SU1199211A1 - Hydraulic plant feeder for pulsed sprinkling - Google Patents

Abstract

1. HYDRO CONTROLLER FOR PULSED WATER SYSTEMS, containing a tank for liquid fertilizers, a pressure pulse generator installed on the main pipeline, and a metering pump, characterized in that, in order to increase reliability in operation, the dosing pump is designed as a three-stage hydraulic cylinder, large the stage of which is connected to the main pipeline after the pressure pulse generator, the middle stage is connected to the main pipeline before the pressure pulse generator, and a small stage by check valves are connected to the tank for liquid fertilizers and the main pipeline. 2. The hydraulics lifter under item 1, characterized in that, in order to increase the uniformity of distribution of fertilizers in the irrigated area, the high level of the hydraulic cylinder is connected to the main pipe (L by means of a channel with an adjustable throttle and parallel to the installed channel with a check valve. with with 1C

Description

The invention relates to agriculture, in particular to hydroplanders for stationary impulse sprinkler systems, and is intended to introduce soluble mineral fertilizers together with irrigation water.

The purpose of the invention is to increase the reliability of work and increase the uniformity of the distribution of fertilizers in irrigated land, Adi.

The drawing shows a schematic structural diagram of a hydraulic pod, for impulse sprinkling systems.

The proposed hydropodic feed contains a tank 1 for liquid fertilizers. The pressure pulse generator 2 and the metering pump 3. The tank 1 is connected to the main pipeline 4 by a tube 5 on which a valve 6 is installed. The metering pump 3 consists of a cylinder 7, a housing 8, a cover 9 and a piston 10 with a seal 11. The piston 10 has a cylindrical skirt 12 centered on the outer and inner surfaces in the sealing cuffs 13 and 14, located respectively in the partition 15 of the cylinder 7 and the body 8.

The cylinder 7, the housing 8, the cover 9 and the piston 10 with the skirt 12 form three cavities A, B and B. The cavity A is the working cavity of a large three-stage hydraulic cylinder and is connected to the main pipeline 4 by two parallel tubes 16 and 17, on one of the a check valve 18 is installed, and an adjustable choke 19 is installed on the other. Tubes 16 and 17 are connected to the main pipeline 4 by means of water flow after the generator 2 of pressure pulses. The cavity B is the working cavity of the middle stage of the three-stage hydraulic cylinder and connected to the main pipeline 4 by tube 20 to the generator 2 of pressure pulses. Cavity B is a working cavity of a small stage of a three-stage hydraulic cylinder and connected by tube 21 with a capacity of 1 for liquid fertilizers and tube 22 with a main pipeline 4 after the generator 2 of pressure pulses. At the outlet of cavity B, check valves 23 and 24 are mounted.

The hydraulic trimmer for pulsed sprinkling systems works as follows.

Soluble fertilizer 5 is loaded into the tank 1, the valve 6 is opened and the tank 1 is filled with water to the required level, after which the valve 6 is closed.

During the operation of the pulse sprinkler system, the pressure pulse generator 2 automatically creates, in the main pipeline 4, an alternation of increasing the water pressure to the operating value and reducing the pressure to atmospheric. At the time when the working pressure is in the main pipeline, 5 filling of hydro-pneumatic accumulators of impulse sprinklers occurs. During pressure reduction, the accumulated water volume of all pulsed sprinklers on the system is boosted.

0 During the period of filling the system, the water under pressure through the tube 17 flows from the main pipeline 4 into the cavity A. The piston 10 is mixed, from the far left to the far right. The feed speed is adjusted by the choke 19.

During the splash out period of pulse sprinklers, i.e., when water pressure in the trunk pipe 4 decreases to atmospheric, the piston 10 reverses - moves from the extreme 0 left position to the extreme right. This is due to the fact that water is fed under pressure from part of the main pipeline 4, which is located before the pressure pulse generator, into cavity B. From cavity A, water is displaced through pipe 16 through a check valve 18 to a part of the main pipeline located after the pressure pulse generator. In this case, the cavity B comes from the tank 1 through the tube 21 and through the valve 24 portions of the fertilizer solution.

During the next cycle of increasing the pressure of water in the main pipeline after the pulse generator, a portion of the fertilizer solution from cavity B through the check valve 23 is fed through pipe 22 to the pipeline network of the system.

Claims (2)

1. A HYDRAULIC FEEDER FOR PULSE RAINING SYSTEMS, comprising a container for liquid fertilizers, a pressure pulse generator mounted on a main pipe wire, and a metering pump, characterized in that, in order to increase reliability in operation, the metering pump is made in the form of a three-stage hydraulic cylinder, the large stage of which is connected to the main pipeline after the pressure pulse generator, the middle stage is connected to the main pipeline to the pressure pulse generator, and the small stage by the reverse valve is connected to the tank for liquid fertilizers and the main pipeline. 2. Hydraulic feeding on π. 1, characterized in that, in order to increase the uniformity of the distribution of fertilizers over the irrigated area, a large stage of the hydraulic cylinder is connected to the main pipeline through a channel with an adjustable throttle and a parallel channel with a check valve. SU ,, 1199211>