SU1055810A1 - Concrete gravity weir - Google Patents

Abstract

CONCRETE GRAVITATIONAL DAM, consisting of a length of separate sections of equal volume, matched to each other by means of dowels, characterized in that, in order to improve seismic resistance, the dam sections are made alternating through one with different values of stiffness in cross section, with This key has elastic pads. Ej lt t

Description

The invention relates to hydraulic structures, in particular to concrete dams. Concrete gravity dams are known, consisting of individual blocks I. Such dams, if built in a seismically active region, experience additional seismic loads during earthquake; inertia - on the concrete of the dam, as well as the hydrodynamic pressure of the water reservoir. Both loads are due to dam oscillations, their magnitude increases dramatically when the natural frequency of the dam is close to the prevailing base oscillation frequency, i.e. when resonant oscillations take place Seismic loads at resonance can disturb the strength and stability of the dam. It is impossible to recover from resonance by imparting a certain natural frequency to the dam far from the prevailing base oscillation frequency, since earthquakes of various frequent composition are possible in any seismic region. Therefore, in order to ensure the strength and stability of the dam, at its blockage, its volume increases, which leads to an increase in its cost. Closest to the invention is a concrete gravity dam, consisting in length of separate sections of equal volume, interconnected by means of dowels. Such dams are more reliable, since they are limited to thermal formation from temperature effects J. A disadvantage of the known dam design is the low seismicity, which entails the need to increase its volume to ensure the strength and stability of the dam during earthquake. The aim of the invention is to increase seismic resistance. The goal is achieved by the fact that in a concrete gravitational dam consisting of separate sections of equal volume, connected to each other by means of dowels, sections of the nlotina are made alternating, through one with different stiffness in cross section, when the keys are removed, elastic pads are provided. 102 of FIG. 1 shows a dam, view from the downstream; in FIG. 2, section A-A in FIG. 1 | in fig. 3 section bb in fig. one; in fig. 4 intersection joint, horizontal section; in fig. 5 shows the node I in FIG. 6 shows an EB section of FIG. 1. The dam consists of alternating sections 1 of increased rigidity and sections 2 of reduced rigidity. The concrete volumes of sections 1 and 2 are equal to each other, as the width of the sections along the front and along the base is determined by the ratio of the widths 1 and 2 respectively of the front: the width of sections 1 and 2 along the base. Different stiffness of sections ensured by different laying of their bottom face - with a common vertical pressure face. The total volume of two adjacent sections is equal to the volume of two sections of a conventional gravity dam, designed without taking seismic effects into account. In intersection seams 3 arranged keys 4 with gaskets made of elastic material 5, for example polymeric, several centimeters thick. Different stiffness values of sections 1 and 2 can be provided by other constructive means. Under seismic effects, the dam works as follows. Due to the different stiffness of the sections, the frequencies of their natural vibrations are also different. In the case of a triangular cross section, the natural oscillation frequencies of the sections relate to each other: 1. 1 Since the natural oscillation frequencies сек and sections and 2 are different, the oscillations of the sections are nonsynchronous and in the keys 4 installed in the intersection stitches 3, forces arise between the sections. At the beginning of the oscillatory process, when the amplitude of oscillations of the sections is small and the oscillations are not dangerous for the dam, the gaskets 5 provide a low level of effort between the sections and are mostly independent of each other.

Claims (1)

CONCRETE GRAVITY WEIR, consisting in length of separate sections of equal volume, interconnected by means of dowels, characterized in that, in order to increase seismic resistance. sections of the dam are made alternating through one with different stiffness values in the cross section, while the dowels are equipped with elastic gaskets. >