and the anode bar 603 are firstly electrified, wastewater is electrolyzed after the cathode bar 602 and the anode bar 603 are electrified, and the wastewater passes through the spiral blade 708 and then is driven to rotate anticlockwise, the spiral blade 708 drives the through pipe 702 to rotate, the through pipe 702 drives the second arc-shaped plate 703, the ninth mounting plate 704 and the arc-shaped spring 705 to rotate, when the second arc-shaped plate 703 rotates, bristles on the surface of the second arc-shaped plate 703 brush dirt on the outer surface of the cathode bar 602 down to flow into the reservoir along with water flow, when the second arc-shaped plate 703 rotates to contact with the lower side of the second baffle 707, the second arc-shaped plate 707 is blocked by the second baffle 707, the second arc-shaped plate 703 compresses the accumulated force of the arc-shaped spring, the accumulated force of the arc-shaped spring 705 is greater than the maximum torsional force of the torsion spring connected with the third transmission shaft 706 by the second baffle 707, the second baffle 707 rotates around the third transmission shaft 706, the second arc-shaped plate 703 blocks continuous rotation, the action of the arc-shaped spring 703 stops the second baffle 705, and the second baffle 703 shakes the dirt cleaning efficiency is maintained until the dirt is cleaned by the second arc-shaped plate 703, and the reciprocating dirt is shaken under the second arc-shaped plate 703; and (3) allowing the electrolyzed wastewater to flow into a reservoir and then standing, precipitating dirt to a lower layer, and then sucking and separating water in an upper layer.

The present application is described in detail above, and the principles and embodiments of the present application are described herein by using specific examples, which are only used to help understand the method and the core idea of the present application; meanwhile, for a person skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims

1. A fully-mixed high-pulse electrolysis wastewater treatment device for wastewater treatment comprises a filter pipe (1); the device is characterized by also comprising an impeller (502), a filtering unit, a first cleaning unit, a medicament releasing unit, a power unit, an electrolysis unit and a second cleaning unit; the right part of the filter pipe (1) is connected with a filter unit which is used for filtering solid particles in the wastewater; the right part of the filter pipe (1) is connected with two first cleaning units which are used for cleaning the filter unit; the middle part of the filter pipe (1) is connected with a medicament release unit which is used for releasing the medicament into the wastewater; the middle part of the filter pipe (1) is connected with a power unit; the middle part of the filter pipe (1) is rotationally connected with two impellers (502), and the two impellers (502) are arranged in a vertical symmetry manner; the power unit is connected with the two impellers (502), and is used for driving the two impellers (502) to rotate so as to fully mix the medicament with the wastewater; the left part of the filter pipe (1) is connected with four electrolysis units which are arranged in an annular array and are used for electrolyzing the wastewater; the left part of the filter pipe (1) is connected with four second cleaning units which are arranged in an annular array and used for cleaning dirt generated on the surface of the electrolytic rod;

the filter unit comprises a first mounting plate (201), a first electric sliding rail (202), a first electric sliding block (203), a second mounting plate (204), a straight spring (205), a connecting rod (206), a first filter screen (207), a third mounting plate (208), a pulley (209), a fourth mounting plate (2010), a traction rope (2011) and a second filter screen (2012); a first mounting plate (201) and a third mounting plate (208) are fixedly connected to the right part of the upper side of the filter pipe (1), and the third mounting plate (208) is positioned on the right side of the first mounting plate (201); a first electric slide rail (202) is fixedly connected to the right side of the first mounting plate (201); a first electric sliding block (203) is connected on the first electric sliding rail (202) in a sliding way; a second mounting plate (204) is fixedly connected to the right side of the first electric sliding block (203); the front part and the rear part of the lower side of the second mounting plate (204) are respectively fixedly connected with a straight spring (205); the lower parts of the two straight springs (205) are fixedly connected with a first filter screen (207); the front part of the upper side and the rear part of the upper side of the first filter screen (207) are respectively and fixedly connected with a connecting rod (206); the two connecting rods (206) are in sliding connection with the second mounting plate (204); the two straight springs (205) are respectively sleeved on the outer surface of one connecting rod (206); the filter pipe (1) is connected with the first filter screen (207) in a sliding way; the upper part of the third mounting plate (208) is rotatably connected with a pulley (209); the outer surface of the third mounting plate (208) is connected with a fourth mounting plate (2010) in a sliding way; a traction rope (2011) is fixedly connected to the right part of the upper side of the fourth mounting plate (2010); the traction rope (2011) passes around the pulley (209); the lower end of the traction rope (2011) is fixedly connected with a second filter screen (2012); the filter pipe (1) is connected with the second filter screen (2012) in a sliding way;

the front first cleaning unit comprises a fifth mounting plate (301), a collecting box (302), a sixth mounting plate (303), a second electric sliding rail (304), a second electric sliding block (305), a cleaning block (306) and a cleaning plate (307); the right part of the front side and the right part of the rear side of the filter pipe (1) are respectively and fixedly connected with a fifth mounting plate (301); the upper sides of the two fifth mounting plates (301) are respectively fixedly connected with a collecting box (302); a sixth mounting plate (303) is fixedly connected to the right part of the upper side of the filter pipe (1), and the sixth mounting plate (303) is positioned in front of the first filter screen (207); the left side of the sixth mounting plate (303) is fixedly connected with a second electric slide rail (304); a second electric sliding block (305) is connected on the second electric sliding rail (304) in a sliding way; the front part of the left side of the second electric sliding block (305) is fixedly connected with a cleaning block (306); the rear part of the left side of the second electric sliding block (305) is fixedly connected with a cleaning plate (307);

the drug releasing unit comprises a first transmission shaft (401), a first baffle (402), a first transmission wheel (403), a second transmission shaft (404), a first arc-shaped plate (405), a second transmission wheel (406) and a drug tube (407); the middle part of the filter pipe (1) is connected with a first transmission shaft (401) through a torsion spring; a first baffle (402) is fixedly connected to the middle part of the outer surface of the first transmission shaft (401); a first transmission wheel (403) is fixedly connected to the front part of the outer surface of the first transmission shaft (401); the middle part of the filter pipe (1) is fixedly connected with a medicament pipe (407), and the medicament pipe (407) is positioned on the left of the first baffle (402); the middle part of the medicament tube (407) is rotatably connected with a second transmission shaft (404); the middle part of the outer surface of the second transmission shaft (404) is fixedly connected with three first arc-shaped plates (405) through connecting rods; the three first arc-shaped plates (405) are in sliding connection with the medicament tube (407); the front part of the outer surface of the second transmission shaft (404) is fixedly connected with a second transmission wheel (406); the outer ring surface of the second driving wheel (406) is in transmission connection with the first driving wheel (403) through a belt;

the upper electrolysis unit comprises a seventh mounting plate (601), a cathode bar (602) and an anode bar (603); the left part of the filter pipe (1) is fixedly connected with a seventh mounting plate (601); the middle part of the right side of the seventh mounting plate (601) is fixedly connected with a cathode bar (602); the lower part of the right side of the seventh mounting plate (601) is fixedly connected with an anode bar (603);

the second cleaning unit above comprises an eighth mounting plate (701), a through pipe (702), a second arc-shaped plate (703), a ninth mounting plate (704), an arc-shaped spring (705), a third transmission shaft (706), a second baffle plate (707) and a spiral blade (708); an eighth mounting plate (701) is fixedly connected to the left part of the filter pipe (1), and the eighth mounting plate (701) is positioned on the right side of the seventh mounting plate (601); the lower part of the eighth mounting plate (701) is fixedly connected with a through pipe (702); the right part of the outer surface of the through pipe (702) is fixedly connected with a helical blade (708); the left part of the through pipe (702) is connected with a second arc-shaped plate (703) in a sliding way; an arc spring (705) is fixedly connected to the lower side of the second arc plate (703); the left part of the through pipe (702) is fixedly connected with a helical blade (708); a ninth mounting plate (704) is fixedly connected to the left side of the through pipe (702); the ninth mounting plate (704) is fixedly connected with the arc-shaped spring (705); a third transmission shaft (706) is fixedly connected to the left side of the eighth mounting plate (701); the outer surface of the third transmission shaft (706) is connected with a second baffle (707) through a torsion spring.

2. A fully mixed high pulse electrolysis wastewater treatment device for wastewater treatment according to claim 1, characterized in that the lower parts of the first filter (207) and the second filter (2012) are provided with U-shaped grooves for collecting solid particles.

3. A fully mixed high pulse electrolytic wastewater treatment plant for wastewater treatment according to claim 1, characterized in that the lower part of the cleaning block (306) is grooved.

4. A fully mixed high pulse electrolytic wastewater treatment plant for wastewater treatment according to claim 1, characterized in that the upper, lower and left parts of the chemical agent pipe (407) are respectively provided with a through groove for the outflow of the chemical agent.

5. A fully mixed high pulse electrolysis wastewater treatment device for wastewater treatment according to claim 1, characterized in that the front side of the second arc-shaped plate (703) is provided with bristles for removing dirt on the surface of the cathode bar (602).