SU1698356A1 - Concrete dam - Google Patents

Abstract

The invention relates to hydraulic construction and can be used in the construction of concrete dams on rocky foundations and earthquake-prone areas. The purpose of the invention is to increase the reliability of operation under seismic effects. Concrete dam is divided by seismic insulating layers 1 in height into separate blocks 2. Seismic insulating layers 1, made of a material differing in acoustic rigidity from the concrete of the dam body and capable of perceiving compressive and shear loads, can be horizontal or inclined towards the upper beam. straight or broken. Adjacent in height 2 blocks are interconnected by prestressed flexible rods 3, one end anchored into the underlying block, and the other with the tension head extended into lost 4 or to the lower f face of the plogiky. 2 hp F-Py, 2 Il.

Description

1

The invention relates to hydraulic construction and can be used in the construction of concrete dams on rocky foundations in earthquake-prone areas.

The purpose of the invention is to increase the reliability of dam operation under seismic effects.

FIG. 1 shows a dam, a transverse section; in fig. 2 - the same, with the inclination of the traction in the direction of the lower bjaf and with the device at the site of the seismic isolation layer on the upstream), the cavity in the upper pool.

The concrete dam is divided by seismic insulating layers 1 into individual blocks 2 in height. Layers 1 can be horizontal or inclined towards the upper biefa, straight or broken. The adjacent height blocks 2 are interconnected by prestressed flexible strands 3, one end anchored into the underlying block, and the other with a tension head extended 4 or downstream. The tension of the straps 3 is carried out by jacks or any other devices. If necessary, additional tension may be applied during operation.

In order to ensure the watertightness of the dam when using non-bonded soil as a material for seismic insulating layers 1, the seal face 5 is arranged on the pressure face side. Layer 1 on the pressure face side can be removed into a special cavity 6 isolated from the reservoir, which improves the impermeability condition 1 in the lower part of the dam during movements caused by seismic effects, and increases the reliability of the facility.

The dam of the proposed design works as follows.

The effective normal and shear loads, including seismic effects, are transmitted from the top through layers 1, and also through the grids 3 to the underlying dam blocks. Fig. 3 provides for joint operation of dam blocks adjacent in height, especially under seismic effects. The inclination angle of seismic insulating layers is 1, the number of strands is 3, the preliminary tension forces are

3 and their inclination angle in the direction of the lower bieff are determined by the dam profile, the properties of the soil filling the intermediate seismic insulating layers, the estimated level of the reservoir, the intensity of seismic effects, the total ratio of the shear and holding forces.

When performing a string 3 with a slope in

0, the side of the lower bore is provided with an additional perception of shear and an increase in the stability of the upper parts of the structure against shear.

In a concrete dam divided by high ceilings with seismic insulating ground layers 1 into blocks 2, interconnected by flexible prestressed strands 3, due to the lower acoustic rigidity of layers 1 as compared to the acoustic rigidity of concrete blocks 2 dams and the arrangement of flexible connections 3 between adjacent blocks 2; the spectrum of free oscillations changes significantly with increasing oscillation periods and effective

5 by changing their forms, respectively, the level of seismic inertial load on the dam decreases, a significant reduction of the indicated load, especially on the upper part, is ensured and reliable

0 transfer of load from the top to the bottom of the dam.

Thus, the use of the dam of the proposed construction reduces the level of seismic loads, improves

5 conditions of operation and transfer of load from the upper to the lower blocks of the dam under seismic effects, reliably isolates the soil layer in the lower part of the dam from the reservoir and, in general, increases the reliability of the dam.

Claims (3)

1. A concrete dam consisting of sections made in height from blocks separated by insulating layers of 5 of a material with acoustic stiffness other than acoustic stiffness of concrete, characterized in that, in order to increase the reliability of operation under seismic effects, it is equipped with flexible 0 prestressed strands, connecting the dam blocks adjacent in height and passing through the insulating layer separating them, with the ends of the anchor being anchored into the bottom 5 of the gelling block, and the other with the tension head brought to loss or to the bottom edge of the dam. 2. A dam according to claim 1, characterized in that the grids are inclined towards the lower beef. 3. The dam under item 1, characterized in that the insulating layer, made on the border with the lower block of the dam, with The sides of the pressure face are led into a cavity made in the upstream and isolated from the reservoir. FIG. 2