Suspension Bridge Horizontal Anchorage Structure and Construction Method

A construction method and horizontal technology, applied in the direction of suspension bridge, bridge construction, bridge form, etc., can solve the problems of traffic lanes, large occupied space of platform, increase of excavation and concrete volume, large anchor-tunnel interaction, etc., to achieve The effect of shortening the construction period, reducing the amount of excavation, and reducing the difficulty of construction

Active Publication Date: 2022-04-22
CHANGJIANG RIVER SCI RES INST CHANGJIANG WATER RESOURCES COMMISSION +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The inclined tunnel anchor is built on the side of the suspension bridge. A bridge with a large span and a large tonnage load requires a large anchorage, especially a suspension bridge with a weak surrounding rock, poor integrity and a relatively large tonnage. The tunnel anchor chamber is huge
Some suspension bridges are limited by lines and topography. Tunnel anchors often need to be built in IV~V rock masses with low engineering quality. Most of the tunnels pass through the rock mass between the two anchorages. In addition, some railway passenger stations are located in it, and the carriageways and platforms take up a lot of space. The wall is thin, and the interaction between the anchor and the tunnel is large; it is extremely difficult to form a tunnel in an inclined tunnel with a large anchorage, and the excavation and concrete volume will increase significantly, requiring large investment, long construction period and high risk

Method used

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  • Suspension Bridge Horizontal Anchorage Structure and Construction Method
  • Suspension Bridge Horizontal Anchorage Structure and Construction Method
  • Suspension Bridge Horizontal Anchorage Structure and Construction Method

Examples

Experimental program
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Effect test

Embodiment 1

[0043] The main cable tunnel in the first embodiment is composed of a horizontal construction main cable flat tunnel and an obliquely upward construction main cable inclined tunnel, specifically as figure 1 As shown, the swivel saddle 11 is installed in the turning section between the main cable flat hole 6 and the main cable inclined hole 7, and the main tower 15 higher than the main cable flat hole 6 openings is provided on the side of the suspension bridge, and the main cable 8 of the suspension bridge Pulled from the main tower 15 into the main cable inclined hole 7, horizontally enter the main cable flat hole 6 and the front anchor chamber 5 through the swivel saddle 11; The swivel saddle 11 arranged in the turning section of the main cable flat hole 6 and the main cable inclined hole 7 is inverted, and the inverted swivel saddle foundation is as follows Figure 5 As shown, in order to expand the form of the foundation, the upper part is arc-shaped, and the lower part is ...

Embodiment 2

[0044] The main cable tunnel in the embodiment two is set to horizontal construction main cable flat tunnel, specifically as figure 2 As shown, only the main cable flat hole 6 is provided with a cable saddle 11 near the opening of the suspension bridge without a tower side, and the cable saddle 11 is inclined to the side of the suspension bridge, and the main cable 8 of the suspension bridge is introduced into the main cable flat hole 6 obliquely from below. Hole, and horizontally enter the main cable flat hole 6 and the front anchor chamber 5 after turning the cable saddle 11. In this state, the inclination angle α of the main cable must be as small as possible, so that the foundation pressure of the slanted upward and inverted swivel saddle is as low as possible.

[0045] A kind of suspension bridge horizontal type anchorage structure provided in the embodiment, such as Figure 1 to Figure 3 As shown, a loose cable saddle 10 is installed in the front anchor chamber 5, and ...

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Abstract

The invention provides a horizontal anchorage structure and a construction method of a suspension bridge. The horizontal anchorage structure includes a construction hole excavated from the back side of the mountain in the bridge position area of ​​the suspension bridge, a rear anchor chamber, an anchor plug body chamber and a front anchor chamber formed by horizontal construction from the construction hole to the side of the suspension bridge. Construct the main cable tunnel to the side of the suspension bridge, pour reinforced concrete in the anchor plug body chamber to form the anchor plug body, install loose cable saddles in the front anchor room, and install cable-turning saddles in the main cable tunnel. The saddle turns horizontally and passes through the main cable flat hole to the scatter cable saddle. The main cable is dispersed into strands through the scatter cable saddle and then connected with the anchor cable anchored on the anchor plug body. Compared with inclined tunnel anchors and composite anchors, the present invention expands the bearing range of rock mass, has high anchor bearing capacity, can avoid the mutual adverse influence of anchor and tunnel, improves the stability and safety of anchor, reduces construction difficulty, and reduces engineering investment , easy operation and maintenance.

Description

technical field [0001] The invention belongs to the technical field of bridge engineering and relates to a suspension bridge anchorage structure, in particular to a suspension bridge horizontal anchorage structure and a construction method. Background technique [0002] At present, the anchorage structure types of suspension bridges mainly include gravity anchorage, tunnel anchorage, rock mass anchorage, gravity anchorage (tunnel anchorage) + anchor cable anchorage, rock mass and reinforced concrete slab anchorage and concrete beam anchorage. anchor etc. Gravity anchors are generally used in weak rock foundations on the surface, relying on the friction between the self-weight and the foundation to resist the main cable tension. The excavation of earth and stone and the amount of concrete construction are large, and the impact on the ecological environment is also great. Tunnel-type anchors are usually built in hard or well-integrated rock mass in inclined tunnels. The tensi...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): E01D19/14E01D11/02E01D19/16E01D21/00
CPCE01D19/14E01D11/02E01D19/16E01D21/00
Inventor 余美万余家富张宜虎邬爱清王腾飞王碧波罗荣王帅范雷苏杨祁舒燕李玉婕向前邓高阳刘金程
Owner CHANGJIANG RIVER SCI RES INST CHANGJIANG WATER RESOURCES COMMISSION
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