CN117303676A

CN117303676A - Electrolytic sewage treatment system capable of automatically replacing electrode

Info

Publication number: CN117303676A
Application number: CN202311602315.9A
Authority: CN
Inventors: 刘莎; 郭爱婷; 楚君
Original assignee: Henan Hopu Environmental Protection Technology Co ltd
Current assignee: Henan Hopu Environmental Protection Technology Co ltd
Priority date: 2023-11-28
Filing date: 2023-11-28
Publication date: 2023-12-29
Anticipated expiration: 2043-11-28
Also published as: CN117303676B

Abstract

The invention relates to the technical field of sewage treatment systems, in particular to an electrolytic sewage treatment system capable of automatically replacing electrodes, which solves the problems that in the process of carrying out electrolytic purification on sewage, positive and negative electrodes are worn in different degrees or substitutes with different thicknesses are attached, so that the electrolytic efficiency is reduced, the electrodes are required to be detected and replaced manually and irregularly, the manual detection and replacement efficiency is low, the safety is low, and the power supply of an electrolytic cell is required to be cut off during replacement, so that the sewage treatment process is influenced. The utility model provides an electrolytic sewage treatment system capable of automatically replacing electrodes, includes sewage storage tank, sewage flocculation tank, sewage electrolytic tank, sewage biological treatment tank and disinfection pond, adopts the sewage pipeline to connect between sewage storage tank, sewage flocculation tank, sewage electrolytic tank, sewage biological treatment tank and the disinfection pond, the upper surface of sewage electrolytic tank is fixed with a plurality of electrode replacement modules. The invention can detect the electrode in real time, and can automatically replace the electrode when the electrode has a problem.

Description

Electrolytic sewage treatment system capable of automatically replacing electrode

Technical Field

The invention relates to the technical field of sewage treatment systems, in particular to an electrolytic sewage treatment system with a self-replaceable electrode.

Background

The sewage treatment system is a general name of a whole treatment procedure for purifying sewage, and generally comprises a control system and a treatment tank, wherein the treatment comprises a sewage storage tank, a sewage filtering tank, a sludge purification tank, a sewage flocculation tank, a sewage electrolysis tank, a biological treatment tank, a disinfection tank, an aeration tank and other sewage purification treatment tanks;

the sewage electrolytic cell uses electrolysis to separate, and uses positive and negative electrodes made of different materials to exchange metal impurities or inert substances contained in sewage, so that the impurities in the sewage are attached to the electrodes to form solid substances, and the electrolyzed sewage is effectively purified.

In the process of electrolytic purification of sewage, positive and negative electrodes are worn in different degrees or are attached with substitutes of different thicknesses, so that the electrolytic efficiency is reduced, the detection electrodes are required to be replaced manually at different time, the manual detection and replacement efficiency is low, the safety is low, and the power supply of an electrolytic cell is required to be cut off during replacement, so that the sewage treatment process is influenced; therefore, the existing requirements are not met, and an electrolytic sewage treatment system with self-replaceable electrodes is provided.

Disclosure of Invention

The invention aims to provide an electrolytic sewage treatment system capable of automatically replacing electrodes, which solves the problems that in the process of carrying out electrolytic purification on sewage, the positive and negative electrodes are worn in different degrees or substitutes with different thicknesses are attached, so that the electrolytic efficiency is reduced, the electrodes are required to be detected and replaced manually at different time, the manual detection and replacement efficiency is low, the safety is low, the power supply of an electrolytic cell is required to be cut off during the replacement, the sewage treatment process is influenced and the like.

In order to achieve the above purpose, the present invention provides the following technical solutions: the electrolytic sewage treatment system capable of automatically replacing the electrodes comprises a sewage storage tank, a sewage flocculation tank, a sewage electrolysis tank, a sewage biological treatment tank and a disinfection tank, wherein the sewage storage tank, the sewage flocculation tank, the sewage electrolysis tank, the sewage biological treatment tank and the disinfection tank are connected by adopting a sewage pipeline, and a plurality of electrode replacement modules are fixed on the upper surface of the sewage electrolysis tank;

the electrode replacement module comprises a screw rod fixing plate and a supporting rod, wherein the bottom end of the supporting rod is fixed on the upper surface of the sewage electrolytic cell, a standby electrode placement seat is fixed at the top end of the supporting rod, one end of the screw rod fixing plate is fixed on the upper surface of the sewage electrolytic cell, a guide screw rod is fixed on the upper surface of the other end of the screw rod fixing plate, an electrode lifting seat is movably arranged on the outer side of the guide screw rod, and electrolytic electrodes are arranged below the electrode lifting seat and the standby electrode placement seat;

the utility model provides a motor loss detection module is installed in electrolysis electrode's the outside, motor loss detection module includes lift frame and lift slider, the inner wall of electrolysis electrode and one side laminating sewage electrolytic cell is surrounded to the lift frame, be fixed with on the inner wall of lift frame and accomodate the sleeve pipe, accomodate sheathed tube one end slidable mounting and have insulating detection contact head and insulating detection contact head's outer end and electrolysis electrode outer wall laminating, insulating detection contact head and accomodate the sheathed tube tip and accomodate and install the detection spring between, the closed pressure sensor is installed to detection spring's one end, the centre of lift slider runs through there is the lift lead screw, lift lead screw and lift slider threaded connection and top are fixed with the lead screw gear, the top external surface of lead screw gear is fixed with the lifting gear, the below of lifting gear is fixed with elevator motor, the tip towards the lift frame of lift slider is fixed with the lifter plate, the surface mosaic of lifter plate has powerful lift absorption magnet, powerful lift absorption magnet utilizes magnetism to adsorb the lift frame.

Preferably, the top of electrolysis electrode is fixed with the electrode fixing base, the top of electrode fixing base is fixed with the suspension board, the side of electrode lifting seat, reserve electrode placement seat directly over the electrode fixing base of suspension board joint is connected electrode fixing base and electrode lifting seat, reserve electrode placement seat, the inside of electrode lifting seat is fixed with driving motor, driving motor's output shaft end is fixed with sleeve pipe drive gear, sleeve pipe gear is installed in the meshing of one side of sleeve pipe drive gear, sleeve pipe gear's axial run through is fixed with the internal thread sleeve pipe, the internal thread sleeve pipe is in the direction lead screw outside and adopts threaded connection with the direction lead screw.

Preferably, one side of the internal thread sleeve is provided with a guide rod parallel to the guide screw rod, and the guide rod penetrates through the upper end and the lower end of the electrode lifting seat and the bottom end of the guide rod is fixedly connected with the screw rod fixing plate.

Preferably, a positioning rod is arranged between the supporting rod and the screw rod fixing plate, the bottom end of the positioning rod is fixed on the upper surface of the sewage electrolytic cell, and the other end of the positioning rod is rotationally connected with a rotating block.

Preferably, two symmetrically distributed telescopic rods are fixed on the outer wall of the bottom end of the rotating block, and a powerful suction electromagnet is fixed at the movable end part of each telescopic rod.

Preferably, the top end of the rotating block is fixed with a hanging rotating shaft, and the top end of the hanging rotating shaft is rotationally inserted into the positioning rod.

Preferably, a plurality of balls are embedded on the bottom surface of the top end of the hanging rotating shaft in a rolling manner, and the hanging rotating shaft is in rolling contact with the positioning rod through the balls.

Preferably, the surface of the suspension rotating shaft is fixedly provided with a rotary transmission gear, one side of the rotary transmission gear is connected with a rotary driving gear in a meshed mode, a rotary motor is arranged below the rotary driving gear, and the rotary motor is fixed with the positioning rod, and the output shaft is fixed with the rotary driving gear.

Preferably, the strong suction electromagnet is magnetically attracted to the electrode fixing seat, and the magnetic attraction force of the strong suction electromagnet to the electrode fixing seat is greater than the sum of the weights of the electrolytic electrode and the electrode fixing seat.

Preferably, the magnetic attraction force of the strong lifting attraction magnet to the lifting frame is larger than the sum of the weights of the lifting frame, the storage sleeve, the closed pressure sensor, the detection spring and the insulation detection contact.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the lifting motor is used for driving the lifting screw rod to rotate through the lifting gear and the screw rod gear, so that the lifting plate at the top end of the lifting slide block and the strong lifting adsorption magnet move up and down, the strong lifting adsorption magnet can drive the lifting frame adsorbed by the strong lifting adsorption magnet to synchronously move up and down in the moving process, so that the insulation detection contact head is attached to the outer surface of the electrolytic electrode to slide, when the insulation detection contact head slides over the outer surface of the electrolytic electrode after long-time use, the insulation detection contact head stretches out of or contracts into the storage sleeve due to abrasion of the electrolytic electrode or externally attached impurities, at the moment, the pressure of the insulation detection contact head to the detection spring can be changed, the pressure value born by the closed pressure sensor is changed, the using degree of the electrolytic electrode can be accurately judged through the pressure value change of the closed pressure sensor, the safety risk of manual detection of the electrolytic electrode is not needed, the detection accuracy is high, and the detection cannot interrupt the electrolytic treatment process of sewage;

2. when the electrolyte electrode which does not meet the requirements is replaced, firstly, the driving motor drives the internal thread sleeve to rotate, so that the internal thread sleeve moves upwards along the axis of the guide screw rod, the electrode lifting seat is powered off to enable the electrolyte electrode to separate from the sewage electrolytic tank, then the driving motor is powered off to stop working, the telescopic rod is powered on to drive the powerful suction electromagnet to move so that the powerful suction electromagnet is attached to the electrode fixing seat, the powerful suction electromagnet is powered on to adsorb the electrode fixing seat, then the telescopic rod drives the powerful suction electromagnet to reset to separate the electrode fixing seat from the electrode lifting seat and the standby electrode placing seat, then the rotating motor drives the hanging rotating shaft to rotate, the hanging rotating shaft drives the rotating block and two electrolyte electrode positions adsorbed by the powerful suction electromagnet to exchange, the telescopic rod drives the powerful suction electromagnet to move again after the two electrolyte electrode positions are exchanged, the two electrolyte electrodes after the two electrolyte electrodes are connected with the electrode lifting seat and the standby electrode placing seat, the powerful suction electromagnet is powered off to stop adsorbing the electrode fixing seat after the connection, and finally, the driving motor is reversely rotated to drive the electrode lifting seat to move downwards so that the electrolyte electrode enters the sewage electrolytic tank to continuously to work, and the whole sewage electrolytic tank is not needed to be replaced, and the standby electrode is not needed to be replaced by a normal person.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic diagram of an electrode replacement module according to the present invention;

FIG. 3 is an enlarged view of the structure of FIG. 2A in accordance with the present invention;

FIG. 4 is an enlarged view of the structure of FIG. 2B in accordance with the present invention;

FIG. 5 is a schematic view of the electrode lifting base of the present invention;

FIG. 6 is a schematic view of a partial structure of a positioning rod according to the present invention;

fig. 7 is a schematic structural diagram of the motor loss detection module according to the present invention.

In the figure: 1. a sewage storage tank; 2. a sewage flocculation tank; 3. a sewage electrolytic cell; 4. a sewage biological treatment tank; 5. a sterilizing pool; 6. an electrode replacement module; 601. an electrolysis electrode; 602. an electrode fixing seat; 603. an electrode lifting seat; 604. a standby electrode placement seat; 605. a support rod; 606. a rotation driving gear; 607. a guide screw rod; 608. a screw rod fixing plate; 609. a hanging plate; 610. a positioning rod; 611. a rotating block; 612. a telescopic rod; 613. the electromagnet is sucked strongly; 614. a guide rod; 615. an internally threaded sleeve; 616. a sleeve gear; 617. a sleeve drive gear; 618. a driving motor; 619. hanging a rotating shaft; 620. a rotating electric machine; 621. a rotary transmission gear; 7. a motor loss detection module; 701. a lifting frame; 702. receiving the sleeve; 703. a closed pressure sensor; 704. detecting a spring; 705. an insulation detection contact; 706. a strong lifting adsorption magnet; 707. a lifting plate; 708. a lifting slide block; 709. lifting the screw rod; 710. a screw rod gear; 711. a lifting gear; 712. and a lifting motor.

Detailed Description

The following description of the embodiments of the present invention 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 invention, but not all embodiments.

The driving motor (model ncv-400-60C), the rotating motor (model 6IK 180W-200W) and the lifting motor (model 5IK60 RGN-CF) are all available from market purchase or private customization.

As shown in fig. 1 and 7, an electrolytic sewage treatment system with self-replaceable electrodes comprises a sewage storage tank 1, a sewage flocculation tank 2, a sewage electrolysis tank 3, a sewage biological treatment tank 4 and a disinfection tank 5, wherein the sewage storage tank 1, the sewage flocculation tank 2, the sewage electrolysis tank 3, the sewage biological treatment tank 4 and the disinfection tank 5 are connected by adopting sewage pipelines.

The outside of the electrolytic electrode 601 is provided with a motor loss detection module 7, the motor loss detection module 7 comprises a lifting frame 701 and a lifting slide block 708, the lifting frame 701 surrounds the electrolytic electrode 601, one side of the lifting frame is attached to the inner wall of the sewage electrolytic cell 3, a storage sleeve 702 is fixed on the inner wall of the lifting frame 701, one end of the storage sleeve 702 is slidably provided with an insulation detection contact head 705, the outer end of the insulation detection contact head 705 is attached to the outer wall of the electrolytic electrode 601, a detection spring 704 is arranged between the end part of the insulation detection contact head 705 connected with the storage sleeve 702 and the storage sleeve 702, one end of the detection spring 704 is provided with a closed pressure sensor 703, a lifting screw 709 penetrates through the middle of the lifting slide block 708, the lifting screw 709 is in threaded connection with the lifting slide block 708, the top end of the lifting screw is fixed with a screw gear 710, the top outer surface of the screw gear 710 is fixed with a lifting gear 711, a lifting motor 712 is fixed below the lifting gear 711, a lifting plate 707 is fixed at the end of the lifting slider 708 facing the lifting frame 701, a strong lifting adsorption magnet 706 is embedded on the surface of the lifting plate 707, the strong lifting adsorption magnet 706 adsorbs the lifting frame 701 by magnetism, the lifting motor 712 drives the lifting screw 709 to rotate through the lifting gear 711 and the screw gear 710, so that the lifting plate 707 at the top end of the lifting slider 708 and the strong lifting adsorption magnet 706 move up and down, the lifting frame 701 adsorbed by the strong lifting adsorption magnet 706 is driven to synchronously move up and down in the moving process, the insulation detection contact head 705 is attached to the outer surface of the electrolysis electrode 601 to slide, when the insulation detection contact head 705 slides over the outer surface of the electrolysis electrode 601 after long-time use, the insulation detection contact 705 can stretch out from the storage sleeve 702 or shrink into the storage sleeve 702 because of abrasion of the electrolysis electrode 601 or external attached impurities, at this time, the pressure of the insulation detection contact 705 to the detection spring 704 can be changed, so that the pressure value received by the closed pressure sensor 703 is changed equally, the using degree of the electrolysis electrode 601 can be accurately judged through the pressure value change of the closed pressure sensor 703, the safety risk of manual detection and manual discharge of the electrolysis electrode 601 is not needed, the detection accuracy is high, and the electrolysis treatment process of sewage can not be interrupted in detection.

The magnetic attraction force of the strong lifting attraction magnet 706 to the lifting frame 701 is larger than the sum of the weights of the lifting frame 701, the storage sleeve 702, the closed pressure sensor 703, the detection spring 704 and the insulation detection contact 705, so that the strong lifting attraction magnet 706 can smoothly drive the lifting frame 701 to move up and down, and the detection of the electrolytic electrode 601 is completed.

As shown in fig. 1 to 6, a plurality of electrode replacement modules 6 are fixed on the upper surface of the sewage electrolytic cell 3, each electrode replacement module 6 comprises a screw rod fixing plate 608 and a supporting rod 605, the bottom end of each supporting rod 605 is fixed on the upper surface of the sewage electrolytic cell 3, a standby electrode placement seat 604 is fixed on the top end of each supporting rod 605, one end of each screw rod fixing plate 608 is fixed on the upper surface of the sewage electrolytic cell 3, a guide screw rod 607 is fixed on the upper surface of the other end of each screw rod fixing plate 608, an electrode lifting seat 603 is movably mounted on the outer side of each guide screw rod 607, and electrolytic electrodes 601 are mounted below each electrode lifting seat 603 and each standby electrode placement seat 604.

An electrode fixing seat 602 is fixed at the top end of an electrolysis electrode 601, a suspension plate 609 is fixed at the top end of the electrode fixing seat 602, an electrode lifting seat 603 is clamped right above the electrode fixing seat 602, the side face of a standby electrode placing seat 604 is used for connecting the electrode fixing seat 602 with the electrode lifting seat 603 and the standby electrode placing seat 604, a driving motor 618 is fixed inside the electrode lifting seat 603, a sleeve transmission gear 617 is fixed at the end part of an output shaft of the driving motor 618, a sleeve gear 616 is installed on one side of the sleeve transmission gear 617 in a meshed mode, an internal thread sleeve 615 is fixedly penetrated through the axial direction of the sleeve gear 616, the internal thread sleeve 615 is sleeved outside a guide screw 607 and is in threaded connection with the guide screw 607, a guide rod 614 parallel to the guide screw 607 is arranged on one side of the internal thread sleeve 615, the guide rod 614 penetrates through the upper end and the lower end of the electrode lifting seat 603 and is fixedly connected with the screw fixing plate 608, the internal thread sleeve 615 is driven to rotate by the driving motor 618, the whole electrode lifting seat 603 at the outer side of the guide screw 607, and meanwhile, the movement mode of the electrode lifting seat 603 is limited by the guide rod 614, the electrode lifting seat 603 can only move linearly up and down around the axis of the guide screw 607, and the electrode lifting seat 607 can not rotate around the axis of the electrode lifting seat 3 or can not be placed in the electrolytic tank 3 or can be placed in the electrolytic tank 3.

A positioning rod 610 is installed between the support rod 605 and the screw rod fixing plate 608, the bottom end of the positioning rod 610 is fixed on the upper surface of the sewage electrolytic tank 3, the other end of the positioning rod 610 is rotationally connected with a rotating block 611, two symmetrically distributed telescopic rods 612 are fixed on the outer wall of the bottom end of the rotating block 611, the movable end part of each telescopic rod 612 is fixedly provided with a powerful suction electromagnet 613, the powerful suction electromagnet 613 is utilized to magnetically adsorb the electrode fixing seat 602, then the powerful suction electromagnet 613 at the bottom end of each telescopic rod 612 moves, the electrode fixing seat 602 can be separated from the electrode lifting seat 603 and the standby electrode placing seat 604 to be in butt joint, and the electrolytic electrode 601 below the electrode fixing seat 602 is moved.

The top of the rotating block 611 is fixed with a suspension rotating shaft 619, the top of the suspension rotating shaft 619 is rotationally inserted into the positioning rod 610, the bottom surface of the top of the suspension rotating shaft 619 is rotationally embedded with a plurality of balls, the suspension rotating shaft 619 is in rolling contact with the positioning rod 610 through the balls, the outer surface of the suspension rotating shaft 619 is fixed with a rotation transmission gear 621, one side of the rotation transmission gear 621 is connected with a rotation driving gear 606 in a meshed manner, a rotating motor 620 is arranged below the rotation driving gear 606, the rotating motor 620 is fixed with the positioning rod 610, an output shaft is fixed with the rotation driving gear 606, the rotation driving gear 606 and the rotation transmission gear 621 can be driven to rotate by the rotating motor 620, the top rotating block 611 of the suspension plate 609 rotates, the positions of the two electrolysis electrodes 601 absorbed by the powerful absorbing electromagnet 613 are exchanged, and the balls can reduce the contact friction force between the suspension plate 609 and the positioning rod 610 in the rotating process.

The strong absorbing electromagnet 613 is magnetically absorbed and connected with the electrode fixing seat 602, the magnetic absorption force of the strong absorbing electromagnet 613 to the electrode fixing seat 602 is larger than the sum of the weights of the electrolytic electrode 601 and the electrode fixing seat 602, the electrolytic electrode 601 is prevented from falling in the absorption process of the strong absorbing electromagnet 613 to the electrode fixing seat 602, and the smooth replacement process of the electrolytic electrode 601 is ensured.

When the sewage treatment system is used for treating sewage, a power supply of the sewage treatment system is connected, a lifting motor 712 is electrified and started after the power supply is connected and drives a lifting gear 711 and a screw rod gear 710 to rotate, at the moment, a lifting screw rod 709 rotates under the drive of the screw rod gear 710, so that a lifting sliding block 708 linearly moves along the axis of the lifting screw rod 709, when the lifting sliding block 708 moves, a lifting frame 701 adsorbed by the powerful lifting adsorption magnet 706 is driven by a powerful lifting adsorption magnet 706 to synchronously linearly move, at the moment, the lifting frame 701 slides outside an electrolysis electrode 601, at the same time, an insulation detection contact 705 is attached to the outer surface of the electrolysis electrode 601, when the insulation detection contact 705 slides over the outer surface of the electrolysis electrode 601 after long-time use, the insulation detection contact 705 stretches out from a storage sleeve 702 or contracts into the storage sleeve 702 due to abrasion of the electrolysis electrode 601 or impurities attached to the outside, at the moment, the pressure of the insulation detection contact 705 on the detection spring 704 can change, the pressure value of the detection spring 703 also changes, the use degree of the electrolysis electrode 601 can be accurately judged through the change of the pressure value of the powerful lifting adsorption magnet 706, and the use degree of the electrolysis electrode 601 can be detected manually, the safety risk is high, and the safety in detection and sewage discharge is not interrupted;

when the pressure value detected by the closed pressure sensor 703 has a larger change range, the electrolytic electrode 601 needs to be replaced, in the replacement, the driving motor 618 is electrified and drives the internal thread sleeve 615 to rotate through the sleeve transmission gear 617 and the sleeve gear 616, at the moment, the internal thread sleeve 615 drives the electrode lifting seat 603 to linearly move along the axis of the guide screw 607, the electrode lifting seat 603 moves upwards and drives the electrode fixing seat 602 and the electrolytic electrode 601 which are connected with the electrode lifting seat 603 through the suspension plate 609 to move upwards, the driving motor 618 is powered off to stop working after the electrolytic electrode 601 is completely separated from the sewage electrolytic tank 3, then the telescopic rod 612 is electrified and started to drive the powerful suction electromagnet 613 to approach the electrode fixing seat 602, after the powerful suction electromagnet 613 is attached to the electrode fixing seat 602, the powerful suction electromagnet 613 is driven to reset after the powerful suction electromagnet 613 is adsorbed, the powerful suction electromagnet 613 separates the electrode fixing seat 602 from the electrode lifting seat 603 and the standby electrode placing seat 604, and then the rotary motor 620 is electrified and drives the suspension rotary shaft 619 to rotate, so that the positions of the two electrolytic electrodes 601 are exchanged by half a circle;

after the positions of the two electrolytic electrodes 601 are exchanged, the telescopic rod 612 is started again to drive the two electrolytic electrodes 601 adsorbed by the powerful absorbing electromagnet 613 to move, so that the electrolytic electrodes 601 after the exchange positions are in butt joint with the electrode lifting seat 603 and the standby electrode placing seat 604, and finally the driving motor 618 is started reversely, so that the electrode lifting seat 603 is driven by the internal thread sleeve 615 to move downwards to reset, the replaced electrolytic electrodes 601 enter the sewage electrolytic tank 3 to continue to carry out electrolytic purification on sewage, manual operation is not needed in the whole process, the sewage electrolytic tank 3 is not required to be powered off, the normal treatment process of the sewage is not influenced, and only workers need to replace the replaced electrolytic electrodes 601 on the standby electrode placing seat 604.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides an electrolytic sewage treatment system of removable electrode, includes sewage reservoir (1), sewage flocculation tank (2), sewage electrolysis cell (3), sewage biological treatment pond (4) and disinfection pond (5), adopts sewage pipeline to connect its characterized in that between sewage reservoir (1), sewage flocculation tank (2), sewage electrolysis cell (3), sewage biological treatment pond (4) and disinfection pond (5): a plurality of electrode replacement modules (6) are fixed on the upper surface of the sewage electrolytic cell (3);

the electrode replacement module (6) comprises a screw rod fixing plate (608) and a supporting rod (605), wherein the bottom end of the supporting rod (605) is fixed on the upper surface of the sewage electrolytic cell (3), a standby electrode placement seat (604) is fixed at the top end of the supporting rod (605), one end of the screw rod fixing plate (608) is fixed on the upper surface of the sewage electrolytic cell (3), a guide screw rod (607) is fixed on the upper surface of the other end of the screw rod fixing plate (608), an electrode lifting seat (603) is movably mounted on the outer side of the guide screw rod (607), and electrolytic electrodes (601) are mounted below the electrode lifting seat (603) and the standby electrode placement seat (604);

the outside of electrolysis electrode (601) is installed motor loss detection module (7), motor loss detection module (7) is including lift frame (701) and lift slider (708), the inner wall of electrolysis electrode (601) and one side laminating sewage electrolysis cell (3) is surrounded to lift frame (701), be fixed with on the inner wall of lift frame (701) and accomodate sleeve (702), the one end slidable mounting of accomodate sleeve (702) has insulating detection contact head (705) and insulating detection contact head (705) outer end and electrolysis electrode (601) outer wall laminating, install detection spring (704) between the tip that insulating detection contact head (705) is connected with accomodate sleeve (702) and accomodate sleeve (702), detection spring (704) are installed to the one end of detection spring (704) has pressure sensor (703), the centre of lift slider (708) is run through and is had lift lead screw (709), lift lead screw (709) and lift slider (708) threaded connection and top are fixed with lead screw gear (710), the top surface of lead screw gear (710) is fixed with lift gear (711), the below of lift motor (705) is fixed with lift plate (712), a strong lifting adsorption magnet (706) is embedded on the surface of the lifting plate (707), and the strong lifting adsorption magnet (706) adsorbs the lifting frame (701) by utilizing magnetism.

2. An electrolytic sewage treatment system with self-replaceable electrode according to claim 1, wherein: the top of electrolysis electrode (601) is fixed with electrode fixing base (602), the top of electrode fixing base (602) is fixed with suspension board (609), suspension board (609) joint electrode elevating socket (603) directly over electrode fixing base (602), the side of reserve electrode seat (604) are with electrode fixing base (602) and electrode elevating socket (603), reserve electrode seat (604) are connected, the inside of electrode elevating socket (603) is fixed with driving motor (618), the output shaft end of driving motor (618) is fixed with sleeve drive gear (617), sleeve drive gear (616) are installed in one side meshing of sleeve drive gear (617), sleeve drive gear (616)'s axial run through is fixed with internal thread sleeve (615), internal thread sleeve (615) cover is in the direction lead screw (607) outside and adopts threaded connection with direction lead screw (607).

3. An electrolytic sewage treatment system with self-replaceable electrode according to claim 2, wherein: one side of the internal thread sleeve (615) is provided with a guide rod (614) parallel to the guide screw rod (607), and the guide rod (614) penetrates through the upper end and the lower end of the electrode lifting seat (603) and the bottom end of the guide rod is fixedly connected with the screw rod fixing plate (608).

4. An electrolytic sewage treatment system with self-replaceable electrode according to claim 1, wherein: a positioning rod (610) is arranged between the supporting rod (605) and the screw rod fixing plate (608), the bottom end of the positioning rod (610) is fixed on the upper surface of the sewage electrolytic cell (3), and the other end of the positioning rod (610) is rotationally connected with a rotating block (611).

5. The electrolytic wastewater treatment system with self-replaceable electrodes according to claim 4, wherein: two symmetrical telescopic rods (612) are fixed on the outer wall of the bottom end of the rotary block (611), and powerful absorbing electromagnets (613) are fixed at the movable end parts of the telescopic rods (612).

6. The electrolytic wastewater treatment system with self-replaceable electrodes according to claim 4, wherein: a hanging rotating shaft (619) is fixed at the top end of the rotating block (611), and the top end of the hanging rotating shaft (619) is rotatably inserted into the positioning rod (610).

7. The electrolytic wastewater treatment system with self-replaceable electrodes of claim 6, wherein: the bottom surface of the top end of the hanging rotating shaft (619) is embedded with a plurality of balls in a rolling mode, and the hanging rotating shaft (619) is in rolling contact with the positioning rod (610) through the balls.

8. The electrolytic wastewater treatment system with self-replaceable electrodes of claim 6, wherein: the outer surface of the suspension rotating shaft (619) is fixedly provided with a rotary transmission gear (621), one side of the rotary transmission gear (621) is connected with a rotary driving gear (606) in a meshed mode, a rotary motor (620) is arranged below the rotary driving gear (606), the rotary motor (620) is fixed with the positioning rod (610), and the output shaft is fixed with the rotary driving gear (606).

9. An electrolytic sewage treatment system with self-replaceable electrode according to claim 5, wherein: the strong suction electromagnet (613) is magnetically attracted to the electrode fixing seat (602), and the magnetic attraction force of the strong suction electromagnet (613) to the electrode fixing seat (602) is greater than the sum of the weights of the electrolysis electrode (601) and the electrode fixing seat (602).

10. An electrolytic sewage treatment system with self-replaceable electrode according to claim 1, wherein: the magnetic attraction force of the strong lifting attraction magnet (706) to the lifting frame (701) is larger than the sum of the weights of the lifting frame (701), the storage sleeve (702), the closed pressure sensor (703), the detection spring (704) and the insulation detection contact (705).