SU1714033A1 - Flow energy damper - Google Patents

Abstract

The invention relates to hydraulic engineering and can be used to quench the energy of a water stream in a water disposal facility. The purpose of the invention is to increase the efficiency of quenching and to ensure self-storage of the tank. From a water-pipe pipe t, a stream of water at high speed hits water level 14 and is thrown upward into inclined trays 15 located behind the threshold. Part of the water flows over the top of the trays 15, and another part loses its water energy along the inclined plane of the trays 15 under the action of the force of gravity discharge down to the bottom of the 5th tank. As a result of the crushing of the water flow on the trays 15, the energy of the water flow is effectively quenched. From the revervooir, the water is poured through the overflow wall 8, falls on the flybet 9 and on the channel fixed by the rock layer 12. After that, water with unbreakable speeds enters the channel with natural soil 13. 2 Cp. f-ly. 8 il.fe? 7 ^^ ^ / ^ \ ^ 5-15ÅSA) SLZ

Description

The invention relates to transport and hydraulic engineering construction and can be used to quench the energy of a water flow in a conduit and in water discharge structures.

The purpose of the invention is to increase the efficiency of the quenching and ensure the self-washing of the tank.

Figure 1 shows the energy absorber of the flow, top view; figure 2 - section aa on fic1; on fig.Z - section BB in figure 1; figure 4 - section bb In Fig, 1; on figb section GG on figure 1; Fig. 6b is an embodiment of a tray with increased roughness and through holes; figure 7 - section dD in figb; on Fig.8 - section EE of Fig.b.

The flow energy damper includes a culvert pipe 1 laid on the foundation 2, while a drainage cushion 3 is arranged under the entire structure. The culvert pipe 1 ends with a portal wall 4 behind which the bottom 5 of the extinguisher tank is located. Portal wall 4 on the bottom side is supported by wing 6.

The openings 6 pass into the walls 7 of the reservoir, the height of which gradually decreases and they pass into the overflow walls 8 behind which the flybet 9 is laid at the back and sides, limited to the sides by the sides 10 and ending with a tooth 11. A stone sketch 12 is laid over the teeth 11. behind which is located the natural soil of the 13 channel.

Behind the portal wall 4 between the wings b, a water-breaking threshold 14 is installed perpendicular to the longitudinal axis of the extinguisher. Trays 15 are installed at a short distance from the water-running threshold 14 with trays 15 tilted in the opposite direction to the flow. Trays 15 are mounted in an inclined position on the through-supports 16. Vertical slots 17 are made in the watering threshold 14. Vertical slots 18 are also made in the overflow wall 8. Trays 15 are laid on the through-supports 16 so that there is a gap between the beginning of the first tray and the watering threshold 14 19. A gap 20 is also formed between the bottom of the trays 15 and the bottom 5 of the tank.

For the free flow of liquid in the reservoir of the quencher, the supports 16 have openings 21. Ground 22 is poured on the sides of the tank. To drain water from the draining pad 3, tooth 11 has drainage holes 23 to drain the water from the building to the riprap 12.

The damper works as follows.

The flow of water at high speed leaves the culvert 1 and spreads between the wings 6. The spread flow hits the water outlet threshold 14. at the same time, the liquid loses part of its kinetic energy. Hydraulic jump occurs in the tank of the extinguisher

part of the water is thrown up by the threshold 14 and falls on the inclined trays 15, a smaller part of the water passes through the slots 17 in the water passage threshold 4. When water enters the inclined trays 15, under the action of inertia forces flows up along the inclined plane, while losing speed. Part of the water under the force of gravity flows down the inclined plane. trays 15, loses its energy and along the bottom 5 of the tank, which has a slope towards the spillway wall 8, moves towards the wall 8. This causes jets from the various trays 15 to collide. In addition, flow aeration occurs within the tank.

From the reservoir, the water is poured through the spillway wall 8, falls on the flybet 9 and then on the rough surface of the rock layer 12. Having given up its energy in the extinguisher, the water with unwashable

speeds flow into the bed with natural soil 13. The location of the bottom 5 of the tank at the level of the bottom of the diversion channel and the vertical slots in the overflow wall 8 for its entire height ensure self-washing of the sump from the sediment.

In the case of making the bottom of the second and subsequent trays 15 with increased roughness 24 and through holes 25

the efficiency of water flow quenching is further enhanced.

Claims (3)

1. A flow energy damper that includes a reservoir formed by the bottom and walls, inside of which a water-breaker threshold is set, and a flybet is placed on both sides and behind the reservoir. ending with a tooth, with the reservoir wall adjacent to the flutbet. made as a spillway, and a fixed diverting channel is located behind the tooth, characterized in that., in order to increase the quenching efficiency and ensure the tank’s self-washing, it is equipped with trays placed in the tank behind the water break threshold, while the trays are inclined towards the flow and above the bottom of the reservoir, which is located at the level of the bottom of the diverting channel, and in the overflow wall the cuts are made to its full height .. 2. The damper according to claim 1, about tl and h and y and the fact that the mount of the diverting channel is made of a rough outline. Bvg YY 7 3J1 /  . .f 3. A damper according to claim 1, characterized in that the second and subsequent inclined chutes have a bottom with increased roughness and through holes. / J I 1: 5 & YY "G5G" G. ". I. ".." i VV IVvWibl Sj flfOfft -i ... J V R: | FEX V $ ...: - J, L / JVN B-ff Phie, 3 75 Bjs  y N N 9 IK in - Fiz.b 1714033 gd