HU224873B1 - Improved seed handling facility for increasing the biological value of seeds - Google Patents

Abstract

The invention relates to a seed-treating equipment with improved efficiency, which is suitable for increasing biological value of seeds, increasing physiological features, and reproductive ability of seeds. The seed-treating equipment according to the invention has a treating slide provided with a hopper (2) and an outlet (12) and electronics (5) serving treatment of seeds. The equipment is characterized by that, in upper part of a treating slide (1) there is an electrode (6) with an arched surface on at least one part joining electronics (5) producing high voltage and there are deflection plates (8) between the electrode (6) and an outlet (12) in the bottom of the treating slide (1).

Description

BACKGROUND OF THE INVENTION The present invention relates to an improved seed treatment apparatus for improving the biological value, physiological properties and germination capacity of seeds.

Various solutions are known to improve and increase the biological value and physiological properties of seeds. A process and apparatus for enhancing the biological value of seeds, especially agricultural seeds, is known in the art from the Hungarian patent application HU 186 569. The essence of the process is to dipolarize the seeds in a high-voltage electric field prior to sowing, and then leave the seeds under insulated conditions for at least three days to fix the set dipole moment after dipolarization. The proposed apparatus has a high-voltage capacitor armament within the enclosure's operating space. According to the invention, the upper condenser armature comprises at least two separate and sequentially arranged strip capacitors and a control table which is connected to a vibrator. The device is designed as a trailer-like mobile unit.

A process for improving the quality and biological value of plants, crops and products of horticultural and agricultural origin can be found in Hungarian Patent Application P 96 02551, published November 28, 1996. The essence of the procedure is to satisfy this need as economically as possible by treating the seeds with bioelectrically, thereby achieving a more polarization effect than previously applied to achieve a biological excess. The more biodynamic, vital development of treated plants allows traces of untreated traps to be traced in the fields and can be economically eliminated by destroying them. The high-value crops are superficially cleaned of chemical residues prior to processing by hydrodynamic super-purification and are further processed without added chemicals and preservatives to organic or high-value organic products of high biological value.

An important criterion for the application of these solutions is that the electrically treated core, which is passed through the electric field, does not fade out, re-settle or ground after treatment. This is often difficult to achieve with existing equipment.

It is an object of the present invention to provide an apparatus in which the polarization of an electrically driven core is effected more efficiently than in prior art and used equipment, while ensuring that the treated core does not spill out, re-settle or ground. .

In the process of the present invention, it has been discovered that there is provided an apparatus having a treatment slide having a hopper and outlet and a seed treatment electronics and having an electrode having an arcuate surface on at least a portion of the high voltage electronics (5); is positioned and baffles are disposed between the electrode and the outlet at the bottom of the operating slide, the target is achieved.

Accordingly, the present invention provides an improved seed treatment device for increasing the biological value of seeds, comprising a treatment slide with a hopper and an orifice and electronics for treating the seeds. It is a feature of the present invention that an electrode having an arcuate surface connected to the high voltage electronics at the top of the operating slide is provided, and baffles are disposed at the bottom of the operating slide between the electrode and the outlet.

In the preferred embodiment of the device according to the invention, the outer surface of the electrode is flat on the upper part of the electrode and curved outwardly on the lower part of the electrode, preferably a cylindrical or parabolic surface. At the bottom of the operating slide, preferably two sides, two baffles are arranged symmetrically.

In a further preferred embodiment of the device according to the invention, a control valve, preferably a butterfly valve, is provided at the bottom of the hopper, preferably at the beginning of the operating slide, and preferably a fan is located below the operating slide. In a preferred embodiment, the operating slide is connected to the lower frame of the device by means of a knuckle at the lower part of the operating slide and an adjustable support connected to the upper part of the operating slide.

The invention will now be described with reference to the accompanying drawings, in which:

Figure 1 is a sectional view of a conceptual arrangement of the apparatus of the invention.

Figure 2 is a top view of the operating slide.

Figure 3 shows a double arrangement of the hopper according to the invention.

Figure 1 is a sectional view of a conceptual arrangement of the apparatus of the invention.

The apparatus according to the invention has an inclined operating slide 1, preferably at an angle of 30-60 °, the upper part of which has a seed hopper 2. At the bottom of the hopper 2, preferably at the start of the operating slide 1, there is a control valve 3, preferably a butterfly valve, for metering the seeds and regulating the flow. At the bottom of the treatment slide 1 is formed an outlet 12 surrounded by a guide rope 9, where the treated seeds leave the treatment slide 1.

In the upper part of the operating slide 1 there is an electrode 6 formed with a curved surface, which is connected to the electronics 5 located on the outer part of the device above the operating slide. The outer surface of the electrode 6 is flat on the upper part of the electrode 6, preferably parallel to the bottom of the operating slide 2, and curved on the lower part of the electrode 6 and convex towards the lower surface of the operating slide. The curved portion of the electrode 6 is preferably a cylindrical shell or a parabolic surface which protrudes towards the inside of the operating slide.

HU 224,873 Β1

Below the electrode 6, two baffles 8 are arranged symmetrically on the bottom of the operating slide 1, preferably on both sides. The baffles 8 serve to block the seeds passing through the treatment slide 1 in front of the electrode 6. The lower surface of the operating slide 1 is made of conductive material, preferably stainless steel or copper, and is connected to the ground potential. The

Below the operating slide I is a fan 4, preferably with eccentric blades, which is used to cool the electronics 5 and also to prevent the seeds from entrapping and to slightly vibrate the operating slide 1.

The operating slide 1 is connected to the lower frame 10 of the device on the one hand at the lower part of the operating slide 1

It is connected by an articulated joint II and an adjustable support 15 connected to the upper part of the operating slide 1. The upper slide and positioning of the slide 1 is carried out by means of an adjustable strut 15 which rests on the base 10 of the apparatus, so as to adjust the angle of the slide 1 according to the treated seeds.

The operation of the equipment is as follows. The seeds to be treated are poured into the hopper 2 of the apparatus, from where the seeds are fed to the treatment slide 1 in the amount set by the control valve 3. Seeds on the treatment slide 1, under gravity, start to flow downward at a set velocity corresponding to the angle, with a slight laminar flow, and then pass under the electrode 6. The electrode 6 is connected to a slowly changing high voltage, preferably 15-35 kV, the earth potential of which is connected to the lower surface of the operating slide 1, so that a strong electric field is generated under this electrode 6 in this part of the operating slide. The electric field generates a nearly homogeneous area under the parallel portion of the electrode 6, while an inhomogeneous field of space forms below the lower outwardly curved portion of the electrode 6.

The passage of the seeds through the electric force field of the electrode 6 is slowed by baffles 8 which, according to the angle of the operating slide 1, block the seeds in front of the curved surface of the electrode 6. Thus, the nuclei slow down in the strong inhomogeneous electric field and pass over a longer period of time. This enhances the efficiency and effectiveness of the treatment, because the inhomogeneous force field and the slower passage through the electric field increase the polarization and ordering in the nucleus, make it much stronger and more efficient. The seeds passing through the baffles 8 are then discharged from the treatment slide 1 through an outlet 12 surrounded by a baffle 9.

Figure 2 is a top view of the operating slide. The figure illustrates the positioning of the baffles 8 at the bottom of the operating slide 1, which are arranged symmetrically on both sides of the operating slide 1 before the outlet 12. The diagram also schematically indicates the hopper 2 and the control valve 3.

Figure 3 shows a double arrangement of the hopper according to the invention. In this arrangement, two operating slides 1 are used which, as shown, are turned with their hopper 2 and a central hopper 13 is placed above them. The seeds are fed from the central hopper 13, from which the seeds are distributed at the bottom by means of guide ropes 14, into the hopper 2 of the two operating slides. The arrangement shown in Fig. 3 allows for the formation of a squadron, that is, to double the throughput of the apparatus. The throughput, handling capacity can be increased fourfold by using additional operating slides 1 perpendicular to the plane of the figure, if appropriate. Such a multiple increase in throughput capacity allows large quantities of seed to be harvested or transported to be handled without interruption and without delaying work. The use of two or optionally four treatment slides 1 allows for continuous handling of the seeds from the conveyor belt or truck, and thus the seed treatment can be well integrated into the crop handling processes. The central hopper 13 of the common hopper seed treatment device may optionally be suspended from the conveyor belt.

In the preferred use of the device according to the invention, the treatment of the seeds requires an electric force field, but in no case is it allowed for the seeds to charge. The electric field promotes polarization and the setting of the electric dipole moment in the nuclei. The point is that the core only polarizes, but does not charge. For this purpose, the previously used solutions have allowed the transfer of nuclei between two capacitor plates, in the present case this is provided by the strong inhomogeneous space.

In the apparatus according to the invention, the seeds are placed in a sloping sloping trough, a treatment slide 1 with a controlled inclination such that the nucleus passes along the boundary of the laminar flow. The seed slides down in the treatment slide 1, this sliding ensuring that the seeds are properly adjusted but not arched. To keep the seeds moving, we need to make sure there is no vaulting. To avoid this, to prevent vaulting, vibration is preferably used to keep the seeds moving forward. To provide vibration, it is sufficient to slightly vibrate or move the bottom of the operating slide 1, optionally a fan 4 which, in addition to continuously cooling and ventilating the electronics 5 in operation, also provides vibration of the bottom of the operating slide 1.

In the device according to the invention, the nucleus polarization is facilitated by the fact that, while going down the slope, the nucleus not only encounters a homogeneous force field but also alternates with a homogeneous and inhomogeneous force field. This is achieved by the fact that the electrode 6, which is essentially a polarizing charge capacitor plate, is not flat but has a curve towards the end of the operating slide 1 having a circular section or a guiding curve or a parabola. To enhance the effect

At the end of the slide 1, the baffles 8 form a barrier to crush the seeds. This effect reverses the nuclei before the curvature of the electrode 6 in the inhomogeneous force field, making the polarization of the nuclei even more efficient.

In the particular configuration of the device according to the invention, care must be taken to ensure that the polarizing surfaces, the electrode 6 and the bottom of the operating slide 1 are insulated in the inhomogeneous space, before blocking and before the nuclei leave. This is provided by insulated baffles 8, foils. If we do not provide insulation, the core is discharged, polarization is reversed, so it must be insulated, which helps to fix and maintain the ordered state after exiting.

The seed slip rate is controlled by the control valve 3 at the front of the slide. The operating slide 1 has a starting position of 30 °, but can be tilted up to 60-70 °. In a preferred embodiment, a vibrator is provided at the bottom of the treatment slide 1, preferably at the hopper 2, which prevents the vaulting, by continuously shaking the treatment slide 1, ensuring a smooth sliding of the seeds.

The electrical treatment space in the operating slide 1 is partially homogeneous and partly inhomogeneous, having a shape factor designed to provide the desired polarization required by the core.

Therefore, it is possible that not only parallel vertical electric force lines exert their influence on the core, but also, in the inhomogeneous electric field, due to the curvature, the torque of the radial electric field is better enforced. This is provided by the upper curvature of the top of the operating space, which allows the seeds to adjust better to ideal polarization. In the nucleus, positive ions accumulate at the embryo and negative ions at the other peak. In order to achieve proper polarization, it is not necessary to increase the charge strength, but to achieve the correct charge density, that is, to try to apply as much charge as possible to each core. During seed treatment, the density of the force field should be adjusted to the number of treated seeds.

An advantage of the present invention is that it results in a more favorable increase in the biological value and germination capacity of the seeds. As an electrical treatment space, we use a time-varying periodic electrical space that electrically "circulates" the seeds as they flow, without being shocked. It is biologically more favorable than shock, it is more adapted to the biological properties of the core, and is a gentler treatment. In the use of the device according to the invention, the treated core can adjust properly, thereby enhancing the biophysical value-adding effect (electrical effect) of the electrical treatment.

The apparatus of the present invention is more efficient in dipole formation in the core and less charged in the core. (that is, treated seeds have extra energy, plus energy, that gives the seeds and the plant that develops it the ability to be more resistant, to develop dynamically, and what has been a completely unknown concept, the efficiency of photosynthesis This gives rise to the biological added value of treated crops, which is one of the main targets for the current development of biology.

A further advantage of using the device according to the invention is that the resulting effect is produced by electrical treatment and is not a chemical additive effect, not a genetically manipulated, enforced effect. Here, there is no such effect, no such effect, because it is absolutely nature-identical, practically making the biochemical process biophysically manageable.

Claims (6)

PATENT CLAIMS An improved seed treatment device for increasing the biological value of seeds, comprising a treatment slide with a hopper and an outlet and a seed treatment electronics, characterized in that the upper part of the treatment slide (1) is curved in at least a portion of the high voltage electronics (5). an electrode (6) having a surface is provided, and baffles (8) are disposed between the electrode (6) and the outlet (12) at the bottom of the operating slide (1). Apparatus according to claim 1, characterized in that the outer surface of the electrode (6) is flat on the upper part of the electrode (6) and has a convex, cylindrical or parabolic surface on the lower part of the electrode (6). Apparatus according to Claim 1 or 2, characterized in that two baffles (8) are arranged symmetrically on the bottom of the operating slide (1), preferably on both sides. 4. Apparatus according to any one of claims 1 to 3, characterized in that a butterfly valve (3) is provided as a control valve (3) at the bottom of the hopper (2) at the beginning of the operating slide (1). 5. Apparatus according to any one of the preceding claims, characterized in that a fan (4) is disposed below the operating slide (1). 6. Device according to one of claims 1 to 3, characterized in that the operating slide (1) is connected to the lower frame (10) of the device by means of a hinge (11) at the lower part of the operating slide and an adjustable support (15) .