SU1147268A1 - Rotary separator of root vegetable harvester - Google Patents

Abstract

1. ROTATIONAL SEPARATOR OF THE CORE-MECHANICAL MACHINE, containing parallel shafts with hinged blades located on them, with elastic blades and forming payeral sections, which is designed to increase productivity and reduce the damage to the roots of the fruit and vegetables, which each blade has, which is set by the horn, which is set by the horn. a gap in the plane of their rotation and decreasing in height in the direction opposite to the direction of rotation of the nayler sections. 2. Separator according to claim 1, characterized in that the plates of the blades of the piler sections but in the direction of mass movement are gradually decreasing. cross section . 3. Separator according to claim 1, characterized in that the blades of the payler sections, in the direction of mass movement, have a moderate number of plates. 4. Separator but np. 1-3, characterized by the fact that, in order to reduce damage (L root crops, the plates are covered with an elastic material.

Description

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Oi 00 n Fig The invention relates to an agricultural machinery industry, in particular, to devices for separating soil and impurities from root and tuber crops. A device for cleaning sugar beet roots from the soil is known, containing its parallel shafts with cams installed with overlap I. However, the known device is metal-consuming and causes great damage to the product being removed by metal (not covered with an elastic material) cams. A rotary separator is known, consisting of an inclined frame with shafts mounted on it, on which shetilopyl rubber sprockets 2 are fixed. The disadvantage of this separator is the low reliability of elements operating in the soil due to the low strength of rubber for bending, shearing and abrasion. The purpose of the invention is to increase productivity and reduce the damage to root and root crops. The goal is achieved by that; that in a rotary separator of a root-harvesting machine, containing parallel shafts with bladed discs located on them, having elastic blades and forming payler sections, each of the pileler sections has elastic plates located with a gap in the plane of their rotation and decreasing in height in the direction opposite to rotation piler sections. The plates of the blades of the payler sections in the direction of motion of the mass have a gradually decreasing cross section. The blades of the piler sections in the direction of the mass movement have a decreasing number of plates. Plate blades payler sections shzhryty elastic material. Pa figs. 1 shows a rotary separato). side view; in fig. 2 - the same, top view; in fig. 3 - blade disc, side view; in fig. 4 - the same, top view. The rotary separator consists of an inclined frame 1, bladed discs 2 fixed on Baviax 3, forming payler sections. Each blade of the disk 2 consists of several elastic plates 4 of spring steel, covered with elastic elements 5 in such a way that the length of the elastic tube is greater than the length of the plate. In addition, the rigidity of the blades in the payler sections decreases as the process progresses, and the walls of the elastic elements increase in thickness, which makes it possible to reduce the damageability of harvested roots and tubers. The rotary separator works in the following way, the Undermined | flipper of the soil is fed to the disks 2 fixed on the shafts 3 of the first section, partially loosened and transferred to the following sections. When working on light soils, only the first blade plate works. Under more severe conditions of operation, the first plate of the blade bends, abuts against the second, and they begin to work as one. The connection of the second and third plates is possible both when working on soils of different thickness, and on light sandy and sandy sandy soils during the rut (if in the soil there are more soils that are more physical in composition or stones). Due to the elasticity of the blade (with increasing load on it), the separator operates more smoothly and smoothly. The blade deflection changes its geometry, which causes a change in the direction of the resulting force applied to the reservoir and the flight path of the soil lumps. The angle of throwing (the angle between the tangent to the trajectory and the profile of the bottom of the furrow) in this case increases and soil lumps are tossed higher, as a result of which their destructibility increases. A reduction in stiffness and an increase in the elasticity of the blades along the course of the technological process makes it possible to reduce the damageability of the product being harvested.

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Claims (4)

i. Rotary separator of the root harvesting machine, containing parallel shafts with paddle disks located thereon having elastic blades and forming the pipe sections, characterized in that, in order to increase productivity and reduce damage to root crops, each blade of the pipe sections has elastic plates, a gap in the plane of their rotation and decreasing in height in the direction opposite to the direction of rotation of the pipler sections. 2. The separator by π. 1, characterized in that the plates of the blades of the pyler sections in the direction of movement of the mass have a gradually decreasing cross section. 3. The separator according to claim 1, characterized in that the blades of the pipe sections in the direction of mass movement have a decreasing number of plates. 4. The separator according to paragraphs. 1-3, characterized in that, in order to reduce damage to root crops, the plates are covered with elastic material.