SU1209068A1 - Hydraulic fertilizer distributor for sprinklers and watering machines - Google Patents

Description

The invention relates to agriculture, and more specifically to devices for applying liquid fertilizer with irrigation water, and can be used on sprinkling and irrigation machines or pressure pipes of irrigation systems for introducing liquid mineral fertilizers, herbicides and other working solutions of chemical substances with irrigation water.

The purpose of the invention is to increase the reliability of the hydraulic sub-operator, the accuracy of dosing of fertilizers and ensure the uniformity of their introduction into the discharge pipeline.

The drawing shows a diagram of a hydroplander for sprinkling and irrigation plants.

The hydraulic trimmer contains a diaphragm metering pump 1 with hydraulic actuator, a container 2 for working solutions, a distributor 3, a mixer 4 and a flow divider made in the form of a control valve 5 with a rod 6 in contact with a cam 7 rigidly mounted with a ratchet wheel 8.

Diaphragm dosing pump 1 includes a housing 9 in which the cavity is divided into the discharge 10 and submembrane 11 chambers membrane 12 and IUTOK 13. The hydraulic actuator of the pump is designed as power 14 and return 15 hydraulic cylinders, the rods of which are P1 hinged on the machine, and the cylinders are interconnected by a double-arm lever 16 attached to the machine and connected to the rod 13. The pump discharge chamber 10 is connected to the tank 2 through the suction valve 17, and through the pressure valve 18 and the valve 19 to the control valve 5 wasp 20 and metering 21. On the discharge line 20, a separating membrane 22 with a check valve 23 and a hydraulic mixer 24 are placed in the tank 2. On the metering line 21, a check valve 25, throttle 26 and a mixer 4 are installed. The submembrane pump chamber 11 communicates with the working cavity power cylinder 14, which is hydraulically connected through distributor 3 to pressure 27 and drain 28 pipelines. In the line of the latter installed crane 29 performance control. The distributor rod 3 is kinematically connected by means of limiting stops 30 tons and 31 and a cylinder 14 with a double-arm lever 16. The piston cavity of the return cylinder 15 communicates with the pressure pipe 27 via the throttle 32 and the check valve 33.

The mixer 4 consists of a body 34 and a cover 35 and communicates with the pressure pipe 27 via supply 36 and outlet 37 nozzles, and has a connection nozzle 38 for supplying working solutions. The discharge nozzle 37 is equipped with a concentration change valve 39.

Hydraulic submachine works as follows.

Before starting the process of introducing the means of chemicalization with irrigation water, the tank is filled with 2 working solutions. After this, the metering pump 1 is put into operation by means of a crane 19.

The crane 29 sets the metering pump 1 to the required capacity.

During the discharge stroke, water from the pressure pipe 27 through the distributor 3

enters the piston cavity of the power cylinder 14 and the submembrane chamber 11 of the pump 1. The force of the power cylinder 14 double-arm lever 16 is set in motion and through the rod 13 moves

the membrane 12 to the upper position. In this case, the cylinder 14, kinematically associated with the ratchet wheel 8, does not affect the latter. In tank 2, there is an intensive mixing of working solutions, the degree of mixing of which is regulated by the crane 29. At the end of the pumping stroke, the double-arm lever 16, interacting with the upper (according to the scheme) limiting stop 30 tons 31, switches the distributor 3, as a result of which water is blocked pressure pipe 27 to the piston

the cavity of the power cylinder 14n submembrane chamber 11, which through the distributor 3 is connected to the drain pipe 28. Water through the choke 32 begins to flow into the piston cavity of the cylinder 15 and under the action of the force of the return cylinder 15 the double shoulders lever 16 moves in the opposite direction, resulting in diaphragm pump dispenser 1 is sucked.

At the same time, the power cylinder 14, acting on the ratchet wheel 8, rotates it together with the cam 7 and the operation of the hydraulic loader is repeated until the cam 7 begins to act on the pin 6 of the control valve 5. The opening of the control valve 5 occurs during the suction stroke of a diaphragm dosing pump 1 of working solutions from tank 2. Thereafter, during the injection stroke, the working solutions are supplied both to tank 2 and to mixer 4 through pipe 38

At the same time, the check valve 23, which is blocked through the separation diaphragm 22 with the pressure pipe 27, creates in the discharge line 20 a back pressure equal to the pressure in the dosing line 21, which ensures equal conditions of pump operation. Drossel 26 establishes the required range of consumption rates of working solutions in the dosing line 21. Dosing of working solutions in all selected range

This is accomplished with the help of a set of cams 7, which determine the opening time of the control valve 5 and, consequently, the dose of the flow of working solutions into the pressure pipeline and to the working parts of the maschine. After the working solutions through the nozzle 38 enter the mixer 4, they are mixed with the water entering the mixer 4 from the discharge pipe 27 through the inlet nozzle 36. At the same time, the concentration of working solutions decreases in mixer 4, which then

through the discharge pipe 37 enters the pressure pipe 27.

The magnitude of the change in the concentration of the solution in the mixer 4 during the operation of the hydraulic operator is controlled by the valve 39 or the movement of the nozzles 37 and 38 in the pipeline 27, and can also be regulated by the volume of the mixer 4. It is practically possible to make the minimum change in the concentration of the solution in the mixer 4, and therefore and in the pressure pipe of the machine.

Claims (1)

HYDRAULIC FEEDER FOR SPRINKLING AND WATERING MACHINES, containing a container for working solutions, a membrane metering pump kinematically connected to power and return hydraulic cylinders, and a flow divider, characterized in that, in order to * increase the reliability of work and the accuracy of metering of fertilizers and ensure the uniformity of their introduction into the pressure pipe, the flow divider is made in the form of a control valve, which is kinematically connected to the power hydraulic cylinder by means of Rapova cam wheel, and a mixer discharge line installed in fluid communication through the flow divider with a membrane metering pump. (L a