RU2338350C1 - Disc tiller - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: aggregate comprises a hitch tongue connected by hinges to a frame consisting of central and hinge-connected side sections, transport wheels with hydraulic lift and sink cylinders, two-row strip rollers and folding mechanisms for the frame side sections. The hitch tongue is connected to the frame lowering unit and can be rotated by the hydraulic cylinder mounted on the frame and connected by a rod to a groove on the bracket of the hitch tongue. Two rows of concave discs are mounted on the frame. Each disc is set on a separate pole and is spring-loaded relative to the frame. Each concave disc pole is connected to the bracket by a horizontal hinge. The bracket is fitted with a square shank set into the corresponding staple on the frame. Strips of the two-row rollers are wound in the opposite directions in the first and second rows. The central part is equipped with two carrier wheels with depth adjusting mechanisms and the side sections is fitted with one carrier wheel each. The transport wheels are fixed coaxially on the central frame part between the second row of the concave discs and strip rollers.

EFFECT: improving quality of tillage, decreasing quantity of metal required for the device and facilitating the aggregate maintenance.

5 dwg

Description

The invention relates to the field of agricultural engineering, in particular to units designed for continuous tillage.

Known garden disk double-track harrow containing a frame with two rows of spherical disks, each of which is equipped with a swivel bracket, one end of which is connected to the axis of rotation of the disk, and the other to the frame through a vertical hinge. The disks are mounted in opposite directions and have an adjustable angle of attack (USSR AS No. 1491357, АВВ 21/08, Bull. No. 25, 1989).

The disadvantage of this design is that the change in the depth of processing is made by changing the angle of attack of the discs and when it is reduced, high ridges are formed at the bottom of the furrow and the cutting of plant residues worsens, rotation and mixing of the treated soil layer is not provided.

A disk tillage implement is also known, having a frame with transverse bars fixed to it in several rows, on which racks with spherical disks are mounted, while the disks have an adjustable angle of attack and are located frontally along the working width, in addition, the disks in subsequent rows are shifted in the transverse the direction relative to the previous one by an amount equal to the quotient of dividing the inter-disk distance by the number of rows, while the disks have an inclination to the vertical plane (RF Patent No. 2185 044, АВВ 21/08, Bull. No. 20, 2002).

In this soil-cultivating implement, the disks are arranged in four rows, as a result of which the frame is significantly extended and the metal consumption increases, traction resistance increases, the adaptability to the microrelief is unsatisfactory, in addition, the large distance between the first and last rows of disks leads to the loss of stability of the implement in the longitudinal direction - the disks of the latter row slide into the furrows formed by the discs of the first row.

The closest technical solution to the proposed one is a combined soil cultivating unit containing a bale, a middle and side frame, hinged on the middle and equipped with hydraulic cylinders for their installation in transport position, two rows of spherical disks on individual racks, two-row bar rollers, transport chassis with a lifting cylinder and lowering of transport wheels (Prospectus of the company LEMKEN, Germany, Model Rubin 9). Each disk is mounted on a separate rack with a constant angle of attack and angle to the vertical plane. Depth adjustment of the soil is done by packer rollers.

A disadvantage of the known design of the combined soil cultivating unit is the rigid attachment of the clutch relative to the frame in the working position, while the unit rests on the roller and trailer of the tractor and, when moving across the field, the tractor’s vertical vibrations are transmitted to the frame of the tractor, causing uneven movement of the spherical discs in depth and affecting the quality of processing soil; in addition, the location of the transport wheels behind the packer rollers leads to an increase in the bending load on the frame and the gland of the unit in the transport position, since the support points are located far from the center of gravity of the unit and, as a result, entails an increase in the metal consumption of the structure.

The aim of the invention is to improve the quality of soil treatment, reducing the metal consumption of the structure, increasing the ease of maintenance of the unit.

This goal is achieved by the fact that in the disk tillage unit containing the ginger, pivotally connected to the frame, consisting of the middle and pivotally attached side sections, on which there are two rows of spherical disks, each of which is mounted on an individual rack and spring-loaded relative to the frame, transport wheels with hydraulic cylinders for raising and lowering, two-row strip rollers and mechanisms for folding the side sections of the frame, the following features are available: the snica is attached to the frame reducer and is equipped with on the hydraulic cylinder mounted on the frame and connected by a rod with a groove on the trailer bracket, two support wheels with depth adjustment mechanisms and one on the side sections are installed on the middle section of the frame, the strut of each spherical disk is connected via a horizontal hinge to the bracket, which has a square shank, mounted in an appropriate bracket on the frame, the transport wheels are coaxially on the middle section of the frame between the second row of spherical disks and the strip rollers, and the strip of rollers is located us along the helical winding with the opposite direction in the first and second rows.

Figure 1 shows the proposed disk tillage unit, top view; figure 2 is a side view in the working position; figure 3 is a rear view in a transport position; figure 4 - mounting a spherical disk on the frame of the unit, side view; figure 5 - spherical disk, top view.

The disk tillage aggregate (Fig. 1) consists of a snitsa 1, middle section of a frame 2 and side sections 3, spherical disks 4, transport wheels 5 with hydraulic cylinders for raising and lowering 6, double-row strip rollers 7, supporting wheels 8 and mechanisms for folding the side sections frames 9.

The accession of the wedge 1 (see figure 2) is pivotally to the frame reducer 2 with the possibility of turning the wedge by the hydraulic cylinder 10, the stem of which is connected to the groove on the bracket, allows the wedge to be released in the working position and not to transmit tractor oscillations to the unit frame, while the wedge is horizontal and does not create a vertical component of the traction force on the working bodies, thereby ensuring a stable and high-quality execution of the process.

The installation on the middle section of the frame of two supporting wheels 8 and one wheel on the side sections with depth adjustment mechanisms 11 allows you to accurately copy the field topography and tillage to the required depth over the entire width of the machine.

The connection of the rack 12 (Fig. 4) of each spherical disk 4 by means of a horizontal hinge 13 with an arm 14, which is equipped with a square shank installed in the corresponding bracket 15 on the frame, allows the disks to be mounted during assembly with minimum labor costs, and in case of a disk breakdown, make quick replacement . The disks are installed with a constant angle of attack and with an inclination to the vertical plane, which helps to reduce the height of the ridges at the bottom of the furrow and improve the cutting of plant residues. When the disk hits an obstacle, the stand 12 rotates in the hinge 13 and compresses the spring 16, providing reliable protection against breakdowns.

The arrangement of the transport wheels coaxially on the middle section of the frame between the second row of spherical disks and the strip rollers makes it possible to bring the support point of the unit in the transport position to the center of gravity and thereby reduce the load on the gland and the unit frame and as a result reduce the metal consumption of the structure. In addition, this arrangement of the unit allows you to install rollers on the middle section of the frame and on the side with overlap, which helps to improve the levelness of the surface of the treated field.

The arrangement of the double-row roller strips along a screw with the opposite winding direction in the first and second rows eliminates the impact on the soil of the second row of rollers along the first trace and promotes mulching of the upper layer, falling asleep to the furrows remaining on the surface after the passage of the disks and improves the quality of the moisture-saving layer.

The disk tillage unit is connected by the snake 1 to the tractor hook bracket and the hydraulic system is connected to control the hydraulic cylinders of the turning of the transport wheels 6, folding the unit into the transport position 9 and the turning of the shear 10.

The initial position of the tillage unit is shown in figure 2. The unit is lowered and rests on the soil with rollers 7 and wheels 8, the spherical discs 4 are deepened, the transport wheels 5 are raised above the soil, the hydraulic cylinder 10 is moved, and the grommet 1 is released.

When the unit moves, two rows of spherical disks, rotating, cut off the crop residues, crumble the cultivated soil layer and intensively mix with the crushed organic matter. Following the disks, two-row strip rollers produce additional crumbling of the soil, form a compacted layer and level the surface of the treated field.

At the end of the rut, using the hydraulic system, the crankshaft axis of the transport wheels 5 is rotated, and the hydraulic cylinder 10 lowers and fixes the grip 1, the unit is deepened, and after a turn is lowered again to its original position and the process is repeated.

Changing the depth of processing is carried out by reinstalling the support wheels 8 and double-row rollers 7 using mechanisms for adjusting the depth of 11 and the rods of the rollers 17, fixed by the holes in the brackets of the frame.

When transporting the unit on roads to reduce its width using a hydraulic system, the side sections 3 (Fig. 3) are raised by folding mechanisms 9 above the middle section of the frame 2.

Tests of the unit in the farms of the Novosibirsk region and at the Siberian machine test station in 2006 showed that it provides high-quality processing when developing abandoned fields, when cutting a layer of perennial grasses and planting crop residues of high-stalk crops - corn and sunflower.

Claims (1)

A disk tillage unit, including a ginger joint pivotally connected to a frame consisting of middle and pivotally attached side sections, transport wheels with hydraulic cylinders for raising and lowering, two-row strip rollers and folding mechanisms for the side sections of the frame, two rows of spherical disks mounted on the frame, each of which are mounted on an individual rack and spring-loaded relative to the frame, characterized in that the gnip is attached to the frame by means of a reducer with the possibility of turning the hydraulic cylinder, insulated on the frame and connected by a rod with a groove on the grip bracket, two support wheels with depth adjustment mechanisms are installed on the middle section of the frame, and one support wheel with depth adjustment mechanisms on the side sections, and the transport wheels are aligned with the middle section of the frame between the second row of spherical disks and the strip rollers, and the stand of each spherical disk is connected via a horizontal hinge to a bracket, which is equipped with a square shank mounted in accordance a twisting bracket mounted on the frame, and strips of double-row rollers are located on a screw with the opposite direction of winding in the first and second rows.

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