RU2617132C1 - Sieve pan of grain-cleaning machine - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: sieve pan of a grain-cleaning machine contains the power supply, the multi-tiered sieves unit including sieves installed one above the other with a longitudinal displacement, the sieve unit contains basic sieves with equal holes, solid stores, perforated stores. Each sieve in the unit consists of a perforated store, a main sieve, a solid store and a sieve with the hole sizes smaller than those of the main sieve, and greater than those of the perforated store. The length of the lower perforated stores of the lower sieves is more than the length of the upper perforated stores of the upper sieves. The solid stores of the multi-tiered sieves unit are arranged stepwise so that the lower store beginning is arranged under the upper store end.

EFFECT: increased cleaning efficiency.

1 dwg

Description

The present invention relates to techniques for cleaning and sorting grain seeds at the post-harvest processing of grain crops.

A sieve mill of a seed cleaning machine is known (see SU No. 1489850, B07B 1/12, 06/30/1989), which includes a multi-tiered block of sieves, each of which has clamping sheets in its discharge part.

The disadvantages of the known device include the fact that the clamping cloth compacts the moving grain layer, so the probability of seeds passing through the openings of the sieve is low. In addition, the pressing cloths make the sieve mill heavier and practically exclude the cleaning of the sieve openings from seeds or impurities stuck in them.

Closest to the proposed invention is a sieve mill of a seed cleaning machine (see SU No. 1447423, B07B 1/12, 12/30/1988), including a feeding device, a multi-tier block of sieves containing upper continuous transport boards, sieves with identical openings, perforated transport boards, located in front of the lower sieves, mounted in steps towards the discharge end, and fraction dividers located under the sieves. The device is equipped with additional continuous transport boards, while part of the lower sieves is installed with a stepped gap relative to the corresponding perforated boards directed towards the discharge side.

A disadvantage of the known sieve mill seed cleaning machine is not sufficiently high cleaning efficiency.

The technical result of the claimed invention is to increase the cleaning efficiency of the grain cleaning machine.

The technical result of the invention is achieved due to the fact that in the well-known sieve mill of a grain cleaning machine containing a feeding device, a multi-tier sieve block including one sieve installed one below the other with longitudinal displacement, the sieve block contains main sieves with the same openings, continuous drives, perforated drives, according to According to the invention, each block sieve consists of a sequentially perforated drive, a main sieve, a continuous drive and a sieve with openings shorter than the main sieve and larger than the perforated drive, the length of the lower perforated drives of the lower sieves is greater than the length of the upper perforated drives of the upper sieves, while the continuous drives of the multi-tier block of sieves are located in steps so that the beginning of the lower drive is located under the end of the upper drive.

A distinctive feature of the claimed invention is a new form of execution of the main structural element of the sieve mill of the grain cleaning machine, namely a multi-tier block of sieves, consisting of sequentially installed perforated drive, the main sieve, a solid drive and a sieve with hole sizes smaller than the main sieve, but larger than perforated drive. The length of the lower perforated drives is greater than the length of the upper perforated drives. This allows small particles that did not have time to sift through the upper perforated drive to pass through the holes of the main first sieve and get to the perforated drive of the second sieve, thereby guaranteeing the sieving of small particles through the perforated drives and their ingress of small and short impurities. Since the main grain has a low intensity of sifting through the holes of the perforated drives, they move along it and fall on the main sieve. Here they are sifted through the multi-tier block of the main sieves and fall into the receiver of pure grain. The installation of continuous drives on the pre-final sections of the sieves allows one to form a layer of grain material of a certain thickness on subsequent sieves with hole sizes smaller than those of the main sieves, but larger than those of perforated drives. This makes it possible to increase the efficiency of separation of long impurities, since particles of a long impurity, passing through the holes of the last final sieves, fall not on the plane of the lower sieve, but on the layer of grain material on a continuous storage ring and are oriented along the plane of the final sieves with a long axis. Therefore, the probability of their sifting through the sieve increases, thereby increasing the efficiency of the selection of long impurities. The length of the continuous sieve collectors forms at least one layer of grain material on the sieve. Solid drives are installed in such a way that each subsequent drive of a multi-tiered block sieve starts from the end of the previous solid drive.

Thus, the distinguishing features of the claimed invention, together with the known features, provide the achievement of the technical result indicated in the invention.

The invention is illustrated in the drawing, which schematically shows a sieve mill of a grain cleaning machine.

The sieve mill of the grain cleaning machine contains a feeding device 1. The sieve mill body 2 is attached to the frame by means of suspensions 3 and is equipped with an oscillating mechanism 4. In the sieve mill body 2 there is a multi-tiered sieve block with longitudinal displacement of the sieves. Each sieve of the block consists of a sequentially perforated drive 5, a main sieve 6, a continuous drive 7 and a sieve 8 with openings smaller than the main sieves 6 and larger than the perforated drives 5. The receivers of fractions 9, 10, are installed under the sieves 11. The length of the lower perforated drives of the lower sieves is greater than the length of the upper perforated drives of the upper sieves. Therefore, the length of the sieves of the block increases towards the discharge end. The continuous drives 7 of the multi-tiered block sieve are arranged in steps so that the beginning of the lower drive 7 of the lower sieve is located under the end of the upper drive 7 of the upper sieve.

The proposed sieve mill grain cleaning machine operates as follows.

The source grain material is fed by a feeding device 1 to a perforated drive 5 of the upper first sieve. When the housing 2 is oscillated by means of the oscillation mechanism 4, the fine grain material is sifted through the holes of the perforated drive 5 of the upper sieve and falls on the perforated drive of the second sieve. Those small particles that did not have time to sift through the perforated drive 5, advance to the main sieve 6 of the first sieve. Sifting through the holes of the main sieve 6 of the first sieve, they fall on the perforated drive 5 of the second sieve, since the multi-tiered block of sieves is located with a longitudinal offset and the length of the lower drives 5 is greater than the length of the upper drives 5. These particles are sifted through the perforated drives 5 of the sieve and get into receiver 9 small and short impurities. The main grain has a low intensity of sifting through the holes of the perforated drives 5, so they move along it and fall on the main sieve 6 of the first sieve. Here they are sifted to the next main sieve of the block and so on and fall into the receiver 10 of pure grain. Long particles of grain material have a lower intensity of sifting through the main sieves 6, therefore, they move along the main sieves 6 and accumulate on solid drives 7, then they are shifted by a layer on the sieve 8 with smaller openings than the main sieves, but larger than perforated drives. The presence of a layer of grain material on the sieve 8 contributes to a more intensive allocation of long impurities. From the upstream sieve 8, particles of long impurities do not arrive at the downstream sieve 8, but onto the layer of grain material, where long particles are oriented along the sieve plane, the probability of sifting increases and the efficiency of separation of long impurities increases. Having passed through the cascade of sieves 8, long impurities are sieved in the final sections of the lower tier of the sieves, falling into the receiver 11.

Claims (1)

The sieve mill of a grain cleaning machine containing a feeding device, a multi-tiered sieve block, including sieves mounted one below the other with a longitudinal displacement, the sieve block contains main sieves with the same openings, continuous drives, perforated drives, characterized in that each sieve of the block consists of installed sequentially perforated drive, main sieve, solid drive and sieve with hole sizes smaller than that of the main sieve and larger than perforated holes rer, the length of the lower storage perforated bottom sieve greater than the length of the upper storage perforated upper sieve, the continuous multi-stage unit drives sieves are staggered so that the beginning of the lower drive is located under the upper end of the accumulator.

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