RU159398U1 - UNIVERSAL LABORATORY PNEUMOSEPARATOR - Google Patents

Abstract

A universal laboratory pneumatic separator, including a housing with a cylindrical suction channel, a loading tray for supplying source material, trays for removing purified material and waste, a fan with an adjustable air flow rate, a transition channel connecting the suction channel to the sedimentation chamber, characterized in that, for the purpose of to improve the quality of sorting various seeds for breeding purposes, a plate curved along a helix is located inside the suction channel, the distance between the turns of a cat swarm is regulated by a screw device.

Description

The utility model relates to agricultural machinery, in particular to equipment designed for cleaning and sorting seeds of various crops for breeding purposes.

The criterion for the separation of the components of the grain mixture by aerodynamic properties is the speed of movement, i.e. the relative speed of the air flow at which the body placed the vertical air flow is in equilibrium. Using the difference in the speed of soaking of the composite particles of the grain mixture, it is possible to isolate the sex, pieces of straw, punctured and beaten seeds, and many seeds of weeds from the main culture.

In the selection, various machines are used for post-harvest processing and pre-sowing preparation of breeding seeds. Since different seeds have different parameters, the speed of their wandering will also be different [1]. Therefore, to separate the seeds in the laboratory, one separator with an adjustable air velocity in the working chamber is required. The initial heap of individual batches of seeds for breeding purposes, as a rule, is slightly littered with weed seeds, and needs to be cleaned only of light impurities. This operation is performed by air separators with adjustable air flow [2].

Known pneumatic classifier by.with. No. 882659 [3] for the classification and dedusting of bulk materials in suspension, comprising a housing, inclined perforated shelves installed in cascade, each cascade is made in the form of two parts of a screw surface mounted at an angle to each other symmetrically relative to the vertical axis, nozzles for supply and removal of material and air.

The disadvantage of this device is the lack of devices for adjusting the air flow necessary for sorting the material of various fractional states.

Closest to the technical nature (prototype) is an air separator for AS No. 1268212 [4], including a vertical shaft with a coaxially mounted material inlet pipe, upper and lower pipes, respectively, for outputting small and large fractions, rhombic filling elements, successively mounted one above the other along the vertical axis of the shaft and having perforated surfaces facing the side of the material inlet pipe, an air duct with windows for supplying air into the internal cavities of the rhombic bulk elements. To increase the productivity and quality of separation of the mixtures due to their uniform distribution on the perforated surfaces of all rhombic filling elements, the material inlet pipe is in communication with the internal cavity of the upper rhombic filling element, except for the lower one, in the lower part it is made with discharge slots located on both sides of the duct, and in all rhombic filling elements, except for the upper and lower, loading slots are made, located under the unloading slots of the overlying rhombic x bulk items.

The walls of the vertical shaft are zigzag in shape, made flexible and mounted with the possibility of fixed movement in the horizontal direction. The air duct is equipped with adjustable gates installed in the windows for supplying air into the internal cavities of the rhombic elements. Rhombic elements are equipped with regulators of the width of the discharge slots.

The disadvantage of this device is the design complexity, including an air duct with windows for supplying air to the internal cavities of the rhombic bulk elements, the material inlet pipe is in communication with the internal cavity of the upper rhombic bulk element, except for the lower one, with discharge slots located on both sides of the duct, in the lower part and in all rhombic bulk elements, except for the upper and lower, loading slots are made, located under the unloading slots of the overlying rhombic scattering elements. The air duct is equipped with adjustable gates installed in the windows for supplying air into the internal cavities of the rhombic elements. These structural elements make it difficult to clean the internal working cavity of the device after cleaning each batch of seeds, which is extremely necessary when working with breeding material to avoid mixing varieties.

The purpose of the utility model is to improve the quality of sorting various seeds for breeding purposes.

This goal is achieved by the fact that in the proposed air laboratory universal pneumatic separator, the initial selection seed heap from the loading tray enters the vertical cylindrical suction channel, made in the form of a cyclone, inside of which there is a plate curved along a helical line, which serves as the bulk transfer shelves and gives the material rotational movement along a helical surface. To control the speed and direction of the air flow inside the suction channel, a screw device is used, with which the distance between the turns of the plate changes (depending on the material being cleaned and its condition), thereby changing both the value of the speed of the air flow and the angle of inclination of the screw plates, along which the material being cleaned moves. At the same time, the path of the passage of material inside the suction channel is lengthened, which increases the exposure time of the air flow to the heap being cleaned and contributes to better cleaning.

A comparative analysis of the claimed utility model with the prototype allows us to conclude that the inventive device differs from the known one in that the overflow shelves in the form of a plate made along a helical line contribute to the movement of the material being cleaned along the helical line, which leads to a more active effect of the air flow on the cleaned material. Thus, the claimed technical solution meets the criteria of patentability NOVELTY.

The claimed technical solution meets the patentability criterion INDUSTRIAL APPLICABILITY, because it can be used in the field of agriculture, in particular for cleaning and sorting seeds for breeding purposes.

The figure shows the main structural elements of the proposed universal laboratory pneumatic separator and the technological scheme of its work.

A universal laboratory pneumatic separator includes a housing 1 with a cylindrical aspiration channel 2, inside of which there is a plate 3, curved along a helical line and playing the role of overflow shelves, a protective glass 4, a loading tray 5 for supplying the source material, trays for removing the purified material 6 and waste 7. To remove the air created by the fan 9 (suction type with an adjustable air flow rate, not shown in the figure) from the suction channel 2 into the sedimentation chamber 8 there is a transition channel 10. The top the end end of the screw plate 3 is pivotally, using the rod 11, attached to the housing 1, and the lower is also pivotally to the screw mechanism 12.

The technological process of the universal laboratory pneumatic separator is as follows. A pile of seeds obtained from breeding plots is poured into the loading tray 5, from where it under its own weight enters the suction channel 2 and, moving down the screw plates, is exposed to air flow, which blows lighter particles and empty seeds through the transition channel 10 into sedimentation chamber 8, where they are lowered into the waste tray 7. Seeds of the main fraction with the highest specific gravity fall into the receiving tray 6 of the mine. Adjusting the air flow in the chambers allows you to adapt to seed material with various characteristics. The protective glass on the front panel of the separation device allows you to observe and regulate the process of separation of the heap into fractions, changing the fan rotation speed and the distance between the turns of the plate 3. Before cleaning a new batch of seeds (to avoid mixing varieties), the heap residues are completely removed from the previous batch.

Information sources

1. Epifanov A.A. Cleaning and drying seeds. - Yaroslavl: Upper Volga Book Publishing House, 1968. - 198 p.

2. Malis A.Ya., Demidov A.R. Machines for cleaning grain by air flow - M .: MASHGIZ, 1962. - 176 p.

3. A.S. USSR №882659 IPC ⁵ B07B 4/08 publ. 11/23/1981

4. A.S. USSR No. 1268212 IPC ⁵ B07B 4/02, B07B 4/08, publ. 11/07/1986

Claims (1)

A universal laboratory pneumatic separator, including a housing with a cylindrical suction channel, a loading tray for supplying source material, trays for removing purified material and waste, a fan with an adjustable air flow rate, a transition channel connecting the suction channel to the sedimentation chamber, characterized in that, for the purpose of to improve the quality of sorting of various seeds for breeding purposes, a plate curved along a helix is located inside the suction channel, the distance between the turns of a cat swarm is regulated by a screw device.

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