SU1301915A1 - Rear apron of water-passing hydraulic structure - Google Patents

Abstract

The invention relates to hydraulic engineering. The purpose of the invention is to increase the reliability of operation by reducing the effect of water flow on the stove and end fitting. The flow of water coming out of the span I onto the concrete slab 2 spreads out at its limits and forms, behind the step 5, rollers with backflow. At the same time, due to the presence of a notch 6 in the slab 2, the rollers in the central and lateral parts of the flow have different sizes and shapes. A transverse circulation of the flow is formed, which makes it possible to equalize the planned flow characteristics. 3il. y (L 00 about with SP fig. 1

Description

The invention relates to hydraulic engineering and can be used as part of the downstream fastening of low pressure culverts operating in the near-critical interface mode.

The purpose of the invention is to increase the reliability of operation by reducing the effect of water flow on the stove and end fitting.

Fig. 1 shows an apron adjacent to the span of the culvert, axonometrics; figure 2 is the same, a longitudinal section; on fig.Z - section aa in figure 2.

The apron consists of a hydraulic structure of a horizontal concrete slab 2 with a top mark equal to the weir sill 3, and an end fixing 4, which forms a vertical step 5 with the end part of the slab 2, located on the base of the span structure I and the longitudinal axis 2 rectangular notch 6 is made. The optimal width of the notch 6 is equal to half the width of the passage of the culvert. Positions 7 and 8 denote respectively the central and lateral portions of the water flow.

The device works as follows.

The transit flow, the exit beyond the span of the span 1 onto the concrete slab 2, partially spreads within it, forming a roll with a reverse flow behind the step 5 (Fig. 2). At the same time, the rollers formed behind the step 5 on the central section 7 of the water flow (within the notch 6) and on the side sections 8 (outside the limit of the 6th) of the transit part of the flow have different sizes and shapes.

Due to this, at F 0.7 at the descent from the step 5, a shear effect is created, which causes water exchange between the transit flow and the lateral

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In the swirling areas, there is an increase in the intensity of transverse circulation behind step 5, which allows leveling of the flow characteristics in the plan. The mechanism of transverse circulation beyond the slotted ledge is shown in the f.

Behind step 5 in the area of compressing the noToka transit flow, additional flow is connected. The amount of side inflow uQ is divided into three components that are connected to the main flow within the suction drum as upflows: uQ, - along the transit flow dividing line and the water gate region, and others - within the middle quarter (outside the notch 6 ), uQ, - at the flow axis within the notch 6.

A more uniform distribution in terms of lateral flow, the allocation of bQj, allows for a planned flow adjustment so that the flow rate along the axis increases, thereby equalizing the speeds and pressures in the central part (within cutout 6) with a corresponding decrease in flow intensity along the dividing line of the transit flow and the whirlpool, which is why the flow blurring ability occurs.

Claims (1)

Invention Formula An apron of a water throughput hydraulic structure, comprising a horizontal plate, placed on the base with the formation of a vertical ledge with a cowl fastener, characterized in that, in order to increase the reliability of operation by reducing the effect of water flow on the plate and the end fastener, its longitudinal The axis is rectangular. g  1.1 f; -. : i g ". W CN4 fvi fr (S) lg Editor I. Shulla Compiled by A.Sergeev Tehred I.Popovich Order 1196/30 Circulation 607 Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5 Production and printing company, Uzhgorod, Projecto st., 4 Corrector S.Cherni