RU215832U1 - COMBINED SEEDER - Google Patents

Abstract

The utility model relates to agricultural engineering, in particular to seeders for sowing grain crops. The combined sowing unit includes a frame with a towing device, a hopper with sowing units, support wheels, coulters. Each coulter contains a stand, a lancet paw, a seed duct, a knife-like stand. The seed duct has parallel channels for seeds and fertilizers. The fertilizer channel is made in front of the seed channel. The lower part of the channel for fertilizers is directed into the sub-hole space of the coulter, and the lower part of the channel for seeds is deviated from the vertical by an angle less than the maximum angle of repose for seeds and is directed in the direction opposite to the direction of movement of the coulter, and the outlet openings of the channels are located from each other at a distance equal to the required difference in the depth of placement of seeds and fertilizers. Behind the coulters, a roller attachment is installed, containing rollers of a loosening and leveling type, an H-shaped frame, brackets and rods. Each rod has a nut and a spring. Ripper-type roller contains an axle, side and intermediate discs. Side and intermediate disks are mounted on the axle at regular intervals in the horizontal plane. Along the circumference of the side and intermediate discs with equal angular pitch, V-shaped loosening elements are installed, which are rigidly fixed with their vertices along the periphery of the side and intermediate discs, and the sides of the V-shaped loosening elements are directed in different directions from the geometric axis of rotation of the loosening-type roller. The leveling roller contains an axle and conical discs. The smaller bases of the conical discs are directed opposite each other and the larger bases of the conical discs are directed opposite each other in such a way that the periphery of the leveling type roller forms a wedge-shaped surface, the sharp edges of which are directed in the direction of rotation of the leveling type roller. The quality of sowing grain crops is improving. 5 ill.

Description

The utility model relates to agricultural engineering, in particular to seeders for sowing grain crops.

Known combined sowing unit [Patent RU No. 2293460. - Published. February 20, 2007, Bull. No. 5], including a frame with a towing device, a hopper with sowing units, support wheels, coulters. Rollers are installed at the rear of the planter.

However, the well-known sowing unit has a drawback, which includes the impossibility of sowing seeds and fertilizers at different depths, as well as the poor quality of the destruction of soil clods during sowing.

The technical result of the utility model is to improve the quality of sowing grain crops.

The technical result is achieved by the fact that each coulter contains a rack, a lancet paw, a seed duct. Along the axis of symmetry of the lancet paw, a knife-like rack is installed, the front face of which is sharpened and directed with the tip in the direction of movement of the combined sowing unit. The rack is installed at the top of the knife rack. Parallel channels for seeds and fertilizers are made in the seed duct. The fertilizer channel is made in front of the seed channel. The upper parts of both channels are vertical. The lower part of the fertilizer channel is directed into the opener space, and the lower part of the seed channel is deflected from the vertical by an angle less than the maximum angle of repose for seeds and is directed in the direction opposite to the direction of the coulter movement. The outlet openings of the channels are spaced from each other at a distance equal to the required difference in the depth of seed and fertilizer placement. Behind the coulters, a roller attachment is installed, containing rollers of a loosening and leveling type, an H-shaped frame, brackets and rods. A nut and a spring are installed on each rod. Ripper-type roller contains an axle, side and intermediate discs. Side and intermediate disks are mounted on the axle at regular intervals in the horizontal plane. Along the circumference of the side and intermediate discs with equal angular pitch, V-shaped loosening elements are installed, and the V-shaped loosening elements are rigidly fixed with their vertices along the periphery of the side and intermediate disks, and the sides of the V-shaped loosening elements are directed in different directions from the geometric axis of rotation of the loosening roller type. The leveling roller contains an axle and conical discs mounted on the axle with the possibility of free rotation. Conical disks are mounted on the axis alternately. The smaller bases of the conical discs are directed opposite each other and the larger bases of the conical discs are directed opposite each other in such a way that the periphery of the leveling type roller forms a wedge-shaped surface, the sharp edges of which are directed towards the direction of rotation of the leveling type roller. On the lateral surface of each conical disk, semicircular recesses are made in such a way that the formed sharp peaks with equal angular pitch are directed from the larger base of the conical disk towards its smaller base and are perpendicular to the direction of rotation of the conical disk.

Figure 1 shows a combined sowing unit, side view, figure 2 - opener, side view, figure 3 - opener, top view, figure 4 - roller attachment, top view, figure 5 - section of the conical disc along the B-B line.

The combined seeding unit comprises a frame 1 with a towing device 2. In the central part of the frame 1 there is a hopper 3 with seeding units 4. Support wheels 5 and 6 are installed on the frame 1. The rotation of the seeding units 4 is carried out from the support wheel 6 by means of a drive 7. On the frame 1 grain seeder installed coulters 8 in a checkerboard pattern.

Each coulter 8 contains a rack 9, a lancet paw 10, a seed duct 11. A knife-like rack 12 is installed along the axis of symmetry of the lancet paw 10, the front face of which is pointed and directed towards the movement of the combined sowing unit. Rack 9 is installed in the upper part of the knife-like rack 12. Parallel channels for seeds 13 and fertilizers 14 are made in the seed duct And. The channel for fertilizers 14 is made in front of the channel for seeds 13. The upper parts of both channels 13 and 14 are made vertical. The lower part of the channel for fertilizers 14 is directed to the sub-hole space of the coulter 8, and the lower part of the channel for seeds 13 is deviated from the vertical by an angle less than the maximum angle of repose for seeds and is directed in the direction opposite to the direction of movement of the coulter 8. The outlets of the channels 13 and 14 are located from each other at a distance h equal to the required difference in the depth of placement of seeds and fertilizers. Semyatukovod 11 is connected to the racks 9 and 12 through the plates 15 and 16.

The sowing machines 4 are connected by seed and fertilizer ducts (not shown in the figure) to the channels 13 and 14 of the coulters 8. On the frame 1 behind the supporting wheels 6 in the brackets 17, 18, a roller attachment 19 is installed, containing rollers of loosening 20 and leveling 21 type, H- shaped frame 22, brackets 23 and rods 24. A nut 25 and a spring 26 are installed on each rod 24.

Ripper type 20 contains an axle 27, side 28 and intermediate 29 discs. Side 28 and intermediate 29 disks are mounted on the axis 27 at regular intervals in the horizontal plane. Along the circumference of the side 28 and intermediate 29 disks with equal angular pitch, V-shaped loosening elements 30 are installed, and the V-shaped loosening elements 30 are rigidly fixed with their tops along the periphery of the side 28 and intermediate 29 disks, and the sides of the V-shaped loosening elements 30 are directed to different sides from the geometrical axis of rotation of the 20 type loosening roller.

Roller leveling 21 type contains an axle 31 and conical discs 32 mounted alternately on the axle 31 with the possibility of free rotation. The smaller bases of the conical discs 32 are directed opposite each other and the larger bases of the conical discs 32 are directed opposite each other in such a way that the periphery of the leveling roller 21 forms a wedge-shaped surface 33, the sharp edges of which are directed in the direction of rotation of the leveling roller 21 type. On the side surface of each conical disk 32, semicircular recesses 34 are made in such a way that the resulting sharp peaks 35 are directed with equal angular pitch from the larger base of the conical disk 32 towards its smaller base and are perpendicular to the direction of rotation of the conical disk 32.

Combined sowing unit works as follows.

Previously, with the help of a hitch 2, the sowing unit is coupled to the tractor. With the help of sowing machines 4 and drive 7, the required seeding rate is set. Set the required depth of stroke of the lancet paws 10 coulters 8. They ensure that the blades of the lancet paws 10 lie in a horizontal plane, because this ensures a flat furrow bottom, better cutting of weeds and the same depth of placement of seeds and fertilizers. By tightening or unscrewing the nuts 25 located on the rods 24 of the roller attachment 19, the necessary compression or extension of the springs 26 is achieved, thereby regulating the pressure of the rollers 20 and 21 on the soil.

When the combined sowing unit moves, the coulters 8 with the pointed front edge of the knife-like rack 12 cut the topsoil and shift it between the rows. Lancet shares 10 coulters 8 loosen the soil and cut weeds. Seeding machines 4 through the seed and fertilizer ducts direct seeds and fertilizers to the respective channels 13 and 14, the outlets of which are located at different heights, and the line for sowing fertilizers is located below the line of sown seeds. Sown fertilizers and seeds are sprinkled with a layer of soil descending from the wings of the lancet paws 10.

When the combined sowing unit moves, the rotating cultivator of the 20 type copies the topography of the field surface and the sharp edges of the V-shaped cultivator elements 30 break up soil clods with simultaneous loosening and leveling of the field surface, preventing spraying of the upper humus soil layer.

A 21-type leveling roller rotating on the soil also copies the topography of the field surface, destroys soil clods with a wedge-shaped surface 33 in the longitudinal direction and sharp tops 35 of conical disks 32 in the transverse direction. The combined effect of the wedge-shaped surface 33 and sharp peaks 35 allows you to effectively break up soil clods and level the topsoil.

After the passage of the combined sowing unit across the field, the topsoil is leveled, has a finely cloddy structure, and the maximum size of destroyed soil clods does not exceed the minimum size of soil clods allowed by agrotechnical requirements for pre-sowing tillage. The presence of a loose and finely cloddy soil structure in the upper soil layer prevents the evaporation of moisture and the formation of cracks on the soil surface.

The installation of openers 8 on the frame 1 of the sowing unit in a checkerboard pattern allows loosening and cutting weeds on the field surface without flaws due to the overlapping of the wings of the lancet paws 10 of the openers 8.

Improving the quality of sowing is achieved by making channels 13 and 14 in the seed duct 11 in such a way that the outlet openings of the channels 13 and 14 are located from each other at a distance equal to the required difference in the depth of placement of seeds and fertilizers, which also allows seeds and fertilizers without additional resistance move in channels 13 and 14 from the inlet to the outlet and qualitatively fit into the soil at different heights.

The deviation of the lower part of the seed channel 13 from the vertical at an angle less than the maximum angle of repose for seeds and its direction in the direction opposite to the direction of movement of the coulter, makes it possible to exclude clogging of the outlet of the seed channel 13 with soil and plant debris, especially at the time of deepening coulters into the soil, which also directly affects the quality of sowing.

The presence of a loosening roller 20 type allows not only to destroy the soil clods remaining after the passage of the coulters 8 with high quality, but also to evenly loosen the top layer of soil to the required depth.

The presence of a type 21 leveling roller allows not only crushing soil clods, but also loosening the top layer of soil to the required depth, evenly compacting the soil with a given agrotechnical requirements, preventing evaporation of moisture from the soil and the formation of cracks in the field surface.

Installing the side 28 and intermediate 29 disks on the axis 27 at regular intervals in the horizontal plane makes it possible to eliminate the deflection of the V-shaped loosening elements 30 towards the axis 27 when they interact with the field surface.

Installation on the axis 31 of the conical disks 32, with the possibility of their free rotation, in turn, that the smaller bases of the conical disks 32 are directed opposite each other and the large bases of the conical disks 32 are directed opposite each other in such a way that the periphery of the leveling roller 21 forms a wedge-shaped surface 33, the sharp edges of which are directed in the direction of rotation of the 21 type leveling roller, allows the leveling 21 type roller to penetrate the soil with the greatest efficiency and destroy hard clods.

Execution on the side surface of each conical disk 32 recesses 34 of a semicircular shape in such a way that the formed sharp tops 35 with equal angular pitch are directed from the larger base of the conical disk 32 towards its smaller base and perpendicular to the direction of rotation of the conical disk 32, allows you to qualitatively destroy the soil clods, the maximum size of which will not exceed the minimum allowable agrotechnical requirements for sowing values.

The presence of rods 24 with nuts 25 and springs 26 allows the rollers of loosening 20 and leveling 21 type, when they rotate, to copy the topography of the field surface and, accordingly, evenly affect the soil.

This improves the quality of sowing, ensures the best contact of seeds with soil and improves temperature, water and air conditions for plant development.

Claims (1)

Combined sowing unit, including a frame with a towing device, a hopper with seeding units, support wheels, coulters, characterized in that each coulter contains a rack, a lancet paw, a seed duct, a knife-like rack is installed along the axis of symmetry of the lancet paw, the front edge of which is pointed and pointed in the direction of movement of the combined sowing unit, the rack is installed in the upper part of the knife-shaped rack, parallel channels for seeds and fertilizers are made in the seed duct, the fertilizer channel is made in front of the seed channel, the upper parts of both channels are vertical, the lower part of the fertilizer channel is directed to the coulter space, and the lower part of the channel for seeds is deviated from the vertical by an angle less than the maximum angle of repose for seeds and directed in the direction opposite to the direction of movement of the coulter, and the outlet openings of the channels are located from each other at a distance equal to t the required difference in the depth of placement of seeds and fertilizers, a roller attachment is installed behind the coulters, containing rollers of a loosening and leveling type, an H-shaped frame, brackets and rods, a nut and a spring are installed on each rod, a loosening-type roller contains an axle, side and intermediate disks, side and intermediate disks are installed on the axis at regular intervals in the horizontal plane, V-shaped loosening elements are installed along the circumference of the side and intermediate disks with equal angular pitch, and the V-shaped loosening elements are rigidly fixed with their vertices along the periphery of the side and intermediate disks, and the sides V -shaped loosening elements are directed in different directions from the geometrical axis of rotation of the loosening-type roller, the leveling-type roller contains an axle and conical disks mounted on the axle with the possibility of free rotation, and the conical disks are installed alternately on the axle, the smaller bases of the conical disks are directed opposite each other a and large bases of the conical disks are directed opposite each other in such a way that the periphery of the leveling type roller forms a wedge-shaped surface, the sharp edges of which are directed towards the direction of rotation of the leveling type roller, semicircular recesses are made on the side surface of each conical disk in such a way that the formed sharp peaks with equal angular pitch are directed from the larger base of the conical disk towards its smaller base and are perpendicular to the direction of rotation of the conical disk.

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