DE1482443B1 - Method and device for sorting grain, seeds or the like. - Google Patents

Description

There are wind sifters known which allow the goods to be sifted to fall freely movable through a wind flow, either through a horizontal wind flow or through an inclined or vertically rising wind. The disadvantage of this sifter is that irregularly shaped particles of the goods to be sifted due to their free mobility within the wind stream can present different surfaces to the wind, so that z. B. with flat particles the wind resistance becomes large when the largest area is transverse and small when the smallest area is placed transversely to the wind. The result is a relatively wide spread of a single particle when it is dropped several times or the separation areas of different particles are covered. With the so-called ascending separators, in which the goods to be classified are directed over a sieve surface positioned across the wind, part of the mobility of the goods is eliminated, but the behavior of the parts to be carried upwards, which are thus carried along in the wind current, also depends on the position in the wind different. Accordingly, separators are known which allow part of the goods to be classified, namely light goods, to be transported on a sieve surface, while the heavy parts to be separated are either not sucked in or fall from the suction surface during transport due to their different position in relation to the direction of gravity.

According to the invention, the sorting is effected by sucking on a horizontal or almost horizontal air-permeable separating surface that comes from above is placed under vacuum so that the good at the bottom of the horizontal Sieve surface is sucked in. In contrast to the known version, however in the execution according to the invention, the entire property initially by a strong Suction flow firmly sucked into the interface. Now the suction pressure is stepless or gradually reduced, so that first the difficult ones and then the easier ones Parts fall from the interface, which are then detected separately can.

With different strengths of the particles to be sucked in, the sighted are to be, however, sorting according to specific weight is not achievable, since the attached wind pressure is proportional to the area of the particles, the weight but proportional to the area multiplied by the thickness.

The invention now further consists in that the goods to be sifted first is classified on slot sieves according to thickness and each class for itself or brought side by side on a sorting device of the type according to the invention and is sighted. Since the wind effect is proportional to the area of the to be sighted Parts and with the same thickness the weight is also proportional to the area, if the specific weight is the same, the wind effect is independent on the area or the areal shape of the particle. So is there a good to be sifted the particle of equal thickness but uneven area and uneven specific Contains weight, the sorting device will sort the goods according to specific weight sort by. Such a sorting is z. B. desirable with seeds, in particular Beet seeds.

Regarding the state of the art, it should be noted here that there is already a method is known, in which the granular material is first classified according to size, whereupon the individual classes are placed on an air classifier with free movement of the grains will. In contrast, the inventive method consists in that one to Sorting goods divided into fractions of the same or approximately the same thickness and the fractions obtained in this way separately or side by side in a subsequent one Subjects to sighting with the new intake funnel and thereby fixed their position in relation to the wind holds. This has the great advantage over the older method, that with a high degree of perfection one can divide up the body according to specific Weight is given.

The device used to carry out the method according to the invention is illustrated in FIG . 1 to 3 explained in more detail. It shows F i g. 1 shows an embodiment of the device according to the invention schematically in side section, FIG. 2 shows a further embodiment, also schematically in side section, FIG. 3 shows a section along line II 'of FIG. 2. In the case of the in F i g. 1 , the material to be sorted, for example seeds, is placed on a sieve 1 at A. The grains that fall through the sieve and are sorted by thickness pass through the funnel 2 to the lower end of an upwardly inclined conveyor belt 3, which moves in the direction of arrow B and conveys the grains to a suction device. The suction device has the air-permeable belt 6 moving around the rollers 4 and 5 in the direction of the arrow C. The band expediently consists of a fine-meshed fabric, for example a fabric made of metal threads, or an anti-static plastic fabric or fleece. Above the belt 6 suction channels 7, 8, 9 and 10 are arranged, which are placed under negative pressure from a common suction space 11. The cross-sections of the suction channels 7, 8, 9 and 10 are of different sizes at the point of entry into the common suction space , namely they decrease in size from the suction channel 7, the cross-section of which is the largest, to the suction channel 10, the cross-section of which is the smallest . This has the consequence that the sowing effect of the suction channel 7 at the separating surface is stronger than that of the suction channel 8, this in turn stronger than that of the suction channel 9 and this in turn stronger than that of the suction channel 10.

All the grains to be sorted are brought by the conveyor belt 3 to the belt 6, and is sucked under the suction channel 7 to the tape. 6 When the belt is moved in the direction of arrow C , the grains gradually fall according to their ratio between weight and surface area in the direction of arrows D, E and F into collecting containers 12, 13 and 14. The specific lightest particles are in container 15 below the part of the belt that is no longer under suction pressure is deposited. If necessary, particularly tightly adhering small particles, e.g. B. dust particles are removed from the belt with the help of a counteracting air flow.

In the case of the FIGS. In the embodiment shown in FIGS. 2 and 3 , instead of the rotating belt, an air-permeable sieve rotating horizontally is used to suck in the grains to be sorted. The sieve is in the in F i g. 2 formed by an air-permeable material 16, which is stretched on a ring 25 , which is U-shaped in cross-section and runs on rollers 17. Of course, instead of the stretched material, a self-supporting air-permeable plate, e.g. Above the rotating sieve are the suction channels 18, 19, 20, 21, 22, 23 and 24, which draw their negative pressure either from a common suction space or individually at C The sow channels, in turn, are set in such a way that the sawi pressure exerted by them decreases from the sow channel 18 arranged above the conveyor belt to the sow channel 24 steadily Same as in the device shown in Fig. 1 The device shown in Figs. 2 and 3 has the advantage of being relatively compact over that shown in Fig. 1 Design and the sow channels that can be arranged more freely above the air-permeable sieves. A completely smooth running of the sieve can also be achieved with less effort than with a revolving belt.

Claims (2)

Claims: 1. Method for sorting grain. Seed or d21., Characterized in that the grains to be sorted are first divided by sieving into fractions of the same or approximately the same thickness, whereupon the fractions obtained in this way by sowing on a horizontal or almost horizontal surface and then gradually or gradually reducing the sowing pressure and thereby SUC-C C constricting guided discharge of the grains are subjected to a further separation by specific weight. 2. Vorrichtun- for the execution of the method according to claim 1, characterized in that a Siebeinrichtunc is connected downstream of a known sieve device (1, 2) for classifying the grains into fractions of approximately the same thickness, which consists of a conveying element (3) for the classified good. a progressively moving, approximately horizontal sieve (6, 16) that sucks in this material on its underside, a suction device (7 to 11, 18 to 24) which pressurizes the sieve with zones of different levels of vacuum, and ancye-arranged fraction storage containers under the zones below the sieve ( 12 is sawn to 14). 3. Device according to claim 2, characterized denotes overall., That the screen consists of an at rollers (4, 5) circulating endless air-permeable belt (6). 4. Apparatus according to claim 2, characterized in that the sieve consists of a horizontally rotating one. fine-meshed fabric (16) stretched on a ring. 5. Apparatus according to claims 2 to 4, characterized in that to achieve the negative pressure acting on the sieve (6, 16), several sowing channels (7 to 10, 18 to 24) which gradually decrease in their suction effect are in front of Cresehen . 6. Vorrichtuncy according to claim 5, characterized in that the Sauakanäle (7 to 10 ) open into a common suction space (11). 7. Apparatus according to claim 5, characterized in that the sow channels (7 to 10, 18 to 24) are each connected to a precisely controlled fan.