RU78394U1 - HARROW DISC TRAILED - Google Patents

Abstract

A trailed disc harrow is proposed, containing a frame with beams, on which working bodies with spherical disks, a tow hitch and a roller leveling device are mounted. The authors believe that the harrow is equipped with supporting copy wheels for adjusting the depth of cultivation of the soil, which are installed with the possibility of their movement relative to the frame up and down, for example, by a screw mechanism, and the rear copy wheels are equipped with cultivators of the wheel track. A spiral-type soil leveling roller is mounted on the harrow, the spirals of which are directed from the edges to the center. The disks relative to the axis of symmetry of the harrow are mounted symmetrically mirror and directed in opposite directions to eliminate the imbalance of forces in the transverse plane, and along the axis of symmetry of the harrow an additional working element is installed, for example, a spherical disk on a stand to improve soil cultivation in this zone. The side beams of the harrow are equipped with consoles, on which the front copy wheels are mounted in front, the rear copy wheels and the soil roller leveling device are mounted on the rear wheels, and the support transport wheels are placed between the rear cross beam of the harrow frame and the soil leveling roller.

The technical result is an increase in the quality of tillage and a decrease in the energy intensity of this process due to uniformity, stabilization of the depth of tillage and elimination of the imbalance of forces in the transverse horizontal plane.

The utility model is industrially applicable. It can be implemented in a factory or other industrial enterprise, 2 il.

Description

The proposed utility model relates to machine technologies of tillage.

Trailed disc harrows are widely used in agriculture for surface tillage, including for peeling, harrowing and other types of tillage. Harrowing is widely used to correct plowing shortcomings, when processing fumes or in other operations where disk harrows are also used.

Heavy disc harrows are used for deep tillage, while realizing the techniques and methods of primary tillage.

The versatility of disk harrows during tillage caused their active demand and, as a result, gave rise to their extensive nomenclature.

Light tillage disc harrows are mounted in a hinged version when such a harrow is raised above the ground when the tractor is moving along the road or when turning on the field. During the working stroke, it sinks to the soil, the discs are deepened and carry out the given technological process.

The largest part of the disc harrows is carried out in a trailed version, then the harrow is towed on roads by a tractor on supporting transport wheels. When the harrow is working in the field, these wheels move up, the discs of the harrow are immersed in the soil and, when moving, they begin deep (main) processing, harrowing or peeling.

Trailed disc harrows are known.

Harrow (see the book "Agricultural Machines Aggregated with a Kirovets Tractor", author: G.I. Levitsky, A.F. Pronin, G.S. Sverchuk, Publisher: Vysshaya Shkola, 1984, p. 53, Fig. 29) consists of a frame, a set of batteries, consisting of spherical disks, a tow hitch, transport wheels made in the form of a pair of wheels, moved up and down by means of a hydraulic cylinder to transfer the harrow from the working position to the transport one and vice versa.

The disadvantage of this harrow is that the discs are buried into the soil uncontrollably, the depth of tillage is not fixed, and during operation can vary significantly. This leads to uneven depth of processing and, ultimately, to poor quality tillage, which negatively affects the crop. The crop residues are wound on the axis of the disk battery, clog the interdisk gap and the harrow cannot perform the technological process.

Known combined disk harrow (see RF patent for utility model (PM) No. 54482, АВВ 21/08 from 2.03.2006) - prototype. The harrow contains a frame, discs mounted on stand-alone racks with the ability to control the angle of attack of the discs. Disks are set parallel

in rows on beams perpendicular to the direction of movement of the harrow during tillage. The harrow is equipped with a soil leveling drum and a trailing device with a spring-type damping mechanism. The spherical disks in the second and / or third row are located symmetrically with respect to the center of the longitudinal axis, the concave or convex side, respectively, in opposite directions. The harrow is made in a trailed version and is equipped with transport wheels, which, when tilled, rise up, allowing the discs to penetrate into the soil.

The disadvantage of this harrow is the uncontrolled deepening of the harrow discs into the soil, uneven depth of processing, which reduces the quality of work and increases the fuel consumption of the tractor with excessive deepening of the discs into the soil. Due to the fact that only in the second and / or third row spherical disks are located symmetrically with respect to the longitudinal axis of the harrow, the harrow during operation unfolds in a horizontal plane relative to the trailer point in one direction or another, which leads to flaws in soil cultivation.

The purpose of this utility model is to eliminate the above disadvantages. As a result of achieving the above goals, a technical result was obtained, consisting in improving the quality of tillage and reducing fuel consumption by the tractor, that is, reducing the energy consumption of tillage. This is achieved due to the previously adjusted and fixed during the work depth of tillage. The harrow has no unfolding lateral forces, and therefore there are no flaws in the tillage. This makes it possible to till the soil in one pass, which additionally saves energy resources, that is, makes the harrow energy-saving.

Structurally, the technical result indicated is achieved due to the fact that the harrow is equipped with supporting wheels copying the soil relief, which have the ability to move up and down and fix the position of the disks in the soil at a predetermined predetermined depth.

The copy wheels are easy to remove, which makes the harrow universal. The copy wheels located behind the harrow are equipped with soil cultivators, as these wheels compact the treated soil and cultivators fluff it. The spherical discs of the harrow along the axis of symmetry are mounted mirror-image in opposite directions, which allows achieving equal moments of forces in the horizontal plane, and this eliminates the forces deploying the harrow. A working body processing a flaw of soil cultivation between the disks along the axis of symmetry of the harrow is installed along the axis of symmetry. The soil leveling roller is made of spiral type, and the spiral of the roller is directed towards the middle of the harrow, which further stabilizes

direction of movement of the harrow and levels the surface of the treated field. The longitudinal sides of the harrow are extended by removable cantilever beams on which the copy wheels are attached.

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

Figure 1 presents a schematic drawing of the proposed harrow with working bodies, including spherical disks. Figure 2 presents the profile of the furrow obtained by the harrow: a - with a flaw in soil cultivation along the axis of symmetry of the harrow; b - without blemish along the axis of symmetry of the harrow.

The trailed disk harrow consists of a 4-coal block frame 1, on which parallel transverse bars 2 are placed. On the bars 2, working bodies are mounted, consisting of a rack 3, on which spherical disks 4 are mounted for rotation. From the longitudinal axis of symmetry of the harrow, disks 4 mounted symmetrically, mirror to each other and rotated in opposite directions with the same angle of attack. The longitudinal sides of the frame 1, through the fasteners 5, 6, 7 and 8, have front and rear consoles 8, 9, 10 and 11, on which the copy wheels 12, 13, 14 and 15 are fixed, with a mechanism for vertical movement of the copy wheels. The mechanism can be performed, for example, in the form of a screw pair 16 with a handle 17. At the back of the copy wheels 14 and 15, soil track cultivators are mounted, for example, pointed arms, chisels or any other cultivators 18 and 19. A roller is attached to the rear consoles 10 and 11 - soil leveling device, for example, spiral type 20, helical spirals 21 of which are directed from the edges to the center of the roller. The harrow is also equipped with support transport wheels 22 and 23, located between the rear transverse beam of the harrow frame and the roller - soil leveling device 20, which can be raised up and down with the help of hydraulic cylinders 24 and 25, rods 26 and 27 and articulated levers 28 and 29. Hydraulic cylinders 24 and 25 using pipelines 30 and 31 are connected to the hydraulic system of the tractor (not shown in figure 1). A beam 32 with a working body 33 is placed along the symmetry axis of the harrow. The harrow is equipped with a towing device 34 to the tractor (the tractor is not shown in Fig. 1).

The harrow works as follows. The towbar 34 connects the harrow to the tractor. Pipelines 30 and 31 are connected to the hydraulic system of the tractor and oil is supplied under pressure, which through hydraulic cylinders 24 and 25, and through rods 26 and 27 transfers force to the articulated levers 28 and 29, which rotate to lower the support transport wheels 22 and 23 to the position shown in Fig. 1 (side view), raising the harrow and the roller-leveling soil 20 above the surface of the earth, i.e. the harrow is in transport position. In this condition, the discs 4 and the copy wheels 12, 13, 14 and 15 of the harrow are also raised above the surface of the soil.

The harrow is ready for transportation to the place of work. The support transport wheels 22 and 23, located between the rear transverse bar of the harrow frame and the soil leveling roller, allow the harrow to freely overcome the recesses along the harrow, since they are close to the towing device, and the close distance between the support transport wheels allows it to be transported by narrow country roads.

In the workplace, i.e. on the field, the harrow is lowered to the working position, for this the supporting transport wheels 22 and 23 are raised, and the harrow with discs 4 is lowered to the soil. Checks the correct installation of the copy wheels 12, 13, 14 and 15, for this they are installed at the same level in a position that provides the specified depth of tillage using a screw pair 16 with the handle 17. During the working movement of the harrow forward, all the discs of the harrow are buried in the soil for a given depth to the contact of the copy wheels 12, 13, 14 and 15 with the soil. During the first pass, the depth gauge (ruler) determines the obtained soil cultivation depth and the immersion value of the copy wheels and, if necessary, an adjustment is made to the adjustment. Since the rear copy wheels 14 and 15, going over the treated soil, will be immersed in it more than the front wheels 12 and 13, so this should also be taken into account by the adjustment. In this case, the weight of the harrow should be guaranteed to ensure the deepening of the disks 4. The skating rink 20 is lowered to the surface of the soil and will level the treated soil with its weight. After this, the harrow is completely ready for field work.

Due to the fact that the discs of the harrow 4 are guaranteed to be at a given depth and with the help of the copy wheels 12, 13, 14 and 15 they repeat the soil profile, the harrow provides tillage evenly in depth, without its “ascent” or excessive immersion, which does not positively reflect only on the quality of soil cultivation, but also on the work of the tractor, which becomes more stable in terms of traction resistance and the operation of the tractor engine. There are no sharp jumps in engine power, jerks, etc. The dynamic load on the chassis of the tractor is reduced and fuel consumption is made smaller and more uniform. The harrow becomes energy efficient. The lack of unfolding efforts of the harrow and the balance in the transverse plane, eliminates its yaw, makes the furrows of the correct shape (see fig.2b), and a possible flaw on the axis of symmetry of the harrow (fig.2a) is removed by the working body 33, which can be a spherical disk mounted on the beam 32. In this case, the profile of the cultivated soil will be as shown in Fig.2b. Symmetrical arrangement of disks provides steady longitudinal movement

harrows without yaw and turning moment. This is further facilitated by the design of the soil leveling roller 20, the spirals of which 21 are directed toward the center. This eliminates the combing of the field, which makes the treated soil surface even. Behind the copy wheels 14 and 15, cultivators 18 and 19 of the wheel track are placed that fluff the soil treated with discs and then rolled up with the copy wheels 14 and 15. The rippers can be various working bodies, for example, lancet paw, chisel and others.

All the above signs are essential and provide an advantage to the harrow, and a combination of signs ensures the achievement of a technical result. At the end of the working stroke (at the edge of the field), when turning or at the end of the work, the harrow is transferred to the transport position for which the support transport wheels 22 and 23 are lowered down to contact with the soil, as shown in Fig. 1, and the harrow or deployed for the next working passage , or towed to a parking spot.

The utility model is industrially applicable, can be manufactured in a factory.

Claims (7)

1. Trailed disk harrow containing a frame with beams on which working bodies with spherical disks are mounted, a tow hitch and a soil leveling roller, characterized in that the harrow is equipped with supporting copy wheels that are mounted with the possibility of their movement relative to the frame up and down, for example, a screw mechanism. 2. Trailed disc harrow according to claim 1, characterized in that the rear gauge wheels are equipped with wheel track cultivators. 3. Trailed disc harrow according to claim 1, characterized in that the harrow is equipped with a spiral-type soil leveling roller, the spirals of which are directed from the edges to the center. 4. Trailed disc harrow according to claim 1, characterized in that the discs are mounted symmetrically mirrored and directed in opposite directions relative to the axis of symmetry of the harrow. 5. Trailed disc harrow according to claim 1, characterized in that a working body is installed along the axis of symmetry of the harrow, for example, a spherical disk on a rack. 6. Trailed disc harrow according to claim 1, characterized in that the longitudinal side beams of the harrow are equipped with consoles, on which front copy wheels are installed in front, and rear copy wheels and a soil leveling roller on the rear. 7. Trailed disc harrow according to claim 1, characterized in that the support transport wheels are located between the rear transverse beam of the harrow frame and the soil leveling roller.