SU1100365A1 - Water spillway structure - Google Patents

Abstract

1. WATER-DRAINING WATER DISTRIBUTION, including the weir and located in the downstream. A soothing pool with an elastic coating made in the form of hollow shells filled with working medium and attached to the bottom of the pool around the perimeter by means of cables and anchors is characterized in that, in order to increase the efficiency of the facility by providing automatic control of the working medium pressure, the shell is communicated with the upper by the pipeline. 2. The construction according to claim 1, characterized in that the pipeline is connected to the upper reach by means of a receiving opening located on the weir in the zone of high speeds and directed against the flow of the discharge stream. with O5 SP

Description

The invention relates to a hydraulic engineering construction, namely to a water discharge structure. A water overflow water outlet structure is known, including a weir and a soothing basin with elastic cover 1 located in the downstream. This structure is applicable at low and medium specific costs and is not reliable enough with increasing associated height differences On him. Known spillway spillway construction, including spillway and located in the downstream sedative pool with an elastic coating, made in the form of a hollow shell, filled with working medium and attached to the bottom of the pool along the perimeter by means of cables and anchors 2. However, the well-known construction is inefficient in operation due to possible punctures in the shell, the consequence of which is a drop in pressure and, consequently, a sharp decrease in the energy-absorbing properties of the coating, which affects the efficiency of all servation. The purpose of the invention is to increase the efficiency of the facility by providing automatic pressure control of the working environment. The goal is achieved by the fact that in the overflow construction of the envelope communicated with the headwater through the pipeline. In addition, the pipeline is connected to the upper reach by means of a receiving opening located on the weir in the zone of high speeds and directed against the flow of the discharge stream. The drawing shows the proposed construction, a longitudinal section. The spillway spillway structure consists of the spillway structure 1, behind which in the bottom of the diversion channel 2 there is a calming basin 3, covered with one 4 or several hollow elastic shells 5 filled with working medium 6. The perimeter to the bottom of the diverting channel of shell 4 and 5 can be are attached by means of cables 7 to anchors 8 of the outer contour and to anchors 9 of the inner contour of fastening. The cavities of the shells 4, 5 through pipeline 10 are connected to the headwater of structure 1 or through pipe 11 to a receiving opening 12 located on the discharge part of structure 1 in the zone of high speeds, for example, in a compressed section and directed upstream. In addition, the upper and lower sides of the sheath 4 can be interconnected by means of cables 13. Over the sheath area of the cover 4 and 5 can be installed in the soothing basin 3 and in the diverting channel 2. 52 Dump 14 falls into the soothing basin 3, covered with shells 4 and 5, filled with working medium 6. The flow pressure is redistributed by strength properties and overpressure in shells 4, 5, cables 7 as well as the bottom of the stilling basin 3 with anchors 9 and anchors 8 it achieves a uniform distribution of the force of the dynamic action of the jet 14 over the entire area of the soothing basin 3 and the adjacent sections of the diversion channel 2. Because when the structure 1 passes, the average and high specific costs and with significant matching height differences 4, 5 are made of materials having a large tensile strength, for example, from a conveyor belt with a multilayer cord, in the latter there can be not tears, but punctures and leakage of the shells in the places of their joining and However, through which the working medium leaves the shells 4, 5 under the action of overpressure, as a result of which their performance deteriorates. The connection of the cavities of the shells 4, 5 through the pipeline 10 with the upstream of the structure 1 due to the significant excess pressure from the effect on the shells 4, 5 of the liquid level in the upstream through the pipe 10 over the pressure caused by the joint action on the upper side of the shells 4, 5 of the downstream and the diaamic effect of the jet will lead to the latter being filled with liquid from the upstream. With a small number of punctures in the shells 4, 5, their outer surface will consist either of cylindrical surfaces supported in the case of arranging long partitions at their attachment to the outer sides of the shells 4 and facing upwardly convex, or of spherical shells facing upwardly bulging in joining the upper and lower sides of the shells 4, 5 by means of cables 13, which contributes to a more efficient absorption of the energy of the waste stream. In addition, the increased pressure in the shells 4, 5 provides a more stable state of their lower sides due to artificial loading, which excludes the possibility of crushing the base below the shells 4, 5. With an increase in the number of punctures, the pressure in the shells of the coating by reducing the total value of local head losses due to leakage of fluid from damage will decrease and, consequently, their shape will change. With an increase in the flow rate, the water level in the upstream of the structure increases, which leads to an increase in pressure in the shell (as when connecting it to the upstream by the pipe,

and when using a velocity head in a shell with reduced pressure from the flow through the mouth, which also ensures their intensive installation towards the open pipe line (in a shell having a high pressure supply). As a result, pulsation, weak pulsating effects of the flow from the passage due to the low mobility of its over-high flow rates will not be extinguished in the sheath 5 but will not be extinguished). with increased pressure (which provides the required quenching of excess kine-Utilization of the invention will allow the sheath energy in the envelope and its shape to increase the efficiency of the construction of the structure). Low flow rates and ate due to the increased reliability of the shells and the former pulsation effects will increase the energy-extinguishing effect.

11003654

Claims (2)

1. WATER-WATER DRAINAGE STRUCTURE, including a spillway and located in the lower pool, a soothing pool with an elastic coating made in the form of hollow shells filled with a working medium and attached to the bottom of the pool along the perimeter with ropes and anchors, characterized in that, in order to increase work efficiency structures by providing automatic control of the pressure of the working medium, the shells are in communication with the upper pool through a pipeline. 2. Construction on π. 1, characterized in that the pipeline is connected to the upper pool by means of a receiving hole located on the spillway in the high-speed zone and directed against the flow of the waste stream.