RU2614798C1 - Water retaining dam - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: water retaining dam consists of the inlet section 1, the upstream apron 2, the retaining structure 3, behind which the stilling basin 4 with a wall 5, the downstream apron 6, the downstream apron terminal device 7 and the outlet section 8 are installed sequentially. The retaining structure 3 consists of a weir 9 with sidewalls 10 which are arranged at an angle 55÷75° to the flow axis. The wall 5 of the stilling basin 4 is formed as a broken line repeating the drain front path of the retaining structure 3. At the center of the downstream apron 6, diffusers 11 are installed in staggered order. The sidewalls 10 of the weir 9 at the junction points to side abutments 12 are reinforced with land abutments 13.

EFFECT: increased reliability and improved performance characteristics of the structure.

3 dwg

Description

The invention relates to hydraulic engineering and can be used as water and adjustable structures.

A flexible mating structure is known (RF patent No. 2256025, IPC EV 02/06, 2004), consisting of an inlet, a spillway and an outlet, which is a waterway, part. It is a one-piece flexible structure, consisting of a prefabricated spillway with a metal channel crest, to which a flexible reinforced concrete ponur adjoins from the upper side, consisting of a woven mesh covered with high-strength concrete, and from the bottom - an reinforced concrete water drain, consisting of one or two layers woven nets coated with high-strength concrete. Flexible reinforced concrete ponur to a spillway is fixed above a flexible reinforced concrete culvert. The structure may have a seal at the edges of the foundations. Reinforced concrete ponur or water slaughter can be coated with wear-resistant material made of natural stone or concrete slabs. Reinforced concrete ponur can be laid with a recess in the direction from the body of the spillway. Reinforced concrete spillway can be laid with a reverse slope in the direction from the body of the spillway.

A disadvantage of the known device is the difficulty of using as a retaining structure.

The closest technical solution is a water-tight dam (RF patent No. 2541633, IPC ЕВВ 7/02, 2013), consisting of a step difference, supply and discharge sections. At the step difference there are water wells, lateral abutments that mate the upper and lower abutments. A retaining structure is built into the input section of the step difference. The retaining structure consists of combined coaxial hollow half-cylinders with a common axis of rotation. The inner rotating half cylinder is divided into sectors by jumpers. The outer half cylinder is in a static position and is embedded in the body of the flat beta with a flat face oriented up. The inner half cylinder is sealed and filled with water from the upper pool. Half-cylinders are emptied by gravity drainage of water into the downstream.

A disadvantage of the known device is the difficulty in manufacturing and operation.

The technical result is to increase the reliability and improve the operational characteristics of the structure.

The technical result is achieved by the fact that the water dam, including the inlet and outlet section, retaining structure, water well with wall and side supports, according to the invention has an apron, in the center of which diffusers are installed in a checkerboard pattern, and the retaining structure consists of a spillway with side walls, which are located at an angle of 55 ÷ 75 ° to the axis of the flow and at the junction with the side abutments are reinforced with additional coastal abutments, while the wall of the water well is made in the form Oman line follows the path of the drain edge of retaining structures.

The novelty of the proposed proposal is due to the fact that the shape of the side walls of the spillway and their location at an angle of 55 ÷ 75 ° to the axis of movement of the flow prevent sediment from entering the water intake structure, but ensure that the sediment passes through the spillway. In addition, the location of the side walls of the spillway at an angle to the axis of the flow increases the productivity of the spillway due to the increase of the spillway front.

The novelty also lies in the fact that for flushing a water well from sediment, the wall of the water well is made in the form of a broken line repeating the trajectory of the spillway front of the retaining structure, which allows directing the main flow to the center, which ensures flushing of the water well from sediment at maximum cost.

The novelty also lies in the fact that the water-retaining dam has an apron, in the center of which diffusers are installed in a checkerboard pattern, which provide additional quenching of the energy of the water flow and a reduction in the length of the apron.

According to the patent and scientific and technical literature, no similar technical solution was found, which allows us to judge the inventive step of the proposal.

The invention is illustrated by drawings, where in FIG. 1 shows a plan of a water dam; FIG. 2 is a section AA in FIG. 1, in FIG. 3 is a section BB in FIG. one.

The water-retaining dam consists of a supply section 1, ponura 2, a retaining structure 3, behind which a water well 4 with a wall 5, an apron 6, an apron end device 7 and a discharge section 8 are installed sequentially. A retaining structure 3 consists of a spillway 9 with side walls 10, located at an angle of 55 ÷ 75 ° to the axis of flow. In the center of the apron 6, scatterers 11 are installed in a checkerboard pattern. The side walls of the spillway 10 are connected to the side abutments 12 with additional coastal abutments 13, and an intake structure 14 containing a fish protection device 15 is installed in front of the coast abutment 13.

A water dam, which is installed on sections of rivers or canals, works as follows. Water flow enters the supply section 1 through the pond 2 to a retaining structure 3, consisting of a spillway 9 with side walls 10. Moreover, the shape of the side walls of the spillway 10 and their location at an angle of 55 ÷ 75 ° to the axis of flow (Fig. 3) sediment into the intake structure 14, but ensure the passage of sediment through the spillway 9. If the side walls of the spillway 10 are located at an angle greater than 75 °, the sediment will not pass through the retaining structure, will accumulate, which will complicate the work of the intake eniya, and at an angle of less than 55 °, the water stream will be directed to the side pillars and energy will not be extinguished. Next, the flow enters the water well 4 containing the wall of the water well 5, where the main quenching of the energy of the water flow occurs, while at low flow rates, sediment can be delayed by the wall of the water well. For their washing, the wall of the water well is made in the form of a broken line that repeats the trajectory of the overflow front of the retaining structure 3 and allows directing the main flow to the center, which ensures washing of the water well 4 from sediment at maximum costs. Following the water well, to strengthen the channel, an apron 6 is installed, containing the end device of the apron 7. In the center of the apron, scatterers 11 are installed in a checkerboard pattern, providing additional damping of the energy of the water flow resulting from the concentration of the flow in the center due to the broken shape of the wall of the water well 5 . In addition, the diffusers 11 provide a reduction in the length of the apron 6. Side abutments 12 are made of concrete. The side walls of the spillway 10 at the junctions with the side abutments 12 are strengthened by the coastal abutments 13. A water intake structure 14 is installed in front of the coastal abutment 13, a fish protection device 15 is provided at its inlet. After the construction, the flow enters the discharge section 8.

Claims (1)

A water dam, including an inlet and outlet section, a retaining structure, a water well with a wall and lateral abutments, characterized in that it has an apron, in the center of which diffusers are staggered, and the retaining structure consists of a spillway with side walls that are located at an angle 55 ÷ 75 ° to the axis of the flow and at the junction with the side abutments are reinforced with additional coastal abutments, while the wall of the water well is made in the form of a broken line repeating the trajectory of the drainage rain front retaining structure.

Images