PL19908B1 - A grain sheller, especially for sunflower seeds, separating the grains from the husks. - Google Patents

Description

Peeling of sunflower seeds is aimed, on the one hand, at removing the husk, and on the other hand, at separating them from whole grains, broken grains and flour formed during crushing grains. Nowadays, millstones are used for this purpose, but the grains are first sorted; at the end of the working process, the husks are separated from the grains by a supply of compressed air which strikes a series of such exfoliating devices in the form of wind. Likewise exfoliation and the separation of the husks from the grains also in dairies; however, this separation has never been sufficient and complete. In the herb extractor, especially the sunflower extractor, which is used according to the invention to separate the grains from the husk, all these operations are carried out as precisely as possible in one single machine. The invention takes up three to four times less space than known devices, and the exfoliation takes place in a drum, which is provided on its internal surface with ribs or made of corrugated material, as a result of which the grains are hardly subject to any deterioration. As grains of various sizes and varying degrees of dryness are introduced into the sheller, and during processing, some grains are broken, so it would be very difficult to separate the slug from the product if the machine was not Jbyla, equipped with a series of sieves through which the material passes. and from which the shells are carried away not under the action of the previously used compressed air, but under the influence of the suction air current, which it allows for a very precise separation of whole grains from hulls and from broken grains and the resulting flour. According to the present invention, the shellfish is provided with means for fine-tuning the intensity of its operation, namely by varying the length and cross-sectional size of the suction channels. The operation of the air current can be regulated in such a way that even the smallest scales are removed, so that the grains are not entrained with the husk. The figure shows an example of the object of the invention in the form of a schematic longitudinal section of the sheller. The sunflower seeds are led to funnel A of the sheller, where it is gripped by the feed roller B, separating them and guiding them evenly over the entire width of the funnel A to the drum dairy, consisting of a flail device C and a drum D. The regulating roller S, placed in parallel to feed roller B, but mounted off center; this roller can be moved or farther away from the feed roller by means of a manual lever from the canopy, thus creating a narrower or wider borehole. The material introduced into the milk drum is thrown away by the rapidly rotating device on the corrugated or ribbed inner surface of the drum and then spout. The ejected product together with the lupines is rejected by the cover of the preliminary chamber E, in which both the product and the husks lose their speed and fall onto the first slope of the shock sieve F. The sieve F is provided with holes of an appropriate size, through which whole grains, broken grains and flour, as well as smaller hulls, pass through, with this material falling on the second slope of the H shock sieve below. Non-dusted grains and large hulls move further along the first sieve F towards its end, which is located at the inlet end of the first suction pipe G- Air, sucked in through this pipe, carries away the husks, while the peeled and uncoated grains fall on the second, previously mentioned H-sieve, on which it joins the material, leading to end of the sieve. The H screen has correspondingly smaller openings through which poppy seeds and broken grains falling from the first screen F pass. Through the H screen, the material passes to the surface W without holes underneath it and is collected in the transverse chute L, from which it is removed. Niety / The material that got to the end of the second sieve, after passing through the first sieve, along with the material falling from the first sieve, slides along the H sieve to the second suction tube /. In this last one, a weaker stream of sucked air flows, which entrains the smaller husk passing through the first screen, while the heavier product, broken and uncoaled grains fall onto the third screen K. The third inclined shock screen K has holes. through which pass, apart from the ungrained grains, all other products that fall on the surface below and enter the trough K, from which the third side suction pipe O removes the scales still present in the products. On the other hand, the non-oily grains pass through the third K sieve and are collected in the N chute, from where they are used again for extraction. , / and O, of which the first two can be particularly precisely regulated. Both cables, which occupy the entire width of the shredder and have a rectangular cross-section, are directed downwards side by side, with a wall between these cables there is a damper X, movable on the axis a, which may take positions 1, 2 and 3. Then above the second suction tube / or next to it is the suction chamber P. In the partition between the tube / and chamber P there is a second flap Y, movable on the axis b, which may occupy positions 4 and 5. At the lowest point of the suction chamber P there is a control flap R, which usually opens under the weight of the material pressing on it, which signals the entrainment of the tooth This heavy material and indicates that the hanger should be adjusted more precisely - The position of the damper Y can be observed through the window T. The intensity of the suction air stream can be adjusted in the example shown as follows. niu /, and the flaps Y in position 4, the suction air stream flows along the path indicated by arrows 6, 7, V; with the flap X in position 2 and the flap Y in position 4, the path of the air stream will be 6, 8, 9, V; with the flap X in position 2 and the flap Y in position 5, the path of the air stream will be 6, 8, 10, 11, 9, V; with the flap X in position 1 and the flap Y in position 4, the air flow path will be 12, 8, 9, V; with the flap Y in position 5, the path of the air stream is 12, 8, 10, 11, 9, V; with the flap X in position 3, and with the flap Y in position 4, the path of the air stream will be 12, 7, V. When the suction air stream flows through the suction chamber P with a very large cross-section, it always reduces its speed in it by which possibly entrained material settles at the bottom of this chamber and falls on the flap R, which indicates the need to re-regulate the air stream. PL

Claims (5)

Patent claims. 1. A shellfish, especially sunflower seed, separating the grains from the husks, characterized by the fact that the eggs are removed by suction through pipes (G, I, 0) connected to a suction fan (V). 2. Moulder according to claims 1, the significant point is that the suction pipes for the discharge of scales are provided with flaps (XY) to change the air flow cross-section, to regulate the air current speed and change the length of the air flow path. 3. Moulder according to claims 3, the significant aspect is that the suction conduits are connected to an adjacent side chamber (P) through which the intake air current can be directed. 4. Moulder according to claims 3, the significant area that in the partition separating the adjoining suction pipes (G, I), or the intake pipe (I) and the side chamber (P), there are openings in which flaps (XY) to allow the total or partial directing of the air current from one conduit to the other, or from conduit (I) to the side chamber (P). 5. Moulder according to claims 4, the significant point is that the side chamber (P) has a larger air flow cross-section than that of the suction tube, as a result of which the heavier material falls above it, while in its lower part the chamber is provided with a flap (R) which opens automatically under the pressure of the material accumulating on it, which indicates the incorrect positioning of the flaps in the suction lines. - 3 - 6. Moulder according to claims 1, the significant area that from each of the screens (F, H, K) separate suction lines (O, G, 1) A, provided with a device for regulating the air current therein. 7. Sheller according to claims 1, characterized in that the inner surface of the exfoliating drum (D) is provided with long ribs or has an undulating shape. 8. Moulder according to claims 1, a significant area that is provided with a cylinder (SJ, eccentrically positioned and parallel to the feed roller (BJ, which regulates the amount of material fed. Lazar B otvini c. Deputy: Inz. J. Wyganowski, and Patent file. To the patent description No. 19908. Print by L. Boguslawski and Ski, Warsaw, PL