RU2707809C1 - Tillage equipment - Google Patents

Abstract

FIELD: agriculture; machine building.SUBSTANCE: invention relates to the field of agricultural machine building. Soil-tillage tool comprises frame (1) and battery with spherical cut-out discs (6). On frame (1) on traces of drive wheels of the tractor two identical fasteners are made, consisting of two plates with holes for adjustment of depth of soil treatment, between which soil piers (13) are fixed by bolts through matched holes taking into account the specified depth of soil treatment.EFFECT: providing course stability of MTA at soil processing on all ranges of working speeds, uniformity of depth of working elements with simultaneous decompaction of soil, conversion of MTA into correct traction mode on different soils by physical properties.1 cl, 4 dwg

Description

The invention relates to agricultural machinery, in particular to implements for tillage.

A tillage tool is known, comprising a hitch, front and rear frames, articulated to rotate the rear frame relative to the front frame using a double-acting hydraulic cylinder, the front and rear beams with front and rear batteries mounted on them at an angle to each other with spherical cut-out batteries half disks fixed in pairs on the shaft flanges with bolts and nuts, while the front battery with spherical cut out half disks is driven by a tractor power take-off shaft without a cardan gear and a cylindrical gearbox mounted on the left end of the front beam, the front and rear batteries with spherical notched half-disks are installed at an angle of 45 ° to each other in the horizontal plane, and the angle of attack of the front battery is 22 °, while the hinge axis connecting the front and rear frames, parallel to the axis of the front battery with spherical notched half-disks, the front frame is made in one node with a front beam and a hitch, and the rear frame is made in another node with a rear beam, and the rear frame has a fix OR for transport position (Patent No. 2657738 IPC А01В 7/00).

The disadvantages of the tillage tool are: during tillage, lateral withdrawal of the machine-tractor unit (MTA) occurs due to the fact that the rotor of the machine is installed at a certain angle of attack, this affects the handling and directional stability. With an increase in the working speed of the unit on the processing of heavy clay and also soddy soils, the soil-cultivating unit is deepened, as a result, the uniformity of the depth of travel is violated. A significant pushing force of the rotor creates the prerequisites for the occurrence of spurious power in the tractor transmission.

The closest in technical essence is a tillage tool with an active drive of the working bodies, containing a frame and spherical disks, the battery with spherical cut-out disks mounted on the implement frame at such an angle of attack α = 18 ° so that the rear cutting angles ξ of the disks have a negative value - ξ = -12 ° to ensure mutual balancing of the transverse forces P and P1 acting on the disk battery during operation (Patent No. 2453086 IPC А01В 7/00).

The disadvantage of this device is the occurrence of lateral withdrawal of the machine-tractor unit (MTA), a significant pushing force of the rotor and the deepening of the rotor plow when working on solid soils and at high operating speeds.

The objective of the invention is aimed at ensuring the exchange rate stability of MTA during soil cultivation at all ranges of operating speeds, ensuring uniformity of the depth of travel of working bodies with simultaneous softening of the soil, and ensuring that the MTA is in the correct traction mode on soils with different physical properties.

The technical result is achieved by the fact that on the frame following the tracks of the driving wheels of the tractor two identical fasteners are made, consisting of two plates with holes for adjusting the depth of the soil cultivation, between which the soil shovels are fastened through the combined holes, taking into account the given depth of soil cultivation.

In FIG. 1 shows a tillage implement, top view; in FIG. 2 - tillage implement, side view; in FIG. 3 - mount subsoiler; in FIG. 4 - subsoiler.

The tillage implement consists of a frame 1, on which a three-point mounted attachment 2 is mounted to the tractor, a drive gear 3, fixed rigidly on the left beam of the frame 1, a disk battery, which is made in the form of a horizontal shaft 4. On a horizontal shaft 4 having flanges 5, set spherical cut-out discs 6 and fasten them with bolts 7 to the flanges 5. The drive from the tractor power take-off shaft to the drive gearbox 3 of the disk battery is transmitted through the intermediate support 8 using the driveshaft 9 and the driveshaft 10. Gl Bina stroke working bodies support the support wheel 11 mounted to the adjusting device 12. On the frame 1 in the wake of the drive wheels has two identical in construction and interchangeable subsoiler 13, left and right. The fastener 14 for installing the left and right subsoilers 13 is the same in design, made in the form of two pairs of plates 14 rigidly fixed on the frame 1 with holes 15 arranged vertically in increments of 5 cm to allow the installation of different depths of processing h of the subsoilers 13.

The subsoilers 13 are made in the form of paws having holes in the upper part 16 located vertically at a distance of 10 cm. The subsoilers 13 are installed between two plates of their fastening 14 taking into account the specified depth of tillage and are bolted through the combined holes of the subsoilers 13 and the mounting plates 14.

The tillage tool works as follows. After deepening by means of a three-point mounted device 2 mounted on the frame 1, the support wheel 10 and the adjusting device 11, the working bodies into the soil when the unit moves, spherical disks 6 (active working bodies) mounted on the horizontal axis 4 loosen the soil to a predetermined depth h _p , at the same time, the plant mass is ground and the roots of the plants are torn from the soil, depriving them of a nutrient medium, and embedded in the upper layer (0 ... 12 cm) as a source of decomposable carbon. The drive from the tractor power take-off shaft to the drive gearbox 3 of the disk battery is transmitted through an intermediate support 8 using a cardan shaft 9 and a cardan drive 10. Subsoilers (passive working bodies) located in front of the rotor during MTA movement soften the soil along the tracks of the drive wheels with its front surface interacting with the soil, they provide constant deepening of the rotor on one side and create additional resistance when cultivating the soil with the rotor, transferring the MTA to the correct traction mode on the other hand, The touch surface subsoiler interact with soil and serve as the landside preventing lateral withdrawal of the rotary plow, ensuring directional stability, better handling AIT, providing the possibility of increasing the operating speed, and hence improve performance.

Agrotechnological methods and the design of the rotary plow for cultivating the field in alternative farming have been improved, which ensures the maintenance of the optimal traction mode and exchange rate stability of the MTA, the uniformity of the tillage with the incorporation of organic matter into its upper layer in one pass. Machines with active spherical disks as part of traction drive units are the most promising soil tillage technologies in alternative biological farming technologies. They do not create a plow sole, form the optimal structure of the cultivated soil layer, are capable of embedding siderate and crop residues in the upper soil layer. The tests showed that the passive working bodies-subsoilers mounted on the rotary plow contribute to the stabilization of the progress of the machine-tractor unit. Regardless of the working speed, the tillage unit moves linearly without additional effort from the side of the machine operator. The installation of subsoilers allows not only to stabilize the exchange rate stability of the MTA, but also transfers it to the correct traction mode, which increases the service life of the tractor transmission and improves its controllability.

Claims (1)

A tillage implement containing a frame and a battery with spherical cut-out disks, characterized in that on the frame along the tracks of the tractor’s driving wheels two identical fasteners are made, consisting of two plates with holes for adjusting the depth of the soil cultivation, between which the soil-cultivators are fixed through bolts with combined holes, taking into account set depth of tillage.

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