RU205816U1 - WORKING BODY FOR MUMPLESS TILLAGE - Google Patents

Abstract

The utility model relates to agricultural machinery, in particular to machines for moldboard-free tillage. The technical result of the utility model is to improve the quality of loosening the soil while reducing the energy intensity of the operation. The technical result is achieved due to the fact that the plates with teeth are attached to two rotors symmetrically located relative to the longitudinal the axis of symmetry of the working body, freely rotating in bearing supports attached by horizontal longitudinal rods to the back surface of the wings of the flat-cutting paw, each of the plates has the shape of an Archimedes spiral section, the teeth are directed upward, located at the points of intersection of the blades with straight lines emanating from the axis of rotation of the rotors and along protrude over the entire height above the rear edge of the wings of the flat-cutting share, and the direction of curvature of the plates on adjacent rotors is opposite. wedge-shaped plates are vertically and behind them - elastic plates with teeth bent into a spiral in a horizontal plane, and the plates with teeth are attached to two rotors symmetrically located relative to the longitudinal axis of symmetry of the working element, freely rotating in bearing supports attached by horizontal longitudinal rods to the rear the surfaces of the wings of the flat-cutting paw, each of the plates has the shape of a section of the Archimedes spiral, the teeth are directed upwards, located at the points of intersection of the blades with straight lines emanating from the axis of rotation of the rotors and protrude over the entire height above the rear edge of the wings of the flat-cutting paw, and the direction of curvature of the plates on adjacent rotors the opposite.

Description

The utility model relates to agricultural engineering, in particular to machines for moldboard-free tillage.

Known tillage tool [Inventor's certificate SU patent No. 886769, IPC class. А01В 35/26, 1981], which includes a flat-cutting paw and elastic plates installed behind it, having a spherical shape in the horizontal plane. One end of the plate is attached to the flat-cut foot, and the other end is in a free state. On both sides of the plates, teeth are hinged in a staggered manner.

The disadvantage of the specified tillage tool is that the elastic plates do not crumble sufficiently heavy clay soils in terms of mechanical composition.

The closest analogue to the claimed is a working body for moldboard-free tillage [Copyright certificate RU patent No. 2017362, IPC class. A01B 35/26, 1991], which includes a stand with a flat-cutting paw, along the width of the grip of which wedge-shaped plates are installed vertically and behind them there are elastic plates bent into a spiral in a horizontal plane, made with lateral sides having different coefficients of linear expansion, and the working the body is equipped with a device for including them in an electrical circuit.

The disadvantage of this working body is poor-quality processing of heavy soils due to insufficient mobility of the teeth in the transverse plane, increased energy consumption for heating the plates, difficulty in operation due to the need to constantly change the current strength that heats the plates under conditions of changing soil temperature.

The technical result of the utility model is to improve the quality of loosening the soil while reducing the energy intensity of the operation.

The technical result is achieved due to the fact that the plates with teeth are attached to two rotors, symmetrically located relative to the longitudinal axis of symmetry of the working body, freely rotating in bearing supports attached by horizontal longitudinal rods to the back surface of the wings of a flat-cutting paw, each of the plates has the shape of an Archimedes spiral section , the teeth are directed upwards, located at the points of intersection of the blades with straight lines emanating from the axis of rotation of the rotors and protrude over the entire height above the rear edge of the wings of the flat-cutting paw, and the direction of curvature of the plates on adjacent rotors is opposite.

The specified set of essential features ensures the emergence of new properties in the working body for non-moldboard tillage, different from the prototype.

Thus, the declared features of a utility model meet the “novelty” criterion.

FIG. 1 shows a diagram of a working body for moldless soil cultivation, top view, in Fig. 2 - the same, side view.

A working body for moldless soil cultivation, including a stand 7 with a flat-cutting paw, along the width of which the wedge-shaped plates 6 are installed vertically and behind them elastic plates 2 bent into a spiral in the horizontal plane with teeth 1, and the plates with teeth are attached to two rotors 3 , 4, symmetrically located with respect to the longitudinal axis of symmetry of the working body, freely rotating in bearing supports 10, attached by horizontal longitudinal rods 8 to the back surface of the wings of a flat-cutting paw, each of the plates has the shape of an Archimedes spiral section, the teeth 1 are directed upwards, located at the points of intersection of the blades with straight lines emanating from the axis of rotation of the rotors and along the entire height protrude above the rear edge of the plowshares 5, 9 of the flat-cutting paw, and the direction of curvature of the plates on adjacent rotors 1, 4 is opposite.

The work of the working body for non-moldboard tillage is carried out as follows.

When moving forward in the soil, the working body with plowshares 5, 9 cuts the soil layer from below in the horizontal plane, cuts it with plates 6 from below, and feeds the cut layer into the area of the teeth 1.

All teeth 1 interact with the soil, loosening it. Under the influence of the forces of resistance of the soil and the root system of weeds to the movement of the teeth, the elastic plates 2 in zones A, Fig. 1, partially straighten, the arms of the action of the forces of resistance to the teeth relative to the axis of rotation of the rotors increase, which leads to an increase in their total torque.

On the contrary, in zones B, Fig. 1, the elastic plates 2, Fig. 1, are additionally bent, the arms of the action of the resistance forces of the teeth relative to the axis of rotation of the rotors decrease, which leads to a decrease in their total torque.

As a result of the above imbalance in the torques of the resistance forces relative to the axis of rotation of the rotors, their stable rotation occurs in the opposite direction with a variable angular velocity ω, Fig. 1. At the same time, depending on the magnitude of the portable translational speed of the unit and the relative peripheral speed of movement of each tooth, the latter move along the trajectories of least resistance, which is a trochoid, or cycloid, which provides better soil loosening and reduces the energy intensity of the operation.

Elastic plates 2 are located below the moving soil layer and the resistance to their movement is insignificant, which also reduces the energy intensity of the operation.

Sources of information:

1. Copyright certificate SU patent No. 886769, IPC cl. A01B 35/26, 1981.

2. Copyright certificate RU patent No. 2017362, IPC class. A01B 35/26, 1991.

Claims (1)

A working body for moldless soil cultivation, including a stand with a flat-cutting paw, along the width of which the wedge-shaped plates are installed vertically and behind them - elastic plates with teeth bent into a spiral in a horizontal plane, characterized in that the plates with teeth are attached to two rotors, symmetrically located relative to the longitudinal axis of symmetry of the working body, freely rotating in bearing supports attached by horizontal longitudinal rods to the back surface of the wings of the flat-cutting paw, each of the plates has the shape of an Archimedes spiral section, the teeth are directed upward, located at the points of intersection of the blades with straight lines emanating from the axis of rotation rotors, and along their entire height protrude above the rear edge of the wings of the flat-cutting paw, and the direction of curvature of the plates on adjacent rotors is opposite.

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