RU1778211C - Bridge abutment - Google Patents

Abstract

SUMMARY OF THE INVENTION: An abutment bridge includes a transition plate, a body with a back wall and a screen arranged relative to it with a gap filled with vibration-absorbing material. The screen is made along the broken line in cross section with obtuse fracture angles and is mounted with the possibility of movement towards the rear wall of the body and the adapter plate - with a downward facing tooth placed on the outside of the screen. “The abutment is equipped with trough-shaped facing walls upward with counterforts adjacent to the rear wall bodies, and the lower end of the screen is supported on the bottom of the counterforts, 2 il

Description

The invention relates to bridge construction, namely the construction of bridge foundations in seismic areas

FRAMEWORKS of bridges consisting of a support, sub-truss plate, foundation of a support

The disadvantage of such bridge abutments is the low seismic resistance of the supports due to the increase in earthquake lateral (horizontal) soil pressure, which causes additional seismic forces in the supports, which lead to the movement of the support or its destruction.

The closest technical solution to the invention is a stand consisting of a support, a sub-truss plate, a cabinet wall and the foundation of the support.

The disadvantage of such an usto bridge is its low resistance to seismic effects, due to the increasing horizontal pressure of the soil on the back face of the usto during earthquakes, which causes additional forces in the supports, which lead to the displacement of the usto or its destruction

The aim of the invention is to increase the seismic stability of a bridge with

The goal is achieved by the fact that in the abutment of the bridge, including the adapter plate, the body with the back wall and a screen located relative to it with a gap filled with vibration-absorbing material, the screen is made in height in the form of a broken outline in cross section with obtuse fracture angles and installed with the ability to move towards the back wall of the body, and the adapter Plate with the tooth facing down, times VI

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located on the outside of the screen, and the support is equipped with trough-shaped walls facing up buttresses ™, adjacent to the rear wall of the body and the lower end of the screen is supported on the buttress buttresses about

This construction of the bridge makes it possible to increase its seismic resistance.

or lower, the screen surface is tilted away from the structure. It will also create a mutual absorption zone. In addition, it will reduce the wave propagation zone under the structure due to downward reflecting waves. Refracted waves will be absorbed by the material filling the gap between

by creating a zone of mutual POGLO-Q screen and support body. Arising in

During earthquake, the seismic pressure of the backfill soil to the back face will also decrease steadily due to the compression of the elastic-viscous material filling the space between the screen, the body of the support and the buttresses with a movable screen. This happens after the embankment during seismic impact, losing its stability, will press on the screen of the latter, since it is movable, will move towards it beyond the face of the support body 0 But due to the fact that the space between the screen and support bodies is filled with absorbing rings with elastic-viscous material, the seismic pressure on the abutment will be reduced by compressing the elastic-viscous material, i.e., vibration damping will occur. During operation, the effect of large horizontal forces from vehicles located on embankments will be perceived by the screen and viscoelastic material, thereby reducing the active pressure of the soil on the foundation

1

puppy waves, screen made in the form of a broken outline in height in cross section

On League 1, a bridge abutment is shown, a cross section; in Fig 2 - section aa in Fig about 1 about

The bridge abutment includes a sub-truss plate 1, a cupboard wall 2, a support body 3 and a screen, joined by trough-shaped buttresses O 5 and a transition plate 6, having a tooth 7 facing down, which is placed on the outside of the screen ha

The space formed by the body 3, the screen k and the buttresses 5 is filled with vibration-absorbing material 8, the gaps 9 are filled with elastic waterproofing material 10

The installed bridge works as follows .3

During the seismic action, the surface waves resulting from this are reflected and refracted by the surface of the screen A0. Moreover, due to the fact that the screen 4 is made in height in the form of a “broken outline, the direction of the reflected waves will be unequal about. In the upper part of the screen k reflected from two adjacent forming the angle of the surfaces between themselves, the reflected waves will be directed under the angle one to the other. In this case, the incident and reflected will be superimposed from two sides, forming the angle of the screen surfaces s waves and thus create in aggregate, the mutual absorption zone in front of the screen. The angle between the forming surfaces of the screen (broken surfaces) should be 180 °. If Q (. 90 °, then the waves reflected from the broken surfaces of the screen will be directed one to the other, that is, they will be directed on adjacent surfaces of the screen, as a result of which an additional incident wave is generated on the screen surface and the process of damping the oscillations is complicated

R of the lower part of the screen, located at the level of the foundation of the support body

screen and support body. Arising in

-

During the earthquake, the seismic lateral pressure of the backfill soil on the back face will also decrease steadily due to the compression of the elastic-viscous material filling the space between the screen, the support body and the buttresses with a movable screen. This happens after the embankment during seismic impact, rubbed its stability, it will put pressure on the screen, the latter, since it is movable, will move towards the rear face of the support body 0 But due to the fact that the space between the screen and the support body is filled with absorption oscillating elastic-viscous material, the seismic pressure on the abutment will be reduced by compressing the elastic-viscous material, i.e. vibration damping occurs. During operation, the impact of large horizontal forces from vehicles on the embankment will be perceived by the screen and viscoelastic material, thereby reducing the active pressure of the soil on the foundation

The proposed bridge abutment allows to increase the efficiency of damping soil vibrations and reduces lateral soil pressure on the abutment bridge, due to the creation of a zone of mutual absorption of waves and damping vibrations, which will increase the seismic resistance of bridge abutments

Claims (1)

The claims A bridge abutment, including a transition plate, a body with a back wall and a gap arranged relative to it, a screen filled with vibration-absorbing material, characterized by the fact that, for the purpose of increasing the seismic resistance, the screen is made along the height of the broken outline in cross section with obtuse angles fracture and is installed with the possibility of movement towards the rear wall of the body, and the adapter plate with  1