RU2204234C2 - Root separating apparatus - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: apparatus has rod-type elevator web running around spring-loaded roller, driven eccentrically arranged sprockets made in the form of toothed gears, and eccentric hubs, which are interconnected so that eccentricity may be varied. Toothed gears are connected to eccentric hubs through torsion springy members. EFFECT: improved quality of cleaning and reduced damage to roots. 2 cl, 3 dwg

Description

 The invention relates to agricultural machinery, in particular to the working bodies of diggers and combines for harvesting root crops, for separating soil impurities.

 A device for separating potatoes on potato harvesters containing a bar elevator with leading and driven sprockets and an active shaker in the form of a two-shouldered lever with rollers at the ends [1]. However, this device requires an additional drive with a drive rod to transmit oscillations to the lever with rollers, so it is not possible to use it on small-sized equipment.

 In addition, the disadvantage is the constant amplitude of shaking the upper branch of the elevator bed with leading eccentric sprockets and swing frames with rollers, which can not only destroy the formation, but also cause damage to the potatoes.

 The closest in technical essence is a device for the separation of corpusculen fruit containing a bar elevator with eccentrically mounted prefabricated drive sprockets in the form of gear rims and eccentric hubs, interconnected with the possibility of relative rotation, and a spring-loaded roller [2]. A disadvantage of the known device is the impossibility of self-regulation of operating modes depending on the amount of incoming mass, which leads to damage to root crops and lower productivity of the harvester, because To rotate the ring gear relative to the hub, you must stop the machine, disassemble and reassemble the device manually.

 The problem to which the invention is directed, is to improve the quality of cleaning and reduce the amount of damage during operation of root harvesters.

 The technical result from the use of the invention is to increase the operational productivity of the root harvester due to the stabilization of the technological process and the load on the working bodies, to reduce damage to harvested root crops due to the automatic control of the amplitude of shaking depending on the amount of mass of the separated heap at the elevator, to reduce the cost of post-harvest refinement products due to better purification from impurities.

 The specified technical result is achieved by the fact that in the device for the separation of root crops containing a bar elevator blade, enveloping the spring-loaded roller, driven and eccentrically mounted prefabricated drive sprockets in the form of gear rims and eccentric hubs, interconnected with the possibility of changing eccentricity during relative rotation, gear rims connected to eccentric hubs by means of torsion spring elements. Moreover, the spring elements in the proposed embodiment are made in the form of spiral springs.

 In FIG. 1 shows a device for the separation of root crops, side view; in FIG. 2 - section of the drive sprocket along the axis of the shaft; figure 3 is a leading sprocket, side view.

 The device contains a bar elevator blade 1, which bends around driven sprockets 2, a spring-loaded roller 3 and eccentrically mounted prefabricated drive sprockets in the form of gear rims 4 mounted on eccentric hubs 5, the latter are mounted on the shaft 6. The gear rims 4 are connected to the hubs 5 by means of spring elements 7. From the axial displacement, the crown 4 is held on the hub 5 by the stopper 8, and the torque is transmitted from the shaft 6 to the sprockets using the keys 9.

 A device for the separation of root crops works as follows. At the initial moment, there is no separated heap on the elevator canvas 1 and the spring elements 7 are not twisted, the crowns 4 occupy the initial position relative to the hubs 5, which corresponds to the minimum eccentricity value. As the separated pile of root crops arrives on the elevator blade 1, the load through the crowns 4 is transferred to the spring elements 7, which are deformed (twisted), changing the amount of eccentricity. When the shaft 6 is rotated, the rod web 1 receives periodic tension and lateral vibrations due to the tension roller 3 and the leading eccentric sprockets. The amplitude of vibrations of the blade 1 depends on the magnitude of the eccentricity. As the mass of the supplied heap on the canvas 1 increases, the eccentricity value increases, which leads to an increase in the separation intensity, since the amplitude of the oscillations increases.

 Oscillations of the elevator blade lead to the tossing up of the components of the heap and decrease of its pressure on the blade 1, as a result of which the spring elements 7 sharply unwind, impart longitudinal movement to the blade, while the pile is pulled apart to improve the screening of impurities. When the components of the heap are lowered onto the canvas 1, under their pressure, the spring elements 7 are again twisted. Since the intake and separation of the formation on the elevator canvas 1 is not constant, the sifting ability of the heap components depends on their physical and mechanical properties, when the device is in operation, the magnitude of the eccentricity of the leading sprockets periodically changes, the spring elements 7 begin to work in self-oscillation mode, which leads to oscillations of the canvas in longitudinal and transverse directions, destroying internal bonds in a heap.

 As the load on the blade 1 decreases, the relative position of the crowns 4 and hubs 5 automatically changes, while the eccentricity decreases, the peeled root crops are not thrown at the elevator, therefore, their damage is reduced.

Sources of information
1. Petrov G.D. Potato harvesting machines. M.: Mechanical Engineering, 1984, p. 109, Fig. 61.

 2. Patent of the Russian Federation 2021660, cl. A 01 D 17/08, 1994.

Claims (2)

 1. A device for the separation of root crops, containing a bar elevator web, enveloping a spring-loaded roller, driven and eccentrically mounted prefabricated drive sprockets in the form of gear rims and eccentric hubs, interconnected to change the eccentricity during relative rotation, characterized in that the gear rims are connected with eccentric hubs by means of torsion spring elements.  2. The device according to claim 1, characterized in that the spring elements are made in the form of spiral springs.

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