SU1342973A1 - Water level regulator - Google Patents

Abstract

The invention relates to hydraulic engineering. The purpose of the invention is to simplify the design, increase the reliability of operation and the accuracy of water level control. The regulator contains a siphon 1, a charging pipe 6, an air tube 11, wells 8 and 12 with a valve 18 and a float 17 connected by a rocker 15. A well 8 communicates with the upper reach 3, and a well 12 - with the lower reach 5. Water from the upper the tail 3 enters through the charged siphon 1 to the downstream 5. When the water level in the downstream 5 is exceeded, the float 17 rises, the valve 18 is lowered. The charge pipe 6 and the air tube 11 communicate through the valve 18 with the atmosphere and the siphon 1 discharges or decreases water flow. 2 Il. 15 / 4- 16 12, 1 10 f, "max 16 / J S 19 20

Description

And the invention relates to irrigation, it is intended to regulate water levels in water supply pools and can be used to automate water supply, catchment, regulate water levels in canals, for example, in cascade regulation.

The purpose of the invention is to simplify the design, increase the reliability of operation and the accuracy of water level control.

FIG. 1 shows a water level regulator, a vertical section; in fig. 2 - the same, top view.

The water level regulator contains a siphon 1, the inlet section of the ascending branch 2 is buried under the minimum water level of the upstream 3, and the outlet section of the descending branch A is recessed below the minimum water level of the downstream 5, charging port 6 with a vacuum cavity 7, made expanding in length with a cross-sectional area smaller than the cross-sectional area of the descending branch 4 of the siphon 1 and connected at one end to the descending branch 4 of the siphon 1, and the other end is located vertically in the well 8 communicated with the upper beef 3 A window 11 is connected to the knee 10 of the siphon 1, the second end of which is connected to the charging port 6 in the zone of the vacuum cavity 7. Near the well 8 there is a well 12, communicated by tube 13 with an adjustable beef, in this case downstream 5, Above wells 8 and 12 on axis 14 a beam 15 is installed, to one arm of which a float 17 placed in well 12 is attached by means of a set screw 16, and valve 18 made in the form of a vertical cylindrical nozzle to the other arm which is located above the end of the patr BCA 6. At the outlet of the siphon 1 has weir sill 19, which is located behind the overflow 20 (tubular or open) and an output of siphon 1 is equipped with a manhole 21, a ladder 22.

The level regulator works as follows.

The adjusting screw 16 sets the height position of the float 1 to a predetermined level of the downstream 5, thereby completing the preparation of the controller for operation. When not in use, i.e. when there is no water in the upstream 3, and also when the level in the downstream 5 and, therefore, in the well 12 is lower than the set value, the valve 18 under the force of gravity of the float 17 is in the up position, ensuring free water supply to the charging port 6 .

Water through the charging pipe 6 begins to flow into the downstream 5 (into the descending branch 4 of the siphon 1), the air is carried away from the siphon 1 through the air tube 11 (with the flow of the charging pipe 6) and thus charges the siphon 1. As charging the siphon 1 the flow rate of water entering the downstream 5 increases, increasing the water level of the downstream 5. Then the water from the downstream 5 through the tube 13 enters the well 12. As the level of the downstream 5 rises and the float is immersed in water 17 the latter is facilitated in weight due to buoyancy. When the downstream 5 water level is exceeded given in the process of adjustment or reregulation, for example, by increasing the level difference as the upstream 3 level increases, the float 17 floats up and through the rocker 15 provides cover by the cylindrical valve 18 to enter the charging port 6. With the entrance cover in the pipe 6 in the latter breaks through the air through the cylindrical valve 18 and further through the air tube 11 into the knee 10 of the siphon 1, thereby ensuring its discharge (partial or full depending on the position of the ana 18) and, consequently, reduce the consumption of water supply. Equilibrium occurs when a given downstream level 5 is established (with a given accuracy) equal to the dead zone of the float 17 (specified in the calculation).

Claims (1)

Invention Formula A water level regulator containing a siphon installed between the upper and lower pools with an air tube connected at one end to the siphon knee, a charging pipe, one horse of which is connected to the descending branch of the siphon and the other located vertically in the upper pool, a well with a float, communicated with adjustable a rocker, one arm of which is connected to the float, and a valve for closing the charging port, characterized in that, in order to simplify the design, increase the reliability of operation and the accuracy of the water level control,  17 IZ the overlap of the charging pipe is made in the form of a vertical cylindrical pipe located in the upper pool above the end of the charging pipe and connected to the second end of the rocker arm, and the second end of the air tube is connected to the charging pipe. Fig 2