CN215593735U - A outsourcing steel-ultra high performance concrete composite reinforcement structure for case roof beam - Google Patents
A outsourcing steel-ultra high performance concrete composite reinforcement structure for case roof beam Download PDFInfo
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- CN215593735U CN215593735U CN202121013200.2U CN202121013200U CN215593735U CN 215593735 U CN215593735 U CN 215593735U CN 202121013200 U CN202121013200 U CN 202121013200U CN 215593735 U CN215593735 U CN 215593735U
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- steel
- steel plate
- performance concrete
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- box girder
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Abstract
The utility model discloses an outsourcing steel-ultra-high performance concrete composite reinforcement structure for a box girder, which comprises the following components: the steel-concrete composite box beam comprises a box beam, a steel-ultrahigh performance concrete structure, bolts, embedded steel bars, a bottom plate stirrup and a web plate stirrup, wherein a bottom steel plate is parallel to a box beam bottom plate, and side steel plates are parallel to a box beam web plate; the bottom steel plate and the side steel plate are welded through fillet welds, and a frame formed by the bottom steel plate and the side steel plate is U-shaped; the male pins are welded on the bottom steel plate and the side steel plate and are used as connecting pieces of the bottom steel plate and the side steel plate and the ultra-high performance concrete, and the male pins are short male pins; the vertical height of the side steel plate is not less than the distance between the neutral axis of the box girder and the bottom surface of the box girder. The steel plate-ultrahigh-performance concrete can effectively improve the section rigidity of an original structure and greatly improve the bearing capacity of the structure, and the structure reinforcing section has small size and high reinforcing efficiency. The steel-ultra-high performance concrete reinforcement design does not configure common stressed steel bars and prestressed steel strands, and the site construction process is simple.
Description
Technical Field
The utility model belongs to the technical field of bridge engineering, and particularly relates to an externally-coated steel-ultrahigh-performance concrete composite reinforcing structure for a box girder.
Background
The number of the assembled small box girder bridges in China is large, and after a bridge built in early stage is operated for years, transverse cracks of a bottom plate, vertical cracks of a web plate and longitudinal cracks of the web plate commonly exist, so that the bearing capacity and the durability of the bridge are seriously influenced. The common reinforcing methods for the bridge superstructure comprise external prestress reinforcement, external concrete wrapping reinforcement and the like, wherein the two reinforcing methods both adopt external prestress, the developing effect of the external prestress on the limiting crack is not obvious, the construction process of the anchoring device is complicated, and the external prestressed tendon is exposed in the air and has corrosion risk; and traditional outsourcing concrete reinforcement cross-section size is big, and increases the structure dead weight more, consolidates inefficiency. In conclusion, the traditional bridge reinforcing method is low in bridge reinforcing efficiency, and economic and durable operation cannot be achieved after the bridge is reinforced.
SUMMERY OF THE UTILITY MODEL
The utility model aims to overcome the defects of the prior art, provides an outsourcing steel-ultra-high performance concrete composite reinforcing structure for a box girder, can effectively improve the bearing capacity of the bridge in the normal use stage, does not remarkably increase the self weight of the structure, and is convenient to construct.
The technical scheme is as follows:
an outsourcing steel-ultra high performance concrete composite reinforcement structure for a box girder, comprising: case roof beam, steel-ultra high performance concrete structure, bolt, implantation reinforcing bar, bottom plate stirrup and web stirrup, wherein:
the bottom steel plate is parallel to the box girder bottom plate, and the side steel plate is parallel to the box girder web plate; the bottom steel plate and the side steel plate are welded through fillet welds, and a frame formed by the bottom steel plate and the side steel plate is U-shaped;
the male pins are welded on the bottom steel plate and the side steel plate and are used as connecting pieces of the bottom steel plate and the side steel plate and the ultra-high performance concrete, and the male pins are short male pins;
the vertical height of the side steel plate is not less than the distance between a neutral axis of the box girder and the bottom surface of the box girder;
the two ends of the implanted steel bar are in a hook shape, and the hook direction is along the longitudinal direction of the bridge;
the bottom plate stirrup and the web plate stirrup are arranged on a hook of the implanted steel bar and are connected with the implanted steel bar in a binding manner.
Further, the longitudinal position and the transverse position of the bolt and the implanted steel bar are consistent, and the bolt, the bolt and the implanted steel bar are arranged in a staggered mode in the longitudinal direction and the transverse direction.
Furthermore, the vertical height of the implanted steel bars, which is higher than the box girder, is not less than the anchoring length d of the ultrahigh-performance concrete to the steel bars.
Further, the height of the ultra-high performance concrete is not less than d +2 cm.
Compared with the prior art, the utility model has the advantages that:
firstly, the steel plate-ultrahigh concrete can effectively improve the section rigidity of the original structure and greatly improve the bearing capacity of the structure. And the steel is positioned in the tension area, so that the risk of cracking of the concrete in the tension area of the bridge is fundamentally avoided.
And secondly, the design of reinforcing the box girder by using the steel-ultrahigh-performance concrete is realized, the ultrahigh-performance concrete is adopted, and the smaller reinforcing section size can be adopted by utilizing the ultrahigh mechanical property and the good bonding capacity with the reinforcing steel bar, so that the dead weight of the structure is not increased greatly, the bridge reinforcing efficiency is improved, the building height of the bridge is not increased basically, and the box girder is particularly suitable for reinforcing the bridge with the limited space under the bridge.
And thirdly, the steel-wrapped ultra-high performance concrete reinforcement design of the box girder can only reinforce the midspan area with insufficient bending bearing capacity, and the increase of the self weight is low.
According to the construction method for reinforcing the box girder by the steel-ultra-high-performance concrete wrapped outside, the steel plate can be used as a construction mold of the ultra-high-performance concrete, the processes of building a template and removing the template are not needed, and the construction is simple, convenient and quick; and the steel-ultra-high performance concrete reinforcement design is not provided with common stressed steel bars and prestressed steel strands, and the construction process is simple.
According to the externally-wrapped steel-ultrahigh-performance concrete reinforcement design of the box girder, the newly-added steel-ultrahigh-performance concrete can be effectively bonded with the reinforced box girder, the steel plate and the ultrahigh-performance concrete, and the reinforced box girder is safe and reliable, and has the advantages of large structural rigidity, high bearing capacity, simplicity and convenience in construction, economy and durability after reinforcement.
In conclusion, the technical scheme of the utility model is completely suitable for reinforcing the box girder bridge, and the feasibility and the construction efficiency of the bridge structure and the construction thereof can be better ensured by combining the construction technology and equipment for forming the bridge type with the utility model.
Drawings
Fig. 1 is a schematic diagram of a box girder reinforced by using steel-encased ultra-high performance concrete in the embodiment of the utility model.
Fig. 2 is a cross-sectional view of a box girder reinforced with steel-encased ultra-high performance concrete according to an embodiment of the present invention.
Fig. 3 is a three-dimensional view of a box girder reinforced with an outer clad steel-ultra high performance concrete according to an embodiment of the present invention.
Fig. 4 is a cross-sectional view taken at a-a in fig. 2.
Fig. 5 is a cross-sectional view at B-B in fig. 2.
Detailed Description
In order to make those skilled in the art better understand the technical solution of the present invention, the following describes in detail an external steel-ultra high performance concrete composite reinforcement structure for a box girder according to the present invention with reference to the following embodiments. The following examples are intended to illustrate the utility model only and are not intended to limit the scope of the utility model.
Example 1
As shown in fig. 1, the steel-ultrahigh performance concrete-encased reinforcing structure of the box girder in the embodiment includes a box girder 1, a steel-ultrahigh performance concrete structure 2, bolts 6, embedded steel bars 7, a bottom plate stirrup 9, and a web stirrup 10.
As shown in fig. 2, the steel-ultra high performance concrete structure 2 of the above embodiment includes a bottom steel plate 3, side steel plates 4, studs 8, and ultra high performance concrete 5, wherein the bottom steel plate 3 is parallel to the bottom plate of the box girder 1, and the side steel plates 4 are parallel to the web of the box girder 1.
In the present embodiment, the bottom steel plate 3 and the side steel plates 4 are fillet welded, and the frame formed by the bottom steel plate 3 and the side steel plates 4 is U-shaped.
In this embodiment, the studs 8 are short studs, the studs 8 are welded to the bottom steel plate 3 and the side steel plates 4, and the studs 8 are connecting members between the bottom steel plate 3 and the side steel plates 4 and the ultra-high performance concrete 5.
As shown in fig. 1, the vertical height of the side steel plates 4 of the present embodiment is not less than the distance from the neutral axis of the box girder 1 to the bottom surface of the box girder 1.
As shown in fig. 2, the connecting member for the box girder 1 and the steel-ultrahigh performance concrete structure 2 of the present embodiment includes bolts 6 and embedded steel bars 7, and the bolts 6 and the embedded steel bars 7 are chemically bonded to the box girder 1. In this embodiment, the two ends of the implanted steel bar 7 are in a hook shape, the hook is longitudinal along the bridge, and the bottom plate stirrup 9 and the web plate stirrup 10 are arranged on the hook of the implanted steel bar 7 and are connected with the implanted steel bar 7 in a binding manner.
Referring to fig. 2 to 5, the longitudinal position and the transverse position of the peg 8 and the implanted steel bar 7 of the above embodiment are the same, and the bolt 6, the peg 8 and the implanted steel bar 7 are arranged in a staggered manner in the longitudinal direction and the transverse direction.
The vertical height of the implanted steel bars 7 higher than the box girder 1 is not less than the anchoring length d of the ultrahigh-performance concrete 5 to the steel bars, and the length is 5 cm. The height of the ultra-high performance concrete 5 is 7 cm.
The construction method of the steel-encased ultra-high performance concrete reinforcement design of the box girder in actual engineering application comprises the following steps:
(a) the positions of the bolts 6 and the implanted steel bars 7 on the box girder 1 are lofted, and holes are drilled at the positions of the box girder 1;
(b) installing and maintaining the implanted steel bars 7, wherein hooks of the implanted steel bars 7 are arranged along the longitudinal direction of the bridge;
(c) mounting a bottom plate stirrup 9 and a web plate stirrup 10, and binding the bottom plate stirrup and the web plate stirrup with the implanted steel bar 7;
(d) lofting the positions of the studs 8, and welding the studs 8 to the bottom steel plate 3 and the side steel plates 4;
(e) fixing the bottom steel plate 3 and the side steel plate 4 on the box girder 1 by using bolts 6, and welding the bottom steel plate 3 and the side steel plate 4 by using fillet welding;
(f) and pouring and maintaining the ultra-high performance concrete 5.
In the construction process of the steel-ultrahigh-performance concrete external-wrapping reinforcement of the box girder, the existing construction equipment and construction process can be adopted, new equipment investment is not required to be added, new skill training is not required to be carried out on constructors, the construction method is simple, convenient, rapid and rapid, and the method has important significance for ensuring the construction period and improving the construction efficiency.
The present invention is not limited to the above-described examples, and various changes can be made without departing from the spirit and scope of the present invention within the knowledge of those skilled in the art.
Claims (4)
1. An outsourcing steel-ultra high performance concrete composite reinforcement structure for a box girder, characterized by comprising: case roof beam, steel-ultra high performance concrete structure, bolt, implantation reinforcing bar, bottom plate stirrup and web stirrup, wherein:
the bottom steel plate is parallel to the box girder bottom plate, and the side steel plate is parallel to the box girder web plate; the bottom steel plate and the side steel plate are welded through fillet welds, and a frame formed by the bottom steel plate and the side steel plate is U-shaped;
the male pins are welded on the bottom steel plate and the side steel plate and are used as connecting pieces of the bottom steel plate and the side steel plate and the ultra-high performance concrete, and the male pins are short male pins;
the vertical height of the side steel plate is not less than the distance between a neutral axis of the box girder and the bottom surface of the box girder;
the two ends of the implanted steel bar are in a hook shape, and the hook direction is along the longitudinal direction of the bridge;
the bottom plate stirrup and the web plate stirrup are arranged on a hook of the implanted steel bar and are connected with the implanted steel bar in a binding manner.
2. The exterior steel-ultra high performance concrete composite reinforcement structure for the box girder according to claim 1, wherein the longitudinal position and the lateral position of the stud and the embedded steel bar are identical, and the bolt and the stud and the embedded steel bar are arranged to be staggered in the longitudinal and lateral directions.
3. The encased steel-ultra high performance concrete composite reinforcement construction for a box girder according to claim 1, wherein the implanted steel reinforcement is not less than the anchoring length d of the ultra high performance concrete to the steel reinforcement in a vertical height above the box girder.
4. The exterior clad steel-ultra high performance concrete composite reinforcement structure for a box girder according to claim 1, wherein the height of the ultra high performance concrete is not less than d +2 cm.
Priority Applications (1)
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CN202121013200.2U CN215593735U (en) | 2021-05-12 | 2021-05-12 | A outsourcing steel-ultra high performance concrete composite reinforcement structure for case roof beam |
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CN202121013200.2U CN215593735U (en) | 2021-05-12 | 2021-05-12 | A outsourcing steel-ultra high performance concrete composite reinforcement structure for case roof beam |
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CN215593735U true CN215593735U (en) | 2022-01-21 |
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CN202121013200.2U Expired - Fee Related CN215593735U (en) | 2021-05-12 | 2021-05-12 | A outsourcing steel-ultra high performance concrete composite reinforcement structure for case roof beam |
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2021
- 2021-05-12 CN CN202121013200.2U patent/CN215593735U/en not_active Expired - Fee Related
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Granted publication date: 20220121 |