SU1327071A1 - Upper pool regulator - Google Patents

Abstract

The invention relates to hydraulic engineering and can be used to maintain the water level in the upstream of waterworks. The level regulator contains a bucket gate consisting of two wings 1, each of which has brackets 2 fixed on axles 3 rotations angled to each other in vertical and horizontal planes. Muting into each of the flaps of the side face 4, the flat face 5 with the beads 6, rigidly connected with the flap 1, whose surface is curvilinear, with its center of curvature located below the axis of rotation 3, improves reliability and reduces the intensity of the regulator. 4 il.

Description

The invention relates to hydraulic engineering and can be used to maintain the level of the water in the upper reach of hydraulic structures.

The purpose of the invention is to increase the reliability and reduce the metal intensity of the controller.

FIG. 1 shows the headwater level controller, a view from the sides of the headwater J in FIG. 2 is the same side view with a cut along the axis of the structure; in fig. 3 - the same, top view; in fig. 4 - right sash, axonometrics.

The regulator contains a bucket gate consisting of two valves 1, on each of which are fixed cantilevers 2 mounted on axles 3 of rotation. Each of the flaps 1 contains a side face 4, a flat face 5 with edges 6 along the lower and side edge of the Flange. . The flat face 5 is rigidly connected by consoles 7. The axes 3 of rotation of the flaps 1 are fixed, using bearings 8 on bridge 9 of the structure.

The principle of the regulator is based on balancing the torques acting on the leaf 1, relative to the 3 axes of rotation, i.e. As the hydrostatic pressure force on the curved surface of the valves increases above the moment from the forces of the weight of the valves 1, the regulator begins to open, otherwise the regulator is closed. The further movement of the valves 1 is provided by moments from the forces of hydrodynamic pressure of water on flat faces 5 with sides 6, while the moment from the forces of hydrodynamic pressure of water exceeds the moment from the forces of valves 1, and vice versa, with decreasing the moment from the forces of valves 1, and as the moment decreases from the hydrodynamic pressure forces of the water onto the flat faces 5 with the edges 6, the faces of the flap 1 are covered.

The headwater level control works as follows.

When water appears in the upstream of the structure, it begins to flow through the gaps between flat faces 5 with sides 6 and lateral edges.

4 and to the volume formed by curvilinear cusp surfaces - flat faces 5 from side 6 and lateral faces 4 (with closed regulator positioning), i.e. the water level in this volume and in the upstream is the same. Thus, only the hydrostatic pressure of water on the curved surfaces of the valves 1 creates an opening moment relative to the axis of rotation 3. As the upstream water level exceeds the calculated one (Fig. 1 and 2), the valves 1 begin to deviate towards the downstream, and the more, the higher the upstream water level exceeds the calculated one.

When the regulator flaps 1 reach up to 2-3 degrees from the closed position, water from the volume enclosed between the curvilinear surfaces of the flaps 1 flat 5 with sides 6 and the side edges 4 of the flaps 1 flows out of the gap between the flaps 1 to the lower beef Thus, the volume is emptied, with only flat faces 5 with sides 6, i.e. Opening 1m moment becomes moment relative to axis 3 of rotation from the hydrodynamic pressure forces of water to flat faces 5 with sides 6 along the lower and side edges of edge 1 of valves 1 instead of from hydrostatic pressure of water to curved surfaces of valves 1.

Such alternate inclusion of various facets of the valves in the process of opening allows one to maintain the required increase in moment. Relative to the axes of rotation from the water pressure forces on the edges of the valves when they deviate to 25–30 degrees without using a counterweight in the design of the regulator.

Formula of Invention

35

The upper-bay level regulator, containing a bucket-shaped bolt, consists of two valves, each of which has brackets mounted on 55 axes of rotation, which are angled to each other in vertical and horizontal planes, o t- It is due to the fact that, in order to increase reliability and reduce the metal content of the regulator, each of the valves contains a side face connected to the edge of the shutter flap, and an additional Gtloskuyu face with sides along the bottom and side edges, installed in front of the gate leaf

with a gap relative to the side face, the surface of each flap is curved, the center of curvature of which is located below the axis of rotation, and the flat face is rigidly connected with respect to the flap.

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Compiled by T. Zadvorna Editor E. Kopcha. Tehred A. Kravchuk Proofreader A. Zimokosov

Order 3389/44 Circulation 863 Subscription

VNIIGSh of the USSR State Committee

for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5

Production and printing company, Uzhgorod, st. Project, 4

(pi / e.

Claims (1)

Claim An upstream level regulator containing a bucket-shaped shutter consisting of two leaves, on each of which consoles are mounted, mounted on rotation axes located at an angle to each other in vertical and horizontal planes, which means that, in order to increase reliability and reducing the metal consumption of the regulator, each leaf contains a side face connected to the edge of the shutter leaf, and an additional Flat face with sides along the lower and lateral edges installed in front of the shutter leaf with a gap relative to the lateral face, the surface of each leaf is made curved, the center of curvature of which is located below the axis of rotation, and the flat face is rigidly connected relative to the leaf.