RU2050433C1 - Redundant spillway of earth retaining construction - Google Patents

Abstract

FIELD: hydraulic engineering. SUBSTANCE: spillway includes earth insertion 1 being washed, concrete abutments 2, taking insertion 1 apart from base dam 3. Apron consists of plate 4, walls 5, beam 6, and end section 7, and beam-type bridge, comprising concrete beams 9, lane 10 and movable bearing parts. Steps are made in abutments 2. Movable bearing parts of the beam-type bridge are placed on the steps in such a manner that faces of bridge beams 9 in summer lean against the abutments as a result of elongation of beams 9. Apron walls 5 and beams 6 are solid along their lengths, placed in the body of insertion 1 and push apart abutments 2. Ridge of insertion 1 is placed below the ridge of the base dam, and lower part of beams 9 is located over the ridge of insertion 1 to form gap 13 between them. EFFECT: high reliability. 2 cl, 3 dwg

Description

 The invention relates to hydraulic engineering and can be used as an auxiliary spillway to pass floods of rare frequency.

 Known reserve spillway of an underground retaining structure, which is a bypass channel, arranged in rock formations and covered by a washable soil insert made in the form of a dam with a crest mark below the crest mark of the main soil retaining structure. Such a backup spillway can be arranged without the conclusion of its eroded insert in special concrete clothing only if the spillway is located in a bypass channel made in indelible quality rock formations.

 Known reserve spillway of the soil retaining structure, including the abutments, located between the abutments of the soil eroded insert made in the form of a dam with a mark of the ridge below the mark of the crest of the soil retaining structure, and a spout equipped with dampers. Such a backup spillway has a high consumption of materials due to the fact that its abutments, after activating the spillway and erosion of its insert, should work as retaining walls that receive one-way soil pressure from the retaining structure. Moreover, the operation of such a spillway is difficult both due to the insertion and, consequently, the passage through it below the soil retaining structure, and due to the destruction of this passage in the event of erosion of the soil insert.

 The technical result from the use of the invention is to reduce the material consumption of the spillway while simplifying the operation of the retaining structure.

 This technical result is achieved due to the fact that the backup spillway of the soil retaining structure, including the abutments, the soil erosion insert located between them, made in the form of a dam with a crest mark below the crest mark of the soil retaining structure, and the spout equipped with dampers, according to the invention, is equipped with a beam bridge with a movable supporting part, while in the abutment a ledge is made on which the movable part of the bridge is located, the lower part of the bridge beams is located above the crest of the eroded insert ki to form a gap between them, and the ends of the bridge beams in the summer resting on the foundations as a result of thermal elongation beams. Additionally, the dampers are made in the form of continuous walls along the length of the walls, placed in the body of the soil eroded insert and bursting abutments.

 In FIG. 1 shows a spillway, a vertical section; figure 2 section aa in figure 1; in Fig.3 node I in Fig.2.

 The backup spillway includes a washable soil insert 1 made in the form of a dam, concrete abutments 2 separating the insert 1 from the soil retaining structure made in the form of a main dam 3, a water outlet consisting of a plate 4, walls 5, a beam 6 and an end section in the form of a filled stone bucket 7 in the base 8, and a beam bridge consisting of concrete beams 9, the roadway 10 and the movable supporting parts 11.

 In the abutments 2, ledges 12 are made on which the movable supporting parts 11 of the beam bridge are located so that the ends of the bridge beams 9 in the summer are abutted as a result of the temperature extension of the beams 9. The watering walls 5 and beam 6 are made continuous in length, placed in the body eroded washable insert 1 and abutment abutments 2. The crest of eroded insert 1 is located below the crest of the main dam 3, and the lower part of the beams 9 is located above the crest of the eroded insert 1 with the formation of a gap 13 between them.

 From the side of the reservoir and abruptly between the abutments 2, a spill wall 14 is made, the crest of which is located below the crest of the eroded insert 1, and the slope of the insert 1 above the wall 14 is fixed by plates 15.

 Insert 1 is being erected simultaneously with a dead dam 3, however, in the case of a high-quality rock base 8, a water plate 4 and a bucket 7 are not arranged.

 Reserve spillway works as follows.

 In conditions when the flood passes through the main spillways (not shown), the backup spillway works as a section of a dead dam 3. The spillway 14 acts as a retaining wall, the slab 4 of the water culvert acts as a concrete flute, and the stone in the bucket 7 has drainage of the lower slope. Moreover, in the summer, the ends of the beams 9 of the bridge are abutment 2, and in the winter, the beams 9 as a result of temperature reduction of their length move on the movable supports 11 with the formation of a gap a at their ends (Fig. 3), the value of which usually does not exceed 1 see During a flood of rare occurrence, when the throughput of the main spillways becomes insufficient, the water level in the upstream rises to the calculated level. Overflow insert 1 and the flush of soil and plates 15 to plate 4 and bucket 17 while maintaining the carriageway 10 of the bridge. In this case, the excess flow rate is discharged through the spillway wall 14 with the preservation of a significant part of the reservoir volume.

 The excess kinetic energy of the stream is quenched on plate 4 and its walls 5 and beam 6, and the stone in the bucket 7 prevents washing out of the water hole and abutments 2. At the same time, the beam 9 of the bridge is in the upper part, and the water plates 4, walls 5 and beam 6 and the drainage wall 14 in the lower and middle parts play the role of spacers between the abutments 2, combining both abutments 2 in a single structure and thus balancing the soil pressure on the abutments 2 from the dead dam 3.

 At the end of the flood, the soil part of the spillway is restored to its original position.

Claims (2)

 1. RESERVE WATER DISCHARGE OF A SOIL SUBSTRUCTIVE STRUCTURE, including abutments located between the abutments of a ground eroded insert made in the form of a dam with a crest mark below the crest mark of an underground retaining structure, and a spout equipped with dampers, characterized in that it is equipped with a beam part with a movable supporting at the same time, a ledge is made in the abutment, on which a movable supporting part of the bridge is installed, the lower part of the bridge beams is located above the crest of the eroded insert with the formation of a gap between them, and tzu bridge beams in the summer resting on the foundations as a result of thermal elongation beams.  2. The spillway according to claim 1, characterized in that the damper is made in the form of continuous walls along the length of the walls, placed in the body of the soil eroded insert and bursting abutments.

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