DE2219688A1 - Electro-culturing of plants - using electromagnetically charged magnetite mixed with plant nutrient - Google Patents

Abstract

A granulated material with an electromagnetic charge and/or magnetic charge is mixed with the nutrient substratum encircling the plant thus increasing the growth rate and yield. Pref. the granulated material is magnetite with a grain size is not >100M.

Description

DR. BSRG üiPL.-aMG, STAPF

PATENT LAWYERS β MUNICH 8O, MAUERKIRCHERSTR. 48

Attorney file 22 332 April 21, 1972

Electroculture Corporation Denver, Colorado 8ο2ΐΊ / USA

Method of electro-growing plants and means for carrying out

The invention relates to the breeding or cultivation of vegetables or other plants and in particular a Ver drive, with which the plants are supplied with electrical charges in order to increase their growth rate and

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Promote income. Such methods are commonly referred to as electro-growing or electro-culture. the The terms plant or vegetable are used synonymously here; with them all forms of vegetable life are supposed to be be included in the field of plants or vegetables.

The invention provides a new and improved activator for plants, the nutrient medium of the plants added, has a clear growth and yield-increasing effect.

The invention makes it possible to obtain a new and improved activator for plants with the relative can be produced with little effort, and which has a granulated mineral nutrient for plants. It is also able to absorb and store a sufficient electromagnetic charge so that it can can be transferred to the plants to increase their ability and rate of assimilation of nutrients to promote.

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Preferably, the new and improved activator according to the invention for plants comprises magnetite grains with the grain size of 100 mesh or smaller, which have electromagnetic charges applied by means of an electromagnet fed with 44o volts direct current. The grain size of loo mesh is so defined that was used to test the grain size a loo mesh test sieve U.S. Standard ASTM 1939 with a mesh aperture of o, l49 mm and a wire thickness of o _s lo5 mm.,

According to a preferred embodiment, the new and improved activator according to the invention for plants in addition to its stimulating effect on the The growth and yield of the plants, which are relatively insect-repellent, protect them against prostate temperatures to -6 ° C (22 ° P), so that neither the plant nor its fruits are destroyed by cheers.

The invention also provides a new and improved one Process for the preparation of the activator, in which magrietite Ore is crushed and sorted so that granules one

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Grain size of loo M or smaller is obtained. The granulate is then charged with electromagnetic charges and / or magnetizing the granules and separating the charged or magnetized magnetic granules from the other constituents of the ore in a magnetic manner.

The invention also provides a new and improved method of cultivating plants according to which the A granulated substance, which carries an electromagnetic charge and / or is magnetized, is attached to the nutrient medium which causes the electromagnetic charge to be transferred to the plants and thus the rate of growth and promotes the yield.

Finally, the invention also provides a new and improved method for plant culture, in which the Granulated substance that carries the charge is also absorbed by the plant as a nutrient.

In the following the invention is explained in more detail using a preferred embodiment, wherein on reference is made to the accompanying drawings.

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Pig. Figure 1 shows a side view of a device according to the invention for producing the activator.

Fig. 2 shows a partial view along the device roughly along line 2-2 in FIG. 1.

A number of researches and studies have been carried out on the growth and yield of food crops with the aim of increasing the yield in order to increase the yield to meet growing demand for food. One of the areas in which there is a considerable research effort is dedicated to the effect of electricity on the growth and yield of plants. This Research area is generally referred to as electroculture.

Part of the invention forms an activator, which can be produced with relatively little effort, and which can be electromagnetically charged or magnetized. As a result, charges are on the plant through the surrounding earth transferable. The preferred activator has emerged from a wide variety of attempts after a number of attempts Types of activators selected.

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The preferred activator has a granulate of magnetite (Fe, Oh) with a grain size of no more than 100 M, the carries an electromagnetic charge. In practice, the size of the magnetite particles is in the range of 2 to 600M or smaller. However, particles with a grain size of at most 100 M as granules are preferred of this size are easy to manufacture and handle, a sufficient electromagnetic charge Easily absorb and store and dissolve easily, removing the iron rapidly from the earth and from is absorbed by the plants.

As the tests show, the best results are achieved when the charged magnetite granulate is plowed into the nutrient soil of the plant, preferably at least 5 to 10 cm deep. The depth depends on the plant and the type of nutrient medium. However, an advantageous effect on the plant is achieved at any depth from the surface up to approx. 1 m. The activator is applied planted earth in a ratio of at least about loo pounds on ο, J ¹ ha. The concentration of the activator can be determined by the ratio

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nis can be increased from loo pounds to ο, Μ ha. From this this is followed by an increase in growth rate and yield up to a natural limit.

When using the activator according to the invention, amazing results have been achieved. The most notable results are an increase in the number of harvests per year within a planting period, a noticeable increase in the fruit size of the treated plants without, however, adversely affecting the properties of the fruit, a pronounced resistance to insects, and the ability of the plant to withstand freezing temperatures. The latter property causes plants treated temperatures have endured from -6 ⁰ C without the plant or fruit were destroyed. Of course, the activator does not replace the fertilizer. The plants are to be fertilized according to the fertilizer programs set up for the various species so that the full effectiveness of the activator is achieved. The tests with the activator were carried out together with a suitable fertilizer program.

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It is not known exactly how the astonishing growth- and yield results are generated. There is a hypothesis that the charged loo M magnetite granulate releases its electromagnetic energy and additionally goes into solution after it goes underground gepfligj; is, so that the iron contained in the Plant is easily absorbed as a nutrient. During this process, the existing on the granules is also removed negative charge released. This migrates to the plant and penetrates the plant's sap flow. Apparently the charged juice now circles at a higher speed, which causes the assimilation process and so that the growth cycle of the plant is also accelerated. In addition, it is assumed that the charge is dissolving on the minerals naturally bound in the earth and on those added with the various fertilizers Elements such as nitrogen, sodium, potassium, phosphorus, calcium, sulfur and others act what causes the available nutrients that are absorbed by the plant are increased.

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The resistance of the plant to frost temperatures is possibly with the increased speed of rotation of the sap in the plant and by the presence of a negative ion charge in the plant to explain. It is an analogy between the behavior of the charge in a plant and in one above ground Water conduit, into which electrons are introduced, in order to freeze the water even at high temperatures below zero to prevent ascertaining.

The insect resistance can possibly be explained by the fact that the plant had a slight negative Carries cargo that is uncomfortable for most insects. You leave the plant immediately, when they feel the charge.

There are other substances that can be used as activators. The demands on these substances are that they are (electromagnetically) chargeable and / or magnetizable, that they store the charge and that they hold the charge to the earth and the plant after they are plowed into the earth. Magnetite is because of his relatively rich occurrence preferred as it makes it

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is relatively inexpensive. In addition, magnetite contains iron, which is an important nutrient for the recognized most of the plants. Examples of other substances that can be used as an activator, but without the benefits of magnetite, are iron, ilmenite and maybe wolframite. There are also substances that are not nutrients but can absorb a negative charge and release it to earth.

The preferred activator is made by a method and apparatus which is somewhat schematic are shown in the drawings. Pig. I shows an ore processing apparatus Io for producing the activator. The ore processing device Io is made with ore containing magnetite, and already by means of a usual Facility is crushed and pulverized, loaded. The magnetite ore or the material for recording Men of the load, is sorted in a sorting device 12 to a grain size of no more than 100M. The sorting facility 12 is one of the devices in use today and can be equipped with a vibrating sieve be designed in such a way that only particles with a grain size of no more than 100 M fall through. The carefully

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sorted particles are then transported by either gravity or some conventional conveyor a magazine 14 is supplied. The mäBrial, that has not yet been crushed to a grain size of loo M j is rejected, broken and turned into the sorting device 12 is returned.

From the magazine 14, the material arrives at a conveying device 16, which in the illustrated embodiment is a vibrating or reciprocating conveying device. A feed device can also be attached to the magazine 14, for example two revolving feed rollers which are attached in the vicinity of the bottom opening of the magazine 1h and which ensure that the material is properly fed to the surface of the conveyor device 16. A conventional drive can be used to move the conveying device 16 back and forth so that the material reaches a location below the magazine 1H to a loading and separating device 18 which is attached further down above the conveying device.

The charging and separating device 18 has an electromagnet 2o. The electromagnet 2o has the opposite

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oppositely charged poles 22 and 24, which are through a Coil 26 are energized. The coil 26 is energized by a 44o volt DC power source. Through the Electromagnets 2o are about poles 22 and 24 of the conveying device 16 magnetic fields built up. The strength of the magnetic fields is sufficient to hold the loo M-particles to charge with the guaranteed charge when exposed to the magnetic fields by the conveyor 16 will. The conveyor 16 is covered with a cover 28 near the poles 22 and 24, as shown in FIG. The cover 28 extends over the top of the conveyor 16 to prevent the material from being physically drawn to poles 22 and 24 during transport by the magnetic fields will.

The magnetite has a natural magnetization. The effect of the electromagnet 2o is used for reinforcement this magnetic charge or magnetization is thus applied to the plants on which the activator is applied a sufficient effect is obtained.

Magnetite has a well-known charging characteristic that uses becomes to it from the substances accompanying it

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separate as it moves through the field. Thanks to this characteristic, it is possible by means of a revolving conveyor device, designated in its entirety by the reference symbol 3o, to pick up the magnetite from the conveyor device 16 and to bring it to a collecting device. The revolving conveyor has a rotatable plate or disk 32 which is mounted in parallel above the conveyor 16. The plate is rotatable about a vertical axis 3 ^ ₃ , which is fixedly connected to the plate 32, by a drive, not shown. The drive, not shown, turns the plate counterclockwise «, as shown by the arrow around the vertical axis ~ 5k «

The magnetite is conveyed by the conveyor 16 by means of ' a row of cobalt pins 36. These protrude from the plate 32 and are normally in attached at the same distance on the edge of the same. The charged magnetite is attracted by the cobalt pins 36 and via the conveyor 16 to a chute 38 funded. The chute 38 is attached below the conveyor 16 and protrudes on both sides beyond them, as shown in FIG. The charged one

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Magnetite falls from the respective cobalt pin 36 when it is in the neutral point between the North and south poles 22 and 24 of the electromagnet is located. As soon as the individual pins reach the neutral Reach point between the poles 22 and 24, the material falls into the chute 38, through which it is in a suitable container 4o is performed. This can be provided with a conveyor to the material to be forwarded for packing and shipping. After this As the material falls, the pins continue to rotate with the plate 32 and are back over the conveyor 16 led. There they take up the residual magnetite that occurred with the one above in the direction of movement sweep over the conveyor 16 was not included. The one recorded on the second pass Material becomes the part of the protruding on the opposite side of the conveyor 16 Schütte 38 promoted. As soon as the pins 36 reach the neutral When reaching the point between poles 22 and 24, the material falls from them into chute 38.

The poles 22 and 24 can be adjusted in the vertical direction with respect to the conveyor device in order to

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to enable setting of the field strength. The height of the poles 22 and 2k can also be adjusted individually and relative to each other and relative to the conveyor 16 »This results in the possibility that the pins 36 pick up one type of material the first time they pass over the conveyor 16 and another type of material the next In such an arrangement, the chute 38 directs the various materials into different containers or collectors.

Regardless of the details explained preferred embodiment of the invention are modifications and other embodiments by a person skilled in the art electroculture feasible »All of these modifications and embodiments are within the scope of the claims of this invention.

The invention thus relates to the electroculture of plants. It relates to an activator _s exerts a noticeable effect on the growth rate and the yield at a suitable mixture with the soil of the plants. The activator preferably has magnetite (Fe-, 0 ^)

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on, which is crushed to granules with a grain size of no more than 100 M, and which carries an electromagnetic charge. The charged magnetite is plowed into the nutrient soil of the plants, preferably at a depth of 5 to 10 cm, with a mixing ratio of at least about 100 pounds of charged magnetite on 0.4 hectares of planted soil. The magnetite activator is obtained by pulverizing or crushing magnetite-containing ore and then sorting it into granules with a grain size of no more than 100M. The sorted material is charged in a magnetic field of an electromagnet eil j which is excited with kko volts direct current , and then carries an electromagnetic charge. The charged Grarmlatkorns of magnetite are magnetically separated from the Er-s

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Claims (9)

P a te η t a η, s ρ r ü c h.e 1. Activator for use in the electroculture of plants, characterized by a granulated material that has a. wearing
electromagnetic charge / un.d / or magnetized, and which is mixed with the nutrient medium surrounding the plant, whereby the growth rate and the yield of the plant increases. 2. Activator according to claim 1, characterized in that the granulated material has magnetite. 3. Activator according to claim 2, characterized in that the magnetite carries or magnetizes an electromagnetic charge is. k. Activator according to one of the preceding claims, characterized in that the granulate grain size of the magnetite is not greater than 100M. 5. A method for the electroculture of plants, characterized in that that the nutrient medium of the plants is mixed with magnetite particles, which are crushed and turned into granules of a certain mesh size are sorted, and which were exposed to a magnetic field generated by an electromagnet. - 18 309843/0311 6. The method according to claim 5, characterized in that the grain size of the magnetite particles does not exceed 100 M, and that the electromagnet is energized with Mo volts direct current. 7. The method according to claim 5, characterized in that the magnetite with the nutrient medium in a ratio of Planted at least about 100 pounds of magnetite on 0.4 hectares Soil is mixed. 8. The method according to claim 5, characterized in that the activator in the nutrient medium of the plants to a depth is plowed from 5 to 10 cm. 9. Activator for use in the electroculture of plants, as essentially described with reference to the attached Drawings was explained. 309843/0311