SU1162893A1 - Dam construction method - Google Patents

Abstract

METHOD OF CONSTRUCTION OF THE DAM, including alternate construction and putting into operation successively connected sections of a water conduit, connecting sections of the river bed that are located above and below the dividing jumpers, developing a pit and erecting the body of the dam along the sections adjacent to each other along the riverbed , the fence section of the pit is an additional jumper, which is indicated by the fact that, in order to increase the efficiency of the method by reducing the construction time, the water line is constructed of double-stranded, As a basement, the outer entrance cap, relative to the river, is the initial part of the water conduit below the head of the internal conduit, flood water flows are passed through the constructed sections of both water lines (L water, low flow costs - by one of the water lines, while during interfloor periods the construction is completed and connection of sections along another conduit line. Od N9 OS CO oo

Description

11 The invention relates to hydraulic engineering, more specifically to methods for constructing dams on mountainous sections of rivers, in particular, with the location of a dam on a zigzag section of a river. There is a known method of constructing a dam, including the construction of a conduit connecting the sections of the river bed located above and below the bridges protecting the pit, the construction of bridges and construction. Under their protection, the dam bodies lj. A disadvantage of the method is the extension of the terms of the dam construction due to the fact that the construction of the dam on the mountainous sections of the rivers can be started after the completion of the construction of the conduit connecting the rivers located above and below the bridges and ditch pit full profile. There is also known a method of constructing a dam, including alternate construction and putting into operation after a water pipeline sections that are connected to each other, connecting the riverbed sections located above and below the dividing jumpers, developing the pit and building the dam body in areas adjacent to the Friend to a friend along the river bed, enclosing each section of the pit with an additional jumper t2 J. The disadvantage of the method is its low efficiency, due to the fact that the water conduit is constructed as single-strand and it passed low water and high water costs neprergano throughout the period of construction of the dam. Therefore, the time for disconnection of this conduit for the period of connecting subsequent sections to it should be insignificant, depending on the height of the ridge jumper, which creates the upstream capacity. This volume in mountainous areas of rivers with large slopes, is very small. In addition, with one line of water conduit by the time of its flooding, all the shutter equipment must be installed. The purpose of the invention is to improve the efficiency of the method of building a dam by reducing the construction time. 3 This goal is achieved by the fact that the water guide is built two-stranded, having an input tip of the outer, relative to the river, initial section of the conduit below the tip of the internal conduit, flood floods are passed through the constructed sections of both conduit lines, low flow rates - by one of the conduit threads, with In this, during the periods of interplanting, the sections are completed and connected to another section of the conduit. FIG. Figures 1 to 6 schematically depict plans for the phased construction of the body of a p-gotina, the trench of which is divided into three sections, with a demonstration of the successive activation of the sections of the conduit. On the zigzag section of the river 1 there are jumpers 2-5, a double-thread conduit that includes a left-hand thread, consisting of the inlet tip 6, the initial section 7 with the chamber 8 of the valves, the branching node 9, the sections 10 and 11 of the conduit connecting the initial section 7 with the river bed 1 through the pipe 12, and the right thread, consisting of the input tip 13, the initial section 14c chamber 15 gates, pipe 16, the end section 17. The input tip 6 of the left conduit-e is located at marks below the tip 13 on the right conduit. Jumpers 2-5 enclose sections 18–20 of the excavation, in which there is a dam 21. There is a dam being constructed in the next sequence. An inlet head 6 is built on the left conduit, an initial section 7 with a chamber 8 of valves, a node 9 for branching and a section 10, connecting it to the river bed 1 (Fig. 1). During the flood recession, jumpers 2 and 3 are raised and switch the flow of the river into a partially constructed left conduit. Under the protection of bridges 2 and 3, they start the development of section 18 of the excavation and construction at the part of the dam that can be erected between bridges 2 and 3. At the same time, the inlet head 13 and the initial section of the right conduit are being constructed, connecting it to the river below the jumper 3 (Fig. 2). The flood of the next year is passed through the initial sections of the conduits (Fig. 2) ..

31

After passing through the floods and reducing the horizons of the water in the river 1, the water passes through the left conduit, and the right conduit is emptied by the fact that its exit tip 13 is located above the tip 6 of the left conduit. Below jumper 3 in the channel of river 1, lintel 4 is poured, creating a new section 19 of the pit in which pipe 16 is erected, continuing to erect dam 21 (Fig. 3). At the same time, a section 17 of the tunnel is being constructed, connecting it to the river bed 1. The flood of the following year is passed through the unfinished left thread and the right thread with a fully completed flow part (FIG. 1D).

After passing through the flood in chamber 8 of the initial section 7 of the left conduit, the gates are lowered, switching the flow of water to the right conduit. After that, in the riverbed 1, a jumper 5 is erected, a section 10 is completed

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the left conduit, the initial section 7 of the conduit, through a branch unit connected to the river bed 1, in which a pipe 12 is erected (Fig. 5). In the section 20 of the excavation, the dam is raised and a terminal section 11 of the left conduit is constructed. The flood of the next year is passed through both water lines with a fully completed

their flow part (Fig. 6).

In the subsequent low-flow period, in the right conduit, the chamber of the 15 gates is completed, at which time the water passes through the left conduit, and the dam is raised to the design mark.

The construction of the dam in the specified sequence using two lines of the conduit, constructed in the proposed sequence,

and allows more efficient use of the method of erecting a dam on a zigzag section of the river, reducing the construction period.

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Claims (1)

METHOD FOR CONSTRUCTION OF THE DAM, including the alternate construction and commissioning of successively connected sections of the water conduit connecting the sections of the river channel located above and below the bridges protecting the foundation pit, the development of the pit and the construction of the dam body in sections adjacent to each other along the river channel , fencing each section of the pit with an additional jumper, characterized in that, in order to increase the efficiency of the method by reducing the construction time, the water conduit is built in two-thread, laying the inlet head of the external, in relation to the river, initial section of the water conduit below the head of the internal water conduit, flood water flows are passed along the constructed sections of both water conduits, low-water flows are passed along one of the water conduits, and during the inter-flood periods, completion and connection of sections along the other the water line Au Yu 00 with GO>