RU191134U1 - COMBINED SOIL PROCESSING UNIT - Google Patents

Abstract

The utility model relates to agricultural machinery, in particular to tillage units for surface pre-sowing cultivation of the soil. The combined tillage unit includes a frame, a device for connecting to a tractor, adjustment mechanisms, support wheels, working bodies containing a stand and a flat-cutting leg, disk sections. Disk sections are installed in front of the working bodies. Each disk section contains a frame, an axis and spherical disks, and the disk sections are mounted at an angle to the direction of movement of the tillage unit. Behind the working bodies, a tillage mill is installed, containing a shaft, flange mounts, L-shaped knives and the drive of the tillage mill. A roller attachment is installed behind the tillage cutter, containing sequentially mounted rollers, an H-shaped frame, brackets and rods. Each rod has a nut and spring. Each roller contains an axis, side and intermediate disks mounted on the axis at equal intervals in the horizontal plane, rippers. On the periphery of the side and intermediate discs, triangular recesses are made. The rippers are mounted in triangular recesses of the side and intermediate discs so that they form a helical line. The direction of the helical line of the front roller is directed from the left side disc to the side of the right side disc. The direction of the helical line of the rear roller is directed from the right side disc towards the left side disc. The cultivators in the cross section are diamond-shaped and with sharp edges pointing in different directions from the geometrical axes of rotation of the rollers. Such a design of the combined tillage unit will improve the quality of presowing cultivation of the soil.

Description

The utility model relates to agricultural engineering, in particular, to tillage units for surface presowing cultivation of the soil.

Known tillage unit [Tillage unit. Patent RU No. 130183. Publ. 07/20/2013, Bull. No. 20], including a frame, a device for connecting to a tractor, a control mechanism, a support wheel, working bodies containing a rack and a flat-cutting leg, and a disk section is installed between the working bodies.

However, the known tool has a disadvantage, which can be attributed to the unsatisfactory quality of tillage.

The technical result is an increase in the quality of pre-sowing tillage.

The specified technical result is achieved by the fact that the disk sections are installed in front of the working bodies. Each disk section contains a frame, an axis and spherical disks, and the disk sections are set at an angle to the direction of movement of the tillage unit. Behind the working bodies, a tillage cutter is installed, containing a shaft, flange mounts, L-shaped knives and a shaft drive. A roller prefix is installed behind the tillage cutter, containing sequentially mounted rollers, an H-shaped frame, brackets and rods. A nut and a spring are installed on each rod. Each roller contains an axis, side and intermediate disks mounted on the axis at equal intervals in the horizontal plane, rippers. On the periphery of the side and intermediate discs, triangular recesses are made. Rippers are installed in triangular recesses of the side and intermediate discs so that they form a helix. The direction of the helical line of the front roller is directed from the left side disc to the side of the right side disc. The direction of the helical line of the rear roller is directed from the right side disc towards the left side disc. The rippers in the cross section are rhombic and with sharp edges are directed in different directions from the geometric axes of rotation of the rollers.

In FIG. 1 shows a combined tillage unit, side view, in FIG. 2 is the same, top view, in FIG. 3 - fastening of L-shaped knives, in FIG. 4 - roller prefix, top view.

The combined tillage unit contains a frame 1, a device 2 for connecting to a tractor, control mechanisms 3, support wheels 4, working bodies 5, disk sections 6. Working bodies 5 contain a rack 7 and a flat-cutting leg 8. Disk sections 6 are installed in front of the working bodies 5. Each disk section 6 contains a frame 9, an axis 10 and spherical disks 11, and the disk sections 6 are mounted at an angle to the direction of movement of the combined tillage unit. Behind the working bodies 5, a tillage cutter 12 is installed, comprising a shaft 13, flange mounts 14, L-shaped knives 15 and a drive for a tillage cutter 12, including a drive shaft 16, bearings 17 of the drive shaft 16, a chain 18 and a bevel gear 19. Flange mounts 14 are mounted on the shaft 13 at equal distances. L-shaped knives 15 are mounted on flange mounts 14 with bolts 20 with nuts 21.

On the frame 1 of the combined tillage unit behind the tillage cutter 12, the roller attachment 23 is mounted by means of the couplers 22. The roller attachment 23 contains sequentially mounted rollers 24 and 25, an H-shaped frame 26, brackets 27 and rods 28. A nut 29 and a spring 30. Each roller 24 and 25 contains an axis 31, side 32, 33 and intermediate 34 disks mounted on axles 31 at equal intervals in the horizontal plane, rippers 35. Triangular triangular on the periphery of side 32, 33 and intermediate 34 disks yemki. Rippers 35 are mounted in triangular recesses of the side 32, 33 and intermediate 34 discs so that they form a helix. The direction of the helical line of the front roller 24 is directed from the left side 32 of the disk in the direction of the right 33 of the side disk. The direction of the helical line of the rear roller 25 is directed from the right 33 of the side disk to the side of the left 32 of the side disk, and the rippers 35 in the cross section are diamond-shaped and with sharp edges are directed in different directions from the geometric axes of rotation of the rollers 24 and 25.

The roller attachment 23 is installed with the ability to copy the relief of the field surface and regulate the pressure on the soil surface.

Combined tillage unit operates as follows.

Pre-combined tillage unit is coupled to the tractor by means of device 2. The drive shaft 16 of the tillage cutter 12 is connected to the tractor power take-off shaft. Set the required depth of tillage, for which control mechanisms 3 set the required reach of the support wheels 4 relative to the lower points of the spherical discs 11 and the cutting edges of the wings of the plane-cutting legs 8. Also set the required depth of processing by the tillage cutter 12 by means of a screw mechanism 36. By moving the nuts 29 along the rods 28 establish the necessary compression of the springs 30, thereby adjusting the pressure of the roller attachment 23 on the soil. The combined tillage unit is transferred from the working position to the transport position by means of wheels 37 by hydraulic cylinders 38.

When moving the combined tillage unit, spherical discs 11, mounted at an angle to the direction of movement of the tillage unit, loosen the upper soil layer to a depth of 12 cm and destroy the upper solid soil layer. Ploskorezhenie paws 8 loosen the soil layer to a depth of 16 cm and cut weeds. The drive of the tillage cutter 12, installed behind the working bodies 5, is carried out from the tractor power take-off shaft by means of a drive shaft 16 installed in the bearings 17, as well as a chain 18 and bevel 19 gears. Tillage cutter 12, when rotating, with L-shaped knives intensively loosens the soil layer to a depth of 8 cm.

During rotation, the roller 24 copies the relief of the field surface, destroys the lumps of soil with the cultivators 35 and partially moves the soil in the direction from the left side 32 of the disk to the right 33 of the side disk of the roller 24. At the same time, the sharp triangular tops of the cultivators 35 penetrate the soil to the required depth and contribute to high-quality loosening the topsoil.

Next, the rotating roller 25 also copies the relief of the field surface and, when rotated, the cultivators 35 mulch the undisturbed soil lumps with a partial movement of the soil layer in the direction from the right 33 lateral disk to the left 32 of the lateral disk.

The presence of disk sections 6, installed at an angle to the direction of movement of the tillage unit, allows you to pre-loosen over-compacted or hard soil and destroy large lumps of soil.

The installation of the working bodies 5 on the frame 1 allows you to cultivate the soil to the required depth while cutting weeds. In addition, after the passage of plane-cutting paws 8, a compacted bed is provided for laying sown seeds of cultivated plants, which, according to the agrotechnical requirements for sowing, has a positive effect on the growth and development of the cultivated crop.

The presence of tillage cutter 12 allows you to qualitatively destroy the soil lumps and mulch the upper soil layer to a depth of future seed placement (up to 8 cm from the field surface level), which will prevent the evaporation of moisture from the lower soil layers.

The presence of rollers 24 and 25, containing axes 31, side 32, 33 and intermediate 34 discs and cultivators 35, allows not only to destroy with high quality soil clods remaining after the passage of the tillage cutter 12, to loosen the top soil layer to the required depth, but also evenly compact and level the topsoil with the specified agrotechnical parameters.

The presence of the rods 28 with nuts 29 and springs 30 allows the rollers 24 and 25, as they rotate, to copy the surface topography of the field and, accordingly, evenly affect the soil.

The installation of lateral 32, 33 and intermediate 34 discs on the axes 31 at equal intervals in the horizontal plane eliminates the deflection of the rippers 35 towards the axes 31 when they interact with hard lumps on the soil surface.

The installation of rippers 35 in the triangular recesses of the side 32, 33 and intermediate 34 discs in such a way that they form a helix, allows the rippers 35 to penetrate the soil smoothly and without impact, to exclude vibrations and "bouncing" rollers 24 and 25.

The implementation of the cultivators 35 in the cross section in the form of a rhombus and their installation with sharp edges in different directions from the geometric axes of rotation of the rollers 24 and 25 - allows the cultivators 35 sharp edges effectively destroy the lumps of soil.

The use of a combined tillage unit improves the quality of soil cultivation, improves the water regime and air conditions for the subsequent development of cultivated plants. In addition, several technological operations are performed in a single pass of a combined soil cultivating unit, which reduces soil moisture losses.

Claims (1)

Combined soil cultivating unit including a frame, a device for connecting to a tractor, control mechanisms, support wheels, working bodies containing a rack and a flat-cutting leg, disk sections, characterized in that the disk sections are installed in front of the working bodies, each disk section contains a frame, an axle and spherical disks, moreover, disk sections are installed at an angle to the direction of movement of the tillage unit, behind the working bodies there is a tillage cutter containing a shaft, flange fasteners, L-shaped knives and tillage cutter drive, a roller attachment is installed behind the tillage cutter containing sequentially mounted rollers, an H-shaped frame, brackets and rods, a nut and a spring are installed on each rod, each roller contains an axis, side and intermediate disks, rippers mounted on the axis at equal intervals in the horizontal plane, rippers, triangular recesses are made along the periphery of the side and intermediate disks, rippers are installed in triangular lateral and intermediate recesses disks in such a way that they form a helix, the direction of the helical line of the front roller is directed from the left side disc to the side of the right side disc, the direction of the helix of the front roller is directed from the right side disc to the side of the left side disc, and the rippers in the cross section are diamond-shaped and sharp edges are directed in different directions from the geometric axes of rotation of the rollers.

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