SU676679A1 - Hydraulic feed system - Google Patents

Description

we / 5 and 14 are connected to each other by the stem 10 and may have a different effective area. The lower diaphragm 13 limits the reduced chamber 15 connected to the control pipeline 11. The cavity 16 between the diaphragms 13 and 14 is in communication with the atmosphere, and the hermetic chamber 17 formed by the upper diaphragm 14 is filled with a calibrated volume of liquid and connected with the cavity / 8 of the stem 10 which through the hole 19 in the upper part of the stem 10 is open to the atmosphere. A control pipeline // is connected between the inlet and outlet of the pump / and is equipped with two throttles 20 and 21, at least one of which is controlled. Drive chamber 15 is connected to control pipeline // between said throttles 20 and 21.

The pump / feeds the fluid into the pressure pipe 3. The water outlets 4 are set to a certain opening pressure. To start the required hydrant flow 4, one of the throttles 20 or 21 is adjusted and a predetermined pressure level is established in the control pipe 11. At the same time, under the action of pressure in the drive chamber 15, the diaphragms 13 and 14 move. chamber 17 is extruded into the cavity / 8 of the rod 10. The movement of the diaphragms

13 and 14 with the stem 10 ceases when the force acting on the diaphragm

14 on the side of the chamber 17 and caused by the static pressure of the liquid column in the cavity 18 of the rod 10 does not balance the force from the pressure in the control pipe 11 acting on the side of the drive chamber 15 on the diaphragm 13. At the moment of equilibrium, the lever 9 launched into the outlet hydrant 4 takes horizontal position in which the valve 5 is open. The liquid from the pressure pipeline 3 through the pipeline 7 through the open valve 5 enters the valve actuator chamber 8 .6. The latter opens and passes the liquid through the hydrant water outlet 4. The pressure at which the hydrant water outlet 4 is opened is determined by the value of the volume of liquid filling the chamber 17. If the chambers 17 of the servo drives 12 hydrant water outlets 4 are filled with a different amount of liquid, then by gradually increasing the pressure in the control pipeline 11 can provide a predetermined sequence of operation of hydrant outlets 4.

The installation described is relatively simple, easily re-adjusted by changing the calibrated volumes of fluid in the chambers 17 of the diaphragm servo drives 12, and provides a high accuracy of the operation of the hydrant outlets 4.

Claims (2)

1. A hydraulic feed installation, mainly for irrigation systems, containing a pump connected by an input to a water source, and an outlet to pressure pipe with hydrants installed along the length of water inlets, each of which is equipped with a valve control valve connected with a lever to the valve opening mechanism according to a predetermined pressure in the control pipeline, characterized in that, with a design simplification and accuracy response, each crane opening mechanism is designed as a diaphragm-servo actuator, equipped with two diaphragms located above each other and connected with hollow, open at the top stem diaphragms, each which limits the driving camera connected to the control pipeline, and the top forms a sealed chamber filled with a calibrated volume of fluid and communicated with the cavity of the rod connected to the crane lever. 2. Installation according to claim 1, characterized in that the control piping is connected between the pump inlet and outlet and is equipped with two throttles, at least one of which is controllable, and the drive chamber of each crane opening mechanism is connected to pipeline between throttles. The source of information taken into account in the examination: i. Certificate of authorship USSR № 359339, cl. E 02 B 13/00, 1970. -nineteen