SU1271403A1 - Sprayer for liquid fertilizers - Google Patents

Abstract

The invention relates to agriculture and can be used for the preparation and application of liquid fertilizers. The aim of the invention is to improve the quality of the operation of the sprinkler. In the working position, the intake hose 5 of the turning mechanism 6 is lowered into the fertilizer storage. The vacuum device 2 creates a discharge in the cavity of the pump neck 4. Fertilizers from storage under the action of discharge enter the inlet throat of pump 4. Switch 10 connects pump 4 to outlet 8. Transfer is carried out by pumping fluid in a closed Circle of chamber 11. Fertilization is carried out using a magnetodynamic device. To change the composition or properties of the substrate, the mode of operation of this device is changed. 1 il.

Description

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The invention relates to agriculture and can be used for the preparation and application of liquid fertilizers.

The purpose of the invention is to improve the quality of the work of the sprinkler by stable spraying of liquid fertilizers in the form of suspensions.

The drawing shows the installation, general view.

The sprinkler contains a tank 1, a vacuum device 2 with an inlet system 3, a pressurized pump 4, an intake hose 5 with a turning mechanism 6, a pressure pipe 7 connected to the taps 8 and 9 via a switch 10. The outlet 9 is connected to the entrance of the cylindrical chamber 11 devices of magnetodynamic action (UMVD), made of non-magnetic material. Magnetic granules are placed inside the chamber, and the chamber itself is enveloped by the coil 12 of the solenoid, powered by alternating current. The output of the chamber is connected to the sprinkler 13, and the solenoid coil is connected to a power circuit (not shown) through the control unit 14 with power consumption sensors. The output of control unit 14 is connected to the power supply circuit of the injection pump. At the entrance and exit of the camera of the Ministry of Internal Affairs installed grid 15 of non-magnetic material.

The sprinkler works as follows.

In the place of loading with the help of the rotation mechanism 6, the intake sleeve 5 is lowered into the fertilizer storage. A vacuum device 2 is turned on, with which discharging is created in the necks of the injection pump 4. The action of this discharge of fertilizer from the storehouse is transferred to the inlet throat of the pump 4. At this time, the switch I) connects the outlet throat of the pump to the outlet 8 of the pressure line 7 and turns off the outlet 9 and the device of magnetodynamic action. After starting the pump 4, the vacuum device 2 is turned off, and the pump 4 supplies liquid fertilizer to the tank 1. After filling it, the suction hose 5 is removed from the storehouse, using the mechanism 6, it is placed in the tank, and the installation is moved to the place of fertilizer. When the installation is moving, the fertilizers are moved by the operation of the injection pump 4, which pumps the liquid in a closed circle. For better mixing, the outlet of the outlet 8 is located on the end wall of the tank opposite to the pump, at a distance from the vertical, symmetry plane of at least half the radius of the tank.

For fertilizer application, the switch 10 disconnects the outlet to the pressure line 7 from the pump and connects to the highway 7 a outlet 9 with a chamber 11 of a magnetodynamic device. Threading katchchlki

Solenoid 12 of this device is carried out by alternating current from a separate source, or from a generator powered by a tractor engine. When fertilizers pass through chamber 11 with magnetic granules placed in it, which are in a chaotic rotational-translational motion, due to an external alternating field created by a solenoid, such grinding and displacement of fertilizers, as well as their magnetic treatment, occur. Immediately after this, the fertilizers are sprayed by the working body-sprinkler 13. Changing the composition or properties of the substrate fed to the chamber 11, the UDMV operation mode changes, in particular, the liquid consumed by it changes to the grinding of the components entering the chamber. In this case, the sensors of the power consumed by UMDV of the unit 14 are generated by generating an error signal for such a change in the operating mode of the injection pump 4, which would compensate for the change in the operating mode. In particular, when the power consumed by the UMA is increased, the control unit 14 gives out a signal to decrease the capacity of the pressure pump 4. The load on the UMA has decreased and the system is balanced, i.e. At the output of UM11, V, uniformity and high quality of dispersion will be ensured.

0 To ensure the fine grinding of hardly soluble elements of fertilizers, it is important to ensure a certain duration of finding the material of the 1st A S UMDV chamber, in particular, for most fertilizers, the time of their treatment in the UHMVD

5 must be at least 15 s. This is provided subject to the conditions

, 25 N,

where QK; is the volume of the chamber UMDV, l.

L - productivity of pumping pump, l / min.

The technical and economic efficiency of the invention is determined by the positivation of the activity of substances treated in ULTI, better and faster uptake by plants, lower losses due to leaching by water, the ability to quickly control the growth and development of plants with an accelerated preparation for winter or, conversely, the acceleration of vegetative growth under favorable weather conditions.

Claims (1)

Invention Formula 5 1. Liquid fertilizer sprinkler, including tank, swivel mechanism of the intake hose connected to a vacuum device, pressure pump 3 and a pressure line with two taps mounted on the first branch of the device, the first of which is connected to the spray of a magnetic hydrodynamic impactor, and the end of the second one is located nst containing a cylindrical chamber opposite to the pump torus with face grids, made from the front wall of the tank at the distance of the magnetic material, placed inside the vertical plane of symmetry of the chamber is not magnetic granules and covers half the radius of the tank, the chamber is distinguished by the coil of the solenoid, and the block This is due to the fact that, in order to increase the quality control of the injection pump, the subfloor work by stabilizing the salt dispersed to the sensors of the consumed salt fertilizer, the sprinkler provides with a power. 1271403.