CN112142236A - Energy-saving wastewater treatment equipment and working method thereof - Google Patents

Abstract

The invention discloses energy-saving wastewater treatment equipment and a working method thereof, and relates to the technical field of sewage treatment. Through the filtration module that stews including the pond main part of stewing and the scraper conveyor main part of setting in pond main part upside department of stewing, the rotation is provided with the transmission band on the surface of scraper conveyor main part, the fixed a plurality of material loading scrapers that are provided with on the surface of last transmission band, it has seted up scraper blade dirt outlet to stew on the upper portion lateral wall of pond main part, the connection of the surperficial scraper blade dirt outlet department of the pond main part of stewing is provided with scraper blade dirt outlet connecting pipe, the fixed first collecting box that is provided with in discharge gate department bottom of scraper blade dirt outlet connecting pipe, the inner bearing fixed block has been seted up to bottom one side of the pond main part of stewing, the surperficial inner bearing fixed block department of the pond main part of stewing is connected with the granule discharge pipe, step result of use when having solved the filter is many, the effect.

Description

Energy-saving wastewater treatment equipment and working method thereof

Technical Field

The invention relates to the technical field of wastewater treatment, in particular to energy-saving wastewater treatment equipment and a working method thereof.

Background

The sewage treatment is generally classified into production sewage treatment and domestic sewage treatment according to the classification of sewage sources. The production sewage comprises industrial sewage, agricultural sewage, medical sewage and the like, and the domestic sewage is sewage generated in daily life, and refers to complex mixtures of various forms of inorganic matters and organic matters, and comprises the following steps: floating and suspended large and small solid particles; ② colloidal and gelatinous dispersions; ③ pure solution.

There are two types of water pollution, based on the nature of the water pollution: one is natural pollution; the other is artificial pollution, and the current water body is greatly damaged by the artificial pollution. Water pollution can be mainly classified into chemical pollution, physical pollution and biological pollution according to different pollution impurities. The pollutants are mainly: the method comprises the steps of discharging the untreated industrial wastewater; domestic sewage discharged without treatment; the farmland sewage with a large amount of fertilizer, pesticide and herbicide is used; fourthly, industrial waste and household garbage stacked beside a river are obtained; fifthly, water and soil loss; sixthly, mine sewage. The methods for treating sewage are various, and can be generally classified into physical methods, chemical methods, biological methods and the like.

Traditional sewage treatment needs to use various treatment ponds and filtration equipment, and the step result of use during the use of filter is many, and the effect is single, and the filter effect is poor, is unfavorable for effectively separating the solid particle thing in the sewage with liquid to the treatment pond adsorb some impurity on the surface easily, influence the subsequent use in treatment pond.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides energy-saving wastewater treatment equipment and a working method thereof, and solves the problems that when a filter is used, the steps have multiple using effects, the effect is single, the filtering effect is poor, the solid particles in sewage are not favorably and effectively separated from liquid, impurities are easily adsorbed on the surface of a treatment pool, and the subsequent use of the treatment pool is influenced.

In order to achieve the purpose, the invention is realized by the following technical scheme: an energy-saving wastewater treatment device and a working method thereof comprise a decontamination cleaning module, a contamination feeding filtering module and a standing filtering module, wherein the standing filtering module is arranged on one side of the decontamination cleaning module, and the contamination feeding filtering module is arranged on the side of a feeding end of the standing filtering module;

the static filter module comprises a static pool main body and a scraper conveyor main body arranged at the upper side of the static pool main body, wherein an upper transmission belt is rotatably arranged on the surface of the scraper conveyor main body, a plurality of feeding scrapers are fixedly arranged on the surface of the upper transmission belt, a scraper dirt outlet is formed in the side wall of the upper part of the static pool main body, a scraper dirt outlet connecting pipe is connected and arranged at the surface scraper dirt outlet of the static pool main body, a first collecting box is fixedly arranged at the bottom of the discharge outlet of the scraper dirt outlet connecting pipe, an inner bearing fixing block is arranged at one side of the bottom of the static pool main body, a particle discharge pipe is connected at the surface inner bearing fixing block of the static pool main body, a third collecting box is fixedly arranged at the bottom of the discharge outlet of the particle discharge pipe, an inner bearing fixing block is arranged at the bottom inside of the static pool main body, and an auger sewage discharge rod is rotatably arranged, the one end of auger blowdown pole and third driving motor's drive end between pass through shaft coupling fixed connection, the upside of the pond main part of stewing is fixed on the surface and is provided with upper portion and goes out dirty slide, the fixed second collecting box that is provided with in bottom ejection of compact department of the dirty slide of upper portion.

Preferably, a liquid outlet pipe is arranged in the middle of one side of the upper surface of the standing pool main body;

the width value of the upper sewage discharge sliding plate is smaller than that of the second collecting box, the width value of the scraper sewage discharge connecting pipe is smaller than that of the first collecting box, and the width value of the particle discharge pipe is smaller than that of the third collecting box.

Preferably, the third driving motor is electrically connected with an external power supply.

Preferably, the clean module of scrubbing is including setting up the long-pending wadding sedimentation tank main part in dirty filtration module one side at last, the upper surface both sides of long-pending wadding sedimentation tank main part all are equipped with the upside edge guide way, the upper portion of long-pending wadding sedimentation tank main part slides through the upside edge guide way and is provided with two displacement drive blocks on the surface, equal fixed bearing installation piece that is provided with on the both ends upper surface of long-pending wadding sedimentation tank main part, two are adjacent the inside of bearing installation piece is rotated and is provided with the threaded connection rod, the threaded connection rod sets up in the displacement drive piece with the screw thread mode, two fixedly connected with spill clean connecting rod between the displacement drive block, the fixed puddler that promotes the translation that is provided with on the surface of the upper portion of.

Preferably, one end of one of the threaded connecting rods is fixedly connected with the driving end of the first driving motor through a coupler, and the first driving motor is electrically connected with an external power supply.

Preferably, go up dirty filtration module and include dirty processing base member, the fixed second driving motor that is provided with in one side of dirty processing base member, it filters the blowdown pipeline to go up the fixed filtration blowdown pipeline that is provided with on one side of the upper surface of dirty processing base member, the upside port that filters the blowdown pipeline is established to the solid drain, the inside that filters the blowdown pipeline is provided with built-in bearing installation piece, the inside that filters the blowdown pipeline is rotated through built-in bearing installation piece and is provided with the auger rod, fixed connection between the drive end of shaft coupling and second driving motor is passed through to the one end of auger rod, it goes out dirty mouthful to have seted up liquid on the surperficial bottom of filtration blowdown pipeline.

Preferably, the position of the solid sewage draining exit is perpendicular to the upper side of the upper sewage discharging sliding plate, and the blanking width value of the solid sewage draining exit is smaller than the width value of the upper sewage discharging sliding plate.

The working method of the energy-saving wastewater treatment equipment comprises the following steps:

s1, primary wastewater filtration: advance the waste water in the dirty connecting tube and flow under the effect of second driving motor and auger rod, the rotation of second driving motor drive auger rod, the removal of the great solid in the auger rod drive sewage, liquid in the solid-liquid mixture of inside flows from liquid outlet dirty mouthful, enters into the inside of the pond main part of stewing, simultaneously great solid particle thing along with the rotation of auger rod is discharged from solid sewage mouthful department, the inside to the second collecting box is fallen to along the direction of upper portion discharge slide:

s2, secondary wastewater filtration: standing the liquid in the standing tank main body in the step S1 for a period of time, starting a third driving motor after a period of time, starting the third driving motor, driving the rotation of an auger sewage discharging rod by the third driving motor, carrying out secondary filtration on smaller particles in the wastewater after standing for a period of time by the auger sewage discharging rod, discharging the filtered smaller particles from a lower-side particle sewage outlet, and allowing the filtered smaller particles to fall into a third collecting tank;

s3, catalytic neutralization: discharging the liquid remained in the step S2 from the liquid outlet pipe, flowing the liquid into the deposition pool body, simultaneously, adding catalytic neutralizing agent into the deposition pool body and starting a first driving motor, wherein the first driving motor drives the screw thread connecting rod to rotate, the displacement driving block on the surface of the screw thread connecting rod and rotatably arranged in a screw thread mode can move back and forth along with the rotation of the screw thread connecting rod, the concave cleaning connecting rod fixedly connected with the displacement driving block is attached to the inside of the deposition pool body for cleaning and wiping, and the translation fixing stirring rod on the upper surface of the concave cleaning connecting rod is pushed to mix the catalytic neutralizing agent added into the concave cleaning connecting rod under the movement of the concave cleaning connecting rod.

Advantageous effects

The invention provides energy-saving wastewater treatment equipment and a working method thereof. Compared with the prior art, the method has the following beneficial effects:

1. an energy-saving wastewater treatment device and a working method thereof, wherein a standing filter module comprises a standing pool main body and a scraper conveyor main body arranged at the upper side of the standing pool main body, an upper conveying belt is rotatably arranged on the surface of the scraper conveyor main body, a plurality of feeding scrapers are fixedly arranged on the surface of the upper conveying belt, a scraper dirt outlet is arranged on the side wall of the upper part of the standing pool main body, a scraper dirt outlet connecting pipe is connected and arranged at the surface scraper dirt outlet of the standing pool main body, a first collecting box is fixedly arranged at the bottom of a discharge outlet of the scraper dirt outlet connecting pipe, an inner bearing fixing block is arranged at one side of the bottom of the standing pool main body, a particle discharge pipe is connected at the surface inner bearing fixing block of the standing pool main body, a third collecting box is fixedly arranged at the bottom of the discharge outlet of the particle discharge pipe, an inner bearing fixing block is arranged at the bottom of the standing pool main, the one end of auger blowdown pole and the drive end of third driving motor pass through shaft coupling fixed connection between, the upside of the pond main part of stewing is fixed on the surface and is provided with upper portion and goes out dirty slide, the fixed second collecting box that is provided with in the bottom ejection of compact department that goes out dirty slide on upper portion, the width value that upper portion goes out dirty slide is less than the width value of second collecting box, the width value that the scraper blade goes out dirty connecting pipe is less than the width value of first collecting box, the width value of granule discharge pipe is less than the width value of third collecting box, step result of use when having solved the use of filter is many, the effect is single, the filter effect is poor, be unfavorable for carrying out the problem of effective.

2. An energy-saving wastewater treatment device and a working method thereof, wherein a decontamination cleaning module comprises a floc settling tank main body arranged on one side of a decontamination filtering module, both sides of the upper surface of the floc settling tank main body are provided with upper side guide chutes, two displacement driving blocks are arranged on the upper surface of the floc settling tank main body in a sliding manner through the upper side guide chutes, bearing mounting blocks are fixedly arranged on the upper surfaces of both ends of the floc settling tank main body, threaded connecting rods are rotatably arranged inside two adjacent bearing mounting blocks and are arranged in the displacement driving blocks in a threaded manner, a concave cleaning connecting rod is fixedly connected between the two displacement driving blocks, a pushing translation fixing stirring rod is fixedly arranged on the upper surface of the concave cleaning connecting rod, the stain on the surface of the treatment pool can be cleaned, the subsequent use is convenient, and the integral use time is shortened.

3. An energy-saving waste water treatment device and a working method thereof, wherein a decontamination cleaning module comprises a floc settling tank main body arranged on one side of a decontamination filtering module, both sides of the upper surface of the floc settling tank main body are provided with upper side guide chutes, two displacement driving blocks are arranged on the upper surface of the floc settling tank main body in a sliding way through the upper side guide chutes, bearing mounting blocks are fixedly arranged on the upper surfaces of both ends of the floc settling tank main body, a threaded connecting rod is rotatably arranged inside two adjacent bearing mounting blocks and is arranged in a displacement driving block in a threaded way, a concave cleaning connecting rod is fixedly connected between the two displacement driving blocks, and a pushing translation fixing stirring rod is fixedly arranged on the upper surface of the concave cleaning connecting rod, so that the concave cleaning connecting rod can carry out certain stirring on internally filled catalytic neutralizing agent, and helps the catalytic neutralizing agent to be efficiently mixed, thereby facilitating the use, the efficiency is improved.

Drawings

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

FIG. 2 is a schematic view of the upper side structure of the present invention;

FIG. 3 is a schematic view of the internal structure of the present invention;

FIG. 4 is a schematic structural diagram of a desmear cleaning module according to the present invention.

In the figure: 1. a desmear cleaning module; 11. a flocculation sedimentation tank main body; 12. an upper side guide chute; 13. a displacement driving block; 14. a bearing mounting block; 15. a threaded connecting rod; 16. pushing the translational fixed stirring rod; 17. a concave cleaning link; 18. a first drive motor; 2. a dirt feeding and filtering module; 21. a sewage inlet connecting pipe; 22. a second drive motor; 23. a soil treatment substrate; 24. filtering a sewage draining pipeline; 25. a solid sewage draining outlet; 26. a bearing mounting block is arranged inside; 27. a screw rod; 28. a liquid outlet; 3. standing and filtering the module; 31. the upper part of the sewage outlet sliding plate; 32. an upper conveying belt; 33. a feeding scraper plate; 34. a scraper conveyor main body; 35. a scraper plate dirt outlet; 36. a scraper sewage outlet connecting pipe; 37. a first collection tank; 38. a third drive motor; 39. a second collection tank; 310. a particle discharge pipe; 311. a third collection tank; 312. a liquid outlet pipe; 313. an inner bearing fixing block; 314. a lower side particle outlet; 315. a packing auger blowdown rod; 316. and (5) standing the tank main body.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, an embodiment of the present invention: an energy-saving wastewater treatment device comprises a decontamination cleaning module 1, a contamination feeding filtering module 2 and a standing filtering module 3, wherein the standing filtering module 3 is arranged on one side of the decontamination cleaning module 1, and the contamination feeding filtering module 2 is arranged on the side of a feeding end of the standing filtering module 3;

referring to fig. 2-3, the standing filter module 3 includes a standing tank main body 316 and a scraper conveyor main body 34 disposed at an upper side of the standing tank main body 316, an upper conveyor belt 32 is rotatably disposed on a surface of the scraper conveyor main body 34, a plurality of feeding scrapers 33 are fixedly disposed on a surface of the upper conveyor belt 32, a scraper dirt outlet 35 is disposed on an upper side wall of the standing tank main body 316, a scraper dirt outlet connecting pipe 36 is connected to the scraper dirt outlet 35 of the surface of the standing tank main body 316, a first collecting box 37 is fixedly disposed at a bottom of a discharge outlet of the scraper dirt connecting pipe 36, an inner bearing fixing block 313 is disposed at one side of a bottom of the standing tank main body 316, a particle discharge pipe 310 is connected to the inner bearing fixing block 313 of the surface of the standing tank main body 316, a third collecting box 311 is fixedly disposed at a bottom of the discharge outlet of the particle discharge pipe 310, an inner bearing fixing, the packing auger blowdown rod 315 is rotatably arranged at the bottom inside the standing tank main body 316 through an inner bearing fixing block 313, one end of the packing auger blowdown rod 315 is fixedly connected with the driving end of the third driving motor 38 through a coupler, an upper sewage discharge sliding plate 31 is fixedly arranged on the surface of the upper side of the standing tank main body 316, a second collecting box 39 is fixedly arranged at the bottom discharge position of the upper sewage discharge sliding plate 31, the third driving motor 38 is electrically connected with an external power supply, a liquid outlet pipe 312 is arranged at the middle position of one side of the upper surface of the standing tank main body 316, the width of the upper sewage discharge sliding plate 31 is smaller than that of the second collecting box 39, the width of the scraper sewage discharge connecting pipe 36 is smaller than that of the first collecting box 37, and the width of the particle discharge pipe 310 is smaller than that of the third collecting.

Referring to fig. 4, the decontamination cleaning module 1 includes a flocculation settling basin main body 11 disposed at one side of the upper decontamination filtering module 2, upper side guide chutes 12 are disposed at both sides of an upper surface of the flocculation settling basin main body 11, two displacement driving blocks 13 are slidably disposed on an upper surface of the flocculation settling basin main body 11 through the upper side guide chutes 12, bearing mounting blocks 14 are fixedly disposed on upper surfaces of both ends of the flocculation settling basin main body 11, threaded connecting rods 15 are rotatably disposed inside the two adjacent bearing mounting blocks 14, the threaded connecting rods 15 are disposed in the displacement driving blocks 13 in a threaded manner, a concave cleaning connecting rod 17 is fixedly connected between the two displacement driving blocks 13, a pushing and translating fixed stirring rod 16 is fixedly disposed on an upper surface of the concave cleaning connecting rod 17, one end of one threaded connecting rod 15 is fixedly connected with a driving end of a first driving motor 18 through a coupler, the first driving motor 18 is electrically connected to an external power source.

Referring to fig. 2-3, the dirt feeding filter module 2 includes a dirt feeding processing base 23, a second driving motor 22 is fixedly disposed on one side of the dirt feeding processing base 23, a filtering and dirt discharging pipeline 24 is fixedly disposed on one side of the upper surface of the dirt feeding processing base 23, a solid dirt discharging port 25 is disposed at an upper side port of the filtering and dirt discharging pipeline 24, a built-in bearing mounting block 26 is disposed inside the filtering and dirt discharging pipeline 24, an auger rod 27 is rotatably disposed inside the filtering and dirt discharging pipeline 24 through the built-in bearing mounting block 26, one end of the auger rod 27 is fixedly connected with a driving end of the second driving motor 22 through a coupling, a liquid dirt discharging port 28 is disposed at the bottom of the surface of the filtering and dirt discharging pipeline 24, the position of the solid dirt discharging port 25 is vertically disposed with the upper side of the upper dirt discharging slide plate, and the blanking width of the solid sewage draining exit 25 is smaller than the width of the upper sewage outlet slide plate 31.

The working method of the energy-saving wastewater treatment equipment comprises the following steps:

s1, primary wastewater filtration: advance the waste water in dirty connecting pipe 21 and flow under second driving motor 22 and auger rod 27's effect, second driving motor 22 drive auger rod 27's rotation, the removal of the great solid in the auger rod 27 drive sewage, liquid in the solid-liquid mixture of inside flows out from liquid outlet 28, enter into the inside of the pond main part 316 that stews, simultaneously great solid particle thing is along with auger rod 27's rotation is discharged from solid drain 25, the inside to second collection box 39 is fallen to along the direction of upper portion discharge slide 31:

s2, secondary wastewater filtration: standing the liquid in the standing tank main body 316 in the step S1 for a period of time, after a period of time, starting the third driving motor 38, driving the rotation of the auger blowdown rod 315 by the third driving motor 38, wherein the auger blowdown rod 315 can secondarily filter smaller particles in the wastewater after standing for a period of time, discharging the filtered smaller particles from the lower-side particle outlet 314 and dropping into the third collection tank 311, meanwhile, the oil in the wastewater after standing for a period of time is above the water due to different densities, scraping the oil by the upper conveying belt 32 and the feeding scraper 33 on the surface of the scraper conveyor main body 34, and discharging the oil along the scraper blowdown connecting pipe 36 and dropping into the first collection tank 37;

s3, catalytic neutralization: discharging the liquid remained in the step S2 from the liquid outlet pipe 312 to the inside of the floc settling tank body 11, simultaneously, adding a catalytic neutralizing agent into the floc settling tank body 11 and starting the first driving motor 18, the first driving motor 18 driving the rotation of the threaded connecting rod 15, the displacement driving block 13 screwed on the surface of the threaded connecting rod 15 and rotatably arranged thereon moving back and forth along with the rotation of the threaded connecting rod 15, the concave cleaning connecting rod 17 fixedly connected with the displacement driving block 13 and the inside of the floc settling tank body 11 performing a cleaning wiping, and the pushing and translating fixed stirring rod 16 on the upper surface of the concave cleaning connecting rod 17 mixing the catalytic neutralizing agent added therein under the movement of the concave cleaning connecting rod 17.

When the device is used, the sewage inlet connecting pipe 21 is connected with an external sewage pipeline, the sewage in the sewage inlet connecting pipe 21 flows under the action of the second driving motor 22 and the auger rod 27, the auger rod 27 is rotationally arranged inside the filtering and sewage discharging pipeline 24, the filtering and sewage discharging pipeline 24 is obliquely arranged, under the action of the oblique arrangement of the filtering and sewage discharging pipeline 24, the sewage moves from top to bottom to form a separation effect according to gravity, the second driving motor 22 drives the auger rod 27 to rotate, the auger rod 27 drives large solid matters in the sewage to move, liquid in the internal solid-liquid mixture flows out from the liquid sewage outlet 28 and enters the inside of the standing tank main body 316, meanwhile, the large solid particles are discharged from the solid sewage outlet 25 along with the rotation of the auger rod 27 and fall into the inside of the second collecting tank 39 along the direction of the upper sewage discharging sliding plate 31, and the liquid in the standing tank main body 316 stands for a period of time, after a period of time, the third driving motor 38 is started, the third driving motor 38 drives the auger sewage discharging rod 315 to rotate, the auger sewage discharging rod 315 can perform secondary filtration on smaller particles in the wastewater after standing for a period of time, the filtered smaller particles are discharged from the lower side particle sewage outlet 314 and fall into the third collecting tank 311, meanwhile, oil in the wastewater after standing for a period of time is above water due to different densities, the scraper conveyor main body 34 is arranged above the standing tank main body 316, the scraper conveyor main body 34 can perform certain longitudinal adjustment above the standing tank main body 316, the upper conveying belt 32 and the feeding scraper 33 on the surface of the scraper conveyor main body 34 can scrape the oil, the oil is discharged along the scraper sewage outlet connecting pipe 36 and falls into the first collecting tank 37, and residual liquid in the standing tank main body 316 is discharged from the liquid outlet pipe 312, the catalytic neutralizing agent flows into the flocculation sedimentation tank body 11, meanwhile, the catalytic neutralizing agent is filled into the flocculation sedimentation tank body 11, the first driving motor 18 is started, the first driving motor 18 drives the threaded connecting rod 15 to rotate, the displacement driving block 13 which is arranged on the surface of the threaded connecting rod 15 in a threaded manner and is rotatably arranged with the threaded connecting rod 15 moves back and forth along with the rotation of the threaded connecting rod 15, the concave cleaning connecting rod 17 fixedly connected with the displacement driving block 13 is attached to the inside of the flocculation sedimentation tank body 11 to be cleaned, and the translational fixed stirring rod 16 which is positioned on the upper surface of the concave cleaning connecting rod 17 pushes the concave cleaning connecting rod 17 to mix the catalytic neutralizing agent filled in the concave cleaning connecting rod 17 under the movement of the concave cleaning connecting rod 17.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides an energy-saving waste water treatment equipment, includes clean module (1) of scrubbing, goes up dirty filtration module (2) and filter module (3) that stews, its characterized in that: the standing filtering module (3) is arranged on one side of the dirt removing and cleaning module (1), and the dirt feeding filtering module (2) is arranged on the side of the feeding end of the standing filtering module (3);

the static filter module (3) comprises a static pool main body (316) and a scraper conveyor main body (34) arranged at the upper side of the static pool main body (316), wherein an upper conveying belt (32) is rotatably arranged on the surface of the scraper conveyor main body (34), a plurality of feeding scrapers (33) are fixedly arranged on the surface of the upper conveying belt (32), a scraper dirt outlet (35) is formed in the side wall of the upper part of the static pool main body (316), a scraper dirt outlet connecting pipe (36) is connected and arranged at the position of the surface scraper dirt outlet (35) of the static pool main body (316), a first collecting box (37) is fixedly arranged at the bottom of the discharge outlet of the scraper dirt connecting pipe (36), an inner bearing fixing block (313) is formed in one side of the bottom of the static pool main body (316), and a particle discharge pipe (310) is connected at the position of the inner bearing fixing block (313) in the surface of the static pool main body (, the fixed third collecting box (311) that is provided with in discharge gate bottom of granule discharge pipe (310), the inside bottom of the pond main part of stewing (316) is provided with inner bearing fixed block (313), the inside bottom of the pond main part of stewing (316) is provided with auger blowdown pole (315) through inner bearing fixed block (313) rotation, pass through shaft coupling fixed connection between the one end of auger blowdown pole (315) and the drive end of third driving motor (38), the upside of the pond main part of stewing (316) is fixed on the surface and is provided with upper portion slide (31) that stains, the fixed second collecting box (39) that is provided with in bottom ejection of compact department of upper portion slide (31) that stains.

2. The energy-saving wastewater treatment facility according to claim 1, wherein: a liquid outlet pipe (312) is arranged in the middle of one side of the upper surface of the standing pool main body (316);

the width value of the upper sewage discharge sliding plate (31) is smaller than that of the second collection box (39), the width value of the scraper sewage discharge connecting pipe (36) is smaller than that of the first collection box (37), and the width value of the particle discharge pipe (310) is smaller than that of the third collection box (311).

3. The energy-saving wastewater treatment facility according to claim 1, wherein: the third driving motor (38) is electrically connected with an external power supply.

4. The energy-saving wastewater treatment facility according to claim 1, wherein: the decontamination cleaning module (1) comprises a flocculation sedimentation tank main body (11) arranged on one side of the upper decontamination filtering module (2), both sides of the upper surface of the flocculation sedimentation tank main body (11) are provided with upper side guide chutes (12), two displacement driving blocks (13) are arranged on the upper surface of the flocculation sedimentation tank main body (11) in a sliding way through an upper side guide chute (12), bearing mounting blocks (14) are fixedly arranged on the upper surfaces of the two ends of the flocculation sedimentation tank main body (11), a threaded connecting rod (15) is rotatably arranged inside two adjacent bearing mounting blocks (14), the threaded connecting rod (15) is arranged in the displacement driving blocks (13) in a threaded manner, a concave cleaning connecting rod (17) is fixedly connected between the two displacement driving blocks (13), the upper surface of the concave cleaning connecting rod (17) is fixedly provided with a pushing and translating fixed stirring rod (16).

5. The energy-saving wastewater treatment facility according to claim 4, wherein: one end of one of the threaded connecting rods (15) is fixedly connected with the driving end of the first driving motor (18) through a coupler, and the first driving motor (18) is electrically connected with an external power supply.

6. The energy-saving wastewater treatment facility according to claim 1, wherein: go up dirty filtration module (2) and including dirty processing base member (23), it is fixed to be provided with second driving motor (22) to go up one side of dirty processing base member (23), it filters sewage pipes (24) to go up the fixed filtration sewage pipes that is provided with on one side of the upper surface of dirty processing base member (23), the upside port of filtering sewage pipes (24) is established to solid drain (25), the inside of filtering sewage pipes (24) is provided with built-in bearing installation piece (26), the inside of filtering sewage pipes (24) is rotated through built-in bearing installation piece (26) and is provided with auger rod (27), fixed connection between the drive end of shaft coupling and second driving motor (22) is passed through to the one end of auger rod (27), it goes out dirty mouthful (28) to have seted up liquid on the surperficial bottom of filtration sewage pipes (24).

7. The energy-saving wastewater treatment facility according to claim 6, wherein: the solid sewage draining exit (25) is vertically arranged between the position of the solid sewage draining exit and the upper side of the upper sewage discharging sliding plate (31), and the blanking width value of the solid sewage draining exit (25) is smaller than the width value of the upper sewage discharging sliding plate (31).

8. The working method of the energy-saving wastewater treatment equipment is characterized by comprising the following steps: the method comprises the following steps:

s1, primary wastewater filtration: advance the waste water in dirty connecting pipe (21) and flow under the effect of second driving motor (22) and auger rod (27), the rotation of second driving motor (22) drive auger rod (27), the removal of the great solid in auger rod (27) drive sewage, liquid in the inside solid-liquid mixture flows from liquid outlet dirty mouthful (28) department, enter into the inside of the pond main part of stewing (316), simultaneously great solid particle thing is along with the rotation of auger rod (27) and is discharged from solid drain (25) department, the inside to second collecting box (39) is fallen to along the direction of upper portion discharge slide (31):

s2, secondary wastewater filtration: the liquid in the step S1 inside the standing pool main body (316) is stood for a period of time, and after a period of time, the third driving motor (38) is started, the third driving motor (38) drives the auger sewage discharging rod (315) to rotate, the auger sewage discharging rod (315) can carry out secondary filtration on smaller particles in the wastewater after standing for a period of time, the filtered smaller particles are discharged from the lower side particle sewage outlet (314) and fall into the third collecting box (311), meanwhile, oil in the wastewater after standing for a period of time is located above water due to different densities, an upper conveying belt (32) and a feeding scraper (33) on the surface of a scraper conveyor main body (34) scrape the oil, and the oil is discharged along a scraper sewage discharge connecting pipe (36) and falls into a first collecting box (37);

s3, catalytic neutralization: discharging the liquid remained in the step S2 from the liquid outlet pipe (312), flowing the liquid to the inside of the flocculation sedimentation tank body (11), simultaneously, filling catalytic neutralizing agent into the flocculation sedimentation tank body (11) and starting a first driving motor (18), wherein the first driving motor (18) drives the screw connecting rod (15) to rotate, the displacement driving block (13) which is arranged on the surface of the screw connecting rod (15) and rotates in a screw way moves back and forth along with the rotation of the screw connecting rod (15), the concave cleaning connecting rod (17) which is fixedly connected with the displacement driving block (13) is attached and cleaned with the inside of the flocculation sedimentation tank body (11), and the pushing translation fixing stirring rod (16) which is positioned on the upper surface of the concave cleaning connecting rod (17) mixes the filled catalytic neutralizing agent under the movement of the concave cleaning connecting rod (17).

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