RU2148439C1 - Loose material separator - Google Patents

Abstract

FIELD: agriculture, civil engineering and chemical industry. SUBSTANCE: separator has staggered sieving devices positioned in vertical channel, deflectors arranged under them with clearance, loading appliance, and branch pipes of separated fraction outlet. Deflectors in the form of solid slide planks are positioned above sieving devices. Planks are provided with triangular holes directed along movement of material. Planks are secured in rollers in cantilever way, and rollers are fixed on collectors of sieving devices by means of brackets. Sieving devices are provided with mechanism for turning through a definite angle to horizon. EFFECT: enhanced efficiency. 3 cl, 3 dwg

Description

 The invention relates to the field of separation of bulk materials and can be used in agriculture for the purification of grain and products of its processing, flour and cereal, construction and chemical industries.

 A classifier of bulk materials is known, including a housing located in a housing in a zigzag pattern one below the other and at different angles to the horizontal, screening surfaces with wedge-shaped openings expanding from the loading end of the screening surface to the unloading, deflectors located under each screening surface, nozzles for removing various fractions loading device with unloading separating surfaces mounted above each screening surface with wedge-shaped openings s [A. N 1609516 A1, B 07 V 1/04, B.I. N 44, 1990].

 In the known device, sieves with wedge-shaped openings are used as sieving surfaces, expanding from the loading end of the sifting surface to the unloading one and to increase the efficiency of material separation along the length of the sifting surface, the classifier is equipped with unloading separating surfaces installed above each sifting surface with wedge-shaped openings. However, these dividing surfaces with wedge-shaped openings and the unloading dividing surfaces installed above them do not completely eliminate the clogging of the sieving and unloading-dividing surfaces.

 The closest in technical essence to the claimed device is a bulk material separator, including sifting surfaces installed in a zigzag manner in the vertical channel in the form of cantilevered fingers made concave and installed vertically overlapping, baffles, loading devices and output pipes of the separated fractions [a.c. N 2071389, B 07 V 1/04, B.I. N 1, 1997].

 To eliminate clogging of the separating device and increasing efficiency, the combs are used as screening devices in the separator, which have a concave shape, and the descent part (end) of the comb is directed to the middle part of the opposite comb at an acute angle.

 However, these improvements do not completely eliminate the clogging of the screening devices, since when cleaning grain material from large impurities, the grain material moves along the fingers of the combs and immediately falls onto the fingers of other combs and some large particles of the grain material are immediately stuck into the cracks between the fingers, jamming them. The same thing happens when the grain material from the loading device falls on the upper comb and immediately wedges the gaps between the fingers of the upper comb.

 In addition, when using a bulk material separator for cleaning various crops (wheat, barley, rye, oats, etc.), the separator does not clean efficiently, since all combs are rigidly fixed at a certain angle to the horizon, and particles of different crops have different physical mechanical properties, so they move along the fingers of the combs at different speeds and are sifted into the crevices of the combs with different probabilities. For example, when cleaning wheat from impurities, separation is most effective at a certain angle of inclination of the combs, while oats are different. Therefore, you need to quickly change the angle of inclination of the combs to the horizon when switching to processing from one culture to another.

 The problem to be solved in the present invention is, firstly, to eliminate the clogging of screening devices, and secondly, to increase the separation efficiency when cleaning grain materials of various crops.

 The technical result that can be obtained by implementing this invention is to increase the cleaning efficiency of various crops, as well as to increase the performance of these separators.

 The specified technical result is achieved in that in the separator of bulk materials, including sieving devices installed in a zigzag manner in the vertical channel, deflectors located under the latter with a gap, a loading device and outlet pipes for the separated fractions, according to the invention, reflectors in the form of continuous pitched boards are installed over the sieving devices they are cantileverly fixed in the roller, which, in turn, with the help of brackets are fixed on the collectors of the screening devices. In continuous pitched boards there are triangular indentations that are directed along the direction of movement of the material. In addition, the screening devices are equipped with a rotation mechanism at a certain angle to the horizon.

 Comparison of the claimed device with the prototype shows that the installation of reflectors over sifting devices (combs) in the form of continuous pitched boards that are cantileverly mounted in the roller and the roller is rigidly fixed using a bracket with a collector is new. In continuous pitched boards there are triangular indentations that are directed along the direction of movement of the material. In addition, the fingers of the combs are cantilevered to the collector and are cylindrical tubes that are pivotally connected to a vertical channel (housing), and the collectors are equipped with a mechanism for turning the combs.

 The installation of reflectors over sifting devices (combs) in the form of continuous pitched boards (solid steel sheets) with triangular recesses that are directed along the direction of movement of the material, are cantileverly fixed to the roller, and the roller is rigidly fixed with a bracket with a collector, eliminating clogging of the sieving devices . Since large particles of grain material, which, immediately falling from a loading device or higher located sieving device on the downstream sieving device, clog the gaps between the fingers of the combs. And in this case, the particles of the grain material do not first fall on the screening device, but on the reflector - a continuous sloping board, that is, they do not clog the screening device on which the grain material, firstly, changes the direction of movement, are oriented relative to the plane and direction of movement of the material due to the recesses of a triangular shape, which are directed along the direction of movement of the material of the sieving device. That is, particles of elongated shape when moving along a pitched board are arranged along the long axis along the pitched board and along the direction of movement of the material. In addition, when the grain material moves along the ramp, redistribution of the grain material particles in the layer occurs, that is, smaller and denser particles fall into the lower layers of the material, and larger and less dense particles rise when moving into the upper layers of the grain material. This allows you to more effectively separate the grain material into fractions. Since the already redistributed grain layer is fed to a screening device, in which the smaller passage particles are located in the lower layer of the grain material and the particles of the material are oriented, therefore, the likelihood of the combs passing through the finger gap increases.

 To increase the efficiency of the process of separating grain of various crops in a screening device, the fingers of the combs are fixedly fixed in the collector, which is a cylindrical tube that is pivotally connected to the vertical channel of the separator body, and there is a mechanism for turning the collector (combs).

 When processing is transferred from one culture to another using the mechanism of rotation of the combs, it is possible to establish the optimal angle of the combs to the horizon at which the processing efficiency is greatest.

 Thus, based on the foregoing, the claimed technical solution meets the condition of the invention of "novelty."

 The device meets the condition of "inventive step", since a result has been achieved that satisfies the existing need, attempts to obtain which have so far not been successful by specialists, namely, to ensure unbreakability of screening devices, namely, the gaps between the fingers of the combs and to increase its efficiency.

 The implementation of the separating device in the form of a comb with a reflector located above it - a continuous sloping board with triangular recesses along the direction of movement of the material, and a comb rotation mechanism for setting a certain angle of inclination to the horizon provides the complex with high efficiency of the separator for cleaning grain from various crops from small impurities and performance when cleaning from large impurities.

 The invention is illustrated by drawings, where in FIG. 1 shows a longitudinal section through a separator; in FIG. 2 - reflectors - continuous pitched boards with combs; in FIG. 3 - reflectors - continuous pitched boards together with combs, top view with a comb rotation mechanism; in FIG. 4 - reflectors - continuous pitched boards in a section.

 The separator of bulk materials contains a loading device 1, mounted zigzag screening devices 2 and reflectors placed above them - continuous pitched boards 3, deflectors 4, as well as branch pipes for output of the separated fractions - passage (small) 5 and gathering (large) 6.

 The sifting devices 2 are made in the form of combs, which are cantilever mounted on the collector 7 fingers 8 of a concave shape and the reflectors located above them - continuous pitched boards 3, which are cantilevered in the rollers 9, and they are mounted on collectors 7 using brackets 10. the combs at a certain angle to the horizon, the screening devices are equipped with a rotation mechanism 11. In the reflectors - continuous pitched boards there are recesses 12, directed along the direction of movement of the material.

 The work of the separator is as follows. The initial grain material supplied to the loading device 1, under the action of gravitational forces moves down and falls on the reflector - a continuous pitched board 3. Particles of grain material roll down on the reflector - a continuous pitched board. As you move along the reflector - a continuous pitched board 3, the particles are redistributed in the layer of grain material, are oriented along the long axis in the direction of movement due to the recesses in the reflector, and are fed to the first screening device 2 (comb). The gap between the fingers 8 of the comb 2 is selected sufficient so that the small particles to be separated have the opportunity to pass between the fingers 8, and other larger ones could not. As a result of the movement from the ramp board 3 and the movement of the material along the comb 2, a part of the passage fraction is extracted and falls onto the deflector 4, descends along it into the pipe 5 of the output of the passage fraction from the separator, and the rest of the material comes down along the comb 2 to the second opposite installed pitched board 3. The separation process continues when the grain material from the pitched board 3 gets on the second comb 2 similarly to the first, then on the third pitched board 3 and comb 2 and so on to the last. The number of combs 2 and pitched boards 3 installed in the separator is determined by the required completeness of separation of the passage fraction. The waste fraction is removed from the separator by a pipe 6.

 When switching to the processing of another grain crop, the established optimal angle of inclination of the combs 2 to the horizon is changed using the mechanism of rotation of the combs 11.

 The use of the proposed separator of bulk materials will increase by 20% the efficiency of cleaning various crops and eliminate clogging of screening devices.

 The invention is industrially applicable, as it can be used in agriculture when cleaning grain of various crops.

Claims (3)

 1. A separator of bulk materials, including sieving devices installed in a zigzag manner in a vertical channel, deflectors located under the latter with a gap, a loading device and output pipes for separated fractions, characterized in that reflectors are installed above the sieving devices in the form of continuous pitched boards that are cantileverly fixed to the rollers , which, in turn, with the help of brackets are fixed on the collectors of screening devices.  2. The separator according to claim 1, characterized in that the reflectors in the form of continuous pitched boards have triangular indentations that are directed along the direction of movement of the material.  3. The separator according to claim 1, characterized in that the screening device is equipped with a rotation mechanism at a certain angle to the horizon.

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