SU86299A1 - Device for automatic hydraulic control of the shut-off member of water towers and tanks - Google Patents

Description

The subject matter of the invention is ycTpoficTBo for automatic hydraulic control of a shutoff valve of water towers and tanks depending on the pressure in the network and the level of water in the tank. Such devices are designed to maintain a constant level of water in a tank by automatically turning on or off the iodac 15od into the tank when it reaches a predetermined level of water.

The proposed device not only automatically turns on the sludge and turns off the water supply to the tank when the water level in it reaches a predetermined value, but also allows the tank to automatically turn on when the pressure in the tank decreases.

The device is devoid of the drawbacks of the e-hectare schemes and does not require special energy sources, since the control of the hydraulic drive of the locking member is carried out directly by the working medium, under pressure determined by the difference in the heights of the reservoir and the locking member.

The figure schematically shows the ycTpoiicTBo for automatic Koio control of the valve.

The device has a distribution valve in the form of a double seat valve with a housing 1, a valve 2 and with flexible diaphragms 3 and 4 at its ends. The upper diaphragm 3 is under the pressure of water in the tank 5, and the lower diaphragm 4 is affected by the pressure difference of water in the pipe 6 before the shut-off valve r 7 and in the tank l.

On the spindle 2, two valve plates 8 and 9 are fastened. At the top z position of the spindle 2, the valve plate 8 is also in the upper position, resulting in a hip space

No. 86299

hydraulic drive 10 through pipelines 11 and 12 is connected to pressure pipe 14, at the same time, valve 9 opens the passage for water from the piston space of driver 10 to the atmosphere through pipe 13 and drain line 15. In the lower position and cylinder valve 2 and 9 are in their lower positions, with the result that the piston space of the hydraulic actuator 10 is connected to the drain line 15, and the supporting space is connected to the pressure pipe 14.

If the water level in the tank 5 reaches the set value, then by the pressure of the water, the diaphragm 3 will bend and move the spindle 2 with the two valve plates 8 and 9 to its upper position. At the same time, the overhead piston space of the hydraulic actuator 10 is connected to the pressure pipe 14, and the piston simple propulsion unit 10) with the drain line 15. Water from the reservoir 5 1 flows into the hydraulic actuator cylinder 10 and covers the organ 7.

In the event of a pressure drop in the network, the pressure on the lower diaphragm: 4 above will have greater pressure from below and the spindle 2, together with the valve plates 8 and 9, will move down. As a result, the hydraulic actuator 10 of the locking member 7 is connected to the c.iKBHoii line 15, and water from the pressure pipe 14 flows into the piston n}) ostranstBo this drive 14. By the force of its pressure, the water will move the piston upwards and open the locking organ.

P re d m ate and g

VcTpoiiCTBo of the automatic hydraulic control of the shut-off body of the water-pressure tanks and tanks in the control of the pressure from the water in the network to the water level in the tank, so as to use the control valve directly to control the working medium , a distribution valve is installed in the form of a double-seated valve with a spine ... with diaphragms at both ends, of which the tops are iodized by the pressure of water in the tank, and the lower one by the influence of the pressure of water in the tank and the network, ir When in use, a position of the spindle verhnel overpiston space of the hydraulic drive cylinder is connected to the discharge conduit from the reservoir and podporp: ievoe space with slivpoy line, F, lower shnnnde.ch same position, on the contrary, nadporshpevoe space is connected to the return line, and with polporshneaoe-pressure pipe of reservoir.