RU2704842C1 - Tillage implement - Google Patents

Abstract

FIELD: agriculture; machine building.

SUBSTANCE: tillage implement comprises a frame where rotary tillers are installed in series. Each of rippers is made in form of shaft located perpendicular to movement direction with spiral-plate working element fixed on its ends by means of flanges with elastic elements and with cutout triangular teeth. Shafts are connected to each other by chain gearing, which is closed by casing, and have limiters of working members penetration. Each spiral-plate working element is made in the form of truncated cone, front edge of which is additionally equipped with radial teeth in form of teeth of needle discs of BIG-3 harrows through each cut-out triangular tooth. Each connection of working element with shaft is made in the form of one end of the horizontally fixed resilient element hinged to the flange inner surface and freely placed by the other end in the hole made on the end part of the working element.

EFFECT: intensive crumbling of soil along the whole length of the working element and reduction of power consumption of the loosening process due to smooth effect of teeth on soil.

3 cl, 5 dwg

Description

The invention relates to agricultural machinery, in particular to implements for surface tillage.

Known rotary cultivator, including a shaft with mounted on it a spiral-plate working body with sharpening and radial emphasis, axial fastening with end flanges, and depth limiters of the working body [1].

The next technical solution is a tillage implement containing one pair of rotary cultivators successively mounted on the transverse axes, made in the form of tape spirals with the opposite direction of winding, and the axis of the cultivators are kinematically connected with each other, and the diameter and pitch of the spiral of the first cultivator are equal to the diameter and pitch of the second spiral ripper [2].

The disadvantages of the above structures are that in the place of attachment of the spiral-plate working body with a flange, an excessive load occurs, which leads to its failure. Also, a smooth cutting edge does not contribute to their stable movement (adhesion to the soil) and it has significant traction resistance compared to gear working bodies.

It is also known a tillage implement containing a frame on which rotary cultivators are mounted in series, each of which is made in the form of a shaft arranged perpendicular to the direction of movement of the shaft with elastic elements radially mounted on the flange, a spiral-plate working body with teeth, a leading edge which is performed on the plot of the logarithmic spiral. In this case, the shafts are interconnected by a chain transmission and have means for limiting the depth of the working bodies, the working surface of the spiral-lamellar working body being made corrugated (wavy) in the form of a turbo-disk surface, while the cutting edge of the working body has a wavy contour passing along a helix, and the working surface in the region of its apex is a generatrix copying the wavy contour of the cutting edge, and the shape of the working surface of the plate organ is formed by the movement of a straight line along the above waves stym curve [3].

The disadvantages of this tillage implement are the poor quality of the soil treatment due to the rapid wear and tear of the cut teeth, and the presence of such a connection of the working body with the bearing shaft does not guarantee their reliable operation without breakage and does not contribute to high-quality crumbling of the top soil layer.

The prototype is a tillage implement containing a frame on which rotary cultivators are mounted sequentially, each of which is made in the form of a shaft perpendicular to the direction of movement of the shaft with a spiral-plate working body fixed at its ends by means of flanges. In this case, the shafts are interconnected by a chain transmission and have means to limit the deepening of the working bodies, the front edge of each working body having triangular teeth and the tool contains elastic elements radially mounted on the flange [4].

The disadvantages of this technical solution are the rapid wear and frequent breakage of triangular triangular teeth, significant traction resistance of the implement due to the presence of passive depth gauges for working bodies in the form of skis, and such a connection of the working bodies to the shaft does not guarantee their reliable operation and does not contribute to high-quality crumbling of the soil .

The objective of the invention is to remedy these disadvantages.

The technical result is an increase in the quality of soil cultivation due to intensive crumbling of the soil along the entire length of the spirally lamellar working body and a decrease in the energy intensity of the cultivation process due to the smooth action of the teeth on the soil with some fluctuation and the replacement of passive penetration limiters of working bodies with rotary ones.

The specified technical result is achieved by the fact that in a tillage implement containing a frame on which rotary cultivators are mounted successively and each of which is made in the form of a perpendicular to the direction of movement of the shaft with a spiral-lamellar working body with cut-out elements attached to its ends by elastic flanges with elastic elements triangular teeth, while the shafts are interconnected by a chain gear, closed by a casing and have a depth limiter working bodies, according to the invention Each spiral-plate working body is made in the form of a truncated cone, the front edge of which is additionally equipped with radial teeth in the form of teeth of needle disks of the BIG-3 harrow through each cut triangular tooth, and each connection of the working body with the shaft is made in the form of a hinge attached to the inner surface the flange of a horizontally mounted elastic element with one end and freely placed by its other end in the hole made on the end part of the working body, with each The first element is made in the form of a rod with a spring, one end of which has a spherical shape, and the other a threaded beam, and each depth limiter of the working bodies on both sides of the frame is made in the form of two copy wheels and arranged in series with the possibility of height adjustment while the axis of the front copying wheel is connected with the shaft of the cultivator of the first row, and the axis of the rear wheel is connected with the shaft of the cultivator of the second row by leashes, the upper ends (lever) of which are connected with sectors attached to the skin e.

The tillage implement is illustrated by the schemes:

FIG. 1 is a diagram of a tillage implement, general view;

FIG. 2 is a diagram of a rotary cultivator assembly;

FIG. 3 - installation diagram of the copy wheel;

FIG. 4 is a diagram of an elastic element fastening

FIG. 5 is a view A in FIG. one.

The tillage implement (Fig. 1 and 2) contains a frame 1 on which rotary cultivators 2 and 3 are mounted in series. Each cultivator is made in the form of a shaft 4 located perpendicular to the direction of movement of the shaft 4 with spiral-plate working mounted on its ends by means of flanges 5 with elastic elements 6 body 7 with cut triangular teeth 8. In this case, the shafts 4 are interconnected by a chain gear 9, closed by a casing 10 and have recesses 11 of the working bodies 7. Each spiral-plate working body 7 is made It is shown in the form of a truncated cone 12, the leading edge 13 of which is additionally equipped with radial teeth 14 in the form of teeth of needle disks of the BIG-3 harrow through each cut triangular tooth 8 (Fig. 5). Each connection of the working body 7 with the shaft 4 (Fig. 4) is made in the form of a horizontally mounted elastic element 6 with one end pivotally attached to the inner surface 15 of the flange 5 and freely placed with its other end in the hole 16 made on the end part of the working body 7. Moreover, each elastic element 6 (Fig. 4) is made in the form of a rod 17 with a spring 18, one end of which has a spherical shape, and the other a threaded beam. In addition, each depth gauge 11 of the working bodies 7 (Fig. 1 and 3) on both sides of the frame 1 is made in the form of two copy wheels 19 and 20 arranged in series with the possibility of height adjustment. The axis 21 of the front copy wheel 19 is connected with the shaft 4 of the ripper 2 of the first row, and the axis 22 of the rear wheel 20 is connected with the shaft of the ripper 3 of the second row by means of leashes 23, the upper ends (lever) 24 of which are connected with sectors 25 attached to the casing 9.

Tillage tool works as follows.

When the cultivating implement moves across the field, rotary cultivators 2 and 3 rotate from the clutch of radially directed teeth 14 located on the leading edge of the spiral-lamellar working bodies through each notched triangular tooth 8. Under the action of teeth 8 and 14, cultivators break large clods of soil and mix its upper layer, evenly distributing it over the width of the grip with a minimum energy intensity of the process of loosening. Due to the rearrangement and placement of the upper ends (lever) 24 of the leashes 23 of the copy wheels 19 and 20 into the holes in the sectors 25, mounted on the casing 9 of the depth gauge 11 of the working body 7, the depth of tillage is set 4 ... 6 cm. In this case, each hole on sector 25 corresponds to a change in the depth of tillage by 1 cm, i.e. the installation of the upper ends (lever) 24 of the leads 23 in the lower hole provides the smallest (4 cm) tillage, while the installation of the lever 24 in the upper - the deepest (6 cm). Flexible connection of the spiral-plate working body 7 with the bearing shaft 4 by means of horizontally arranged rods 17 with springs 18 and end flanges 5, provides the possibility of axial, torsional and other vibrations, which helps to create optimal working conditions of the spiral-plate working body 7 in the soil and self-cleaning. The conical shape of the working bodies 7 allows you to get the effect of pulling the soil along the width of the implement, promotes mixing of the soil and leveling the surface of the field, since when moving the unit, each tooth of the working body makes a complex movement in the soil, the more it acts on the lumps, providing better crumbling in comparison with the known tools. High-quality loosening of the soil with conical working bodies is achieved due to the difference in the diameters of the circles of the right and left sides of the sections. By increasing the number of teeth of the working body 7 from a small section to a large one, it is possible to reduce the difference in the intensity of loosening the soil along the width of the implement.

Using the proposed tillage implements can improve the quality of surface tillage and reduce the energy intensity of the process of cultivation without transferring significant dynamic loads to the base machine.

List of used literature.

1. Copyright certificate No. 938766, cl. A01B 21/00. Rotary cultivator / H.S. Gainanov, E.V. Ermolko, Sh.R. Galiullin, N.G. Enwald, stated 02/07/1980, publ. 06/30/1982, bull. Number 24.

2. Copyright certificate No. 1021354, cl. A01B 33/02. Tillage tool / H.S. Gainanov, E.V. Ermolko, N.G. Enwald, Sh. Galiullin G.G. Yunusov, declared. 06/09/1980, publ. 06/07/1983, bull. No. 21.

3. Copyright certificate No. 2395183, cl. A01B 21/00. Tillage tool / R.G. Yunusov, G.V. Pikmullin, G.G. Bulgaria, declared 03/19/2009, publ. 07/27/2010, bull. No. 21.

4. Copyright certificate No. 1526590, cl. A01B 21/00. Tillage tool / H.S. Gainanov, G.G. Bulgaria, declared 04/17/1987, publ. 12/07/1989, bull. No. 45.

Claims (3)

1. A tillage implement containing a frame on which rotary cultivators are mounted in series, each of which is made in the form of a spiral-lamellar working body with cut-out triangular teeth mounted perpendicular to the direction of movement of the shaft with flanges with elastic elements, the shafts being connected interconnected by a chain transmission, closed by a casing, and have a depth limiter working bodies, characterized in that each spiral-plate working body is made it is in the form of a truncated cone, the front edge of which is additionally equipped with radial teeth in the form of teeth of needle discs of the BIG-3 harrow through each notched triangular tooth, and each connection of the working body with the shaft is made in the form of a horizontally mounted elastic element pivotally attached to the inner surface of the flange at one end and freely placed at its other end in the hole made on the end of the working body. 2. Tillage tool according to claim 1, characterized in that each elastic element is made in the form of a rod with a spring, one end of which has a spherical shape, and the other is a threaded beam. 3. A tillage implement according to claim 1, characterized in that each depth gauge of working bodies on both sides of the frame is made in the form of two copy wheels arranged in series with the possibility of height adjustment, while the axis of the front copy wheel is connected to the shaft of the first row cultivator and the axis of the rear wheel - with the shaft of the cultivator of the second row by means of leads, the upper ends of which are connected with sectors attached to the casing.

Images