CN112900411B - Building water supply and drainage pipeline segmentation construction laying device - Google Patents

Abstract

The invention provides a building water supply and drainage pipeline sectional construction laying device which comprises a rack, leveling units and rolling units, wherein linkage grooves are symmetrically formed in the left and right sides of the lower end of the rack; the invention can solve the problems that the existing water supply and drainage pipeline laying device generally directly vibrates the soil and can not scrape the soil, so that the uniformity of the soil can not be ensured, the unevenness of the soil surface is easy to cause, and the stability is lacked; secondly, present water supply and drainage pipeline laying device is mostly after the processing of vibrating to carry out secondary roll extrusion to it, can't realize integrated into one piece processing, consequently increases work load, and can't adjust the roll extrusion weight according to different demands effectively, consequently easily causes water supply and drainage pipeline's fracture to cause and scrap, extravagant cost scheduling problem.

Description

Building water supply and drainage pipeline segmentation construction laying device

Technical Field

The invention relates to the technical field of laying and processing of water supply and drainage pipelines, in particular to a segmented construction laying device for a building water supply and drainage pipeline.

Background

The water supply and drainage pipeline refers to a pipeline used for urban water supply systems, drainage systems, municipal water supply and drainage and building water supply and drainage; the water supply and drainage pipeline is an integral part of a water supply and drainage system, plays an important role in the whole water supply and drainage system, and can play a vital role in water use of factories, mining industry, transportation enterprises, residents and the like; in order to better collect and convey raw water and timely remove industrial wastewater, domestic sewage and rainwater accumulated on road surfaces generated in a factory, when a water supply and drainage system is built, after the water supply and drainage pipelines are laid, the water supply and drainage pipelines need to be filled with soil, and then the soil is compacted to limit and fix the water supply and drainage pipelines.

However, the following problems exist in the current laying and processing of water supply and drainage pipelines: one, current water supply and drainage pipeline laying device directly vibrates the processing to soil generally, can't strickle off soil, consequently can't ensure the degree of consistency of soil, easily causes the unevenness on soil surface, lacks stability.

Secondly, present water supply and drainage pipeline laying device is mostly after the processing of vibrating to carry out secondary roll extrusion to it, can't realize integrated into one piece processing, consequently increases work load, and can't adjust the roll extrusion weight according to different demands effectively, consequently easily causes water supply and drainage pipeline's fracture to cause and scrap, extravagant cost.

Disclosure of Invention

The technical problem to be solved

The invention provides a sectional construction and laying device for building water supply and drainage pipelines, which can solve the problems pointed out in the background technology.

Two technical schemes

In order to achieve the above purposes, the invention adopts the following technical scheme that the building water supply and drainage pipeline segmented construction laying device comprises a rack, a leveling unit and a rolling unit, wherein the lower end of the rack is bilaterally symmetrically provided with linkage grooves, the leveling unit is arranged on the inner wall of the rack, and the rolling unit is arranged on the outer wall of the left end of the rack, wherein:

the frame is including processing shell, driving motor, removal roller and back shaft, wherein: the inside transmission groove of having seted up in processing shell upper end, seted up the linkage groove along processing shell lower extreme bilateral symmetry, driving motor passes through the motor cabinet setting on processing shell right side outer wall, and the back shaft both ends slide to be set up on linkage groove front and back end inner wall, and the right side back shaft is connected with the driving motor output shaft, and back shaft outer wall cover is equipped with the removal roller that slides and set up in the linkage groove.

The flattening unit includes pivot, drive motor, supporting shoe, bearing board, promotion cylinder, linkage block, shock dynamo, amplification spring pole, executive board, wherein: the rotating shaft is symmetrically arranged on the inner wall of the upper end of the processing shell in the front-back direction through a bearing, the rotating shaft is connected in a transmission groove through a belt transmission way, the transmission motor is arranged on the outer wall of the rear rotating shaft part at the upper end of the processing shell through a motor cover, the output shaft of the transmission motor is connected with the rotating shaft through a spline, the lower end of the rotating shaft is provided with a supporting block, a positioning groove is arranged along the lower end of the supporting block, a bearing plate is arranged on the inner side wall of the lower side of the processing shell, a positioning hole corresponding to the positioning groove is arranged along the upper end of the bearing plate, a abdicating groove communicated with the positioning hole is arranged at the lower end of the bearing plate, the pushing cylinder is arranged in the positioning groove, the other end of the pushing cylinder is arranged in the positioning hole, a linkage block which is arranged in the abdicating groove in a sliding way is arranged along the tail end of a telescopic rod of the pushing cylinder, a mounting groove is arranged inside of the linkage block, supporting grooves are evenly arranged at the lower end of the linkage block in the circumferential direction, and the vibrating motor is arranged in the mounting groove, and the execution plate is installed to the shock dynamo output, and execution plate upper end supports and leans on linkage piece lower extreme outer wall, and increase spring lever one end is installed in supporting the inslot, and the other end is connected on execution plate upper end outer wall.

The roll-in unit includes baffle, backup pad, support spring bar, pressure flat board, universal driving shaft and repressurization subassembly, wherein: the baffle longitudinal symmetry sets up on processing shell left end outer wall, and the backup pad setting is on the baffle inside wall, along backup pad lower extreme from the front to the back evenly install supporting spring pole, and supporting spring pole lower extreme is provided with the pressure flat board, and the bearing setting is passed through on the baffle inside wall to the linkage shaft longitudinal symmetry, and the linkage shaft inside wall is provided with the repressing subassembly.

As a preferred technical scheme of the invention, the repressing component comprises a base roller, a bidirectional cylinder, a push block, a push rod, a top plate, a rubber fixing block, a return spring and a weight increasing block, wherein: the base roller is arranged on the inner side wall of the universal driving shaft, a fixing groove is arranged in the base roller, a sliding groove is formed by extending outwards along the fixing groove, connecting holes communicated with the sliding groove are uniformly formed in the circumferential direction of the outer wall of the sliding groove, a reset groove communicated with the connecting hole is formed in the other end of the connecting hole, a discharging hole communicated with the reset groove is formed in the outer side of the reset groove, the bidirectional air cylinder is arranged in the fixing groove, the tail end of a telescopic rod of the bidirectional air cylinder is connected with a push block which is slidably arranged in the sliding groove, the outer side wall of the push block is circumferentially and uniformly slid and abutted against a push rod which is slidably arranged in the connecting hole, the other end of the push rod is connected with a top plate which is slidably arranged in the reset groove, the reset spring is sleeved on the outer wall of the push rod, one end of the reset spring is arranged on the inner wall of the reset groove, the other end of the push rod is arranged on the inner side wall of the top plate, a rubber fixing block is arranged on the outer side wall of the discharging hole in a sliding manner, and the rubber fixed block is propped against the inner side wall of the weight increasing block.

As a preferable technical scheme of the invention, the lower end of the execution plate is uniformly provided with execution contact rods for flattening soil from inside to outside in the circumferential direction.

As a preferable technical solution of the present invention, the push block has a conical structure for pushing the plurality of push rods outward in synchronization.

As a preferable technical scheme of the invention, the lower end of the flattening plate is uniformly provided with an execution column for flattening soil in a sliding manner from left to right.

As a preferable technical scheme of the invention, the lower end of the execution feeler lever is in a conical structure with the diameter gradually reduced from top to bottom for reducing the resistance.

Three beneficial effects

1. The invention greatly improves the laying processing of the water supply and drainage pipelines, and can solve the problems that the existing water supply and drainage pipeline laying device generally directly vibrates the soil and cannot scrape the soil, so that the uniformity of the soil cannot be ensured, unevenness on the surface of the soil is easy to cause, and the stability is lacked; secondly, present water supply and drainage pipeline laying device is mostly after the processing of vibrating to carry out secondary roll extrusion to it, can't realize integrated into one piece processing, consequently increases work load, and can't adjust the roll extrusion weight according to different demands effectively, consequently easily causes water supply and drainage pipeline's fracture to cause and scrap, extravagant cost scheduling problem.

2. The leveling unit is arranged, so that the paved and filled soil can be uniformly scraped in a rotating mode, and the soil can be vibrated, so that the uniform scraping can be ensured, gaps among the soil can be avoided, and the stability of the soil can be enhanced.

3. The rolling unit is arranged, the leveling unit can be matched to carry out multi-stage rolling treatment on the scraped soil, and the rolling weight can be adjusted according to different requirements, so that the fracture of the water supply and drainage pipeline can be effectively prevented, the rejection rate is reduced, and the cost is saved.

4. The soil rolling device is provided with the repressing assembly, and the weighting block can be replaced by matching with the rolling unit according to the bearing of the water supply and drainage pipeline so as to adjust the weight of the matrix roller, thereby better performing rolling treatment on the soil.

Drawings

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

Fig. 1 is a front sectional view of the present invention.

FIG. 2 is a sectional view taken along line A-A of FIG. 1 of the present invention.

FIG. 3 is a cross-sectional view taken along line B-B of FIG. 1 of the present invention.

Figure 4 is a schematic partial perspective view of the flattening unit of the present invention.

Fig. 5 is a partial schematic structural view of a repressing assembly according to the 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 5, the construction and laying device for the building water supply and drainage pipeline by sections comprises a frame 1, a leveling unit 2 and a rolling unit 3, wherein the lower end of the frame 1 is bilaterally symmetrical and provided with linkage grooves 112, the leveling unit 2 is arranged on the inner wall of the frame 1, and the rolling unit 3 is arranged on the outer wall of the left end of the frame 1, wherein:

the frame 1 includes a processing shell 11, a driving motor 12, a moving roller 13 and a supporting shaft 14, wherein: a transmission groove 111 is formed in the upper end of the processing shell 11, linkage grooves 112 are symmetrically formed in the left and right sides of the lower end of the processing shell 11, the driving motor 12 is arranged on the outer wall of the right side of the processing shell 11 through a motor base, two ends of the supporting shaft 14 are slidably arranged on the inner walls of the front end and the rear end of the linkage grooves 112, the right supporting shaft 14 is connected with an output shaft of the driving motor 12, and the outer wall of the supporting shaft 14 is sleeved with a moving roller 13 slidably arranged in the linkage grooves 112; during specific work, the driving motor 12 is turned on, the driving motor 12 drives the moving roller 13 to rotate through the supporting shaft 14, and therefore the device can be moved to a specified place and can be moved for construction.

The leveling unit 2 comprises a rotating shaft 21, a transmission motor 22, a supporting block 23, a supporting plate 24, a pushing cylinder 25, a linkage block 26, a vibration motor 27, an amplification spring rod 28 and an execution plate 29, wherein: the rotating shaft 21 is arranged on the inner wall of the upper end of the processing shell 11 in a front-back symmetrical manner through a bearing, the rotating shaft 21 is connected with the transmission groove 111 through belt transmission, the transmission motor 22 is arranged on the outer wall of the rotating shaft 21 at the rear side of the upper end of the processing shell 11 through a motor cover, the output shaft of the transmission motor 22 is connected with the rotating shaft 21 through a spline, the lower end of the rotating shaft 21 is provided with a supporting block 23, a positioning groove 231 is arranged along the lower end of the supporting block 23, a bearing plate 24 is arranged on the inner wall of the lower side of the processing shell 11, the upper end of the bearing plate 24 is provided with a positioning hole 241 corresponding to the positioning groove 231, the lower end of the bearing plate 24 is provided with a yielding groove 242 communicated with the positioning hole 241, the pushing cylinder 25 is arranged in the positioning groove 231, the other end of the pushing cylinder 25 is arranged in the positioning hole 241, a linkage block 26 which is arranged in the yielding groove 242 in a sliding manner is arranged along the tail end of a telescopic rod of the pushing cylinder 25, and a mounting groove 261 is arranged in the linkage block 26, supporting grooves 262 are uniformly formed in the circumferential direction of the lower end of the linkage block 26, the vibration motor 27 is arranged in the mounting groove 261, the execution plate 29 is arranged at the output end of the vibration motor 27, and execution contact rods 291 for flattening soil are uniformly arranged on the lower end of the execution plate 29 from inside to outside in the circumferential direction; the lower end of the actuating feeler lever 291 is a conical structure with the diameter gradually reduced from top to bottom for reducing resistance; the upper end of the execution plate 29 is abutted against the outer wall of the lower end of the linkage block 26, one end of the amplification spring rod 28 is arranged in the supporting groove 262, and the other end is connected to the outer wall of the upper end of the execution plate 29; during specific work, the transmission motor 22 is opened, the transmission motor 22 drives the supporting block 23 to rotate through the rotating shaft 21, the pushing cylinder 25 is opened at the moment, the pushing cylinder 25 pushes the linkage block 26 to move downwards, the supporting block 23 drives the linkage block 26 and the execution plate 29 to rotate through the pushing cylinder 25, so that the execution plate 29 is matched with the execution contact rod 291 to conduct rotary type scraping treatment on the soil which is completely paved and filled, the vibration motor 27 is opened in the process, the vibration motor 27 is matched with the amplification spring rod 28 to drive the execution plate 29 and the execution contact rod 291 to enhance the scraping effect on the soil, and the rolling unit 3 is convenient to roll and treat the soil.

The rolling unit 3 comprises a baffle 31, a support plate 32, a support spring rod 33, a pressing plate 34, a linkage shaft 35 and a re-pressing component 36, wherein: the baffle 31 is symmetrically arranged on the outer wall of the left end of the processing shell 11 in a front-back manner, the supporting plate 32 is arranged on the inner side wall of the baffle 31, supporting spring rods 33 are uniformly arranged along the lower end of the supporting plate 32 from front to back, a pressing plate 34 is arranged at the lower end of each supporting spring rod 33, and an execution column 341 for flattening soil is uniformly arranged at the lower end of each pressing plate 34 in a sliding manner from left to right; the linkage shaft 35 is symmetrically arranged on the inner side wall of the baffle 31 in front and back through a bearing, and a repressing component 36 is arranged on the inner side wall of the linkage shaft 35; during specific work, the baffle 31 moves along with the processing shell 11, at the moment, the supporting plate 32 is matched with the supporting spring rod 33 to support the pressing plate 34 downwards, so that the pressing plate 34 is matched with the execution column 341 to perform primary flattening treatment on the scraped soil, and further, secondary rolling treatment is performed on the soil through the re-pressing assembly 36.

The repressing assembly 36 comprises a base roller 361, a bidirectional air cylinder 362, a push block 363, a push rod 364, a top plate 365, a rubber fixing block 366, a return spring 367 and a weight increasing block 368, wherein: the base body roller 361 is installed on the inner side wall of the linkage shaft 35, a fixing groove 3611 is formed in the base body roller 361, a sliding groove 3612 is formed in the outer side of the fixing groove 3611 in an extending mode, connecting holes 3613 communicated with the sliding groove 3612 are evenly formed in the circumferential direction of the outer wall of the sliding groove 3612, a resetting groove 3614 communicated with the connecting hole 3613 is formed in the other end of the connecting hole 3613, a discharging hole 3615 communicated with the resetting groove 3614 is formed in the outer side of the resetting groove 3614, the bidirectional cylinder 362 is installed in the fixing groove 3611, the tail end of a telescopic rod of the bidirectional cylinder 362 is connected with a push block 363 slidably arranged in the sliding groove 3612, and the push block 363 is a conical structure used for synchronously pushing the push rods 364 outwards; the outer side wall of the push block 363 is circumferentially and evenly slid to abut against a push rod 364 which is slidably arranged in the connecting hole 3613, the other end of the push rod 364 is connected with a top plate 365 which is slidably arranged in the reset groove 3614, a reset spring 367 is sleeved on the outer wall of the push rod 364, one end of the reset spring 367 is arranged on the inner wall of the reset groove 3614, the other end of the reset spring 367 is arranged on the inner side wall of the top plate 365, the outer side wall of the top plate 365 is provided with a rubber fixing block 366, the weight increasing block 368 is slidably arranged in the discharging hole 3615, and the rubber fixing block 366 abuts against the inner side wall of the weight increasing block 368; when the roller pressing device works specifically, an operator places the weight-increasing block 368 in the discharging hole 3615 according to the rolling requirement, the bidirectional cylinder 362 is opened at the moment, the bidirectional cylinder 362 drives the push block 363 to move outwards, the push block 363 is matched with the push rod 364 and the connecting hole 3613 to extrude the top plate 365 outwards, so that the top plate 365 drives the rubber fixing block 366 to move outwards to be matched with the discharging hole 3615 to extrude and fix the weight-increasing block 368, and at the moment, the base roller 361 rotates under the action of the linkage shaft 35 matched with the baffle 31, so that the base roller 361 can enhance the rolling effect under the amplification of the weight-increasing block 368; when the weight 368 needs to be replaced, the bidirectional cylinder 362 drives the push block 363 to retract and reset, and at the moment, the push rod 364 drives the top plate 365 and the rubber fixing block 366 to retract and reset through the reset spring 367, so that the extrusion effect on the weight 368 is eliminated, and the weight 368 is convenient to replace.

During operation

The first step is as follows: the operator turns on the driving motor 12, and the driving motor 12 drives the moving roller 13 to rotate through the supporting shaft 14, so that the device is moved to a designated place, and the moving construction can be realized.

The second step is that: the transmission motor 22 is turned on, the transmission motor 22 drives the supporting block 23 to rotate through the rotating shaft 21, the pushing cylinder 25 is turned on at the moment, the pushing cylinder 25 pushes the linkage block 26 to move downwards, the supporting block 23 drives the linkage block 26 and the execution plate 29 to rotate through the pushing cylinder 25, so that the execution plate 29 is matched with the execution contact rod 291 to conduct rotary type scraping treatment on the paved and filled soil, the vibration motor 27 is turned on in the period, the vibration motor 27 is matched with the amplification spring rod 28 to drive the execution plate 29 and the execution contact rod 291 to enhance the scraping effect on the soil, and the rolling unit 3 is convenient to conduct rolling treatment on the soil.

The third step: the baffle 31 moves along with the processing shell 11, at this time, the support plate 32 cooperates with the support spring rod 33 to support the pressing plate 34 downwards, so that the pressing plate 34 cooperates with the execution column 341 to perform primary flattening treatment on the scraped soil; before that, an operator places the weight-increasing block 368 in the discharging hole 3615 according to rolling requirements, at the moment, the bidirectional cylinder 362 is opened, the bidirectional cylinder 362 drives the push block 363 to move outwards, the push block 363 is matched with the push rod 364 and the connecting hole 3613 to extrude the top plate 365 outwards, so that the top plate 365 drives the rubber fixing block 366 to move outwards to be matched with the discharging hole 3615 to extrude and fix the weight-increasing block 368, at the moment, the base roller 361 rotates under the action of the linkage shaft 35 matched with the baffle 31, the rolling effect of the base roller 361 under the amplitude of the weight-increasing block 368 can be enhanced, and further, secondary rolling treatment can be carried out on soil; when the weight 368 needs to be replaced, the bidirectional cylinder 362 drives the push block 363 to retract and reset, and at the moment, the push rod 364 drives the top plate 365 and the rubber fixing block 366 to retract and reset through the reset spring 367, so that the extrusion effect on the weight 368 is eliminated, and the weight 368 is convenient to replace according to the rolling requirement.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (5)

1. The utility model provides a building water supply and drainage pipeline segmentation construction laying device, includes frame (1), flattening unit (2) and roll-in unit (3), its characterized in that: frame (1) lower extreme bilateral symmetry has seted up linkage groove (112), and flattening unit (2) set up on frame (1) inner wall, and roll-in unit (3) are installed on frame (1) left end outer wall, wherein:

frame (1) is including processing shell (11), driving motor (12), removal roller (13) and back shaft (14), wherein: a transmission groove (111) is formed in the upper end of the processing shell (11), linkage grooves (112) are symmetrically formed in the left and right directions along the lower end of the processing shell (11), the driving motor (12) is arranged on the outer wall of the right side of the processing shell (11) through a motor base, two ends of the supporting shaft (14) are arranged on the inner walls of the front end and the rear end of the linkage grooves (112) in a sliding mode, the right supporting shaft (14) is connected with an output shaft of the driving motor (12), and the outer wall of the supporting shaft (14) is sleeved with a moving roller (13) which is arranged in the linkage grooves (112) in a sliding mode;

leveling unit (2) are including pivot (21), driving motor (22), supporting shoe (23), bearing board (24), promote cylinder (25), linkage piece (26), shock dynamo (27), amplification spring pole (28), execution board (29), wherein: the rotating shaft (21) is symmetrically arranged on the inner wall of the upper end of the processing shell (11) in a front-back manner through a bearing, the rotating shaft (21) is connected with the transmission groove (111) through belt transmission, the transmission motor (22) is arranged on the outer wall of the rotating shaft (21) at the rear side of the upper end of the processing shell (11) through a motor cover, an output shaft of the transmission motor (22) is connected with the rotating shaft (21) through a spline, a supporting block (23) is arranged at the lower end of the rotating shaft (21), a positioning groove (231) is formed along the lower end of the supporting block (23), a supporting plate (24) is arranged on the inner side wall of the lower side of the processing shell (11), a positioning hole (241) corresponding to the positioning groove (231) is formed along the upper end of the supporting plate (24), a position-avoiding groove (242) communicated with the positioning hole (241) is formed at the lower end of the supporting plate (24), a pushing cylinder (25) is arranged in the positioning groove (231), and the other end of the pushing cylinder (25) is arranged in the positioning hole (241), the linkage block (26) which is arranged in the abdicating groove (242) in a sliding mode is installed along the tail end of the telescopic rod of the pushing cylinder (25), a mounting groove (261) is formed in the linkage block (26), supporting grooves (262) are evenly formed in the circumferential direction of the lower end of the linkage block (26), the vibration motor (27) is arranged in the mounting groove (261), an execution plate (29) is installed at the output end of the vibration motor (27), the upper end of the execution plate (29) abuts against the outer wall of the lower end of the linkage block (26), one end of the amplification spring rod (28) is installed in the supporting groove (262), and the other end of the amplification spring rod is connected to the outer wall of the upper end of the execution plate (29);

the rolling unit (3) comprises a baffle (31), a support plate (32), a support spring rod (33), a pressing plate (34), a linkage shaft (35) and a re-pressing assembly (36), wherein: the baffle (31) is symmetrically arranged on the outer wall of the left end of the processing shell (11) in the front-back direction, the supporting plate (32) is arranged on the inner side wall of the baffle (31), supporting spring rods (33) are uniformly arranged along the lower end of the supporting plate (32) from front to back, the lower end of each supporting spring rod (33) is provided with a pressing plate (34), the linkage shafts (35) are symmetrically arranged on the inner side wall of the baffle (31) in the front-back direction through bearings, and the inner side wall of each linkage shaft (35) is provided with a re-pressing assembly (36);

the repressing assembly (36) comprises a base roller (361), a bidirectional air cylinder (362), a push block (363), a push rod (364), a top plate (365), a rubber fixing block (366), a return spring (367) and a weight increasing block (368), wherein: the base body roller (361) is arranged on the inner side wall of the linkage shaft (35), a fixing groove (3611) is formed in the base body roller (361), a sliding groove (3612) is formed in the outer side of the fixing groove (3611) in an extending mode, connecting holes (3613) communicated with the sliding groove (3612) are uniformly formed in the circumferential direction of the outer wall of the sliding groove (3612), a resetting groove (3614) communicated with the connecting hole (3613) is formed in the other end of the connecting hole (3613), a discharging hole (3615) communicated with the resetting groove (3614) is formed in the outer side of the resetting groove (3614), a bidirectional cylinder (362) is arranged in the fixing groove (3611), a push block (363) slidably arranged in the sliding groove (3612) is connected to the tail end of a telescopic rod of the bidirectional cylinder (362), a push rod (364) slidably arranged in the connecting hole (3613) is slidably abutted in the circumferential direction of the outer side wall of the push block (363) in a sliding mode, a top plate (365) slidably arranged in the resetting groove (3614) is connected to the other end of the push rod (364), reset spring (367) cover is established on push rod (364) outer wall, and reset spring (367) one end is installed on reset groove (3614) inner wall, and the other end sets up on roof (365) inside wall, and roof (365) lateral wall is provided with rubber fixed block (366), and weight increase piece (368) slide to be set up in blowing hole (3615), and rubber fixed block (366) support and lean on weight increase piece (368) inside wall.

2. The device for constructing and paving the water supply and drainage pipeline sections of the building according to claim 1, wherein: and execution contact rods (291) used for flattening soil are uniformly arranged at the lower end of the execution plate (29) from inside to outside in the circumferential direction.

3. The device for constructing and paving the water supply and drainage pipeline sections of the building according to claim 1, wherein: the push block (363) is a conical structure used for pushing a plurality of push rods (364) outwards synchronously.

4. The device for constructing and paving the water supply and drainage pipeline sections of the building according to claim 1, wherein: the lower end of the flattening plate (34) is provided with an execution column (341) for flattening soil in a sliding mode from left to right.

5. The device for constructing and paving the water supply and drainage pipeline of the building according to claim 2, wherein: the lower end of the actuating feeler lever (291) is a conical structure with the diameter gradually reduced from top to bottom for reducing resistance.

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