CN115608030A - PC component waste water intelligent treatment and cyclic utilization system - Google Patents

Abstract

The invention discloses an intelligent treatment and cyclic utilization system for wastewater produced by PC members, and particularly relates to the technical field of wastewater treatment, wherein sludge is transferred between an upper filter belt and the lower filter belt through the transmission of the lower filter belt, so that a transmission flattening rolling mechanism can conveniently transmit and roll the sludge, an electric push rod I works in a reciprocating manner to push a lantern ring seat and drive a transmission press roller to be in contact with the bottom surface of the upper filter belt, the transmission press roller and a slide seat rotate and drive a corresponding slide seat to slide in a limiting manner in a guide rod, the stability of the transmission press roller in the movement is ensured, the transmission press roller performs reciprocating directional movement in a guide groove, so that the sludge is compacted more smoothly, and the sludge filter pressing quality is improved; mud is along with lower filter belt transmission to with scrape mud binding face contact, mud strikes off and drops and drop to the slagging-off case along the inclined plane, realizes the automatic clear and the collection work to the remaining mud in filter belt surface down, has improved clean efficiency.

Description

PC component waste water intelligent treatment and cyclic utilization system

Technical Field

The invention relates to the technical field of wastewater treatment, in particular to an intelligent treatment and recycling system for production wastewater of a PC (polycarbonate) component.

Background

With the increasing level of urbanization development, countries and society have more profound understanding on the relationship between people and natural environment, and the importance of environmental protection is increasingly highlighted. The assembly type building is a brand-new building industry technology provided under the green energy-saving and consumption-reducing concept, accords with the building development mode of the state at the present stage, can realize the recycling between the assembly type building and a steel structure building, and has the characteristics of prefabrication, customization, green, low carbon and environmental protection.

In recent years, with the change of market demand, government departments continue to develop relevant encouragement policies, assembly buildings are developed vigorously, and the proportion of the assembly buildings in the construction industry is steadily increased year by year. The PC component is used as the main component content of the fabricated building, and is mainly produced before construction, transported to a construction site according to requirements, and poured and assembled on the site, so that the aims of improving the construction speed and ensuring the construction quality are fulfilled. The PC component can greatly shorten the construction period of the fabricated building, saves water and energy on the premise of ensuring the functions of each building, has good economic and ecological benefits, and is beneficial to the sustainable development of the building industry.

In the process of producing concrete, a PC mixing plant can generate a large amount of wastewater when cleaning a PC station and performing PC mixing production, and the existing treatment mode is to temporarily store the wastewater in a sedimentation tank, but the wastewater overflows due to the limited capacity of the sedimentation tank, so that the risk of site pollution and resource waste exists. In addition, the PC component production wastewater also has the problems that the treated supernatant is directly discharged and not recycled, cement paste, sand and stones in the wastewater are easy to combine and harden at the bottom of the wastewater sedimentation tank, so that the cleaning difficulty is high, and the wastewater is easy to precipitate and accumulate again after being cleaned.

Therefore, the intelligent treatment and recycling technology for the production wastewater applied to the PC component is developed, the automatic and intelligent control of the wastewater is realized, the precipitation hardening of the wastewater is prevented, the production cost is reduced, and the recycling of the wastewater is completed at the same time, so that the purposes of improving the resource utilization rate and protecting the ecological environment are achieved.

Disclosure of Invention

The invention aims to provide an intelligent treatment and recycling system for wastewater produced by PC members, wherein sludge is transferred between an upper filter belt and a lower filter belt through the transmission of the lower filter belt, so that a transmission flattening rolling mechanism can conveniently transmit and roll the sludge, an electric push rod is used for reciprocating during rolling to push a sleeve ring seat and drive a transmission compression roller to be in contact with the bottom surface of the upper filter belt, the transmission compression roller and a sliding seat rotate in the motion process and drive a corresponding sliding seat to slide in a limiting way in a guide rod, so that the stability of the transmission compression roller in motion is ensured, and the transmission compression roller reciprocates and directionally moves in a guide groove in the process of transmitting and flattening the sludge, so that the sludge is more flattened, the sludge filter pressing quality is improved, and the problems in the background technology are solved.

The invention can be realized by the following technical scheme: the utility model provides a PC component waste water intelligent treatment and cyclic utilization system, is including being used for the filter-pressing room of collecting waste water mud filter-pressing, filter-pressing room's internally mounted has filter belt and lower filter belt, and filter-pressing room's top is provided with the roof, the top of going up the filter belt is provided with and is used for flattening rolling mechanism to the transmission of mud, and transmission rolling mechanism is including establishing on the inner wall of filter-pressing room and two guide ways of parallel arrangement, and the guide bar of I-shaped is all installed to the inside of every guide way, sliding connection has the slide on the surface of guide bar, and the transmission compression roller that contacts with last filter belt bottom surface is all installed through the bearing frame rotation that corresponds on the surface of every slide, the equal fixed cover ring seat that has cup jointed on the diaxon end surface of transmission compression roller, the surface of cup ring seat articulates there is one with roof bottom surface rotation continuous electric putter.

The invention has further technical improvements that: the sludge outlet after the filter-pressing is arranged on the surface of one side of the filter-pressing chamber, two upper compression rollers which are attached to the inner surface of the upper filter belt are arranged inside the upper filter belt, two lower guide rollers which are attached to the inner surface of the lower filter belt are arranged inside the lower filter belt, and the lower guide rollers and the upper compression rollers which are at the same side are arranged on one side of the sludge outlet.

The invention has the further technical improvements that: and a bearing plate for supporting sludge is arranged in the filter-pressing chamber and between the two lower guide rollers, and the top surface of the bearing plate is attached to the top surface of the lower filter belt.

The invention has further technical improvements that: the inside guide plate that is provided with along the direction of mud import of filter-pressing room is provided with and is used for guiding mud, and four support columns are installed to the bottom surface tip position of filter-pressing room, the bottom surface middle part of filter-pressing room is provided with the drain.

The invention has further technical improvements that: be located the fixed two reference columns that are provided with of symmetry on the surface of mud export one side support column, and the surface of support column has cup jointed the grip block of two semi-ring structures, and two grip blocks pass through the fastener fixed, every the grip block all be equipped with on the surface with correspond the reference column and peg graft complex locating hole, one side fixedly connected with of grip block removes the sediment case, the top of removing the sediment case is provided with on the surface and leads the mud binding face of scraping of roller surface laminating contact down, it is provided with the inclined plane that is used for the guide to strike off the remaining mud in filter belt surface down to scrape one side of mud binding face.

The invention has further technical improvements that: be equipped with the mud mouth that falls on the bottom surface of slagging-off case, and the fixed supporting shoe that is provided with L shape structure in bottom surface of slagging-off case, the inside of the mud mouth that falls is rotated and is installed and is used for the shrouding that blocks mud, the inside articulated electric putter two that has of supporting shoe, the flexible end of electric putter two is articulated with the bottom surface of shrouding.

The invention has further technical improvements that: the intelligent wastewater treatment and recycling system also comprises a turnover tank for collecting production wastewater and a stirring tank connected with the turnover tank, wherein the water outlet end of the stirring tank is sequentially connected with a sedimentation tank and a flocculation precipitation device, and the liquid outlet end of the flocculation precipitation device is connected with a filter pressing device; the flocculation precipitation device comprises a flocculation precipitation tank and a slurry pump communicated with the flocculation precipitation tank, and the slurry pump is electrically connected with the controller; the slurry pump is communicated with the filter pressing device.

The invention has further technical improvements that: the top surface middle part in stirring pond and turnover pond all installs the crossbeam that is the U-shaped structure, install the positioning seat on the top side in stirring pond, inside the positioning seat was inserted to the bottom of crossbeam, butterfly bolt was installed in the junction embedding of positioning seat and crossbeam, the bottom of crossbeam is provided with the stirring rake by agitator motor drive.

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

1. in the invention, the sludge is transferred between the upper filter belt and the lower filter belt through the transmission of the lower filter belt, so that the transmission rolling of the transmission flattening rolling mechanism on the sludge is facilitated, when the sludge is rolled, the electric push rod I works in a reciprocating manner to push the lantern ring seat and drive the transmission compression roller to be in contact with the bottom surface of the upper filter belt, and in the moving process, the transmission compression roller and the sliding seat rotate and drive the corresponding sliding seat to slide in the guide rod in a limiting manner, so that the stability of the transmission compression roller in the moving process is ensured, and in the sludge transmission flattening process, the transmission compression roller performs reciprocating directional movement in the guide groove, so that the sludge is compacted more smoothly, and the sludge filter pressing quality is improved;

2. according to the sludge scraper, residual sludge on the surface of the lower filter belt is in contact with the sludge scraping binding surface, meanwhile, the residual sludge is aligned to a positioning hole in the clamping block and clamped with the positioning column, the two clamping blocks are installed in a butt joint mode, the fastening piece is embedded to realize the fastening connection of the two clamping blocks, the sludge scraper box is further stably installed, the sludge is driven along with the lower filter belt, when the sludge scraper is bound with the sludge scraping binding surface, the sludge is scraped and falls down into the sludge scraper box along the inclined plane, the automatic cleaning and collecting work of the residual sludge on the surface of the lower filter belt is realized, and the cleaning efficiency is improved;

3. according to the invention, the bottoms of the U-shaped structural beams are arranged in the positioning seats on the stirring tank and the turnover tank, the beams and the corresponding stirring tank and the turnover tank are fixedly mounted by using the butterfly bolts, so that the stability of the stirring paddle during movement is ensured, and meanwhile, the beams, the stirring tank and the turnover tank have detachable structures, so that the bottoms of the inner cavities of the stirring tank and the turnover tank are convenient to clean after the beams are detached.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a process flow diagram of the present invention;

FIG. 2 is a diagram of a control system of the present invention;

FIG. 3 is a schematic diagram of a filter press chamber according to the present invention;

FIG. 4 is an enlarged view of a portion of the invention at A in FIG. 3;

FIG. 5 is a schematic view of the installation structure of the transmission compression roller of the invention;

FIG. 6 is a schematic view of the mounting structure of the clamping block of the present invention;

FIG. 7 is a schematic perspective view of the deslagging box of the invention;

FIG. 8 is an enlarged view of a portion of the invention at B in FIG. 3;

FIG. 9 is a schematic perspective view of the stirring tank and the cross beam according to the present invention.

In the figure: 1. a pressure filtration chamber; 2. a top plate; 3. a material guide plate; 4. a lower guide roller; 5. an upper compression roller; 6. a support column; 7. a deslagging box; 8. an electric push rod I; 9. a guide groove; 10. a transmission press roll; 11. an upper filter belt; 12. a lower filter belt; 13. a carrier plate; 14. a guide bar; 15. a slide base; 16. a bearing seat; 17. a collar seat; 18. a clamping block; 19. positioning holes; 20. a positioning column; 21. scraping the mud binding surface; 22. an inclined surface; 23. a mud falling port; 24. closing the plate; 25. a support block; 26. a second electric push rod; 27. a stirring tank; 28. a cross beam; 29. a stirring paddle; 30. positioning seats; 31. butterfly bolts.

Detailed Description

To further illustrate the technical means and effects of the present invention adopted to achieve the predetermined objects, the following detailed description of the embodiments, structures, features and effects according to the present invention will be given with reference to the accompanying drawings and preferred embodiments.

Referring to fig. 1-9, the invention provides an intelligent treatment and recycling system for PC component production wastewater, comprising a filter pressing device for filter-pressing and collecting production wastewater sludge, the filter pressing device is set as a filter pressing chamber 1, an upper filter belt 11 and a lower filter belt 12 are installed inside the filter pressing chamber 1, a top plate 2 is arranged at the top of the filter pressing chamber 1, the upper filter belt 11 is positioned above the lower filter belt 12, a transmission flattening rolling mechanism for sludge is arranged above the upper filter belt 11, the transmission rolling mechanism comprises two guide grooves 9 which are arranged on the inner wall of the filter pressing chamber 1 and are arranged in parallel, an i-shaped guide rod 14 is installed inside each guide groove 9, a slide seat 15 is connected to the outer surface of the guide rod 14 in a sliding manner, a transmission press roll 10 which is contacted with the bottom surface of the upper filter belt 11 is rotatably installed on the surface of each slide seat 15 through a corresponding bearing seat 16, the outer surfaces of two shaft ends of a transmission compression roller 10 are fixedly sleeved with a lantern ring seat 17, the outer surface of the lantern ring seat 17 is hinged with a first electric push rod 8 which is rotatably connected with the bottom surface of a top plate 2, a bearing plate 13 which is used for supporting sludge is arranged in a compression filtration chamber 1 and between two lower guide rollers 4, the top surface of the bearing plate 13 is attached to the top surface of a lower filter belt 12, when the wastewater is treated, the wastewater reaches a compression filtration device after flocculation precipitation treatment, the sludge is transferred to a position between an upper filter belt 11 and the lower filter belt 12 through the transmission of the lower filter belt 12, a transmission flattening roller mechanism is convenient for transmission rolling of the sludge, when the sludge is rolled, the first electric push rod 8 works in a reciprocating mode, the lantern ring seat 17 is pushed, the transmission compression roller 10 is driven to be in contact with the bottom surface of the upper filter belt 11, during the movement, the transmission compression roller 10 rotates with a sliding seat 15, and drives the corresponding sliding seat 15 to slide in a limiting mode in a guide rod 14, the stability of the transmission compression roller 10 in motion is ensured, and in the process of transmitting and flattening the sludge, the transmission compression roller 10 reciprocates and directionally moves in the guide groove 9, so that the sludge is compacted more smoothly, and the sludge filter pressing quality is improved.

The sludge outlet after filter pressing is arranged on the surface of one side of the filter pressing chamber 1, the internal mounting of the upper filter belt 11 is provided with two upper compression rollers 5 which are attached to the inner surface of the upper filter belt 11, the internal mounting of the lower filter belt 12 is provided with two lower guide rollers 4 which are attached to the inner surface of the lower filter belt 12, the lower guide rollers 4 and the upper compression rollers 5 at the same side are both arranged on one side of the sludge outlet, sludge drops from the sludge outlet after filter pressing, one end of the sludge outlet is connected with a conveyor belt, and filter cakes after filter pressing drop to the conveyor belt and are conveyed to the next processing procedure.

The inside guide plate 3 that is provided with along the direction of mud import of pressure filtration room 1 is used for guiding mud, and four support columns 6 are installed to the bottom surface tip position of pressure filtration room 1, and the bottom surface middle part of pressure filtration room 1 is provided with the drain, and the drainage that produces in the pressure filtration is retrieved through the drain.

The utility model discloses a be located the fixed two reference columns 20 that are provided with of symmetry on the surface of mud export one side support column 6, and the surface of support column 6 has cup jointed the grip block 18 of two semi-ring structures, two grip blocks 18 are fixed through the fastener, every grip block 18 all be equipped with on the surface with correspond reference column 20 grafting complex locating hole 19, one side fixedly connected with slagging-off case 7 of grip block 18, slagging-off case 7 is located the below of conveyer belt, be provided with on the top surface of slagging-off case 7 with the mud laminating binding face 21 of leading down roller 4 surface laminating contact, one side of mud scraping binding face 21 is provided with the inclined plane 22 that is used for guiding to strike off the remaining mud in filter belt 12 surface down, at first will scrape mud binding face 21 and install in the mud export, guarantee to scrape the surface laminating of mud binding face 21 and leading down roller 4, namely, remaining mud is in lower filter belt 12 surface and scrape binding face 21 contact, aim at the locating hole 19 on the grip block 18 and the reference column 20 joint, with two grip blocks 18 butt joint installation, and embedding fastener realize the fastening connection of two grip blocks 18, and then to the stable installation of mud scraping, along with the transmission face and the mud scraping, the mud scraping off the mud collection inclined plane, the mud collection efficiency of the mud scraping, the mud scraping is realized in the lower filter belt 12, the automatic collection box, the mud scraping operation is realized.

Be equipped with mud mouth 23 that falls on slagging-off case 7's the bottom surface, and the fixed supporting shoe 25 that is provided with L shape structure in slagging-off case 7's bottom surface, the inside rotation of mud mouth 23 that falls installs the shrouding 24 that is used for stopping mud, the inside of supporting shoe 25 articulates there is two 26 electric putter, two 26 electric putter's flexible end is articulated with the bottom surface of shrouding 24, when the full residual mud of slagging-off case 7 middle school, two 26 electric putter outage are closed, two 26 electric putter are in flexible state, the pulling shrouding 24 rotates with mud mouth 23 that falls and is opened, residual mud drops along with mud mouth 23 that falls, and via the shrouding 24 landing after opening, be convenient for to the automatic clearance to residual mud in the slagging-off case 7.

The waste water intelligent treatment cyclic utilization system still includes the turnover pond that is used for collecting waste water and the stirring pond 27 that links to each other with the turnover pond, and the play water end of stirring pond 27 connects gradually sedimentation tank and flocculation and precipitation device, and flocculation and precipitation device's play liquid end filter pressing device links to each other, through the twice stirring of sewage turnover pond, sewage stirring pond 27, can prevent that sewage from settling hardening at the bottom of the pool, then realizes the separation of mud and clear water through the sedimentation tank.

Crossbeam 28 that is the U-shaped structure is all installed at the top surface middle part in stirring pond 27 and turnover pond, install positioning seat 30 on the top side in stirring pond 27, inside positioning seat 30 was inserted to the bottom of crossbeam 28, butterfly bolt 31 is installed in the junction embedding of positioning seat 30 and crossbeam 28, the bottom of crossbeam 28 is provided with the stirring rake 29 by agitator motor drive, in service condition, pack into the bottom of U-shaped structure crossbeam 28 in the positioning seat 30 on stirring pond 27 and the turnover pond, and utilize butterfly bolt 31 to realize fixed mounting with crossbeam 28 and corresponding stirring pond 27 and turnover pond, guarantee the stability of stirring rake 29 when the motion, make crossbeam 28 and stirring pond 27 and turnover pond possess detachable construction simultaneously, dismantle the crossbeam 28 back, it is convenient to clean stirring pond 27 and turnover pond inner chamber bottom surface.

The water outlet of the sedimentation tank is communicated with the inlet of the clean water tank, supernatant liquid after sedimentation and separation is conveyed and stored in the clean water tank, part of supernatant liquid water can be used for cleaning slurry residues deposited in the pipeline, and clean water in the clean water tank is conveyed to a factory for use through the pipeline, so that the cyclic recycling of sewage is realized; the controller is respectively and electrically connected with the sewage pump, the flocculation precipitation device, the dosing device and the filter pressing device and intelligently controls the sewage pump, the flocculation precipitation device, the dosing device and the filter pressing device according to the actual sewage treatment condition;

the flocculation precipitation device comprises a flocculation precipitation tank and a slurry pump communicated with the flocculation precipitation tank, and the slurry pump is electrically connected with the controller; the slurry pump is communicated with the filter pressing device; the dosing device comprises a dosing container for injecting liquid medicine, a metering pump communicated with the dosing container and a dosing pipeline communicated with the metering pump, the metering pump is electrically connected with the controller, the dosing pipeline is directly communicated with the flocculation precipitation tank, and the controller controls the metering pump to dose medicine to the flocculation precipitation tank according to the sewage flow detected by the flowmeter so as to enable the sewage entering the flocculation precipitation tank to generate flocculation precipitation;

the wastewater intelligent treatment recycling system also comprises a circulating water device, the circulating water device comprises a clean water tank, a clean water pump communicated with the clean water tank and a cleaning pipeline communicated with the clean water pump, and the clean water pump is electrically connected with the controller; overflow mouth pipeline and clean water basin intercommunication of sedimentation tank, clean water pump locate in the clean water basin, and the clarification thick liquid on sedimentation tank upper strata passes through during the pipeline flows in the clean water basin, and thick liquid in the clean water basin passes through clean water pump and washs the pipeline and washs the PC station, reuse, resources are saved, the sewage that produces in the mill passes through the pipeline and collects sewage turnover pond in, turnover pond volume is not more than 15m ₃ And the excessive sewage quantity is prevented from generating precipitation in the sewage turnover tank.

When the sludge press is used, sludge is transferred between the upper filter belt 11 and the lower filter belt 12 through the transmission of the lower filter belt 12, so that the transmission and rolling of the transmission flattening rolling mechanism on the sludge are facilitated, the electric push rod I8 works in a reciprocating mode during rolling, the lantern ring seat 17 is pushed, the transmission press roller 10 is driven to be in contact with the bottom surface of the upper filter belt 11, the transmission press roller 10 and the slide seat 15 rotate in the moving process, the corresponding slide seat 15 is driven to slide in the guide rod 14 in a limiting mode, the stability of the transmission press roller 10 in the moving process is guaranteed, the transmission press roller 10 moves in the guide groove 9 in a reciprocating and directional mode in the sludge transmission flattening process, the sludge is compacted more flatly, and the sludge press filtering quality is improved;

residual sludge on the surface of the lower filter belt 12 contacts with the sludge scraping joint surface 21, meanwhile, the residual sludge is aligned with the positioning holes 19 in the clamping blocks 18 and clamped with the positioning columns 20, the two clamping blocks 18 are installed in a butt joint mode, fastening pieces are embedded to achieve fastening connection of the two clamping blocks 18, then the deslagging box 7 is stably installed, the sludge is driven along with the lower filter belt 12, when the sludge scraping joint surface 21 is jointed, the sludge is scraped and falls into the deslagging box 7 along the inclined surface 22, automatic cleaning and collecting work of the residual sludge on the surface of the lower filter belt 12 is achieved, and cleaning efficiency is improved;

pack into the bottom of U-shaped structure crossbeam 28 in stirring pond 27 and the positioning seat 30 on the turnover pond to utilize butterfly bolt 31 to realize fixed mounting with crossbeam 28 and the stirring pond 27 and the turnover pond that correspond, guarantee the stability of stirring rake 29 when the motion, make crossbeam 28 and stirring pond 27 and turnover pond possess detachable construction simultaneously, dismantle the crossbeam 28 after, conveniently to stirring pond 27 and turnover pond inner chamber bottom surface clean.

Although the present invention has been described with reference to the preferred embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but is intended to cover various modifications, equivalents and alternatives falling within the spirit and scope of the invention.

Claims (8)

1. The utility model provides a PC component waste water intelligent treatment and cyclic utilization system which characterized in that: including being used for filter-pressing room (1) to the collection of waste water sludge press-filtration, the internally mounted of filter-pressing room (1) has filter belt (11) and lower filter belt (12), and the top of filter-pressing room (1) is provided with roof (2), the top of going up filter belt (11) is provided with the transmission flattening rolling mechanism who is used for to mud, and transmission rolling mechanism is including establishing on filter-pressing room (1) inner wall and two guide ways (9) of parallel arrangement, and guide bar (14) of I-shaped are all installed to the inside of every guide way (9), sliding connection has slide (15) on the surface of guide bar (14), and all rotate through corresponding bearing frame (16) on the surface of every slide (15) and install transmission compression roller (10) that contact with last filter belt (11) bottom surface, the surface hinge of transmission compression roller (10) has and rotates and installs electric putter (8) on roof (2) bottom surface, the inside of filter-pressing room (1) is located two and leads to send and installs between roller (4) and is used for the laminating of the bearing board (13) of support mud under, the top surface of bearing board (13) and filter belt (12).

2. The intelligent treatment and recycling system for the production wastewater of the PC components as claimed in claim 1, wherein a sludge outlet after filter pressing is formed in one side surface of the filter pressing chamber (1), two upper press rollers (5) attached to the inner surface of the upper filter belt (11) are installed inside the upper filter belt (11), two lower guide rollers (4) attached to the inner surface of the lower filter belt (12) are installed inside the lower filter belt (12), and the lower guide rollers (4) and the upper press rollers (5) on the same side are installed on one side of the sludge outlet.

3. The intelligent treatment and recycling system for the production wastewater of the PC component according to claim 1, wherein the outer surfaces of the two shaft ends of the transmission compression roller (10) are fixedly sleeved with collar seats (17), and the outer surfaces of the collar seats (17) are hinged to the first electric push rod (8).

4. The intelligent treatment and recycling system for the production wastewater of the PC component according to claim 1, wherein a material guide plate (3) for guiding the sludge is arranged inside the filter pressing chamber (1) along the direction of the sludge inlet, four support columns (6) are arranged at the end of the bottom of the filter pressing chamber (1), and a sewage outlet is arranged in the middle of the bottom of the filter pressing chamber (1).

5. The intelligent treatment and recycling system for the production wastewater of the PC component according to claim 4, wherein two positioning columns (20) are symmetrically and fixedly arranged on the outer surface of the supporting column (6) on one side of the sludge outlet, two clamping blocks (18) of a semi-annular structure are sleeved on the outer surface of the supporting column (6), the two clamping blocks (18) are fixed through fasteners, a positioning hole (19) which is in inserting fit with the corresponding positioning column (20) is formed in the surface of each clamping block (18), a deslagging box (7) is fixedly connected to one side of each clamping block (18), a sludge scraping attaching surface (21) which is attached to and contacted with the surface of the lower guide roller (4) is arranged on the top surface of the deslagging box (7), and an inclined surface (22) which is used for guiding and scraping the residual sludge on the surface of the lower filter belt (12) is arranged on one side of the sludge scraping attaching surface (21).

6. The intelligent treatment and recycling system for the PC component production wastewater according to claim 5, wherein a sludge dropping port (23) is formed in the bottom surface of the deslagging box (7), a supporting block (25) with an L-shaped structure is fixedly arranged on the bottom surface of the deslagging box (7), a sealing plate (24) for blocking sludge is rotatably arranged inside the sludge dropping port (23), a second electric push rod (26) is hinged inside the supporting block (25), and the telescopic end of the second electric push rod (26) is hinged to the bottom surface of the sealing plate (24).

7. The intelligent treatment and recycling system for the production wastewater of the PC components as claimed in claim 1, further comprising a turnover tank for collecting the production wastewater and a stirring tank (27) connected with the turnover tank, wherein the water outlet end of the stirring tank (27) is sequentially connected with a sedimentation tank and a flocculation precipitation device, and the liquid outlet end of the flocculation precipitation device is connected with a filter pressing device.

8. The intelligent treatment and recycling system for the production wastewater of the PC components according to claim 7, wherein a U-shaped cross beam (28) is installed in the middle of the top surfaces of the stirring tank (27) and the turnover tank, a positioning seat (30) is installed on the side surface of the top of the stirring tank (27), the bottom of the cross beam (28) is inserted into the positioning seat (30), a butterfly bolt (31) is embedded and installed at the joint of the positioning seat (30) and the cross beam (28), and a stirring paddle (29) driven by a stirring motor is arranged at the bottom of the cross beam (28).

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