CN114832489B

CN114832489B - Industrial sewage purifying treatment system

Info

Publication number: CN114832489B
Application number: CN202210632684.1A
Authority: CN
Inventors: 王�忠; 梁永辉; 李洪飞
Original assignee: Shandong Yingweite Technology Co ltd
Current assignee: Shandong Yingweite Technology Co ltd
Priority date: 2022-06-07
Filing date: 2022-06-07
Publication date: 2023-08-08
Anticipated expiration: 2042-06-07
Also published as: CN114832489A

Abstract

The invention relates to the technical field of sewage purification, in particular to an industrial sewage purification treatment system, which comprises a purification box, wherein the purification box is of a triangular cavity structure with openings at the upper end and the lower end. According to the industrial sewage purifying treatment system designed by the invention, when industrial sewage is filtered, impurity is filtered and purified, the clapping plate in the clapping mechanism is used for continuously and rapidly clapping and cleaning impurities adhered on the filtering plate after the filtering mechanism is filtered, so that the problems that the filtering effect and the filtering speed of the industrial sewage are slower due to excessive impurity accumulation on the filtering plate in the sewage purifying process are avoided, meanwhile, the magnetic strips are arranged on the filtering plate, and when part of industrial sewage contains metal particles which are difficult to purify through filtering in the sewage purifying process, the metal particles are adsorbed through the adsorption of the magnetic strips, so that the sewage purifying effect is improved, and the problem that the industrial sewage is purified for multiple times and the purifying process is complicated is avoided.

Description

Industrial sewage purifying treatment system

Technical Field

The invention relates to the technical field of sewage purification, in particular to an industrial sewage purification treatment system.

Background

Industrial sewage, also called industrial wastewater, including production wastewater, production wastewater and cooling water, refers to wastewater and waste liquid generated in the industrial production process, which contains industrial production materials, intermediate products and byproducts which are lost with water and pollutants such as impurity particles, metal particles and the like generated in the production process, and the wastewater is directly discharged without treatment, so that the environment is seriously polluted, and the sewage needs to be filtered and purified before being discharged.

At present, when carrying out purification treatment to industrial sewage, the sewage purification filtration who adopts is filter or filter screen, and filter/filter screen is difficult to the impurity discharge of its surface filtration at filterable in-process, leads to the impurity on filter/filter screen more, and industrial sewage filter effect and filtration rate are slower when the impurity of filtering on the filter piles up too much to lead to industrial sewage purification filtration efficiency lower.

Disclosure of Invention

In order to solve the problems, the technical scheme is adopted by the invention, the industrial sewage purifying treatment system comprises a purifying box, wherein the purifying box is of a triangular cavity structure with openings at the upper end and the lower end, two vertex angles at the lower end of the purifying box are of arc structures, a liquid inlet cylinder and a liquid discharge hopper which are communicated with the purifying box are respectively arranged at the upper end and the lower end of the purifying box, the liquid inlet cylinder is of a triangular cavity structure, a filtering mechanism is arranged in the purifying box, and a clapping mechanism for removing impurities from the filtering mechanism is arranged in the liquid inlet cylinder.

The filter mechanism comprises rotating rollers, guide plates are arranged between the front inner wall and the rear inner wall of the liquid inlet cylinder, the guide plates are of inverted V-shaped structures, four rotating rollers are connected between the front inner wall and the rear inner wall of the purifying box in a rotating mode, two corresponding rotating rollers on each side are connected through a conveying belt in a transmission mode, conveying belts on two sides are distributed in a splayed mode, the conveying belts on two sides are respectively parallel to the inclined inner walls on two sides of the purifying box, one end of each of the two rotating rollers on the upper side penetrates through the purifying box, a driving assembly for driving the rotating rollers to rotate is arranged between the two rotating rollers on the upper side, and filter plates which are evenly distributed are arranged on the conveying belts.

The utility model provides a chip removal device, including the baffle, the baffle is installed at the lower terminal surface top, the lower extreme of baffle is close to both sides conveyer belt the terminal surface all has the baffle of clapping through the otic placode hinge, the connecting plate is installed to the lower terminal surface of otic placode, the connecting plate is connected through extension spring with clapping the board, the lift groove has been seted up at the middle part of fixed plate, the lift plate is installed through reset spring lever in the lift groove, the lift plate is connected through the lift rope respectively with controlling clapping the board, the lift rope equidistance is arranged from the front to the back, install electronic slider in the lift groove, electronic slider is located the top of lift plate, electronic slider is all installed and is carried and draw magnet with the relative face of lift plate, the magnetism of two lift magnets is opposite, the baffle is located lift groove up end face below, install the guide hopper that leads to the impurity that drops on the filter, the guide hopper is located between left and right sides two conveyer belts, the clearance groove has been seted up to the rear end face of case, the clearance groove is located the below of leading to the guide hopper, and the slope is connected to the slope to the inclined side between the guide hopper.

As a preferable technical scheme of the invention, the driving assembly comprises two symmetrically arranged rotating shafts which are rotationally connected with one side of the purifying box, the two rotating shafts are positioned between the two rotating rollers at the upper side, the rotating shafts are in transmission connection with the adjacent rotating rollers through belts, gears are sleeved on the two rotating shafts, and the two gears are in meshed transmission.

As a preferable technical scheme of the invention, one end of the filter plate far away from the conveying belt is provided with a side scraping plate, and the side scraping plate close to the inner side wall of the purifying box is tightly attached to the inner side wall of the purifying box.

As a preferable technical scheme of the invention, the lower end of the connecting plate is hinged with the overturning plate, the lower end of the connecting plate is provided with the limiting plate for limiting the overturning plate, the end face of the overturning plate, which is close to the fixing plate, is connected with the fixing plate through the supporting spring, the end face of the overturning plate, which is far away from the supporting spring, is provided with the magnetic strips on the two plates, the magnetic magnetism of the magnetic strips on the overturning plate is opposite to that of the magnetic strips on the filtering plate, the magnetic strips on the filtering plate are provided with the filtering holes corresponding to the meshes on the filtering plate.

As a preferable technical scheme of the invention, the end face of the guide hopper, which is close to the conveying belt, is provided with the water storage plate with a rectangular cavity structure, the end face of the water storage plate, which is close to the conveying belt, is provided with the spray heads which are communicated with the water storage plate and are uniformly distributed, the end face of the water storage plate, which is close to the guide hopper, is provided with the water pipes which are communicated with the water storage plate, the front and rear inner walls of the liquid discharge hopper and the purifying box are both provided with the drawing grooves which are positioned at the front side, the drawing grooves penetrate through the liquid discharge hopper and the purifying box, the two drawing grooves are internally provided with the net bag boxes, and the net bag boxes are positioned under the guide hopper.

As a preferable technical scheme of the invention, the outer side wall of the net bag box is provided with a sealing rubber ring which is clung to the front side drawing groove.

As a preferable technical scheme of the invention, the lower ends of both sides of the guide plate are respectively provided with a turnover groove, the turnover grooves are rotationally connected with a water baffle, and the water baffle is connected with the turnover grooves through torsion springs.

As a preferable technical scheme of the invention, the lower end of the water baffle is made of rubber.

The invention has the beneficial effects that: 1. according to the industrial sewage purifying treatment system designed by the invention, when industrial sewage is filtered, impurity is filtered and purified, the clapping plate in the clapping mechanism is used for continuously and rapidly clapping and cleaning impurities adhered on the filtering plate after the filtering mechanism is filtered, so that the problems that the filtering effect and the filtering speed of the industrial sewage are slower due to excessive impurity accumulation on the filtering plate in the sewage purifying process are avoided, meanwhile, the magnetic strips are arranged on the filtering plate, and when part of industrial sewage contains metal particles which are difficult to purify through filtering in the sewage purifying process, the metal particles are adsorbed through the adsorption of the magnetic strips, so that the sewage purifying effect is improved, and the problem that the industrial sewage is purified for multiple times and the purifying process is complicated is avoided.

2. According to the invention, the filter plate moves and turns downwards under the drive of the conveying belt, and the slapping plates at two sides rotate to slap the filter plate under the drive of the tension spring in the downward movement process of the lifting plate, so that the impurities filtered on the filter plate are slapped, and the impurities are prevented from adhering to the filter plate or being blocked in meshes on the filter plate, so that the excessive accumulation of the impurities on the filter plate has poor filtering effect and poor filtering speed.

3. The water pipe in the invention conveys water into the water storage plate, and the water sprays and washes the cleaned filter plate through the spray head, so that the industrial sewage adhered on the filter plate and the conveyor belt is washed cleanly, and the problem that the service lives of the filter plate and the conveyor belt are reduced due to corrosive liquid contained in the industrial sewage is avoided.

Drawings

The invention will be further described with reference to the drawings and examples.

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic view of a partially cut-away perspective structure of the present invention.

Fig. 3 is a top view of the present invention.

Fig. 4 is a cross-sectional view taken along A-A of fig. 3 in accordance with the present invention.

Fig. 5 is an enlarged view of fig. 4 at B in accordance with the present invention.

Fig. 6 is an enlarged view of fig. 4 at C in accordance with the present invention.

In the figure: 1. a purifying box; 2. a liquid inlet cylinder; 3. a liquid discharge hopper; 4. a filtering mechanism; 40. a rotating roller; 41. a deflector; 410. a turnover groove; 411. a water baffle; 42. a conveyor belt; 43. a filter plate; 430. a side scraper; 44. a drive assembly; 440. a rotating shaft; 441. a belt; 5. a slapping mechanism; 50. a fixing plate; 51. a slapping plate; 52. a connecting plate; 520. a turnover plate; 521. a limiting plate; 522. a support spring; 523. a magnetic stripe; 53. a tension spring; 54. a pulling groove; 55. a reset spring lever; 56. a lifting plate; 57. lifting a rope; 58. an electric slide block; 59. lifting the magnet; 501. a baffle; 502. a guide hopper; 503. chip removal through grooves; 504. an inclined plate; 510. a water storage plate; 511. a spray head; 512. a water pipe; 513. a drawing groove; 514. a net bag box; 516. sealing the rubber ring.

Detailed Description

Embodiments of the invention are described in detail below with reference to the attached drawings, but the invention can be implemented in a number of different ways, which are defined and covered by the claims.

Referring to fig. 1 and 2, an industrial sewage purifying treatment system comprises a purifying tank 1, wherein the purifying tank 1 is of a triangular cavity structure with openings at the upper end and the lower end, two apex angles at the lower end of the purifying tank 1 are of arc structures, a liquid inlet cylinder 2 and a liquid discharge hopper 3 which are communicated with the purifying tank 1 are respectively arranged at the upper end and the lower end of the purifying tank 1, the liquid inlet cylinder 2 is of a triangular cavity structure, a filtering mechanism 4 is arranged in the purifying tank 1, and a beating mechanism 5 for removing impurities from the filtering mechanism 4 is arranged in the liquid inlet cylinder 2.

Referring to fig. 2 and 4, the filtering mechanism 4 includes a rotating roller 40, a guide plate 41 is installed between the front and rear inner walls of the liquid inlet barrel 2, the guide plate 41 is in an inverted V-shaped structure, four rotating rollers 40 are rotatably connected between the front and rear inner walls of the purifying box 1, two corresponding rotating rollers 40 on each side are in transmission connection through a conveying belt 42, the conveying belts 42 on two sides are arranged in a splayed shape, the conveying belts 42 on two sides are respectively parallel to the inclined inner walls on two sides of the purifying box 1, one end of the two rotating rollers 40 on the upper side penetrates through the purifying box 1, a driving assembly 44 for driving the rotating rollers 40 to rotate is installed between the two rotating rollers 40 on the upper side, and filter plates 43 which are uniformly arranged are installed on the conveying belt 42.

The driving component 44 drives the two rotating rollers 40 on the upper side to turn over and rotate, the conveyor belts 42 on the two sides are driven by the rotating rollers 40 to move, when industrial sewage flows to the conveyor belts 42 on the two sides through the guide plates 41, the industrial sewage filters impurities through the filter plates 43 on the conveyor belts 42, filtered water is discharged from the liquid discharge hopper 3, the two top corners of the lower end of the purifying box 1 are arc-shaped structures so that the conveyor belts 42 drive the filter plates 43 to rotate, meanwhile, the industrial sewage after purification is also convenient to flow to the liquid discharge hopper 3, the filter plates 43 on the two sides are conveyed and moved to the upper end of the purifying box 1 until the filter plates 43 turn over and pour the impurities into the guide hoppers in the slapping mechanism 5, and therefore, the filtering effect and the filtering speed are not good due to excessive accumulation of the impurities on the filter plates 43 are prevented.

Referring to fig. 3, the driving assembly 44 includes two symmetrically arranged rotating shafts 440 rotatably connected to one side of the purifying box 1, the two rotating shafts 440 are located between the two rotating rollers 40 on the upper side, and the rotating shafts 440 are connected to the adjacent rotating rollers 40 by a belt 441 in a transmission manner, gears are respectively sleeved on the two rotating shafts 440, and meshed with each other, one of the rotating shafts 440 is connected to an existing driving device (such as a motor), the driving device drives the rotating shaft 440 connected to the driving device to rotate, and the two rotating shafts 440 drive the two rotating rollers 40 on the upper side to rotate through the two belts 441, so that the rotating rollers 40 on the two sides drive the conveyor belt 42 on the two sides to rotate.

Referring to fig. 5, the lower ends of both sides of the baffle 41 are provided with a turnover slot 410, the turnover slot 410 is rotatably connected with a water baffle 411, and the water baffle 411 is connected with the turnover slot 410 through a torsion spring.

Referring to fig. 5, the lower end of the water baffle 411 is made of rubber, the water baffle 411 is used for preventing sewage flowing down on the baffle 41 from directly flowing down between the two conveying belts 42, the lower end of the water baffle 411 is made of rubber, so that the water baffle 411 is convenient to cling to the conveying belts 42, when the filter plate 43 moves to cling to the water baffle 411, the filter plate 43 pushes the water baffle 411 to overturn, and after the filter plate 43 moves, the water baffle 411 resets under the action of the torsion spring, and water baffle is continued.

Referring to fig. 6, the beating mechanism 5 includes a fixing plate 50, the top of the lower end surface of the baffle 41 is provided with the fixing plate 50, the end surface of the lower end of the fixing plate 50, which is close to the conveying belts 42 at two sides, is hinged with the beating plate 51 through the ear plates, the lower end surface of the ear plates is provided with a connecting plate 52, the connecting plate 52 and the beating plate 51 are connected through a tension spring 53, the middle part of the fixing plate 50 is provided with a lifting groove 54, the lifting groove 54 is internally provided with a lifting plate 56 through a reset spring rod 55, the lifting plate 56 is respectively connected with the left beating plate 51 and the right beating plate 51 through lifting ropes 57, the lifting ropes 57 are equidistantly distributed from front to back, the electric sliding blocks 58 are arranged in the lifting groove 54, the electric sliding blocks 58 are located above the lifting plate 56, the opposite surfaces of the electric sliding blocks 58 and the lifting plate 56 are provided with lifting magnets 59, the lower end surfaces of the two inclined sections of the baffle plates 41 are respectively provided with a baffle 501 for limiting the lifting plate 56, the baffle 501 are located below the upper end surface of the lifting groove 54, the filter plate 1 is provided with a return spring rod 55, the filter plate 1 is arranged in the upper end surface of the filter plate is provided with a guide groove 502, the filter plate is inclined to the lower end surface of the filter plate is located between the guide groove 502 and the guide groove 503 is located below the guide groove 503, and the guide groove is connected with the guide groove 503 is located between the two inclined grooves of the guide groove 502 and the guide groove is located between the two inclined hopper and the guide groove 503 is located between the lower side of the guide groove and the lower groove is located between the opposite the lower side of the guide groove 503.

When the filter plate 43 moves, the electric sliding block 58 drives the lifting plate 56 to move upwards through the adsorption of the two lifting magnets 59, the lifting plate 56 drives the clapping plates 51 at two sides to overturn upwards through the lifting ropes 57 in the upward moving process, the filter plate 43 is not influenced by the clapping plates 51 in the downward overturning moving process, when the lifting plate 56 abuts against the baffle 501, the electric sliding block 58 continues to move upwards, at the moment, the two lifting magnets 59 are separated, the lifting plate 56 moves downwards under the driving of the reset spring rod 55, at the moment, the filter plate 43 moves downwards under the driving of the conveying belt 42 and overturns downwards, the clapping plates 51 at two sides in the downward moving process of the lifting plate 56 rotate under the driving of the tension springs 53 to clap the filter plate 43, so that impurities filtered on the filter plate 43 are clapped, excessive filtering effects and filtering speeds are prevented from being accumulated on the filter plate 43 or being blocked in meshes on the filter plate 43, the impurities dropped on the filter plate 43 and the clapping plates 51 are all dropped through the guide hopper plate 504, and then the impurities dropped through the inclined guide hopper plate 504 are discharged from the inclined guide groove 503.

Referring to fig. 6, a side scraper 430 is installed at one end of the filter plate 43 far away from the conveyor belt 42, the side scraper 430 close to the inner side wall of the purifying box 1 is tightly attached to the inner side wall of the purifying box 1, when the conveyor belt 42 drives the filter plate 43 to move, the side scraper 430 on the filter plate 43 is tightly attached to the side wall of the purifying box 1, so that unfiltered industrial sewage is prevented from being directly discharged, and meanwhile, the side scraper 430 can clean impurities adhered to the side wall of the purifying box 1.

Referring to fig. 6, the lower end of the connecting plate 52 is hinged with a turnover plate 520, the lower end of the connecting plate 52 is provided with a limit plate 521 for limiting the turnover plate 520, the end surface of the turnover plate 520 close to the fixed plate 50 is connected with the fixed plate 50 through a supporting spring 522, the end surface of the turnover plate 520 far away from the supporting spring 522 is provided with magnetic strips 523 on the filter plate 43, the magnetic strips 523 on the turnover plate 520 are opposite in magnetism, the magnetic force of the magnetic strips 523 on the turnover plate 520 is greater than the magnetic force of the magnetic strips 523 on the filter plate 43, and the magnetic strips 523 on the filter plate 43 are provided with filter holes corresponding to meshes on the filter plate 43.

When the filter plate 43 is used for cleaning impurities in industrial sewage, the magnetic strips 523 on the filter plate 43 adsorb metal impurity particles in the industrial sewage, then when the filter plate 43 moves and turns over, the magnetic strips 523 on the turning plate 520 adsorb the metal impurity particles adsorbed by the magnetic strips 523 on the filter plate 43, then part of impurities filtered by the filter plate 43 are received by the turning plate 520 at the same time, the filter plate 43 continues to turn over, the side scraping plate 430 on the filter plate 43 pushes against the turning plate 520 to rotate, the turning plate 520 extrudes the supporting spring 522 to shrink, the side scraping plate 430 pushes against the turning plate 520 to move, and simultaneously scrapes off the impurities on the turning plate 520, so that the metal impurity particles and the impurities on the turning plate 520 drop downwards at the same time, and the industrial sewage is comprehensively purified to reach the standard industrial sewage discharge index.

Referring to fig. 1 and 4, the end surface of the guide hopper 502 near the conveyor belt 42 is provided with a water storage plate 510 with a rectangular cavity structure, the end surface of the water storage plate 510 near the conveyor belt 42 is provided with spray heads 511 communicated with the water storage plate 510 and uniformly distributed, the end surface of the water storage plate 510 near the guide hopper 502 is provided with a water pipe 512 communicated with the water storage plate, the front and rear inner walls of the liquid discharge hopper 3 and the purifying box 1 are provided with drawing grooves 513 together, the drawing grooves 513 at the front side penetrate through the liquid discharge hopper 3 and the purifying box 1, net bags 514 are arranged in the two drawing grooves 513, and the net bags 514 are located under the guide hopper.

The water pipe 512 is connected with external water supply equipment such as a water pump, the external water supply equipment is used for conveying water into the water storage plate 510 through the water pipe 512, and the water is sprayed and washed to the filter plate 43 after cleaning through the spray nozzle 511, so that the industrial sewage adhered to the filter plate 43 and the conveying belt 42 is washed cleanly, the problem that the service lives of the filter plate 43 and the conveying belt 42 are reduced due to corrosive liquid contained in the industrial sewage is avoided, meanwhile, the washed liquid flows to the net bag box 514, and the sewage is discharged together after being filtered by the net bag box 514 and then being purified.

Referring to fig. 1, a sealing rubber ring 516 tightly attached to the front-side drawing groove 513 is mounted on the outer side wall of the net bag box 514, and the sealing rubber ring 516 is used for sealing the net bag box 514 and the front-side drawing groove 513 to prevent water from seeping out from the front-side drawing groove 513.

During operation, industrial sewage is sent into the purifying box 1 from the upper end of the liquid inlet cylinder 2, industrial sewage flows to the conveyer belt 42 in the filtering mechanism 4 on two sides through the guide plate 41, the industrial sewage filters impurities through the filter plate 43 on the conveyer belt 42, filtered water is discharged from the liquid discharge hopper 3, then the filter plate 43 is used for filtering industrial sewage, the upper magnet of the filter plate 43 adsorbs metal particle impurities in the industrial sewage, the filter plate 43 moves under the driving of the conveyer belt 42, when the conveyer belt 42 drives the filter plate 43 to move downwards and overturn, the overturning plate 520 adsorbs the adsorption on the filter plate 43 and the metal particles, the metal particles are separated from the filter plate 43, the lifting magnet 59 on the lifting plate 56 is separated from the lifting magnet 59 on the lower end of the electric sliding block 58, the lifting plate 56 moves downwards under the driving of the reset spring rod 55, the beating plate 51 on two sides of the filter plate 56 is driven by the stretching spring 53 to rotate to beat the filter plate 43, accordingly impurities filtered on the filter plate 43 are prevented from falling down, the adhered filter plate 43 is prevented from being clamped on the filter plate 43 or the filter plate 43 is prevented from being scraped off, and the impurities are removed from the filter plate 43 and the filter plate is removed from the lower side of the filter plate 43 through the guide plate 43 and the guide plate 43 is removed downwards when the impurities are scraped off by the filter plate 43 and the filter plate is pushed down by the guide plate 43.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims

1. An industrial sewage purification treatment system, includes purifying box (1), its characterized in that: the purifying box (1) is of a triangular cavity structure with openings at the upper end and the lower end, two vertex angles at the lower end of the purifying box (1) are of arc structures, the upper end and the lower end of the purifying box (1) are respectively provided with a liquid inlet cylinder (2) and a liquid discharge hopper (3) which are communicated with the purifying box, the liquid inlet cylinder (2) is of a triangular cavity structure, the inside of the purifying box (1) is provided with a filtering mechanism (4), and the inside of the liquid inlet cylinder (2) is provided with a clapping mechanism (5) for removing impurities from the filtering mechanism (4);

the filtering mechanism (4) comprises rotating rollers (40), guide plates (41) are arranged between the front inner wall and the rear inner wall of the liquid inlet cylinder (2), the guide plates (41) are of an inverted V-shaped structure, four rotating rollers (40) which are connected between the front inner wall and the rear inner wall of the purifying box (1) in a rotating mode are connected through conveying belts (42) in a transmission mode, the conveying belts (42) on two sides are distributed in a splayed mode, the conveying belts (42) on two sides are parallel to the inclined inner walls on two sides of the purifying box (1) respectively, one end of each of the two rotating rollers (40) on the upper side penetrates through the purifying box (1), a driving assembly (44) which drives the rotating rollers (40) to rotate is arranged between the two rotating rollers (40) on the upper side, and filter plates (43) which are distributed evenly are arranged on the conveying belts (42);

the clapping mechanism (5) comprises a fixed plate (50), the top of the lower end face of the guide plate (41) is provided with the fixed plate (50), the end faces, close to the conveying belts (42) on two sides, of the lower end of the fixed plate (50) are hinged with clapping plates (51) through lug plates, the lower end faces of the lug plates are provided with connecting plates (52), the connecting plates (52) are connected with the clapping plates (51) through extension springs (53), the middle part of the fixed plate (50) is provided with a lifting groove (54), the lifting groove (54) is internally provided with lifting plates (56) through reset spring rods (55), the lifting plates (56) are respectively connected with the left clapping plates (51) through lifting ropes (57), the lifting ropes (57) are distributed at equal distance from front to back, the electric sliding blocks (58) are arranged in the lifting grooves (54), the electric sliding blocks (58) are positioned above the lifting plates (56), lifting magnets (59) are arranged on opposite surfaces of the electric sliding blocks (58) and the lifting plates (56), the magnetism of the two lifting magnets (59) is opposite, baffle plates (501) for limiting the lifting plates (56) are arranged on lower end surfaces of two inclined sections of the guide plates (41), the baffle plates (501) are positioned below upper end surfaces of the lifting grooves (54), guide hoppers (502) for guiding impurities falling on the filter plates (43) are arranged in the purifying box (1), the guide hopper (502) is positioned between the left conveying belt (42) and the right conveying belt (42), the rear end face of the purifying box (1) is provided with a chip removal through groove (503), the chip removal through groove (503) is positioned below the guide hopper, the chip removal through groove (503) is connected with the guide hopper through an inclined plate (504), and the inclined plate (504) is inclined towards the rear lower side;

a side scraping plate (430) is arranged at one end, far away from the conveying belt (42), of the filter plate (43), and the side scraping plate (430) close to the inner side wall of the purifying box (1) is tightly attached to the inner side wall of the purifying box (1);

the lower extreme of connecting plate (52) articulates there is upset board (520), limiting plate (521) spacing to upset board (520) are installed to the lower extreme of connecting plate (52), the terminal surface that upset board (520) is close to fixed plate (50) is connected through supporting spring (522) with fixed plate (50), the terminal surface that supporting spring (522) was kept away from to upset board (520) all installs magnetic stripe (523) on filter (43), and the magnetic stripe (523) magnetism on the two is opposite, and magnetic stripe (523) magnetic force on upset board (520) is greater than magnetic stripe (523) magnetic force on filter (43), the filter hole corresponding with mesh on filter (43) has been seted up to magnetic stripe (523) on filter (43).

2. An industrial wastewater purification treatment system as claimed in claim 1, wherein: the driving assembly (44) comprises two symmetrically arranged rotating shafts (440) which are rotationally connected on one side of the purifying box (1), the two rotating shafts (440) are both positioned between the two rotating rollers (40) on the upper side, the rotating shafts (440) are in transmission connection with the adjacent rotating rollers (40) through belts (441), gears are sleeved on the two rotating shafts (440), and meshing transmission is carried out between the two gears.

3. An industrial wastewater purification treatment system as claimed in claim 1, wherein: the utility model discloses a guide hopper, including guide hopper (502), guide hopper (1), guide hopper (3) and purifying tank (1), guide hopper (3), guide hopper (514) are placed in two guide hopper (513) to guide hopper (3) and purifying tank (1) in the guide hopper, guide hopper (3) and purifying tank (1) are all offered together to guide hopper (502), guide hopper (3) and purifying tank (1) are all offered to guide hopper (1), guide hopper (3) and purifying tank (1) are run through to guide hopper (513), guide hopper (514) are placed in the guide hopper.

4. An industrial wastewater purification treatment system as claimed in claim 3, wherein: and a sealing rubber ring (516) clung to the front side drawing groove (513) is arranged on the outer side wall of the net bag box (514).

5. An industrial wastewater purification treatment system as claimed in claim 1, wherein: the lower ends of two sides of the guide plate (41) are provided with turnover grooves (410), the turnover grooves (410) are rotationally connected with water baffles (411), and the water baffles (411) are connected with the turnover grooves (410) through torsion springs.

6. An industrial wastewater purification treatment system as claimed in claim 5, wherein: the lower end of the water baffle (411) is made of rubber.