SU1601282A1 - Strengthening continuous span of bridge - Google Patents

Abstract

The invention relates to bridge construction and can be used to reinforce reinforced concrete prestressed continuous box girders of bridge span structures. The purpose of the invention is to increase the carrying capacity and provide the ability to regulate the efforts in the superstructure during operation. The reinforced continuous span of the bridge includes a reinforced concrete, a composite box of a beam with a diaphragm of 3, combined with assembly joints 1 blocks 2, a box-shaped beam with a diaphragm 3 in the supra-sectional section 4, reinforcement elements in the form of beams fixed in the lower shelf 5 and in the supra-support section 4 - in the upper shelf 6 prestressed reinforcing beams 7, anchored by end anchors 8 on transverse beams 9 located inside the box beams, at least a pair of diagonal trusses with joints in the nodes 11,12 with themselves 13,14 their uprights 16 coaxially with the mounting joints 1 of the blocks 2, the upper nodes 12 of the symmetric diaphragm 3 of the trusses nearest to it are joined by passing through 17 holes of 3 tons formed in the diaphragm with 18 ends threaded at the ends, plates 19 located above the diaphragm 3 coaxially with the trusses and attached assembly joints 1 between blocks 2 with pre-tensioned bolts 20 to the upper 3 closest to the diaphragm 3 nodes of 12 trusses, intermediate anchors made in the form of paired metal gaskets pre-tensioned by bolts and located above the contact joints 1 of the lower shelf 5 of the box-shaped beam, the lining 24 installed on both sides of the mounting joints 1 and crimped with pre-stressed bolts 25, the intermediate anchors and the nodes 11,12 of the trusses attached to the corresponding lining 24. 3 Il.

Description

The invention relates to a bridge with 20 TpoeHHro and can be used to reinforce reinforced concrete prestressed continuous box girders of bridge span structures .25

The goal of the invention is to increase the bearing capacity and ensure the possibility of controlling the forces in the superstructure during operation.

FIG. Figure 1 shows a fragment of the supporting section of the reinforced continuous span of the bridge, with a longitudinal section; in fig. 2 shows section A-A in FIG. one; in fig. 3 - intermediate anchor. 35

The reinforced continuous span of the bridge contains a reinforced concrete composite consisting of box-shaped beam with diaphragm 3 in supra-sectional section 4 connected by assembly joints 1 blocks 2, reinforcement elements in the form of 5 beams fixed in the span on the lower flange 4 and in the supra-section section 4 on the upper shelf 6 of pre-stressed reinforcing beams 7, anchored 45 end with anchor anchors 8 on transverse beams 9 located inside a box-shaped beam at least a pair on each side of the supra-sectional section 4 of diagonal trusses 10 with JQ combined into a node 11 and 12 with post 13 and 14, which are diagonally upward to the diaphragm 15 and vertical with axes 16, located coaxially with the mounting joints 1 of blocks 2, the upper nodes 12 of symmetrical farms 3 adjacent to it 10 passed through 17 holes formed in a diaphragm with 17 tons of diameters 18 threaded at the ends, plates 19 located above diaphragm 3 coaxially with trusses 10 and attached with 3 prestressed bolts 20 to the top 3 closest to a diaphragm 12 farms located in assembly joints 1 between blocks 2 10, with the transverse g The multiple beams 9 are located at the upper node 12 of each truss 10 and at the lower node 11 of each truss closest to the diaphragm 3 of each truss .10, intermediate anchors 21, made in the form of twin metal gaskets 23 compressed by pre-stressed bolts and located above the mounting joints, remote from the diaphragm 3. 1 lower shelf 5 of box girder, lining 24 installed on both sides of the assembly joints 1 and crimped with pre-tensioned bolts 25 passed through holes 26 formed in shelves 5 and 6, with intermediate anchors 21 and nodes 11 and 12 of the trusses attached s to the respective lining 24.

Claims (1)

Invention Formula Reinforced continuous span of the bridge, including an iron-occlusive composite of box-jointed beam with a diaphragm in the supra-sectional section, reinforcement elements in the form of beams fixed in the span on the lower flange and in the supra-sectional section on the upper shelf of pre-stressed reinforcing beams, anchored anchors on transverse beams, characterized in that, in order to In order to increase non-stick ability and allow control of forces in the superstructure during operation, reinforcement elements are provided with at least a pair of p sides of the supra-support section of diagonal trusses with joints arranged in nodes with their ascending diaphragms and vertical columns installed coaxially with the assembly joints of the blocks, with the upper nodes of the symmetric diaphragm of the trusses nearest to it combined by passing through the holes formed in the diaphragm threaded at the ends, the box-like beam is provided with plates and plates mounted above the diaphragm coaxially with trusses, attached by pre-tensioned bolts to the truss nodes closest to the diaphragm at the mounting joints between the blocks, and the transverse jack beams are located at the upper node distant from the diaphragm Farm truss: .and on the lower node of each truss closest to the diaphragm, while the end beams are mounted on the transverse beams anchor pre-tensioned reinforcement - beams, and their intermediate anchors are made in the form of paired metal bolts pre-stressed bolts located above the mounting joints of the lower flange of the box-shaped beam, the linings are located on both sides of the assembly joints and crimped by pre-tensioned bolts, and the intermediate anchors and nodes The trusses are attached to the appropriate lining. 0i / &. 3