RU173219U1 - Working body of a cultivator-plane cutter - Google Patents

Abstract

The utility model relates to the field of agricultural engineering, in particular to tillage working bodies. The device comprises a frame, a torsion bar, the upper end of which is rigidly fixed to the frame, and the lower end with a plane-cutting paw, a vibro-impact mechanism, consisting of a horizontally positioned hollow cylinder bent along an arc of a circle with elastic spherical bodies and expanding springs alternately placed therein and hemispherical limiters with right and left sides, rigidly fixed to the frame by means of a bolted connection, located coaxially with the cylinder mounted on the torsion bar. The technical result consists in providing a decrease in traction resistance and at the same time increasing the efficiency of surface cultivation of the stubble background of the soil and the destruction of weeds during cultivation with an increase in the reliability of the device. 2 ill.

Description

The technical solution relates to the field of agricultural engineering, in particular to tillage working bodies.

A device is known that includes a frame, a rack with a lancet paw fixed to it, while the rack is mounted on the frame by means of a vertical hinge (Aut. St. USSR No. 1676470 class A01B 35/26).

The disadvantages of this device are the low reliability during operation, caused by frequent failures of a large number of springs, as well as the complexity of the design.

Also known is the working body of the cultivator, including a frame, a rack with a paw fixed to it (Aut. St. USSR No. 1380627, class A01B 35/26).

The disadvantage of this working body of the cultivator is the complexity of the design.

As a prototype, the working body of the cultivator was selected, including a frame, a rack with a lancet paw, while the rack is mounted on the frame by means of a vertical hinge (RU patent for invention No. 2141183, publ. 20.11.1999).

The disadvantages of the described working body of the cultivator include the low quality of processing the stubble background of the soil with a high content of weed vegetation. This is expressed in the fact that due to the absence of limiters, as well as the small diameter of the torsion bar, a critical torsional deviation of the cultivator's working body will occur, which will lead to a fracture of the torsion bar.

The problem the technical solution is aimed at increasing the efficiency of surface cultivation of the stubble background of the soil and the destruction of weeds during cultivation with an increase in the reliability of the device.

The technical result is to reduce traction resistance and at the same time increase the efficiency of surface loosening of the stubble background of the soil and the destruction of weeds during cultivation with increased reliability of the device.

The essence of the technical solution is as follows.

The working body of the cultivator-plane cutter, including a frame, a torsion bar, the upper end of which is rigidly fastened to the frame, and the lower end to the paw, additionally contains a vibro-shock mechanism, consisting of a horizontal hollow cylinder bent along an arc of a circle with elastic spherical bodies alternately placed in it and expanding springs and hemispherical limiters on the right and left sides, rigidly fixed to the frame by means of a bolt connection, located coaxially with the cylinder mounted on the torso Onn rod and configured ploskoreznoj paw.

Common features with the prototype are: frame, paw, torsion bar, the upper end of which is rigidly fastened to the frame, and the lower end to the paw.

Distinctive features of the technical solution are: a vibro-shock mechanism, consisting of a horizontally placed hollow cylinder bent along an arc of a circle with elastic spherical bodies and expanding springs alternately placed in it, hemispherical limiters on the right and left sides, rigidly fixed to the frame by means of a bolt joint, located coaxially with a cylinder mounted on a torsion bar, the paw is flat-cut.

The technical result in the implementation of the utility model is achieved by the fact that the working body contains a torsion bar connected to the frame, which ensures the creation of torsional vibrations of the working body in a horizontal plane, enhancing its vibrational effect on the soil and improving the cutting of the root system of crop residues. A vibro-shock mechanism mounted on a torsion bar, consisting of a horizontally positioned hollow cylinder bent along an arc of a circle with alternating elastic ball bodies and expanding springs with hemispherical limiters on the right and left sides, rigidly fixed to the frame by means of a bolt connection, provides a vibro-shock effect on the torsion bar rod during torsional vibrations of the working body. This leads to a fixed amplitude and frequency of torsional vibrations of the working body, which minimizes the appearance of its critical torsional deviation, leading to a break in the torsion bar, which provides increased reliability of the device.

The utility model is illustrated by drawings.

In FIG. 1 shows a General view of the working body of the cultivator-plane cutter, front view with a cross section aa and bb.

In FIG. 2 - shows a General view of the working body of the cultivator-plane cutter, side view.

The working body of the cultivator-plane cutter contains a frame 1 (Fig. 1) and a torsion bar 2 rigidly fixed on it, fastened to a plane-cut paw 3. A vibro-shock mechanism 4 is mounted on the torsion bar 2, consisting of a horizontally located hollow cylinder 5 curved along an arc of a circle (Fig. 1). 1) with elastic ball bodies 6 and expanding springs 7 alternately placed in it with hemispherical limiters 8 on the right and left sides, rigidly fixed to the frame 1 by means of a bolt joint 9 (Fig. 2).

The working body of the cultivator-plane cutter works as follows. When treating the soil, a torsion bar 2 with a flat-cut paw 3 is affected by a variable force P of soil resistance, depending on its physical and mechanical properties and stubble background (Fig. 1). In this case, the plane-cutting paw 3 will begin to create torsional vibrations in the horizontal plane, enhancing its vibrational effect on the soil and improving the cutting of the root system of crop residues due to the torsion bar 2. With an increased content of weed vegetation with the root system in the treated soil formation, minimizing the appearance of critical torsional deviation to the torsion bar the rod 2 and, as a consequence, the increased reliability of the device, provides a vibration-shock mounted on the torsion rod 2 Khanism 4 consisting of a horizontally located hollow cylinder 5 curved along an arc of a circle with elastic spherical bodies 6 and expanding springs 7 with hemispherical restraints 8 on the right and left sides, rigidly fixed to the frame 1 by means of a bolt joint 9 (Fig. 2) . Such a device creates an optimal fixed amplitude and frequency of torsional vibrations of a plane-cutting paw 3 (Fig. 1), which provides lower traction resistance of the soil and improves the quality of cutting of the roots of crop residues.

Using the proposed working body of the cultivator-plane cutter will reduce traction resistance and at the same time increase the effectiveness of surface cultivation of the stubble background of the soil and the destruction of weeds during cultivation.

Claims (1)

The working body of the cultivator-plane cutter, including a frame, a torsion bar, the upper end of which is rigidly fastened to the frame, and the lower end to the paw, characterized in that it further comprises a vibro-shock mechanism, consisting of a horizontally located hollow cylinder bent along an arc of a circle with alternately placed in it elastic ball bodies and expanding springs, and hemispherical stops on the right and left sides, rigidly fixed to the frame by means of a bolt joint, located coaxially with the cylinder, fixed to the torsion bar, and the paw is made flat-cut.

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