CN112979138B - Multi-point self-collection type urban pipeline sludge treatment system - Google Patents

Abstract

The invention provides a multi-point self-collection type urban pipeline sludge treatment system, which comprises a water inlet pipe, wherein one end of the water inlet pipe is detachably connected with the middle part of a first connecting pipe, a first control valve is arranged above and below the first connecting pipe, two ends of the first connecting pipe are detachably connected with a second connecting pipe, one end of the second connecting pipe is detachably connected with a sludge treatment tank, a sludge pumping assembly is arranged in the sludge treatment tank, and one side of the sludge pumping assembly is detachably connected with a drying treatment assembly; the other end of the sludge treatment tank is detachably connected with a third connecting pipe, the third connecting pipe is detachably connected with a fourth connecting pipe, the fourth connecting pipe is detachably connected with another third connecting pipe, two second control valves are arranged on the fourth connecting pipe, and the middle part of the fourth connecting pipe is detachably connected with a water outlet pipe; the water inlet pipe, the water outlet pipe, the second connecting pipe and the third connecting pipe are all internally provided with movable sludge stirring components. According to the invention, firstly, the movable sludge crushing assembly is used for crushing the sludge in the pipeline, and the sludge is pumped out and discharged through the sludge pumping assembly.

Description

Multi-point self-collection type urban pipeline sludge treatment system

Technical Field

The invention relates to the technical field of municipal sewage treatment, in particular to a multi-point self-collection type municipal pipeline sludge treatment system.

Background

Urban sewage is domestic sewage, industrial wastewater and runoff sewage in urban areas. Is generally collected by urban pipelines and is discharged into water after being treated by urban sewage treatment plants. Besides a large amount of organic matters, germs and viruses, the urban sewage is increasingly complex in water quality and serious in pollution of runoff sewage due to the high development of industry, wherein the water quantity of the industrial sewage (about 60-80% of the total amount of the urban sewage) is gradually increased, so that the urban sewage contains various toxic and harmful pollutants with various types and different degrees. The treatment of urban sewage relates to a plurality of aspects, and the sewage system, the position and the treatment process of a sewage treatment plant, the utilization and emission requirements of the treated sewage and the like are required to be comprehensively planned.

An existing municipal sewage treatment method for implementing sludge reduction by utilizing a municipal sewage pipe network, such as patent No. CN200810064772.6, relates to a sludge reduction method. It solves the problems of large occupied area, wide pollution range and high treatment cost of the existing sludge treatment. According to the invention, a sludge conveying pipeline is arranged between a sewage treatment plant and an inspection well of an urban sewage pipe network, and microbial cells in sludge in the sludge conveying pipeline are crushed on the sludge conveying pipeline; a bioreactor is arranged on a municipal sewage main pipe or a main pipe, aeration is applied to an inspection well and the bioreactor, and sludge after being crushed and reduced by the bioreactor is input into a sewage treatment plant. Compared with the traditional urban sewage treatment method, the method has the advantages of low cost, small investment, high efficiency and good treatment effect, reduces the burden of the subsequent treatment process, reduces the volume of the subsequent treatment structure and the engineering cost, and under the proper condition, the sludge can be increased zero or even increased negatively, and the sludge is reduced effectively.

However, when the existing official net is used for treatment, the sludge in the inspection well is pumped away only through the sludge conveying assembly, so that the sludge in the pipeline cannot be discharged, and the pumped-away sludge cannot be subjected to secondary treatment.

Disclosure of Invention

The invention provides a multi-point self-collection type urban pipeline sludge treatment system, which is used for solving the technical problems that sludge in a repair well can not be removed and the pumped sludge can not be subjected to secondary treatment only through a sludge conveying assembly when the existing official network is used for treatment.

In order to achieve the above purpose, the present invention provides the following technical solutions: the multi-point self-collection type urban pipeline sludge treatment system comprises a water inlet pipe, wherein one end of the water inlet pipe is detachably connected with the middle part of a first connecting pipe, a first control valve is arranged above and below the first connecting pipe, two ends of the first connecting pipe are detachably connected with a second connecting pipe, one end of the second connecting pipe is detachably connected with a sludge treatment tank, a sludge pumping assembly is arranged in the sludge treatment tank, and one side of the sludge pumping assembly is detachably connected with a drying treatment assembly;

the other end of the sludge treatment tank is detachably connected with a third connecting pipe, the third connecting pipe is detachably connected with a fourth connecting pipe, the fourth connecting pipe is detachably connected with another third connecting pipe, two second control valves are arranged on the fourth connecting pipe, and the middle part of the fourth connecting pipe is detachably connected with a water outlet pipe;

the water inlet pipe, the water outlet pipe, the second connecting pipe and the third connecting pipe are internally provided with movable sludge stirring components.

Further, the mud pumping assembly comprises a material sucking structure, a fifth connecting pipe is detachably connected to one side of the material sucking structure, a sixth connecting pipe is slidably connected to the lower end of the fifth connecting pipe, a rubber pad is arranged on the outer side of the fifth connecting pipe, the rubber pad is in extrusion connection with the inner wall of the sixth connecting pipe, a lifting structure is arranged on the outer side of the sixth connecting pipe, the fifth connecting pipe is detachably connected to the lifting structure, a reaction tank is detachably connected to the lower side of the sixth connecting pipe, a pneumatic turning assembly is arranged in the reaction tank, three first supporting rods are detachably connected to the lower end of the reaction tank, lifting assemblies are arranged on the first supporting rods, sealing plates are detachably connected to the upper ends of the lifting assemblies, the sealing plates are slidably connected to the bottom of the reaction tank, and vibration breaking assemblies are arranged on the first supporting rods.

Further, inhale material structure includes the seventh connecting pipe, seventh connecting pipe upper end is equipped with first driving motor, first driving motor drive shaft connection first dwang, the first dwang outside is equipped with the helicoid, helicoid screwed connection seventh connecting pipe inner wall, seventh connecting pipe upper end one side can be dismantled and connect the fifth connecting pipe, the connection air pump can be dismantled in the retort outside, the connection first hose can be dismantled to the air pump upper end, the connection retort can be dismantled to first hose upper end.

Further, the lifting structure comprises two first supporting plates, the upper ends of the first supporting plates are respectively connected with a first screw rod and a first sliding rod through bearings, the outer side of the fifth connecting pipe is detachably connected with a first connecting disc, the first screw rod and the first sliding rod are rotationally connected with the first connecting disc, and one side of the first connecting disc is provided with a second driving motor which is connected with the first screw rod through a driving shaft.

Further, the pneumatic turnover assembly comprises a second supporting plate, second supporting plate sliding connection the retort inner wall, second supporting plate top is type "round platform" setting, second supporting plate below is equipped with eighth connecting pipe, the second supporting plate lower extreme is equipped with third driving motor, third driving motor drive shaft connection second dwang, the second rotates the slide bar outside and is equipped with a plurality of profile of tooth discs, be equipped with a plurality of first connecting holes on the eighth connecting pipe, first connecting hole sliding connection ninth connecting pipe, the ninth connecting pipe outside is equipped with the second profile of tooth structure, profile of tooth disc interlock is connected the second profile of tooth structure, the connection closing plate can be dismantled to eighth connecting pipe lower extreme, the closing plate outside is equipped with the rubber ring, rubber ring sliding connection the retort inner wall, the closing plate lower extreme can dismantle and connect the second hose, second hose one end can dismantle and connect eighth connecting pipe, the second hose other end can connect the first hose, just be equipped with first air valve on the second hose.

Further, the retort inboard is equipped with the funnel structure, funnel structure top the connection second bracing piece can be dismantled in the retort, second bracing piece below is equipped with second lead screw and second slide bar, just be equipped with fourth driving motor on the second bracing piece, fourth driving motor drive shaft connection the second lead screw, the second lead screw with the clamp plate is connected in the rotation of second slide bar, the clamp plate extrusion connection the funnel inner port, just the clamp plate upper and lower extreme all is "round platform" type setting, the first connecting barrel can be dismantled in the retort outside, the filter core can be dismantled to the first connecting barrel inboard, the third hose can be dismantled to connect in first connecting barrel upper end, the third hose can dismantle connect in retort inboard top, just first connecting barrel below can dismantle connect the second closing plate, the fourth hose can be dismantled to connect to the fourth hose, be equipped with the second air valve on the fourth hose, just be equipped with the retort inner wall heating dish.

Further, shake garrulous subassembly including third lead screw and third slide bar, one side is two all be equipped with first connecting hole on the first bracing piece, one side first connecting hole one side bearing connection first rotary disk, first rotary disk internal orifice spiral interlock is connected the third lead screw, the third lead screw with first connecting strip is connected to third slide bar one end bearing, the first bracing piece outside is equipped with fourth driving motor, fourth driving motor interlock is connected first rotary disk, just first connecting strip one side symmetry is equipped with two second cylinders, two second cylinder one end can dismantle the connection second connecting strip.

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

1. according to the sewage treatment device, sewage firstly enters from the water inlet pipe, one end of the water inlet pipe is connected with the first connecting pipe, two ends of the first connecting pipe are detachably connected with the second connecting pipe, one end of the second connecting pipe is detachably connected with the sludge treatment tank, and the first connecting pipe is provided with the electromagnetic valve, so that the flow direction of the water is changed by using the two first electromagnetic valves;

the water inlet pipe, the second connecting pipe, the third connecting pipe and the water outlet pipe are respectively provided with a movable sludge crushing assembly, the movable sludge crushing assembly is utilized to crush sludge in the pipeline, and the sludge is discharged into a sludge treatment tank;

then, when the sludge is discharged through the sludge pumping assembly, the first driving motor rotates to drive the first rotating rod to rotate, the corresponding spiral blade rotates, and the air pump sucks air at the same time, so that the sludge guides water into the reaction tank through the seventh connecting pipe, the fifth connecting pipe and the sixth connecting pipe;

the pneumatic stirring assembly is used for stirring mud, and the drying treatment assembly is used for absorbing gas generated by heating, so that the mud is dried, the mud is lowered to a designated position through the lifting assembly after the drying is finished, and the dried mud is smashed through the vibrating assembly and is collected.

Drawings

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

FIG. 2 is a schematic view of the construction of the mud pumping assembly of the present invention;

FIG. 3 is a schematic drawing of the suction structure of the present invention;

FIG. 4 is a schematic view of a lifting structure according to the present invention;

FIG. 5 is a schematic view of a drying process assembly according to the present invention;

FIG. 6 is a schematic view of the pneumatic flip assembly of the present invention;

FIG. 7 is a schematic view of the structure of the shatter assembly of the present invention;

FIG. 8 is a schematic view of a mobile sludge mashing assembly of the present invention;

fig. 9 is a schematic view of a second web connection of the present invention.

In the figure: 1. a water inlet pipe; 2. a first connection pipe; 21. a first control valve; 22. a second connection pipe; 3. a sludge treatment tank; 4. a mud pumping assembly; 41. a material sucking structure; 411. a seventh connection pipe; 412. a first driving motor; 413. a first rotating lever; 414. spiral leaves; 415. an air pump; 416. a first hose; 42. a fifth connection pipe; 43. a sixth connection pipe; 431. a reaction tank; 44. a lifting structure; 441. a first support plate; 442. a first screw rod; 443. a first slide bar; 444. a first connection plate; 445. a second driving motor; 446. a heating plate; 45. pneumatic flipping assembly; 451. a second support plate; 452. an eighth connection pipe; 453. a third driving motor; 454. a second rotating lever; 455. a toothed disc; 456. a first connection hole; 457. a ninth connection pipe; 458. a second tooth structure; 46. a first support bar; 461. a second connection hole; 47. a lifting assembly; 471. a third support plate; 472. a fourth screw rod; 473. a fourth slide bar; 474. a fifth driving motor; 48. a sealing plate; 481. a second hose; 482. a first air valve; 483. a rubber ring; 49. a shattering assembly; 491. a third screw rod; 492. a third slide bar; 493. a first rotating disk; 494. a first connecting bar; 495. an eighth driving motor; 496. a second cylinder; 497. a second connecting bar; 5. a drying treatment assembly; 51. a funnel structure; 52. a second support bar; 53. a second screw rod; 54. a second slide bar; 55. a fourth driving motor; 56. a pressing plate; 57. a first connection tub; 571. a third hose; 58. a filter element; 59. a second sealing plate; 591. a fourth hose; 592. a second air valve; 6. a third connection pipe; 61. a fourth connection pipe; 62. a second control valve; 7. a water outlet pipe; 8. a mobile silt-mashing assembly; 81. a first support bar; 82. a second support bar; 83. a second chute; 84. t-shaped plates; 841. a T-shaped groove; 85. a first electric telescopic rod; 86. a first connection plate; 861. a third chute; 862. a roller; 863. a seventh driving motor; 87. a second connecting plate; 871. a fourth chute; 872. a third rotating lever; 873. a first connection block; 874. a sixth driving motor; 875. a fourth rotating lever; 876. a stirring rod; 877. a first spring; 88. a third connecting plate; 881. a second electric telescopic rod; 89. a fourth connecting plate; 891. a third electric telescopic rod; 892. and the first limiting plate.

Detailed Description

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

1-9, please focus on the multi-point self-collection type urban pipeline sludge treatment system, which comprises a water inlet pipe 1, wherein one end of the water inlet pipe 1 is detachably connected with the middle part of a first connecting pipe 2, a first control valve 21 is arranged above and below the first connecting pipe 2, two ends of the first connecting pipe 2 are detachably connected with a second connecting pipe 22, one end of the second connecting pipe 22 is detachably connected with a sludge treatment tank 3, a sludge pumping assembly 4 is arranged in the sludge treatment tank 3, and one side of the sludge pumping assembly 4 is detachably connected with a drying treatment assembly 5;

the other end of the sludge treatment tank 3 is detachably connected with a third connecting pipe 6, the third connecting pipe 6 is detachably connected with a fourth connecting pipe 61, the fourth connecting pipe 61 is detachably connected with another third connecting pipe 6, two second control valves 62 are arranged on the fourth connecting pipe 61, and the middle part of the fourth connecting pipe 61 is detachably connected with a water outlet pipe 7;

the water inlet pipe 1, the water outlet pipe 7, the second connecting pipe 22 and the third connecting pipe 6 are respectively provided with a movable sludge stirring assembly 8.

Referring to fig. 2-4, the mud pumping assembly 4 includes a suction structure 41, one side of the suction structure 41 is detachably connected with a fifth connecting pipe 42, the lower end of the fifth connecting pipe 42 is slidably connected with a sixth connecting pipe 43, a rubber pad 421 is disposed on the outer side of the fifth connecting pipe 42, the rubber pad 421 is in extrusion connection with the inner wall of the sixth connecting pipe 43, a lifting structure 44 is disposed on the outer side of the sixth connecting pipe 43, the lifting structure 44 is detachably connected with the fifth connecting pipe 42, the lower side of the sixth connecting pipe 43 is detachably connected with a reaction tank 431, a pneumatic turning assembly 45 is disposed in the reaction tank 431, the lower end of the reaction tank 431 is detachably connected with three first support rods 46, lifting assemblies 47 are disposed on the three first support rods 46, the upper end of the lifting assembly 47 is detachably connected with a sealing plate 48, the sealing plate 48 is slidably connected with the bottom of the reaction tank 44, the four first support rods 46 are provided with vibration breaking assemblies 49, the material absorbing structure 41 comprises a seventh connection tube 411, the upper end of the seventh connection tube 411 is provided with a first driving motor 412, the driving shaft of the first driving motor 412 is connected with a first rotating rod 413, the outer side of the first rotating rod 413 is provided with a spiral blade 414, the spiral blade 414 is spirally connected with the inner wall of the seventh connection tube 411, one side of the upper end of the seventh connection tube 411 is detachably connected with the fifth connection tube 42, the outer side of the reaction tank 44 is detachably connected with an air pump 415, the upper end of the air pump 415 is detachably connected with a first hose 416, the upper end of the first hose 416 is detachably connected with the reaction tank 431, the lifting structure 44 comprises two first support plates 441, the upper ends of the two first support plates 441 are respectively connected with a first lead screw 442 and a first slide bar 443 in a bearing manner, the utility model provides a flexible hose, including first connecting plate 444, first lead screw 442 and first slide bar 443 all rotate to be connected first connecting plate 444, and one side be equipped with second driving motor 445 drive shaft connection first lead screw 442 on the first backup pad 441, pneumatic flip subassembly 45 includes second backup pad 451, second backup pad 451 sliding connection the retort 431 inner wall, second backup pad 451 top is the setting of type "round platform", second backup pad 451 below is equipped with eighth connecting pipe 452, second backup pad 451 lower extreme is equipped with third driving motor 453, third driving motor 453 drive shaft connection second dwang 454, the second dwang 454 outside is equipped with a plurality of profile of tooth discs 455, be equipped with a plurality of first connecting holes 456 on the eighth connecting pipe 452, first connecting hole 456 sliding connection ninth connecting pipe 451, the ninth outside is equipped with second profile of tooth structure 458, profile of tooth disc snap connection second profile of tooth structure 452, eighth connecting pipe 481 lower extreme is equipped with the flexible hose 481, second sealing plate 481 can be dismantled, second sealing plate 481 end is equipped with the flexible hose 48, sealing plate 481 can be dismantled, flexible hose 481 is connected with the second sealing plate 48, flexible hose 481 is connected with the second sealing plate 481.

Please refer to fig. 5, the drying process assembly 5 includes a funnel structure 51, the funnel structure 51 is detachably connected to an inner wall of the reaction tank 431, a second support rod 52 is detachably connected to an upper portion of the funnel structure 51 in the reaction tank 431, a second screw rod 53 and a second slide rod 54 are disposed below the second support rod 52, a fourth driving motor 55 is disposed on the second support rod 52, a driving shaft of the fourth driving motor 55 is connected to the second screw rod 53, the second screw rod 53 and the second slide rod 54 rotate a connecting platen 56, the platen 56 is in extrusion connection with an inner opening of the funnel structure 51, upper and lower ends of the platen 56 are all in a truncated cone-like arrangement, a first connecting barrel 57 is detachably connected to an outer side of the reaction tank 431, a filter core 58 is detachably connected to an inner side of the first connecting barrel 57, a third hose 571 is detachably connected to an upper portion of the inner side of the reaction tank 431, a fourth hose 571 is detachably connected to an inner side of the first connecting barrel 57, a fourth hose 5959 is disposed below the first connecting barrel 57, a fourth hose 5959 is detachably connected to an inner wall 591 of the second hose 5959, and a fourth sealing plate 5959 is disposed on an inner wall 591 of the second hose 591 is detachably connected to the second hose 591.

Referring to fig. 1, the lifting assembly 47 includes a third supporting plate 471, a fourth screw rod 472 and a fourth sliding rod 473 are connected to the third supporting plate 471 by bearings, the fourth screw rod 472 and the fourth sliding rod 473 are both rotatably connected to the sealing plate 48, a fifth driving motor 474 is disposed on the third supporting plate 471, and the fifth driving motor 474 is connected to the fourth screw rod 472 by a driving shaft.

Referring to fig. 7, the shatter assembly 49 includes a third screw rod 491 and a third sliding rod 492, two first supporting rods 46 are provided with second connecting holes 461 on one side, one side of each of the first supporting rods 46 is connected with a first rotating disk 493 through a bearing on one side of each of the second connecting holes 461, an inner opening of each of the first rotating disks 493 is connected with the third screw rod 491 through a screw engagement, the third screw rod 491 and one end of each of the third sliding rods 4932 are connected with a first connecting strip 494 through a bearing, an eighth driving motor 495 is arranged on the outer side of each of the first supporting rods 46, the eighth driving motor 495 is connected with the first rotating disk 493 through an engagement, two second cylinders 496 are symmetrically arranged on one side of each of the first connecting strips 494, and one ends of the two second cylinders 496 are detachably connected with the second connecting strips 497.

Referring to fig. 8-9, the movable sludge crushing assembly 8 includes two first supporting bars 81, two first supporting bars 81 are detachably connected to the inner walls of the water inlet pipe 1, the water outlet pipe 7, the second connecting pipe 22 or the third connecting pipe 6, two second supporting bars 82 are detachably connected between the two first supporting bars 81, a second sliding groove 83 is arranged above the second supporting bars 82, a T-shaped plate 84 is slidably connected in the second sliding groove 83, four first electric telescopic rods 85 are symmetrically arranged at two ends of the T-shaped plate 84, one ends of the four first electric telescopic rods 85 are detachably connected with a first connecting plate 86, one side of the first connecting plate 86 is provided with a third sliding groove 861, a plurality of rollers 862 are connected in bearings in the third sliding groove 861, one ends of the rollers 862 are detachably connected with a seventh driving motor 863, the seventh driving motor 863 is detachably connected with the first connecting plate 86, two second connecting plates 87 are symmetrically arranged below the T-shaped plate 84, a fourth sliding groove 871 is arranged below the second connecting plates 87, two third rotating rods 872 are connected in the fourth sliding groove 871 through symmetrical bearings, one ends of the two third rotating rods 872 are detachably connected with a first connecting block 873, a sixth driving motor 874 is arranged on the first connecting block 873, a driving shaft of the sixth driving motor 874 is connected with a fourth rotating rod 875, a plurality of stirring rods 876 are arranged outside the fourth rotating rod 875, a first spring 877 is arranged outside the third rotating rod 872, the other ends of the first springs 877 are detachably connected with the second connecting plates 87, a third connecting plate 88 is arranged on the water inlet pipe 1, the water outlet pipe 7, the second connecting pipe 22 or the third connecting pipe 6, two second electric telescopic rods 881 are symmetrically arranged below the third connecting plate 88, the second electric telescopic rod 881 lower extreme can dismantle and connect fourth connecting plate 89, four third electric telescopic rod 891 can be dismantled to fourth connecting plate 89 both sides, four first limiting plate 892 can be dismantled to third electric telescopic rod 891 one end, T template 84 top is equipped with T type groove 841, first limiting plate 892 sliding connection T type groove 841.

Principle of operation: the method comprises the steps of firstly, introducing precipitation through a water inlet pipe, and when one side of the sludge treatment tank is used for treatment, controlling the introduction of one side of the sludge treatment tank water through a first control valve;

then the movable sludge crushing assembly is used for crushing the sludge, and the seventh driving motor is used for rotating to drive the roller to correspondingly rotate, so that the T-shaped plate is moved;

meanwhile, the sixth driving motor rotates to drive the fourth rotating rod to rotate, so that the stirring rod is driven to stir correspondingly, and the scattering of sludge is realized;

the first rotating rod is driven to rotate through the rotation of the first driving motor, so that the spiral blade is driven to absorb sludge in the sludge pond, and meanwhile, the air pump is operated to pump air from the reaction tank through the first hose, so that the fifth connecting pipe is absorbed, and the feeding of the sludge is enlarged;

the eighth connecting pipe is inflated through the movement of the air pump, and then air is discharged through the ninth connecting pipe, so that the sludge is turned over, the second screw rod is driven to rotate through the rotation of the fourth driving motor, the pressing plate is connected to extrude the compact funnel structure,

the air is sucked through the air pump, so that the first connecting barrel is sucked, the discharged air is filtered by the filter element and then discharged, the discharged air does not pollute the environment, and the reaction tank is heated;

finally, the fifth driving motor rotates to drive the fourth screw rod to rotate, thereby realizing the downward movement of the sealing plate,

although embodiments of the 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 (7)

1. Multi-point self-collection type urban pipeline sludge treatment system comprises a water inlet pipe (1), and is characterized in that: one end of the water inlet pipe (1) is detachably connected with the middle part of the first connecting pipe (2), a first control valve (21) is arranged above and below the first connecting pipe (2), two ends of the first connecting pipe (2) are detachably connected with the second connecting pipe (22), one end of the second connecting pipe (22) is detachably connected with the sludge treatment tank (3), a sludge pumping assembly (4) is arranged in the sludge treatment tank (3), and one side of the sludge pumping assembly (4) is detachably connected with the drying treatment assembly (5);

the other end of the sludge treatment tank (3) is detachably connected with a third connecting pipe (6), the third connecting pipe (6) is detachably connected with a fourth connecting pipe (61), the fourth connecting pipe (61) is detachably connected with another third connecting pipe (6), two second control valves (62) are arranged on the fourth connecting pipe (61), and the middle part of the fourth connecting pipe (61) is detachably connected with a water outlet pipe (7);

the inside of the water inlet pipe (1), the water outlet pipe (7), the second connecting pipe (22) and the third connecting pipe (6) are respectively provided with a movable sludge crushing assembly (8);

the mud pumping assembly (4) comprises a material sucking structure (41), a fifth connecting pipe (42) is detachably connected to one side of the material sucking structure (41), a sixth connecting pipe (43) is slidably connected to the lower end of the fifth connecting pipe (42), a rubber pad (421) is arranged on the outer side of the fifth connecting pipe (42), the rubber pad (421) is in extrusion connection with the inner wall of the sixth connecting pipe (43), a lifting structure (44) is arranged on the outer side of the sixth connecting pipe (43), a reaction tank (431) is detachably connected to the lower side of the sixth connecting pipe (43), a pneumatic stirring assembly (45) is arranged in the reaction tank (431), three first supporting rods (46) are detachably connected to the lower end of the reaction tank (431), lifting assemblies (47) are arranged on the first supporting rods (46), a sealing plate (48) is detachably connected to the upper end of the lifting assemblies (47), the sealing plate (48) is slidably connected to the bottom of the reaction tank (431), and four first supporting rods (46) are provided with a crushing assembly (49);

inhale material structure (41) including seventh connecting pipe (411), seventh connecting pipe (411) upper end is equipped with first driving motor (412), first driving motor (412) drive shaft connection first dwang (413), first dwang (413) outside is equipped with spiral leaf (414), spiral leaf (414) screwed connection seventh connecting pipe (411) inner wall, connection can be dismantled in seventh connecting pipe (411) upper end one side fifth connecting pipe (42), connection air pump (415) can be dismantled in retort (431) outside, connection first hose (416) can be dismantled in air pump (415) upper end, connection retort (431) can be dismantled to first hose (416) upper end.

2. The multi-point self-collection municipal pipeline sludge treatment system according to claim 1, wherein: the lifting structure (44) comprises two first supporting plates (441), the upper ends of the two first supporting plates (441) are respectively connected with a first screw rod (442) and a first sliding rod (443) in a bearing mode, the outer side of the fifth connecting pipe (42) is detachably connected with a first connecting disc (444), the first screw rod (442) and the first sliding rod (443) are rotationally connected with the first connecting disc (444), and one side of the first supporting plate (441) is provided with a second driving motor (445) which is connected with the first screw rod (442) through a driving shaft.

3. The multi-point self-collection municipal pipeline sludge treatment system according to claim 1, wherein: the pneumatic turning assembly (45) comprises a second supporting plate (451), the second supporting plate (451) is slidingly connected with the inner wall of the reaction tank (431), the upper part of the second supporting plate (451) is in a round table-like arrangement, an eighth connecting pipe (452) is arranged below the second supporting plate (451), a third driving motor (453) is arranged at the lower end of the second supporting plate (451), a third driving motor (453) is connected with a second rotating rod (454) in a driving mode, a plurality of tooth-shaped discs (455) are arranged on the outer side of the second rotating rod (454), a plurality of first connecting holes (456) are formed in the eighth connecting pipe (452), a ninth connecting pipe (457) is slidingly connected to the first connecting hole (456), a second tooth-shaped structure (458) is arranged on the outer side of the ninth connecting pipe (457), the tooth-shaped discs (455) are connected with the second tooth-shaped structure (458), a detachable connecting sealing plate (48) is arranged at the lower end of the eighth connecting pipe (452), a rubber ring (483) is arranged on the outer side of the sealing plate (48), the inner wall of the second connecting pipe (481) is slidingly connected with the second tooth-shaped structure (481), the other end of the second hose (481) is detachably connected with the first hose (416), and a first air valve (482) is arranged on the second hose (481).

4. The multi-point self-collection municipal pipeline sludge treatment system according to claim 1, wherein: the drying treatment assembly (5) comprises a funnel structure (51), the funnel structure (51) is detachably connected with the inner wall of the reaction tank (431), a second supporting rod (52) is detachably connected in the funnel structure (51) above the reaction tank (431), a second lead screw (53) and a second sliding rod (54) are arranged below the second supporting rod (52), a fourth driving motor (55) is arranged on the second supporting rod (52), a driving shaft of the fourth driving motor (55) is connected with the second lead screw (53), the second lead screw (53) and the second sliding rod (54) are rotatably connected with a pressing plate (56), the pressing plate (56) is in extrusion connection with an inner opening of the funnel structure (51), the upper end and the lower end of the pressing plate (56) are all in a truncated cone-like shape, a first connecting barrel (57) is detachably connected on the outer side of the reaction tank (431), a filter core (58) is detachably connected on the inner side of the first connecting barrel (57), a third connecting barrel (571) is detachably connected on the upper end of the first connecting barrel (57), a fourth connecting barrel (571) is detachably connected with the inner side of the second hose (59), a sealing plate (59) is detachably connected with the second hose (59), the fourth hose (591) is detachably connected with the second hose (481), a second air valve (592) is arranged on the fourth hose (591), and a heating disc (446) is arranged on the inner wall of the reaction tank (431).

5. The multi-point self-collection municipal pipeline sludge treatment system according to claim 1, wherein: the lifting assembly (47) comprises a third supporting plate (471), a fourth screw rod (472) and a fourth sliding rod (473) are connected to an upper bearing of the third supporting plate (471), the fourth screw rod (472) and the fourth sliding rod (473) are both rotatably connected with the sealing plate (48), a fifth driving motor (474) is arranged on the third supporting plate (471), and the fifth driving motor (474) is connected with the fourth screw rod (472) in a driving shaft mode.

6. The multi-point self-collection municipal pipeline sludge treatment system according to claim 1, wherein: the utility model discloses a shake garrulous subassembly (49) including third lead screw (491) and third slide bar (492), one side is two all be equipped with second connecting hole (461) on first bracing piece (46), one side second connecting hole (461) one side bearing connection first rotary disk (493), first rotary disk (493) internal orifice spiral interlock is connected third lead screw (491), third lead screw (491) with first connecting strip (494) are connected to third slide bar (492) one end bearing, be equipped with eighth driving motor (495) in the first bracing piece (46) outside, eighth driving motor (495) interlock is connected first rotary disk (493), just first connecting strip (494) one side symmetry is equipped with two second cylinders (496), two second connecting strip (497) can be dismantled to second cylinder (496) one end.

7. The multi-point self-collection municipal pipeline sludge treatment system according to claim 1, wherein: the movable sludge crushing assembly (8) comprises two first supporting bars (81), two first supporting bars (81) are detachably connected to the inner wall of the water inlet pipe (1), the water outlet pipe (7), the second connecting pipe (22) or the third connecting pipe (6), two second supporting bars (82) are detachably connected between the first supporting bars (81), a second sliding groove (83) is formed in the upper portion of the second supporting bars (82), T-shaped plates (84) are connected in a sliding mode in the second sliding grooves (83), four first electric telescopic rods (85) are symmetrically arranged at two ends of the T-shaped plates (84), one end of each first electric telescopic rod (85) is detachably connected with a first connecting plate (86), one side of each first connecting plate (86) is provided with a third sliding groove (861), a plurality of rollers (862) are connected to one end of each roller (862) in a bearing mode, a seventh driving motor (863) is detachably connected with each second sliding groove (86), four first connecting plates (87) are symmetrically arranged at two ends of each T-shaped plates (84), four connecting plates (871) are symmetrically arranged at two ends of each first connecting plates (872), two first connecting block (873) can be dismantled to third dwang (872) one end, be equipped with sixth driving motor (874) on first connecting block (873), sixth driving motor (874) drive shaft connection fourth dwang (875), fourth dwang (875) outside is equipped with a plurality of puddler (876), just third dwang (872) outside is equipped with first spring (877), connection can be dismantled to first spring (877) other end second connecting plate (87), inlet tube (1) outlet pipe (7) all be equipped with third connecting plate (88) on second connecting pipe (22) or third connecting pipe (6), third connecting plate (88) below is equipped with the symmetry and is equipped with two second electric telescopic handle (881), fourth connecting plate (89) can be dismantled to second electric telescopic handle (881) lower extreme, four third electric telescopic handle (891) can be dismantled to fourth connecting plate (89) both sides, four electric telescopic handle (891) can be dismantled to third connecting plate (891), but first expansion joint type T (892) top is equipped with one end (841) slide type expansion joint board (892).

Images