SU1086061A1 - Water outlet - Google Patents

Description

The invention relates to a hydraulic control system, namely to structures intended to discharge water from pressure pipelines of pumping stations to a canal or basin. A water outlet is known, which has a head with a flat shutter mounted on the Cl 1 axis. A disadvantage of this device is the complex design of the hinged connection of the shutter to the head. The outlet is also known for including a vertical head connected to the supply line and a shut-off valve made with a conical bottom, moreover, the shut-off valve is fixed above the tip with the possibility of vertical movement 2. However, under conditions of water discharge into the pressure pool of the pumping station, it is possible that the shut-off valve is jammed in the directing guides with a reverse flow of water. invention - increase of reliability in conditions of release of water into the basin of the pumping station. The goal is achieved by the fact that the shut-off valve is made with zero buoyancy and is fixed above the head by means of supports installed along its perimeter with axes and strums having longitudinal slots at one end, the rods being mounted on the axles of the supports, and their other ends are hinged are attached to the stop valve. FIG. 1 shows a water outlet, a longitudinal section; in fig. 2 - the same, top view; in fig. 3 - node 1 n FIG. one; closing position of the valve. The water outlet contains a vertical spark 1 connected to the inlet conduit through conduit 2 through elbow 3, air conduction pipe 4, check valve 5, rods 6, supports 7. The stop valve is installed in a separate section 8 equipped with grooves for repair valves 9. The check valve is sealed at the aid of the special profile rubber tape 10 and the embedded part 11 forming the valve seat 3. The number of sections 8 corresponds to the number of pressure lines 2. All sections 8 communicate with the collecting channel 12 or basin. For normal lifting and lowering the valve 5, the longitudinal slots 13 are provided in the rods x 6, which move relative to the axes of the supports 7. The device works in the following way. When the pump is turned off, no water is supplied to the pressure pipe 2 and the front valve 5 is pressed against the seat by hydrostatic water pressure. In the process of starting the pump, the conduit 2 is filled with water, the air is forced out through the pipe 4. At the moment of complete filling of the discharge conduit 2, a hydrodynamic force is directed upwards, which tends to lift the check valve 5. Since the check valve 5 has zero buoyancy (total valve weight equal to the mass of water displaced by valve I. The opening takes place with a slight pressure loss. The opening value of valve 5 must be such that the area of the outlet cylindrical hole is not less than the cross section of the conduit 2 at the saddle 4. The vertical movement of the valve 5 is limited by the length of the rods 6 mounted on the supports 7, which are embedded in the outflow threshold. The length of the slots 13 in the rods 6 must be sufficient to eliminate the occurrence of a thrust in the supports 7 when raising and lowering the check valve 5. The water coming out from under the check valve 5 spreads over section 8 and from there enters the collecting channel 12. In Fig. 1, the arrows indicate the movement of water during operation of the pump. After the pump is turned off, the flow rate of the water decreases, while the hydrodynamic effect of the flow on the shut-off valve 5 is reduced, and it is slowly lowered onto the saddle, preventing backflow of water and emptying the pool. During the subsequent emptying of the water line 2, a vacuum is not formed in it, since air enters from the atmosphere through pipe 4. The stop valve 5. When lowering it onto the saddle occupies a certain position corresponding to the adopted length of the rods 6. Moreover, the seal occurs due to slight deformation of the rubber tape 10, and the main load from the hydrostatic pressure of water is transmitted to the saddle through the metal fittings 11.

As shown by preliminary studies, the water discharge in the conditions of water discharge into the pressure pool of a pump station has a favorable effect on the nature of hydro-mechanical transients in a pump installation and can be used with relatively large variations in water level in the outflow channel or basin, which is especially important when the pump the station operates in a reservoir or storage pool, the hydraulic losses in the discharge are smaller than the losses in other outlets, and the reliability of operation is higher,

Claims (1)

a supply conduit, and a shut-off valve made in the form of a hollow cylinder with a conical lower part, and the shut-off valve is fixed above the head with the possibility of vertical movement, characterized in that, in order to increase the reliability of operation in conditions of water discharge into the pool of the pumping station, the shut-off valve the valve is sealed with zero buoyancy and is fixed over the head by means of supports installed around its perimeter with axles and rods having longitudinal slots at one end, the rods being slots mounted on the axes of the supports, and their other ends are pivotally attached to the shutoff valve. 1909801 ^ηυ AS