RU214960U1 - SOIL-CLOWING WORKING BODY - Google Patents

Abstract

The utility model relates to agricultural machinery, in particular to soil-cultivating working bodies. The technical result of the utility model is to reduce energy consumption while improving the quality of work. The technical result is achieved due to the fact that the lower part of the knife rests on an elliptical toothed roller in contact with the bottom of the furrow, located inside the groove in the body of the knife on the axis of the elliptical hinge common with the two-arm lever. Soil-cultivating working body, consisting of a rack with a thrust bearing, a movable toothed knife with cutouts in the shape of a logarithmic spiral, attached to the front of the rack on a guide and connected by its upper part to the rack by means of a vibro-impact mechanism, consisting of alternating rigid and elastic elements placed in the rack body , right and left movable plowshares connected by hinges to the rack, and by means of an elliptical hinge, a two-arm lever of the wedge spacer mechanism and vibro-impact mechanisms with alternating rigid and elastic elements and cylindrical bodies fixed on the thrust bearing of the rack, hinges, a bracket fixed on the thrust bearing of the rack base, connected to the lower part of the movable toothed knife, and the knife with its lower part rests on the ellipsoidal toothed roller in contact with the bottom of the furrow, located inside the groove in the knife body on a common axle with a two-arm lever.

Description

The utility model relates to agricultural machinery, in particular to soil-cultivating working bodies.

Known ripping paw [Author's certificate SU patent No. 1243641, IPC class. А01В 35/26, А01В 13/08, 1986], containing a fixed rack and plowshares hinged on it, the free ends of which are connected by a vibro-impact mechanism made of alternating elastic elements and rigid bodies placed in the housing.

The disadvantage of such a loosening paw is an increased traction resistance and a large breakup furrow behind the passage of the rack, due to the rigid attachment of its frontal part to the frame and the impossibility of realizing the stable oscillation of the shares in the horizontal plane. Horizontal fluctuations of the shares intensify the impact on the soil only in the horizontal plane and do not transfer the disturbing effect to the vertical plane of the rack passage. As a result, there is no interaction of the movable shares with the frontal cutting part of the rack and their coordinated effect on the soil, as a result of which the soil is scattered over the surface by the frontal part of the rack, forming a wide breakup furrow.

The translational movement of the cutting part of the tine, regardless of the phases of deformation of the soil destruction and the throwing of the soil to the side, leads to the enveloping of the tine with plant residues, increased traction resistance and a decrease in the erosion resistance of the soil due to a decrease in the degree of stubble conservation.

The closest analogue to the claimed is a tillage working body [Author's certificate SU patent No. 1784126, IPC class. А01В 35/20, 1992], consisting of a serrated knife installed on the base of the rack by means of a guide with cuts in the form of a logarithmic spiral with an increase in its curvature from bottom to top. In the upper part, the toothed knife is movably connected to the rack base by means of a vibro-impact mechanism, consisting of alternating rigid and elastic elements placed in the rack body. In the lower part, the knife is pivotally connected to the movable right toothed plowshare and the left movable plowshare by means of a two-arm lever, an elliptical hinge, a wedge spacer mechanism and vibro-impact mechanisms with alternating rigid and elastic elements and cylindrical bodies fixed on the rack thrust bearing. The rods of the vibro-impact mechanisms are movably connected to the wedge tip of the two-arm lever by means of conical pushers. The toes of the movable plowshares are covered with a chisel fixed on the shoe. The two-arm lever oscillates around the axis of the bracket fixed on the bearing of the stand base.

The disadvantage of this design is the high energy consumption with insufficient quality of work. Firstly, the energy and amplitude of oscillations of the movable shares and elements of vibro-impact mechanisms due to the changing resistance of the soil is not enough to ensure a stable reciprocating movement of the toothed knife. As a result, the energy intensity of soil destruction remains high. Secondly, due to the unstable reciprocating motion of the serrated knife, the plant residues partially envelop the rack, are not cut in time by the serrated knife, and a dragging process occurs, which reduces the quality of work.

The technical result of the utility model is to reduce energy consumption while improving the quality of work.

The technical result is achieved due to the fact that the lower part of the knife rests on an elliptical toothed roller in contact with the bottom of the furrow, located inside the groove in the body of the knife on the axis of the elliptical hinge common with the two-arm lever.

The specified set of essential features ensures the appearance of the proposed soil-cultivating working body of new properties that are different from the prototype.

Thus, the claimed features of the utility model meet the criterion of "novelty".

In FIG. 1 shows a diagram of a soil-cultivating working body, side view, in Fig. 2 is the same, top view, in Fig. 3 - remote element A in Fig. one.

Soil-cultivating working body, consisting of a rack 1 with a thrust bearing 17, a movable toothed knife 3 with cutouts 4 in the form of a logarithmic spiral attached to the front of the rack on the guide 2 and connected by its upper part to the rack 1 by means of a vibro-impact mechanism 5, consisting of alternating rigid and elastic elements placed in the rack housing, right 10 and left 11 movable plowshares connected by hinges 14 to the rack, and by means of an elliptical hinge 7, a two-arm lever 6 of a wedge spacer mechanism and vibro-impact mechanisms 9 with alternating rigid and elastic elements and cylindrical bodies mounted on a thrust bearing 17 of the rack, hinges 7, 21, the axis of the bracket 15, fixed on the thrust bearing 17 of the base of the rack, connected to the lower part of the movable toothed knife, and the knife 1 with its lower part rests on the toothed roller 18 of an elliptical shape that is in contact with the bottom of the furrow, placed inside the groove 19 in the body of the knife on a common two-arm lever 6 axis 20 of the elliptical joint.

When the proposed working body moves, the plowshares 10, 11, in contact with the soil, compress the elastic elements of the vibro-impact mechanisms 9, accumulating kinetic energy. At the maximum convergence of the ends of the shares and, at the end of the soil compression phase, the mutual impact of the rigid bodies of the vibroimpact mechanisms occurs. Under the action of the impact, the rods 8 of the vibro-impact mechanisms sharply diverge, acting, on the one hand, on the ends of the shares 10, 11, transferring the accumulated kinetic energy to the soil, and on the other hand, by means of conical pushers 13 of the rods 8, drive the wedge spacer mechanism of the toothed knife of the rack. Conical pushers 13, acting on the wedge tip 12, rotate the two-arm lever 6 around the axis 15. The second end of the two-arm lever 6 moves the toothed knife 3 upwards, compressing the intermediate elastic elements of the vibro-impact mechanism of the stand, making a translational movement along the stand, the toothed knife 3 cuts the soil and vegetation residues in the longitudinal-vertical plane, forming a free passage for the rack and reducing the resistance to its advancement. The side part of the movable connection of the serrated knife with the base of the rack is closed with protective covers. 16, fig. 2.

Simultaneously, the toothed roller 18 of an elliptical shape, placed inside the groove 19 in the body of the toothed knife on the axis 20 of the elliptical joint common with the two-arm lever, rolling along the bottom of the furrow, excites a periodic reciprocating motion of the toothed knife 3 and the shares 10, 11. This movement is superimposed on vibrations serrated knife, arising from the contact of the shares with the soil, increases the amplitude and energy of movement. At the same time, energy consumption is reduced due to an increase in the slip coefficient when cutting the soil with a serrated knife and the quality of work is improved due to the stable process of cutting weeds and the absence of their dragging.

Thus, the claimed technical result is achieved.

Sources of information

1. Author's certificate SU patent No. 1243641, IPC class. A01B 35/26, A01B 13/08, 1986.

2. Author's certificate SU patent No. 1784126, IPC class. A01B 35/20, 1992.

Claims (1)

Soil-cultivating working body, consisting of a rack with a thrust bearing, a movable toothed knife with cutouts in the shape of a logarithmic spiral, attached to the front of the rack on a guide and connected by its upper part to the rack by means of a vibro-impact mechanism, consisting of alternating rigid and elastic elements placed in the rack body , right and left movable plowshares connected by hinges to the rack, and by means of an elliptical hinge, a two-arm lever of the wedge spacer mechanism and vibro-impact mechanisms with alternating rigid and elastic elements and cylindrical bodies fixed on the thrust bearing of the rack, hinges, a bracket fixed on the thrust bearing of the rack base, connected to the lower part of the movable toothed knife, characterized in that the knife with its lower part rests on the elliptical toothed roller in contact with the bottom of the furrow, located inside the groove in the knife body on the axis of the elliptical ball common with the two-arm lever nira.

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