CN117263337B

CN117263337B - Mixing stirrer for sewage tank and use method thereof

Info

Publication number: CN117263337B
Application number: CN202311225826.3A
Authority: CN
Inventors: 程波; 胡伟松
Original assignee: Zhanjiang Guangye Environmental Protection Co ltd
Current assignee: Zhanjiang Guangye Environmental Protection Co ltd
Priority date: 2023-09-21
Filing date: 2023-09-21
Publication date: 2024-05-14
Anticipated expiration: 2043-09-21
Also published as: CN117263337A

Abstract

The invention relates to the technical field of sewage treatment, in particular to a mixing stirrer for a sewage pool and a use method thereof. Through setting up running gear drive arrangement and controlling the inside of effluent water sump and removing, improved the mixed scope of device, upwards mention the silt of effluent water sump bottom and throw downwards through grabbing mud mechanism, rethread dashes mud mechanism and introduces outside sewage to its inside, makes it wash away silt to mix silt and sewage, avoid silt to take place concentrated siltation again in the effluent water sump bottom, through setting up salvage mechanism, salvage the floater on effluent water sump surface, clear away the floater in the effluent water sump, so that follow-up carries out the processing to sewage.

Description

Mixing stirrer for sewage tank and use method thereof

Technical Field

The invention relates to the technical field of sewage treatment, in particular to a mixing stirrer for a sewage tank and a use method thereof.

Background

Sewage refers to effluent from life and production that is contaminated to some extent. The water which loses the original use function is simply called sewage. Mainly, the domestic water contains more organic matters and is easy to treat, when sewage is treated, the sewage is required to be concentrated in a sewage tank, and then liquid such as flocculating agent, disinfectant and the like is added into the sewage tank for mixed treatment;

According to the authorized bulletin number: the utility model discloses a mixing stirring device of effluent water sump, including the device body, including the effluent water sump body, rabbling mechanism, including fixed lid, the top of effluent water sump body is located to the fixed lid, the top fixed mounting of fixed lid has the motor, the bottom fixed mounting of motor has the (mixing) shaft, the bottom of (mixing) shaft passes the opening on fixed lid top and extends to the inside of effluent water sump body. When the sewage pool is used, liquid to be stirred is poured into the sewage pool body, the motor is started by operating the switch, and when the motor works, the stirring shaft is driven to rotate, so that the connecting belt is in a transmission state, the auxiliary shaft is also in a rotation state, and the sewage and the liquid in the sewage pool body are rapidly stirred and fused by the rotation of the auxiliary shaft and the stirring shaft;

After use, the mixing and stirring device for the prior sewage tank has the following advantages:

1. The existing device has poor dispersion effect on the sludge deposited at the bottom of the sewage tank, so that the existing device cannot quickly mix the sludge at the bottom of the sewage tank with sewage, thereby being unfavorable for quickly decomposing organic matters in the sludge;

2. Above-mentioned current device can't salvage the floater in the effluent water sump, and the scope of use is narrower, and the functional limitation is stronger, leads to the practicality of above-mentioned current device not high.

Disclosure of Invention

Therefore, the invention provides a mixing stirrer for a sewage pool and a using method thereof, so as to solve the problems.

The invention provides the following technical scheme: the mixing stirrer for the sewage pool comprises a mixing table, wherein a mud grabbing mechanism is movably arranged at the bottom of the mixing table, a mud flushing mechanism is rotatably arranged at the periphery of the mud grabbing mechanism, the mud flushing mechanism penetrates through the mixing table and extends to the top of the mixing table, a salvaging mechanism is movably arranged on the left side and the right side of the mixing table, and travelling mechanisms are arranged on the front side and the rear side of the mixing table;

The mud grabbing mechanism comprises an electric air rod, the electric air rod is fixedly arranged at the top of the mixing table, the end part of an output shaft of the electric air rod is fixedly connected with a saddle seat, two mud grabbing buckets are rotatably connected in the saddle seat, and the two mud grabbing buckets are symmetrically distributed;

The mud flushing mechanism comprises a connecting swivel, the connecting swivel is rotationally connected to the bottom of the mixing table, the bottom of the connecting swivel is fixedly connected with a plurality of water diversion plates, the water diversion plates are positioned on the periphery of two mud grabbing buckets, the water diversion plates are in clearance fit with the mud grabbing buckets, and the water diversion plates are distributed in a circumferential array;

The fishing mechanism comprises four fixing seats, the four fixing seats are fixedly connected to the four corners of the bottom of the mixing table, the inside of each fixing seat is rotatably connected with a turning rod through a bearing, and the outer wall of each turning rod is fixedly connected with a fishing plate through a horseshoe buckle.

As a preferable scheme of the invention, the diversion plate is arranged in an arc shape.

As a preferable scheme of the invention, the walking mechanism comprises four fixing frames, the four fixing frames are respectively and fixedly connected to the front side and the back side of the mixing table, the inner side surfaces of the four fixing frames are fixedly connected with walking motors, the output shafts of the walking motors movably penetrate through the fixing frames and extend to the outer parts of the outer side surfaces of the fixing frames, and the outer walls of the output shafts of the walking motors are fixedly connected with walking rollers;

The walking mechanism further comprises a fixed rail, a rail groove is formed in the top of the fixed rail, and the rail groove is connected with the walking roller in a matched mode.

The using method of the mixing stirrer for the sewage pool comprises the following using steps:

S1, firstly, installing two fixed rails on two sides of a pool opening of a sewage pool, then sequentially placing walking rollers in corresponding rail grooves, and enabling a plurality of walking motors to provide torsional driving force to drive the walking rollers to rotate, so that under the rolling fit with the rail grooves, a driving device is driven to move left and right in the sewage pool to perform multi-region operation on sewage;

S2, during the period, the output shafts of the two electric air bars move downwards to drive the two sludge grabbing buckets to move downwards, the two sludge grabbing buckets are inserted into sludge at the bottom of the tank, then the first alternating current motor is started, the driving bevel gear is driven to rotate through the output shaft of the first alternating current motor, the driven bevel gear meshed with the driving bevel gear is further driven to rotate, the first torsion bar fixedly connected with the driven bevel gear is driven to rotate, the worm is further driven to rotate, the worm wheel meshed with the worm is further driven to rotate in opposite directions, the two sludge grabbing buckets are further driven to rotate in opposite directions, the two worm wheels are made to be closed in the middle, sludge at the bottom is wrapped between the two sludge grabbing buckets, then the two electric air bars are started, the output shafts of the two electric air bars drive the horse saddle and the two sludge grabbing buckets to move upwards, then the second alternating current motor is started, the driving bevel gear is driven to rotate through the output shaft of the second alternating current motor, the connecting rotating ring meshed with the driving bevel gear is further driven to rotate, the plurality of diversion plates fixed with the connecting rotating ring are further driven to rotate synchronously, the external sewage motor is controlled to rotate in opposite directions, the first diversion plates are driven to drive the two sludge grabbing buckets to rotate in opposite directions, and the two sludge is difficult to be absorbed into the bottom of the tank, and the two sludge is concentrated to be absorbed into the two sludge pool, and is difficult to be absorbed into the bottom of the tank by the two sludge pool, and is broken down, and the two sludge is difficult to be absorbed into the bottom pool by the two sludge pool, and the two sludge is simultaneously and mixed and rushing down;

S3, when the rotating ring is connected to rotate, the driving outer gear ring fixedly connected with the rotating ring is driven to rotate, the two driven gears meshed with the driving outer gear ring rotate to drive the two stirring rods to rotate, the two stirring rods are driven to rotate to drive the two stirring impellers to stir sewage, the mixing effect on the sewage is further improved, meanwhile, the stirring rods also drive the two arc bevel gears fixedly connected with the stirring rods to rotate, gear teeth of the two arc bevel gears are meshed with the swing bevel gears up and down alternately, the swing bevel gears are further driven to reciprocate positively and negatively, the overturning rods are further driven to continuously flip up and down, floating objects floating on the surface of the sewage are fished up and thrown towards two sides of the sewage pool, and accordingly floating objects in the sewage pool are cleared, and sewage is processed conveniently.

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

1. According to the invention, the two sludge grabbing buckets are driven to move downwards through the electric air rod output shaft of the sludge grabbing mechanism, the two sludge grabbing buckets are inserted into sludge at the bottom of a pond, the first alternating current motor is started, the driving bevel gear is driven to rotate through the output shaft of the first alternating current motor, the driven bevel gear meshed with the driving bevel gear is further driven to rotate, the first torsion bar fixedly connected with the driven bevel gear is driven to rotate, the worm is further driven to rotate, the worm wheel meshed with the worm is further driven to rotate in opposite directions, the two sludge grabbing buckets are further driven to rotate in opposite directions, the two worm wheels are closed in the middle, the sludge at the bottom is wrapped between the two sludge grabbing buckets, then the two electric air rods are started, the output shafts of the two electric air rods drive the horse saddle and the two sludge grabbing buckets to move upwards, the sludge wrapped in the two sludge grabbing buckets is lifted upwards, and the sludge accumulated at the bottom of the sewage pond is lifted upwards, so that the sludge and the sewage are mixed, and organic matters in the sludge are degraded conveniently.

2. According to the invention, the driving gear is driven to rotate by the output shaft of the second alternating current motor of the mud flushing mechanism, the connecting swivel meshed with the driving gear is driven to rotate, so that a plurality of water diversion plates fixed with the connecting swivel are further enabled to synchronously rotate, external sewage is introduced into the interior, the first alternating current motor is controlled to rotate reversely, two mud grabbing buckets are unfolded towards two sides in the same transmission principle, mud in the two mud grabbing buckets falls downwards and is flushed with the sewage introduced by the water diversion plates, and the mud is dispersed and mixed with the sewage, so that the problem that the mud is accumulated at the bottom of a sewage tank in a concentrated mode and is difficult to decompose is solved, and the sewage treatment efficiency of the sewage tank is improved.

3. According to the invention, the driving outer gear ring of the salvaging mechanism is driven by the connecting swivel, so that two driven gears meshed with the driving outer gear ring rotate to drive the two stirring rods to rotate, the two stirring rods drive the two stirring impellers during rotation to stir sewage, the mixing effect on the sewage is further improved, meanwhile, the stirring rods also drive the two arc bevel gears fixedly connected with the stirring rods to rotate, gear teeth of the two arc bevel gears are alternately meshed with the swinging bevel gears up and down, the swinging bevel gears are further driven to reciprocate positively and negatively, the overturning rods are further driven to continuously flip up and down, the salvaging plate fixedly connected with the overturning rods is further driven to salvage floating objects floating on the surface of the sewage upwards and to two sides of the sewage pool, so that the floating objects in the sewage pool are removed, the sewage is conveniently treated and processed, and the sewage remained at the top of the salvaging plate is reflowed into the sewage pool through the draining holes by arranging a plurality of draining holes.

4. According to the invention, the running motor of the running mechanism is used for providing torsional driving force to drive the running roller to rotate, so that the device is driven to move left and right in the sewage pool under the rolling fit with the track groove, and the sewage is subjected to multi-region operation.

Drawings

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

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

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

FIG. 4 is a schematic diagram of the construction of the invention;

FIG. 5 is a schematic cross-sectional view of a protective frame according to the present invention;

FIG. 6 is a schematic diagram of a mud flushing mechanism according to the present invention;

FIG. 7 is a schematic diagram of a fishing mechanism according to the present invention;

FIG. 8 is a schematic view of a portion of the components of the fishing mechanism of the present invention;

FIG. 9 is a schematic view of the enlarged partial structure of the invention A of FIG. 1;

FIG. 10 is a schematic plan view of a water deflector of the present invention.

In the figure: 1. a mixing station; 2. a mud grabbing mechanism; 3. a mud flushing mechanism; 4. a salvaging mechanism; 5. a walking mechanism; 201. an electric gas lever; 202. a saddle; 203. a mud grabbing bucket; 204. a worm wheel; 205. a worm; 206. a first torsion bar; 207. a passive bevel gear; 208. a drive bevel gear; 209. a first alternating current motor; 2010. a protective frame; 301. connecting a swivel; 302. a water diversion plate; 303. a passive ring gear; 304. a drive gear; 305. a second alternating current motor; 401. a fixing seat; 402. turning over the rod; 403. fishing out the plate; 4031. a draining hole; 404. swinging a bevel gear; 405. a stirring rod; 406. arc bevel gears; 407. a stirring impeller; 408. a driven gear; 409. an active outer gear ring; 501. a fixing frame; 502. a walking motor; 503. a walking roller; 504. a fixed rail; 505. a track groove.

Description of the embodiments

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.

Examples: referring to fig. 1-10, a mixing mixer for a sewage pool includes a mixing table 1, a mud grabbing mechanism 2 is movably arranged at the bottom of the mixing table 1, a mud flushing mechanism 3 is rotatably arranged at the periphery of the mud grabbing mechanism 2, the mud flushing mechanism 3 penetrates through the mixing table 1 and extends to the top of the mixing table, a salvaging mechanism 4 is movably arranged at the left side and the right side of the mixing table 1, and a travelling mechanism 5 is arranged at the front side and the rear side of the mixing table 1;

Through setting up running gear 5 drive arrangement and controlling in the inside of effluent water sump and remove, further hoisting device's operation area size has improved the mixed scope of device, upwards mention the silt of effluent water sump bottom and throw downwards through grabbing mud mechanism 2, rethread dashes mud mechanism 3 and will outside sewage and introduce to its inside, make it wash out the silt, thereby mix silt and sewage, avoid silt to take place concentrated siltation again in the effluent water sump bottom, through setting up fishing mechanism 4, salvage the floater on effluent water sump surface, clear away the floater in the effluent water sump, so that follow-up carries out processing to sewage.

The mud grabbing mechanism 2 comprises an electric air rod 201, the electric air rod 201 is fixedly arranged at the top of the mixing table 1, an output shaft end part of the electric air rod 201 is fixedly connected with a saddle seat 202, two mud grabbing scoops 203 are rotatably connected in the saddle seat 202, the two mud grabbing scoops 203 are symmetrically distributed, worm wheels 204 are fixedly connected to the rotating shaft ends of the two mud grabbing scoops 203 and the saddle seat 202, a worm 205 is meshed between the two worm wheels 204, a first torsion bar 206 is fixedly connected to the inner wall of the worm 205, a driven bevel gear 207 is fixedly connected to the outer wall of the first torsion bar 206, the driven bevel gear 207 is positioned at the top of the worm 205, a driving bevel gear 208 is meshed to one side of the top of the driven bevel gear 207, a first alternating current motor 209 is fixedly connected to the top of the saddle seat 202, a protective frame 2010 is fixedly connected to the inner wall of the driving bevel gear 208, the protective frame 2010 extends to one side outer wall of the saddle seat 202, and the protective frame 2010 is positioned at the first alternating current motor 209, the driving bevel gear 207 and the driven bevel gear 207 and the first torsion bar 206;

Specifically, the output shafts of the two electric air bars 201 move downwards to drive the two sludge grabbing buckets 203 to move downwards, the two sludge grabbing buckets 203 are inserted into sludge at the bottom of the tank, then the first alternating current motor 209 is started, the driving bevel gear 208 is driven to rotate through the output shaft of the first alternating current motor 209, the driven bevel gear 207 meshed with the driving bevel gear 208 is further driven to rotate, the first torsion bar 206 fixedly connected with the driven bevel gear 207 is driven to rotate, the worm 205 is further driven to rotate, the worm wheel 204 meshed with the worm 205 rotates in opposite directions, the two sludge grabbing buckets 203 are further driven to rotate in opposite directions, the two worm wheels 204 are closed in the middle, the sludge at the bottom is wrapped between the two sludge grabbing buckets 203, then the two electric air bars 201 are started, the output shafts of the two electric air bars 201 drive the saddle 202 and the two sludge grabbing buckets 203 to move upwards, the sludge wrapped inside the two sludge grabbing buckets 203 move upwards, and the sludge accumulated at the bottom of the sewage tank is lifted upwards, so that the sludge and the sewage are mixed, and organic matters in the sewage are degraded.

The mud flushing mechanism 3 comprises a connecting swivel 301, the connecting swivel 301 is rotationally connected to the bottom of the mixing table 1, the bottom of the connecting swivel 301 is fixedly connected with a plurality of diversion plates 302, the diversion plates 302 are positioned on the periphery of two mud grabbing scoops 203, the diversion plates 302 are in clearance fit with the mud grabbing scoops 203, the diversion plates 302 are distributed in a circumferential array, a passive annular gear 303 is fixedly connected to the inner wall of the connecting swivel 301, a driving gear 304 is meshed with the inner part of the passive annular gear 303, the top of the mixing table 1 is fixedly connected with a second alternating current motor 305, an output shaft of the second alternating current motor 305 movably penetrates through the mixing table 1 and extends to the periphery of the bottom of the mixing table, and the outer wall of an output shaft of the second alternating current motor 305 is fixedly connected with the inner wall of the driving gear 304;

Specifically, the driving gear 304 is driven to rotate by the output shaft of the second alternating current motor 305, the connection swivel 301 meshed with the driving gear 304 is driven to rotate, a plurality of diversion plates 302 fixed with the connection swivel 301 are further enabled to synchronously rotate, external sewage is introduced into the interior, the first alternating current motor 209 is controlled to rotate reversely, the two sludge grabbing buckets 203 are unfolded towards two sides with the same transmission principle, sludge in the two sludge grabbing buckets 203 falls downwards, the sewage introduced by the plurality of diversion plates 302 is flushed, and the sludge is dispersed and mixed with the sewage, so that the phenomenon that the sludge is concentrated and accumulated at the bottom of a sewage pool is difficult to decompose is avoided, and the sewage treatment efficiency of the sewage pool is improved.

The salvaging mechanism 4 comprises four fixing seats 401, the four fixing seats 401 are fixedly connected to four corners of the bottom of the mixing table 1, the inside of each fixing seat 401 is rotationally connected with a turnover rod 402 through a bearing, the outer walls of the turnover rods 402 are fixedly connected with a salvaging plate 403 through horseshoe buckles, the tops of the salvaging plates 403 are downwards penetrated and provided with a plurality of draining holes 4031, the plurality of draining holes 4031 are arranged in an array in a transverse and longitudinal mode, one end of each turnover rod 402, far away from the corresponding salvaging plate 403, is fixedly connected with a swinging bevel gear 404, the tops and bottoms of the swinging bevel gears 404 are alternately meshed with arc bevel gears 406, the tooth directions of the two arc bevel gears 406 are opposite, the inner walls of the two arc bevel gears 406 are fixedly connected with a stirring rod 405 together, the outer walls of the tops of the stirring rod 405 are fixedly connected with driven gears 408, the number of the driven gears 408 are two, a driving outer gear 409 is fixedly meshed with the outer walls of the connecting swivel 301, the bottom outer walls of the two stirring rods 405 are fixedly connected with stirring impellers 407, and the two stirring impellers 407 are distributed on the outer periphery of the plurality of the water diversion plates 302;

specifically, through the in-process of connecting swivel 301 rotation, can drive the initiative external gear 409 rather than fixed connection and rotate, make with initiative external gear 409 engaged with two driven gears 408 rotate, drive two puddler 405 rotations, two puddler 405 pivoted period drives two stirring impeller 407, stir sewage, further promote the mixed effect to sewage, simultaneously puddler 405 still drives two arc bevel gears 406 of fixed connection with it and rotate, make the teeth of a cogwheel of two arc bevel gears 406 and swing bevel gears 404 up-and-down alternate engagement, further drive swing bevel gears 404 reciprocal positive and negative rotation, further make the reciprocal positive and negative rotation of tilting lever 402, further drive with tilting lever 402 fixed connection drag for the board 403 constantly turn up and down, drag for the floater that floats on the sewage surface upwards after, and to the both sides of effluent water sump, thereby clear away the floater in the effluent water sump, so as to handle the processing to sewage, through setting up a plurality of drain holes 4031, in order to be used for the effect of draining, with the sewage that remains in the fishing for the top of drag for the board 403 through drain hole 4031 in the back flow.

In this embodiment, referring to FIG. 10, the water deflector 302 is provided in an arc shape;

Furthermore, by arranging the diversion plate 302 in an arc shape, the diversion efficiency of the diversion plate 302 is further improved, so that the scouring and mixing quality of the sludge is improved, and the sludge decomposition speed is improved.

In this embodiment, referring to fig. 1 and 9, the travelling mechanism 5 includes four fixing frames 501, the four fixing frames 501 are respectively and fixedly connected to the front side and the back side of the mixing table 1, travelling motors 502 are fixedly connected to the inner side surfaces of the four fixing frames 501, the output shafts of the travelling motors 502 movably penetrate through the fixing frames 501 and extend to the outside of the outer side surfaces of the fixing frames, travelling rollers 503 are fixedly connected to the outer walls of the output shafts of the travelling motors 502, the travelling mechanism 5 further includes a fixed rail 504, a rail groove 505 is formed in the top of the fixed rail 504, and the rail groove 505 is in matched connection with the travelling rollers 503;

Specifically, two fixed rails 504 are installed on two sides of a pool opening of a sewage pool, and then the traveling rollers 503 are sequentially placed in corresponding rail grooves 505, the plurality of traveling motors 502 provide torsional driving force to drive the traveling rollers 503 to rotate, so that under the rolling fit with the rail grooves 505, the device is driven to move left and right in the sewage pool, and multi-region operation is performed on sewage.

S1, firstly, two fixed rails 504 are arranged on two sides of a pool opening of a sewage pool, then, walking rollers 503 are sequentially arranged in corresponding rail grooves 505, a plurality of walking motors 502 provide torsional driving force to drive the walking rollers 503 to rotate, so that under the rolling fit with the rail grooves 505, a device is driven to move left and right in the sewage pool, and multi-region operation is carried out on sewage;

S2, during the period, the output shafts of the two electric air bars 201 move downwards to drive the two sludge grabbing buckets 203 to move downwards, the two sludge grabbing buckets 203 are inserted into sludge at the bottom of the pool, then a first alternating current motor 209 is started, the output shaft of the first alternating current motor 209 drives a drive bevel gear 208 to rotate, further drives a driven bevel gear 207 meshed with the drive bevel gear 208 to rotate, further drives a first torsion bar 206 fixedly connected with the driven bevel gear 207 to rotate, further drives a worm 205 to rotate, so that a worm wheel 204 meshed with the worm 205 rotates oppositely, further drives the two sludge grabbing buckets 203 to rotate oppositely, so that the two worm wheels 204 are closed towards the middle, the sludge at the bottom is wrapped between the two sludge grabbing buckets 203, then the two electric air bars 201 are started, the output shafts of the two electric air rods 201 drive the saddle 202 and the two sludge grabbing buckets 203 to move upwards, sludge wrapped inside the two sludge grabbing buckets 203 is moved upwards, then the second alternating current motor 305 is started, the driving gear 304 is driven to rotate through the output shaft of the second alternating current motor 305, the connecting swivel 301 meshed with the driving gear 304 is driven to rotate, a plurality of diversion plates 302 fixed with the connecting swivel 301 are further enabled to synchronously rotate, external sewage is introduced into the interior, at the moment, the first alternating current motor 209 is controlled to rotate reversely, the same driving principle is adopted, the two sludge grabbing buckets 203 are unfolded to two sides, sludge inside the two sludge grabbing buckets 203 falls downwards and is washed with sewage introduced by the plurality of diversion plates 302, and the sludge is washed away and mixed with the sewage, so that the problem that the sludge is accumulated at the bottom of a sewage pool in a concentrated manner and is difficult to decompose is avoided;

S3, when the connection swivel 301 rotates, the driving outer gear ring 409 fixedly connected with the connection swivel 301 is driven to rotate, so that the two driven gears 408 meshed with the driving outer gear ring 409 rotate to drive the two stirring rods 405 to rotate, the two stirring rods 405 drive the two stirring impellers 407 during rotation to stir sewage, the mixing effect on the sewage is further improved, meanwhile, the stirring rods 405 also drive the two arc bevel gears 406 fixedly connected with the stirring rods, the gear teeth of the two arc bevel gears 406 are meshed with the swing bevel gears 404 up and down alternately, the swing bevel gears 404 are further driven to reciprocate forward and backward, the overturning rods 402 are further driven to reciprocate forward and backward, the fishing plates 403 fixedly connected with the overturning rods 402 are further driven to continuously flip up and down, and float floating objects floating on the surface of the sewage are fished up and then thrown to two sides of the sewage pool, so that floating objects in the sewage pool are removed, and sewage is processed conveniently.

When the mixing stirrer for the sewage pool and the using method thereof work, firstly, two fixed rails 504 are arranged on two sides of a pool opening of the sewage pool, then, the walking rollers 503 are sequentially arranged in corresponding rail grooves 505, the plurality of walking motors 502 provide torsional driving force to drive the walking rollers 503 to rotate, so that under the rolling fit with the rail grooves 505, the driving device is driven to move left and right in the sewage pool to carry out multi-region operation on sewage; during the period, the output shafts of the two electric air bars 201 move downwards to drive the two sludge grabbing buckets 203 to move downwards, the two sludge grabbing buckets 203 are inserted into sludge at the bottom of a pool, then a first alternating current motor 209 is started, the output shaft of the first alternating current motor 209 drives a drive bevel gear 208 to rotate, further drives a driven bevel gear 207 meshed with the drive bevel gear 208 to rotate, further drives a first torsion bar 206 fixedly connected with the driven bevel gear 207 to rotate, further drives a worm 205 to rotate so as to drive a worm wheel 204 meshed with the worm 205 to rotate oppositely, further drives the two sludge grabbing buckets 203 to rotate oppositely, enables the two worm wheels 204 to close towards the middle, wraps the sludge at the bottom between the two sludge grabbing buckets 203, then starts the two electric air bars 201, and the output shafts of the two electric air bars 201 drive a saddle 202 and the two sludge grabbing buckets 203 to move upwards, the sludge wrapped inside the two sludge grabbing buckets 203 is moved upwards, then the second alternating current motor 305 is started, the driving gear 304 is driven to rotate through the output shaft of the second alternating current motor 305, the connecting swivel 301 meshed with the driving gear 304 is driven to rotate, the plurality of water diversion plates 302 fixed with the connecting swivel 301 are further driven to synchronously rotate, external sewage is introduced into the interior, at the moment, the first alternating current motor 209 is controlled to reverse, the same transmission principle is adopted, the two sludge grabbing buckets 203 are unfolded towards two sides, the sludge inside the two sludge grabbing buckets 203 falls downwards, the sewage introduced by the plurality of water diversion plates 302 is flushed, the sludge is dispersed and mixed with the sewage, so that the problem that the sludge is hard to decompose due to concentration and accumulation at the bottom of a sewage pool is avoided, the driving outer gear ring 409 fixedly connected with the connecting swivel 301 is driven to rotate in the rotating process of the connecting swivel 301, the two driven gears 408 meshed with the driving outer gear ring 409 rotate, the two stirring rods 405 are driven to rotate, the two stirring impellers 407 are driven to stir sewage during the rotation of the two stirring rods 405, the mixing effect on the sewage is further improved, the stirring rods 405 also drive the two arc bevel gears 406 fixedly connected with the stirring rods to rotate, gear teeth of the two arc bevel gears 406 are meshed with the swing bevel gears 404 alternately up and down, the swing bevel gears 404 are further driven to reciprocate positively and negatively, the overturning rods 402 are further driven to reciprocate positively and negatively, the fishing plates 403 fixedly connected with the overturning rods 402 are further driven to continuously flip up and down, floating objects floating on the surface of the sewage are fished up and then thrown towards two sides of the sewage pool, and accordingly floating objects in the sewage pool are cleared, so that the sewage is treated and processed.

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 sewage pool is with mixing mixer which characterized in that: the device comprises a mixing table (1), wherein a mud grabbing mechanism (2) is movably arranged at the bottom of the mixing table (1), a mud flushing mechanism (3) is rotatably arranged at the periphery of the mud grabbing mechanism (2), the mud flushing mechanism (3) penetrates through the mixing table (1) and extends to the top of the mixing table, a salvaging mechanism (4) is movably arranged at the left side and the right side of the mixing table (1), and a travelling mechanism (5) is arranged at the front side and the rear side of the mixing table (1);

The mud grabbing mechanism (2) comprises an electric air rod (201), the electric air rod (201) is fixedly arranged at the top of the mixing table (1), the end part of an output shaft of the electric air rod (201) is fixedly connected with a saddle (202), two mud grabbing buckets (203) are rotatably connected in the saddle (202), and the two mud grabbing buckets (203) are symmetrically distributed;

The mud flushing mechanism (3) comprises a connecting swivel (301), the connecting swivel (301) is rotationally connected to the bottom of the mixing table (1), the bottom of the connecting swivel (301) is fixedly connected with a plurality of diversion plates (302), the diversion plates (302) are positioned on the periphery of two mud grabbing buckets (203), the diversion plates (302) are in clearance fit with the mud grabbing buckets (203), and the diversion plates (302) are distributed in a circumferential array;

The fishing mechanism (4) comprises four fixing seats (401), the four fixing seats (401) are fixedly connected to four corners of the bottom of the mixing table (1), overturning rods (402) are rotatably connected to the inside of the fixing seats (401) through bearings, and fishing plates (403) are fixedly connected to the outer walls of the overturning rods (402) through horseshoe buckles;

The two sludge grabbing buckets (203) are fixedly connected with worm wheels (204) at the end parts of rotating shafts of the saddle (202), a worm (205) is meshed between the two worm wheels (204), a first torsion bar (206) is fixedly connected to the inner wall of the worm (205), a driven bevel gear (207) is fixedly connected to the outer wall of the first torsion bar (206), the driven bevel gear (207) is positioned at the top of the worm (205), a driving bevel gear (208) is meshed with one side of the top of the driven bevel gear (207), a first alternating current motor (209) is fixedly connected to the top of the saddle (202), and the outer part of an output shaft of the first alternating current motor (209) is fixedly connected with the inner wall of the driving bevel gear (208);

The inner wall of the connecting swivel (301) is fixedly connected with a passive annular gear (303), a driving gear (304) is meshed in the passive annular gear (303), the top of the mixing table (1) is fixedly connected with a second alternating current motor (305), an output shaft of the second alternating current motor (305) movably penetrates through the mixing table (1) and extends to the periphery of the bottom of the mixing table, and the outer wall of the output shaft of the second alternating current motor (305) is fixedly connected with the inner wall of the driving gear (304);

One end of the turning rod (402) far away from the fishing plate (403) is fixedly connected with a swinging bevel gear (404), the top and the bottom of the swinging bevel gear (404) are alternately meshed with arc bevel gears (406), the teeth of the two arc bevel gears (406) are opposite, the inner walls of the two arc bevel gears (406) are fixedly connected with a stirring rod (405) together, the outer walls of the tops of the stirring rods (405) are fixedly connected with driven gears (408), the number of the driven gears (408) is two, active outer gear rings (409) are meshed between the two driven gears (408) together, and the active outer gear rings (409) are fixedly connected to the outer walls of the connecting swivel rings (301);

the bottom outer walls of the two stirring rods (405) are fixedly connected with stirring impellers (407), and the two stirring impellers (407) are distributed on the periphery of the plurality of diversion plates (302);

the walking mechanism (5) comprises four fixing frames (501), the four fixing frames (501) are respectively and fixedly connected to the front side and the back side of the mixing table (1), the inner side surfaces of the four fixing frames (501) are fixedly connected with walking motors (502), an output shaft of each walking motor (502) movably penetrates through the fixing frame (501) and extends to the outer part of the outer side surface of the corresponding fixing frame, and walking rollers (503) are fixedly connected to the outer wall of the output shaft of each walking motor (502);

The walking mechanism (5) further comprises a fixed track (504), a track groove (505) is formed in the top of the fixed track (504), and the track groove (505) is connected with the walking roller (503) in a matched mode.

2. A mixer-blender for a lagoon according to claim 1, wherein: the top fixedly connected with protection frame (2010) of saddle (202), protection frame (2010) extend to on the outer wall of one side of saddle (202), protection frame (2010) are located the periphery of first alternating current motor (209), initiative bevel gear (208), passive bevel gear (207) and first torsion bar (206).

3. A mixer-blender for a lagoon according to claim 1, wherein: the diversion plate (302) is arranged in an arc shape.

4. A mixer-blender for a lagoon according to claim 1, wherein: draining holes (4031) are formed in the top of the fishing plate (403) in a penetrating mode, the number of the draining holes (4031) is multiple, and the draining holes (4031) are arranged in an array mode in a transverse and longitudinal mode.

5. A method of using the mixing blender for a lagoon of claim 1, comprising: the method comprises the following using steps:

S1, firstly, two fixed rails (504) are arranged on two sides of a pool opening of a sewage pool, then, walking rollers (503) are sequentially arranged in corresponding rail grooves (505), a plurality of walking motors (502) provide torsional driving force to drive the walking rollers (503) to rotate, so that under the rolling fit with the rail grooves (505), a device is driven to move left and right in the sewage pool, and multi-region operation is carried out on sewage;

s2, during the period, the output shafts of the two electric air bars (201) move downwards to drive the two sludge grabbing buckets (203) to move downwards, the two sludge grabbing buckets (203) are inserted into sludge at the bottom of a pool, then a first alternating current motor (209) is started, the drive bevel gear (208) is driven to rotate through the output shaft of the first alternating current motor (209), further the driven bevel gear (207) meshed with the drive bevel gear (208) is driven to rotate, further the worm (205) is driven to rotate, the worm wheel (204) meshed with the worm (205) is driven to rotate in opposite directions, further the two sludge grabbing buckets (203) are driven to rotate in opposite directions, the two worm wheel (204) is closed in the middle, the sludge at the bottom is wrapped between the two sludge grabbing buckets (203), then the two electric air bars (201) are started, the output shafts of the two electric air bars (201) drive the saddle (202) and the two sludge grabbing buckets (203) to move upwards, the two sludge grabbing buckets (203) are driven to move inwards, the two sludge grabbing buckets (203) are driven to move upwards, the worm wheel (203) is driven to rotate, the two sludge grabbing buckets (203) are driven to rotate synchronously, the second alternating current motor (301) is driven to rotate, and the second driving wheel (301) is driven to rotate, and the two sludge grabbing buckets (301) are meshed with the drive ring (301) to rotate, and are driven to rotate synchronously, and the driving motor (301) to rotate to and are connected with the driving ring (301), the external sewage is introduced into the sewage tank, at the moment, the first alternating current motor (209) is controlled to reversely rotate, the two sludge grabbing buckets (203) are unfolded towards two sides according to the transmission principle, the sludge in the two sludge grabbing buckets (203) falls downwards and is flushed with the sewage introduced by the plurality of water diversion plates (302), and the sludge is dispersed and mixed with the sewage, so that the problem that the sludge is accumulated at the bottom of the sewage tank in a concentrated manner and is difficult to decompose is avoided;

S3, when the rotating ring (301) is connected, the driving outer gear ring (409) fixedly connected with the rotating ring is driven to rotate, so that the two driven gears (408) meshed with the driving outer gear ring (409) rotate to drive the two stirring rods (405) to rotate, the two stirring impellers (407) are driven to stir sewage during the rotation of the two stirring rods (405), the mixing effect on the sewage is further improved, the stirring rods (405) also drive the two arc bevel gears (406) fixedly connected with the stirring rods to rotate, gear teeth of the two arc bevel gears (406) are meshed with the swing bevel gears (404) up and down alternately, the swing bevel gears (404) are further driven to reciprocate forward and backward, the overturning rods (402) are further driven to continuously overturn up and down, the floating objects floating on the surface of the sewage are fished up and then thrown to the two sides of the sewage pool, and therefore the floating objects in the sewage pool are removed, and sewage is processed conveniently.