SU1113464A1 - Concrete dam drainage system - Google Patents

Abstract

1. DRAINAGE OF A CONCRETE DUTY, mainly of gravity type, including a series of dams located along the entire height at the same distance from the pressure face of vertical drains, having an exit to the longitudinal galleries, equally distant from the pressure face, differing from the fact that construction costs, simplified construction work and improved conditions for observing filtration through the pressure face of the dam; drains are separated from the longitudinal galleries by a reinforced concrete wall, with drain outputs in hectares The rails are made in the form of holes in the wall, equipped with inclined latches. 2. Drainage according to claim 1, characterized in that, in order to improve workability, located (Longitudinal galleries in the inner part of the dam are enclosed in a cage of increased strength.

Description

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O5 4: ai t I The invention relates to general engineering construction, in particular to structures of drainage devices in the body of concrete, mainly gravity dams. A well-known drainage structure in the body of a gravity dam, including a series of vertical drains located near the pressure face, and longitudinal galleries intersecting the drains at different elevations, and the distance between the pressure face and drains in the lower part of the dam is much larger than in its upper part 1. The disadvantages of this technical solution are the need to adopt an increased excess of the required thickness of the upper zone, made of dense waterproof concrete, which increases the cost of construction; the complexity of the construction work is due to the fact that all vertical drains at several elevations intersect with longitudinal galleries, and the entire drainage system in the cross section of the dam has a stepped configuration; the difficulty of observing filtration through a pressure face and the inconvenience of measuring the flow rate of water flowing from drains along the ceiling and walls of the longitudinal galleries. Closest to the invention is a drainage structure in the body of a high gravity dam, in which drainage wells are located at the same distance from the pressure face over the entire height of the dam. C.21 In the known device, the above disadvantages also occur, although at least. The purpose of the invention is to reduce the construction cost, simplify the construction work and improve the conditions for observing filtration through the pressure face of the dam. The goal is achieved by the fact that in the known device the drains are separated from the longitudinal galleries by a thin reinforced concrete wall, and the outflows of drains to the galleries are made in the form of holes in the wall, equipped with inclined latches. In order to improve the workability, the longitudinal galleries located in the inner part of the dam are enclosed in a cage of increased strength concrete. FIG. 1 shows a gravity dam with a drainage of the proposed 4I construction, a cross section; Fig. 2 shows a detail of the conjugation of drains with longitudinal galleries (node 1 in Fig. 1); in fig. 3 is a horizontal section A-A in FIG. 2. The gravitational dam includes a riding zone 1, made of dense waterproof concrete, the inside 2 of low-quality low-cement concrete and a bottom edge 3, made of dense frost-resistant concrete. The upper part of the dam 4 at the height of the water level in the upstream is made of dense waterproof and frost-resistant concrete. Under the upper tooth 5, there is a cementing curtain 6 and a drainage of the base 7. On the lower side of the upper zone 1 are placed drainage 8, and on the upper side of the inner part 2 - longitudinal galleries 9. Device drains 8 and longitudinal galleries 9, as well as their conjugation is performed in the following way. The upper zone 1 is erected ahead of the inner part 2. Reinforced concrete slabs are used as a formwork on the lower side of zone 1, which remain in the body of the dam and form a thin wall 10 with a thickness of 10-15 cm. To the wall 10, prefabricated 11 U-shaped sections of porous concrete are installed and fixed, which form drains 8. At the levels of the longitudinal galleries 9 in the wall 10, holes 12 are arranged against the drains 8, equipped with devices, for example, inclined valves 13, If necessary, overlap the drains 8, if necessary. After the inner part of the dam 2 is erected to a level approximately 20-30 cm below the level of the next gallery 9, prefabricated reinforced concrete elements 14 and 15 are installed and an array of reinforced concrete 16 forming the ferrule is laid in their outer contour around the longitudinal gallery. Further work continues on concreting the inner part 2 and the floor 17 in gallery 9. The use of the proposed drainage design in a high concrete dam will reduce (compared to the prototype) the thickness of the upper zone; simplify construction work; significantly improve the conditions for observing filtration through the pressure face of the dam. The proposed drainage design makes it possible to complete the upper zone of the dam with a minimum mass defined by permissible filtration gradients, placing longitudinal galleries in the inner part of the dam, and cement the seam separating the upper zone from the inner part. This significantly simplifies the work due to the fact that The drains, having the form of through channels, do not intersect with the longitudinal galleries and run independently of the latter. In addition, the proposed design allows to significantly improve the conditions for monitoring the filtration through the pressure face of the dam. The use of the invention in the construction of a dam height of 152 m makes it possible to reduce the volume of concrete in the upstream zone by 200 m with a corresponding increase in the volume of concrete in the inner part of the dam. When the difference in unit costs of concrete in the indicated parts of the structure is equal to 7 rubles per meter, the economic effect from the introduction of the invention is 1.4 million rubles.

Claims (2)

1. DRAINAGE OF A CONCRETE WEIR, mainly of the gravity type, including a series of vertical drains located along the entire height of the dam at the same distance from the pressure face that have access to the longitudinal galleries, also equally remote from the pressure face, characterized in that, in order to reduce the cost of construction simplifying the construction work and improving the conditions for observing the filtration through the pressure face of the dam, the drains are separated from the longitudinal galleries by a reinforced concrete wall, and the drains exit to the galleries in Full in the form of holes in a wall, equipped with valves inclined. 2. Drainage pop. 1, characterized in that, in order to improve the manufacturability of work, the longitudinal galleries located in the inner part of the dam are enclosed in a cage made of high-strength concrete. tep G ”ns * 1 11