SU1156019A1 - Device for controlling water level in pool of tubular works - Google Patents

Abstract

1. A DEVICE FOR REGULATING THE WATER LEVEL IN THE TUBULAR FACILITY RING, containing a profile element located at the water outlet and formations with the last water outlet slit, locking organ. A level sensor, characterized in that, in order to increase operational reliability and simplify the device, the locking member is made in the form of a flexible shell installed in the water outlet slot and attached to the profile element, the flexible shell cavity communicating with the upper buoy of the feed hole and with the lower one by a drain hole controlled by a level sensor. 2. A device according to n.t, characterized in that, in order to expand the field of application of the device, in the cavity of a flexible shell (L are air-filled shells. //

Description

The invention relates to hydraulic engineering and can be used to regulate water levels in the pools of tubular structures of irrigation systems, such as rice systems. S

The purpose of the invention is to reduce operational reliability, simplify the device and expand the scope.

FIG. 1 shows schematically O this device, a section; Fig. 27 illustrates some of the possible arrangements for placing the device in the outlets.

FIG. 3 and 6 show devices in which air-filled shells are placed in the cavity of the flexible shell 5.

The device for level control contains a profile element 1, consisting of KpbaseK and racks, rigidly 20 connected to a tubular water 1 "1 2, located above it and forming with it a water supply ring 3. To the lid of profile element 1, the valve has a locking organ 4 the form of a flexible 2S shell installed in a water outlet slot. The cavity of the flexible casing is communicated with the upper side of the supply opening 5 and with the lower reach of the discharge pipe 6 of the drain pipe 30, which is blocked by the valve 7, driven by the level sensor 8. The drain pipe is provided with a manual control valve 9. The flexible sheath 4 is fastened to the npo-js hinge of the filler element 1 with bolts 10. When placing the device, do not enter the water outlet (Fig. 2 and 3) to prevent a vacuum in the lid, an air inlet tube 11 is mounted. For water outlets with level fluctuations below when the part of the locking member 4 is not filled with water, to ensure the overlap of the water throughput gap 4 $, an air-jet shell 12 is inserted into the cavity of the flexible shell 4, which ensures the movement of the shell of the locking member 4 even when partially closed the cavity of the flexible shell 4.

Device 1 works in the following way.

In the absence of water in the downstream, the flexible casing 4, under the action of water pressure on it, is pressed to the rider of the hull of the core element 1 and the water from the water outlet 2 is fed to the bottom bat via the water outlet 3. At the same time, the gas from the water outlet 2 through the hole 5 enters the cavity of the flexible shell 4 and from it through the drain pipe through the drain hole 6 goes to the drain into the lower pool. The drain hole 6 is made larger by the diameter of the hole 5 for free flow from the cavity of the flexible shell 4. As the level increases in the rifle, the level 8 float sensor with valve 7 will begin to move and the drain hole 6 will be blocked when the water level is reached. When the drain hole 6 is closed the cavity of the flexible shell 4 will begin to fill with water, the water outlet slit 3 closes. The overlap is ensured by the fact that the annular gap fulfills the role of the diaphragm, thus providing the necessary potential for a tight shut-off of the discharge outlet. When the area of the water outlet slit 3 decreases, the outflow flow decreases, the water level in the nickname pool falls, the float sensor 8 with the valve 7 lowers and opens the drain hole 6, as a result, the cavity of the flexible shell 4 is relieved by pressure on it from the upstream side, the area of the outlet the gaps increase by increasing flow rate and

downstream water level. The equilibrium occurs when the flow rate of the flexible shell 4 into the cavity is equal to the flow rate through the glory hole 6, which will be at a given level of the downstream.

/// /// 7 // /// FIG. five

2 Fi.7

Claims (2)

. 1. A DEVICE FOR REGULATING A WATER LEVEL IN A TUBE BUFFET, containing a profile element located on the water outlet and forming a water outlet with the latter, a locking member, a level sensor, characterized in that, in order to increase operational reliability and simplify the device, the locking member is made in the form of a flexible shell installed in the water outlet slit and attached to the profile element, the cavity of the flexible shell communicating with the upstream feed hole and with the downstream drain hole, up by a level sensor. 2. The device according to claim 1, characterized in that, in order to expand the scope of the device g, air-filled shells are placed in the cavity of the flexible shell. SU. „, 1156019