CN115245704A - Intelligent water treatment is with multi-functional promotion pump station - Google Patents

Abstract

The invention discloses a multifunctional lifting pump station for intelligent water treatment, which comprises a pump box and a garbage pool, wherein the pump box and the garbage pool are buried underground, a sewage cavity and an equipment cavity are arranged in the pump box, the garbage pool is positioned above the sewage cavity, two partition plates are symmetrically arranged in the sewage cavity, a sewage cleaning pipe is inserted on the top wall of one side, far away from the two partition plates and close to the equipment cavity, in the sewage cavity, and the upper end of the sewage cleaning pipe extends into the garbage pool. According to the invention, through separating and salvaging larger garbage in sewage and filtering and treating granular floccule garbage in the sewage, the automatic preliminary treatment of impurities in the sewage is realized, the possibility of pipeline blockage is reduced, the frequency of manual cleaning is reduced, and backflow flushing is formed through sewage lifting and conveying, so that the influence of sewage precipitation on sewage discharge is avoided, the convenience of equipment maintenance is increased through a dry-wet separation structure, the function of continuous sewage discharge maintenance is realized, and the sewage discharge efficiency is higher.

Description

Intelligent water treatment is with multi-functional promotion pump station

Technical Field

The invention relates to the field of sewage treatment, in particular to a multifunctional lifting pump station for intelligent water treatment.

Background

The sewage pump station is arranged in a sewage treatment plant and used for lifting sewage, and is used for providing water flow power for subsequent processes.

Current sewage lifting pump station adopts dive formula sewage pump to promote sewage and carries usually, but dive formula sewage pump when maintaining, need interrupt sewage and carry and clear up the sewage in the evacuation pump station, and work load is big and maintain convenient inadequately, and the sewage region of pump station often needs the evacuation clearance, avoids a large amount of sewage impurity deposits to influence inside effective volume, and influences the blowdown ability of sewage pump for the blowdown promotes work load and strengthens, and influences blowdown efficiency.

Therefore, it is necessary to design an intelligent multifunctional lift pump station for water treatment to solve the above technical problems.

Disclosure of Invention

The invention aims to solve the technical problem that sludge is easy to deposit at the bottom of a box body of a pump station in the prior art, and provides an intelligent multifunctional lifting pump station for water treatment.

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

the utility model provides an intelligent water treatment is with multi-functional promotion pump station, is including burying pump box and the rubbish pond in the underground be equipped with sewage chamber and equipment compartment in the pump box, the rubbish pond is located the top in sewage chamber, be provided with the trash cleaning pipe between sewage chamber and the rubbish pond, the communicating pipe that is equipped with intercommunication equipment compartment is inserted to the bottom of pump box, a side wall mounting that equipment compartment was kept away from to the sewage intracavity is equipped with prevents stifled otter board, the pump box is located prevents to plug on the roof directly over the stifled otter board and is equipped with rubbish transport side's pipe, the upper end of rubbish transport side's pipe extends to in the rubbish pond, be provided with rubbish conveyor in sewage chamber and the rubbish pond.

Preferably, two partition plates are symmetrically installed in the sewage cavity, a sewage cleaning pipe is inserted into the top wall of one side of the sewage cavity, which is far away from the two partition plates and close to the equipment cavity, the upper end of the sewage cleaning pipe extends into the garbage pool, a sewage collecting cover is installed at the lower end of the sewage cleaning pipe, a sewage collecting cover is installed at one end of the communicating pipe, which is far away from the equipment cavity, the upper end of the sewage collecting cover is inserted into the bottom of the pump box and communicated with the sewage cavity, the sewage collecting cover is positioned right below the sewage collecting cover, a shaft bracket is installed on the inner wall of the sewage collecting cover, a sewage cleaning shaft is rotatably installed on the shaft bracket, the upper end of the sewage cleaning shaft extends to the upper part of the garbage pool, and a porous spiral blade is installed on the sewage cleaning shaft;

prevent stifled otter board and fix on keeping away from the baffle in equipment chamber, one side that the upper end of rubbish conveyer side's pipe is close to the dirt cleaning pipe is extended and is buckled and form the inclined plane scraper blade, run through on the inclined plane scraper blade and seted up a plurality of grooves of scraping, rubbish conveyor is including setting up rubbish transport axle on rubbish pond and the sewage intracavity wall, every rubbish transport epaxial impartial distance installs a plurality of transport gears, two of symmetry all install the conveyer belt jointly between the transport gear, every all install the hook plate on the lateral wall of conveyer belt, be close to a plurality of inclined plane scraper blade the hook plate is equallyd divide and do not slide and insert and establish a plurality of grooves of scraping.

Preferably, the last surface mounting in rubbish pond has the motor of decontaminating, the upper end fixed connection of the bent axle of the motor of decontaminating and the axle of decontaminating, install the transportation motor on the lateral wall in rubbish pond, the bent axle of transportation motor and the rubbish transport axle fixed connection who rotates to install in the rubbish pond.

Preferably, a water inlet pipe communicated with the sewage cavity and a water outlet pipe communicated with the equipment cavity are respectively inserted into the outer side of the pump box, and the joint of the water inlet pipe and the pump box is positioned above the anti-blocking screen plate.

Preferably, install the plywood in the equipment chamber, the junction of drain pipe and pump box is located the top of plywood, the maintenance mouth in intercommunication equipment chamber is seted up at the top of pump box, the level mouth has been seted up on the plywood, install a plurality of sewage pumps on the plywood, every the pump end of sewage pump all extends to the below of plywood and installs blowdown pipe and blow off pipe respectively, the equipment intracavity is located the below of plywood and installs the reposition of redundant personnel and is responsible for, the equipment intracavity is located the top of plywood and installs the person in charge of converging, and is a plurality of the one end that the sewage pump was kept away from to the blowdown pipe is all installed on the person in charge of diverging, and is a plurality of the one end that the sewage pump was kept away from to the blow off pipe is all installed on the person in charge of converging, every all install the electromagnetic ball valve on the blow off pipe.

Preferably, install sewage conveyer pipe on the diapire of reposition of redundant personnel main pipe, sewage conveyer pipe keeps away from the reposition of redundant personnel main pipe one end and the fixed sealing connection of one end that is located the equipment intracavity communicating pipe, the one end fixed mounting that the drain pipe is close to the equipment chamber is on the lateral wall of converging the main pipe.

Preferably, a plurality of return pipes are installed to the diapire of the main pipe that converges, two the square net pipe is installed jointly to the one end that the baffle is close to sewage chamber bottom, and is a plurality of return pipes keep away from the one end of the main pipe that converges and all extends to the sewage intracavity and install on the square net pipe, a plurality of impact holes have evenly been seted up to the diapire of square net pipe.

Preferably, install the liquid level pipe on the lateral wall in equipment chamber, the lower extreme of liquid level pipe extends to the sewage intracavity and is located the bottom in sewage chamber, level sensor is installed to the upper end of liquid level pipe, install the constant voltage pipe on the last lateral wall of liquid level pipe, the one end that the liquid level pipe was kept away from to the constant voltage pipe extends to the sewage intracavity and is located the top in sewage chamber.

The invention has the beneficial effects that: salvage the great rubbish in the sewage and the granule floccule rubbish in the filtration treatment sewage through the separation, realize the impurity in the automatic preliminary treatment sewage, reduce the possibility that the pipeline blockked up, reduce artifical clearance's frequency simultaneously, and promote through sewage and carry to form the reflux and wash, avoid sewage to deposit the influence blowdown, and the structure through dry-wet separation increases the convenience of plant maintenance, and realizes lasting blowdown function of maintaining, and blowdown efficiency is higher.

Drawings

Fig. 1 is a schematic structural diagram of a multifunctional lift pump station for intelligent water treatment according to the present invention;

FIG. 2 is a diagram of a multifunctional lift pump station for intelligent water treatment according to the present invention;

FIG. 3 is an enlarged view of FIG. 1 at A;

FIG. 4 is an enlarged view of FIG. 1 at B;

fig. 5 is an enlarged view of fig. 1 at C.

In the figure: 1 pump box, 11 sewage cavities, 12 equipment cavities, 13 water inlet pipes, 14 water outlet pipes, 15 partition plates, 16 anti-blocking screen plates, 17 maintenance ports, 18 laminated plates, 19 level ports, 2 garbage pools, 21 trash cleaning motors, 22 transport motors, 23 garbage conveying square pipes, 24 inclined plane scraping plates, 25 scraping grooves, 3 trash cleaning pipes, 31 trash collecting covers, 32 trash cleaning shafts, 33 porous spiral blades, 4 communicating pipes, 41 trash collecting covers, 42 shaft frames, 5 garbage conveying shafts, 51 conveying gears, 52 conveying chain belts, 53 hook plates, 6 sewage pumps, 61 sewage pumping pipes, 62 sewage draining pipes, 63 electromagnetic ball valves, 7 shunting main pipes, 71 sewage conveying pipes, 8 confluence main pipes, 81 return pipes, 82 grid pipes, 83 impact holes, 9 liquid level pipes, 91 liquid level sensors and 92 constant pressure pipes.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-5, a multifunctional lifting pump station for intelligent water treatment comprises a pump box 1 and a garbage pool 2 buried underground, wherein a sewage chamber 11 and an equipment chamber 12 are arranged in the pump box 1, the garbage pool 2 is positioned above the sewage chamber 11, two partition plates 15 are symmetrically arranged in the sewage chamber 11, a sewage cleaning pipe 3 is inserted in the sewage chamber 11 far away from the two partition plates 15 and close to the top wall of one side of the equipment chamber 12, the upper end of the sewage cleaning pipe 3 extends into the garbage pool 2, a sewage collecting cover 31 is arranged at the lower end of the sewage cleaning pipe 3, a communicating pipe 4 communicating with the equipment chamber 12 is inserted in the bottom of the pump box 1, a collecting cover 41 is arranged at one end of the communicating pipe 4 far away from the equipment chamber 12, the upper end of the collecting cover 41 is inserted in the bottom of the pump box 1 and communicated with the sewage chamber 11, the collecting cover 41 is positioned right below the sewage collecting cover 31, a shaft bracket 42 is arranged on the inner wall of the collecting cover 41, a sewage cleaning shaft 32 is rotatably arranged on the shaft bracket 42, the upper end of the cleaning shaft 32 extends above the garbage pool 2, and a porous spiral vane 33 is arranged on the cleaning shaft 32;

keep away from in the sewage chamber 11 equipment chamber 12 a side wall mounting has prevented stifled otter board 16, prevent stifled otter board 16 and fix on the baffle 15 of keeping away from equipment chamber 12, pump box 1 is located prevents to block up and inserts on the roof directly over otter board 16 and is equipped with rubbish conveyer square pipe 23, the upper end of rubbish conveyer square pipe 23 extends to in the rubbish pond 2, one side that rubbish conveyer square pipe 23's upper end is close to trash cleaning pipe 3 extends and bending type becomes inclined plane scraper blade 24, run through on the inclined plane scraper blade 24 and seted up a plurality of scraping grooves 25, all rotate on the inner wall of rubbish pond 2 and on the inner wall of sewage chamber 11 and install rubbish delivery shaft 5, impartial distance is installed a plurality of conveying gear 51 on every rubbish delivery shaft 5, all install conveying chain belt 52 jointly between two symmetrical conveying gear 51, all install hook plate 53 on the lateral wall of every conveying chain belt 52, a plurality of hook plate 53 that are close to inclined plane scraper blade 24 are equallyd do not slided and are inserted and are established in a plurality of scraping grooves 25.

The rotation of the sewage cleaning shaft 32 can enable the porous spiral blade 33 to rotate to convey impurities in the sewage at the bottom in the sewage cavity 11 upwards along the sewage cleaning pipe 3, the impurities can be separated from the sewage, the phenomenon that the water level in the garbage pool 2 is too high due to too high water content of the impurities is avoided, and the sewage cleaning shaft 32 is positioned right above the collecting cover 41, so that the filtered impurities need to be filtered by the porous spiral blade 33 and conveyed upwards when the sewage enters the collecting cover 41 from the sewage cavity 11, the sewage entering the communicating pipe 4 contains less particles or floccule impurities, the phenomenon that the subsequent lifting pipeline is blocked by the sewage and the subsequent work of the sewage pump 6 is influenced is avoided, the primary filtration of the sewage can be realized, and the difficulty of the subsequent sewage conveying treatment is reduced;

the rubbish transport shaft 5 rotates, then make a plurality of transport gears 51 and the rubbish transport shaft 5 of a plurality of transport gears 51 and the rubbish that make the upper strata drive the lower floor through a plurality of transport chain belt 52 rotate, transport chain belt 52 rotates then can make hook plate 53 from rubbish pond 2 in through rubbish transport side pipe 23 get into in the sewage chamber 11, then from in the sewage chamber 11 through rubbish transport side pipe 23's opposite side return rubbish pond 2 in, make hook plate 53 can get into in the sewage chamber 11 will be transported to rubbish pond 2 by the great rubbish that anti-blocking otter board 16 keeps apart, avoid great rubbish to get into and pass baffle 15 to the pipe of decontaminating 3 department, namely avoid the work of decontaminating of pipe 3 to be blockked up by great rubbish, increase the reliability that sewage treatment promoted, hook plate 53 carries great rubbish to rubbish in rubbish pond 2, hook plate 53 continues to move along with transport chain belt 52 and pass through on the inclined plane 25 of scraping on scraper blade 24, make rubbish 53 pass and break away from great rubbish behind the groove 25 and landing to the scraper blade 24 in pond 2, avoid great rubbish to block hook plate 53, the reliability that the work of hook plate 53 increases.

The upper surface mounting of rubbish pond 2 has the motor 21 of decontaminating, and the upper end fixed connection of the bent axle of the motor 21 of decontaminating and the axle 32 of decontaminating installs transportation motor 22 on the lateral wall of rubbish pond 2, and the bent axle of transportation motor 22 and the rubbish transport shaft 5 fixed connection who rotates and install in rubbish pond 2.

A water inlet pipe 13 communicated with the sewage cavity 11 and a water outlet pipe 14 communicated with the equipment cavity 12 are respectively inserted in the outer side of the pump box 1, and the joint of the water inlet pipe 13 and the pump box 1 is positioned above the anti-blocking screen plate 16.

The inlet tube 13 sinks the sewer line with the outside and is connected, and the drain pipe 14 promotes the sewer line with the outside and is connected, and behind the inlet tube 13 discharged sewage into sewage chamber 11, prevent stifled otter board 16 and stop great rubbish outside baffle 15 and prevent stifled otter board 16 top, avoid great rubbish to block up the pipeline in sewage chamber 11.

Install plywood 18 in equipment cavity 12, the junction of drain pipe 14 and pump box 1 is located the top of plywood 18, the maintenance mouth 17 of intercommunication equipment cavity 12 is seted up at the top of pump box 1, level mouth 19 has been seted up on the plywood 18, install a plurality of sewage pumps 6 on the plywood 18, the pump end of every sewage pump 6 all extends to the below of plywood 18 and installs blowdown pipe 61 and blow off pipe 62 respectively, the reposition of redundant personnel of being located the below of plywood 18 in equipment cavity 12 is installed and is responsible for 7, the confluence person of being responsible for 8 is installed to the top of being located plywood 18 in equipment cavity 12, the one end that sewage pump 6 was kept away from to a plurality of blowdown pipes 61 is all installed on reposition of redundant personnel 7, the one end that sewage pump 6 was kept away from to a plurality of blowdown pipes 62 is all installed on confluence person in charge 8, all install electromagnetic ball valve 63 on every blow off pipe 62.

The relevant staff can get into the upper and lower two-layer of equipment intracavity 12 through maintenance mouth 17 and level mouth 19 and maintain, a plurality of sewage pumps 6 divide into work pump package and reserve pump package, be convenient for switch and realize not shut down and maintain, and can all start when great discharge capacity and realize the full blowdown, sewage pump 6 can be taken out the sewage in being responsible for 7 with shunting through taking out dirty pipe 61, and discharge it to the person in charge 8 that converges through blow off pipe 62, can realize that the reposition of redundant personnel of multi-pump promotes promptly, reduce the load pressure of each sewage pump 6.

A sewage delivery pipe 71 is mounted on the bottom wall of the main diversion pipe 7, one end of the sewage delivery pipe 71, which is far away from the main diversion pipe 7, is fixedly and hermetically connected with one end, which is located in the equipment cavity 12, of the communication pipe 4, and one end, which is close to the equipment cavity 12, of the drain pipe 14 is fixedly mounted on the side wall of the main confluence pipe 8.

The sewage in the sewage chamber 11 filters the back through porous spiral leaf 33 and gets into in the mass flow cover 41, then get into sewage delivery pipe 71 through communicating pipe 4 in, and enter the reposition of redundant personnel and be responsible for 7 in, a plurality of sewage pumps 6 are through a plurality of sewage pipes 61 and a plurality of blow off pipe 62 with filterable sewage arrange into the person in charge 8 that converges, make the person in charge 8 that converges discharge sewage through drain pipe 14, realize the high promotion of blowdown, and the sewage contains granule and the volume of floccule impurity less in each pipeline, reduce the possibility that the pipeline is blockked up, make sewage promote more reliably.

A plurality of return pipes 81 are installed to the diapire of the person in charge 8 that converges, and square net pipe 82 is installed jointly to the one end that two baffles 15 are close to sewage chamber 11 bottom, and a plurality of return pipes 81 are kept away from the one end of the person in charge 8 that converges and are all extended to in sewage chamber 11 and install on square net pipe 82, and a plurality of shock holes 83 have evenly been seted up to square net pipe 82's diapire.

The backflow pipe 81 can be responsible for the sewage of 8 interior bottoms of confluence in reverse transport to the sewage chamber 11 for spout in the impact hole 83 that sewage can follow square net pipe 82, then make impact rivers form the impact to the bottom in sewage chamber 11, avoid the sewage in the sewage chamber 11 to form the effective volume that impurity precipitation influences sewage chamber 11, and can reduce the frequency that artifical clearance was maintained.

Install liquid level pipe 9 on the lateral wall of equipment chamber 12, the lower extreme of liquid level pipe 9 extends to in the sewage chamber 11 and is located the bottom in sewage chamber 11, and level sensor 91 is installed to the upper end of liquid level pipe 9, installs constant voltage pipe 92 on the last lateral wall of liquid level pipe 9, and the one end that liquid level pipe 9 was kept away from to constant voltage pipe 92 extends to in the sewage chamber 11 and is located the top in sewage chamber 11.

The bottom of liquid level pipe 9 and the bottom intercommunication in sewage chamber 11, liquid level pipe 9 passes through the top intercommunication of constant voltage pipe 92 with sewage chamber 11, make the pressure variation in the liquid level pipe 9 unanimous with the pressure variation in the sewage chamber 11, make the liquid level in the liquid level pipe 9 unanimous with the water level in the sewage chamber 11, increase level measurement's accuracy, make its control sewage pump 6's that can be more accurate operating power and the operating power of motor 21 and the transport motor 22 of decontaminating, make it can be according to sewage volume adaptive control.

When the device is used, the garbage pool 2 is embedded on the ground, then the pump box 1 is buried below the garbage pool 2, so that the outer wall of the upper side of the equipment cavity 12 is flush with the upper surface of the garbage pool 2, then the water inlet pipe 13 is connected with an external sunken sewage pipeline, the water outlet pipe 14 is connected with an external lifting sewage pipeline, the sewage cleaning motor 21 and the transportation motor 22 are started, and after the liquid level sensor 91 on the liquid level pipe 9 detects the sewage liquid level in the sewage cavity 11, the corresponding sewage pump 6 is controlled to start and open the corresponding electromagnetic ball valve 63;

after sewage enters the sewage cavity 11 from the water inlet pipe 13, larger garbage is filtered by the anti-blocking screen plate 16, the conveying motor 22 drives the garbage conveying shaft 5 to rotate, so that the plurality of conveying gears 51 on the upper layer drive the plurality of conveying gears 51 and the garbage conveying shaft 5 on the lower layer to rotate through the plurality of conveying chain belts 52, the conveying chain belts 52 rotate to enable the hook plates 53 to enter the sewage cavity 11 from the garbage pool 2 through the garbage conveying square pipes 23, then the sewage cavity 11 returns to the garbage pool 2 through the other sides of the garbage conveying square pipes 23, the hook plates 53 can enter the sewage cavity 11 to convey the larger garbage filtered by the anti-blocking screen plate 16 to the garbage pool 2, the hook plates 53 continue to move along with the conveying chain belts 52 and pass through the scraping grooves 25 on the inclined scraper 24, and the hook plates 53 pass through the scraping grooves 25 to separate the larger garbage on the inclined scraper 24 and slide into the garbage pool 2;

sewage which filters larger garbage enters the sewage cavity 11 and then enters the communicating pipe 4 through the collecting cover 41, at the moment, the sewage cleaning motor 21 drives the sewage cleaning shaft 32 to rotate, so that the porous spiral blade 33 rotates to convey impurities in the sewage at the bottom in the sewage cavity 11 upwards along the sewage cleaning pipe 3, the sewage which enters the collecting cover 41 is filtered by the porous spiral blade 33, and then the porous spiral blade 33 conveys particles and floccule impurities in the sewage into the garbage pool 2;

sewage passes through communicating pipe 4 and gets into in sewage delivery pipe 71, and in entering reposition of redundant personnel is responsible for 7, a plurality of sewage pumps 6 will be filterable sewage through a plurality of sewage pipes 61 and a plurality of blow off pipe 62 and arrange into the person in charge 8 that converges, the person in charge 8 that converges is discharged sewage through drain pipe 14, it can be responsible for 8 interior bottom sewage reverse transport to sewage chamber 11 with converging to return flow pipe 81, make sewage spout in can following square net pipe 82's the impact hole 83, make to strike rivers and form the impact to the bottom in sewage chamber 11, avoid the sewage in the sewage chamber 11 to form impurity precipitation.

Compared with the prior art, the multifunctional lifting pump station for intelligent water treatment can automatically and continuously clean and maintain a sewage area (namely the sewage cavity 11), reduce internal impurities and reduce the maintenance difficulty of the multifunctional lifting pump station for intelligent water treatment. This kind of intelligent multi-functional promotion pump station for water treatment still has the granule floccule rubbish in salvage the great rubbish in the sewage and the filtration treatment sewage through the separation, realize the impurity in the automatic preliminary treatment sewage, reduce the possibility that the pipeline blockked up, reduce the frequency of artifical clearance simultaneously, and promote through sewage and carry formation reflux to wash, avoid sewage to deposit the influence blowdown, and the structure through dry-wet separation increases the convenience of plant maintenance, and realize lasting blowdown function of maintaining, blowdown efficiency is higher.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered as the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims (8)

1. The utility model provides an intelligent multi-functional lifting pump station is used in water treatment, is including burying pump box (1) and rubbish pond (2) underground, a serial communication port, be equipped with sewage chamber (11) and equipment chamber (12) in pump box (1), rubbish pond (2) are located the top of sewage chamber (11), be provided with between sewage chamber (11) and rubbish pond (2) clear dirty pipe (3), communicating pipe (4) that are equipped with intercommunication equipment chamber (12) are inserted to the bottom of pump box (1), a side wall mounting of keeping away from equipment chamber (12) in sewage chamber (11) is equipped with anti-blocking screen board (16), insert on being located anti-blocking screen board (16) the roof directly over and be equipped with rubbish square conveyer pipe (23), the upper end of rubbish square conveyer pipe (23) extends to in rubbish pond (2), be provided with rubbish conveyor in sewage chamber (11) and rubbish pond (2).

2. The multifunctional lifting pump station for intelligent water treatment according to claim 1, wherein two partition plates (15) are symmetrically installed in the sewage chamber (11), a dirt cleaning pipe (3) is inserted into the top wall of one side, far away from the two partition plates (15) and close to the equipment chamber (12), of the sewage chamber (11), the upper end of the dirt cleaning pipe (3) extends into the garbage pool (2), a dirt collecting cover (31) is installed at the lower end of the dirt cleaning pipe (3), a dirt collecting cover (41) is installed at one end, far away from the equipment chamber (12), of the communicating pipe (4), the upper end of the dirt collecting cover (41) is inserted into the bottom of the pump box (1) and communicated with the sewage chamber (11), the dirt collecting cover (41) is located right below the dirt collecting cover (31), a shaft frame (42) is installed on the inner wall of the dirt collecting cover (41), a dirt cleaning shaft (32) is rotatably installed on the shaft frame (42), the upper end of the dirt cleaning shaft (32) extends to the upper end of the sewage collecting pool (2), and a porous spiral blade (33) is installed on the dirt cleaning shaft (32);

prevent stifled otter board (16) and fix on baffle (15) of keeping away from equipment chamber (12), one side that the upper end of rubbish conveyer side pipe (23) is close to clear dirty pipe (3) is extended and is buckled and form inclined plane scraper blade (24), run through on inclined plane scraper blade (24) and seted up a plurality of scraping groove (25), rubbish conveyor is including setting up rubbish transport axle (5) on rubbish pond (2) and sewage chamber (11) inner wall, every a plurality of conveying gear (51), two of symmetry are installed equally apart from on rubbish transport axle (5) all install conveyer belt (52) jointly between conveyer gear (51), every all install hook plate (53) on the lateral wall of conveyer belt (52), be close to a plurality of inclined plane scraper blade (24) hook plate (53) are equallyd divide and are do not slided and are inserted and are established in a plurality of scraping groove (25).

3. The multifunctional lifting pump station for intelligent water treatment according to claim 2, wherein a trash cleaning motor (21) is mounted on the upper surface of the trash pool (2), a machine shaft of the trash cleaning motor (21) is fixedly connected with the upper end of the trash cleaning shaft (32), a transportation motor (22) is mounted on the outer side wall of the trash pool (2), and the machine shaft of the transportation motor (22) is fixedly connected with a trash transportation shaft (5) which is rotatably mounted in the trash pool (2).

4. The multifunctional lifting pump station for intelligent water treatment according to claim 3, wherein a water inlet pipe (13) communicated with the sewage cavity (11) and a water outlet pipe (14) communicated with the equipment cavity (12) are respectively inserted into the outer side of the pump box (1), and the joint of the water inlet pipe (13) and the pump box (1) is positioned above the anti-blocking screen plate (16).

5. The multifunctional lifting pump station for intelligent water treatment according to claim 4, wherein a laminate (18) is installed in the equipment cavity (12), a joint of the drain pipe (14) and the pump box (1) is located above the laminate (18), a maintenance opening (17) communicated with the equipment cavity (12) is formed in the top of the pump box (1), a level opening (19) is formed in the laminate (18), a plurality of sewage pumps (6) are installed on the laminate (18), each sewage pump (6) is provided with a pump end extending to the lower side of the laminate (18) and provided with a sewage pumping pipe (61) and a sewage draining pipe (62) respectively, a flow distribution main pipe (7) is installed below the laminate (18) in the equipment cavity (12), a flow distribution main pipe (8) is installed above the laminate (18) in the equipment cavity (12), a plurality of flow distribution main pipes (61) are installed at one end of the sewage pumping pipe (6) far away from the sewage pump (6) and are installed at a main pipe (7), a plurality of flow distribution main pipes (62) are installed at one end of the flow distribution main pipe (6) far away from one end of the sewage pumping pipe (8) and are installed at each electromagnetic ball valve (63).

6. The multifunctional lifting pump station for intelligent water treatment according to claim 5, wherein a sewage delivery pipe (71) is installed on the bottom wall of the diversion main pipe (7), one end of the sewage delivery pipe (71) far away from the diversion main pipe (7) is fixedly and hermetically connected with one end of the communicating pipe (4) located in the equipment cavity (12), and one end of the drain pipe (14) close to the equipment cavity (12) is fixedly installed on the side wall of the confluence main pipe (8).

7. The multifunctional lifting pump station for intelligent water treatment according to claim 6, wherein a plurality of backflow pipes (81) are installed on the bottom wall of the confluence main pipe (8), a grid network pipe (82) is installed at one end, close to the bottom of the sewage cavity (11), of the two partition plates (15), a plurality of backflow pipes (81) are far away from one end of the confluence main pipe (8) and extend into the sewage cavity (11) and are installed on the grid network pipe (82), and a plurality of impact holes (83) are uniformly formed in the bottom wall of the grid network pipe (82).

8. The multifunctional lifting pump station for intelligent water treatment according to claim 7, wherein a liquid level pipe (9) is installed on the side wall of the equipment cavity (12), the lower end of the liquid level pipe (9) extends into the sewage cavity (11) and is located at the bottom of the sewage cavity (11), a liquid level sensor (91) is installed at the upper end of the liquid level pipe (9), a constant pressure pipe (92) is installed on the side wall of the upper end of the liquid level pipe (9), and one end, away from the liquid level pipe (9), of the constant pressure pipe (92) extends into the sewage cavity (11) and is located above the sewage cavity (11).

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