CN113513463A - Running water pump station - Google Patents

Abstract

The utility model relates to an activated water pump station, including the base, the base is equipped with sludge pump package, water intake pump package and play water pump package, and the base is equipped with inlet tube and outlet pipe, and the inlet tube is connected with water intake pump package, and the outlet pipe is connected with a water pump package, and the lake bottom portion has buried many sludge pipes, and sludge pipe is connected with sludge pump package, and sludge pump package draws mud to the lakebed through sludge pipe, and the base still is equipped with the row's mud pipe that is used for discharging silt to silt processing mechanism department. This application has through into water pump package and go out the water pump package and carry out the artificial water circulation in to the pool lake in, with the silt of pool lake bottom of the lake through the cooperation of mud pump package and sludge pipe extract for the stagnant water in the pool lake is difficult for receiving the pollution of lake bottom silt once more after purifying through the artificial water circulation again, has improved the purification efficiency to pool lake stagnant water, has saved the energy that purifies the required consumption simultaneously, is favorable to energy-concerving and environment-protective effect.

Description

Running water pump station

Technical Field

The application relates to the field of water body remediation, in particular to a running water pump station.

Background

Along with the continuous aggravation of the urbanization process, the space in the city is continuously occupied, so that part of river channels flowing through the city are manually cut off due to building of buildings, great and small river creeks and ponds and lakes distributed in the city are finally formed, the flowability of the river channels in the city is poor, the self-purification capacity of the river channels is poor, the water in the cut river channels in the city is easy to pollute and difficult to self-purify after being polluted, and the water in the cut river channels in the city is easy to blacken and foul.

The common treatment method of the black and odorous water body is to construct a bidirectional water regulating pump station at the blocked river channel to perform artificial water circulation regulation on the blocked river channel, and to manually connect and circulate the running water and the dead water to treat the black and odorous water body.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: pollutant in the black and odorous water body can deposit and make the bed mud become silt in the bed mud of water, drive black and odorous water body circulation through the pump station and purify the back, and the pollutant in the silt can give off again and pollute the water in the water again for the purification rate of black and odorous water body is slower, and it is great to purify the required resource that consumes, is unfavorable for energy-concerving and environment-protective.

Disclosure of Invention

In order to solve and take out the black and odorous water body of accent through the pump station and carry out hydrologic cycle and purify the water energy and consume more problem, this application provides a running water pump station.

The application provides a running water pump station adopts following technical scheme:

the utility model provides an activated water pump station, includes the base, the base is provided with sludge pump package, intake pump package and play water pump package, the base still is provided with inlet tube and outlet pipe, the water inlet of inlet tube with the delivery port of outlet pipe is located the both ends in pond lake respectively, the inlet tube with intake pump package connects, the outlet pipe with it connects to go out the water pump package, and pond lake bottom has buried many sludge pipe underground, many sludge pipe all with sludge pump package connects, sludge pump package accessible sludge pipe takes out mud to the lakebed, the base still is provided with the mud pipe, the mud pipe is used for discharging silt to sludge handling mechanism department.

By adopting the technical scheme, when the artificial water circulation is carried out in the pond and lake through the water inlet pump set and the water outlet pump set, the sludge at the bottom of the pond and lake is extracted through the cooperation of the sludge pump set and the sludge pipe, so that the dead water in the pond and lake is not easily polluted by the sludge at the bottom of the pond and lake again after being purified through the artificial water circulation, the purification efficiency of the dead water in the pond and lake is improved, the energy required to be consumed for purification is saved, and the energy-saving and environment-friendly effects are achieved.

Optionally, the sludge pipe is including advancing mud pipe and transport pipe, the transport pipe be vertical and its upper end with arbitrary sludge pump of sludge pump package is connected, the lower extreme of transport pipe is through the vertical connecting pipe of sliding of sealing member installation, the lower extreme of connecting pipe with advance the lateral wall of mud pipe and be connected, advance the mud pipe lateral wall and seted up a plurality of mud holes of advancing.

Through adopting above-mentioned technical scheme, mud is taken out in a plurality of mud holes of advancing on the mud pipe of sludge pump accessible, and along with silt is extracted, the lakebed height in pond lake can reduce gradually, then makes into the mud pipe and also can sink thereupon through the complex transport pipe that slides and connecting pipe, and then makes into the mud pipe and be difficult for leading to unable extraction silt because unsettled.

Optionally, a plurality of mud feeding holes of the mud feeding pipe are uniformly distributed on two sides of the mud feeding pipe, the mud feeding pipe is provided with a plurality of insertion pipes in one-to-one correspondence with the mud feeding holes, one end of each insertion pipe is connected with the side wall of the mud feeding pipe, the insertion pipes cover the mud feeding holes in a plurality of one-to-one correspondence and are sealed, one end of each insertion pipe, facing away from the mud feeding pipe, is inclined towards the ground, and the lower end of the mud feeding pipe is in a pointed shape.

Through adopting above-mentioned technical scheme, advance the mud pipe and place back on silt, the intubate can insert the silt under the effect of the gravity of advancing the mud pipe, has improved the suction capacity of advancing the mud pipe to silt and has fixed advancing the position of mud pipe for advancing the mud pipe and be difficult for appearing removing because the undercurrent that the hydrologic cycle of pool lake produced, and then make into that the mud pipe is difficult for appearing deforming because of the displacement and lead to scrapping.

Optionally, the mud inlet pipe comprises a plurality of branch pipes, the connecting pipe is connected with any branch pipe, the plurality of insertion pipes are uniformly distributed on the plurality of branch pipes, the two ends of each branch pipe are coaxially provided with connecting rings, the mutual splicing position of the two branch pipes is provided with a first arc-shaped plate and a second arc-shaped plate which are made of elastic materials, the central angles of the first arc-shaped plate and the second arc-shaped plate are obtuse angles, the inner arc surface of the first arc-shaped plate is coaxially provided with an arc-shaped first fixing groove, the two ends of the first fixing groove in the length direction penetrate through the two end surfaces of the first arc-shaped plate in the length direction, when the two branch pipes are mutually spliced, the two connecting rings are mutually attached and abutted, the inner arc surface of the first arc-shaped plate is simultaneously attached and abutted against the side walls of the branch pipes, and the two connecting rings are fittingly embedded in the first fixing groove, the second arc-shaped plate is coaxially provided with an arc-shaped second fixing groove, the length direction of the second fixing groove penetrates through the two end faces of the length direction of the second arc-shaped plate, the inner arc face of the second arc-shaped plate is also attached to tightly support the two branch pipe side walls, and the first arc-shaped plate is embedded in the second fixing groove in a matching mode.

Through adopting above-mentioned technical scheme, will advance the mud pipe and divide into a plurality of branch pipes after, be convenient for advance the holistic transportation of mud pipe and installation, two branch pipes have increased the area of contact between two branch pipes through the go-between, the leakproofness after two branch pipes amalgamation has been increased, and the cooperation through first arc and second arc, when fixing two branch pipes, the junction to two go-between has been protected, make external silt be difficult for entering into the amalgamation department of two go-between and lead to the go-between wearing and tearing and deformation to appear, and then the leakproofness of go-between has been improved.

Optionally, the intrados of second arc is provided with the connecting block, the connecting block deviates from the third fixed slot has been seted up to the one side of second arc, works as first arc cooperation inlays to be established when in the second fixed slot, the connecting block with first arc amalgamates into the whole circle each other, the connecting block deviates from the one side laminating of second arc is supported tight two interconnect's branch pipe lateral wall, two interconnect the go-between is located one section cooperation outside the first fixed slot is inlayed and is established in the third fixed slot.

Through adopting above-mentioned technical scheme, first arc cooperation is inlayed and is established the back in the second fixed slot of second arc, cooperation between connecting block and the first arc makes and is difficult for appearing relative rotation between first arc and the second arc, and then makes first arc and second arc comparatively stable to the protection of two go-between, has further improved the protection degree to two go-between behind connecting block and the first arc amalgamation simultaneously, makes external silt more difficult for entering into between two go-between.

Optionally, one end of each branch pipe is stepped, the stepped end of each branch pipe can be in inserting fit with the other end of each branch pipe, a plurality of clamping teeth are circumferentially arranged on the opposite surfaces of the two connection rings of each branch pipe at intervals, and when the two branch pipes are inserted in a matched mode, the two connection rings are mutually attached and tightly abutted, and the two clamping teeth are mutually meshed.

Through adopting above-mentioned technical scheme, two branch pipes are after amalgamating each other, insert the complete end of another branch pipe through the cooperation of the one end of the echelonment of one branch pipe, have further increased the leakproofness of the junction of two branch pipes when further having increased the joint strength of two branch pipes, and the mutually meshing cooperation between the latch through two go-between makes the tuber pipe after two interconnect more difficult production relative rotation, and then has further improved the intensity of whole mud pipe.

Optionally, the inner wall of the port at one end of the branch pipe, which is far away from the insertion pipe, is provided with a plurality of separation rods which are parallel to each other, and the cross section of each separation rod is triangular, and the triangular tip of each separation rod faces the outer side of the insertion pipe.

Through adopting above-mentioned technical scheme, silt can be cut apart by the release lever when entering into the intubate for the intubate is inside difficult to be blockked up by the silt of big group when the extraction.

Optionally, the pivot is installed to the intraductal rotation of branch, the coaxial spiral of pivot is provided with the scraper blade, deviating from of scraper blade one side of pivot with the laminating butt of intraductal wall of branch.

Through adopting above-mentioned technical scheme, the scraper blade can rotate thereupon along with the transportation of silt and scrape the brush to the branch pipe inner wall for divide the difficult siltation silt layer of intraductal wall, and then make and divide the difficult jam that appears of pipe.

Optionally, the sealing member includes coaxial arrangement the sealed tube of conveying pipe lower extreme, the upper end cooperation of connecting pipe is slided and is passed the sealed tube cooperation is slided and is installed in the conveying pipe, the sealed tube inner wall is along its axis coaxial embedding and is equipped with a plurality of sealing washers, the sealing washer laminating is supported tightly the connecting pipe lateral wall.

Through adopting above-mentioned technical scheme, sealing washer and sealed tube cooperation slip cover are established the back on the connecting pipe for silt is difficult for revealing from the junction of connecting pipe and transport pipe more.

Optionally, the sludge in the branch pipe is transported in a direction from the flat end of the branch pipe to the stepped end of the branch pipe.

Through adopting above-mentioned technical scheme, silt is transported along above-mentioned direction for silt is difficult for entering into the junction of two spinal branch pipes in the transportation, and then makes the junction of two connecting pipes difficult by the silt rise and lead to revealing.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when the water inlet pump set and the water outlet pump set are used for carrying out artificial water circulation on the pond and lake, sludge at the bottom of the pond and lake is extracted through the cooperation of the sludge pump set and the sludge pipe, so that dead water in the pond and lake is not easily polluted again after being purified through the artificial water circulation, the purification efficiency of the dead water in the pond and lake is improved, energy sources required to be consumed for purification are saved, and the energy-saving and environment-friendly effects are achieved;

2. after the first arc-shaped plate is embedded in the second fixing groove of the second arc-shaped plate in a matching manner, relative rotation between the first arc-shaped plate and the second arc-shaped plate is not easy to occur through the matching between the connecting block and the first arc-shaped plate, so that the first arc-shaped plate and the second arc-shaped plate can stably protect the two connecting rings, and meanwhile, after the connecting block and the first arc-shaped plate are spliced, the protection degree of the two connecting rings is further improved, so that external silt is not easy to enter between the two connecting rings;

3. silt is transported along the above-mentioned direction for silt is difficult for entering into the junction of two branch pipes in the transportation, and then makes the junction of two connecting pipes difficult by silt rise to lead to revealing.

Drawings

Fig. 1 is a schematic perspective view of the present application.

Fig. 2 is a perspective view of the present application at the seal, with the seal tube cut away.

Fig. 3 is an exploded view of the junction of two veins according to the present application, with a second arc sectioned.

Figure 4 is a schematic cross-sectional view of a cannula of the present application.

Reference numerals: 1. a base; 11. a sludge pump set; 12. a water inlet pump set; 13. a water outlet pump set; 14. a water inlet pipe; 15. a water outlet pipe; 16. a sludge discharge pipe; 2. a sludge pipe; 21. a mud inlet pipe; 211. pipe distribution; 212. a mud inlet hole; 213. a connecting ring; 2131. clamping teeth; 22. a transport pipe; 3. a connecting pipe; 4. a first arc-shaped plate; 41. a first fixing groove; 5. a second arc-shaped plate; 51. a second fixing groove; 52. connecting blocks; 521. a third fixing groove; 6. inserting a tube; 61. a separating lever; 7. a seal member; 71. a sealing tube; 72. a seal ring; 8. a rotating shaft; 81. a scraper.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses a running water pump station, refer to fig. 1, including being barreled base 1, base 1 is by fixed mounting on the pontic in pond lake, and fixed mounting has water intake pump package 12, play water pump package 13 and sludge pump package 11 in the base 1, and base 1 fixed mounting has inlet tube 14 and outlet pipe 15. The water outlet pipe 15 is fixedly connected with the water outlet pump set 13, and the water outlet pump set 13 can discharge black and odorous water in the pond and lake into running water body through the water outlet pipe 15. The water inlet pipe 14 is fixedly connected with the water inlet pump set 12, and the water inlet pump set 12 can pump and adjust water in the running water body to the pond and lake through the water inlet pipe 14 to improve the water body of the pond and lake. Water circulation is formed between the lagoon and the running water body through the water inlet pump group 12 and the water outlet pump group 13.

Referring to fig. 1, the base 1 is further provided with a plurality of sludge pipes 2 and sludge discharge pipes 16, and the number of the sludge pipes 2 and the sludge discharge pipes 16 can be adjusted according to the size of the lagoon. The sludge pipe 2 comprises a conveying pipe 22 fixedly connected with a sludge pump in the sludge pump set 11, the conveying pipe 22 is vertical, and the lower end of the conveying pipe 22 penetrates through the bridge body and extends into black and odorous water in the pond and lake. The downside of transport pipe 22 is provided with into mud pipe 21, and it is constituteed by many mutual concatenations of minute pipe 211 to advance mud pipe 21, and one of them lateral wall top fixed mounting who divides pipe 211 has one to be vertical connecting pipe 3, and transport pipe 22's lower extreme passes through sealing member 7 to be connected with connecting pipe 3, and two mutually opposite ends that are located both ends of minute pipe 211 all are the closure. The sludge discharge pipe 16 is fixedly connected with the discharge end of the sludge pump.

Referring to fig. 1 and 2, the sealing member 7 includes a sealing tube 71 coaxially and fixedly installed at the lower end of the transporting tube 22, the upper end of the connecting tube 3 is slidably installed in the lower end of the transporting tube 22, and the lower end of the sealing tube 71 is slidably engaged with the side wall of the connecting tube 3. Three sealing rings 72 are coaxially and fixedly embedded and installed on the inner wall of the sealing pipe 71 along the axis of the sealing pipe, and the sealing rings 72 are attached to and tightly abut against the side wall of the connecting pipe 3.

Referring to fig. 1 and 3, one end of the branch pipe 211 is stepped and can be matched with the other end of the branch pipe 211 in an inserting manner, the two ends of the branch pipe 211 are coaxially and integrally fixedly provided with the connecting rings 213, the connecting rings 213 can be flange plates, and the opposite surfaces of the two connecting rings 213 of the same branch pipe 211 are coaxially and circumferentially integrally provided with the latch 2131 which is matched with each other. The disk surface of the connecting ring 213 at the stepped end of the branch pipe 211 is flush with the stepped surface, and the disk surface of the connecting ring 213 at the other end of the branch pipe 211 is flush with the end surface of the branch pipe 211.

Referring to fig. 1 and 3, a first arc-shaped plate 4 and a second arc-shaped plate 5 made of stainless steel are arranged at the joint of the two branch pipes 211, and central angles of the first arc-shaped plate 4 and the second arc-shaped plate 5 are obtuse angles. The inner arc surface of the first arc-shaped plate 4 is provided with a first fixing groove 41 which is arc-shaped, and the first fixing groove 41 is coaxial with the first arc-shaped plate 4. When the step end of one branch pipe 211 is inserted into the complete end of the other branch pipe 211 in a matching manner, the two connecting rings 213 of the two branch pipes 211 are tightly attached to each other, the latch 2131 of the two connecting rings 213 are mutually centered, the inner arc surface of the first arc-shaped plate 4 is tightly attached to the side walls of the two branch pipes 211, and the two connecting rings 213 which are tightly attached to each other are embedded in the first fixing groove 41 in a matching manner.

Referring to fig. 1 and 3, the inner arc surface of the second arc-shaped plate 5 is provided with a second fixing groove 51 which is arc-shaped, the second fixing groove 51 is coaxial with the second arc-shaped plate 5, a connecting block 52 is integrally arranged at the center of the inner arc surface of the second arc-shaped plate 5, one surface of the connecting block 52 deviating from the second arc-shaped plate 5 is provided with a third fixing groove 521 which is arc-shaped, the third fixing groove 521 is coaxial with the second arc-shaped plate 5, and two end faces of the connecting block 52 are penetrated through two ends of the third fixing groove 521. The inner arc surface of the second arc-shaped plate 5 is also attached to and tightly supports the side walls of the two branch pipes 211, the first arc-shaped plate 4 is embedded in the second fixing groove 51 in a matching mode, and the gap of the first arc-shaped plate is matched with the connecting block 52 in a matching mode. One surface of the connecting block 52 departing from the second arc-shaped plate 5 is attached to and tightly abut against the side walls in the two branch pipes 211, and a section of the two connecting rings 213 which is not surrounded by the first arc-shaped plate 4 is embedded in the third fixing groove 521 in a matching manner.

Referring to fig. 1 and 3, the side wall of the branch pipe 211 is provided with four mud inlet holes 212, the four mud inlet holes 212 are uniformly distributed on the side wall of the branch pipe 211 along the axis of the branch pipe 211, the branch pipe 211 is further provided with four insertion pipes 6, one end of each insertion pipe 6 is in a sharp-pointed shape, one flat end of the branch pipe 211 is respectively and correspondingly installed in the four mud inlet holes 212 in a threaded manner, and two corresponding branch pipes 211 are in a diffusion distribution manner. After many minute pipes 211 with above-mentioned mode interconnect and sink into black smelly water, during every four intubate 6 of minute pipe 211 all inserted silt, when having improved the adsorption efficiency to silt, fixed minute pipe 211, prevent to divide pipe 211 to be driven by rivers and remove when extracting artifical hydrologic cycle to black smelly water, and then lead to two junctions that divide pipe 211 to produce and warp.

Referring to fig. 1 and 3, every is divided and all rotates in the pipe 211 and installs a pivot 8, spiral fixed mounting has scraper blade 81 in the pivot 8, scraper blade 81 deviates from one side of pivot 8 and is divided the laminating butt of pipe 211 inner wall, mud in the branch pipe 211 can promote pivot 8 and scraper blade 81 and rotate when flowing, pivoted scraper blade 81 can be divided the pipe 211 inner wall and scrape the brush in order to prevent to lead to dividing the pipe 211 to block up because it glues silt on the pipe 211 inner wall to divide, mud flows along the direction that divides the complete end of pipe 211 to divide the pipe 211 ladder end simultaneously, make mud be difficult for revealing from the junction of two branch pipes 211.

Referring to fig. 1 and 4, three parallel separating rods 61 are arranged inside one end of the insertion tube 6 away from the branch tube 211, two ends of each separating rod 61 are fixedly connected with the inner wall of the insertion tube 6, and the cross section of each separating rod 61 is triangular and any sharp corner of each triangle faces the inlet end of the insertion tube 6.

The implementation principle of a running water pump station in the embodiment of the application is as follows:

after transporting many branch pipes 211 to pond lake department, mutually support to insert two branch pipes 211 and establish the concatenation, establish first arc 4 card in the junction of two branch pipes 211 and make two branch pipes 211 laminate each other and support two go-between 213 of tightly and all cooperate the inlay to establish in first fixed slot 41 of first arc 4 after, establish the back with second arc 5 and the cooperation card of first arc 4 again, accomplish two connection that divide pipes 211, and make two branch pipes 211 difficult interrotation form fixedly after mutually supporting through latch 2131 on two go-between 213. After all the branch pipes 211 are connected in the above manner, the connecting pipes 3 on the branch pipes 211 are inserted into the transporting pipe 22, and finally the mud inlet pipe 21 composed of a plurality of branch pipes 211 is sunk to the bottom of the water.

The mud is taken out to the start sludge pump, and silt is when being transported along the minute pipe 211, at first can be cut apart by three separator rods 61 of 6 mouths of intubate, then can promote pivot 8 and the scraper blade 81 rotation in the minute pipe 211, transports along scraper blade 81, and scraper blade 81 can scrape the brush to minute pipe 211 inner wall, and the silt of carrying out the transportation along scraper blade 81 is difficult for dying in minute pipe 211.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a running water pump station, includes base (1), base (1) is provided with sludge pump package (11), intakes pump package (12) and goes out water pump package (13), base (1) still is provided with inlet tube (14) and outlet pipe (15), the water inlet of inlet tube (14) with the delivery port of outlet pipe (15) is located the both ends in pond lake respectively, inlet tube (14) with intake pump package (12) are connected, outlet pipe (15) with it connects its characterized in that to go out water pump package (13): a plurality of sludge pipes (2) are buried at the bottom of a pond lake, the sludge pipes (2) are connected with a sludge pump set (11), the sludge pump set (11) can be used for pumping sludge from the bottom of the pond lake through the sludge pipes (2), a sludge discharge pipe (16) is further arranged on the base (1), and the sludge discharge pipe (16) is used for discharging sludge to a sludge treatment mechanism.

2. The running water pump station according to claim 1, characterized in that: sludge pipe (2) are including advancing mud pipe (21) and transport pipe (22), transport pipe (22) be vertical and its upper end with arbitrary sludge pump of sludge pump package (11) is connected, the lower extreme of transport pipe (22) is through sealing member (7) vertical slip install connecting pipe (3), the lower extreme of connecting pipe (3) with advance the lateral wall of mud pipe (21) and connect, advance mud pipe (21) lateral wall and seted up a plurality of mud holes (212) of advancing.

3. The running water pump station according to claim 2, characterized in that: advance a plurality of mud holes (212) evenly distributed of mud pipe (21) advance the both sides of mud pipe (21), advance mud pipe (21) be provided with many with advance intubate (6) of mud hole (212) one-to-one, the one end of intubate (6) with the lateral wall of advancing mud pipe (21) is connected and many intubate (6) will be a plurality of advance mud hole (212) one-to-one cover and seal, intubate (6) are kept away from the one end orientation of advancing mud pipe (21) is kept away from advance mud pipe (21) and ground direction slope, the lower extreme of advancing mud pipe (21) is the point thorn form.

4. The running water pump station according to claim 3, characterized in that: the mud feeding pipe (21) comprises a plurality of branch pipes (211), the connecting pipe (3) is connected with any one of the branch pipes (211), a plurality of inserting pipes (6) are uniformly distributed on the branch pipes (211), connecting rings (213) are coaxially arranged at two ends of each branch pipe (211), a first arc-shaped plate (4) and a second arc-shaped plate (5) which are made of elastic materials are arranged at the mutual splicing position of the two branch pipes (211), central angles of the first arc-shaped plate (4) and the second arc-shaped plate (5) are obtuse angles, a first arc-shaped fixing groove (41) which is arc-shaped is coaxially arranged on the inner arc surface of the first arc-shaped plate (4), two ends of the length direction of the first fixing groove (41) penetrate through two end faces of the length direction of the first arc-shaped plate (4), when the two branch pipes (211) are spliced mutually, the two connecting rings (213) are mutually attached and abutted, the intrados of first arc (4) is laminated simultaneously and is supported tightly two divide pipe (211) lateral wall and two go-between (213) cooperation to inlay and establish in first fixed slot (41), second arc (5) are coaxial to be seted up and are curved second fixed slot (51), the length direction of second fixed slot (51) will the length direction's of second arc (5) both ends face runs through, the intrados of second arc (5) also laminates simultaneously and supports tightly two divide pipe (211) lateral wall just first arc (4) cooperation is inlayed and is established in second fixed slot (51).

5. The running water pump station according to claim 4, characterized in that: the intrados of second arc (5) is provided with connecting block (52), connecting block (52) deviate from third fixed slot (521) have been seted up to the one side of second arc (5), work as first arc (4) cooperation is inlayed and is established during second fixed slot (51), connecting block (52) with first arc (4) amalgamation whole circle each other, connecting block (52) deviate from the one side laminating of second arc (5) supports tight two interconnect's branch pipe (211) lateral wall, two interconnect go-between (213) are located one section cooperation outside first fixed slot (41) is inlayed and is established in third fixed slot (521).

6. The running water pump station according to claim 4, characterized in that: one end of the branch pipe (211) is in a step shape, one end of the branch pipe (211) in the step shape can be matched with the other end of the branch pipe (211) in an inserting mode, a plurality of clamping teeth (2131) are arranged on the back faces of the two connecting rings (213) of the branch pipe (211) at intervals in the circumferential direction, when the two branch pipes (211) are inserted in a matched mode, the two connecting rings (213) are attached to each other and tightly abut against each other, and the clamping teeth (2131) of the two connecting rings are meshed with each other.

7. The running water pump station according to claim 4, characterized in that: the port inner wall of the one end of the branch pipe (211) is provided with a plurality of separating rods (61) which are parallel to each other, and the cross section of each separating rod (61) is triangular, and the triangular tip faces the outer side of the insertion pipe (6).

8. The running water pump station according to claim 4, characterized in that: rotating shaft (8) are installed to minute pipe (211) internal rotation, the coaxial spiral of rotating shaft (8) is provided with scraper blade (81), deviating from of scraper blade (81) one side of rotating shaft (8) with minute pipe (211) inner wall laminating butt.

9. The running water pump station according to claim 4, characterized in that: sealing member (7) are including coaxial arrangement transport pipe (22) lower extreme sealing tube (71), the upper end cooperation of connecting pipe (3) is slided and is passed sealing tube (71) cooperation is slided and is installed in transport pipe (22), sealing tube (71) inner wall is along its axis coaxial embedding be equipped with a plurality of sealing washer (72), sealing washer (72) laminating is supported tightly connecting pipe (3) lateral wall.

10. The running water pump station according to claim 6, characterized in that: and the sludge in the branch pipe (211) is transported along the direction from the flat end of the branch pipe (211) to the stepped end of the branch pipe (211).

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