CS242994B1 - Equipment for agricultural chemicals application by means of irrigations - Google Patents

Abstract

The invention solves the device for application of agrochemicals through irrigation that allows to use with irrigation water plant fertilizers, pesticides, stimulators growth and other agrochemicals. Essence The invention is based on the fact that it is out of the pipe pressure irrigation water is piped out pressurized water flowing into the water supply by connecting to the hydraulic motor which is connected to a pump that is connected to the injector. The pump is a suction pipe connected to a mixing tank that is dosing with the media controller holds the level control in which the controller is stored level, interconnected by supply line media storage media into which media is the compressor pipe.

Description

(54) Equipment for the application of agrochemicals by irrigation

The invention provides a device for the application of agrochemicals by irrigation, which makes it possible, by means of irrigation water, to apply to plants liquid fertilizers, pesticides, growth promoters and other agrochemicals. SUMMARY OF THE INVENTION The invention is based on the fact that a pressurized irrigation water pipe is connected from a pressurized irrigation water pipe to an anvil which is connected to a hydraulic motor connecting a pump connected to an injector. The pump is connected by suction line to the mixing tank, which is connected with the medium dosing regulator with the level regulating tank, in which the level regulator is connected, connected by the medium supply line to the medium storage tank, into which the compressor line is connected.

The invention relates to a device for applying agrochemicals by irrigation, which makes it possible, through irrigation water, to apply to plants liquid fertilizers, pesticides, growth promoters, and other agrochemicals.

Irrigation and application of agrochemicals are important agrotechnical operations and both are even limiting to the cultivation of a number of crops. If, after irrigation, further conservation or fertilizer intervention is required, wait until the soil dries to allow the mechanism to enter the property.

During this time but the plants can not irrigate it has a negative effect on their growth.

In the case of fertilization on an area covered by a tubular detail, this means additional work, namely the dismantling of at least part of the irrigation detail so that the mechanization means can move in the field.

Separate application of agrochemicals and irrigation brings further disadvantages: increased need for manpower, mechanization means, impossibility to apply agrochemicals and irrigation at the time of actual need of crops. The input of the mechanization means causes damage to the crop by moving and undesirable soil compaction.

The handling of agrochemicals increases the total cost per unit of production. All the mechanisms used in the application of agrochemicals do not allow a perfectly uniform distribution over the area and in an acceptable form for the plant. Commonly, plants are damaged by contact burns, contact with agrochemicals, or uneven dosages, since the agrochemicals are applied in concentrated form.

These drawbacks are overcome by a device for applying agrochemicals by irrigation according to the invention, characterized in that a pressurized irrigation water line is provided with a pressurized water line provided with a control valve, connected to a hydraulic motor distributor which is connected to a hydraulic motor.

The pump is connected via a pump head to the injector piping connected to the injector, which is connected to the pressurized irrigation water piping. the pump is connected to the mixing tank through the suction line, which is connected by the dosing regulator to the level control tank, in which the level regulator is connected, connected to the supply line.

The compressor piping connected to the compressor is equipped with a compressor rod. The hydraulic motor is connected to the pump by means of a two-arm lever, pivoted on a pin, on which one end bears the piston rod of the hydraulic motor and the other end of the piston rod of the pump.

The two-arm lever is articulated by the hydraulic motor distributor rod and the compressor rod.

A flushing water pipe connected through the flushing valve to the level control tank is connected to the pressure water piping.

The pump is connected to the injector pipe and the suction pipe in front of the valve head. In the mixing tank there is an automatic waste water valve through which the waste water piping passes from the hydraulic motor switchboard, which flows outside the mixing tank behind the automatic waste water valve.

The injector is provided with a grommet located in the holder. The main advantages of the device for the application of agrochemicals by irrigation, according to the invention, are primarily that the agrochemicals are applied simultaneously with the irrigation and are distributed over the area accurately and evenly and in an acceptable form for the plant, i.e. in aqueous solution.

A further advantage of this application is that it can be used for all irrigation / watering, wetting, fogging, spraying / watering applications.

The usefulness of the fertilizer for the plant is higher than that of the ground application by the fertilizer being incorporated into the soil profile to the roots of the plants by irrigation water and is immediately taken up by the plants.

The device is easy to connect and relocate from hunt to hunt where it is necessary to irrigate by applying agrochemicals. The return on investment in this equipment is fast compared to the return on investment in the land mechanization applicators of agrochemicals now in use.

There is no need to travel the machine on the surface, which mechanically damages the treated culture by its own travel on the surface and at the same time undesirable soil compaction. Agrochemicals can also be applied at an advanced stage of crop development, when land entry can no longer be used, as it would cause great damage to the crop.

Since the agrochemical is supplied to the plant in the order of per mille concentration, there is no contact burn, as is common with terrestrial applicators, and no toxic overdose can occur.

The application of agrochemicals can be carried out at a time when the culture requires it, regardless of the need to dry the land after irrigation to allow entry of the ground means. It also allows the delivery of agrochemicals in the rain, where entry of any applicators is excluded.

The device operates completely automatically after start-up and therefore no operator is required. Compared to the current situation, the costs of dismantling the irrigation detail are eliminated in order to allow the movement of ground applicators on the surface, and at the same time the laboriousness of handling agrochemicals is eliminated.

Most of the plots are irrigated several times, and this makes it possible not to deliver agrochemicals at once, as is currently the case with the use of ground applicators, but in parts that correspond to the usability for the plant.

If the medium has been used as a solution of a tendency to sedimentation, this property ^of me dia removed by mixing with air from the compressor. The device allows to use liquid manure as a medium.

An exemplary embodiment of a device for applying agrochemicals by irrigation according to the invention is schematically shown in the attached drawing.

The device is connected via a hydrant 2 to a pressurized irrigation water line 7. Attached to the hydrant 2 is an injector holder 2 provided with an injector grommet 4 through which the injector passes

- 5 connected to 2 pressurized irrigation water pipes.

To the injector holder 3 is connected a pressurized water line 6, connected via a hydraulic motor control valve 9 to a hydraulic distributor 8, which is connected via a connecting line 10 to a hydraulic motor whose piston rod 13 is supported by a two-arm lever 12 pivotably mounted on the pin 11.

The other end of the two-arm lever 12 bears against the piston rod 14 of the pump. The two-arm 12 lever is articulated by the distributor rod 30 and the compressor rod 32. The pump 15 is connected via a pump line 16 to a valve head 17 which, via its suction line 19, is connected to a mixing tank 20, in which an automatic waste water valve 21 is located, through which the waste water line 22 passes from the hydraulic motor distributor.

The waste water line 22 extends downstream of the automatic waste water valve 21 outside the mixing tank 20. The pressurized water line 6 is connected to the flushing valve 24 connected to the flushing valve 23 connected to the level control tank 25 in which the regulator 26 is located.

242994. 4, which is connected via the unmarked valve 28 to the medium storage tank 29 into which the compressor line 32 is connected to a compressor 31 provided with a compressor rod 33.

The level control tank 25 is connected via the medium dosing controller 27 to the mixing tank 20. The injector pipe 18 is connected to the valve head 17.

The device can be used as mobile or stable. The connection can be - any irrigation working with pressurized water. The part of the pressurized irrigation water required for the operation of the device is fed from the pressurized irrigation water line 8 via a pressurized water line 8 via a hydraulic motor control valve 6 to a hydraulic motor distributor 8, from which it is connected via a connecting line 10 to the hydraulic motor space 7.

Depending on the position of the hydraulic motor distributor 8, the water supplied to the hydraulic motor 8 is alternately in the space upstream and downstream of the piston. This water sets in motion the hydraulic motor 6, whose piston rod 13 of the hydraulic motor acts on a two-arm lever 12, by means of which the distributor of the hydraulic motor 6 is actuated and simultaneously actuates the double-acting piston pump 15 via the piston rod.

The two-arm lever 12 is uneven and its shorter portion to the pump 15 allows the pressure of the diluted medium to be exceeded over the pressure of the irrigation water, thereby allowing it to be forced into the pressurized irrigation water by the injector.

The same dilute medium overpressure can be achieved by the difference between the diameters of the motor 8 and the pump 15. In the case where the pressurized water is supplied to the space before the piston of the hydraulic motor, the space after the piston is connected to the waste water line 22 via the hydraulic distributor. .

AND

The waste water is discharged via an automatic waste water valve 21, which transfers a portion of the waste water to the mixing tank 20 and removes excess water outside the plant. The medium is in the form of a solution in the reservoir 29 of the medium tank and the gravity is fed through the medium line 28 through the level regulator 26 to the level control tank 25.

The medium from the level control tank 25 passes to the mixing tank 20 via the medium dosing regulator 27, which adjusts the desired medium dosing over time. The dose of agrochemical per unit area is preselected by means of a dosing regulator 27 for a given dose per time, which is directly dependent on the spraying time and the irrigated area, not the amount of irrigation water applied.

In the mixing tank 20, the copper is diluted with the waste water supplied from the distributor of the hydraulic motor. The diluted medium is continuously evacuated from the mixing tank 20 via a suction line 9 through a valve head 17 through a pump 15 which is a double-acting piston.

Upon movement of the pump 15, the diluted medium is sucked into the space upstream of the piston and at the same time from the space behind the piston it is forced into the injector line 18 and through the injector 4 into the pressurized irrigation water line 6.

The alternating functions of suction and discharge of the pump 15 are enabled by a valve head 17 to which the injector line 18 is connected. For occasional cleaning of the entire device. The water is supplied to the level control tank 25 via a flushing water pipe 23 via a flushing valve 24, the water from the pressurized water pipe.

Closing the media reservoir 29 and opening the flush valve 24 will automatically flush the entire device. The compressor supply line 32 of the compressed air supply from the compressor 31 connected by the compressor rod 32 articulated on the two-arm 12 lever is located in the reservoir 29 of the medium tank. The supply air to the bottom of the reservoir 29 of the medium tank mixes the medium throughout the operation of the proposed device. This avoids possible sedimentation of the medium.

Claims (6)

SUBJECT OF THE INVENTION Apparatus for the application of agrochemicals by irrigation connected to a pressurized irrigation water pipe, characterized in that a pressurized irrigation pipe (6) is led out of a pressurized irrigation water pipe (6) into a switchboard (8) connected to a connecting pipe (10) to a hydraulic motor (7) connected to a pump (15) which is connected to an injector (5), the pump (15) being connected via a suction line (19) to a mixing tank (20) which is a metering regulator (27) connected to a level control tank (25) in which a level regulator (26) is interconnected via a supply line (28) of the medium with a storage tank (29) of the medium into which the conduit (33) of the compressor (31) is connected. Device according to claim 1, characterized in that the hydraulic motor (7) is connected to the pump (15) via a pivoting two-arm lever (12) mounted on a pin (11), one end of which bears the piston rod (13) of the hydraulic motor. and the other end of the piston rod (14) of the pump (15), wherein a rod (30) of the distributor (8) and a rod (32) of the compressor (31) are articulated to the double-arm lever (12). 3. Device according to claim 1, characterized in that a flushing water line (23) connected through a flush valve (24) to a level control tank (25) is connected to the pressurized water line (6). Device according to claim 1, characterized in that the pump (15) is connected to the duct (18) of the injector (5) and the duct (19) via a valve head (17). 5. Apparatus according to claim 1, characterized in that an automatic waste water valve (21) is provided in the mixing tank (20) through which the waste water pipe (22) is located downstream of the automatic valve from the distributor (8) of the hydraulic motor (7). (21) the waste water flows out of the mixing tank (20). 6. Device according to claim 1, characterized in that the injector (5) is provided with a bushing (4) disposed in the holder (3).