CN111842092A

CN111842092A - Anticorrosion treatment process for buried sewage treatment pipeline

Info

Publication number: CN111842092A
Application number: CN202010714996.8A
Authority: CN
Inventors: 谢祥松
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-07-23
Filing date: 2020-07-23
Publication date: 2020-10-30

Abstract

The invention relates to a buried sewage treatment pipeline anticorrosion treatment process, which mainly comprises the following steps: the sewage pipeline surface treatment device comprises an installation frame, a coating mechanism and a collecting mechanism, wherein the coating mechanism and the collecting mechanism are sequentially arranged in the installation frame from top to bottom, and the sewage pipeline surface treatment device can solve the following problems in the process of carrying out anti-corrosion treatment on the existing sewage pipeline: when the surface of the existing sewage pipeline is subjected to anticorrosion treatment, an anticorrosion solvent is usually smeared on the surface of the pipeline in an artificial smearing mode to achieve an anticorrosion effect, and phenomena of missing smearing and uneven smearing often occur to influence the anticorrosion effect of the sewage pipeline; b: when the existing pipeline is subjected to anticorrosion treatment, a large amount of anticorrosion liquid is often sprayed on the surface of the pipeline, and the pipeline is often used excessively for coating the surface of a pipe fitting, so that redundant anticorrosion solution falls on the ground, and environmental pollution and cost waste are caused.

Description

Anticorrosion treatment process for buried sewage treatment pipeline

Technical Field

The invention relates to the technical field of pipeline treatment, in particular to an anticorrosion treatment process for a buried sewage treatment pipeline.

Background

The sewage treatment refers to a process of purifying sewage to meet the water quality requirement of discharging the sewage into a certain water body or reusing the sewage, the sewage treatment is widely applied to various fields such as buildings, agriculture, traffic, energy, petrifaction, environmental protection, urban landscape, medical treatment, catering and the like, and the sewage treatment also increasingly enters the daily life of common people.

The method comprises the following steps that a, when the surface of the existing sewage pipeline is subjected to anticorrosion treatment, an anticorrosion solvent is coated on the surface of the sewage pipeline in an artificial coating mode, so that an anticorrosion effect is achieved, the phenomenon of coating leakage or uneven coating is often caused, and the anticorrosion effect of the sewage pipeline is further influenced; b: when the existing pipeline is subjected to anti-corrosion treatment, a large amount of anti-corrosion liquid is often sprayed on the surface of the pipeline, and the surface of the pipeline is coated with the anti-corrosion liquid, so that the anti-corrosion liquid is often used excessively, redundant anti-corrosion solution falls on the ground, and environmental pollution and cost waste are caused.

Disclosure of Invention

In order to solve the problems, the invention provides an underground sewage treatment pipeline anticorrosion treatment process, which uses a sewage pipeline surface treatment device and can solve the problems of the sewage pipeline in the anticorrosion treatment process.

In order to achieve the purpose, the invention adopts the following technical scheme to realize the purpose: an anti-corrosion treatment process for a buried sewage treatment pipeline mainly comprises the following steps:

the method comprises the following steps: equipment inspection: before the sewage pipeline surface treatment device is started to paint the anticorrosive material on the surface of the sewage pipeline, the operation of the equipment is checked;

step two: manual feeding: manually placing the pipe fitting to be subjected to anti-corrosion treatment on a material fixing barrel, and fixing the pipe fitting by the material fixing barrel to achieve the purpose of manual feeding;

step three: surface smearing: after the manual feeding operation in the second step is completed, the spraying plate sprays the anticorrosive liquid in the material storage tank to the surface of the pipe fitting, the first motor starts to work at the same time to drive the pipe fitting to rotate, and the anticorrosive solution on the surface of the pipe fitting is uniformly coated through the coating cylinder operation, so that the surface coating purpose is achieved;

step four: collecting excess materials: after the surface coating operation in the third step is completed, redundant anticorrosive solution enters the collecting frame through the heat-insulating sleeve plate, and meanwhile, the second motor starts to work to drive the stirring frame to rotate, so that the anticorrosive liquid is prevented from being condensed, and the purpose of collecting excess materials is achieved;

the sewage pipeline surface treatment device used in the steps comprises an installation frame, a smearing mechanism and a collecting mechanism, wherein the smearing mechanism and the collecting mechanism are sequentially arranged in the installation frame from top to bottom.

The coating mechanism comprises a motor, a threaded rod, a material pushing block, a material fixing cylinder, a coating cylinder, a material spraying plate and a material storage tank, the motor is mounted on the outer wall of the mounting frame through a motor base, the threaded rod is mounted on an output shaft of the motor, the material pushing block which is matched with the threaded rod is mounted on the outer side of the threaded rod in a threaded connection mode, the material pushing block is mounted on the coating cylinder in a sliding connection mode, the coating cylinder is mounted on the inner wall of the mounting frame in a welding mode, the material fixing cylinder is arranged on the inner side of the coating cylinder, the material fixing cylinder is mounted on the threaded rod in a welding mode, the material spraying plate is mounted at the upper end of the coating cylinder, the material storage tank is mounted on the material spraying plate in a threaded connection mode, during work, a pipe fitting to be treated is manually mounted on the material fixing cylinder, the material fixing cylinder works to fix, and then the first motor starts to work to drive the pipe fitting to rotate, and the coating and brushing cylinder works to uniformly coat the anticorrosive solution on the surface of the pipe fitting, so that the aim of coating the anticorrosive solution on the surface of the pipe fitting is fulfilled.

Collect the mechanism and include the slip post, collect the frame, No. two motors, the stirring frame, heat preservation lagging and sieve flitch, the slip post passes through sliding connection's mode and installs on the mounting bracket inner wall, install the collection frame through welded mode on the slip post, install No. two motors on the motor cabinet of collection frame outside, install the stirring frame on No. two motors, the stirring frame is located inside the collection frame, install the heat preservation lagging on the collection frame, evenly install the sieve flitch through sliding connection's mode on the heat preservation lagging, in operation, unnecessary antiseptic solution flows from applying a brush, get into through the filtration of sieving the flitch and collect in the frame, later No. two motors begin to work, drive the stirring frame and rotate, thereby prevent to collect the antiseptic solution in the frame and condense, thereby reach the purpose of collecting antiseptic solution.

The pushing block is provided with a blind hole A which is matched with the material fixing barrel for use, the pushing block is provided with a pushing column in a welding mode, the inner wall of the blind hole A is uniformly provided with spherical balls capable of moving freely in a bearing connection mode, the end face of the pushing block is uniformly provided with a pushing plate in a spring connection mode, and the pushing plate is of an arc-shaped structure.

The utility model discloses a solid feed cylinder, including solid feed cylinder, the mode of connecting through the bearing evenly installs spherical ball that can free motion on the solid feed cylinder, through-hole B has evenly been seted up on the solid feed cylinder, install the slip post through sliding connection's mode on the solid feed cylinder inner wall, the last spring piece that supports of leaning on of slip post, the screw thread bull stick is installed through sliding connection's mode on the spring piece, the screw thread bull stick passes through threaded connection's mode and installs on solid feed cylinder, evenly install the extrusion piece through welded mode on the slip post, the extrusion piece outside is supported and is leaned on there being the interior ejector pin, interior ejector pin front end constitutes for the rubber material, the stabilizer bar has evenly been supported through spring connection's mode in the interior ejector pin outside.

It arranges material through-hole C to have seted up on the section of thick bamboo of brushing, arranges material groove D evenly to begin to have seted up on the material through-hole C inner wall of arranging, and both ends evenly install through the welded mode and slide branch about on brushing a section of thick bamboo inner wall, slide and install the brush flitch through spring coupling's mode on the branch, and slide fixed mounting on the branch and have the coating brush, brush flitch and coating brush staggered arrangement.

The coating brush outside is provided with wringing board, and wringing board installs on the branch that slides through sliding connection's mode, evenly is provided with wringing hole on the wringing board, and wringing hole is the infundibulate structure, and evenly has seted up guiding gutter E on the wringing pore wall.

The groove width of the discharge groove D is gradually reduced from top to bottom, and the groove depth of the discharge groove D is gradually reduced from top to bottom.

Stirring branch is evenly installed through the mode of rotating the connection on the stirring frame, and the material shoveling block is installed through the mode of rotating the connection on the stirring branch, and the material shoveling block is the boots shape structure, and the material shoveling block internally mounted has the heating pipe, and fixed mounting has the connecting rod on the material shoveling block, installs through the mode of rotating the connection on the connecting rod and draws the material wheel.

1. The invention can solve the following problems in the process of carrying out antiseptic treatment on the existing sewage pipeline: when the surface of the existing sewage pipeline is subjected to anticorrosion treatment, an anticorrosion solvent is coated on the surface of the sewage pipeline in an artificial coating mode, so that an anticorrosion effect is achieved, and the phenomenon of coating leakage or uneven coating is often caused, so that the anticorrosion effect of the sewage pipeline is influenced; b: when the existing pipeline is subjected to anti-corrosion treatment, a large amount of anti-corrosion liquid is often sprayed on the surface of the pipeline, and the surface of the pipeline is coated with the anti-corrosion liquid, so that the anti-corrosion liquid is often used excessively, redundant anti-corrosion solution falls on the ground, and environmental pollution and cost waste are caused.

2. According to the invention, the coating kit is designed, the pipe fitting is fixed, the anticorrosion solution in the storage tank is sprayed to the surface of the pipe fitting by the spraying plate, then the first motor starts to work to drive the pipe fitting to rotate, the coating cylinder works simultaneously, the brushing plate and the coating plate in the coating cylinder act together to uniformly coat the anticorrosion solution on the surface of the pipe fitting, so that the aim of uniformly coating the anticorrosion liquid is fulfilled, the phenomenon of poor anticorrosion effect caused by nonuniform coating of the anticorrosion solution on the surface of the pipe fitting is avoided, and the workload of workers is reduced.

3. According to the invention, the excessive anticorrosive solution of the collecting mechanism flows out of the coating cylinder, enters the collecting frame after being filtered by the sieving plate, then the motor II starts to work to drive the stirring frame to rotate, so that the anticorrosive solution in the collecting frame is prevented from being condensed, the purpose of collecting the residual anticorrosive liquid is achieved, the phenomenon that the excessive anticorrosive liquid directly drops to the ground to cause environmental pollution is avoided, the phenomenon that the anticorrosive liquid is wasted is avoided by collecting the collecting frame, and the cost is saved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a flow chart of the operation of the present invention;

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

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

FIG. 4 is a schematic cross-sectional view A-A of FIG. 3 of the present invention;

FIG. 5 is a schematic cross-sectional view B-B of FIG. 3 of the present invention;

FIG. 6 is a schematic cross-sectional view of a painting cartridge of the present invention;

FIG. 7 is a schematic cross-sectional view of area A of FIG. 5 in accordance with the present invention;

FIG. 8 is a schematic cross-sectional view of the area B of FIG. 6 in accordance with the present invention;

Detailed Description

The embodiments of the invention will be described in detail below with reference to the drawings, but the invention can be implemented in many different ways as defined and covered by the claims.

As shown in fig. 1 to 8, the anticorrosion treatment process for the buried sewage treatment pipeline mainly comprises the following steps:

step two: manual feeding: manually placing the pipe fitting to be subjected to anti-corrosion treatment on the material fixing cylinder 23, and fixing the pipe fitting by the material fixing cylinder 23 to achieve the purpose of manual feeding;

step three: surface smearing: after the manual feeding operation in the second step is completed, the spraying plate 25 sprays the anticorrosive liquid in the material storage tank 26 to the surface of the pipe fitting, and meanwhile, the first motor starts to work to drive the pipe fitting to rotate, so that the anticorrosive solution on the surface of the pipe fitting is uniformly coated through the operation of the coating cylinder 24, and the purpose of coating the surface is achieved;

step four: collecting excess materials: after the surface coating operation in the third step is completed, redundant anticorrosive solution enters the collecting frame 32 through the heat-insulating sleeve plate 34, and meanwhile, the second motor starts to work to drive the stirring frame 33 to rotate, so that the anticorrosive liquid is prevented from being condensed, and the purpose of collecting excess materials is achieved;

the sewage pipeline surface treatment device used in the steps comprises an installation frame 1, a smearing mechanism 2 and a collecting mechanism 3, wherein the smearing mechanism 2 and the collecting mechanism 3 are sequentially arranged in the installation frame 1 from top to bottom.

The coating mechanism 2 comprises a motor, a threaded rod 21, a pushing block 22, a material fixing barrel 23, a coating barrel 24, a material spraying plate 25 and a material storage tank 26, the motor is mounted on the outer wall of the mounting frame 1 through a motor base, the threaded rod 21 is mounted on an output shaft of the motor, the pushing block 22 which is matched with the threaded rod 21 in use is mounted on the outer side of the threaded rod 21 in a threaded connection mode, the pushing block 22 is mounted on the coating barrel 24 in a sliding connection mode, the coating barrel 24 is mounted on the inner wall of the mounting frame 1 in a welding mode, the material fixing barrel 23 is arranged on the inner side of the coating barrel 24, the material fixing barrel 23 is mounted on the threaded rod 21 in a welding mode, the spraying plate 25 is mounted at the upper end of the coating barrel 24, the material storage tank 26 is mounted on the spraying plate 25 in a threaded connection mode, during specific work, a pipe fitting to be processed is manually, fix the pipe fitting, later spray coating board 25 with the anticorrosive liquid spraying in the material storage tank 26 to the pipe fitting surface, later a motor begins work, and then drives solid feed cylinder 23 through threaded rod 21 and rotate to drive the pipe fitting and rotate, through scribbling a brush section of thick bamboo 24 effect, scribble the anticorrosive liquid on pipe fitting surface evenly, later because of threaded rod 21 effect, drive ejector pad 22 will admittedly push out the pipe fitting on the feed cylinder 23, the manual work takes off the pipe fitting, thereby reaches the anticorrosive purpose in surface.

The material pushing block 22 is provided with a blind hole A which is matched with the material fixing barrel 23 for use, the material pushing block 22 is provided with a pushing column 221 in a welding mode, the inner wall of the blind hole A is uniformly provided with spherical balls capable of moving freely in a bearing connection mode, the end face of the material pushing block 22 is uniformly provided with a material pushing plate 222 in a spring connection mode, and the material pushing plate 222 is of an arc-shaped structure.

The solid material cylinder 23 is uniformly provided with spherical balls capable of moving freely through a bearing connection mode, the solid material cylinder 23 is uniformly provided with through holes B, the inner wall of the solid material cylinder 23 is provided with sliding columns 231 through a sliding connection mode, the sliding columns 231 are abutted against spring blocks 232, the spring blocks 232 are provided with threaded rotating rods 233 through a sliding connection mode, the threaded rotating rods 233 are arranged on the solid material cylinder 23 through a threaded connection mode, the sliding columns 231 are uniformly provided with extrusion blocks 234 through a welding mode, the outer sides of the extrusion blocks 234 are abutted against inner ejector rods 235, the front ends of the inner ejector rods 235 are made of rubber materials, the outer sides of the inner ejector rods 235 are uniformly abutted against stabilizing rods 236 through a spring connection mode, the stabilizing rods 236 are arranged on the inner wall of the solid material cylinder 23 through a spring connection mode, during specific work, the threaded rotating rods 233 are manually rotated, the sliding columns 232 are pushed to move towards the inner side through the spring blocks 232, therefore, the inner mandril 235 is pushed to move under the action of the extrusion block 234 and abuts against the inner wall of the pipe fitting in an inner supporting mode, and the purpose of fixing the pipe fitting is achieved.

Scribble and seted up on a brush section of thick bamboo 24 and arrange material through-hole C, arrange evenly on the material through-hole C inner wall and begin to set up row material groove D, it slides branch 241 through the even installation of welded mode to brush both ends about on a brush section of thick bamboo 24 inner wall, slide and install brush board 242 through spring coupling's mode on the branch 241, and slide fixed mounting on the branch 241 and have paint brush 243, brush board 242 and paint brush 243 staggered arrangement, concrete during operation, when the pipe fitting is because a motor action, when rotating, brush the inside brush board 242 and the paint board 243 combined action of a brush section of thick bamboo 24, paint the antiseptic solution on pipe fitting surface evenly, thereby reach the purpose of scribbling even antiseptic solution.

Coating brush 243 outside is provided with wringing board 2431, wringing board 2431 installs on sliding support pole 241 through sliding connection's mode, wringing board 2431 is last evenly to be provided with wringing hole, wringing the hole is the infundibulate structure, and wringing and evenly having seted up guiding gutter E on the pore wall, in concrete during operation, when the pipe fitting rotates because of a motor, through pipe fitting squeezing action, make wringing board 2431 smooth after, later scribble evenly when the anticorrosive liquid on pipe fitting surface, wringing board 2431 back-motion, extrude the solution on coating brush 243 surface through wringing the hole effect, flow through guiding gutter E effect, thereby reach the purpose of clearing up the coating brush.

The collecting mechanism 3 comprises a sliding column 31, a collecting frame 32, a second motor, a stirring frame 33, a heat-insulating sleeve plate 34 and a screening plate 36, the sliding column 31 is installed on the inner wall of the mounting frame 1 in a sliding connection mode, the collecting frame 32 is installed on the sliding column 31 in a welding mode, the second motor is installed on a motor base on the outer side of the collecting frame 32, the stirring frame 33 is installed on the second motor, the stirring frame 33 is located inside the collecting frame 32, the heat-insulating sleeve plate 34 is installed on the collecting frame 32, the screening plate 36 is evenly installed on the heat-insulating sleeve plate 34 in a sliding connection mode, during specific work, redundant anticorrosive liquid flows into the heat-insulating sleeve plate 34 along the painting and brushing cylinder 24, the anticorrosive liquid is filtered and then enters the collecting frame 32 under the action of the screening plate 36, the stirring frame 33 is driven to rotate under the action of the second motor, so as to continuously stir the anticorrosive liquid in the collecting frame 32, thereby preventing the liquid from condensing and achieving the purpose of collecting the residual materials.

Stirring branch 331 is evenly installed through the mode of rotating the connection on the stirring frame 33, shovel material piece 332 is installed through the mode of rotating the connection on the stirring branch 331, shovel material piece 332 is the boots shape structure, shovel material piece 332 internally mounted has the heating pipe, shovel material piece 332 is last fixed mounting has connecting rod 333, it draws material wheel 334 to install through the mode of rotating the connection on the connecting rod 333, when concrete during operation, when No. two motors rotate, drive stirring frame 33 and rotate, thereby drive stirring branch 331 and rotate, shovel material piece 332 on stirring branch 331 surface is pasting and is collecting frame 32 inside and rotating, through drawing material wheel 334 effect during rotation, cut the anticorrosive liquid that condenses absolutely, and through shovel material piece 332 effect, with anticorrosive liquid coagulation piece shovels down, thereby reach the purpose that the clout was collected.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a bury formula sewage treatment pipeline anticorrosive treatment process, it has used a sewage pipeline surface treatment device, and this sewage pipeline surface treatment device includes mounting bracket (1), paints mechanism (2) and collects mechanism (3), its characterized in that: the specific method for smearing the anticorrosive material on the surface of the sewage pipeline by adopting the sewage pipeline surface treatment device is as follows:

step two: manual feeding: manually placing the pipe fitting to be subjected to anti-corrosion treatment on the material fixing barrel (23), and fixing the pipe fitting by the operation of the material fixing barrel (23) so as to achieve the purpose of manual feeding;

step three: surface smearing: after the manual feeding operation in the second step is completed, the spraying plate (25) sprays the anticorrosive liquid in the storage tank (26) to the surface of the pipe fitting, and meanwhile, the first motor starts to work to drive the pipe fitting to rotate, so that the anticorrosive solution on the surface of the pipe fitting is uniformly coated through the operation of the coating cylinder (24), and the purpose of coating the surface is achieved;

step four: collecting excess materials: after the surface coating operation in the third step is finished, redundant anticorrosive solution enters the collecting frame (32) through the heat-insulating sleeve plate (34), and meanwhile, the second motor starts to work to drive the stirring frame (33) to rotate, so that the anticorrosive liquid is prevented from being condensed, and the purpose of collecting excess materials is achieved;

the interior of the mounting rack (1) is sequentially provided with a smearing mechanism (2) and a collecting mechanism (3) from top to bottom;

the smearing mechanism (2) comprises a first motor, a threaded rod (21), a material pushing block (22), a material fixing cylinder (23), a brushing cylinder (24), a material spraying plate (25) and a material storage tank (26), the motor is arranged on the outer wall of the mounting frame (1) through a motor base, a threaded rod (21) is arranged on an output shaft of the motor, a material pushing block (22) which is matched with each other for use is arranged on the outer side of the threaded rod (21) in a threaded connection mode, the material pushing block (22) is arranged on the coating cylinder (24) in a sliding connection mode, the coating cylinder (24) is arranged on the inner wall of the mounting frame (1) in a welding mode, a material fixing cylinder (23) is arranged on the inner side of the coating cylinder (24), the material fixing cylinder (23) is arranged on the threaded rod (21) in a welding mode, a material spraying plate (25) is arranged at the upper end of the coating cylinder (24), and a material storage tank (26) is arranged on the material spraying;

collect mechanism (3) including slip post (31), collect frame (32), No. two motors, stirring frame (33), heat preservation lagging (34) and sieve flitch (36), install on mounting bracket (1) inner wall through sliding connection's mode slip post (31), install through the welded mode on slip post (31) and collect frame (32), install No. two motors on collecting frame (32) outside motor cabinet, install stirring frame (33) on No. two motors, stirring frame (33) are located and collect inside frame (32), install heat preservation lagging (34) on collecting frame (32), sieve flitch (36) are evenly installed through sliding connection's mode on heat preservation lagging (34).

2. The underground sewage treatment pipeline anticorrosion treatment process according to claim 1, characterized in that: the material pushing block (22) is provided with a blind hole A which is matched with the material fixing barrel (23) for use, the material pushing block (22) is provided with a pushing column (221) in a welding mode, the inner wall of the blind hole A is uniformly provided with spherical balls capable of moving freely in a bearing connection mode, the end face of the material pushing block (22) is uniformly provided with a material pushing plate (222) in a spring connection mode, and the material pushing plate (222) is of an arc-shaped structure.

3. The underground sewage treatment pipeline anticorrosion treatment process according to claim 1, characterized in that: the utility model discloses a solid feed cylinder, including solid feed cylinder (23), solid feed cylinder (23) go up the mode of connecting through the bearing and evenly install spherical ball that can free motion, through-hole B has evenly been seted up on solid feed cylinder (23), slide post (231) are installed through sliding connection's mode on the solid feed cylinder (23) inner wall, it has spring block (232) to support to lean on post (231), screw bull stick (233) are installed through sliding connection's mode on spring block (232), screw rod (233) are installed on solid feed cylinder (23) through threaded connection's mode, extrusion piece (234) are evenly installed through welded mode on slide post (231), extrusion piece (234) outside is supported and is leaned on interior ejector pin (235), interior ejector pin (235) front end constitutes for the rubber material, the mode that interior ejector pin (235) outside passes through spring connection evenly supports and has been leaned on stabilizer bar (236), stabilizer bar (236) are installed on solid feed cylinder (23) inner wall.

4. The underground sewage treatment pipeline anticorrosion treatment process according to claim 1, characterized in that: scribble and seted up on a brush section of thick bamboo (24) and arrange material through-hole C, arrange evenly on the material through-hole C inner wall and begin to set up row material groove D, scribble about on a brush section of thick bamboo (24) inner wall both ends evenly install through the welded mode and slide branch (241), slide and install brush flitch (242) through spring coupling's mode on branch (241), and slide fixed mounting on branch (241) and have paint brush (243), brush flitch (242) and paint brush (243) staggered arrangement.

5. The underground sewage treatment pipeline anticorrosion treatment process according to claim 4, wherein: coating brush (243) outside is provided with wringing board (2431), and wringing board (2431) is installed on sliding support pole (241) through sliding connection's mode, evenly is provided with wringing hole on wringing board (2431), and wringing hole is the infundibulate structure, and evenly has seted up guiding gutter E on the wringing pore wall.

6. The underground sewage treatment pipeline anticorrosion treatment process according to claim 4, wherein: the groove width of the discharge groove D is gradually reduced from top to bottom, and the groove depth of the discharge groove D is gradually reduced from top to bottom.

7. The underground sewage treatment pipeline anticorrosion treatment process according to claim 1, characterized in that: stirring branch (331) are evenly installed through the mode of rotating the connection on stirring frame (33), and shovel material piece (332) are installed through the mode of rotating the connection on stirring branch (331), and shovel material piece (332) are the boots shape structure, and shovel material piece (332) internally mounted has the heating pipe, and fixed mounting has connecting rod (333) on shovel material piece (332), installs smooth material wheel (334) through the mode of rotating the connection on connecting rod (333).