CN111874402A

CN111874402A - Pipeline placing device for construction site and using method thereof

Info

Publication number: CN111874402A
Application number: CN202010771493.4A
Authority: CN
Inventors: 王巧慧
Original assignee: 王巧慧
Current assignee: Mingguang Minghuang Construction Engineering Co.,Ltd.; Ze Bing Huang
Priority date: 2020-08-04
Filing date: 2020-08-04
Publication date: 2020-11-03
Anticipated expiration: 2040-08-04
Also published as: CN111874402B; CN114180210A

Abstract

The invention discloses a pipeline placing device for a construction site and a using method thereof, and relates to the technical field of site storage devices. Including carrying on the cooperation board, the top and one side of carrying on the cooperation board have all welded the forked tail joint piece, and the forked tail spread groove has all been seted up to the bottom and the opposite side of carrying on the cooperation board. According to the invention, through the matching design of the matching type carrying matching plate and the limiting guide placing structure which can be conveniently separated, the device can be subjected to multiple splicing, adjustment is conveniently carried out according to the placing space, stable and limiting placing without contacting of multiple pipelines is formed, the pipelines are prevented from being damaged due to mutual contact and collision caused by impact and shaking among the placing of the pipelines, the pipelines can be conveniently placed in a labor-saving manner, and through the design of the air-filled airtight protection structure in the pipeline, the device is convenient for clamping, inflating and sealing blocking at two sides of the pipeline, water and ash are prevented from entering the pipeline body from the inside and corroding the pipeline, so that the safety of the placing process is greatly improved.

Description

Pipeline placing device for construction site and using method thereof

Technical Field

The invention relates to the technical field of construction site storage devices, in particular to a pipeline placement device for a construction site.

Background

The pipeline is the building structure material that is arranged in the building that multiple different grade type all can be used, it is more complicated, the support system that its needs of the advanced building of function is more, except basic water supply, the power supply, the drain line, still there are the telephone, cable TV, the control, the ventilation etc., all need use the pipeline, for the convenience of the pipeline is placed before using, corresponding placer has appeared, however, current device often receives different place the environmental impact in the use, the inconvenient regulation of placement structure, it places and convenient the placing to deposit the in-process stable clamping of not being convenient for to carry out the pipeline, and both ends are not convenient for block up in the use, make dust easily, steam get into inside the pipeline and form the corruption to the pipeline.

Disclosure of Invention

The invention aims to provide a pipeline placing device for a construction site and a using method thereof, which aim to solve the existing problems: the existing device is often influenced by different placing environments in the using process, the placing structure is inconvenient to adjust, and the pipeline is inconvenient to clamp and place stably and conveniently in the storing process.

In order to achieve the purpose, the invention provides the following technical scheme: a pipeline placing device for a building site comprises carrying matching plates, wherein dovetail clamping blocks are welded at the top ends and one sides of the carrying matching plates, dovetail connecting grooves are formed in the bottom ends and the other sides of the carrying matching plates, the carrying matching plates are matched with the other carrying matching plates through the dovetail clamping blocks and the dovetail connecting grooves in a clamping mode, extension positioning plates are welded around the two ends of the carrying matching plates, and limiting guide placing structures are welded on the inner sides of the extension positioning plates;

the limiting guide placement structure comprises a matching connecting plate, an inner supporting frame, a first spring, a matching derivation adjusting plate, a connecting slide rod, a carrying shell, a second spring, an auxiliary separation press rod, a positioning carrying plate and a derivation roller, wherein the matching connecting plate is connected with an extension positioning plate through screws, the bottom end of the matching connecting plate is welded with the inner supporting frame, four end angles of the inner supporting frame are fixedly connected with the carrying shell, the second spring and the auxiliary separation press rod are positioned in the carrying shell, the auxiliary separation press rod is connected with the carrying shell through the second spring, the inside of the inner supporting frame is matched with the matching derivation adjusting plate to be in sliding connection, the top end of the adjusting plate is matched with the first spring to be in fixed connection, the bottom end of the matching derivation adjusting plate is fixed with the connecting slide rod, and the bottom end of the connecting slide rod is fixedly connected with the positioning, the inside of the positioning and carrying plate is rotationally connected with the derivation roller;

the pipeline is characterized in that a positioning through hole is formed in the carrying matching plate, a pipeline main body is placed in the positioning through hole, and the peripheral side face of the pipeline main body is in contact with a plurality of derivation rollers.

In the technical scheme, the device is convenient to form stress contraction so as to finish adaptive clamping, can form the offset of vibration impact through the support of a plurality of stressed component forces in the process of being impacted, avoids mutual collision among pipeline main bodies caused by the impact,

preferably, both ends of the pipeline main body are respectively fixed with an in-pipe inflation airtight protection structure, the in-pipe inflation airtight protection structure comprises an inflation bag, a deflation valve, a connection adjusting pipe, a pushing adjusting block, a positioning clamping pipe, a limiting clamp plate, a shaft sleeve piston rod, a matching expansion sleeve, a clamping hook claw, a bidirectional connecting pipe and a sealing airbag, air guide through holes are formed in the deflation valve, the connection adjusting pipe and the bidirectional connecting pipe, the inflation bag is connected with the connection adjusting pipe through the deflation valve, the outer side of the connection adjusting pipe is connected with the pushing adjusting block in a sliding manner, one end of the pushing adjusting block is welded with the positioning clamping pipe, the top end and the bottom end of the positioning clamping pipe are welded with the limiting clamp plate, the limiting clamp plate and the other limiting clamp plate are rotatably connected with the shaft sleeve piston rod, one end of the shaft sleeve piston rod is welded with the clamping hook claw, and one end of the clamping hook, the bidirectional connecting pipe is connected with the sealing air bag through threads.

In the technical scheme, the two ends of the pipeline main body are conveniently sealed, so that good air tightness and water tightness are achieved, and corrosion from the inside is avoided.

Preferably, the two ends of the connection adjusting pipe and the two-way connecting pipe are both provided with connecting threads, a ventilation connecting block is fixed between the connection adjusting pipe and the two-way connecting pipe, and the connection adjusting pipe and the two-way connecting pipe are both in threaded connection with the ventilation connecting block.

In the technical scheme, the connection adjusting pipe is connected with the two-way connecting pipe in an assembling manner.

Preferably, a derivation through hole is formed in the pushing adjusting block, and the derivation through hole is in clearance fit with the connecting adjusting pipe.

In the technical scheme, the connection between the adjusting block and the connecting adjusting pipe is pushed.

Preferably, the welding of the one end of axle sleeve piston rod has connecting sleeve, spacing splint and another the welding has the rotation round pin post between the spacing splint, the rotation round pin post is clearance fit with connecting sleeve.

In the technical scheme, the clamping hook claw is convenient to push and bear force, so that the clamping hook claw is driven to open.

Preferably, a rotating mandrel penetrates through the inside of the derivation roller, two ends of the rotating mandrel are rotatably connected with roller bearings, and the derivation roller is connected with the positioning and carrying plate through the roller bearings.

In this technical scheme, be convenient for deduce the atress roll forming of gyro wheel, help pipeline main part carries out the propelling movement.

Preferably, the bottom end of the built-in support frame is provided with a sliding limiting guide through hole, and the sliding limiting guide through hole is in clearance fit with the connecting slide rod.

In the technical scheme, the built-in support frame is connected with the connecting slide rod.

Preferably, the cooperation is deduced the both ends of regulating plate and is all welded the cooperation sliding block, the forked tail sliding tray has all been seted up to the inner wall of the both sides of built-in support frame, the forked tail sliding tray is clearance fit with the cooperation sliding block.

In this technical scheme, be convenient for better atress lead to press the slip.

Preferably, one end of the auxiliary separation pressure lever is fixed with a contact damping plate, and the contact damping plate is made of damping rubber.

In the technical scheme, component force bearing is convenient to improve.

The invention also provides a use method of the pipeline placing device for the construction site, which comprises the following steps:

s1, inserting the inflatable airtight protection structure in the pipe into the pipe main body, pushing the pushing adjusting block to make the positioning clamp pipe slide forwards under stress, pushing the shaft sleeve piston rod to open, and clamping with the peripheral side edge of the pipe main body, so that the inflatable airtight protection structure in the positioning pipe can avoid falling off;

s2, generating gas filling by extruding the inflatable bag, enabling the gas to finally enter the interior of the sealed airbag through the deflation valve, the connection adjusting pipe and the two-way connecting pipe, inflating the sealed airbag, enabling the sealed airbag to expand until the inner surface of the pipeline main body is completely removed, and completely sealing the interior of the pipeline main body;

s3: according to the size of a storage environment, the carrying matching plate and the other carrying matching plate are spliced, the dovetail clamping blocks at the top of the carrying matching plate and the dovetail connecting grooves at the bottom are in sliding splicing to complete up-down matching connection, and the dovetail clamping blocks at one side of the carrying matching plate and the dovetail connecting grooves at the other side are in sliding splicing matching to complete lateral matching connection;

s4: inserting the pipeline main body into the carrying matching plate in an inserting mode, and enabling the pipeline main body to be in contact with the derivation roller through the outer surface of the pipeline main body;

s5: promote when the pipeline main part is placed and derive the gyro wheel and rotate, and derive the gyro wheel and can form laborsaving spacing of deriving, and derive the gyro wheel atress in-process and promote the connection slide bar, drive the cooperation and derive the regulating plate and extrude first spring and form the shrink, enlarge and place the space, after accomplishing to place, first spring loses the atress direction and derives the extrusion and make and derive the gyro wheel and contact the pipeline main part once more and form the adaptability clamping, and the clamping effect is more stable.

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

1. according to the invention, through the matching design of the matching type carrying matching plate and the limiting guide placing structure which can be conveniently separated, the device can be spliced in a plurality of ways, is convenient to adjust according to the placing space, forms stable limiting placing without contacting of a plurality of pipelines, avoids damage caused by mutual contact and collision of the pipelines due to impact and shaking among the pipeline placing, and can place the pipelines conveniently and labor-saving;

2. according to the invention, through the design of the inflatable closed protection structure in the pipe, the device is convenient for clamping, inflating, sealing and blocking two sides of the pipe, so that water and ash are prevented from entering the pipe body from the inside to corrode the pipe, and the safety of the placing process is greatly improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural view of the present invention as a whole;

FIG. 2 is a front view of the present invention in its entirety;

FIG. 3 is a schematic diagram of a partially separated and independent structure according to the present invention;

FIG. 4 is a partial schematic structural view of a mating type mounting plate according to the present invention;

FIG. 5 is a side view of the mating type mounting plate of the present invention;

FIG. 6 is a schematic view of a partial structure of a position-limiting guiding placement structure according to the present invention;

FIG. 7 is a schematic view of the overall structure of the inflatable confinement protection structure in the tube of the present invention;

fig. 8 is an exploded view of the inflatable confinement structure within the tube of the present invention.

In the figure: 1. mounting a mating plate; 2. extending the positioning plate; 3. a dovetail clamping block; 4. dovetail connecting grooves; 5. matching the connecting plate; 6. a support frame is arranged in the device; 7. a first spring; 8. a derivation adjusting plate is matched; 9. connecting a sliding rod; 10. a mounting case; 11. a second spring; 12. an auxiliary separation pressing rod; 13. positioning a carrying plate; 14. a derivation roller; 15. a limiting guide placing structure; 16. a pipe body; 17. an air-filled bag; 18. a deflation valve; 19. connecting an adjusting pipe; 20. pushing the adjusting block; 21. positioning the clamp pipe; 22. a limiting clamp plate; 23. a shaft sleeve piston rod; 24. fitting a deployment sleeve; 25. clamping and connecting a hook claw; 26. bidirectional pipe connection; 27. sealing the air bag; 28. the air-filled airtight protection structure in the pipe.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Please refer to fig. 1-6, a pipeline placer for building site, including carrying on the cooperation board 1, the top and one side of carrying on the cooperation board 1 all weld forked tail joint piece 3, the dovetail connection groove 4 has all been seted up to the bottom and the opposite side of carrying on the cooperation board 1, carry on cooperation board 1 and another carry on cooperation board 1 and pass through forked tail joint piece 3 and the cooperation of 4 joints of dovetail connection groove, all weld all around carrying on cooperation board 1 both ends has extension locating plate 2, the inboard welding of extension locating plate 2 has spacing direction to place structure 15.

Referring to fig. 4-6, the position-limiting guiding placement structure 15 includes a matching connection plate 5, an inner mounting support 6, a first spring 7, a matching derivation adjustment plate 8, a connection slide rod 9, a carrying housing 10, a second spring 11, an auxiliary separation press rod 12, a positioning carrying plate 13 and a derivation roller 14, the matching connection plate 5 is connected with the extension positioning plate 2 through screws, the bottom end of the matching connection plate 5 is welded with the inner mounting support 6, four end corners of the inner mounting support 6 are fixedly connected with the carrying housing 10, the second spring 11 and the auxiliary separation press rod 12 are both located inside the carrying housing 10, the auxiliary separation press rod 12 is connected with the carrying housing 10 through the second spring 11, the inner portion of the inner mounting support 6 is slidably connected with the matching derivation adjustment plate 8, the top end of the matching derivation adjustment plate 8 is fixedly connected with the first spring 7, and the bottom end of the matching derivation adjustment plate 8 is fixedly connected, the bottom of connecting slide bar 9 and location take board 13 fixed connection, the inside of location take board 13 rotates with deducing gyro wheel 14 and is connected, the bottom with built-in support frame 6 is seted up to the spacing direction through-hole that slides, the spacing direction through-hole that slides is clearance fit with connecting slide bar 9, the one end of supplementary separation depression bar 12 is fixed with the contact damping board, the material of contact damping board is damping rubber, the cooperation is deduced the both ends of regulating plate 8 and all is welded and is cooperated with the sliding block, the forked tail sliding tray has all been seted up to the inner wall of the both sides of built-in support frame 6, forked tail sliding tray and cooperation sliding block are clearance fit, be convenient for form the atress shrink, thereby accomplish the adaptability clamping, and can support through the component force of multinomial atress at the in-process that receives the impact and form the.

Referring to fig. 4-6, when the spacing guiding placement structure 15 is inserted into the pipeline main body 16, the derivation roller 14 is pushed to rotate, the derivation roller 14 can form labor-saving spacing for derivation, the derivation roller 14 pushes the connection slide rod 9 in the stress process, the derivation adjusting plate 8 is driven to cooperate to extrude the first spring 7 to shrink, the placement space is enlarged, after the placement is completed, the first spring 7 loses the stress direction to derive extrusion, so that the derivation roller 14 contacts the pipeline main body 16 again to form adaptive clamping, and the clamping effect is more stable.

Referring to fig. 1-8, a positioning through hole is formed in the mounting matching plate 1, a pipeline main body 16 is placed in the positioning through hole, the peripheral side surface of the pipeline main body 16 is in contact with a plurality of derivation rollers 14, a rotating mandrel penetrates through the derivation rollers 14, two ends of the rotating mandrel are rotatably connected with roller bearings, and the derivation rollers 14 are connected with the positioning mounting plate 13 through the roller bearings, so that a guiding sliding labor-saving support is formed.

Referring to fig. 7-8, the two ends of the main pipe body 16 are both fixed with an in-pipe inflation sealed protection structure 28, the interior of the main pipe body 16 is completely sealed by manual inflation, and the specific process refers to the second use method below, the in-pipe inflation sealed protection structure 28 includes an inflation bag 17, a deflation valve 18, a connection adjusting pipe 19, a pushing adjusting block 20, a positioning clamp pipe 21, a limit clamp plate 22, a shaft sleeve piston rod 23, a matching expansion sleeve 24, a clamping hook 25, a two-way connection pipe 26 and a sealing air bag 27, the deflation valve 18, the connection adjusting pipe 19 and the two-way connection pipe 26 are all provided with air guide through holes inside, the inflation bag 17 is connected with the connection adjusting pipe 19 through the deflation valve 18, the outer side of the connection adjusting pipe 19 is connected with the pushing adjusting block 20 in a sliding manner, one end of the pushing adjusting block 20 is welded with the positioning clamp pipe 21, and the top end and the bottom, the limiting clamp plate 22 is rotatably connected with the shaft sleeve piston rod 23 between the other limiting clamp plate 22, one end of the shaft sleeve piston rod 23 is welded with the clamping hook claw 25, one end of the clamping hook claw 25 is rotatably connected with the matched expansion sleeve 24, the bidirectional connecting pipe 26 is in threaded connection with the sealing air bag 27, and therefore the two ends of the pipeline main body 16 are conveniently sealed, good air tightness and water tightness are achieved, and corrosion from the inside is avoided.

Referring to fig. 8, the connection adjusting pipe 19 and the two-way connection pipe 26 are both provided with connection threads at both ends thereof, a ventilation connection block is fixed between the connection adjusting pipe 19 and the two-way connection pipe 26, and the connection adjusting pipe 19 and the two-way connection pipe 26 are both connected with the ventilation connection block through threads, so that the inflation generated by the inflatable bag 17 can be rapidly introduced into the sealed air bag 27, and the air leakage in the midway is avoided.

Referring to fig. 8, a derivation through hole is formed inside the pushing adjustment block 20, the derivation through hole is in clearance fit with the connection adjustment tube 19, a connection sleeve is welded at one end of the shaft sleeve piston rod 23, a rotation pin is welded between the limiting clamp plate 22 and another limiting clamp plate 22, and the rotation pin is in clearance fit with the connection sleeve, so that the pushing adjustment block 20 is pushed in a sliding derivation manner to enable the locator card tube 21 to be stressed, the limiting clamp plate 22 is pushed to be opened in cooperation with the locator card tube 21, and the clamping hook claw 25 is pushed to be opened at the position where the matched extension sleeve 24 is arranged, thereby completing the positioning of the whole inflatable closed protection structure 28 in the tube.

firstly, inserting the in-tube inflatable closed protection structure 28 into the interior of the pipeline main body 16, pushing the pushing adjusting block 20 to enable the positioning clamp tube 21 to be stressed to slide forwards, pushing the shaft sleeve piston rod 23 to be opened, clamping the shaft sleeve piston rod with the edge of the peripheral side face of the pipeline main body 16, and preventing the in-tube inflatable closed protection structure 28 from falling off;

secondly, the inflation is generated by squeezing the inflatable bag 17, so that the gas finally enters the interior of the sealed air bag 27 through the deflation valve 18, the connection adjusting pipe 19 and the two-way connecting pipe 26, the sealed air bag 27 is inflated, the sealed air bag 27 is expanded until the inner surface of the pipeline main body 16 is completely released, and the interior of the pipeline main body 16 is completely sealed;

thirdly, the method comprises the following steps: splicing the carrying matching plate 1 with another carrying matching plate 1 according to the size of a storage environment, completing up-down matching connection by the sliding insertion of the dovetail clamping block 3 at the top of the carrying matching plate 1 and the dovetail connecting groove 4 at the bottom, and completing lateral matching connection by the sliding insertion of the dovetail clamping block 3 at one side of the carrying matching plate 1 and the dovetail connecting groove 4 at the other side;

fourthly: inserting the pipeline main body 16 into the carrying matching plate 1, and contacting the outer surface of the pipeline main body 16 with the derivation roller 14;

fifth, the method comprises the following steps: promote when pipeline main part 16 places and derive gyro wheel 14 and rotate, and derive gyro wheel 14 can form the laborsaving spacing of deriving, and derive gyro wheel 14 atress in-process and promote connecting slide bar 9, the drive cooperation is derived regulating plate 8 and is extruded first spring 7 and form the shrink, enlarges and places the space, after accomplishing to place, first spring 7 loses the direction of atress and derives the extrusion and make and derive gyro wheel 14 to contact pipeline main part 16 once more and form the adaptability clamping, and the clamping effect is more stable.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a pipeline placer for building site, is including carrying on cooperation board (1), its characterized in that: dovetail clamping blocks (3) are welded at the top end and one side of each carrying matching plate (1), dovetail connecting grooves (4) are formed in the bottom end and the other side of each carrying matching plate (1), each carrying matching plate (1) and the other carrying matching plate (1) are in clamping fit through the dovetail clamping blocks (3) and the dovetail connecting grooves (4), extension positioning plates (2) are welded around the two ends of each carrying matching plate (1), and limiting guide placement structures (15) are welded on the inner sides of the extension positioning plates (2);

the limiting guide placement structure (15) comprises a matching connecting plate (5), an inner supporting frame (6), a first spring (7), a matching derivation adjusting plate (8), a connecting slide rod (9), a carrying shell (10), a second spring (11), an auxiliary separation press rod (12), a positioning carrying plate (13) and a derivation roller (14), wherein the matching connecting plate (5) is connected with an extension positioning plate (2) through screws, the bottom end of the matching connecting plate (5) is welded with the inner supporting frame (6), four end angles of the inner supporting frame (6) are fixedly connected with the carrying shell (10), the second spring (11) and the auxiliary separation press rod (12) are both positioned in the carrying shell (10), the auxiliary separation press rod (12) is connected with the carrying shell (10) through the second spring (11), the inner part of the inner supporting frame (6) is matched with the derivation adjusting plate (8) in a sliding manner, the top end of the matching derivation adjusting plate (8) is fixedly connected with the first spring (7), the bottom end of the matching derivation adjusting plate (8) is fixedly provided with a connecting sliding rod (9), the bottom end of the connecting sliding rod (9) is fixedly connected with a positioning carrying plate (13), and the inside of the positioning carrying plate (13) is rotatably connected with a derivation roller (14);

carry on the inside of cooperation board (1) and seted up the location through hole, pipeline main part (16) have been placed to the inside of location through hole, just the week side of pipeline main part (16) all contacts with a plurality of deduction gyro wheels (14).

2. The pipe-placing device for construction site as claimed in claim 1, wherein: the two ends of the pipeline main body (16) are both fixed with an in-pipe inflation airtight protection structure (28), the in-pipe inflation airtight protection structure (28) comprises an inflation bag (17), a deflation valve (18), a connection adjusting pipe (19), a pushing adjusting block (20), a positioning clamp pipe (21), a limiting clamp plate (22), a shaft sleeve piston rod (23), a matching expansion sleeve (24), a clamping hook claw (25), a bidirectional connecting pipe (26) and a sealing air bag (27), the interiors of the deflation valve (18), the connection adjusting pipe (19) and the bidirectional connecting pipe (26) are respectively provided with an air guide through hole, the inflation bag (17) is connected with the connection adjusting pipe (19) through the deflation valve (18), the outer side of the connection adjusting pipe (19) is in sliding connection with the pushing adjusting block (20), one end of the pushing adjusting block (20) is welded with the positioning clamp pipe (21), and the top end and the bottom end of the positioning clamp pipe (21) are both welded with the limiting clamp plate (, spacing splint (22) and another all rotate with axle sleeve piston rod (23) between spacing splint (22) and be connected, the one end and the joint of axle sleeve piston rod (23) are colluded claw (25) welding, the joint is colluded the one end and the cooperation of claw (25) and is expanded sleeve pipe (24) and rotate and be connected, two-way takeover (26) with sealed gasbag (27) through threaded connection.

3. The pipe-placing device for construction site as claimed in claim 2, wherein: connecting threads are formed in the two ends of the connecting and adjusting pipe (19) and the two-way connecting pipe (26), a ventilation connecting block is fixed between the connecting and adjusting pipe (19) and the two-way connecting pipe (26), and the connecting and adjusting pipe (19) and the two-way connecting pipe (26) are connected with the ventilation connecting block through threads.

4. The pipe-placing device for construction site as claimed in claim 2, wherein: the pushing adjusting block (20) is internally provided with a derivation through hole, and the derivation through hole is in clearance fit with the connection adjusting pipe (19).

5. The pipe-placing device for construction site as claimed in claim 2, wherein: the welding of the one end of axle sleeve piston rod (23) has connecting sleeve, spacing splint (22) and another the welding has the rotation round pin post between spacing splint (22), the rotation round pin post is clearance fit with connecting sleeve.

6. The pipe-placing device for construction site as claimed in claim 1, wherein: a rotating mandrel penetrates through the inside of the derivation roller (14), two ends of the rotating mandrel are rotatably connected with roller bearings, and the derivation roller (14) is connected with the positioning carrying plate (13) through the roller bearings.

7. The pipe-placing device for construction site as claimed in claim 1, wherein: the bottom end of the built-in support frame (6) is provided with a sliding limiting guide through hole which is in clearance fit with the connecting slide rod (9).

8. The pipe-placing device for construction site as claimed in claim 1, wherein: the cooperation is derived the both ends of regulating plate (8) and is all welded the cooperation sliding block, the forked tail sliding tray has all been seted up to the inner wall of the both sides of built-in support frame (6), the forked tail sliding tray is clearance fit with the cooperation sliding block.

9. The pipe-placing device for construction site as claimed in claim 1, wherein: one end of the auxiliary separation pressure lever (12) is fixed with a contact damping plate, and the contact damping plate is made of damping rubber.

10. A method of using a pipe laying apparatus for a construction site according to any one of claims 1 to 9, comprising the steps of:

s1, inserting the in-tube inflatable closed protection structure (28) into the pipeline main body (16), pushing the pushing adjusting block (20) to enable the positioning clamp tube (21) to slide forwards under stress, pushing the shaft sleeve piston rod (23) to open, and clamping the positioning clamp tube with the edge of the peripheral side face of the pipeline main body (16) to prevent the in-tube inflatable closed protection structure (28) from falling off;

s2, generating gas filling by squeezing the inflatable bag (17), leading the gas to finally enter the interior of the sealed air bag (27) through the deflation valve (18), the connection adjusting pipe (19) and the two-way connecting pipe (26), inflating the sealed air bag (27), leading the sealed air bag (27) to expand until the sealed air bag completely contacts the inner surface of the pipeline main body (16), and completely sealing the interior of the pipeline main body (16);

s3: according to the size of a storage environment, the carrying matching board (1) is spliced with the other carrying matching board (1), the dovetail clamping block (3) at the top of the carrying matching board (1) is in sliding splicing with the dovetail connecting groove (4) at the bottom of the carrying matching board to complete up-down matching connection, and the dovetail clamping block (3) at one side of the carrying matching board (1) is in sliding splicing matching with the dovetail connecting groove (4) at the other side of the carrying matching board to complete lateral matching connection;

s4: inserting the pipeline main body (16) into the carrying matching plate (1), and contacting the outer surface of the pipeline main body (16) with the derivation roller (14);

s5: promote when pipeline main part (16) is placed and derive gyro wheel (14) and rotate, and derive gyro wheel (14) can form the laborsaving spacing of deriving, and derive gyro wheel (14) atress in-process promotion connection slide bar (9), the drive cooperation is derived regulating plate (8) extrusion first spring (7) and is formed the shrink, enlarge and place the space, after accomplishing to place, first spring (7) lose the direction of atress and derive the extrusion and make and derive gyro wheel (14) contact pipeline main part (16) once more and form the adaptability clamping, the clamping effect is more stable.