CN111622328B

CN111622328B - Municipal administration sewage blow off pipe lays construction system

Info

Publication number: CN111622328B
Application number: CN202010504830.3A
Authority: CN
Inventors: 张金峰; 伍勇军
Original assignee: Zhejiang Ronghui Construction Co ltd
Current assignee: Zhejiang Ronghui Construction Co.,Ltd.
Priority date: 2020-06-05
Filing date: 2020-06-05
Publication date: 2021-05-11
Anticipated expiration: 2040-06-05
Also published as: CN111622328A

Abstract

The invention relates to a municipal sewage drain pipe laying construction system which comprises a base, a supporting cylinder, a top plate, an adjusting cylinder, a linkage plate, a driven plate, a locking mechanism and a traction mechanism, wherein the base is of an arc structure, the supporting cylinder is arranged at the left end and the right end of the upper end surface of the base, the top plate is arranged at the top end of the supporting cylinder, sliding grooves are symmetrically formed in the left side and the right side of the top plate, the adjusting cylinder is arranged in the middle of the upper end surface of the top plate, the linkage plate is arranged at the top end of the adjusting cylinder, the driven plate is symmetrically arranged at the left side and the right side of the lower end of the linkage plate, the driven plate penetrates through the sliding grooves in the top plate, the locking mechanism is arranged at the lower; the invention can solve the problems existing in the prior pipeline laying process when the corner is laid: the bent pipe and the straight pipe can not be accurately and stably butted manually; low automation degree and the like.

Description

Municipal administration sewage blow off pipe lays construction system

Technical Field

The invention relates to the technical field of sewage pipe construction, in particular to a municipal sewage drain pipe laying construction system.

Background

The pipeline is a device which is formed by connecting pipes, pipe connecting pieces, valves and the like and is used for conveying gas, liquid or fluid with solid particles, has wide application range, and is mainly used for water supply, water drainage, heat supply, gas supply, long-distance conveying of oil and natural gas, agricultural irrigation, hydraulic engineering and various industrial devices.

To laying of municipal administration sewage blow off pipe do not have auxiliary assembly in the existing market, lay the pipeline manually usually, when the corner of pipeline is met to the laying process of sewage pipes, need use the return bend transition, then straight tube is installed in the both sides of return bend to rethread pipe fitting connector or welded mode, when the straight tube of installation return bend and its both sides, has following problem usually:

1. because the bent pipe cannot be stably locked, the hole of the bent pipe is difficult to align with the hole of the straight pipe, and the stability after manual butt joint is poor, so that the subsequent pipe fitting connecting piece is difficult to install or has poor welding effect;

2. the holes of the straight pipe and the bent pipe can be aligned only by the cooperation of a plurality of persons, so that the automation degree is low;

3. the straight pipe on one side of the bent pipe can be installed or welded at one time, and the construction efficiency is low.

Disclosure of Invention

In order to solve the problems, the invention provides a municipal sewage drain pipe laying construction system which comprises a base, a supporting cylinder, a top plate, an adjusting cylinder, a linkage plate, a driven plate, a locking mechanism and a traction mechanism, wherein the base is of an arc structure, the supporting cylinder is respectively arranged at the left end and the right end of the upper end surface of the base, the top plate is arranged at the top end of the supporting cylinder, sliding grooves are symmetrically formed in the left side and the right side of the top plate, the adjusting cylinder is arranged in the middle of the upper end surface of the top plate, the linkage plate is arranged at the top end of the adjusting cylinder, the driven plate is symmetrically arranged at the left side and the right side of the lower end of the linkage plate, penetrates through the sliding grooves in the top plate, the locking mechanism is arranged at the lower end of; the invention can stably lock the elbow and the straight pipes on the two sides of the elbow, and then pull the straight pipes to ensure that the holes of the straight pipes can stably align with the holes of the elbow.

The locking mechanism comprises a first locking plate, a second locking plate, a mounting plate, a first bearing bracket, a second bearing bracket, a pin and a locking branched chain, wherein the first locking plate is arranged at the lower end of the driven plate, the second locking plate is arranged on the upper end surface of the base through the mounting plate, the second locking plate corresponds to the first locking plate in position, the mounting plate is connected with the base in a sliding fit manner, the first bearing bracket is symmetrically arranged on the left side and the right side of the lower end surface of the top plate, the first bearing bracket is positioned at the inner side of the first locking plate, the second bearing bracket is symmetrically arranged on the left side and the right side of the upper end surface of the base, the second bearing bracket corresponds to the first bearing bracket in position, the pin is symmetrically arranged at the lower ends of the first locking plate and the first bearing bracket, locking holes are uniformly arranged on the pin, pin holes are symmetrically arranged on the upper end surfaces of the second locking plate and the second bearing bracket, and the pin holes correspond to the pin in position, the locking branched chains are arranged on the inner side and the outer side of the second supporting bracket; during specific work, locking mechanism can align the pore of return bend and straight tube, then lock, at first place the return bend on second holds bracket up end, support cylinder drives first support bracket downstream through the roof and carries on spacingly with the both sides of return bend, then on putting the straight tube into second locking board up end, adjusting cylinder drives first locking board through linkage board and driven plate and carries on spacingly with the straight tube downwards, then the rethread locking branch chain can be locked by the return bend after spacing and the straight tube of its both sides, and locking mechanism can also lock the pipeline of different diameters.

As a preferred technical scheme of the invention, the locking branched chain comprises a bearing plate, a bidirectional cylinder, an arc plate, an arc baffle, an installation block, a sliding block, a locking plate, a sliding plate and a locking rod, wherein the bearing plate is arranged on the inner side of a second bearing bracket positioned at the left end of the base, the bidirectional cylinder is arranged on the upper end surface of the bearing plate, the arc plate is arranged on the outer side of the bidirectional cylinder, the arc baffle is arranged on the inner side of the bidirectional cylinder, the installation block is arranged below the arc plate and the arc baffle in a sliding fit manner, the lower end of the installation block is arranged on the upper end surface of the base, the sliding block, the locking plate and the sliding plate are sequentially arranged on the inner side of the arc plate and the outer right end of the arc baffle from left to right, the sliding block, the locking, The left second of base holds the bracket, the second on base right side holds the bracket and the second locking plate on base right side is corresponding in position, and the sliding block, the locking block, all install the check lock lever on lockplate and the sliding plate, concrete during operation, the locking branched chain can be locked by the return bend after spacing and the straight tube of its both sides, by spacing back when the straight tube of return bend and its both sides, two-way cylinder passes through arc and cowl and can drive the sliding block, the locking block, the lockplate, the sliding plate outwards removes, thereby it is downthehole to make the check lock lever can insert the locking on the round pin post, make return bend and straight tube can be locked.

As a preferred technical scheme of the invention, the traction mechanism comprises a driven baffle, a first rack, a sliding bottom plate, a second rack, a sliding frame, a cylinder bottom plate, a traction cylinder and a cylinder top plate, wherein the driven baffle is respectively arranged on the outer side of a mounting plate at the outer end of the left side of the base and the outer side of a mounting plate at the outer end of the right side of the base, the lower end surface of the driven baffle is attached to the upper end surface of the base, the first rack is arranged on the inner side of the driven baffle at the left side of the base, the sliding bottom plate is arranged in the middle of the first rack in a sliding fit manner, the second rack is arranged on the inner side of the driven baffle at the right side of the base, the sliding frame is arranged in the middle of the second rack in a sliding fit manner, the lower end of the sliding frame is arranged on the upper end surface of the base, the teeth at the upper end, the inner side of the sliding bottom plate is provided with a cylinder bottom plate, the inner side of the cylinder bottom plate is provided with a traction cylinder, and the inner end of the traction cylinder is arranged on the inner side surface of the first rack through a cylinder top plate; when the pipe bender works, the traction mechanism can synchronously and inwards pull the straight pipes on the two sides of the bent pipe, after the bent pipe and the straight pipes are locked, the traction cylinder can drive the first rack to perform linear motion through the cylinder top plate, the first rack can drive the second rack to perform synchronous linear motion through a meshed mode when performing linear motion, when the first rack and the second rack perform synchronous linear motion, the mounting plate and the second locking plate can be driven to move inwards through the driven baffle, the straight pipes can be driven to move inwards when the second locking plate moves inwards, holes of the straight pipes can be attached to the holes of the bent pipe, and therefore subsequent welding or installation of pipe connector is facilitated.

As a preferred technical solution of the present invention, the opening directions of the locking holes on the pins at the inner sides of the first locking plate and the second locking plate are the same, the opening directions of the locking holes on the pins at the outer sides of the first locking plate and the second locking plate are the same, and the pin holes on the pins at the inner and outer sides of the first locking plate and the second locking plate both correspond to the output direction of the bidirectional cylinder.

As a preferred technical scheme of the present invention, the upper end surfaces of the first locking plate, the first support bracket, the lower end surface of the second locking plate, and the second support bracket are all arc structures, the arc structures can increase the contact area with the outer side surface of the pipe, so that the pipe can be more stably limited, and the rubber pads are disposed on the first locking plate, the lower end surface of the first support bracket, the second locking plate, and the upper end surface of the second support bracket, and can increase the friction force between the first locking plate, the first support bracket, the second locking plate, and the second support bracket and the pipe, so that the pipe can be more stably placed.

The invention has the beneficial effects that:

the invention can stably lock the elbow, the hole of the straight pipe can be more easily aligned with the hole of the elbow, the invention can lock the straight pipe after the elbow is locked, so that the straight pipe can stably keep the same horizontal line with the elbow, the invention can also synchronously pull the locked straight pipes on two sides of the elbow inwards, so that the hole of the straight pipe can be attached to the hole of the elbow, thereby facilitating the subsequent welding or the installation of pipe fittings, and the invention can also lock and pull the pipe fittings with different diameters, thereby increasing the usability of the invention;

the straight pipe can be locked after the bent pipe is locked through the limiting mechanism, so that the straight pipe and the bent pipe on two sides of the bent pipe are positioned on the same horizontal plane, and compared with the existing manual lifting pipe fitting, the stability of locking the bent pipe and the straight pipe is improved, the alignment and locking efficiency of the bent pipe and the straight pipe is improved, and the alignment accuracy of the bent pipe and the straight pipe is also improved;

the locked straight pipes on the two sides of the elbow can be synchronously pulled inwards through the traction mechanism, so that the holes of the straight pipes can be attached to the holes of the elbow, compared with the existing method for manually aligning the pipe fitting interface, the method improves the stability after alignment between the elbow and the straight pipes, improves the efficiency when the straight pipes are aligned to the elbow, and is convenient for subsequent welding or installation of pipe fitting connectors;

the locking mechanism can be driven to lock the pipe fittings with different diameters through the supporting cylinder, so that the usability of the locking mechanism is improved.

Drawings

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

FIG. 1 is a schematic view of the structure between the present invention and a bent pipe and a straight pipe;

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

FIG. 3 is a schematic structural diagram of the locking mechanism of the present invention, with the linkage plate and the base, except for the mounting plate and the pin;

fig. 4 is a schematic view of the structure between the traction mechanism and the second locking plate, mounting plate and base of the present invention.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained below by combining the specific drawings. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

As shown in figures 1 to 4, the municipal sewage drain pipe laying construction system comprises a base 1, a supporting cylinder 2, a top plate 3 and an adjusting cylinder 4, the base 1 is of an arc-shaped structure, supporting cylinders 2 are mounted at the left end and the right end of the upper end face of the base 1, a top plate 3 is mounted at the top end of each supporting cylinder 2, sliding grooves are symmetrically formed in the left side and the right side of each top plate 3, an adjusting cylinder 4 is mounted in the middle of the upper end face of each top plate 3, a linkage plate 5 is mounted at the top end of each adjusting cylinder 4, driven plates 6 are symmetrically mounted at the left side and the right side of the lower end of each linkage plate 5, each driven plate 6 penetrates through the corresponding sliding groove in each top plate 3, a locking mechanism 7 is mounted at the lower end of each driven plate 6, the lower end face of each locking mechanism 7 is mounted on the upper end face of the base 1, a traction mechanism 8 is mounted; the invention can stably lock the elbow and the straight pipes on the two sides of the elbow, and then pull the straight pipes, so that the holes of the straight pipes can stably align with the holes of the elbow, firstly, the elbow is put into the locking mechanism 7, then, the supporting cylinder 2 drives the locking mechanism 7 to lock the elbow, then, the straight pipes are put into the locking mechanism 7, the adjusting cylinder 4 drives the locking mechanism 7 to lock the straight pipes through the linkage plate 5 and the driven plate 6, and then, the straight pipes on the two sides of the elbow can be simultaneously pulled inwards through the pulling mechanism 8, so that the holes of the straight pipes can stably align with the holes of the elbow, thereby facilitating the subsequent welding or the installation of pipe fittings connecting parts.

The locking mechanism 7 comprises a first locking plate 71, a second locking plate 72, a mounting plate 73, a first supporting bracket 74, a second supporting bracket 75, a pin 76 and a locking branch chain 77, wherein the first locking plate 71 is mounted at the lower end of the driven plate 6, the second locking plate 72 is mounted on the upper end surface of the base 1 through the mounting plate 73, the second locking plate 72 corresponds to the first locking plate 71 in position, the mounting plate 73 is connected with the base 1 in a sliding fit manner, the first supporting bracket 74 is symmetrically mounted on the lower end surface of the top plate 3 on the left side and the right side, the first supporting bracket 74 is located on the inner side of the first locking plate 71, the second supporting bracket 75 is symmetrically mounted on the upper end surface of the base 1 on the left side and the right side, the second supporting bracket 75 corresponds to the first supporting bracket 74 in position, the pin 76 is symmetrically mounted on the lower ends of the first locking plate 71 and the first supporting bracket 74, and locking holes are uniformly formed on the pin 76, pin holes are symmetrically formed in the upper end faces of the second locking plate 72 and the second supporting bracket 75, the positions of the pin holes correspond to the positions of the pins 76, and the locking branched chains 77 are arranged on the inner side and the outer side of the second supporting bracket 75; during specific work, locking mechanism can align the pore of return bend and straight tube, then lock, at first place the return bend on second holds bracket 75 up end, support cylinder 2 drives first support bracket 74 through roof 3 and moves down and carry on spacingly with the both sides of return bend, then put into the straight tube on second locking plate 72 up end, adjusting cylinder 4 drives first jam plate 71 through linkage plate 5 and driven plate 6 and carries on spacingly with the straight tube downwards, then can lock the straight tube of return bend and its both sides after being spacing through locking branch chain 77 again, and locking mechanism 7 can also lock the pipeline of different diameters.

The pipe fitting locking device is characterized in that the lower end faces of the first locking plate 71 and the first supporting bracket 74 and the upper end faces of the second locking plate 72 and the second supporting bracket 75 are both arc-shaped structures, the arc-shaped structures can increase the contact area with the outer side face of a pipe fitting, so that the pipe fitting can be more stably limited, rubber pads are arranged on the lower end faces of the first locking plate 71 and the first supporting bracket 74 and the upper end faces of the second locking plate 72 and the second supporting bracket 75, the rubber pads can increase the friction force between the first locking plate 71, the first supporting bracket 74, the second locking plate 72, the second supporting bracket 75 and the pipe fitting, and the pipe fitting can be more stably placed.

The locking branched chain 77 comprises a supporting plate 771, a bidirectional cylinder 772, an arc plate 773, an arc baffle 774, an installation block 775, a sliding block 776, a locking block 777, a locking plate 778, a sliding plate 779 and a locking rod 7710, the supporting plate 771 is installed on the inner side of a second supporting bracket 75 positioned at the left end of the base 1, the bidirectional cylinder 772 is installed on the upper end face of the supporting plate 771, the arc plate 773 is installed on the outer side of the bidirectional cylinder 772, the arc baffle 774 is installed on the inner side of the bidirectional cylinder 772, the installation block 775 is installed below the arc plate 773 and the arc baffle 774 in a sliding fit manner, the lower end of the installation block 775 is installed on the upper end face of the base 1, the sliding block 776, the locking block 777, the locking plate 778 and the sliding plate 779 are sequentially installed on the inner side of the arc plate 773 and the outer side face of the arc baffle 774 from left to right, the sliding block 778 and the, the positions of the sliding block 776, the locking block 777, the locking plate 778 and the sliding plate 779 correspond to the positions of the second locking plate 72 on the left side of the base 1, the second support bracket 75 on the right side of the base 1 and the second locking plate 72 on the right side of the base 1, and the locking rods 7710 are installed on the sliding block 776, the locking block 777, the locking plate 778 and the sliding plate 779, during specific work, the bent pipe after being limited and the straight pipes on two sides of the bent pipe can be locked by the locking branched chain 77, and after the bent pipe and the straight pipes on two sides of the bent pipe are limited, the bidirectional cylinder 772 can drive the sliding block 776, the locking block 777, the locking plate 778 and the sliding plate 779 to move outwards through the arc plate 773 and the arc baffle 774, so that the locking rods 7710 can be inserted into.

The opening directions of the locking holes on the pins 76 on the inner sides of the first locking plate 71 and the second locking plate 72 are consistent, the opening directions of the locking holes on the pins 76 on the outer sides of the first locking plate 71 and the second locking plate 72 are consistent, the pin holes on the pins 76 on the inner sides and the outer sides of the first locking plate 71 and the second locking plate 72 correspond to the output direction of the bidirectional cylinder 772, and the locking rod 7710 can be inserted into the locking holes on the pins 76 through one bidirectional cylinder 772 during specific work.

The traction mechanism 8 comprises a driven baffle 81, a first rack 82, a sliding bottom plate 83, a second rack 84, a sliding frame 85, a cylinder bottom plate 86, a traction cylinder 87 and a cylinder top plate 88, wherein the driven baffle 81 is respectively arranged on the outer side of a mounting plate 73 at the outer end of the left side of the base 1 and the outer side of the mounting plate 73 at the outer end of the right side of the base 1, the lower end surface of the driven baffle 81 is attached to the upper end surface of the base 1, the first rack 82 is arranged on the inner side of the driven baffle 81 at the left side of the base 1, the sliding bottom plate 83 is arranged in the middle of the first rack 82 in a sliding fit manner, the second rack 84 is arranged on the inner side of the driven baffle 81 at the right side of the base 1, the sliding frame 85 is arranged in the middle of the second rack 84 in a sliding fit manner, the lower end of the sliding frame 85 is arranged on the upper end surface of the, the first rack 82 is connected with the second rack 84 in a meshing mode, the inner side of the sliding bottom plate 83 is provided with a cylinder bottom plate 86, the inner side of the cylinder bottom plate 86 is provided with a traction cylinder 87, and the inner end of the traction cylinder 87 is arranged on the inner side surface of the first rack 82 through a cylinder top plate 88; during specific work, the traction mechanism 8 can pull the straight pipes on the two sides of the bent pipe inwards synchronously, after the bent pipe and the straight pipe are locked, the traction cylinder 87 can drive the first rack 82 to perform linear motion through the cylinder top plate 88, the first rack 82 can drive the second rack 84 to perform synchronous linear motion through a meshed mode when performing linear motion, when the first rack 82 and the second rack 84 perform synchronous linear motion, the driven baffle plate 81 can drive the mounting plate 73 and the second locking plate 72 to move inwards, the straight pipe can be driven to move inwards when the second locking plate 72 moves inwards, holes of the straight pipe can be attached to the holes of the bent pipe, and therefore subsequent welding or installation of pipe connectors is facilitated.

When the pipe bender works, firstly, a bent pipe is placed on the upper end face of the second support bracket 75, the support cylinder 2 drives the first support bracket 74 to move downwards through the top plate 3 to limit two sides of the bent pipe, then a straight pipe is placed on the upper end face of the second locking plate 72, the adjusting cylinder 4 drives the first locking plate 71 to limit the straight pipe downwards through the linkage plate 5 and the driven plate 6, the first locking plate 71, the lower end face of the first support bracket 74, the upper end faces of the second locking plate 72 and the second support bracket 75 are all of arc-shaped structures and are provided with rubber pads, the contact area between the arc-shaped structures and the outer side face of the pipe can be increased, the pipe can be limited more stably, the rubber pads can increase the friction force between the first locking plate 71, the first support bracket 74, the second locking plate 72, the second support bracket 75 and the pipe, so that the pipe can be placed more stably, and then the bidirectional cylinder 772 can drive the sliding block 776, the sliding block 774 through the, The locking block 777, the locking plate 778 and the sliding plate 779 move outwards, the opening directions of the locking holes on the pins 76 on the inner sides of the first locking plate 71 and the second locking plate 72 are consistent, the opening directions of the locking holes on the pins 76 on the outer sides of the first locking plate 71 and the second locking plate 72 are consistent, the pin holes on the pins 76 on the inner sides and the outer sides of the first locking plate 71 and the second locking plate 72 correspond to the output direction of the bidirectional cylinder 772, so that the locking rod 7710 can be inserted into the locking holes on the pins 76, the bent pipe and the straight pipe can be locked, after the bent pipe and the straight pipe are locked, the traction cylinder 87 can drive the first rack 82 to perform linear motion through the cylinder top plate 88, the first rack 82 can drive the second rack 84 to perform synchronous linear motion in a meshing mode when performing linear motion, and when the first rack 82 and the second rack 84 perform synchronous linear motion, the mounting plate 73 and the second locking plate 72 can be driven by the driven baffle 81 to move inwards, and when the second locking plate 72 moves inwards, the straight pipe can be driven to move inwards, so that the hole of the straight pipe can be attached to the hole of the bent pipe, and the subsequent welding or the installation of a pipe fitting connecting piece is facilitated;

after the kneck welding between return bend and the straight tube or through pipe fitting coupling spare installation straight tube is accomplished, drive arc 773 and cowl 774 through two-way cylinder 772 and can drive sliding block 776, locking block 777, lockplate 778, sliding plate 779 remove, make check lock bar 7710 can break away from the locking hole on the round pin post 76, rethread support cylinder 2 can drive roof 3, adjust cylinder 4, linkage plate 5, driven plate 6 rebound, thereby make first jam plate 71 and first support bracket 74 no longer carry on spacingly to straight tube and return bend, shift out this equipment at last.

The invention can lock the bent pipe stably, the hole of the straight pipe can be aligned to the hole of the bent pipe more easily, the invention can lock the straight pipe after the bent pipe is locked, so that the straight pipe can be stably kept on the same horizontal line with the bent pipe, the invention can also synchronously pull the locked straight pipe at the two sides of the bent pipe inwards, so that the hole of the straight pipe can be attached to the hole of the bent pipe, thereby facilitating the subsequent welding or the installation of pipe fittings, and the invention can also lock and pull the pipe fittings with different diameters, thereby increasing the usability of the invention.

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 municipal administration sewage blow off pipe lays construction system, includes base (1), support cylinder (2), roof (3), adjust cylinder (4), linkage board (5), driven plate (6), locking mechanism (7) and drive mechanism (8), its characterized in that: the base (1) is of an arc-shaped structure, supporting cylinders (2) are mounted at the left end and the right end of the upper end face of the base (1), a top plate (3) is mounted at the top end of each supporting cylinder (2), sliding grooves are symmetrically formed in the left side and the right side of each top plate (3), an adjusting cylinder (4) is mounted in the middle of the upper end face of each top plate (3), a linkage plate (5) is mounted at the top end of each adjusting cylinder (4), driven plates (6) are symmetrically mounted at the left side and the right side of the lower end of each linkage plate (5), each driven plate (6) penetrates through the corresponding sliding groove in the corresponding top plate (3), a locking mechanism (7) is mounted at the lower end of each driven plate (6), the lower end face of each locking mechanism (7) is mounted on the upper end face of the base (1;

the locking mechanism (7) comprises a first locking plate (71), a second locking plate (72), a mounting plate (73), a first support bracket (74), a second support bracket (75), a pin column (76) and a locking branched chain (77), wherein the first locking plate (71) is mounted at the lower end of the driven plate (6), the second locking plate (72) is mounted on the upper end surface of the base (1) through the mounting plate (73), the second locking plate (72) corresponds to the first locking plate (71), the mounting plate (73) is connected with the base (1) in a sliding fit manner, the first support bracket (74) is symmetrically mounted on the left side and the right side of the lower end surface of the top plate (3), the first support bracket (74) is located on the inner side of the first locking plate (71), the second support bracket (75) is symmetrically mounted on the left side and the right side of the upper end surface of the base (1), and the second support bracket (75) corresponds to the position of the first support bracket (74), the lower ends of the first locking plate (71) and the first support bracket (74) are symmetrically provided with pins (76), locking holes are uniformly formed in the pins (76), the upper end surfaces of the second locking plate (72) and the second support bracket (75) are symmetrically provided with pin holes, the positions of the pin holes correspond to the positions of the pins (76), and the locking branched chains (77) are arranged on the inner side and the outer side of the second support bracket (75).

2. The municipal sewage drain pipe laying construction system according to claim 1, wherein: locking branch chain (77) including bearing plate (771), two-way cylinder (772), arc (773), cowl (774), installation piece (775), sliding block (776), fixed block (777), fixed plate (778), sliding plate (779) and check lock lever (7710), bearing plate (771) are installed to second bearing bracket (75) inboard that is located base (1) left end, install two-way cylinder (772) on bearing plate (771) up end, arc (773) are installed in two-way cylinder (772) outside, cowl (774) are installed to two-way cylinder (772) inboard, installation piece (775) is all installed through sliding fit's mode below arc (773) and cowl (774), installation piece (775) is installed on base (1) up end to the lower extreme, turn right from a left side (776) and have been installed in proper order to the inboard of arc (773) with cowl (774) outside right end, Fixed block (777), fixed plate (778) and sliding plate (779), sliding block (776) and sliding plate (779) are all installed on arc plate (773) inboard and arc baffle (774) lateral surface through sliding fit's mode, sliding block (776), fixed block (777), the position of fixed plate (778) and sliding plate (779) respectively with the left second locking plate (72) of base (1), left second support bracket (75) of base (1), the position of second support bracket (75) on base (1) right side and second locking plate (72) on base (1) right side correspond, and all install check lock lever (7710) on sliding block (776), fixed block (777), fixed plate (778) and sliding plate (779).

3. The municipal sewage drain pipe laying construction system according to claim 1, wherein: the traction mechanism (8) comprises a driven baffle (81), a first rack (82), a sliding bottom plate (83), a second rack (84), a sliding frame (85), a cylinder bottom plate (86), a traction cylinder (87) and a cylinder top plate (88), wherein the driven baffle (81) is arranged on the outer side of a mounting plate (73) at the outer end of the left side of the base (1) and the outer side of the mounting plate (73) at the outer end of the right side of the base (1), the lower end surface of the driven baffle (81) is attached to the upper end surface of the base (1), the first rack (82) is arranged on the inner side of the driven baffle (81) at the left side of the base (1), the sliding bottom plate (83) is arranged in the middle of the first rack (82) in a sliding fit manner, the second rack (84) is arranged on the inner side of the driven baffle (81) at the right side of the base (1, the lower end of the sliding frame (85) is installed on the upper end face of the base (1), the teeth at the upper end of the second rack (84) and the lower end of the first rack (82) are respectively distributed at forty-five degrees with the second rack (84) and the first rack (82), the first rack (82) and the second rack (84) are connected in a meshing mode, a cylinder bottom plate (86) is installed on the inner side of the sliding bottom plate (83), a traction cylinder (87) is installed on the inner side of the cylinder bottom plate (86), and the inner end of the traction cylinder (87) is installed on the inner side face of the first rack (82) through a cylinder top plate (88).

4. The municipal sewage drain pipe laying construction system according to claim 1, wherein: the opening directions of the locking holes in the pin columns (76) on the inner sides of the first locking plate (71) and the second locking plate (72) are consistent, the opening directions of the locking holes in the pin columns (76) on the outer sides of the first locking plate (71) and the second locking plate (72) are consistent, and the pin column holes in the pin columns (76) on the inner sides and the outer sides of the first locking plate (71) and the second locking plate (72) correspond to the output direction of the bidirectional cylinder (772).

5. The municipal sewage drain pipe laying construction system according to claim 1, wherein: the upper end surfaces of the lower end surfaces of the first locking plate (71) and the first supporting bracket (74), the upper end surfaces of the second locking plate (72) and the second supporting bracket (75) are arc-shaped structures.

6. The municipal sewage drain pipe laying construction system according to claim 1, wherein: rubber pads are arranged on the lower end faces of the first locking plate (71) and the first supporting bracket (74) and on the upper end faces of the second locking plate (72) and the second supporting bracket (75).