RU2316929C1 - Combined seeding unit (versions) - Google Patents

Abstract

FIELD: agricultural engineering.

SUBSTANCE: combined seeding unit has frame, seed hopper, at least one seeding apparatus, wheel drive, penetration mechanisms, and shanks. Seeding unit is further provided with mechanisms for stabilizing motion of each shank in vertical plane, mechanisms for adjusting seeding depth for each shank and mechanisms for synchronizing motion of each shank with soil micro relief. Mechanism for stabilizing motion of each shank in vertical plane has adjusting screw. One end of screw is fixed in adjusting threaded support. Other end of screw extends in sliding manner through opening provided within cylindrical pivot joint which is connected to frame for rotation around horizontal pin fixed in frame. Between cylindrical pivot joint and adjusting threaded support on the underside of frame there is spring through which adjusting screw is passed. Adjusting screw has stroke restricting device positioned outside the cylindrical pivot joint, above frame. Threaded support is pivotally connected to fork for attachment of wheel to shank lug and tine. Mechanism for synchronizing motion path of each shank with soil mesorelief consists of bracket fixed on frame and provided with two pivot joints. Parallel levers equal in length are fixed in pivot joints, their second ends being pivotally fixed on shank tine. According to first version, mechanism for adjusting seeding depth of each shank consists of two threaded rods. One of rods is pivotally fixed on wheel attachment fork and other rod is fixed on shank tine. Other ends of rods are connected by means of Roman nut. Fork is pivotally fixed on shank tine below threaded rod attachment site. According to second version (free of wheels with lugs), shank tine has two brackets with bushings at their ends equipped with openings for attachment of adjustable bars connected to carrier wheels. Bars have set of adjusting openings for retaining fingers passing through horizontal openings in sleeve bodies and openings in bars. Adjusting threaded support is pivotally connected to shank tine.

EFFECT: provision for more precise following of soil mesorelief and uniform distribution of seeds through depth and thereby increased crop yield.

3 cl, 6 dwg

Description

The invention relates to the field of agricultural engineering, in particular to the coulters of sowing machines, and is used to achieve uniformity of seed placement in depth in the fields with pronounced mesorelief and reduce energy consumption.

Known stubble seeder, including the coulter with the seed tube mounted on the frame of the seeder, a rack with a frontal surface in the form of a wedge, a pointed arm and two needle discs installed in front of the rack, while the needle discs are installed at an angle of attack to the direction of movement equal to half the angle of the blade opening paws, and the axis of the discs are interconnected by a flexible link so that the needles on the discs are offset in the angle of rotation by half the pitch of the needles on the discs and the paths of rotation of the ends of the needles intersect on the front and on the back SRI crop legs, and wherein the point of intersection of the axes drives located on the vertical line passing through the center of the arc frontal wedge surface (patent RU №2120723, Cl. A01C 7/20, publ. 1998.10.27).

A disadvantage of the known stubble seeder is the uneven seeding of seeds in depth in fields with a pronounced relief and mesorelief.

A stubble seed drill coulter is known, comprising a stand, a seven-conductor and a lancet paw, which is attached to the rear side of the coulter stand, the stand itself having the shape of a cultivating tooth of a cultivator, and the bottom edge of the stand is in the cutting plane of the lancet paw (RU patent No. 22219696, Cl. 7 A01C 7/20, publ. 2003.12.27).

A disadvantage of the known seeder is the unloading of soil in front of the coulter.

A coulter is also known, including disks with flanges fixed to them, earthing and a leash with a spring on it, and the flanges are made in the form of a spherical belt, and each of them is paired with the disk by means of equally spaced pins placed in the stepped grooves of the disk (patent RU No. 2219697, Cl. 7 A01C 7/20, publ. 2003.12.27).

A disadvantage of the known opener is that it can only be used on previously prepared soil (plowing, cultivation, harrowing).

Also known is the combined sowing unit AUP-18 manufactured by JSC "Selmash", the city of Syzran, Samara region. A sowing unit includes a frame, a seed hopper, grain and fertilizer sowing machines, packer rollers, a wheel drive, a burrowing mechanism and openers, including a lancet foot and a stand.

The disadvantage of the combined sowing unit AUP-18 is the uneven seeding of seeds in depth in the fields with a pronounced mesorelief due to the rigid attachment of the coulters on the frame, clogging of the coulter stand with crop residues, the lack of vertical adjustment of the position of the coulter paw.

Closest to the claimed invention (prototype) is a sowing unit including a frame and openers, each of which is equipped with a mechanism for adjusting seed placement (depth of the furrow) and a mechanism for copying the topography of the soil, consisting of a mechanism for moving the opener in the vertical plane and a mechanism for stabilizing the movement of the opener in the vertical direction (SU No. 1501940).

The disadvantage of the prototype is the high resistance of the soil to the movement of the coulter rack and the distance of the coulter axis from the axis of the support wheels, which leads to increased energy consumption and poor copying of the field surface.

The objective of the invention is to remedy these disadvantages and create a combined sowing unit, which reduces energy consumption during tillage and improves the copying of the field surface for more uniform seed placement.

The problem is solved by the proposed options for a combined sowing unit, the first version of which contains a frame, a hopper for seeds, at least one sowing unit, a wheel drive, a deepening mechanism, openers, in which additional mechanisms for stabilizing the movement of each opener in the vertical direction, depth adjustment mechanisms are introduced seed placement of each opener, mechanisms for synchronizing the path of each opener with the mesorelief of the soil, and the mechanism for stabilizing the movement of each opener The vertical axis contains an adjusting screw, one end of which is fixed in the adjusting threaded support, and the other end of the screw slides through a hole in a cylindrical hinge connected to the frame with the possibility of rotation around a horizontal axis fixed in the frame, while between the cylindrical hinge and with an adjusting threaded support on the subframe, a spring is installed through which an adjusting screw passes, having a travel stop installed outside the cylindrical about the hinge above the frame, and the specified threaded support is pivotally connected to the wheel mounting fork with the flange and the coulter stand, and the mechanism for adjusting the seed placement depth of each coulter consists of two threaded rods, one of which is pivotally mounted on the fork and the other on the coulter stand, moreover, the second ends of the threaded rods are connected by a Roman nut, and on the coulter stand below the attachment point of the threaded rod the fork is pivotally fixed, while the mechanism for synchronizing the path of each coulter with the mesorelief of the soil consists um from a bracket fixed to the frame with two hinges in which parallel levers of the same length are fixed, the second ends of which are pivotally mounted on the coulter stand.

The second embodiment of the combined sowing unit contains a frame, a hopper for seeds, at least one sowing unit, a wheel drive, a deepening mechanism, openers, in which additional mechanisms for stabilizing the movement of each opener in the vertical direction, mechanisms for adjusting the depth of seed placement of each opener, mechanisms are additionally introduced synchronization of the motion path of each opener with the soil mesorelief, and the mechanism for stabilizing the movement of each opener in the vertical direction contains an adjustment th screw, one end of which is fixed in the adjusting threaded support, and the other end of the screw slides through a hole in a cylindrical hinge connected to the frame with the possibility of rotation around a horizontal axis fixed in the frame, while between the cylindrical hinge and the adjusting threaded support with a spring is installed on the sub-side, through which an adjustment screw passes, having a travel stop mounted outside the cylindrical hinge above the frame, while the synchronization mechanism t The motion pattern of each coulter with a mesorelief of the soil consists of a bracket mounted on the frame with two hinges, in which parallel levers of the same length are fixed, the second ends of which are pivotally mounted on the coulter stand, and the last has two brackets with bushings at the ends, holes for fastening the adjustable rods connected to the support wheels, while the rods have several adjustment holes for the fixing fingers passing through horizontal holes in the housing lug and holes in the rods, and the adjusting threaded support is pivotally connected to the coulter stand.

The invention is illustrated by drawings, in which Fig. 1 shows a General view of the proposed combined sowing unit according to the first embodiment, Fig. 2 is a side view of the attachment unit of the coulter to the seeder frame in the presence of a wheel with a flange, Fig. 3 is the same top view , Fig. 4 is a side view of the attachment unit of the coulter to the seeder frame when using support wheels, Fig. 5 is the same front view, Fig. 6 shows a general view of the combined sowing unit according to the second embodiment.

The proposed combined sowing unit according to the first embodiment (Fig. 1) contains a frame 1, a hopper 2 for seeds, at least one sowing device 3, a wheel drive 4, a deepening mechanism 5, openers 6. Each opener 6 (Figs. 2-3) has a mechanism for stabilizing the movement of the coulter in the vertical direction, which contains an adjusting screw 7, one end of which is fixed in the adjusting threaded support 8, the second end of the screw 7 slides through a hole in the cylindrical hinge 9, rotatably connected to the frame 1 I am around the horizontal axis 10 fixed in the frame. Between the hinge 9 and the adjusting threaded support 8, a spring 11 is installed on the subframe, through which an adjustment screw 7 passes, having a travel stop 12 mounted outside the cylindrical hinge 9 above the frame 1, and this support 8 is pivotally connected to the fork 13 of the wheel 14 with the flange 15 and stand 16 opener 6.

The mechanism for adjusting the depth of seed placement of each opener consists of two threaded rods 17, one of which is pivotally mounted on the fork 13, and the other on the stand 16 of the opener 6, the second ends of the threaded rods 17 connected by a “Roman” nut 18, and on the stand 16 of the opener below the fastening point of the threaded rod 17, the fork 13 is pivotally fixed. The mechanism for synchronizing the path of each opener with the mesorelief of the soil consists of a bracket 19 fixed to the frame 1 with two hinges 20, in which parallel levers 21 of the same liny, second ends which are hinged on the rack 16 coulter 6.

In the second embodiment of the combined sowing unit (FIG. 6), the coulter stand may have two brackets 22 with bushings 23 at the ends (FIGS. 4-5). In these bushings, holes are made for fastening the adjusting rods 24 connected to the support wheels 25. At the same time, the rods 24 have several adjustment holes 26 for the fixing pins 27 passing through horizontal holes in the housings of the bushings 23 and the holes in the rods 24, and the adjusting threaded support 8 is pivotally connected to the counter 16 of the opener 6 by means of a support bracket 28.

The proposed combined sowing unit operates as follows. Before leaving the field, the combined sowing unit is installed on the adjustment platform. The mechanism of deepening 5 is translated into working position. Previously, under each wheel 14 with a flange 15, a support is substituted, the thickness of which is equal to the depth of seed placement (according to the first embodiment). Then, using the mechanism for adjusting the depth of seed placement ("Roman" nut 18), it is ensured that the lower edge of the opener legs 6 fits snugly against the surface of the adjustment platform. Thus, the seed depth is adjusted. Using the locknuts (not shown in the drawings), the "Roman" nut is locked in position. Then the unit leaves the field. When moving along a field with a pronounced mesorelief, the wheel 14 with the flange 15, rolling around the surface, carries the coulter stand 16 along with it. At the same time, the springs 11 experience alternating loads, the screw 7 moves in a cylindrical hinge 9. The upward movement of the screw 7 is limited by the maximum compression of the spring 11, and stroke screw 7 down - limiter 12 moves. The length of the screw 7 and the stiffness of the spring 11 are selected in such a way as to stabilize the amplitude of the vibrations of the coulter rack within the limits corresponding to the amplitude of vibrations of the mesorelief. When the wheel 14 is bending around irregularities in the field relief, the wheel through the fork 13 and the seed depth adjustment mechanism (“Roman” nut 18) acts on the rack 16, moving it up or down, and parallel levers 21 move with the rack, due to these levers, synchronization occurs trajectories of movement of each opener with soil mesorelief.

When cutting through the flange 15 of the field surface and crop residues, clogging of the coulter stand 16 is prevented by crop residues and vegetation. In addition, the pressure of the wheel 14 on the soil is reduced, which prevents the soil from rolling before the lancet foot of the coulter. Due to the combination of the described mechanisms, the coulter paw copies the mesorelief of the field surface and the set seed placement depth is maintained over the entire capture width of the unit, in addition, the soil resistance to the unit’s movement is reduced and energy consumption (fuel consumption) is reduced.

Combined sowing unit can be used without wheels with a flange (Fig.4, 5, 6) (second option). In this case, on the rack 16 of the opener 6 are fixed brackets 22 with bushings 23 at the ends. Holes are made in these bushings for fastening the adjustable rods 24, connected to the support wheels 25, while the rods have several adjustment holes 26 for the fixing pins 27, passing through horizontal holes in the bushings and holes in the rods, and the support 8 is pivotally connected to the rack 16 coulter 6. When the unit moves across the field, the surface is rolled around by the wheels 25. The distance from the lower edge of the support wheels 25 to the lower edge of the lancet foot of the opener 6 is adjusted by moving the rods 24 in ulkah 23 and their fixation fingers 27. This ensures that the desired depth of seeding. The mechanism for stabilizing the opener movement in the vertical direction works similarly to that described above. The mechanism for synchronizing the trajectory of each opener with the mesorelief of the soil also works similarly to that described above. The mechanism for adjusting the depth of seed placement of each opener in this case consists of a rod 24, brackets 22 with bushings 23, support wheels 25 and fingers 27. The depth of seed placement is regulated by holes 26 on the rods of the support wheels 25, while the holes 26 can be spaced apart, for example , 1 cm from each other, and the number of holes 26 is equal to the maximum depth of seeding. When this occurs, the exact copying of the surface of the field due to the location of the support wheels 25 on the same vertical axis with the coulter rack 16.

The invention allows for more accurate copying of the soil mesorelief and a more uniform distribution of seeds in depth, which will increase crop yields, as well as reduce energy consumption during tillage and reduce fuel consumption.

Claims (2)

1. Combined sowing unit containing a frame, a hopper for seeds, at least one sowing unit, a wheel drive, a deepening mechanism, openers, characterized in that it further comprises mechanisms for stabilizing the movement of each opener in the vertical direction, mechanisms for adjusting the depth of seed placement each opener, mechanisms for synchronizing the path of each opener with the mesorelief of the soil, and the mechanism for stabilizing the movement of each opener in the vertical direction contains an adjusting screw, o the other end of which is fixed in the adjusting threaded support, and the second end of the screw slides through a hole in the cylindrical hinge connected to the frame with the possibility of rotation around a horizontal axis fixed in the frame, while between the cylindrical hinge and the adjusting threaded support on the subframe a spring through which an adjustment screw passes, having a travel stop mounted outside the cylindrical hinge above the frame, and said threaded support is pivotally connected a fork with a wheel mounting fork with a flange and a coulter stand, while the mechanism for adjusting the seed placement depth of each coulter consists of two threaded rods, one of which is pivotally mounted on the fork and the other on the coulter stand, with the second ends of the threaded rods connected by a Roman nut, and the fork is pivotally mounted on the coulter post below the threaded rod attachment point; in addition, the mechanism for synchronizing the path of each coulter with the mesorelief of the soil consists of a bracket mounted on the frame with two hinges E, in which are mounted parallel levers of the same length, the second ends of which are articulated on the coulter counter. 2. Combined sowing unit containing a frame, a hopper for seeds, at least one sowing unit, a wheel drive, a deepening mechanism, openers, characterized in that it further comprises mechanisms for stabilizing the movement of each opener in the vertical direction, mechanisms for adjusting the depth of seed placement each opener, mechanisms for synchronizing the path of each opener with the mesorelief of the soil, and the mechanism for stabilizing the movement of each opener in the vertical direction contains an adjusting screw, o the other end of which is fixed in an adjusting threaded support pivotally connected to the coulter support, and the second end of the screw slides through a hole in a cylindrical hinge connected to the frame with the possibility of rotation around a horizontal axis fixed in the frame, while between the cylindrical hinge and the adjusting a spring is installed with a threaded support on the subframe, through which an adjustment screw passes, having a stroke limiter mounted outside the cylindrical hinge above the frame, and The mechanism for synchronizing the path of each coulter with the mesorelief of the soil consists of a bracket mounted on the frame with two hinges, in which parallel levers of the same length are fixed, the second ends of which are pivotally mounted on the coulter stand, while the coulter stand has two brackets with bushings at the ends, in the indicated bushings are made holes for mounting adjustable rods connected to the support wheels, while the rods have several adjustment holes for the fixing fingers passing through th horizontal holes in the bushings and holes in the rods.

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