SU1716995A1 - Apparatus for introducing liquid fertilizer into irrigation water - Google Patents

Abstract

The invention relates to agriculture, in particular to devices for applying agrochemicals with irrigation water, and can be used on sprinkling and irrigation machines, various irrigation plants and pressure irrigation pipelines for applying liquid fertilizers, herbicides and other working formulations of irrigated water pesticides. The purpose of the invention is to increase operational reliability and increase the efficiency of a hydraulic engine. A device for introducing liquid fertilizers into irrigation water contains a hydraulic motor 1 with a piston 13, metering pumps 2 and 3, a container 6 for fertilizers. The piston 13 is equipped with a pressure 21 and drain 22 valves, drove 28, switching frames 29 and 30, springs 23. During reciprocating movement of the segment 13, metering pumps 2 and 3 suck and inject the solution

Description

The invention relates to agriculture, in particular to devices for applying agrochemicals with irrigation water, and can be used on sprinkling and irrigation machines, various irrigation plants and pressure irrigation pipelines for applying liquid fertilizers, herbicides and other working formulations of pesticides with irrigation. water

The purpose of the invention is to increase operational reliability and increase the efficiency of a hydraulic engine.

Figure 1 shows a device for introducing liquid fertilizers into irrigation water, a general view; figure 2 - section aa in figure 1; on fig.Z - section bb in figure 2; figure 4 - node installation of the springs; figure 5 - piston section.

A device for injecting liquid fertilizers into irrigation water consists of a hydraulically driven metering pump made in the form of a hydraulic motor 1 and pump-dispenser 2 and 3 pumps coaxially connected to it, which are hydraulically connected by the suction hose 4 and the floating filter 5 with the supply tank 6 , and pressure hose 7 through the drain valve 8 - with irrigation pipe 9.

The hydraulic motor 1 is designed in the form of a hydraulic cylinder 10c with covers 11 and 12 and a piston 13 with hollow rods 14 and 15, which have a pressure 16 and drain 17 sleeves, which are hydraulically connected to irrigation 9 and perforated 18 pipelines. The pressure hose 16 is connected to the pipeline 9 through the valve 19, and the drain hose 17 is connected to the hydraulic motor 1 through the control unit 20. The pressure body 21 and the drain 22 valves are installed in the piston housing. The valves 21 and 22 are kinematically connected to each other by the springs 23 with their internal rods 24 through the eccentric axis 25 and the profiled stops 26 and 27, which are made on interlocked by the carrier 28

the switching frames 29 and 30. The switching frames 29 and 30 are located on opposite sides of the piston 13 on the hinge bearings 31 and with their axes 32 closed on the eccentric axis 25 by hinged ends and cylindrical ends of the inner rods 24.

The axles 25 placed in the housing of the piston 13 due to eccentricity provide the ratio of the distance D between the supports of the springs 23 to the distance E between the axes 25 and 32 of the frames 29 and 30 in their neutral position 1.1-2.5. The stroke of the switching frames 29 and 30 in their neutral position is limited by the stops 33 and 34, which provide an offset from the neutral position by 5-7 °.

The device works as follows.

Before starting the process of introducing the chemicalization of agriculture with irrigation water from a tank truck, fill the tank with 6 initial components. After that, by opening the valve 19, the hydraulic motor 1 is put into operation. At the same time, the three-way valve is set to the Drainage position. When a steady stream of liquid appears from the drainage hole, the position of the drain valve 8 is switched to Discharge, i.e. the sleeve 7 communicates with the irrigation pressure pipe 9. By changing the positions of the crane of the setpoint adjuster 20, the performance is set according to the number of movements of the piston 13 per unit of time.

During the reciprocating movement of the piston 13, one of the metering pumps 2 and 3 sucks in the solutions, and the other at the same time injects, resulting in a continuity of the dosing process and eliminating unproductive movements of the piston 13. The reverse movement of the piston 13 is performed by

pressure of water from pipe 9 through sleeve 16 to hollow rod 14, which by pressure valve 21 communicates with the left or right cavity of the hydrrd engine 1. When water enters the pressure in one of the cavities, from the other, the waste water through the drain valve 22 through the internal cavity of the rod 15, the production control crane 20 and the hose 17 enters the perforated pipeline 18. From the perforated pipeline 18, the waste water is disposed of in the adjacent area.

Switching valves 21 and 22 for reversing the piston 13 is predetermined by the operating mode of the switching frames 29 and 30. When the piston 13 moves to one of the extreme positions, the carrier 28 is displaced with it, which during movement comes into contact with one of the covers 11 and 12 of the hydraulic cylinders 10. The axial movement of the carrier 28 ensures the simultaneous rotation of the switching frames 29 and 30 on the supports 31 and the charging of the springs 23 to the neutral position, communicating to them a supply of potential energy. As soon as the carrier 28 passes the springs 23 and the switching frames 29 and 30 through the neutral position, the potential energy of the springs 23 goes into kinematic and informs the acceleration to the switching frames 29 and 30. Freely moving in the slots of the carrier 28, one of the switching frames 29 and 30 profiled lugs 26 or 27 toggles valves 21 and 22, and the other is moved to the extreme inoperative position. The presence of a variable cross section in the switching lugs 26 and 27 relieves the vertical loads on the axes of the valves 21 and 22, ensuring their smooth operation and increasing the reliability of operation.

The extreme non-operating position of the frames 29 and 30 is limited by the stops 33 and 34 with an offset from the neutral position by an angle a, the magnitude of which is in the range of 5-7 °. This provides a reduction in the force consumed by waterlily 28 by repeating the described process for switching valves 21 and 22.

The reserve of potential energy to springs 23 drove 28 provides through axes 32

the switching frames 29 and 30 and the eccentric axis 25, which are closed one on another through the hinged ends and cylindrical ends of the rods 24. The compression force of the springs 23 on the switching of valves 21 and 22 decreases with respect to D and E 1.1-2.5.

The device can be used in the mode of simultaneous dosing and mixing of working solutions. For this, one of the metering pumps 2 and 3 is connected to the hose 7 for metering, and the other is connected to the tank 6 via a special recirculation nozzle. The extension of the range of applicability of the hydraulic sub-loader and the improvement of the technological processes carried out by him are provided by installing various metering pumps 2 and 3.

Claims (1)

Invention Formula A device for introducing liquid fertilizers into irrigation water, containing a piston of a hydraulic engine connected to metering pumps with a pressure and drain valve, kinematically connected to a water switch switching frame, one end of which is connected to the piston of the hydraulic engine and the other through spring installed on the horizontal axis Fertilizer tank, piping and fittings, which are distinguished by the fact that, in order to increase operational reliability and increase the efficiency of the hydraulic engine, it is equipped with an additional switch frame mounted on the opposite side of the piston of the hydraulic motor and kinematically connected with the water, the switching frames provided with stops and installed with the possibility of alternate interaction with the symmetrical valve ends, and the hydraulic motor housing is equipped with stops installed with the possibility of limiting the angle of deviation of the switching frames from neutral position within, besides the ratio of the distance between the supports of the springs in the neutral position to the distance from the axis of the switching frame to the horizontal The spring attachment axis is 1.1-2.5. Aa L 111 I 10 / J 28JO fig.Z FIG. 2 1Z tSSSk4 3 at / pc tt figm