CN111908564A - Working method of sewage treatment equipment with friction nano generator - Google Patents

Abstract

The invention relates to the technical field of sewage treatment, in particular to a working method of friction nano generator sewage treatment equipment, which comprises a reservoir and a treatment pool, wherein the reservoir is provided with a sewage rough treatment component, an auxiliary water passing component is arranged between the bottom of the reservoir and the bottom of the treatment pool, a plurality of inverted U-shaped guide pipes are uniformly distributed on the upper sides of the reservoir and the treatment pool, two ends of each inverted U-shaped guide pipe respectively extend to the bottoms of the reservoir and the treatment pool, a plurality of sealing cylinders are uniformly and fixedly sleeved on the inverted U-shaped guide pipes, a friction nano power generation component is arranged in a shell, a hydrodynamic component for driving the friction nano power generation component is arranged in each sealing cylinder, and an electrochemical sewage treatment component. The invention utilizes the potential energy of the sewage to cooperate with the friction nano generator to generate electricity, carries out electrochemical treatment of the sewage from self supply, further assists in arranging a siphon structure, utilizes the atmospheric pressure to increase the potential energy of the water, ensures the generated energy and achieves higher generated power.

Description

Working method of sewage treatment equipment with friction nano generator

Technical Field

The invention relates to the technical field of sewage treatment, in particular to a working method of sewage treatment equipment of a friction nano generator.

Background

The sewage treatment is a process for purifying a certain water body, is widely applied to various fields at present, plays a higher role in protecting the environment, and is a project of national key development; the electrochemistry is paid attention to the sewage purification process at present, the sewage can be purified by electrolyzing the sewage, the sewage purification efficiency is improved, the energy problem is solved by electrolyzing the sewage, the sewage is high in efficiency and large in consumption, and the application of clean energy and renewable energy on the electrolyzed sewage is a problem which is gradually researched by people at present, such as solar energy, wind energy, tidal energy and the like; a friction nanometer power generation mode appears in the energy field, the emerging power generation mode attracts people's attention with excellent effects, the power generation mode is applied to the function of electrolyzing sewage, the energy supply problem can be solved, the power generation effect can be achieved through sewage self-generated potential energy, and how to increase the sewage potential energy becomes a new problem to be solved.

Chinese patent application No.: CN 201110073030.1; the small sewage treating apparatus driven by wind energy includes one air feeder and one integrated biological treating unit, and is one water circulating and oxygenating biological treating apparatus comprising wind machine, one gas flow limiting and pressure reducing device, one two-section biological mixing bed and one settling pond.

This solution has the following drawbacks:

1. energy supply is carried out through wind energy, and the wind energy generator is greatly influenced by environmental factors, is unstable in energy supply and is low in efficiency;

2. the device has low sewage treatment efficiency and is not efficient enough.

Disclosure of Invention

The invention aims to provide sewage treatment equipment for a friction nano generator.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a friction nanometer generator environmental protection sewage treatment device, including cistern and processing pool, the cistern is equipped with the thick processing subassembly of sewage, the fixed support frame that sets up of cistern lower extreme, terminal surface is in same horizontal plane with the up end of processing pool under the cistern, be equipped with supplementary water passing subassembly between cistern bottom and the processing pool bottom, a plurality of type of falling U pipes are equipped with to cistern and the upside equipartition of processing pool, all fixedly set up the mount of accepting a plurality of type of falling U pipes on cistern and the processing pool, a plurality of type of falling U pipe both ends are equallyd divide and are extended to the bottom of cistern and processing pool respectively, evenly fixed cover is equipped with a plurality of sealed barrels on the type of falling U pipe, a plurality of sealed barrel all communicate with type of falling U pipe, a plurality of sealed barrel one side all fixedly is equipped with the casing, be equipped with friction, the device is characterized in that a hydrodynamic component for driving the friction nano power generation component is arranged in the sealed cylinder, and an electrochemical sewage treatment component is arranged in the treatment tank.

Further, the thick processing subassembly of sewage is including the fixed first mounting bracket that sets up on the cistern, the fixed driving motor that is provided with on the first mounting bracket, the coaxial fixedly connected with pivot of driving motor's output, the pivot runs through first mounting bracket and extends to in the cistern, surround fixedly in the pivot and be equipped with a plurality of puddlers, cistern middle part level is equipped with metal mesh screen, metal mesh screen and the sealed fixed connection of cistern, the fixed first sludge pump that corresponds metal mesh screen that sets up on the cistern lateral wall.

Further, supplementary subassembly of leading to water is including setting up the pipe of bending between cistern and treatment tank, the pipe one end of bending and cistern bottom fixed connection and intercommunication, the pipe other end of bending and treatment tank bottom fixed connection and intercommunication, the equal fixed control valve that sets up in pipe both ends of bending, the fixedly connected with pump body on the pipe of bending.

Further, friction nanometer electricity generation subassembly is including the fixed cylinder shell that sets up in sealed barrel one side, the fixed first PDSM thin layer that is equipped with on the cylinder shell inner wall, the matching slides in the cylinder shell and is equipped with the column block, the fixed second PDSM thin layer that sets up on the column block outer wall, first PDSM thin layer and second PDSM thin layer all are connected with outside power storage device through the wire, the column block is close to the coaxial fixedly connected with actuating lever of one end of sealed barrel, the actuating lever runs through cylinder shell and extends to the outside.

Further, hydrodynamic force subassembly is including matcing the impeller that sets up at sealed barrel, the impeller rotates with sealed barrel to be connected, sealed barrel one side sets up the bull stick, bull stick one end run through sealed barrel and with the coaxial fixed connection of impeller, fixed cover is equipped with the carousel on the bull stick, carousel one side is equipped with the down tube, down tube one end rotates with the carousel lateral wall to be connected, the down tube other end rotates with the actuating lever to be connected.

Further, electrochemistry sewage treatment subassembly is including the fixed second mounting bracket that sets up at the treatment tank upside, the symmetry is equipped with two bar boards in the treatment tank, two the bar board is all through link and second mounting bracket fixed connection, two it is a plurality of first electrode boards and a plurality of second electrode board a plurality of to fix respectively under the bar board first electrode board and a plurality of second electrode board are connected with outside power storage device's positive negative pole electricity respectively, treatment tank lateral wall middle section fixedly connected with outlet pipe, the fixed second sludge pump that sets up in bottom of the treatment tank.

Furthermore, a plurality of the first electrode plates and a plurality of the second electrode plates are distributed in the treatment tank, and the plurality of the first electrode plates and the plurality of the second electrode plates are arranged in a staggered manner.

Furthermore, two ends of the inverted U-shaped guide pipes are horn-shaped.

Furthermore, the second mounting frame is fixedly connected with the top of the treatment pool through two hydraulic telescopic rods.

Further, the working steps of the friction nano-generator environment-friendly sewage treatment equipment are as follows:

a) the sewage is introduced into the water storage tank, then the driving motor is started, the driving motor works to drive the rotating shaft to rotate, the rotating shaft drives the stirring rods to rotate when rotating, the stirring rods play a stirring role on the sewage, standing and precipitation are carried out after stirring is finished, larger impurities in the sewage are separated and precipitated through the metal screen, a certain precipitate is formed on the surface of the metal screen, then the precipitate can be discharged through the work of the first sludge pump, and a primary filtering role is played on the sewage;

b) then, opening control valves at two ends of a bent pipe to enable the bent pipe to be communicated with a pipe and a pump body on the bent pipe to work, guiding primary filtered sewage at the bottom of a reservoir into a treatment tank, closing the two control valves and the pump body after the sewage surface in the treatment tank is submerged at the lower ends of a plurality of inverted U-shaped guide pipes, generating siphon benefit between the reservoir and the treatment tank, sucking water in the reservoir into the treatment tank through the inverted U-shaped guide pipes, and generating potential energy from bottom to top by utilizing atmospheric pressure and generating potential energy from top to bottom by utilizing the gravity of matched water;

c) when sewage moves in the inverted U-shaped guide pipes, the sewage passes through the plurality of sealing cylinders on the plurality of inverted U-shaped pipes to drive the impellers in the plurality of sealing cylinders to rotate, when the impellers rotate, the rotating disc is driven to rotate through the rotating rod, the inclined rod is driven to perform a reciprocating action when the rotating disc rotates, and the inclined rod drives the driving rod to reciprocate and drives the column block in the cylindrical shell to reciprocate;

d) in the reciprocating motion process of the column block, a first PDSM thin film layer on the column block and a second PDSM thin film layer in the cylinder shell are rubbed, the principle of friction power generation of a nano material is adopted, wherein the arc-shaped surface generates continuous friction action, and the plane generates intermittent collision action so as to generate electric energy;

e) supply power to a plurality of first plate electrodes and a plurality of second plate electrode in the treatment tank through outside power storage device, a plurality of first plate electrodes and a plurality of second plate electrode staggered arrangement distribute in the treatment tank simultaneously, guarantee the electrochemistry purification effect to sewage in the treatment tank, make sewage produce dirty respectively on bottom and surface, utilize current means such as scraper blade can strike off the dirty of the surface of water, then discharge through the row after will purifying through the outlet pipe, utilize the second sludge pump can take the dirty of treatment tank bottom out and arrange, accomplish the sewage treatment operation.

The invention has the beneficial effects that:

the invention adopts an electrochemical method to treat the sewage, firstly carries out preliminary sedimentation and filtration on the sewage in the reservoir, then leads the sewage into the treatment tank for electrochemical treatment after the preliminary sedimentation and filtration are finished, finishes the purification operation of the sewage, has good purification effect and high purification efficiency, wherein the electric energy used for electrochemical sewage purification is generated by a nano friction power generation structure, and the nano friction power generation structure works by the potential energy of the sewage to play a self-supplied purification role and have an environmental protection role, compared with clean energy such as solar energy, the device is less influenced by the environment, has high stable supply efficiency, meanwhile, in the process of sewage conduction, the siphon principle is utilized, atmospheric pressure acts on sewage, the potential energy of the water is increased, the flow track of the water is increased, the power generation efficiency is ensured, the electric energy is increased, and therefore the water purification effect is ensured.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the embodiments of the present invention will be briefly described below.

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

FIG. 2 is a schematic top perspective view of the present invention;

FIG. 3 is a schematic side-view perspective of the present invention;

FIG. 4 is a schematic perspective view of the sealing cylinder and the housing according to the present invention;

FIG. 5 is a schematic perspective view of a hydrodynamic assembly of the present invention;

fig. 6 is a schematic perspective view of a frictional nano-power generation assembly according to the present invention.

In the figure:

1 cistern, 2 handle the pond, 3 support frames, 4 type of falling U pipes, 5 mounts, 6 sealed barrel, 7 casings, 8 first mounting brackets, 9 driving motor, 10 pivots, 11 puddlers, 12 metal mesh, 13 first sludge pump, 14 the pipe of bending, 15 control valves, 16 the pump body, 17 cylinder casings, 18 column blocks, 19 actuating levers, 20 impellers, 21 bull sticks, 22 carousel, 23 down tube, 24 second mounting brackets, 25 strip shaped plates, 26 link, 27 first electrode board, 28 second electrode board, outlet pipe 29, 30 second sludge pump, 31 hydraulic telescoping rod.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

Wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to be construed as limiting the present patent; to better illustrate the embodiments of the present invention, some components of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product.

Referring to fig. 1, 2 and 3, a friction nano generator environmental protection sewage treatment device comprises a reservoir 1 and a treatment pool 2, which are respectively used for primary sewage accumulation and effluent treatment, the reservoir 1 is provided with a sewage coarse treatment component, which can play a certain role of filtration and purification to the sewage to remove larger dirt, the lower end of the reservoir 1 is fixedly provided with a support frame 3, the reservoir 1 is erected, the lower end surface of the reservoir 1 and the upper end surface of the treatment pool 2 are in the same horizontal plane to facilitate subsequent siphon action, an auxiliary water flowing component is arranged between the bottom of the reservoir 1 and the bottom of the treatment pool 2, which can lead the primarily purified water in the reservoir 1 into the treatment pool 2 to complete the advance condition of siphon action, a plurality of inverted U-shaped guide pipes 4 are uniformly distributed on the upper sides of the reservoir 1 and the treatment pool 2, a fixing frame 5 for supporting the plurality of inverted U-shaped guide pipes 4 is fixedly arranged on the reservoir 1 and the, the bottom that does not extend to cistern 1 and treatment tank 2 is equallyd divide at 4 both ends of a plurality of type of falling U pipes, play the conduction effect in siphon work, evenly fixed cover is equipped with a plurality of sealed barrels 6 on the type of falling U pipe 4, a plurality of sealed barrels 6 all communicate with type of falling U pipe 4, a plurality of sealed barrels 6 one side are all fixed and are equipped with casing 7, be equipped with friction nanometer electricity generation subassembly in the casing 7, can produce the electric energy through the friction, be equipped with the hydrodynamic force subassembly of drive friction nanometer electricity generation subassembly in the sealed barrel 6, when sewage passes through type of falling U pipe 4, can drive hydrodynamic force subassembly work, and then drive friction nanometer electricity generation subassembly, be equipped with electrochemistry sewage treatment component in the treatment tank 2, can utilize the electric energy to handle sewage.

As shown in fig. 2, the sewage rough treatment component includes a first mounting bracket 8 fixedly disposed on the reservoir 1, a driving motor 9 is fixedly disposed on the first mounting bracket 8, the driving motor 9 adopts the prior art, the driving motor 9 can also supply power through an external power storage device, an output end of the driving motor 9 is coaxially and fixedly connected with a rotating shaft 10, the rotating shaft 10 penetrates through the first mounting bracket 8 and extends into the reservoir 1, a plurality of stirring rods 11 are fixedly disposed around the rotating shaft 10, when the driving motor 9 works, the rotating shaft 10 can be driven to rotate, so as to drive the plurality of stirring rods 11 to rotate, so as to stir sewage, and facilitate subsequent sedimentation, a metal screen 12 is horizontally disposed in the middle of the reservoir 1, the metal screen 12 is fixedly connected with the reservoir 1 in a sealing manner, the metal screen 12 is used for separating large dirt, plays a sedimentation role, and simultaneously ensures that sewage on the lower side of, the first sludge pump 13 corresponding to the metal screen 12 is fixedly arranged on the side wall of the reservoir 1, and the first sludge pump 13 adopts the prior art and can pump out and remove the dirt precipitated on the metal screen 12.

As shown in fig. 1, the supplementary subassembly of leading to water is including setting up the pipe 14 of bending between cistern 1 and treatment tank 2, 14 one end of the pipe of bending and 1 bottom fixed connection of cistern and intercommunication, the pipe 14 other end of bending and 2 bottom fixed connection of treatment tank and intercommunication, the pipe 14 of bending is with 1 bottom of cistern and 2 bottom intercommunications of treatment tank, can be with the leading-in treatment tank 2 of sewage in the cistern 1 in, the pipe 14 both ends of bending are all fixed and are set up control valve 15, can control the switching, fixedly connected with pump body 16 on the pipe 14 of bending, can work in leading-in treatment tank 2 with the water in the cistern 1, generally can utilize gravity natural conduction, adopt pump body 16 can avoid blocking phenomenon.

As shown in fig. 5 and fig. 6, the friction nano power generation assembly includes a cylinder housing 17 fixedly disposed on one side of the sealed cylinder 6, a first PDSM thin layer is fixedly disposed on an inner wall of the cylinder housing 17, a nano material is used, power can be generated during friction, a column block 18 is slidably disposed in the cylinder housing 17 in a matching manner, a second PDSM thin layer is fixedly disposed on an outer wall of the column block 18, the first PDSM thin layer has the same structure as the first PDSM thin layer, a relay material is coated on a back surface, a conductive sheet is attached to the column housing and connected with a conductive wire, the power generated by friction can be conducted away, the first PDSM thin layer and the second PDSM thin layer are both connected with an external power storage device through a wire, the power is stored by the external power storage device, a driving rod 19 is coaxially and fixedly connected to one end of the column block.

As shown in fig. 4 and 5, the hydrodynamic component includes an impeller 20 disposed on the sealing cylinder 6 in a matching manner, the impeller 20 is rotatably connected to the sealing cylinder 6, the impeller 20 is disposed in the sealing cylinder 6, when sewage passes through the inverted U-shaped conduit 4, the impeller 20 inside the sealing cylinder 6 is driven to rotate, a rotating rod 21 is disposed on one side of the sealing cylinder 6, one end of the rotating rod 21 penetrates through the sealing cylinder 6 and is coaxially and fixedly connected with the impeller 20, a rotating disc 22 is fixedly disposed on the rotating rod 21, the impeller 20 is rotated to drive the rotating disc 22 to rotate, an inclined rod 23 is disposed on one side of the rotating disc 22, one end of the inclined rod 23 is rotatably connected to a side wall of the rotating disc 22, the other end of the inclined rod 23 is rotatably connected to the driving rod 19, the rotating disc 22 can drive the driving rod 19 to reciprocate through the inclined rod 23.

As shown in fig. 2, the electrochemical sewage treatment assembly comprises a second mounting frame 24 fixedly arranged at the upper side of the treatment tank 2, two strip-shaped plates 25 are symmetrically arranged in the treatment tank 2, the two strip-shaped plates 25 are fixedly connected with the second mounting frame 24 through a connecting frame 26, a plurality of first electrode plates 27 and a plurality of second electrode plates 28 are respectively and fixedly arranged below the two strip-shaped plates 25, the first electrode plates 27 and the second electrode plates 28 are respectively and electrically connected with the positive electrode and the negative electrode of an external electric storage device, and can perform electrochemical treatment action on water to generate flocculation at the positive electrode and the negative electrode respectively, produce dirty at the surface and the bottom of sewage, can cooperate extra aeration equipment to increase treatment effeciency, 2 lateral wall middle sections fixedly connected with outlet pipes 29 of treatment pond, outlet pipes 29 are used for deriving the sewage after handling, and 2 fixed second sludge pumps 30 that set up in bottom of treatment pond can discharge the dirty second sludge pump 30 that uses of bottom.

As shown in fig. 2, the plurality of first electrode plates 27 and the plurality of second electrode plates 28 are distributed in the treatment tank 2, and the plurality of first electrode plates 27 and the plurality of second electrode plates 28 are arranged in a staggered manner, so as to ensure the electrochemical treatment range and increase the efficiency of electrochemical purification.

As shown in FIG. 2, two ends of the inverted U-shaped conduits 4 are horn-shaped, which is convenient for leading in and leading out sewage and assisting siphon action.

As shown in fig. 3, the second mounting frame 24 is fixedly connected to the top of the treatment tank 2 through two hydraulic telescopic rods 31, and the two strip-shaped plates 25 can be lifted from the treatment tank 2 through the telescopic action of the hydraulic telescopic rods 31, so as to facilitate maintenance or replacement of the plurality of first electrode plates 27 and the plurality of second electrode plates 28.

The working steps of the friction nano generator environment-friendly sewage treatment equipment are as follows:

a) sewage is led into the reservoir 1, then the driving motor 9 is turned on, the driving motor 9 works to drive the rotating shaft 10 to rotate, the rotating shaft 10 drives the stirring rods 11 to rotate when rotating, the stirring rods 11 play a role in stirring the sewage, standing and precipitating are carried out after stirring is finished, larger impurities in the sewage are separated and precipitated through the metal screen 12, a certain precipitate is formed on the surface of the metal screen 12, then the precipitate can be discharged through the work of the first sludge pump 13, and a primary filtering effect is achieved on the sewage;

b) then, the control valves 15 at the two ends of the bent pipe 14 are opened to enable the bent pipe 14 to communicate with the pipe, the pump body 16 on the bent pipe 14 works, primary filtered sewage at the bottom of the water storage pool 1 is led into the treatment pool 2, after the sewage surface in the treatment pool 2 is submerged at the lower ends of the inverted U-shaped guide pipes 4, the two control valves 15 and the pump body 16 are closed, siphon benefit is generated between the water storage pool 1 and the treatment pool 2, water in the water storage pool 1 is sucked into the treatment pool 2 through the inverted U-shaped guide pipes 4, and a potential energy from bottom to top is generated by utilizing atmospheric pressure and a potential energy from top to bottom is generated by matching with the gravity of the water;

c) when sewage moves in the inverted U-shaped guide pipes 4, the sewage passes through the plurality of sealing cylinders 6 on the plurality of inverted U-shaped guide pipes 4 to drive the impellers 20 inside the plurality of sealing cylinders 6 to rotate, when the impellers 20 rotate, the rotating rod 21 drives the rotating disc 22 to rotate, when the rotating disc 20 rotates, the inclined rod 23 is driven to perform a reciprocating action, the inclined rod 23 drives the driving rod 19 to reciprocate, and the column block 18 inside the cylindrical shell 17 is driven to reciprocate;

d) in the reciprocating motion process of the column block 18, a first PDSM thin film layer on the column block 18 and a second PDSM thin film layer inside the cylindrical shell 17 rub, the principle of friction power generation of a nano material is adopted, wherein the arc-shaped surface generates continuous friction action, and the plane generates intermittent collision action, so that electric energy is generated;

e) supply power to a plurality of first plate electrodes 27 and a plurality of second plate electrode 28 in the treatment tank 2 through outside power storage device, a plurality of first plate electrodes 27 and a plurality of second plate electrode 28 staggered arrangement distribute in the treatment tank 2 simultaneously, guarantee the electrochemical purification effect to sewage in the treatment tank 2, make sewage produce dirty respectively in bottom and surface, current means such as utilizing the scraper blade can strike off the dirty of the surface of water, then discharge through outlet pipe 29 with the row after purifying, utilize second sludge pump 30 can take out the dirty of treatment tank 2 bottom and discharge, accomplish the sewage treatment operation.

The foregoing is merely exemplary and illustrative of the present invention and various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the invention as defined in the following claims.

Claims (1)

1. A working method of sewage treatment equipment of a friction nano generator is characterized by comprising the following specific steps:

a) the sewage is introduced into the reservoir (1), then the driving motor (9) is turned on, the driving motor (9) works to drive the rotating shaft (10) to rotate, the rotating shaft (10) drives the stirring rods (11) to rotate when rotating, the stirring rods (11) play a role in stirring the sewage, standing and precipitating are carried out after the stirring is finished, larger impurities in the sewage are separated and precipitated through the metal screen (12), a certain precipitate is formed on the surface of the metal screen (12), then the precipitate can be discharged through the work of the first sludge pump (13), and a preliminary filtering effect is achieved on the sewage;

b) then, the control valves (15) at the two ends of the bent pipe (14) are opened, so that the bent pipe (14) is communicated with the pump body (16) on the bent pipe (14) to work, primary filtered sewage at the bottom of the reservoir (1) is guided into the treatment pool (2), after the sewage surface in the treatment pool (2) passes through the lower ends of the inverted U-shaped guide pipes (4), the two control valves (15) and the pump body (16) are closed, siphon benefit is generated between the reservoir (1) and the treatment pool (2), water in the reservoir (1) is sucked into the treatment pool (2) through the inverted U-shaped guide pipes (4), and potential energy from bottom to top is generated by utilizing atmospheric pressure and cooperating with the gravity of the water to generate potential energy from top to bottom;

c) when sewage moves in the inverted U-shaped guide pipes (4), the sewage passes through the sealed cylinder bodies (6) on the inverted U-shaped guide pipes (4) to drive the impellers (20) inside the sealed cylinder bodies (6) to rotate, when the impellers (20) rotate, the rotating disc (22) is driven to rotate through the rotating rod (21), the inclined rod (23) is driven to perform a reciprocating action when the rotating disc (22) rotates, and the inclined rod (23) drives the driving rod (19) to reciprocate and drives the column block (18) inside the cylindrical shell (17) to reciprocate;

d) in the reciprocating motion process of the column block (18), a first PDSM thin film layer on the column block (18) and a second PDSM thin film layer inside the cylindrical shell (17) rub, the principle of friction power generation of a nano material is adopted, wherein the arc-shaped surface generates continuous friction action, and the plane generates intermittent collision action, so that electric energy is generated;

e) supply power to a plurality of first plate electrode (27) and a plurality of second plate electrode (28) in handling pond (2) through outside power storage device, a plurality of first plate electrode (27) and a plurality of second plate electrode (28) staggered arrangement distribute in handling pond (2) simultaneously, guarantee the electrochemistry purification effect to the interior sewage of handling pond (2), make sewage produce dirty in bottom and surface respectively, utilize scraper blade etc. can strike off the dirty dirt of the surface of water, then will purify the log raft play through outlet pipe (29), utilize second sludge pump (30) can take out the dirty of handling pond (2) bottom and arrange, accomplish the sewage treatment operation.

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