CN217758400U - Backfill structure of small-bore steel bellows culvert - Google Patents

Abstract

The utility model discloses a backfill structure of a small-caliber steel corrugated pipe culvert, wherein corrugated pipes are laid at the bottom of a foundation pit arranged on the surface of a tamping roadbed; the bottom of the foundation pit is an arc-shaped surface; and a flow-state self-compacting rapid-setting perfusion medium is filled between the corrugated pipe and the inner wall of the foundation pit. When the corrugated steel pipe culvert is placed in the foundation pit, a fluid self-compacting rapid-hardening perfusion medium is injected from one side of the corrugated steel pipe culvert, and when the fluid self-compacting rapid-hardening perfusion medium completely fills a gap between the corrugated steel pipe culvert and the bottom of the foundation pit, the first pouring is stopped; and after the medium is solidified, pouring the flow-state self-compacting rapid-hardening pouring medium from two sides of the steel corrugated pipe culvert in batches until the flow-state self-compacting rapid-hardening pouring medium completely covers the outer surface of the steel corrugated pipe culvert. The backfill structure densely backfills all the positions around the steel corrugated pipe, and can fully play the excellent performance of the steel corrugated pipe culvert.

Description

Backfill structure of small-bore steel bellows culvert

Technical Field

The utility model belongs to the technical field of civil engineering, concretely relates to backfill structure of small-bore steel bellows culvert.

Background

The steel corrugated pipe culvert has been introduced for nearly 20 years, and has been applied to many highway projects due to the advantages of light weight, low manufacturing cost, strong adaptive deformability, no need of special treatment for the foundation and the like of an assembled structure, but the steel corrugated pipe culvert is of a semi-flexible structure, the stress principle is that pipe soil is stressed together, the surrounding backfill soil is required to provide uniform pressure or reverse thrust for the steel corrugated pipe culvert, the compactness of the surrounding backfill soil is required to reach more than 95%, the strength of the backfill is basically consistent, and the dependence of the product on the construction quality of the surrounding backfill soil is very high.

However, during actual construction, backfill soil at a wedge-shaped part formed by a pipe bottom and a foundation is difficult to tamp, if a wooden stick is forcibly used for tamping, the pipe body floats upwards or deviates left and right, and if the part is not tamped, the pipe body deforms, so that in a few projects, the part is compacted by a coarse sand watertight method, but the cost of the method is too high, and the coarse sand source is limited, so the method is rarely used. In addition, the backfill on both sides of the tube body has a thickness of about 20-30 cm and cannot be compacted because the tamping machine needs to keep a certain safety distance from the tube body so as not to damage the tube body. In addition, when the thickness of the backfill soil at the top of the pipe body reaches about 50 cm, a small-sized tamping machine is allowed to be used so as to avoid impact damage to the pipe body, and the bottom layer of the backfill soil with the thickness cannot meet the requirement of compactness. In conclusion, in actual engineering use, the backfill quality required by the design is difficult to achieve, and quality problems such as deformation of the steel corrugated pipe culvert and the like are often caused.

In the prior art, the caliber of a reinforced concrete circular pipe culvert used by a small-caliber pipe culvert in highway engineering is generally 1 meter, 1.5 meters or 2 meters, the circular pipe culvert has high construction quality requirements, more measures and high manufacturing cost because each section of the circular pipe culvert is shorter (generally 2 meters in length), heavy in weight and incapable of adapting to foundation settlement and other reasons, the bearing capacity of the foundation is larger than the peripheral bearing capacity under general conditions, a concrete cushion layer is arranged, pipe bodies are installed on the cushion layer, pipe sections are sealed, concrete at wedge-shaped parts between the pipe bodies and the foundation cushion layer is poured by a formwork, table backs at two sides of the pipe bodies are continuously poured by the formwork, structural backfilling is carried out at two sides until the top of the pipe after the concrete is solidified, the culvert structure and the construction method have long period, more working procedures, high labor cost and high material cost, and engineering problems of water leakage and the like because of settlement between the pipe sections after a highway runs for a certain time are very common.

According to the traditional construction method, when the distance between adjacent culverts is short and the number of the culverts is large, the culverts divide the roadbed into a plurality of sections, the working face of the construction machinery between the culverts is not large, the working efficiency of the construction machinery is low, and in addition, the special backfilling areas on the two sides of each culvert are high in construction requirement due to the fact that the special backfilling areas are close to the culvert pipes, the construction speed is low, and large-area tamping is not facilitated.

Disclosure of Invention

Utility model purpose: an object of the utility model is to provide a backfill structure of small-bore steel bellows culvert.

The technical scheme is as follows: the utility model discloses a backfill structure of a small-caliber steel corrugated pipe culvert, which aims to realize the purpose of the utility model, wherein a corrugated pipe is laid at the bottom of a foundation pit arranged on the surface of a tamping road bed; and a flow state self-compaction and rapid-hardening perfusion medium is filled between the corrugated pipe and the inner wall of the foundation pit, and the top surface of the flow state self-compaction and rapid-hardening perfusion medium is higher than the top of the corrugated pipe.

The bottom of the foundation pit is an arc-shaped surface or a plane.

Preferably, the width of the foundation pit is not more than 10 cm of the outer diameter of the corrugated pipe; when the corrugated pipe is laid at the bottom of the foundation pit, the distance between the top opening of the foundation pit and the top of the corrugated pipe is not less than 20 cm.

Preferably, the corrugated pipe is made by splicing a plurality of sections of corrugated pipe sections.

Preferably, the fluid self-compacting rapid-setting perfusion medium is cement soil or foamed concrete.

Further, the cement soil raw materials comprise foundation pit spoil and cement.

Furthermore, the corrugated pipe is made of steel, when the bottom of a foundation pit formed by excavation on the surface of the tamped roadbed adopts an arc surface, the edge of the bottom of the foundation pit is semicircular in vertical section under general conditions, the diameter of a circle where the edge of the bottom of the foundation pit is located is larger than the outer diameter of the corrugated pipe, and when the corrugated pipe is laid at the bottom of the foundation pit, the corrugated pipe can automatically slide to the central position of the bottom of the foundation pit under the action of gravity, so that the corrugated pipe is favorable for positioning. The flow state self-compaction rapid-hardening perfusion medium injected between the corrugated pipe and the inner wall of the foundation pit can self-compact and fill all gaps between the corrugated pipe and the inner wall of the foundation pit, including wedge-shaped gaps between the bottom of the corrugated pipe and the bottom surface of the foundation pit.

Compared with a straight pit bottom structure with a vertical side wall, the semicircular pit bottom of the foundation pit is more stable and is not easy to collapse.

Furthermore, when the bottom of the foundation pit formed by excavation is a plane, the corrugated pipe placed in the foundation pit can be positioned through an external support frame or other limiting devices, the central axis of the positioned corrugated pipe is determined, and a flow-state self-compaction rapid-hardening perfusion medium is injected between the corrugated pipe and the inner wall of the foundation pit to finish backfilling.

Furthermore, the material cost and the construction cost can be greatly reduced by using the excavated foundation pit waste soil and the cement soil prepared from the high-grade cement as a flow-state self-compacting rapid-setting perfusion medium, and the method is economic and environment-friendly. The strength of the cement soil prepared by the waste soil of the foundation pit and the high-grade cement is not less than 0.6Mpa.

Furthermore, the corrugated pipe is transported to a construction site after being cut and segmented in a factory, and is sequentially welded in situ along the splicing seams on the site to form a continuous corrugated pipe which is then placed into the foundation pit.

Furthermore, after the fluid self-compacting rapid-setting perfusion medium is injected into the foundation pit, the height of the top surface of the perfusion medium is not less than 20 cm higher than the top of the corrugated pipe, and the strength of the solidified medium can protect the corrugated pipe from being damaged by large-scale tamping machinery during subsequent construction.

The construction method of the small-caliber steel corrugated pipe culvert comprises the following steps:

(1) Excavating a foundation pit on the surface of the roadbed to form a foundation pit;

(2) Placing the steel corrugated pipe culvert into a foundation pit;

(3) An anti-floating device is arranged at the upper part of the steel corrugated pipe culvert, a fluid self-compacting and rapid-hardening pouring medium is injected from one side of the steel corrugated pipe culvert, and when the fluid self-compacting and rapid-hardening pouring medium completely fills a gap between the steel corrugated pipe culvert and the bottom of a foundation pit, the first pouring is stopped;

(4) And after the fluid state self-compaction rapid hardening pouring medium poured for the first time is solidified, removing the anti-floating device, pouring the fluid state self-compaction rapid hardening pouring medium from two sides of the steel corrugated pipe culvert in batches until the fluid state self-compaction rapid hardening pouring medium completely coats the outer surface of the steel corrugated pipe culvert.

Preferably, the bottom surface of the foundation pit dug and formed on the surface of the roadbed in the step (1) is an arc-shaped surface or a plane.

Preferably, the anti-floating device is a limiting steel frame or a sand-soil bag paved on the top of the steel corrugated pipe culvert.

Preferably, after the outer surface of the steel corrugated pipe culvert is completely coated by the flow-state self-compaction and rapid-solidification filling medium, the distance from the top of the flow-state self-compaction and rapid-solidification filling medium to the top of the steel corrugated pipe culvert is not less than 20 cm.

Furthermore, a plurality of sections of corrugated steel pipes are coaxially connected along the splicing seams to form a continuous corrugated steel pipe culvert, and the continuous corrugated steel pipe culvert is placed in the foundation pit.

Further, different from the traditional construction mode, when the roadbed is constructed to the bottom of the designed position of the culvert, the construction of the steel corrugated pipe culvert is not carried out, the roadbed is continuously constructed upwards and tamped, and when the tamped roadbed exceeds the designed position of the top of the culvert by at least 20 centimeters, a special trenching machine is used for excavating a culvert foundation pit. Cleaning and compacting the side wall and the bottom surface of the foundation pit after the bottom surface dug by the trenching machine is a circular arc or plane foundation pit, and digging the foundation pit through at one time according to a set length; the depth of the excavated foundation pit exceeds the diameter of the corrugated pipe by at least 20 cm, and the width of the foundation pit is larger than the diameter of the corrugated pipe by no more than 10 cm. The foundation pit with the arc-shaped bottom surface can reduce disturbance on the surrounding soil body and reduce loosening of the surrounding soil body.

Furthermore, the foundation pit is excavated on the tamped roadbed instead of backfill soil in the prior art, so that the construction speed of the roadbed with the culvert height as the thickness part is improved, and the development of the working surface of the construction machine during the construction of the roadbed with the thickness is facilitated.

Furthermore, a plurality of steel corrugated pipes prefabricated in a factory can be welded on one side of the foundation pit along the splicing seams to form a continuous whole steel corrugated pipe culvert, the length of the whole steel corrugated pipe culvert reaches the total length designed by the culvert, and a plurality of hoisting devices are utilized to place the whole steel corrugated pipe culvert which is connected and completed into the foundation pit at one time so as to complete laying of the steel corrugated pipe culvert. The whole steel corrugated pipe culvert can be spliced simultaneously with the excavation of the foundation pit.

Further, after the corrugated steel pipe culvert is laid and is accomplished, pouring flow state self-compaction rapid hardening filling medium from corrugated steel pipe culvert one side in the first pouring stage, because corrugated steel pipe culvert outer wall is the spiral corrugate, and there is the clearance between the foundation ditch bottom surface, flow state self-compaction rapid hardening filling medium from one side pouring can flow to the opposite side through the clearance, can cover the clearance between corrugated steel pipe culvert outer wall and the foundation ditch bottom surface completely until corrugated steel pipe culvert opposite side liquid level, at this moment, flow state self-compaction rapid hardening filling medium is with the complete closely knit packing of wedge space between corrugated steel pipe culvert and the foundation ditch, flow state self-compaction rapid hardening filling medium after solidifying simultaneously and bellows zonulae occludens, tentatively spacing to the bellows has increased its counter weight simultaneously. In the subsequent pouring process, the two sides of the corrugated steel pipe culvert are poured in a grading manner, and the two sides are sequentially poured, so that the situation that the corrugated steel pipe culvert is extruded due to excessive one-time pouring at the same side, and the pouring quality is reduced can be prevented. Finally, the pouring is stopped until the pouring exceeds 20 cm of the top of the culvert pipe of the steel corrugated pipe. The solidified flow-state self-compaction and quick-setting perfusion medium and the tamped backfill around the perfusion medium form an integral coating for the pipe body, the top of the structure can be directly paved with a road base layer, and a large-scale tamping machine can be used for tamping. The foundation pit with the arc-shaped bottom surface can reduce the use amount and the engineering quantity of the flow-state self-compacting rapid-hardening perfusion medium.

Has the advantages that: compared with the prior art, the utility model has the advantages of it is as follows showing: technical method is through in being convex foundation ditch with steel bellows culvert bottom surface to pour into flow state self-compaction rapid hardening perfusion medium around to the steel bellows culvert, treat that it solidifies the back, carries out closely knit backfill, especially the wedge space between steel bellows culvert bottom and the foundation ditch with all positions around the steel bellows culvert. The solidified flow-state self-compaction rapid-solidification perfusion medium coats the whole steel corrugated pipe culvert, and the superior performance of the steel corrugated pipe culvert can be fully exerted.

Drawings

FIG. 1 is the vertical cross-section structure sketch map of the corrugated pipe culvert made of steel laid in the foundation pit.

Fig. 2 isbase:Sub>A schematic view ofbase:Sub>A-base:Sub>A cross-sectional structure in fig. 1.

Fig. 3 is a schematic diagram of the position of the flow-state self-compacting rapid-hardening pouring medium after the first pouring in the utility model.

Fig. 4 is the structure schematic diagram of the middle flow state self-compaction rapid-hardening perfusion medium poured in sequence from two sides of the steel corrugated pipe culvert.

Fig. 5 is a schematic structural view of the medium flow state self-compacting rapid-hardening pouring medium of the present invention poured to a predetermined height.

Fig. 6 is a schematic structural diagram of backfilling a steel corrugated pipe culvert by using backfilled soil in the prior art.

Fig. 7 is a schematic diagram of a reinforced concrete circular pipe culvert backfill structure in the prior art.

Detailed Description

In the prior art, backfill construction is performed on a steel corrugated pipe culvert through the surrounding backfill soil, as shown in fig. 6, however, during actual construction, the backfill soil 8 in the wedge-shaped structure 7 between the corrugated pipe 4 and the roadbed 1 is difficult to tamp, so that the construction difficulty and the construction cost are greatly improved, and the construction quality is difficult to guarantee. The concrete round pipe culvert 12 needs to be paved with a concrete cushion 9 in advance due to heavy weight and incapability of adapting to foundation settlement, the concrete round pipe culvert 12 is paved on the concrete cushion 9, the joints of all the concrete round pipes are sealed, a formwork is cast to cast concrete 10 at the wedge-shaped part between the bottom of the concrete round pipe culvert 12 and the concrete cushion 9, after the concrete is solidified, the formwork is continuously cast with concrete terraces 11 at two sides of the pipe body of the concrete round pipe culvert 12, and after the concrete is solidified, structural backfilling is carried out at two sides by using backfill soil 8 until the pipe top, as shown in fig. 7.

In view of the above-mentioned drawbacks of the prior art, the technical solution of the present invention will be further described in detail with reference to the accompanying drawings and embodiments.

A backfill structure of a small-caliber steel corrugated pipe culvert is characterized in that as shown in figure 1, a foundation pit 2 is formed on a pre-compacted roadbed 1 by excavating according to a set extending direction, and the thickness of the roadbed 1 exceeds the outer diameter of a corrugated pipe 4. The bottom surface of the foundation pit 2 is a semicircular arc-shaped surface 3, the deepest depth of the foundation pit 2 is 20 cm larger than the outer diameter of the corrugated pipe 4, and the width of the foundation pit 2 is 10 cm larger than the outer diameter of the corrugated pipe 4.

Bellows 4 is laid in the bottom of foundation ditch 2, fills flow state self-compaction rapid hardening filling medium 5 between the outer wall of bellows 4 and the inner wall of foundation ditch 2, and the top surface height of filling flow state self-compaction rapid hardening filling medium 5 in foundation ditch 2 is higher than 4 pipe tops of bellows 20 centimetres. The flow-state self-compacting and quick-setting pouring medium 5 is solidified and then integrally covers the corrugated pipe 4 with the surrounding tamped roadbed structure.

In this embodiment, the corrugated steel pipe 4 is prefabricated in a factory, and for convenience of transportation, the corrugated steel pipe is cut into corrugated steel pipe sections with a set length in the factory, and the corrugated steel pipe sections are marked in sequence, and are arranged in a cutting sequence according to the designed length and the extending direction after being transported to a site, and are welded in situ along the splicing seams 13 to form a continuous whole corrugated pipe 4, and the continuous whole corrugated pipe 4 is laid at the bottom of the foundation pit 2, as shown in fig. 2.

Further, the fluid self-compacting rapid-setting perfusion medium 5 can be made of cement soil or foamed concrete. In this embodiment, the fluid self-compacting rapid-setting perfusion medium 5 is cemented soil, the manufacturing raw materials of the cemented soil include high-grade cement and soil generated by excavation of the foundation pit 2, and the strength of the obtained cemented soil is not lower than 0.6MPa.

In the embodiment, the corrugated pipe 4 is wholly coated by the flow-state self-compacting rapid-hardening filling medium 5, the residual space of the foundation pit 2 is backfilled by using backfilled soil, and after being directly tamped by using a large-scale tamping machine, the road surface 6 is paved on the surface of the roadbed 1.

A construction method of a small-caliber steel corrugated pipe culvert comprises the following steps:

(1) When the roadbed is constructed to the bottom of the designed position of the steel corrugated pipe culvert, the construction of the steel corrugated pipe culvert is not carried out, but the roadbed is continuously constructed upwards and tamped until the height of the roadbed exceeds 20 cm of the pipe top position of the steel corrugated pipe culvert, the roadbed thickening operation is stopped, a special excavator with an arc digging cutter is used for digging a foundation pit on the surface of the roadbed to form a semi-circular arc-shaped bottom surface of the foundation pit, the deepest depth of the foundation pit 2 is 20 cm greater than the outer diameter of the corrugated pipe 4, and the width of the foundation pit 2 is 10 cm greater than the outer diameter of the corrugated pipe 4; and cleaning and compacting the arc-shaped bottom surface and the side wall of the foundation pit. The excavation of the foundation pit is dug through at one time, and the designed length is reached according to the designed extending direction.

(2) And (3) transferring the whole steel corrugated pipe culvert after connection into the foundation pit by utilizing a plurality of hoisting devices at one time, and adjusting the position of the corrugated pipe culvert.

(3) The steel corrugated pipe culvert is connected with the anti-floating device, a flow state self-compaction rapid hardening filling medium is injected from one side of the steel corrugated pipe culvert, and when the gap between the steel corrugated pipe culvert and the bottom of the foundation pit is completely filled with the flow state self-compaction rapid hardening filling medium, the first pouring is stopped, as shown in figure 3.

(4) After the fluid self-compaction rapid-hardening pouring medium poured for the first time is solidified, the anti-floating device is removed, the fluid self-compaction rapid-hardening pouring medium is poured from two sides of the steel corrugated pipe culvert in times, the height of the pouring is 20 cm at each time, and the steel corrugated pipe culvert is completely coated by the fluid self-compaction rapid-hardening pouring medium until the outer surface of the steel corrugated pipe culvert is completely coated by the fluid self-compaction rapid-hardening pouring medium, as shown in fig. 4.

(5) And (3) continuing pouring above the steel corrugated pipe culvert until the height exceeds 20 cm of the top of the steel corrugated pipe culvert, stopping pouring, and filling and tamping the residual space by using backfill soil if an unfilled space exists above the foundation pit after the steel corrugated pipe culvert is solidified as shown in figure 5.

(6) And paving the roadbed surface to form a pavement.

In this embodiment, anti floating device is spacing steelframe or lays the sand and soil bag at steel corrugated pipe culvert pipe top, no matter adopts spacing steelframe or sand and soil area, all provides decurrent pressure for steel corrugated pipe culvert, prevents to pour into the flow state self-compaction rapid hardening filling medium back steel corrugated pipe culvert body come-up.

When the bottom surface of the excavated foundation pit is a circular arc surface, the structure of the foundation pit is more stable and is not easy to collapse, the disturbance to the surrounding soil body is reduced while the excavation amount is reduced, and the circular bottom surface of the foundation pit is also beneficial to positioning of the steel corrugated pipe culvert. After the steel corrugated pipe culvert is wholly coated by the flow-state self-compaction and rapid-setting perfusion medium, the top of the structure can be directly paved on a road base layer and can be tamped by a large-scale tamping machine.

To sum up, small-bore steel corrugated pipe culvert's backfill structure can guarantee the closely knit degree of backfill at all positions around the steel corrugated pipe culvert, can guarantee the closely knit degree of backfill in the steel corrugated pipe culvert bottom wedge structure space very much, make the superior performance of steel corrugated pipe culvert obtain full play. Compared with the integral backfill of backfill soil, the culvert for laying the steel corrugated pipes in the foundation pit is directly excavated and formed on the roadbed, so that the construction speed and the construction quality can be improved, and the mechanical working face can be unfolded during construction. Meanwhile, the waste soil generated by excavating the foundation pit can be used as a raw material of a flow-state self-compaction rapid-hardening perfusion medium, local materials are obtained, the environment is protected, and the material cost and the construction cost can be reduced.

Claims (5)

1. The utility model provides a backfill structure of small-bore steel corrugated pipe culvert which characterized in that: the corrugated pipe (4) is laid at the bottom of a foundation pit (2) arranged on the surface of the tamping roadbed (1); and a flow state self-compaction rapid-hardening perfusion medium (5) is filled between the corrugated pipe (4) and the inner wall of the foundation pit (2), and the top surface of the flow state self-compaction rapid-hardening perfusion medium (5) is higher than the pipe top of the corrugated pipe (4).

2. The backfill structure for the small-caliber steel corrugated pipe culvert according to claim 1, characterized in that: the bottom of the foundation pit (2) is an arc surface or a plane.

3. The backfill structure for a small-caliber steel corrugated pipe culvert according to claim 1, characterized in that: the width of the foundation pit (2) is not more than 10 cm of the outer diameter of the corrugated pipe (4); when the corrugated pipe (4) is laid at the bottom of the foundation pit (2), the distance between the top opening of the foundation pit (2) and the top of the corrugated pipe is not less than 20 cm.

4. The backfill structure for a small-caliber steel corrugated pipe culvert according to claim 1, characterized in that: the corrugated pipe (4) is formed by splicing a plurality of sections of corrugated pipe sections.

5. The backfill structure for a small-caliber steel corrugated pipe culvert according to claim 1, characterized in that: the flow-state self-compaction rapid-hardening perfusion medium (5) adopts cement soil or foamed concrete.

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