RU2619459C2 - Damless water intake for mountain rivers - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: damless water intake on a mountain river 1 consists of the water intake device 2 with the head part 3, the straight dam portion 4 with the walled sleeve 5, in which the short end of the intake device 2 extends, with an opening for discharging excess water 6, the bolt 7 for flushing sediment, the dam portion 8 for coastal protection, the dam portion 9 rolling into the bank of the channel 10, the water intake device pocket 11 formed by the partition 12, and rolling into the other bank 14 of the channel 10, the threshold 13 of the pocket, the support flap 15, and the lifting mechanism 16. The intake of the upper water layers from the river 1 is provided by the device 2 with the head part 3, the short pipeline side of the device 2 passes through the sleeve 5 walled in the body of the dam 4. In the case of accumulation in the pocket 11 from the suspended sludge particles and sediments at the threshold 13, they are washed off by means of opening the valve 7. The device for water intake from the river is equipped with the support flap 15 also serving as a hydrofoil for emergency ejection, and the mechanism 16 for lifting it out of the river in case of high water or a large mud flow.

EFFECT: excluding the bottom sediments inflow, reducing the amount of suspended solid sediments.

2 cl, 1 dwg

Description

The invention relates to hydraulic engineering, namely with water intake facilities for mountain rivers.

Known damless water intake structures in the form of open channels extending from the river at a certain angle to its axis without regulating structures in the head, washing devices for washing sediment deposits.

The disadvantages of these water intakes are: mismatch of the amounts of water entering the canal with consumption expenditures; channel flooding; the ingress of a large amount of bottom sediment both into the water intake, and further into the main canals, which leads to forced interruptions in the water supply; high operating costs associated with the cleaning and restoration of water intake facilities (NP Rozanov and other waterworks. M., Agro-promizdat - 1985, p. 328.

Known damless water intake intended for water intake at foothill and mountainous sections of rivers, containing a water intake device with a channel, a washing device for washing sediment deposits with a circulation threshold, a control spur, a pocket of a water intake device formed by a water intake device spur and a river bank in front of the water intake device, shore rivers behind the water intake device, the spur of the washing device (Patent for the invention No. 2166022. Bull. 11 - 2003).

The disadvantages of this damless water intake are: an increase in the volume of bottom and suspended sediments entering the water intake device due to a regulatory spur, which essentially blocks the riverbed completely; the presence of spurs of the water intake and washing devices; lack of protection against floods and mudflows; complexity and high cost of construction.

The aim of the invention is to eliminate the inflow of bottom sediment, reducing the amount of suspended solid sediment, maintaining the riverbed in pristine condition for unhindered passage of flood, debris flows and floating debris, as well as reducing the cost of construction and operation of the facility.

This goal is achieved by the fact that the damless water intake containing a water intake device with a channel, a pocket of a water intake device with a threshold, a washing device and a river bank is provided with a reinforced concrete dam including a straight section with a walled sleeve for a part of the device for collecting the upper layers of water without bottom sediment, with fewer suspended particles, an opening for discharging water in excess of the maximum permissible level in the channel, a valve whose lifting makes it possible to wash off any sediment in the pocket, protective the section in the head of the dam, which passes at an acute angle to the bank of the river, and the section of the dam, which goes to the bank of the canal, the pocket of the water intake device with a threshold obliquely directed to the gate valve, is formed on the river bank with a concrete fence along the rectilinear section of the dam above the walled sleeve, which goes lower to the other side of the channel, provided with a bottom in concrete execution with a bias towards the channel; a device for collecting the upper layers of water in the river is made of a receiving pipe “G” of a shaped form, the outer diameter of the short side of which corresponds to the inner diameter of the sleeve, and the bending angle is more than 90 ° with a head in the form of a diamond-shaped chamber, the acute angle of which is connected to the long end of the pipeline, and on two sides of the opposite angle, slots are formed for water intake of the upper layers, the total area of which is larger than the cross-sectional area of the pipeline, equipped with an oblique mounted support shield, simultaneously performing s hydrofoil, and a mechanism for lifting it out of the river.

Obtaining a technical result is ensured by: devices for water intake of the upper layers without bottom sediment; a pocket of a water intake device with a threshold providing water to the channel after sedimentation of suspended sediment particles, the maximum water level is ensured by self-discharge of water through the opening in the rectilinear section of the dam, sediment sediment washing is carried out by opening the valve located in front of the pocket threshold, protecting the device from flood and debris flows are ensured by raising the device for water intake from the river. The drawing shows the damless water intake for mountain rivers in the plan. The damless water intake on the mountain river 1 consists of a device for taking water 2, with the tip 3 of a straight section 4 with a walled sleeve 5, in which a part of the device 2, an opening for discharging water 6, a valve 7 for washing sediment, section 8 of the dam passing under acute angle to the river bank, section 9 of the dam, passing at an angle to the shore of channel 10, pocket 11 of the water intake device formed by a partition 12, passing to the other shore 14 of the channel, threshold 13 of the pocket, and the pipeline of the water intake device 2 is equipped with a support plate 15 and a mechanical zmom lift 16.

Damless water intake for mountain rivers works as follows.

The water intake from the river 1 is provided by the device 2 for the intake of the upper layers of water with the head 3, and part of this device is placed in a sleeve 5, walled up in the body of a straight section of the shore protection dam 4 at the level of the bottom of the river 1. In the case of accumulation of sediment in the pocket before the threshold of receipt suspended particles are washed off by opening the valve. The device for the fence is equipped with an oblique mounted flap, simultaneously serving as a hydrofoil, and a mechanism for lifting it from the river in the event of a large flood or mudflow.

Claims (2)

1. Damless water intake for mountain rivers, containing a water intake device with a channel, a pocket of a water intake device with a threshold, a washing device, a river bank in front of a water intake device, characterized in that a reinforced concrete dam is made on the shore, including its straight section with a walled sleeve, an opening for discharge water in excess of its maximum permissible level in the channel, a valve, a section in the dam head that passes at an acute angle to the river bank and a section after the valve that passes at an angle to the lower channel of the channel, The receiving device is equipped with a L-shaped pipe with a bending angle of more than 90 °, the short side of which extends into the sleeve, the outer diameter of the short side of the pipe corresponding to the inner diameter of the sleeve, and a head in the form of a diamond-shaped chamber, the acute angle of which is connected to the long end of the pipe, and cracks are formed on the sides of the opposite corner, the total area of which is larger than the cross-sectional area of the pipeline, the pocket of the water intake device is formed on the river bank with a concrete fence along a straight line chastka dam above the sleeve before entering the other side channel and the concrete bottom is provided above the bottom of the river, the washer is aligned with a pocket of water intake unit, a threshold which is directed obliquely to the valve. 2. Damless water intake for mountain rivers according to claim 1, characterized in that it is equipped with a support flange fixed to the pipeline, simultaneously serving as a hydrofoil, and a lifting mechanism from the river.

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