SU1237738A1 - Water intake structure - Google Patents

Description

1237738

2. A water intake structure in accordance with claim 1, the stabilizing ballast is made in that it is in the form of a loosely laid cylinder.

one

The invention relates to hydraulic structures, namely to water intake structures that provide water for a water user taking into account environmental protection requirements and observing the quality characteristics of the water taken.

The aim of the invention is to increase the reliability of the facility, reduce its material consumption and simplify the construction.

FIG. 1 shows a water intake structure at the intake of water from the lower layers of the reservoir, cross section; in fig. 2 - the same, when drawing water from the upper layers of the reservoir, a transverse section.

The water intake structure consists of upper movable panel 1 and parallel to each other on the side of the reservoir of the upper movable panel 1 and on the water side of the upper movable panel 2, to the upper edges of which floats 3 and 4 are attached, connected with each other by rigid struts 5. Floats 3 and 4 of the upper movable panels 1 and 2 are connected to balancing floats 6 and 7, t-gami 8 and 9, passing through special blocks 10 and 11, attached to the bottom anchors 12 and 13. The upper movable panel 2 has an opening 14. Cloths 1 and 2 are overlapping r upper water intake window 15 and formed along the length boloshmi than the height of the water intake window 15, the calculated amount determined by wave height. Such an implementation provides formation on the panels and 2 loops of sagging, in which stabilizer ballas in the form of cylinders 16 and 17, which support the upper movable panels 1 and 2 always in the deflected position, are loosely laid.

The lower edges of the upper movable panels 1 and 2 and the upper edge of the lower

the movable panel 18 is provided with an additional depth float 19; a depth float 20 attached to the lower edge of the lower movable panel 18 is moored by a flexible link 21 to the anchor 22 located at the bottom of the reservoir,

In the middle of the bottom panel 18 is an additional deep

a float 23 attached to the bark 24 by a flexible link 25.

The bottom panel 18 overlaps the middle part of the reservoir with the formation of a waterproof wall and the bottom

water intake window 26 with the formation of a movable waterproof wall. .

Upper panels 1 and 2 upper parts 27 and 28 loops of sagging with

The sides of the additional deep-sea float 19 are attached by flexible ties 29 and 30 to the bottom anchors 12 and 13 ..

Water intake works

in the following way.

When water is taken from the lower layers of the reservoir, for example, in the case of the concentration of young fish in the upper layers, the upper water intake window 15 overlaps, for which the floaters 3 and 4 of the upper movable sheets 1 and 2 are filled with air at first. the floats 3 and 4, the panels 1 and 2, the distance between which is permanently fixed by rigid struts 5, occupy the uppermost position. In elevation of plates 1 and 2, stabilizing ballast in the form of cylinders 16 and 17 occupies the lowest position in the loops of sagging in panels 1 and 2. Between panels 1 and 2, a damping capacity is formed, filled with water and reducing the dynamic wave action on the intake structure . Permanent formation: basin sizes between two

3

m panels 1 and 2 due to rigid struts 5 allows to dissipate the wave energy in case of wind waves on the surface of the reservoir. This energy is dissipated by the displacement of plates 1 and 2, equipped with stabilizing ballast 16 and 17 and rigid struts 5, to the displacement of a mass of water by damping a tank, part of which, when a wave runs over it, flows through a hole 14 into panel 2 and then rolls off. the wave flows back through the same hole 14.

Under the wave effect on the surface of the water mix ti8 and 9, the floats 3 and 4, passing through special blocks 10 and 11, attached to the bottom reinforced concrete anchors 12 and 13 and connected with additional balance-type floats 6 and 7, have a power reserve and allow The floats 3 and 4 are free to rise onto the crest of the wave without concentrating the stretching forces at their attachment points.

Additional deep float. 19 is constant at the same depth due to the constant length of the flexible links 29 and 30 and the upper parts 27 and 28 of the slack loops.

To open the lower water intake window 26, air is filled with a submerged float 20, as a result of which the lower movable panel 18, divided into two parts with an additional deep float 23 attached by a flexible link 25 to the bark 24, occupies the uppermost position

., fixed by a flexible connection 21 to the anchor 22, forming a visor that creates hydraulic conditions that exclude suction of water from the middle and upper layers of the reservoir.

To open the upper water intake window; 15, the air is released from the floats 3 and 4, as a result of which the linen 1 and 2 are exposed to the force of gravity.

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the floats 3 and 4, the rigid struts 3 and the stabilizing ballasts 16 and 1 7 are moved to the lowest position until the rigid strut 5 adjoins the additional depth float 19 and is supported in this position by additional balancing depth floats 6 and 7. The ejecting force of the floats 3 and 4 must to be greater than the buoyancy force of the additional balancing submerged floats 6 and 7. After that, the air is removed from the submerged float 20, as a result of which, under its force of gravity, part of the lower moving floor From the bottom, 18 occupies its lowest position and, being pressed to the bottom of the reservoir, closes the water intake window 26. At the same time, water from the upper layers of the reservoir flows to the consumer, and a rigid spreader 5, forming a horizontal visor, and lowered panels 1 and 2 with stabilizing ballasts in the form of rolling pipes 16 and 17, create hydraulic conditions that exclude suction of water from the lower layers of the reservoir.

Such an embodiment of the water intake structure allows to increase the reliability of its operation by installing rigid struts between the floats, additional deep and balancing floats and reduce the consumption of materials and the complexity of its construction, since there is no need to use expensive

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25

thirty

35

the use of scarce building material for ballast and its attachment to panels, and also prevents debris and inhabitants of the water source from getting onto the water intake grids and provides the water supply to the op. best quality to the consumer.

3 J6 54

18 26

TT 3

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15 5 IS 4 7A 77

Editor M. Tsitkina

Compiled by T. Motova

Tehred I.Glydoga Corrector M. Sharoshi

Order 3265/33 Circulation 641 Subscription

VNIIPI State USSR

inventions and discoveries 113035, Moscow, Zh-35, Raushsk pub, d, 4/5

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

Claims (2)

1. A water intake structure, comprising two upper movable panels with an opening in one of them and floats attached to the upper edges of the panels installed parallel to each other and having sag loops with stabilizing ballasts, and a lower movable panel with a depth float attached to its lower edge and an end-to-end flexible connection to the anchor located at the bottom of the reservoir, characterized in that, in order to increase the reliability of the structure, reduce its material consumption and simplify the construction, it is equipped with but balancing floats, anchor, bottom anchors with blocks attached to them, two additional deep floats, one of which is attached to the lower edges of the upper panels and the upper edge of the lower panel, and the other is installed in the middle of the lower panel, and the floats of the upper panels are interconnected rigid struts, and with balancing floats - rods passing through the blocks, while the additional float is fixed to the anchor, and the upper panels with the upper parts of the sagging loops from the side of the additional float are fixed to the bottom anchors by means of flexible connections. SU. „, 1237738 2, The water intake structure according to claim 1, characterized in that the stabilizing ballast is made in the form of a freely laid cylinder. ί