SU1744180A1 - Device for cleaning canals from drifts by washing - Google Patents

Abstract

Use: for automatic flushing of hydraulic structures from sediments. The essence of the invention: in the discharge conduit 2 a water filling valve 3 is installed with a horizontal axis 4 of rotation. The cavity of the shutter 3 is communicated with the upper reach 5 by means of the inlet 6, and with the lower reach by means of the outlet 7 with the valve 8. Inside the shutter 3 a chamber 11c is installed with a float 10. When

Description

figure 1

In the absence of sediment in the upstream, the chamber 11 is filled with water through the tube of the sediment level sensor 13, the float 10 floats, lifting the tight 9 valve 8, which closes the opening of the outlet 7, stopping the release of water from the gate 3, which lowers and blocks the discharge conduit 2. When filling the conduit with 2 sediments

the flow of water into the chamber 11 is stopped. The water from the chamber 11 through the tube 17 is discharged into the lower reach. The float 10 is lowered, moving the tight 9 valve 8, which opens the outlet nozzle 7, the shutter 3 is emptied and raised. The sediments are removed from the upstream by the discharge conduit 2. 2 Cp. f-ly, 3 ill.

The invention relates to hydraulic engineering, namely, devices for automatic flushing of canals, water intake structures and sedimentation tanks from sediments,

The purpose of the invention is to increase the reliability of operation by reducing the effect on the control device of sediment in water.

FIG. 1 shows a device, a vertical section; in fig. 2 is a view A of FIG. one; in FIG. 3, node I in FIG. one.

In the supporting structure 1, a discharge conduit 2 is made, in which a shutter 3 is installed with a horizontal axis 4 of rotation with a control device. The body communicates with the upper reach 5 by means of an inlet b, and with the lower one by means of an outlet 7, on which a valve 8 is installed, connected by a rigid thrust 9 to a float 10 placed in the float chamber 11. The float chamber 11 further comprises part of the funnel-shaped inlet nozzle 12, having the shape of a socket. The sediment level sensor 13 is made in the form of a vertical tube, the upper part of which is bent and led to the socket 12, and the lower one is placed in the discharge conduit 2 before the water inlet 3. The upper part of the socket is equipped with guides 14 with rigid ribs 15, and the bottom of the chamber 11 - guides 16. The chamber 11 is provided with a drain channel 17 located in its lower part and made in the form of a tube having an outlet to the atmosphere with a flow regulator 18 (valve). Th ha 9 in the lower part of the chamber 11 is provided with a bellows 19 of elastic material. The upper part of the casing of the valve body 3 has a hole 20 for air release atmosphere and air intake. The cross-sectional areas of the inlet 6 and the outlet of the nozzle 7 are different. Moreover, with different cross-sectional areas of the nozzles, the area of the inlet 6 should be less than the area of the outlet of the nozzle 7. A valve 21 serves to change the water flow through the sediment level sensor 13, and an adjusting bolt 22 to change the adjustment of the regulator.

The device works as follows.

In the absence of sediment in the discharge conduit 2 and when the water level in the upstream reaches its maximum value, chamber 11 through the sensor 13 is filled with water to the level of the float 10, and due to the fact that the outflow of water through the drain pipe 17 is less than the incoming flow through the sensor 13 into the chamber 11, the float 10 floats vertically, pushing the rigid tight 9 valve 8 to the top of the outlet 7, stopping the release of water from the housing 3, the amount of water in the housing increases, causing the shutter 3 to lower, and the latter 2 blocks the conduit 2. When you boot When the water line 2 is deposited with water, the flow of water into chamber 11 is stopped, water from chamber 11 through pipe 17 with regulator 18 is discharged into the lower reach of the channel. At the same time, float 10 cannot hold valve 8 to shut off the discharge nozzle 7, as the lifting force the float 10 is designed to overcome the force acting on the shut-off valve 8 from the water column when the cavity 3 communicates with the upper pool, the tip of the outlet 7 opens, the amount of water in the housing 3 decreases, causing the valve 3 to rise. eph 5 is removed. Then the chamber 11 is filled, the float 10 floats up, pulling a tight 9 valve 8 to the top of the outlet 7, stopping the release of water from the housing 3. The shutter 3 is again filled with water, and the process is repeated.

If the flow rate in the upstream 5 exceeds the capacity of the gate 3, the level rises above the maximum mark before the supporting structure 1, and the hydrostatic pressure of the water on the gate casing 3 increases, ensuring further opening of the gate 3

(pass maximum flow rate). By the sylph 19, hermetically isolates the cavity of the chamber 11 from the inner cavity of the shutter 3 and prevents the deposition of suspended particles on the lower guide 16.

Claims (3)

Claims 1. Device for flushing channels from sediments, including a water filling valve installed in the discharge opening of the flushing water conduit with inlet and outlet holes and with a horizontal axis of rotation, the cavity of which is connected to the headwater, and a control device containing a rigid rod with a valve at its lower end and a sediment level sensor, made in the form of a tube, the lower end of which is placed in the upper tail before the gate, characterized in that, in order to increase reliability in by reducing the effect on the control device of sediment in water, the water-filled valve is made in the form of a tank with a rigid body, and the control device is equipped with a camera with a drain channel and a float installed in the valve body, and the float is attached to the upper end of the rigid rod , and the valve is installed on the outside of the outlet, which is made in the bottom of the valve body under the chamber, while the upper part of the chamber is made with a funnel-shaped inlet nozzle facing the socket m the upper end of sensor tube sediment level outputted to the downstream of the water-filled lock. 2. The device according to claim 1, characterized in that the drain channel of the chamber is made About the shape of the tube, the inlet of which is located on the bottom of the chamber, and the flow regulator is mounted on this tube, and the upper end of the tube of the level sensor of the nozzles is equipped with a valve. 3. The device according to paragraphs. 1 and 2, characterized in that the chamber is provided with rigid motion guides guided in its upper and lower parts. Vida FIG. 2 fig.Z 17