CN111501986B

CN111501986B - Pipeline desilting equipment for sewage treatment

Info

Publication number: CN111501986B
Application number: CN202010369820.3A
Authority: CN
Inventors: 陈雪文; 杨立强; 王闪闪; 张萌萌
Original assignee: Individual
Current assignee: Chen Xuewen
Priority date: 2020-05-03
Filing date: 2020-05-03
Publication date: 2021-08-20
Anticipated expiration: 2040-05-03
Also published as: CN111501986A

Abstract

The invention discloses a pipeline dredging device for sewage treatment, which is provided with obstacle crossing wheels, when the pipeline dredging device cannot advance when encountering obstacles, the obstacle crossing wheel supporting mechanism and the driving device supporting mechanism enable the driving device and the obstacle crossing wheel to change the surrounding radius of the driving device and the obstacle crossing wheel according to the difference of the thickness of the pipeline, further, the invention can clean pipelines with different thicknesses, greatly improves the practicability and the applicability of the invention, is provided with a dredging equipment shell and a silt crushing device, the sludge shoveled by the invention can be transported to the rear side, so that the blockage of the pipeline caused by the continuous accumulation of the sludge shoveled by the invention is avoided, and simultaneously, the invention cuts large sludge into small particles in the transportation process, therefore, the pipeline can be conveniently discharged, the invention can carry out multiple operations on the sludge in the pipeline, and has the advantages of avoiding secondary blockage, facilitating the discharge of the sludge and having strong practicability and applicability.

Description

Pipeline desilting equipment for sewage treatment

Technical Field

The invention belongs to the technical field of pipeline dredging equipment; in particular to a pipeline dredging device for sewage treatment.

Background

The industrial production is usually accompanied with the generation of sewage, in the sewage treatment work, the pipeline is an inevitable carrier, the pipeline is used as a sewage treatment carrier, the interior of the pipeline is often blocked due to the accumulation of impurities in the sewage, the sewage treatment is further influenced, the sewage backflow or the pipeline burst is seriously caused, and the environment is polluted, therefore, in order to solve the problem, the prior manufacturer can regularly carry out dredging operation on the pipeline, most of the prior pipeline dredging modes are that the pipeline is closed, then high-pressure clear water is added at the input end of the pipeline, the blocked impurities in the pipeline are flushed away by water pressure, the mode not only can cause a large amount of water resource waste, but also has certain pipeline burst risk, and simultaneously, the industrial production is suspended due to the fact that the pipeline is closed, the sewage discharge is suspended, so that the production efficiency is greatly reduced, and the production cost is greatly improved, at present adopt pipeline desilting robot to carry out the desilting in addition, pipeline desilting robot can be with the impurity in the pipeline shovel board of load on the machine shovel down, thereby dredge the pipeline, but this pipeline desilting robot, back is shoveled to the impurity in the pipeline, follow-up operation is not carried out usually, therefore, when the impurity of the inside jam of pipeline is less, adopt traditional pipeline desilting robot can reach the desilting ability, when impurity is too much in the pipeline, the desilting robot is by the silt of shoveling down on the pipeline wall too much, lead to the silt of shoveling to continue to pile up and lead to the pipeline to block up, and then can't effectively solve the pipe blockage problem, therefore, can carry out multiple operation to the silt in the pipeline, the appearance of the pipeline desilting equipment that has extremely strong practicality is compelled to be very much.

Disclosure of Invention

The invention aims to provide pipeline dredging equipment for sewage treatment, which comprises a dredging shovel, a dredging equipment shell, an obstacle crossing wheel supporting mechanism, a sludge crushing device, a driving device, a rear seat, a driving device supporting mechanism, a dredging motor fixing frame and a dredging motor, wherein the dredging motor is embedded in the dredging motor fixing frame, an output shaft of the dredging motor penetrates through the front end face of the dredging motor fixing frame and penetrates through the dredging equipment shell, the dredging motor fixing frame is fixed on the rear end face of the dredging equipment shell, the rear seat is fixed on the rear end face of the dredging motor fixing frame, the driving device supporting mechanism is uniformly arranged on the rear seat, the driving device is installed on the driving device supporting mechanism, the driving device supporting mechanism is rotatably connected with the tail end of the dredging equipment shell, the sludge crushing device is embedded in the dredging equipment shell, and be located between desilting equipment casing end and the desilting motor mount, silt reducing mechanism is fixed in on the desilting motor output shaft, on the terminal surface before the desilting equipment casing was located to the desilting shovel, and on the desilting shovel was fixed in the desilting motor output shaft, hinder the wheel more and install on hindering the wheel supporting mechanism more, hinder the wheel supporting mechanism more and rotate and be fixed in on the desilting equipment casing lateral wall.

Further, the desilting shovel includes shovel sword, conical head, desilting chassis and desilting chassis sword, on the conical head was fixed in the preceding terminal surface of desilting chassis, be fixed with desilting motor output shaft on the desilting chassis rear end face, evenly arranged the rotatory fixed shovel sword on the conical head lateral wall, be equipped with a plurality of breachs on the desilting chassis terminal surface, be equipped with the desilting chassis sword on the breach.

Further, the dredging equipment shell comprises a transmission sealing cover, a screw shaft, a sludge transmission through groove, a driving belt pulley, a driven belt pulley, a spiral conveying rod, a dredging equipment shell body and a belt, the dredging equipment shell body is a solid cylinder, an output shaft of a dredging motor penetrates through the center of the dredging equipment shell body, the sludge transmission through groove is formed in the dredging equipment shell body and penetrates through the front end face and the rear end face of the dredging equipment shell body, the number of the sludge transmission through grooves is three, the three sludge transmission through grooves are uniformly distributed around the output shaft of the dredging motor, the spiral conveying rod is sleeved on the screw shaft, the spiral conveying rod is fixed on the inner side of the sludge transmission through groove through the rotation of the screw shaft, one end of the screw shaft is rotationally connected with the dredging equipment shell body, and the other end penetrates through the dredging equipment shell body and is fixed with the driven belt pulley, the driving pulley overlaps on the output shaft of desilting motor, and is located the inboard end of desilting equipment casing body, driving pulley passes through the belt and is connected with three driven pulley transmission respectively, the sealed cover of transmission overlaps on the output shaft of desilting motor and covers on three driven pulley, belt and driving pulley.

Furthermore, the obstacle crossing wheel comprises a rotating wheel shaft, a damping rotating shaft, a tripod and three rotating wheels, the three rotating wheels are rotationally fixed on the tripod through the rotating wheel shaft, the damping rotating shaft is fixed on the side wall of the tripod, and the tripod is rotationally fixed on the obstacle crossing wheel supporting mechanism through the damping rotating shaft.

Further, hinder wheel supporting mechanism more includes first bracing piece, first supporting spring, second bracing piece, bearing frame and second supporting spring, first bracing piece one end is passed through the hinge and is connected with second bracing piece head end, and the other end rotates with the damping pivot of hindering the wheel more and is connected, the second bracing piece is terminal to be connected with the bearing frame rotation, the bearing frame is fixed in on the desilting equipment casing lateral wall, second bracing piece lateral wall passes through second supporting spring and desilting equipment casing lateral wall fixed connection, first supporting spring lateral wall is through first supporting spring and second bracing piece lateral wall fixed connection.

Further, silt reducing mechanism comprises two cutting spiral leaves side by side, two the cutting spiral leaf structure is the same completely, the cutting spiral leaf is including cutting the flabellum and smashing the seat, the cutting flabellum evenly arranges on smashing the seat lateral wall, smash the seat and be fixed in on the desilting motor output shaft.

Furthermore, the driving device comprises a first driving wheel, a driving belt, a first driving wheel shaft belt pulley, a driving device body, a driving motor belt pulley, a second driving wheel shaft, a second driving wheel and a driving device motor, wherein the driving device motor is embedded in the driving device body, an output shaft of the driving device motor penetrates through the side wall of the driving device body and is fixedly connected with the driving motor belt pulley, the first driving wheel is sleeved on the first driving wheel shaft, the first driving wheel is rotationally fixed on the driving device body through the first driving wheel shaft, one end of the first driving wheel shaft is embedded in the driving device body, the other end of the first driving wheel shaft penetrates through the side wall of the driving device body and is fixedly connected with the first driving wheel shaft belt pulley, the second driving wheel is sleeved on the second driving wheel shaft, and the second driving wheel is rotationally fixed on the driving device body through the second driving wheel shaft, one end of the second driving wheel shaft is embedded in the driving device body, the other end of the second driving wheel shaft penetrates through the side wall of the driving device body and is fixedly connected with the second driving wheel shaft belt pulley, and the driving motor belt pulley, the second driving wheel shaft belt pulley and the first driving wheel shaft belt pulley are in transmission connection through the same driving belt.

Furthermore, the driving device supporting mechanism comprises a first supporting mechanism hinge, a supporting mechanism supporting rod, a second supporting mechanism hinge, a first supporting mechanism hinge seat, a first hinge head, a damping telescopic rod, a supporting mechanism supporting spring, a second hinge head and a second supporting mechanism hinge seat, wherein the second supporting mechanism hinge seat is fixed on the rear seat, one end of the supporting mechanism supporting rod is rotatably connected with the lower end of the driving device body through the second supporting mechanism hinge, the other end of the supporting mechanism supporting rod is rotatably connected with the rear end face of the dredging equipment shell through the first supporting mechanism hinge, the first supporting mechanism hinge seat is fixed at the lower end of the supporting mechanism supporting rod, the first hinge head is fixed at the upper end of the damping telescopic rod, the second hinge head is fixed at the lower end of the damping telescopic rod, the supporting mechanism supporting spring is sleeved on the damping telescopic rod, and the upper end of the supporting mechanism supporting spring is fixedly connected with the lower end of the first hinge head, the lower end of a supporting spring of the supporting mechanism is fixedly connected with the upper end of a second hinge head, the first hinge head is rotatably connected with a hinge seat of the first supporting mechanism, and the second hinge head is rotatably connected with a hinge seat of the second supporting mechanism.

Further, the working steps of the pipeline dredging equipment for sewage treatment are as follows:

1) starting the equipment, and putting the equipment into the blocked pipeline;

2) the driving device motor and the dredging motor are started, and the driving device motor rotates to drive the second driving wheel shaft belt pulley and the first driving wheel shaft belt pulley to rotate so as to drive the second driving wheel and the first driving wheel to rotate;

3) the second driving wheel and the first driving wheel rotate, and the driving device moves forwards along the pipeline;

4) the desilting motor rotates to drive the shovel blade, the desilting chassis, the spiral conveying rod and the sludge crushing device to rotate;

5) the shoveling blade rotates to shovel the blocked sludge, and the shoveled sludge is collected into the sludge conveying through groove by the dredging chassis and the dredging chassis blade;

6) the auger delivery pole rotates, and the silt that leads to the inslot with silt transmission removes to silt reducing mechanism department, and silt reducing mechanism is rotatory to be the tiny particle with the bold silt is smashed, and the tiny particle can mix sewage and flow the pipeline by equipment lateral wall gap.

The invention has the beneficial effects that: the obstacle crossing wheel provided by the invention can rotate when the obstacle crossing wheel cannot advance when encountering an obstacle in the moving process of the invention, so that the obstacle crossing wheel crosses the obstacle, and the invention is convenient to move continuously, the obstacle crossing wheel supporting mechanism and the driving device supporting mechanism are arranged, so that the driving device and the obstacle crossing wheel can change the surrounding radius of the driving device and the obstacle crossing wheel according to the difference of the thickness of pipelines, further the invention can clean the pipelines with different thicknesses, the practicability and the applicability of the invention are greatly improved, the dredging equipment shell and the sludge crushing device are arranged, sludge shoveled by the invention can be transported to the rear side, the blockage of the pipelines caused by continuous accumulation of the shoveled sludge is avoided, meanwhile, the invention cuts large sludge into small particles in the transporting process, so that the pipelines are convenient to discharge, the invention can carry out multiple operations on the sludge in the pipelines, and has the advantages of avoiding secondary blockage, avoiding the blockage, and the like, Convenient sludge discharge and strong practicability and applicability.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic diagram of the general structure of a pipeline dredging device for sewage treatment;

FIG. 2 is a schematic structural view of a dredging shovel of the pipeline dredging device for sewage treatment;

FIG. 3 is a schematic structural view of a dredging apparatus housing of the pipeline dredging apparatus for sewage treatment according to the present invention;

FIG. 4 is a schematic structural diagram of an obstacle crossing wheel of the pipeline dredging device for sewage treatment;

FIG. 5 is a schematic structural diagram of an obstacle crossing wheel supporting mechanism of the pipeline dredging device for sewage treatment;

FIG. 6 is a schematic structural view of a sludge pulverizing apparatus of the pipeline dredging device for sewage treatment according to the present invention;

FIG. 7 is a schematic structural diagram of a driving device of the pipeline dredging device for sewage treatment according to the present invention;

FIG. 8 is a schematic structural diagram of a supporting mechanism of a driving device of the pipeline dredging equipment for sewage treatment.

Detailed Description

Referring to fig. 1-8, a pipeline dredging device for sewage treatment comprises a dredging shovel 1, a dredging device housing 2, an obstacle crossing wheel 3, an obstacle crossing wheel supporting mechanism 4, a sludge crushing device 5, a driving device 6, a rear seat 7, a driving device supporting mechanism 8, a dredging motor fixing frame 9 and a dredging motor 10, wherein the dredging motor 10 is embedded in the dredging motor fixing frame 9, an output shaft of the dredging motor 10 penetrates through the front end face of the dredging motor fixing frame 9 and penetrates through the dredging device housing 2, the dredging motor fixing frame 9 is fixed on the rear end face of the dredging device housing 2, the rear seat 7 is fixed on the rear end face of the dredging motor fixing frame 9, the driving device supporting mechanism 8 is uniformly arranged on the rear seat 7, the driving device 6 is arranged on the driving device supporting mechanism 8, the driving device supporting mechanism 8 is rotatably connected with the tail end of the dredging device housing 2, the sludge crushing device 5 is embedded in the dredging device housing 2, and is located between 2 terminal and the desilting motor mount 9 of desilting equipment casing, silt reducing mechanism 5 is fixed in on the desilting motor 10 output shaft, and desilting shovel 1 is located on 2 preceding terminal surfaces of desilting equipment casing, and on desilting shovel 1 is fixed in the desilting motor 10 output shaft, hinders the wheel 3 more and installs on hindering the wheel supporting mechanism 4 more, hinders the wheel supporting mechanism 4 more and rotates and be fixed in on 2 lateral walls of desilting equipment casing.

As shown in fig. 2, the dredging shovel 1 comprises a shovel blade 11, a conical head 12, a dredging chassis 13 and a dredging chassis blade 14, the conical head 12 is fixed on the front end face of the dredging chassis 13, an output shaft of a dredging motor 10 is fixed on the rear end face of the dredging chassis 13, the shovel blade 11 which is rotationally fixed is uniformly arranged on the side wall of the conical head 12, a plurality of notches are arranged on the end face of the dredging chassis 13, and the dredging chassis blade 14 is arranged on the notches.

As shown in fig. 3, the dredging device housing 2 comprises a transmission sealing cover 21, a screw shaft 22, a sludge transmission through groove 23, a driving belt pulley 24, a driven belt pulley 25, a spiral conveying rod 26, a dredging device housing body 27 and a belt 28, wherein the dredging device housing body 27 is a solid cylinder, an output shaft of the dredging motor 10 penetrates through the center of the dredging device housing body 27, the sludge transmission through groove 23 is arranged in the dredging device housing body 27 and penetrates through the front and rear end faces of the dredging device housing body 27, the number of the sludge transmission through grooves 23 is three, the three sludge transmission through grooves 23 are uniformly distributed around the output shaft of the dredging motor 10, the spiral conveying rod 26 is sleeved on the screw shaft 22, the spiral conveying rod 26 is rotatably fixed at the inner side of the sludge transmission through groove 23 through the screw shaft 22, one end of the screw shaft 22 is rotatably connected with the dredging device housing body 27, the other end penetrates through the dredging device housing body 27 and is fixed with the driven belt pulley 25, the driving pulley 24 is sleeved on the output shaft of the dredging motor 10 and located at the inner end of the dredging device shell body 27, the driving pulley 24 is in transmission connection with the three driven pulleys 25 through a belt 28, and the transmission sealing cover 21 is sleeved on the output shaft of the dredging motor 10 and covers the three driven pulleys 25, the belt 28 and the driving pulley 24.

As shown in fig. 4, the obstacle crossing wheel 3 includes a rotating wheel shaft 31, a damping rotating shaft 32, a tripod 33 and three rotating wheels 34, the three rotating wheels 34 are rotatably fixed on the tripod 33 through the rotating wheel shaft 31, the damping rotating shaft 32 is fixed on a side wall of the tripod 33, and the tripod 33 is rotatably fixed on the obstacle crossing wheel supporting mechanism 4 through the damping rotating shaft 32.

As shown in fig. 5, the obstacle crossing wheel supporting mechanism 4 includes a first supporting rod 41, a first supporting spring 42, a second supporting rod 43, a bearing seat 44 and a second supporting spring 45, one end of the first supporting rod 41 is connected with the head end of the second supporting rod 43 through a hinge, the other end is connected with the damping rotating shaft 32 of the obstacle crossing wheel 3 in a rotating manner, the tail end of the second supporting rod 43 is connected with the bearing seat 44 in a rotating manner, the bearing seat 44 is fixed on the outer side wall of the dredging device shell 2, the side wall of the second supporting rod 43 is fixedly connected with the outer side wall of the dredging device shell 2 through the second supporting spring 45, and the side wall of the first supporting spring 42 is fixedly connected with the side wall of the second supporting rod 43 through the first supporting spring 42.

As shown in fig. 6, the sludge pulverizing device 5 is composed of two cutting spiral blades in parallel, the two cutting spiral blades have the same structure, the cutting spiral blades include cutting blades 51 and pulverizing bases 52, the cutting blades 51 are uniformly arranged on the outer side walls of the pulverizing bases 52, and the pulverizing bases 52 are fixed on the output shaft of the dredging motor 10.

As shown in fig. 7, the driving device 6 includes a first driving wheel 61, a driving belt 62, a first driving wheel shaft 63, a first driving wheel shaft pulley 64, a driving device body 65, a driving motor pulley 66, a second driving wheel shaft pulley 67, a second driving wheel shaft 68, a second driving wheel 69 and a driving device motor 610, the driving device motor 610 is embedded in the driving device body 65, an output shaft of the driving device motor 610 penetrates through a side wall of the driving device body 65 and is fixedly connected with the driving motor pulley 66, the first driving wheel 61 is sleeved on the first driving wheel shaft 63, the first driving wheel 61 is rotatably fixed on the driving device body 65 through the first driving wheel shaft 63, one end of the first driving wheel shaft 63 is embedded in the driving device body 65, the other end penetrates through a side wall of the driving device body 65 and is fixedly connected with the first driving wheel shaft pulley 64, the second driving wheel 69 is sleeved on the second driving wheel shaft 68, the second driving wheel 69 is rotatably fixed on the driving device body 65 through a second driving wheel shaft 68, one end of the second driving wheel shaft 68 is embedded in the driving device body 65, the other end penetrates through the side wall of the driving device body 65 and is fixedly connected with a second driving wheel shaft belt pulley 67, and the driving motor belt pulley 66, the second driving wheel shaft belt pulley 67 and the first driving wheel shaft belt pulley 64 are in transmission connection through the same driving belt 62.

As shown in fig. 8, the driving device supporting mechanism 8 includes a first supporting mechanism hinge 81, a supporting mechanism supporting rod 82, a second supporting mechanism hinge 83, a first supporting mechanism hinge seat 84, a first hinge head 85, a damping telescopic rod 86, a supporting mechanism supporting spring 87, a second hinge head 88 and a second supporting mechanism hinge seat 89, the second supporting mechanism hinge seat 89 is fixed on the rear seat 7, one end of the supporting mechanism supporting rod 82 is rotatably connected with the lower end of the driving device body 65 through the second supporting mechanism hinge 83, the other end is rotatably connected with the rear end face of the dredging device housing 2 through the first supporting mechanism hinge 81, the lower end of the supporting mechanism supporting rod 82 is fixed with the first supporting mechanism hinge seat 84, the upper end of the damping telescopic rod 86 is fixed with the first hinge head 85, the lower end of the damping telescopic rod 86 is fixed with the second hinge head 88, the supporting mechanism supporting spring 87 is sleeved on the damping telescopic rod 86, the upper end of a supporting mechanism supporting spring 87 is fixedly connected with the lower end of a first hinge head 85, the lower end of the supporting mechanism supporting spring 87 is fixedly connected with the upper end of a second hinge head 88, the first hinge head 85 is rotatably connected with a first supporting mechanism hinge seat 84, and the second hinge head 88 is rotatably connected with a second supporting mechanism hinge seat 89.

1. The utility model provides a working procedure of pipeline desilting equipment for sewage treatment, working procedure specifically as follows:

1) starting the equipment, and putting the equipment into the blocked pipeline;

2) when the driving device motor 610 and the dredging motor 10 are started, the driving device motor 610 rotates to drive the second driving wheel shaft belt pulley 67 and the first driving wheel shaft belt pulley 64 to rotate, and further drives the second driving wheel 69 and the first driving wheel 61 to rotate;

3) the second drive wheel 69 and the first drive wheel 61 rotate, the drive device moving forward along the pipe;

4) the desilting motor 10 rotates to drive the shovel blade 11, the desilting chassis 13, the spiral conveying rod 26 and the sludge crushing device 5 to rotate;

5) the shoveling blade 11 rotates to shovel the blocked sludge, and the shoveled sludge is collected into the sludge conveying through groove 23 by the dredging chassis 13 and the dredging chassis blade 14;

6) the screw conveying rod 26 rotates, sludge in the sludge conveying through groove 23 is moved to the sludge smashing device 5, the sludge smashing device 5 rotates to smash large sludge into small particles, and the small particles can mix sewage and flow out of a pipeline through a gap of the outer side wall of the equipment.

The foregoing is merely exemplary and illustrative of the present invention and various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the invention as defined in the following claims.

Claims

1. The utility model provides a pipeline dredging equipment for sewage treatment, includes desilting shovel (1), desilting equipment casing (2), hinders wheel (3) more, hinders wheel supporting mechanism (4) more, silt reducing mechanism (5), drive arrangement (6), back seat (7), drive arrangement supporting mechanism (8), desilting motor mount (9) and desilting motor (10), its characterized in that, desilting motor (10) are embedded in on desilting motor mount (9), and desilting motor (10) output shaft pierces through desilting motor mount (9) preceding terminal surface and runs through desilting equipment casing (2), desilting motor mount (9) are fixed in on desilting equipment casing (2) rear end face, back seat (7) are fixed in on desilting motor mount (9) rear end face, drive arrangement supporting mechanism (8) have evenly been arranged on back seat (7), the driving device supporting mechanism (8) is provided with a driving device (6), the driving device supporting mechanism (8) is rotatably connected with the tail end of the dredging equipment shell (2), the sludge smashing device (5) is embedded in the dredging equipment shell (2) and is positioned between the tail end of the dredging equipment shell (2) and the dredging motor fixing frame (9), the sludge smashing device (5) is fixed on an output shaft of the dredging motor (10), the dredging shovel (1) is arranged on the front end face of the dredging equipment shell (2), the dredging shovel (1) is fixed on the output shaft of the dredging motor (10), the obstacle crossing wheel (3) is installed on the obstacle crossing wheel supporting mechanism (4), and the obstacle crossing wheel supporting mechanism (4) is rotatably fixed on the outer side wall of the dredging equipment shell (2); desilting shovel (1) is including shovel sword (11), conical head (12), desilting chassis (13) and desilting chassis sword (14), conical head (12) are fixed in on the terminal surface before desilting chassis (13), be fixed with desilting motor (10) output shaft on desilting chassis (13) rear end face, evenly arranged on conical head (12) lateral wall rotatory fixed shovel sword (11), be equipped with a plurality of breachs on desilting chassis (13) terminal surface, be equipped with desilting chassis sword (14) on the breach.

2. The pipeline dredging device for sewage treatment as claimed in claim 1, wherein the dredging device housing (2) comprises a transmission sealing cover (21), a screw shaft (22), a sludge transmission through groove (23), a driving belt pulley (24), a driven belt pulley (25), a spiral conveying rod (26), a dredging device housing body (27) and a belt (28), the dredging device housing body (27) is a solid cylinder, the center of the dredging device housing body (27) is penetrated by an output shaft of the dredging motor (10), the sludge transmission through groove (23) is arranged in the dredging device housing body (27) and penetrates through the front end face and the rear end face of the dredging device housing body (27), the number of the sludge transmission through grooves (23) is three, and the three sludge transmission through grooves (23) are uniformly distributed around the output shaft of the dredging motor (10), screw conveying pole (26) cover is on screw shaft (22), and screw conveying pole (26) rotate through screw shaft (22) and be fixed in silt transmission and lead to groove (23) inboard, screw shaft (22) one end rotates with desilting equipment casing body (27) to be connected, and the other end pierces through desilting equipment casing body (27) and is fixed with driven pulley (25), drive pulley (24) cover is on the output shaft of desilting motor (10), and is located desilting equipment casing body (27) inboard terminal, drive pulley (24) are connected with three driven pulley (25) transmission respectively through belt (28), the sealed lid of transmission (21) cover on the output shaft of desilting motor (10) and cover on three driven pulley (25), belt (28) and drive pulley (24).

3. The pipeline dredging device for sewage treatment as claimed in claim 2, wherein the obstacle crossing wheel (3) comprises a rotating wheel shaft (31), a damping rotating shaft (32), a tripod (33) and rotating wheels (34), the number of the rotating wheels (34) is three, the three rotating wheels (34) are rotationally fixed on the tripod (33) through the rotating wheel shaft (31), the damping rotating shaft (32) is fixed on the side wall of the tripod (33), and the tripod (33) is rotationally fixed on the obstacle crossing wheel supporting mechanism (4) through the damping rotating shaft (32).

4. The pipeline dredging device for sewage treatment as claimed in claim 3, the obstacle crossing wheel supporting mechanism (4) comprises a first supporting rod (41), a first supporting spring (42), a second supporting rod (43), a bearing seat (44) and a second supporting spring (45), one end of the first supporting rod (41) is connected with the head end of the second supporting rod (43) through a hinge, the other end is rotatably connected with the damping rotating shaft (32) of the obstacle crossing wheel (3), the tail end of the second supporting rod (43) is rotationally connected with a bearing seat (44), the bearing seat (44) is fixed on the outer side wall of the dredging equipment shell (2), the side wall of the second supporting rod (43) is fixedly connected with the outer side wall of the dredging equipment shell (2) through a second supporting spring (45), the side wall of the first supporting spring (42) is fixedly connected with the side wall of the second supporting rod (43) through the first supporting spring (42).

5. The pipeline dredging equipment for sewage treatment as claimed in claim 4, wherein the sludge crushing device (5) is composed of two cutting spiral blades in parallel, the two cutting spiral blades are identical in structure, each cutting spiral blade comprises a cutting fan blade (51) and a crushing seat (52), the cutting fan blades (51) are uniformly arranged on the outer side wall of the crushing seat (52), and the crushing seat (52) is fixed on the output shaft of the dredging motor (10).

6. The pipeline dredging device for sewage treatment as claimed in claim 5, wherein the driving device (6) comprises a first driving wheel (61), a driving belt (62), a first driving wheel shaft (63), a first driving wheel shaft pulley (64), a driving device body (65), a driving motor pulley (66), a second driving wheel shaft pulley (67), a second driving wheel shaft (68), a second driving wheel (69) and a driving device motor (610), the driving device motor (610) is embedded in the driving device body (65), an output shaft of the driving device motor (610) penetrates through a side wall of the driving device body (65) to be fixedly connected with the driving motor pulley (66), the first driving wheel (61) is sleeved on the first driving wheel shaft (63), the first driving wheel (61) is rotatably fixed on the driving device body (65) through the first driving wheel shaft (63), one end of the first driving wheel shaft (63) is embedded in the driving device body (65), the other end of the first driving wheel shaft penetrates through the side wall of the driving device body (65) and is fixedly connected with the first driving wheel shaft belt wheel (64), the second driving wheel (69) is sleeved on the second driving wheel shaft (68), the second driving wheel (69) is rotatably fixed on the driving device body (65) through the second driving wheel shaft (68), one end of the second driving wheel shaft (68) is embedded in the driving device body (65), the other end of the second driving wheel shaft penetrates through the side wall of the driving device body (65) and is fixedly connected with the second driving wheel shaft belt wheel (67), and the driving motor belt wheel (66), the second driving wheel shaft belt wheel (67) and the first driving wheel shaft belt wheel (64) are in transmission connection through the same driving belt (62).

7. The pipeline dredging device for sewage treatment as claimed in claim 6, wherein the driving device supporting mechanism (8) comprises a first supporting mechanism hinge (81), a supporting mechanism supporting rod (82), a second supporting mechanism hinge (83), a first supporting mechanism hinge seat (84), a first hinge head (85), a damping telescopic rod (86), a supporting mechanism supporting spring (87), a second hinge head (88) and a second supporting mechanism hinge seat (89), the second supporting mechanism hinge seat (89) is fixed on the rear seat (7), one end of the supporting mechanism supporting rod (82) is rotatably connected with the lower end of the driving device body (65) through the second supporting mechanism hinge (83), the other end of the supporting mechanism supporting rod is rotatably connected with the rear end face of the dredging device shell (2) through the first supporting mechanism hinge (81), the first supporting mechanism hinge seat (84) is fixed at the lower end of the supporting mechanism supporting rod (82), damping telescopic link (86) upper end is fixed with first hinge head (85), damping telescopic link (86) lower extreme is fixed with second hinge head (88), supporting mechanism supporting spring (87) cover on damping telescopic link (86), and supporting mechanism supporting spring (87) upper end and first hinge head (85) lower extreme fixed connection, supporting mechanism supporting spring (87) lower extreme and second hinge head (88) upper end fixed connection, first hinge head (85) and first supporting mechanism hinge seat (84) rotate to be connected, second hinge head (88) and second supporting mechanism hinge seat (89) rotate to be connected.

8. The pipeline dredging device for sewage treatment as claimed in claim 7, wherein the operation steps of the pipeline dredging device for sewage treatment are as follows:

starting the equipment, and putting the equipment into the blocked pipeline; the driving device motor (610) and the dredging motor (10) are started, the driving device motor (610) rotates to drive the second driving wheel shaft belt pulley (67) and the first driving wheel shaft belt pulley (64) to rotate, and then the second driving wheel (69) and the first driving wheel (61) are driven to rotate;

the second drive wheel (69) and the first drive wheel (61) rotate, and the drive device moves forwards along the pipeline;

the desilting motor (10) rotates to drive the shovel blade (11), the desilting chassis (13), the spiral conveying rod (26) and the sludge crushing device (5) to rotate; the shoveling blade (11) rotates to shovel the blocked sludge, and the shoveled sludge is collected into the sludge conveying through groove (23) by the dredging chassis (13) and the dredging chassis blade (14); the spiral conveying rod (26) rotates, sludge in the sludge conveying through groove (23) is moved to the sludge smashing device (5), the sludge smashing device (5) is rotated to smash large sludge into small particles, and the small particles can mix sewage and flow out of a pipeline through a gap of the outer side wall of the equipment.