RU75905U1 - HARROW DISC - Google Patents

Abstract

A disc harrow is proposed, comprising a frame, rows of discs and a tow hitch.

The authors consider that the trailer device is equipped with a control mechanism and is made in the form of a triangle, the base of which is pivotally connected to the frame lowering brackets, and at the top of the triangle, along the axis of symmetry of the trailer device, a lever mechanism is installed, consisting of a hydraulic cylinder, one end of which is pivotally connected with the apex of the triangle, and the other end pivotally with a lever swinging on a beam cantilever mounted on the harrow frame, pyramidal above the towing device.

The technical result of the device is the elimination of loads in the vertical plane on the tractor hook bracket and the balance of the harrow, which during the working stroke is ensured by the fact that the traction line coincides with the trace of the center of gravity of the harrow. This allows you to copy the topography of the soil, reduce the influence of the harrow, improve the stability of the course, which ultimately improves the quality of tillage.

Description

The proposed utility model relates to tillage tools used in agriculture.

The disk harrow is known (See certificate for utility model No. 14797, АВВ 7/00, dated 23.02.2000 “Plow - disk cultivator”), which can also be used in the role of both a plow and a cultivator. The harrow contains a frame, rows of discs and a connecting device.

The disadvantage is that the connecting device is connected to the harrow, fixed through the tractor hinged system. During operation, the tractor attachment device experiences power bending loads, both from the tractor and from the harrow, which leads to its deformation and rapid wear. A fixed hinged joint degrades the quality of tillage, since the harrow does not copy the terrain well.

Known combined disk harrow (see US Pat. RF utility model No. 54482, A01B, 21/08 of 03/02/2006) - prototype.

The harrow contains a frame, rows of discs and a tow hitch. The hitch includes a spring-type damping mechanism.

The disadvantage of such a trailing device is that it does not have a connecting control mechanism, which is necessary for the stability of the harrow in a vertical plane during the working stroke. In the absence of such a mechanism in the harrow, soil irregularities contribute to the deepening or deepening of the rear or front of the harrow, which affects the stability of the depth of tillage. To eliminate this, it is necessary that the direction of the line of traction of the harrow during the working stroke passes through the track of the center of gravity of the harrow, taking into account the deepening of the discs into the soil.

The technical result of the proposed utility model is the elimination of the transmission of bending moments to the tractor towing bracket in a vertical plane, the ability to copy the field topography, the balance of the harrow with respect to the direction of the traction line, which ultimately improves the quality of tillage.

The technical result is achieved by the fact that the towing device is equipped with a control mechanism and is made in the shape of a triangle, the base of which is pivotally connected to the lowering brackets of the frame, and at the top of the triangle, along the axis of symmetry of the towing device, a lever mechanism is installed, consisting of a hydraulic cylinder, one end of which is pivotally connected with the top of the triangle and the other end pivotally with a lever swinging on a beam cantilever mounted on the harrow frame, which rises pyramidal above the towing devices m.

The essence of the utility model will be described in more detail below.

Figure 1 shows a schematic drawing of a disk harrow (top view) and type A - the position of the harrow during tillage (side view), type B - transport position of the harrow (side view).

The harrow consists of a frame 1, rows of discs 2, a hook-on device 3 made in the shape of a triangle, the base of which is connected via the hinges 4 to the lowering brackets 5 of the frame 1. In the area of the apex of the triangle on the hinge 6, a linkage is mounted on the symmetry axis of the hitch consisting of a hydraulic cylinder 7, with a rod 8, which is connected through a hinge 9 to a lever 11 swinging on a hinge 10, which is mounted cantilever on a beam 12, rigidly connected to the harrow frame 1 and pyramidal above the towing device.

Figure 1 also shows the transport wheels 13, operating from the hydraulic cylinder 14, and the roller - leveling soil 15.

The harrow works as follows.

Using the hydraulic cylinders 7 and 14, the harrow is brought into the transport position shown in FIG. 1B. Hydraulic cylinders 7 and 14 operate from a tractor hydraulic drive (not shown in FIG. 1). In this case, the transport wheels 13 and the towing device 3 provide between the disks 2 and the road surface the necessary clearance (clearance), which ensures overcoming irregularities during transportation along the field or road. Upon arrival at the place of work using the same hydraulic cylinders 7 and 14, the harrow is transferred to the working position shown in figa. The disks 2 of the harrow due to the weight P are deepened to the required depth of tillage, and the traction line of the towing device (shown by the dashed line) intersects with the trace of the center of gravity (point E) of the harrow. The center of gravity (CT) is determined by calculation or experimentally at the design stage of the harrow.

In the transport position (the hydraulic cylinder rods are extended), a rigid ABV triangle is formed (Fig. 1 B), the harrow hitch rigidly rests on the tractor hitch and the working elements of the harrow rise above the soil at a given height.

In the working position (the hydraulic cylinder rods are retracted), an ABVG four-link is formed with BV and VG elements providing free rotation of the hitch around axis A, and the selected initial position of the height of the tractor hitch (N) allows creating conditions for the passage of the line connecting points D, A, E through the CT track (point E, figa), which makes it possible to make the harrow work stable from the influence of other vibrations in the vertical plane, which ultimately leads to improved soil cultivation quality (figa).

The accuracy of adjusting the inclination of the hitch to the tractor is provided by the control mechanism of the hitch. At the same time, applying pressure to the hydraulic cylinder 7, pushing or pulling the rod 8, through the lever 11 and the hinges 4, 6, 9 and 10, attach the necessary position to the towing device (figa, 1B).

For faster and more convenient adjustment of the tow hitch, the lowering brackets 5 are welded to the frame 1 (FIG. 1B).

By adjusting the position of the hitch and lowering the operating pressure in the hydraulic cylinder 7, the lever mechanism begins to act as a damper, constantly occupying the adjusted position. Damping removes sudden impulse loads (impacts) on the tow hitch. Harrow balance improves tillage. The rear and front parts of the harrow on uneven soil repeats the field topography in movement. This is achieved due to the coincidence of the traction line of the towing device with a trace of the center of gravity of the harrow. The lateral wagging of the harrow, caused by soil heterogeneity, is also significantly reduced.

All this ensures the achievement of a technical result.

Claims (1)

A disk harrow containing a frame, rows of discs and a tow hitch, characterized in that the hitch is equipped with a control mechanism and is made in the form of a triangle, the base of which is pivotally connected to the lowering brackets of the frame, and a lever mechanism is installed at the top of the triangle along the symmetry axis of the hitch pyramid but towering above the tow hitch.