RU1771589C - Method of soil treatment during sowing and an apparatus for its realization - Google Patents

Abstract

Prepared soil before sowing is treated with a magnetic field, while the magnetic field is formed inhomogeneous at the depth of sowing seeds. 2 s.p. f-ly, 2 ill.

Description

The invention relates to agriculture, in particular to the cultivation of plants.

A known method of growing plants, selected as a prototype, is known, which consists in preparing the soil and sowing the seeds, wherein the soil is exposed to a magnetic field before sowing.

The device for implementing the method is made in the form of a magnet, between the pole tips of which soil is placed for 3-5 minutes.

The disadvantages of these solutions are due to the length of the soil preparation process, which consists in placing the soil between the tips of the magnet and keeping it in this position for a certain time. In this system, there is no treatment of the seeds themselves in a magnetic field simultaneously with magnetic tillage. Therefore, this process is not very suitable for use on large sown areas. The known method is ineffective, because soil components with a low magnetic activity are used to enhance the magnetic effect on the soil.

The aim of the invention is to increase the efficiency of tillage during sowing.

This goal is achieved by making the cores of the electromagnets in the form of pole pieces arranged at an angle to each other, which are installed on both sides of the lower part of the sem wires of each of the coulters, whereby the magnetic field is formed inhomogeneous at the depth of the seed. In the case of a uniform magnetic field, one of its components is absent and the efficiency of magnetic processing is reduced. The seeds are mixed with ferromagnetic particles before sowing, and during sowing they pass between the pole tips of the electromagnets. The magnetic lines of force of an inhomogeneous field penetrate the soil, as well as the seeds that have just been planted in it, and, increasing the strength of local magnetic fields around the magnetically active components of the soil, as well as changing the biochemical processes in the seeds, which are positive for the growth and formation of plants, lead to increase productivity.

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The soil, as well as the particles of a ferromagnet that have become permanent magnets after passing through the magnetic field and adhere to the seeds, retain magnetization for 5-6 months. The size of the particles of the ferromagnet should be small, but greater than critical (100 A for iron, 150 A for nickel, etc.), since with the sizes of these particles less than critical their magnetic properties are lost. Grain and magnetoactive components of the soil, moving in an inhomogeneous magnetic field, will necessarily cross that section of the floor in which its effect on the soil and seeds will be greatest. When using electromagnets, it is possible to obtain very powerful floors and adjust the parameters of electromagnets for each specific grain or for a specific soil. The presence of particles of a ferromagnet in the soil makes it possible to magnetize these micromagnets during ongoing field work (top dressing, treatment with herbicides, etc.). To do this, it is sufficient to install magnetic field sources on the field units.

In FIG. 1 is a diagram of a device for magnetic treatment of seeds and soil; in FIG. 2 is a rear view of the pole pieces of the magnet along arrow A.

The device contains a seed drum 1. opener 2, wire 3, at the end of which directly near the ground pole ends of the magnet 4 are mounted, which act on the seeds 5 moving between them, and on the seeds lying in the soil, and on the soil itself. Tips A are set so that in one of them the north pole faces the earth, and in the neighboring one the south pole. The magnetic field strength reached 3600 E.

A method of growing plants using a magnetic field is that when moving at a speed

3-5 km / h in the village, the soil and seeds are exposed to a moving strong magnetic field created by the pole tips of 4 electromagnets. In this case, the magnetic field can be with mutually variable parameters, its speed of movement relative to the soil and soil can also change, which allows the system to be adapted to the shift of various crops. Seeds and soil moving in an inhomogeneous magnetic field necessarily pass through such a section of the field where its effect on the soil and on the internal biochemical processes in the seeds is greatest.

The strong magnetic field of electromagnets, significantly exceeding the field of permanent magnets, allows you to get plants with less acidity, more

thick and shallow root structure, larger leaves, with a high sugar content. Having placed particles of a ferromagnet in the soil, it is possible to magnetize them periodically, thereby constantly

supporting favorable conditions for growing crops.

Claims (1)

1. A method of cultivating the soil during the sowing process, namely, that the prepared soil before sowing is treated with a magnetic field, characterized in that, in order to increase the processing efficiency, the magnetic field is formed non-uniform at the seed sowing depth. 2, A device for tillage during sowing, containing electromagnets, characterized in that the cores of the electromagnets are made in in the form of pole pieces arranged at an angle to each other for mounting on both sides of the lower part of this coulter wire. Sudt Phi & 1 Figure 1