EP0252067A2 - Method of and device for sorting seeds - Google Patents

Abstract

The invention relates to a method and an apparatus for seed processing. The new process step consists in exposing the material flow to a material flow directed at right angles to the direction of the material flow and dividing it into light material, mixed material and heavy material, and only subjecting the mixed material to further sorting. The device for presorting consists of an annular channel (1), which is composed of two opposite curved sections (2, 2 ') and two opposite straight sections (3,3') and in which a cross-flow fan or axial fan (4) is arranged. The ring channel (1) has in the wall area of its inner circumferential boundary (5) at the beginning of one of the curved sections (2, 2 ') an inlet slot (6) extending over the width of the ring channel (1) for the seed and in the wall area of its outer circumferential boundary (7) opposite the inlet slot (6) has an outlet opening (8) for the seed which extends over the width of the ring channel. The required conventional sorting devices can be dimensioned smaller by the invention or their performance can be increased in existing systems.

Description

The present invention relates to a method for seed processing in which the seeds of light seedings, e.g. Straw, husks, weeds are cleared and the seeds are sorted according to grain width and thickness, grain length and grain weight. The invention also relates to an arrangement for presorting seeds.

Seed processing generally consists of a chain of machines in which contaminants or weakly germinated or non-germinable grains are sorted out according to various criteria. It is known, in a first stage, to use suction sifters to suck off the light admixtures such as straw, husks, weeds, etc., and then to feed the crop flow to a screening plant, where it is sorted according to grain size and thickness using different sieving methods. The broken grains or long parts are then separated lengthwise using a trimmer. The boundary grains lying on the weight limit from poor to good grains, such as sluggish grains or hollow grains, are separated by means of a weight reader in a fluidized bed process.

In US-A 4 490 247 an air classifier for separating a mixture into a heavy and a light fraction is already described, which comprises a first vibratory conveyor for conveying the material mixture against an upward air flow at the outlet end of the conveyor and a second vibratory conveyor, which in Height of the first conveyor or lower is arranged, wherein the input end of the second vibratory conveyor has an upward inclined portion on which the heavy fraction falls from the exit of the first conveyor, so that the heavy fraction of the light fraction, which by the air flow on the horizontal main part the second conveyor is carried, is separated.

US-A 4 219 410 describes a method and an apparatus for separating heavy metal pieces from lighter chips. The chips that surround the heavy metal pieces are moved along a conveyor track via a slot running transversely to the conveyor track. A gas stream is directed through the cross slot to carry the chips away from the slot into a separate processing path while the heavy metal pieces fall through the slot due to their weight.

EP-A2 126 177 describes a device for sorting granular products which comprises a column-like housing divided by sieves of different mesh sizes. In addition, a means is provided for generating an artificial _l cozy air flow through the housing so that the passed product to be sorted along with the air flow through the sieves and is sorted in a substantially independent manner.

The invention is now based on the idea of separating about 30-40% of the good seed from the seed stream with a type of pre-sorting in the air stream and no longer feeding this separated part to the usual sorting devices, such as trimmer and weight reader, but to use it immediately as usable seed . This results in the possibility of dimensioning the usual sorting devices, such as the trimmer and weight reader, by a few leaps in size while maintaining the overall performance in terms of seed processing, or increasing the performance of the system by around 505 by switching on a pre-sorting level in existing systems.

To implement this idea, according to the invention, in a method of the type mentioned at the outset, the crop stream is subjected to an air stream directed transversely to the crop stream direction for the purpose of pre-sorting and is preferably divided into light, mixed and heavy and only the mixed is subjected to further sorting. The pre-sorting is therefore carried out in an air flow directed transversely to the crop flow direction, which fans out the fruit according to the specific weight and the surface shape, whereby it can be divided into any number of fractions. The flow of material is preferably broken down into three parts, namely into Light goods, mixed goods and heavy goods. The light goods are waste or can be used for example in compound feed. The mix must go through the entire usual preparation process. The heavy goods are only subjected to a short sieving process and flow together with the pure goods, bypassing the usual sorting devices such as the door and weight readers.

According to the invention, a device is provided for the pre-sorting of the seeds, which is characterized in that it consists of an annular channel, which is composed of two opposite curved sections and two opposite straight sections and in which a cross-flow fan or axial fan is arranged, the annular channel in the Wall region of its inner circumferential boundary at the beginning of one of the curved sections has an inlet slot for the seed which extends over the width of the annular channel and in the wall region of its outer circumferential boundary opposite the inlet slot has an outlet opening for the seed which extends over the width of the annular channel.

According to a further feature of the invention, the section of the ring channel that is pre-curved in the conveying direction of the fan immediately after the inlet slot is composed of two sections with different radii of curvature, the radius of curvature of the section immediately adjacent to the inlet slot being greater than the radius of curvature of the adjoining section of the curved section. In this way, a desired large fanning out of the seed flow is achieved.

The fan is preferably arranged in the conveying direction of the fan at the end of the curved section, at the beginning of which the inlet slot is provided. This achieves a good leveling of the air flow before it hits the seed flow.

To remove the light components carried by the air flow in the ring duct, e.g. Dust and husks, according to the invention, a discharge device is arranged in the conveying direction of the blower at the end of the curved section, which is opposite the curved section, at the beginning of which the inlet slot is provided.

The invention will now be described with reference to the drawing, in which a Direction for seed preparation with an upstream device for seed sorting is shown schematically, explained in more detail.

The device for seed sorting according to the invention consists of an annular channel 1, which is composed of two curved sections 2, 2 'and two straight sections 3, 3'. A cross-flow fan or axial fan 4 is arranged in the ring channel 1. The ring channel 1 has in its wall of the inner circumferential boundary 5 an inlet slot 6 for the seed. An outlet opening 8 is provided in the wall 7 of the outer circumferential boundary of the ring channel 1 opposite the inlet slot 6. In the illustrated embodiment, the curved section _{2 of} the ring channel 1, which is provided immediately after the inlet slot 6, is composed of two sections 9, 9 'with different radii of curvature. The radius of curvature of section 9 is greater than that of section 9 '. At the end of the curved section 2 'there is a discharge device 10 for the light components such as dust and husks carried along by the air flow.

The air flow generated by the fan 4 describes a curved track around the inlet slot 6 for the seed to be sorted. Each individual particle is thereby struck by the air flow transversely to its trajectory and is thus swept along by the air for a maximum distance, so that the largest possible compartment is created. After exiting the air flow, the individual particles pass through the outlet opening 8 into a trajectory which is exclusively subjected to gravity, the separation limits being drawn further apart until the particles pass into free fall. In the embodiment shown, the fanned-out good is divided into three partial flows LG, MG and SG. The light good LG is discharged via a discharge device 11. The medium MG is fed to the usual sorting devices, for example a screening device 12. The heavy load SG will be used directly as seeds, bypassing the usual sorting equipment. If necessary, as indicated in the drawing, the heavy material can also be subjected to sieving with the sieve 13, the coarse sieve transition at 14, at 15 the pure goods and at 16 the sieve diarrhea is obtained.

The air is circulated around the inlet of the seed, the light particles that are carried away during the sorting process get into the outer zone of the ring channel 1, where they are discharged via a discharge device 10, e.g. Flap to be separated with about 10% air. 90% of the total air volume is circulated via the cross-flow fan or the axial fan, with about 10% of the air being constantly renewed. The separated air is led outside via a fan and a cyclone or filter. The missing amount of air is sucked in through the outlet of the seed, in the heavy goods area.

Claims (5)

1.Seed preparation process, in which the seeds of light admixtures, e.g. Straw, husks, weeds, is freed and the seeds are sorted according to grain width and thickness, grain length and grain weight, characterized in that the crop flow is exposed to a stream of air directed at right angles to the crop flow direction and preferably divided into light, mixed and heavy goods for the purpose of pre-sorting and only the mix is subjected to further sorting. 2. Apparatus for seed pre-sorting according to claim 1, characterized in that it consists of an annular channel (1) which is composed of two opposite curved sections (2, 2 ') and two opposite straight sections (3, 3') and in which A cross-flow fan or axial fan (4) is arranged, the annular duct (1) in the wall area of its inner circumferential boundary (5) at the beginning of one of the curved sections (2, 2 ') having an inlet slot (6) extending over the width of the annular duct (1) ) for the seed and in the wall area of its outer circumferential boundary (7) with respect to the inlet slot (6) has an outlet opening (8) extending over the width of the ring channel for the seed. 3. Apparatus according to claim 2, characterized in that in the conveying direction of the blower (4) immediately after the inlet slot (6) provided, curved portion (2) of the ring _; channel (1) is composed of two sections (9, 9 ') with different radii of curvature, the curvature radius of the section (9) directly adjoining the inlet slot (6) is greater than the radius of curvature of the adjoining section (9 ') of the curved section (2). 4. Apparatus according to claim 2 or 3, characterized in _that the fan (4) is arranged in the conveying direction of the fan at the end of the curved section (2), at the beginning of which the inlet slot (6) is provided. 5. The device according to claim 4, characterized in that in the conveying direction of the blower (4) at the end of the curved section (2 '), which is opposite the curved section (2), at the beginning of which the inlet slot (6) is provided, a discharge device (10) for the light components led by the air flow in the ring channel (1), such as, for example Dust, husks, is arranged.

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