CN116675313B

CN116675313B - Multistage pressurization lifting, treatment, filtration and recycling device for water body in sewage treatment

Info

Publication number: CN116675313B
Application number: CN202310846410.7A
Authority: CN
Inventors: 宋涛; 徐健; 陈磊; 凌海
Original assignee: Jiangyin Dongwei Renewable Resources Technology Co ltd
Current assignee: Jiangyin Dongwei Renewable Resources Technology Co ltd
Priority date: 2023-07-11
Filing date: 2023-07-11
Publication date: 2023-11-10
Anticipated expiration: 2043-07-11
Also published as: CN116675313A

Abstract

The invention belongs to the technical field of sewage treatment, and discloses a water body multistage pressurizing, lifting, treating, filtering and recycling device in sewage treatment, which comprises a sewage inlet pipe and a discharging unit, wherein first flow units are fixedly arranged at two ends of the bottom of the sewage inlet pipe, filtering units are fixedly connected to the middle ends of two opposite sides of the first flow units, and a power unit is fixedly connected to one end, close to the filtering units, of the first flow units. According to the sewage filtering pretreatment device, the first flow units and the power units are matched, so that the sewage filtering pretreatment efficiency is greatly improved, the impact quantity of sewage is split by the split-flow matching of the two first flow pipes, and flocculant solvent in the cavity is thrown outwards through the arc-shaped baffle and the groove in the middle of the first rotating fan wheel, so that the flocculant is moved downwards along with the falling of the sewage, and the time consumed by manually adding the flocculant is further saved.

Description

Multistage pressurization lifting, treatment, filtration and recycling device for water body in sewage treatment

Technical Field

The invention belongs to the technical field of sewage treatment, and particularly relates to a water body multistage pressurizing lifting, treating, filtering and recycling device in sewage treatment.

Background

The sewage treatment is to make sewage reach the water quality requirement who discharges into a certain water or reuse and carry out the process of purifying it, and industrial water is in order to guarantee that it accords with emission standard, carries out filtration treatment through needs to its water source, reduces the emission harm, in order to promote sewage treatment filter effect in the sewage treatment, generally carries out multistage pressurization to the water when sewage treatment and promotes the downward impact force of rivers, through continuous pressurization, promotes the downflow power of sewage.

When filtering industrial treatment, generally, a method of adding a flocculating agent is adopted, after the flocculating agent is added into water, colloid and dispersed particles of suspended matters collide with each other due to the action of molecular attraction force to form floccules, the size and the mass of the floccules continuously become larger in the sedimentation process, the sedimentation speed is increased along with the depth, in actual use, sewage is generally doped with a large amount of bulk impurities, when the sewage with the bulk impurities is directly added with the flocculating agent to realize pretreatment filtration, the impurities can influence the sufficient reaction of the flocculating agent and the sewage, and when the flocculating agent is mixed with water to react, the flocculating agent and the water are required to be sufficiently mixed and stirred, so that the solvent is rapidly diffused, the reaction rate is improved, and therefore, the sewage needs to be improved.

Disclosure of Invention

In order to solve the problems in the background technology, the invention provides a water body multistage pressurizing lifting and treating, filtering and recycling device in sewage treatment, which solves the defects that in the prior art, flocculant is directly put into sewage, and the sewage and the flocculant are not fully mixed and stirred, so that the mixing reaction rate is low.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a multistage pressurization of water body promotes and handles filtering recycling device in sewage treatment, includes sewage inlet tube and ejection of compact unit, the equal fixed mounting in both ends of sewage inlet tube bottom has first flow unit, two the equal fixedly connected with filter unit of middle-end in opposite sides of first flow unit, the one end fixedly connected with power pack that first flow unit is close to filter unit, the inside fixedly connected with conflict subassembly of filter unit, the one end fixedly connected with that first flow unit inner chamber is close to conflict subassembly with the stirring module of conflict subassembly movable joint, the bottom bolted connection of filter unit has the filtration storehouse, the bottom fixedly connected with second flow unit of filtration storehouse, the bottom of second flow unit is linked together with the inside of first flow unit lower extreme, two the bottom fixedly connected with mixing sedimentation tank of first flow unit, the inside swing joint of mixing sedimentation tank is close to the one end fixedly connected with drive unit of filter unit.

Preferably, the first flow unit is including the first runner pipe with sewage inlet tube fixed connection, the upper end fixed mounting of first runner pipe inner chamber has the slotted hole swash plate that is located the power unit top, the bottom and the filter unit position of first runner pipe are relative, the filter unit is including the C venturi tube with first flow unit fixed connection, the bottom and the inside of first flow unit of C venturi tube are linked together, one side and the conflict subassembly fixed connection that is close to the stirring module of C venturi tube lower extreme inside, the bottom fixedly connected with return bend of C venturi tube, the bottom and the filtration storehouse bolted connection of return bend.

Preferably, the power unit comprises a mounting frame and a belt which are fixedly connected with the first flow unit, a rotating module is connected to an inner bearing of the mounting frame, one half of the whole rotating module is positioned in the first flow unit, and the front end and the rear end of the rotating module are in transmission connection with the stirring module through the belt.

Preferably, the second flow unit comprises two second flow pipes which are respectively communicated with the filtering bin and the inner cavity of the first flow unit, the bottom ends of the second flow pipes far away from one side of the mixing unit are fixedly connected with third flow pipes positioned above the driving unit, and the middle ends of the two second flow pipes are fixedly connected with corrugated pipes and are communicated through the corrugated pipes.

Preferably, the mixing unit comprises a bidirectional reciprocating screw connected with a bearing of the mixing and precipitating box, two sides of one end of the inner cavity of the mixing and precipitating box are respectively sleeved with a supporting plate in a threaded manner, a stirring wheel is fixedly arranged at the middle end of the bidirectional reciprocating screw, one end of the bidirectional reciprocating screw, which is close to the first flow unit, extends to the outer side of the mixing and precipitating box and is fixedly connected with the driving unit, the driving unit comprises a circular limiting ring fixedly connected with the mixing and precipitating box and a second rotating fan wheel fixedly connected with the mixing unit, and the outer end of the second rotating fan wheel corresponds to the second flow unit.

Preferably, the stirring module comprises a connecting shaft connected with a filtering unit bearing, the middle end of the outer wall of the connecting shaft is fixedly connected with a cam, the front surface and the back surface of the cam are movably clamped with connecting ropes, one end of each connecting rope, which is far away from the cam, is fixedly connected with a first groove plate, the first groove plate is far away from two mutually staggered elastic rubber rings, one end of each elastic rubber ring, which is far away from the first groove plate, is fixedly connected with a second groove plate, the second groove plate is fixedly connected with the first flow unit, and the connecting shaft is in transmission connection with the power unit.

Preferably, the conflict subassembly is including filter and the flexible section of thick bamboo of spring with filter unit inner wall fixed connection, the one end that the filter is close to the stirring module is contradicted and is connected with the promotion frid, a side wall fixedly connected with grooved pipe that the promotion frid is close to the filter, grooved pipe is contradicted with the inside slotted hole of filter and is connected, the filter passes through the flexible section of thick bamboo fixed connection of spring with the promotion frid, the promotion frid slides with filter unit's inner wall and is connected, the one end that the filter was kept away from to the promotion frid is contradicted with the stirring module and is connected.

Preferably, the rotation module is including the first rotation fan wheel of being connected with the installing frame bearing, the cavity has been seted up to first rotation fan wheel inside, the inside activity joint of first rotation fan wheel outer wall has the arc baffle, the equal fixedly connected with in both ends of arc baffle inside wall and the flexible pipe of spacing arc spring of first rotation fan wheel outer wall swing joint, the one end that the flexible pipe of spacing arc spring kept away from the arc baffle and the inner fixed connection of first rotation fan wheel.

Preferably, the discharging unit comprises a sewage outlet pipe fixedly connected with the mixing sedimentation tank, and the front surface of the sewage outlet pipe is fixedly connected with a one-way valve.

Preferably, the outer ends of the front side wall and the rear side wall of the first rotating fan wheel are made of rubber, and the solvent in the first rotating fan wheel is added in a needle tube injection mode.

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

according to the invention, through the cooperation of the structures such as the first flow unit and the power unit, the efficiency of sewage filtering pretreatment is greatly improved, the impact quantity of sewage is split through the split-flow cooperation of the two first flow pipes, the condition that the lower flow velocity of the sewage is too large and impurities are carried by the sewage to directly flood is avoided, the sewage falls down in the first flow pipes, the outer wall of the first rotating fan wheel is impacted to rotate, the arc baffle moves outwards, the blocking and covering of the outer wall of the first rotating fan wheel is removed, the flocculant solvent in the cavity is thrown outwards through the arc baffle and a groove in the middle of the first rotating fan wheel, and then flows downwards along with the falling of the sewage, so that the time consumed by manually adding the flocculant is saved;

according to the invention, through the cooperation of structures such as the stirring module, the mixing unit and the like, the full mixing effect of sewage and flocculant solvents is improved, when the connecting shaft rotates, the connecting rope and the first groove plate are pulled by the cam to enable the two mutually staggered elastic rubber rings to perform reciprocating stirring motion in the first flow pipe, the sewage and flocculant are primarily mixed, the outer end of the second rotating fan wheel is abutted by the third flow pipe, the second rotating fan wheel rotates to drive the bidirectional reciprocating screw rod to jointly rotate, the two abutting plates can reciprocate, the stirring wheel also rotates in the mixing sedimentation tank, the two abutting plates horizontally reciprocate, and the mixing stirring effect of the sewage and flocculant in the mixing sedimentation tank can be improved by cooperating with the vertical rotation of the stirring wheel;

according to the invention, through the cooperation of the structures such as the filtering unit and the interference component, the blocky impurities are collected and blocked, the blocky impurities are prevented from blocking the filter plate in the sewage filling process, the blocky impurities can fall into the bent pipe and the filter bin due to the blocking of the slotted hole sloping plate, the connecting shaft is rotated together by the rotation of the first rotating fan wheel through the belt, the rear end of the pushing slotted plate is intermittently interfered by the cam through the connecting shaft, the slotted pipe continuously reciprocates in the filter plate, and the blocking of the blocky impurities to the slotted hole in the filter plate is prevented.

Drawings

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

FIG. 2 is a schematic diagram of a front cross-sectional structure of the present invention;

FIG. 3 is a schematic view of a partial enlarged structure at A in FIG. 2;

FIG. 4 is a schematic view of a partial enlarged structure at B in FIG. 2;

FIG. 5 is a schematic side cross-sectional view of the present invention;

FIG. 6 is a schematic cross-sectional view of a drive unit of the present invention;

FIG. 7 is a schematic cross-sectional view of a mixing unit of the present invention;

FIG. 8 is a schematic view of a partial cross-sectional structure of a filter unit of the present invention;

FIG. 9 is a schematic diagram of the structural cooperation of the rotation module and the toggle module according to the present invention;

FIG. 10 is a schematic view of a partially enlarged structure at C in FIG. 9;

FIG. 11 is a schematic diagram illustrating the internal structure of the toggle module according to the present invention;

fig. 12 is a partially enlarged schematic structural view of D in fig. 11.

In the figure: 1. a sewage inlet pipe; 2. a first flow unit; 21. a first flow tube; 22. slotted hole sloping plate; 3. a filtering unit; 31. a C-shaped tube; 32. bending the pipe; 4. a power unit; 41. a mounting frame; 42. a rotating module; 4201. a first rotating fan wheel; 4202. an arc baffle; 4203. limiting arc spring telescopic pipe; 4204. a chamber; 43. a belt; 5. a filtering bin; 6. a second flow unit; 61. a second flow tube; 62. a bellows; 63. a third flow tube; 7. a mixing and precipitating tank; 8. a mixing unit; 81. a bidirectional reciprocating screw; 82. a whipping wheel; 83. a contact plate; 9. a driving unit; 91. a circular limiting ring; 92. a second rotating fan wheel; 10. a discharging unit; 101. a sewage outlet pipe; 102. a one-way valve; 11. toggling the module; 111. a cam; 112. a connecting rope; 113. a first slot plate; 114. an elastic rubber ring; 115. a second slot plate; 116. a connecting shaft; 12. a collision component; 121. a filter plate; 122. pushing the groove plate; 123. a groove pipe; 124. a spring telescopic cylinder.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1 to 12, the invention provides a multistage pressurizing lifting and treating filtering recycling device for water in sewage treatment, which comprises a sewage inlet pipe 1 and a discharging unit 10, wherein the two ends of the bottom of the sewage inlet pipe 1 are fixedly provided with first flow units 2, the middle ends of the opposite sides of the two first flow units 2 are fixedly connected with a filtering unit 3, one end of the first flow unit 2, which is close to the filtering unit 3, is fixedly connected with a power unit 4, the inside of the filtering unit 3 is fixedly connected with a collision component 12, one end, which is close to the collision component 12, of an inner cavity of the first flow unit 2 is fixedly connected with a stirring module 11 movably clamped with the collision component 12, the bottom of the filtering unit 3 is connected with a filtering bin 5 through bolts, the bottom of the filtering bin 5 is fixedly connected with a second flow unit 6, the bottom ends of the second flow units 6 are communicated with the inside of the lower ends of the first flow units 2, the bottom ends of the two first flow units 2 are fixedly connected with a mixing sedimentation tank 7, the inside of the mixing sedimentation tank 7 is movably connected with a mixing unit 8, and one end, which is close to the filtering unit 3, is fixedly connected with a driving unit 9.

As shown in fig. 4 and 8, the first flow unit 2 includes a first flow pipe 21 fixedly connected with the sewage inlet pipe 1, a slotted hole inclined plate 22 located above the power unit 4 is fixedly installed at the upper end of an inner cavity of the first flow pipe 21, the bottom end of the first flow pipe 21 is opposite to the position of the filtering unit 3, the filtering unit 3 includes a C-shaped pipe 31 fixedly connected with the first flow unit 2, the bottom end of the C-shaped pipe 31 is communicated with the interior of the first flow unit 2, one side, close to the stirring module 11, of the lower end of the C-shaped pipe 31 is fixedly connected with the abutting component 12, an elbow 32 is fixedly connected to the bottom of the C-shaped pipe 31, and the bottom end of the elbow 32 is connected with the filtering bin 5 through bolts.

The scheme is adopted: through the cooperation of the structures of the first flow pipe 21 and the slotted hole inclined plate 22, the first flow pipe 21 adopts a bent design, so that the time for discharging sewage is increased, the subsequent treatment of the sewage in the first flow pipe 21 is facilitated, and the slotted hole inclined plate 22 can block massive impurities with larger sewage volume and enable the massive impurities to fall into the filter unit 3, so that the subsequent treatment is facilitated; through the cooperation of C shape pipe 31 and return bend 32 structure, the back of the filtration of slotted hole swash plate 22 to the inside sewage of first runner pipe 21, massive impurity will drop to the inside of C shape pipe 31 through the inclined form of slotted hole swash plate 22, along with the continuous impact of sewage, massive impurity will drop to the inside of return bend 32 all the time and get into the inside of filtering the storehouse 5 through return bend 32, and simultaneously contradict the subassembly 12 and also will carry out secondary filter treatment to the inside sewage of return bend 32.

As shown in fig. 4 and 8, the power unit 4 includes a mounting frame 41 fixedly connected with the first flow unit 2 and a belt 43, a rotating module 42 is connected to an inner bearing of the mounting frame 41, a half of the whole rotating module 42 is located in the first flow unit 2, both front and rear ends of the rotating module 42 are in transmission connection with the stirring module 11 through the belt 43, the second flow unit 6 includes two second flow pipes 61 respectively communicated with the filtering bin 5 and an inner cavity of the first flow unit 2, a third flow pipe 63 located above the driving unit 9 is fixedly connected to a bottom end of the second flow pipe 61 on a side far away from the mixing unit 8, and bellows 62 are fixedly connected to middle ends of the two second flow pipes 61 and are communicated through the bellows 62.

The scheme is adopted: through the cooperation of the structures of the second flow pipe 61, the third flow pipe 63 and the like, the filtering bin 5 can collect massive impurities in the bent pipe 32, sewage carried along with the massive impurities can flow into the second flow pipe 61, part of sewage in the second flow pipe 61 can flow back into the first flow unit 2 again through the corrugated pipe 62, and the other part of sewage can drive the driving unit 9 through the third flow pipe 63 and move the mixing unit 8 in the mixing sedimentation tank 7 through the driving unit 9, so that a mixing effect is realized; through the cooperation of structures such as installing frame 41 and belt 43, when the inside water source of first runner pipe 21 constantly floods down and flows, will drive rotation module 42 and take place to rotate this moment, rotation module 42 also will drive through two belts 43 and stir the module 11 and take place to rotate together to the convenient follow-up sewage cooperation is used.

As shown in fig. 7, the mixing unit 8 includes a bidirectional reciprocating screw 81 bearing-connected with the mixing and settling tank 7, two sides of the bidirectional reciprocating screw 81 at one end of the inner cavity of the mixing and settling tank 7 are both in threaded connection with a supporting plate 83, a stirring wheel 82 is fixedly mounted at the middle end of the bidirectional reciprocating screw 81, one end of the bidirectional reciprocating screw 81 near the first flow unit 2 extends to the outer side of the mixing and settling tank 7 and is fixedly connected with the driving unit 9, the driving unit 9 includes a circular limiting ring 91 fixedly connected with the mixing and settling tank 7 and a second rotating fan wheel 92 fixedly connected with the mixing unit 8, and the outer end of the second rotating fan wheel 92 corresponds to the second flow unit 6.

The scheme is adopted: through the cooperation of mixing element 8 and drive unit 9 structure, third runner 63 will carry out the discharge downwards to the water source, and then conflict to the outer end of second rotation fan wheel 92, make the second rotation fan wheel 92 take place to rotate, the second rotates the fan wheel 92 and takes place to rotate the back and forth screw 81 jointly, and then the conflict board 83 that makes is located two ends of two-way reciprocating screw 81 will take place back and forth reciprocating motion, and the whipping wheel 82 also will be in the rotation of mixing the sedimentation tank 7, the horizontal reciprocating motion of two conflict boards 83, the vertical rotation of cooperation whipping wheel 82, will promote the mixed stirring effect to mixing the inside sewage of sedimentation tank 7 and flocculating agent, what needs to be explained here is that the impact quantity of sewage is stable and lasting, and then guaranteed to make its pivoted stability through third runner 63 is full to second rotation fan wheel 92.

As shown in fig. 11, the toggle module 11 includes a connecting shaft 116 connected with the bearing of the filtering unit 3, a cam 111 is fixedly connected to a middle end of an outer wall of the connecting shaft 116, connecting ropes 112 are movably clamped on the front and the back of the cam 111, one end, far away from the cam 111, of the connecting ropes 112 is fixedly connected with a first groove plate 113, one end, far away from the connecting ropes 112, of the first groove plate 113 is fixedly connected with two mutually staggered elastic rubber rings 114, one end, far away from the first groove plate 113, of the elastic rubber rings 114 is fixedly connected with a second groove plate 115, the second groove plate 115 is fixedly connected with the first flow unit 2, and the connecting shaft 116 is in transmission connection with the power unit 4.

The scheme is adopted: through the cooperation of structures such as cam 111 and connecting axle 116, when rotation module 42 takes place to rotate, will make connecting axle 116 take place to rotate through belt 43, connecting axle 116 will be through cam 111, connecting rope 112, two elasticity rubber rings 114 of first frid 113 pulling in the inside of first flow unit 2 and take place to make a round trip disturbance to this improves the stirring moderating effect of sewage and flocculating agent.

As shown in fig. 12, the abutting component 12 includes a filter plate 121 fixedly connected with the inner wall of the filtering unit 3 and a spring telescopic tube 124, one end of the filter plate 121, which is close to the stirring module 11, is abutted and connected with a pushing groove plate 122, one side wall of the pushing groove plate 122, which is close to the filter plate 121, is fixedly connected with a groove pipe 123, the groove pipe 123 is abutted and connected with a groove hole in the filter plate 121, the filter plate 121 and the pushing groove plate 122 are fixedly connected with each other through the spring telescopic tube 124, the pushing groove plate 122 is slidably connected with the inner wall of the filtering unit 3, and one end, which is far away from the filter plate 121, of the pushing groove plate 122 is abutted and connected with the stirring module 11.

The scheme is adopted: through the cooperation of structures such as filter 121 and flexible section of thick bamboo 124 of spring, when cam 111 carries out intermittent lasting conflict to promotion frid 122, promotes frid 122 this moment and will make the inside round trip movement of slotted hole that makes slot pipe 123 in filter 121 inside to prevent the inside slotted hole of filter 121 of cubic impurity jam in the sewage, because the cooperation of the inside mesh of slot pipe 123 will be smooth makes sewage pass through.

As shown in fig. 10, the rotation module 42 includes a first rotation fan wheel 4201 bearing-connected with the mounting frame 41, a chamber 4204 is formed inside the first rotation fan wheel 4201, an arc-shaped baffle 4202 is movably clamped inside the outer wall of the first rotation fan wheel 4201, two ends of the inner wall of the arc-shaped baffle 4202 are fixedly connected with a limiting arc-shaped spring extension tube 4203 movably connected with the outer wall of the first rotation fan wheel 4201, and one end of the limiting arc-shaped spring extension tube 4203 far away from the arc-shaped baffle 4202 is fixedly connected with the inner end of the first rotation fan wheel 4201.

The scheme is adopted: through the cooperation of the structures such as the first rotating fan wheel 4201 and the chamber 4204, when sewage in the first flow unit 2 floods and flows downwards, the outer wall of the first rotating fan wheel 4201 is abutted against and drives the first rotating fan wheel 4201 to rotate, and due to the rotation of the first rotating fan wheel 4201, under the cooperation of centrifugal force, the arc-shaped baffle 4202 moves outwards, so that the blocking and covering effect on the outer wall of the first rotating fan wheel 4201 is removed, and at the moment, flocculant solvent in the chamber 4204 is thrown outwards through the groove between the arc-shaped baffle 4202 and the first rotating fan wheel 4201, and then flows downwards along with the falling movement of sewage, so that the working time is greatly saved.

As shown in fig. 7 and 10, the discharging unit 10 includes a sewage outlet pipe 101 fixedly connected with the mixing and settling tank 7, a one-way valve 102 is fixedly connected to the front surface of the sewage outlet pipe 101, the outer ends of the front and rear side walls of the first rotating fan wheel 4201 are made of rubber, and the solvent in the first rotating fan wheel 4201 is added by needle injection.

The scheme is adopted: through the cooperation of the rubber at the outer ends of the two side walls of the first rotating impeller 4201, after the flocculant solvent capacity in the chamber 4204 is used up, the solvent is injected into the chamber 4204 again by means of needle tube injection, so that the subsequent solvent is replenished; through the cooperation of the structures of the sewage outlet pipe 101 and the one-way valve 102, the one-way valve 102 adopts a cone valve type structure, and the one-way valve 102 is started to enable sewage and flocculant precipitated in the mixed precipitation tank 7 to be discharged outwards through the sewage outlet pipe 101, so that the subsequent recycling is facilitated.

The working principle and the using flow of the invention are as follows:

firstly, sewage enters into the two first flow pipes 21 through the sewage inlet pipe 1, massive impurities fall into the C-shaped pipe 31 due to the blocking of the slotted hole inclined plate 22 and enter into the filter bin 5 through the C-shaped pipe 31 and the bent pipe 32, and at the moment, the massive impurities stay in the bent pipe 32 and the filter bin 5 due to continuous flooding of the sewage;

then, as the sewage falls down in the first runner pipe 21, the outer wall of the first rotating fan wheel 4201 is impacted to rotate, the arc-shaped baffle 4202 is moved outwards under the cooperation of centrifugal force, the blocking and covering effects on the outer wall of the first rotating fan wheel 4201 are removed, and at the moment, the flocculant solvent in the chamber 4204 is thrown outwards through the groove between the arc-shaped baffle 4202 and the first rotating fan wheel 4201, and then flows downwards along with the falling down of the sewage;

then, the first rotating fan wheel 4201 rotates together with the connecting shaft 116 through the belt 43, the connecting shaft 116 makes the cam 111 intermittently collide with the rear end of the pushing trough plate 122, so that the trough pipe 123 continuously reciprocates in the filter plate 121 to prevent the blocking of the trough holes in the filter plate 121 by the massive impurities, and at the same time, when the connecting shaft 116 rotates, the connecting rope 112 and the first trough plate 113 are pulled by the cam 111 to make the two mutually staggered elastic rubber rings 114 reciprocate in the first flow pipe 21, so that the sewage and the flocculant are primarily mixed;

finally, the solvent after mixing the sewage and the flocculating agent in the first flow pipe 21 enters the interior of the mixing and precipitating tank 7 through the first flow pipe 21, meanwhile, the filtering bin 5 collects the massive impurities in the elbow 32, the sewage carried by the massive impurities together flows into the interior of the second flow pipe 61, part of the sewage in the second flow pipe 61 flows back to the interior of the first flow unit 2 again through the corrugated pipe 62, enters the interior of the mixing and precipitating tank 7 through the first flow unit 2, the other part of the sewage collides with the outer end of the second rotating fan wheel 92 through the third flow pipe 63, the second rotating fan wheel 92 rotates to drive the bidirectional reciprocating screw 81 to rotate together, further, the interference plates 83 at two ends of the bidirectional reciprocating screw 81 reciprocate back and forth, the stirring wheel 82 also rotates in the interior of the mixing and precipitating tank 7, the two interference plates 83 reciprocate horizontally, the stirring wheel 82 is matched with the vertical rotation, the mixing and stirring effect on the interior of the mixing and precipitating tank 7 and the flocculating agent is improved, the sewage in the interior of the mixing and precipitating tank 7 and the flocculating agent is discharged through the first flow unit 2, the sewage is filtered by the second rotating fan wheel 92, the second rotating fan 92, the sewage is further pressurized and the sewage is discharged out of the sewage through the filtering device, and the sewage is further pressurized and the sewage is treated in the complex filtering device, and the sewage is further treated in the filtering device.

It is noted that relational terms such as first and second, and the like are 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. Moreover, 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 understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a multistage pressurization promotion of water body in sewage treatment and treatment filter recycling device, includes sewage inlet tube (1) and ejection of compact unit (10), its characterized in that: the sewage treatment device comprises a sewage inlet pipe (1), a sewage treatment device and a sewage treatment device, wherein first flow units (2) are fixedly installed at two ends of the bottom of the sewage inlet pipe (1), two middle ends of one side, opposite to each other, of the first flow units (2) are fixedly connected with a filtering unit (3), one end, close to the filtering unit (3), of each first flow unit (2) is fixedly connected with a power unit (4), an abutting component (12) is fixedly connected with the inside of each filtering unit (3), one end, close to the abutting component (12), of an inner cavity of each first flow unit (2) is fixedly connected with a stirring module (11) movably clamped with the abutting component (12), a filtering bin (5) is connected with a bottom bolt of each filtering unit (3), the bottom of each filtering bin (5) is fixedly connected with a second flow unit (6), the bottom ends of the second flow units (6) are communicated with the inside of the lower ends of the first flow units (2), the bottom ends of the two first flow units (2) are fixedly connected with a mixing sedimentation box (7), the inside of the mixing sedimentation box (7) is movably connected with a mixing unit (8), and one end, close to the filtering unit (3) is fixedly connected with a driving unit (9);

the stirring module (11) comprises a connecting shaft (116) connected with a bearing of the filtering unit (3), the middle end of the outer wall of the connecting shaft (116) is fixedly connected with a cam (111), the front surface and the back surface of the cam (111) are movably clamped with a connecting rope (112), one end, far away from the cam (111), of the connecting rope (112) is fixedly connected with a first groove plate (113), one end, far away from the connecting rope (112), of the first groove plate (113) is fixedly connected with two mutually staggered elastic rubber rings (114), one end, far away from the first groove plate (113), of the elastic rubber rings (114) is fixedly connected with a second groove plate (115), the second groove plate (115) is fixedly connected with the first flow unit (2), and the connecting shaft (116) is in transmission connection with the power unit (4).

The utility model provides a filter, including filter (121) and spring telescoping tube (124) of contradicting subassembly (12) with filter unit (3) inner wall fixed connection, the one end that filter (121) is close to stirring module (11) is contradicted and is connected with promotion frid (122), a lateral wall fixedly connected with cell tube (123) that promotes frid (122) and is close to filter (121), cell tube (123) are contradicted with the inside slotted hole of filter (121) and are connected, filter (121) and promotion frid (122) pass through spring telescoping tube (124) fixed connection, the promotion frid (122) slide with the inner wall of filter unit (3) and are connected, the one end that pushes frid (122) to keep away from filter (121) is contradicted with stirring module (11) and is connected.

2. The water multistage pressurizing lifting and treating, filtering and recycling device in sewage treatment according to claim 1, which is characterized in that: the utility model provides a sewage inlet tube (1) is fixed connection's first runner pipe (21) including, the upper end fixed mounting in first runner pipe (21) inner chamber has slotted hole swash plate (22) that are located power unit (4) top, the bottom and the filter unit (3) position of first runner pipe (21) are relative, filter unit (3) including C venturi tube (31) with first runner unit (2) fixed connection, the bottom and the inside of first runner unit (2) of C venturi tube (31) are linked together, one side and the conflict subassembly (12) fixed connection that stir module (11) are close to C venturi tube (31) lower extreme inside, the bottom fixedly connected with return bend (32) of C venturi tube (31), the bottom and the filter cartridge (5) bolted connection of return bend (32).

3. The water multistage pressurizing lifting and treating, filtering and recycling device in sewage treatment according to claim 1, which is characterized in that: the power unit (4) comprises a mounting frame (41) and a belt (43) which are fixedly connected with the first flow unit (2), a rotating module (42) is connected to an inner bearing of the mounting frame (41), one half of the whole rotating module (42) is located in the first flow unit (2), and the front end and the rear end of the rotating module (42) are in transmission connection with the poking module (11) through the belt (43).

4. The water multistage pressurizing lifting and treating, filtering and recycling device in sewage treatment according to claim 1, which is characterized in that: the second flow unit (6) comprises two second flow pipes (61) which are respectively communicated with the filter bin (5) and the inner cavity of the first flow unit (2), a third flow pipe (63) which is positioned above the driving unit (9) is fixedly connected to the bottom end of the second flow pipe (61) on one side of the mixing unit (8), and bellows (62) are fixedly connected to the middle ends of the two second flow pipes (61) and are communicated through the bellows (62).

5. The water multistage pressurizing lifting and treating, filtering and recycling device in sewage treatment according to claim 1, which is characterized in that: the mixing unit (8) comprises a bidirectional reciprocating screw rod (81) connected with a bearing of the mixing and precipitating box (7), two sides of one end of an inner cavity of the mixing and precipitating box (7) are respectively provided with a supporting plate (83) in a threaded sleeve manner, a stirring wheel (82) is fixedly arranged at the middle end of the bidirectional reciprocating screw rod (81), one end of the bidirectional reciprocating screw rod (81) close to the first flow unit (2) extends to the outer side of the mixing and precipitating box (7) and is fixedly connected with the driving unit (9), the driving unit (9) comprises a circular limiting ring (91) fixedly connected with the mixing and precipitating box (7) and a second rotating fan wheel (92) fixedly connected with the mixing unit (8), and the outer end of the second rotating fan wheel (92) corresponds to the second flow unit (6).

6. The device for multi-stage pressurized lifting, treatment, filtration and reuse of water in sewage treatment according to claim 3, wherein the device is characterized in that: the rotating module (42) comprises a first rotating fan wheel (4201) which is connected with a mounting frame (41) through a bearing, a cavity (4204) is formed in the first rotating fan wheel (4201), an arc-shaped baffle (4202) is movably clamped in the outer wall of the first rotating fan wheel (4201), two ends of the inner side wall of the arc-shaped baffle (4202) are fixedly connected with limiting arc-shaped spring telescopic pipes (4203) which are movably connected with the outer wall of the first rotating fan wheel (4201), and one end, far away from the arc-shaped baffle (4202), of each limiting arc-shaped spring telescopic pipe (4203) is fixedly connected with the inner end of the first rotating fan wheel (4201).

7. The water multistage pressurizing lifting and treating, filtering and recycling device in sewage treatment according to claim 1, which is characterized in that: the discharging unit (10) comprises a sewage outlet pipe (101) fixedly connected with the mixing sedimentation tank (7), and a one-way valve (102) is fixedly connected to the front surface of the sewage outlet pipe (101).

8. The device for multistage pressurized lifting, treatment, filtration and reuse of water in sewage treatment according to claim 6, which is characterized in that: the outer ends of the front side wall and the rear side wall of the first rotating fan wheel (4201) are made of rubber, and the solvent in the first rotating fan wheel (4201) is added in a needle tube injection mode.