SU864255A1 - Device for regulating water level in hydraulic engineering structures - Google Patents

Description

(54) DEVICE FOR REGULATING LEVEL WATER IN HYDROTECHNICAL FACILITIES

one

The invention relates to hydraulic engineering and can be used on irrigation canals.

A fluid level stabilizer in the upper reach, containing a multi-column siphon tube connected to the upper and lower pools, and impulse tubes are known.

The closest in technical essence to the present invention is a device for stabilizing water levels in hydraulic structures, comprising a shutter with a horizontal axis of rotation, the internal cavity of which is connected to a siphon, with a perforated tube placed in the shutter and connected via tailpipes to the downstream 21.

A disadvantage of this device is the complexity and lack of reliability of the valve system, as well as the use of a constant cross section siphon as a pressure source, which makes it difficult to use

such devices in conditions of significant fluctuations of the water level in the upper. byefe

The purpose of the invention is to increase the reliability of the device.

This goal is achieved by the fact that in a device for adjusting the level of water in hydraulic structures, containing a hollow gate mounted on a horizontal axis of rotation,

To the cavity of the cat (the first pipe is placed, connected through the first branch pipes with the lower pool, additionally contains the second pipe connected with the upper and lower pool with the local

ts tapering and the third movable tube installed in the downstream, the gate cavity being connected by a fourth pipe with a local taper of the second pipe and through the third moving pipe m with the atmosphere.

Claims (2)

In order to expand the range of the sensor, a fifth pipe is inserted into the device, installed between the upper and lower pools at the maximum water level in the upper bay, the bracket and the second branch pipe connected to the third movable tube with a valve installed in its inlet, pivotally connected 1 m with a bracket rigidly connected to the third movable tube, not the outlet pipe of the fifth pipe, under which is placed the container connected to the valve. The drawing shows the proposed device. The device consists of a hollow valve 1 with a horizontal axis of rotation 2, in the lower part of which, from the downstream side, there are two first branch pipes 3 connecting the internal cavity of the valve with the downstream and connected by the first pipe 4 of the internal valve. The cavity of the bolt through the fourth pipe 5, which has a flexible section, is associated with a local constriction 6, formed on the second pipe 7, the upper and lower connection. In the downstream in the guides, the sleeve 8 is equipped with a vertical rod 9, fixing the position of the bolt 9 is performed using a screw clamp 10, To the rod 9 is mounted a vertically installed movable tube 11 connected by an air pipe 12 to the cavity of the shutter. A ventilator 13 can be installed on the pneumatic duct 12. A pipe 14 is installed at the top of the water at the maximum water level, connected by a flexible hose 15 to a drain nipple 16, which is fixed to a bracket 17 rigidly connected to the third movable tube 11, to the tube 11 attaches a second pipe 18, the inlet of which is throttled by a valve 19 pivotally connected to the bracket 17, the counterweight 20 of the valve 19 is made in the form of a tank with a hole in the bottom 21, and the nozzle 16 is located above the counterweight 20 Zoom eduyuschim arr. The adjustment of the water level in the downstream is made by installing the third movable tube 11 at a certain point. If in the initial position the water level in the downstream is located above the inlet 22 of the third movable tube 11, which separates the cavity of the shutter 1 from the atmosphere, a vacuum is formed in it due to the local narrowing 6 of the second tube 7. Given a different degree of constriction, one can obtain the corresponding values of the vacuum. Since the pressure in the cavity of the gate is less than atmospheric, the water level in the gate is above the water level in the downstream. When installing the third movable pipe I1 to a higher level so that the hole 22 is located above the water level in the pool, the vacuum in the cavity of the valve breaks, In connection with the electromodular system, the water begins to flow out of the valve through the first pipes 3 into the driver pool and the valve rises , increasing the flow passed to the lower reach. The water level in the downstream begins to rise. From the moment when the water level covers the hole 22 and the gate cavity is disconnected from the atmosphere, a part of the water, moreover, is insignificant, drains from the gate into the outlet pool. The process of water shutoff from the closure is prevented by two factors causing a vacuum in the closure to draw air into the local constriction 6 of the second pipe 7 and lower the water level in the closure in connection with the discharge of water. Drainage of water from the gate after closing the hole 22 causes a slight increase in the opening angle of the gate and the same slight upward deviation of the water level in the downstream relative to the bottom of the third moving tube 1 1 For example, if the hole 22 is flooded, the height of the air cavity in the gate it is equal to 0.50 m, and if the water level in the gate above the water level in the downstream is 0, fO m, then, neglecting air intake from the local research institute 6, we can calculate the value of Ai | water level in the gate. Using the Boyle-Mariotta R V “const law, we find that ll 0.5 cm. In fact, taking into account air suction in the local restriction 6, the value of Db is even smaller. The smaller the height of the air cavity of the shutter and the smaller the difference in the smooth water in the shutter and in the lower afe, the smaller the deviation upward of the water level in the lower bay relative to the lower mark of the third movable tube 11. After some time, the water from the shutter stops and, conversely, water is sucked into the valve. The water level in the gate increases, which results in the shutter being lowered and the flow rate passing to the lower reach. The water level in the pool is lowered. When it is lowered below the mark of the hole 22, the vacuum in the cavity of the gate breaks down and further the process of stabilization of the level in the lower pool occurs as described above. Thus, the process of stabilizing the water level in the downstream occurs at the average level equal to the bottom level of the third movable tube 11, with periodic small up and down deviations. The gate all the time makes oscillatory movements, the amplitude and frequency of which depends on the indicated Bbmie factors - the degree of local constriction, not 6 of the second pipe 7, the height of the air cavity of the gate, the difference in the marks of the water levels in the gate and downstream, as well as the difference in the construction and the vertical position of the second pipe 7. The complete shutter closure is performed by closing the valve 13. In this case, the shutter cavity is disconnected from the atmosphere and under the influence of a vacuum the water level in the shutter rises, and the latter descends regardless of the position of the water level in the downstream. The movement of water through the first pipe 4 makes it possible to flush sediment into the cavity of the gate. When the level in the upstream reaches the maximum, water begins to flow into the fifth pipe 14 and is discharged from the drain fitting 16 to the counterweight 20, as a result of which the valve 19 opens and in the cavity of the valve 1 the pressure becomes atmospheric. The water from the gate merges into the lower pool. that contributes to the opening of the shutter regardless of the position of the water level in the lower one. Thus, connecting the gate cavity to a local constriction formed on the pipeline, connecting the upper and lower bout (| 1y, allows to expand the range of application of the device, since in the local constriction one can create a vacuum of the required size. Use Valve cHCTehM simple and reliable element in the operation of the tube, the lower end of which is located at the level of an adjustable level, improves the reliability of the device. Formula 1, A device for adjusting the level of water in a hydraulic system 1 x, containing a hollow gate mounted on a horizontal axis of rotation, in the cavity of which a first pipe is placed, connected through first nozzles to a lower pool, characterized in that, in order to increase the reliability of the device, it contains a second pipe connected to the upper and lower pools with a local pipe the constriction and the third movable tube installed in the downstream, with the valve cavity connected by the fourth pipe to the second narrowing pipe and through the third movable pipe to the atmosphere. 2. A device according to Claim 1, characterized in that, in order to expand the range of regulators 1, it contains a fifth pipe installed between the upper and lower pools at the maximum water level in the upper reach, the bracket and connected to the third movable tube of the second a branch pipe with a valve pivotally connected to a bracket mounted in its inlet, rigidly connected to the third movable tube, and to an outlet branch pipe of the fifth pipe, under which a container connected to the valve is open, Sources of information received in the interior knowledge under Examination 1, USSR Copyright Certificate K 673992, class, Q-05D 9/02, 1979. 2, Copyright Committee CGCP No. 596692, class, Е 02 V 13/02, 1978 (prototype),