RU2199631C2 - Joining erection - Google Patents

Abstract

FIELD: hydraulic erections, namely joining erections on base of tubular manifolds of pressure-free water supply systems and cloudburst drainage. SUBSTANCE: joining erection includes end portion of supply water conduit, initial portion of discharging water conduit and arranged between them well having front wall adjacent to initial portion of supply water conduit, rear wall adjacent to initial portion of discharging water conduit and lateral walls. Well is provided with partition wall arranged between lateral walls normally relative to horizontal projection of lengthwise axis of discharging water conduit. Partition wall has round opening with vertical axis arranged in plane passing through lengthwise axis of discharging water conduit. Quantity of supplying water conduits may be more than one; additional supplying water conduits are connected with well in space restricted by front wall, partition wall and lateral walls. EFFECT: enhanced effectiveness and operational reliability at passing variable flowrates. 4 dwg

Description

 The invention relates to the field of hydraulic engineering, and more particularly to mating structures on tubular collectors of pressureless water supply systems and storm sewers.

 The closest technical solution is the mating structure, including the end section of the inlet conduit, the initial section of the outlet conduit and a well located between them, having a front wall adjacent to the end section of the inlet conduit, a rear wall adjacent to the initial section of the outlet conduit, and side walls (A. M. Kurganov, NF Fedorov. Handbook of hydraulic calculations of water supply and sewage systems. L. Leningrad branch of Stroyizdat, 1973, p. 318, Fig. 10.11.a).

 The disadvantage of this device is the large depth and cost of the structure due to the need to ensure free movement throughout the supply and outlet conduits to prevent transient hydraulic regimes leading to hydraulic shock in the conduits.

 The aim of the invention is to increase the efficiency of the structure while increasing the reliability of the work in the conditions of missing variable costs.

 The solution to this problem is achieved by the fact that the mating structure includes the end part of the inlet conduit, the initial section of the outlet conduit and a well located between them, having a front wall adjacent to the end section of the inlet conduit, a rear wall adjacent to the initial section of the outlet conduit, and side walls equipped with a dividing wall located between the side walls perpendicular to the horizontal projection of the longitudinal axis of the outlet conduit, in which a rounded hole with a vertical axis located in a plane passing through the longitudinal axis of the outlet conduit, while the number of inlet conduits can be more than one, and additional inlet conduits are connected to the well in the space formed by the front wall, the separation wall and side walls.

 The noted technical result is ensured by the fact that the water flow coming from the supply conduit into the space in front of the wall fills it to continue moving through the hole in the wall. The hole in the wall forms a jet, the cross section of which is less than the cross section of the outlet conduit and therefore does not completely fill it.

 Therefore, in the entire range of costs, the initial section of the outlet conduit operates in a non-pressure mode, regardless of whether the end section of the outlet conduit works with a full cross section or partially filled. The mode of operation of the conduit with a pressureless initial section excludes transient conditions and the associated hydraulic shocks. This allows you to place the end section of the inlet and the initial section of the outlet conduits in one level, thereby reducing the depth of the well.

 In FIG. 1 shows a longitudinal section of the mating structure along the axis of the outlet conduit, FIG. 2 is a plan of the device with one inlet conduit, in FIG. 3 is the same with two inlet conduits, in FIG. 4 is the same with three inlet conduits.

 The mating structure consists of an end section of the inlet conduit 1, an initial section of the outlet conduit 2 and a well 3 located therebetween, having a front wall 4, to which an end section of the inlet conduit 1, a rear wall 5 adjacent to the initial section of the outlet conduit 2, and side walls 6. Between the side walls 6 perpendicular to the horizontal projection of the longitudinal axis 7 of the outlet conduit 2, a dividing wall 8 is installed in which a round hole 9 is made, the vertical axis of which The horn is located in a plane passing through the longitudinal axis 7. In this case, there can be two inlet conduits 10 or three inlet conduits 11. These conduits are connected to the well 3 in the space formed by the front wall 4, the separation wall 8 and the side walls 6. In this space set the water level 12, which forms a stream 13 in the hole 9 of the separation wall 8.

 The mating structure operates as follows.

 Upon receipt of a flow of water from the end of the inlet conduit 1 or inlet conduits 10 or 11, a water level 12 is established in front of the dividing wall 8, which ensures that this flow passes through the opening 9 in the dividing wall 8. When water passes through the opening 9, the flow undergoes lateral compression, and when the corresponding size of the hole 9, the diameter of the jet 13 entering the initial section of the outlet conduit 2 is smaller than its diameter, so that it does not completely fill the cross section. Further formation of the flow in the outlet conduit 2 depends on its hydraulic characteristics, such as the longitudinal slope of the axis 7 and the roughness of its walls in accordance with the laws of hydraulics. The end section of the outlet conduit can mate with other conduits considered by the structure or other device. In this case, in case of flooding of the end section of the outlet conduit 2, the stream formed in this conduit will flow into the flooded part of the conduit 2.

 Placing the vertical axis of the hole 9 in the plane passing through the longitudinal axis 7 of the outlet conduit 2 provides a coaxial entry of the jet 13 into this conduit 2. The entry of the jet 13 into the conduit 2 is ensured by the appropriate selection of the diameter of the hole 9, the distance from the dividing wall 8 to the inlet section of the outlet conduit 2 and water level 12 in front of the dividing wall 8.

Claims (1)

 The mating structure, including the end part of the inlet conduit, the initial section of the outlet conduit and a well located between them, having a front wall adjacent to the end section of the inlet conduit, a rear wall adjacent to the initial section of the outlet conduit, and side walls, characterized in that the well is equipped with a dividing wall located between the side walls perpendicular to the horizontal projection of the longitudinal axis of the outlet conduit, in which a round hole is made a vertical axis situated in a plane passing through the longitudinal axis of the discharging sluice, the amount of supply conduits may be more than one, and an additional lead-in conduits are attached to the well in the space formed by the front wall, the partition wall and the side walls.

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