CS207232B1 - Method of incresing the stability of the earth dam by seismical loading - Google Patents

Description

(54) A method of increasing the stability of a bulk dam under a seismic load

SUMMARY OF THE INVENTION The present invention relates to a method for increasing the stability of loose dikes under a seismic load, comprising inserting reinforcing elements formed by anchoring plates connected to each other in one or more horizontal planes into the upper part of the dam.

In designing the transverse profile of the bulkheads situated in seismic active areas, increasing stability has hitherto been achieved by decreasing the inclination of both cheeks, resulting in a significant increase in the volume of the dam and thus a substantial increase in investment costs. In earthquakes, dams usually occur in the area of the crown crown, where there are the highest amplitudes of horizontal acceleration. The lower parts of the dam, which have been designed for static loading, usually also meet the seismic loading conditions. This practically means that a reduction in the inclination of both cheeks as a result of ensuring the stability of the upper part of the dam near the crown is not necessary in the lower part and thus leads to uneconomical designs of the transverse profile of the dams.

This disadvantage is overcome by the invention, which consists in inserting reinforcing elements consisting of anchor plates connected to one another by means of tie rods in one or more horizontal planes into the upper part of the dam when it is poured. The horizontal anchorage system captures the inertia forces occurring during the earthquake in the area of the dam dam. The model research carried out clearly demonstrated the beneficial effect of these reinforcing inserts, which was manifested in the fact that the horizontal vibration of the model on the vibrating table did not damage both cheeks and the crown of the dam compared to the model of dam where the inserts were not used.

The attached drawing schematically illustrates a method of increasing the Stability of a dam by means of reinforcing horizontal elements in two planes.

In earthquakes, the most dangerous horizontal oscillations of the subsoil, which reduce the stability of both cheeks near the dam crown. When the vibration direction dam for water to become unstable soil wedge upstream face and limited slip surface 3, while _R airy face increases due to the inertia its stability. The anchor plate 1 on the upstream side captures the horizontal force which is transmitted by means of the rod 2 to the second anchor plate located at this point in the stable part. The opposite is true for both oscillation and reverse. I.e, ! This means that, under alternating stress, the entire anchorage system is in equilibrium because the sheared wedges are trapped on the opposite side, which are stable at a given moment.

The lower row of anchors no longer need to extend over the whole dam, as the inner anchor plates 1 can easily be caught in a permanently stable part of the dam. For example, prefabricated concrete can be used as anchor plates and anticorrosive coated steel rods can be used as rods.

This described method of increasing the stability of loose dams under seismic loading can be applied especially in the construction of water structures situated in seismically active areas.

Claims (1)

SUBJECT OF THE INVENTION Method for increasing the stability of a loose dam under a seismic load, characterized in that reinforcement elements formed by anchor plates connected to each other by bars are inserted in one or more horizontal planes into the upper part of the dam when it is poured.