DE2646901A1 - EQUIPMENT FOR TREATMENT OF SEEDS - Google Patents

Description

DR. FRIEDRICH E. MAYER 7530 pforzheim

DIPU-ING. A. PANTENBURG ^ T ™ ,, o.

PATENT LAWYERS phone <o 7a ai> ι a * 6o

QSINE CORPORATION LIMITED, IO3O - 34th Ave. S.E., Calgary, Alberta, T2G 1V4-, Canada

"Seed treatment device"
Summary;

The invention "relates to a device for treating seeds with magnetic fields before sowing. The device comprises a tubular member with an internal support is provided in order to "fix a permanent magnet in it in such a way that it is poured through this tubular element Seed is magnetically treated. The magnet, which has opposite poles at its opposite ends, is like this oriented that its longitudinal axis extends in the direction of the seed passage, the passage being a substantially having an annular cross-section around the magnet and of a uniform cylindrical magnetic field is taken. That. tubular element tapers towards the seed passage, so that a narrowed area arises close to the magnet, which causes the seed to funnel-shaped radially inwards to the stronger magnetic field is passed tightly around the magnet.

709818/0301

The invention relates to a device for treating seeds , especially for the magnetic treatment of seeds such as grain before sowing.

It has been found that magnetic treatment of seeds prior to sowing gives better crop yields ; Tests have shown that the seeds germinate earlier and harvest maturity is accelerated. As a result, there are now a number of commercially available devices for magnetically treating large quantities of seeds in a short period of time. Most of these devices use an electromagnet, the field of which is built up around an inclined grain transport path or several permanent magnets are arranged around such a path. These types of devices have the disadvantage of being relatively expensive to manufacture. In the case of an electromagnet, of course, a power source must be available, and in the case of multiple permanent magnets being used, distorted magnetic fields can lead to inconsistent treatment. In tests with devices that only had a single permanent magnet, it turned out that sufficient field strength and uniform treatment could not always be achieved.

The object of the present invention is to provide a device for magnetic seed treatment that is cost-effective is to be produced and still ensures a relatively uniform magnetic treatment of the seeds.

In one embodiment of the invention is a tubular Element provided that defines an inner seed passageway extending from the entrance to the exit of the Device extends. A bar permanent magnet is arranged with its longitudinal axis exactly coaxially in this passage. The magnetic field is thus concentrated in this passage around the magnet and the advantage of the two zones is more maximal Field density in the area of the poles is fully utilized.

709818/0301

According to another embodiment, the passage way between the magnet and the tubular element narrowed part. In a further embodiment, the inner surface has a tapered portion, the opens into a narrower passageway with an annular cross-section around the magnet, the seeds being funnel-like Magnet is fed. This funnel effect causes the seed slides very close to the magnet where the magnetic field is strongest.

The invention will now be explained with reference to the drawing of some exemplary embodiments:

Show it:

Fig. 1 is a partial cross section through a preferred embodiment of the device,

Fig. 2 is a plan view of the device of Fig. 1,

FIG. 3 shows another exemplary embodiment in one of FIG. 1 analog representation,

Fig. 4 is a plan view of the device of Figs

Figs. 5 and 6 different ways like that Device according to the invention in connection with a sowing machine can be used.

In Figures 1 and 2, the apparatus 10 for magnetically treating seeds comprises a tubular member 11 having the inner surface 12, which delimits an inner seed passage 13, which extends from entrance 14 to exit 15. At the inside of the tubular member 11 is a device 16 for fastening the permanent magnet 17 centrally in the passage 13 provided.

709818/0301

The tubular element has a circular cross-section and is therefore essentially cylindrical in shape.

As shown in Figure 1, there is the tubular member at its entrance from an upper part 20 and a lower part 21 at its exit, the upper and the lower Part through a middle piece 22 that surrounds the magnet ^ 17, are separated from each other.

The upper part 20 can taper or taper towards the middle part. taper, the central part 22 having a bead 23 is equipped, d, it encloses the magnet. The inner surface 12 is substantially cylindrical in shape and the upper surface 24 of the bead runs rather abruptly towards the centrally located magnet, so that a constriction arises, which guides the grains like a funnel towards the magnet.

The fastening means consist of radially extending struts 25 'on opposite sides of a extended central piece 26 can be aligned dismatrally. The piece 26 is in the form of a capsule or sleeve that contains the magnet 17, this capsule consisting of a body 27 and a removable cap 28. The body 27 has inside a 35Tut 30, which receives a flange 31, which is molded onto the cap 28 so that the cap can snap into place. The body 27 and the cap 28 close a cavity one that is only a little further than the magnet

The tubular element 11, the inner bead 23, the struts 25 and the expanded central piece 26 are preferably as integrating unit cast from non-magnetic material like permanent elastomer that can withstand rough treatment and be exposed to the weather. As alternative

709818/0301

to the in Fig. 1, the magnet can also be cast into the fastening unit; but the arrangement shown has the advantage that the magnet can be inserted or removed, and the magnet can be replaced if he loses strength while working.

The magnet 17 is a bar magnet of substantially cylindrical shape Shape; only the opposite ends are rounded in the embodiment shown. The magnet is extended, yet its opposite poles are at opposite ends. The longitudinal axis of the magnet is arranged in the central axis of the tubular member so that the passageway 13 is within the central part 22 is of annular cross-section, interrupted only by the struts 25-

In the description so far, the part 20 is referred to as the "upper part", although it is evident that the device also upside down and then filled in the seeds through the end 15 that was previously described as an output. Regardless of the direction of the seed throughput through the Device 10 passes the seed, the relatively uniform magnetic field 50 in. The annular passageway and is the exposed to more concentrated fields at the pole ends of the magnet. Just like the presence of the magnet in the tubular Element 11 causes a constriction, the rib 23 also directs the grain to the magnet, so that a larger part of the. Seed is exposed to the denser magnetic lines near the magnet.

^{The device 10 1} shown in FIGS. 3 and 4 for the magnetic treatment of seeds shows a uniform injection molding with a tubular element 11 'and fastening device 16', in which the magnet 17 is cast in the enlarged central piece 22 'of the fastening device 16. The magnet has the same shape as in that already

709818/0301

described embodiment. The center piece 22 'is of less complex construction than the above arrangement, but experiments seem to show that it is hardly desirable is that the pole ends protrude from the envelope. Certain growth impairments of the seeds could it is believed to be due to the direct contact of the seeds with the Poles.

It should also be pointed out that the constriction in the exemplary embodiment according to IPig. 3 and 4- is carried out in a different way. The upper part 20 ¹ has a wall area 33, the thickness of which increases towards the central piece 22 ', so that the inner surface 12 tapers towards the annular passage which surrounds the magnet. After the wall has reached its maximum thickness at 34 ·, it decreases again towards the exit of the device. The narrowing again has the effect that the seed is directed towards the magnet.

Although it has not yet been possible to determine the optimal strength of the magnetic field, it seems desirable to that the magnetic field density is between not less than 50 gauss on the outer radius and 500 gauss directly on the magnet measures.

Although the seed can be treated some time before sowing, an additional operation should be avoided. by clamping the device or any other type of fastening in a flexible outlet nozzle 36 in an in a conveyor screw 37 arranged in a transport channel, as in Pig. 5 and 6 shown. As in these two Figures shown, the device 10 or 10 'either between the outlet nozzle 36 and screw conveyor 37 (Fig. 6) or be arranged at the outlet of the outlet nozzle 36. In each In the case, the seed coming from the screw conveyor 37 passes the device for the magnetic treatment of seeds before it when filling the container of a seed drill into the container 38

709818/0301

a seed drill.

The embodiments described above are given as examples of the present invention. It is clear that those skilled in the art can envisage various modifications However, without departing from the inventive concept as defined in the appended claims.

709818/0301

Blank page

Claims (1)

2846901 Claims; 1. Device for treating seeds with magnetic Fields in which the fields of at least one magnet extend in a transport channel for the seeds, characterized in that in a tubular, an inner seed passage (13) enclosing, from an input (14) "to an output (15) extending element (11), a permanent magnet whose The longitudinal axis between its two opposite poles runs with the aid of a fastening device (25; 25 ') essentially coaxially in the seed passage (13) is attached. 2. Apparatus according to claim 1, characterized in that the tubular element (11) has a cylindrical inner surface and the passage (13) has a substantially annular cross-section around the magnet (17) having. 3. Apparatus according to claim 1, characterized in that the inner surface of the passageway (13) such a has the tapering section that a constriction (23 or 34) which steers the seeds towards the magnet (17) is produced. 4. Apparatus according to claim 1, 2 or 3i, characterized in that the fastening device (25; 25 ¹ ) consists of non-magnetic material. 5 · Device according to one of the preceding claims, characterized characterized in that the constriction is achieved by thickening the wall (33) of the tubular element (11 '). 709818/0301 6. Device according to one of the preceding claims, characterized in that the fastening device (25) consist of struts extending essentially diametrically in the tubular element (11). 7 · Device according to one of claims 1 to 5? characterized, that the fastening device (25) comprises a central capsule (26) which encloses the magnet (17) and is supported by diametrically extending struts. 8. · Device according to claim 7, characterized in that the capsule (26) is designed as a chamber which has a removable cap (28) (Pig. 1, 2). 9 · Device according to one of claims 1 to 5? characterized in that the fastening device comprises an enlarged central piece which is carried by radially extending struts (25 ¹ ) and in which the magnet (17) is cast (Fig. 3> 4 ·) · 10. Device according to one of claims 7-9? characterized, that the tubular element (11), the struts (25) and the central piece (26) from a molding high polymer material is. 11. Apparatus according to claim 1, characterized in that the passage (13) between the magnetic means and the tubular member (11) has a narrowed portion. 12. Apparatus according to claim 11, characterized in that the magnetic device consists of a bar magnet (17) is substantially cylindrical in shape, the opposite poles of which are at its opposite ends are located. 709818/0301 • 3. 2648901 13- device after. Claim 11 or 12, characterized in that that the passage (1J) is a substantially annular Has cross section. Device according to Claim 11, 12 or 13, characterized in that the fastening device has struts (25, 25 ¹ ) which extend diametrically in the passage (13). 15. Device according to one of claims 11 - 13, characterized in that that the mounting device has a central capsule (26) which encloses the magnet (17) and of radial spreaders (25) attached to the tubular element (11). 16. Apparatus according to claim 15, characterized in that the capsule (26) has a removable cap (28) and the Magnet (1?) Is replaceable. 17 · Device according to claims 11 to 13 »characterized in that the magnet (17) is cast into the expanded central piece of the fastening device, which is carried by radial struts (25) (J ¹ Ig. 3, 4). 18. Device according to one of claims 15-17? characterized, that the tubular element (11), the struts (25) and the central piece (26) as an integral unit is cast from high polymer material. 19. Device according to claim 11, characterized in that the tubular element (11) is essentially cylindrical Is shape, the inner surface of which delimits the outside of said passageway, this inner surface has a section which tapers from the filling opening (14) towards the magnet (17) and thereby a zone maximum constriction near the magnet and the seed can be deflected radially inward towards the magnet. 709818/0301 20. Apparatus according to claim 19 »characterized in that the constriction in the tubular member by a funnel effect achieving inner bead (23) is formed which is concentric to the magnet. 21. Apparatus according to claim 20, characterized in that the tubular element (11) is substantially cylindrical Has shape, the surface of the bead in the direction of the seed throughput directly on the inner surface and this surface of the bead abruptly turns towards the magnet to form a tapered outer wall to form the passage way (13).