RU130778U1 - CAPPER SUSPENSION MECHANISM - Google Patents

Abstract

The coulter suspension mechanism comprising a housing, a damper mechanism, a coulter, a coulter rack, a mounting wheel of a press wheel, characterized in that it further comprises articulated rods connecting the coulter rack to the body, made in an arcuate shape, with a bulge towards the coulter, the damper mechanism is made in in the form of a spring connecting the coulter rack to the housing, and the press wheel is fixed to the beam with the possibility of changing the height position.

Description

The utility model relates to agricultural machinery, in particular to the working bodies of sowing machines.

The opener suspension mechanism is known (patent RU 68227 U1, 11.27.2007), intended for embedding grain seeds in pre-treated soil. Its working body is a lancet paw, which is mounted on a rack with the ability to change the angle of attack, the rack is one of the links of the parallelogram mechanism and a press wheel is fixed on it. The disadvantage of this utility model is that its suspension has short horizontal links of the parallelogram mechanism, and therefore cannot be used in fields with significant microrelief differences and without preliminary tillage. This coulter is also designed to be installed on specific models of seeders and cannot be mounted on a seeder frame with a small distance between the transverse bars, and this is the majority of mechanical grain seeders.

The closest in its technical essence is the opener suspension mechanism (CA 2637352 C, 01/18/2011), comprising a housing, a damper mechanism, an opener, a coulter stand, and a wheel attachment beam. The damper mechanism is made in the form of a hydraulic cylinder and is located between the horizontal links of the parallelogram mechanism. The seed placement depth is controlled by turning the beam of the press wheel and changing its position relative to the coulter mouth.

Copying the field microrelief is carried out by moving the rod of the hydraulic cylinder, the cylinder and the rod of which are pivotally mounted on the body and stand of the copying mechanism.

The disadvantage of this device is the need to use an additional hydraulic system to ensure the openers and more durable parts of the opener and the copying mechanism, which significantly increases the cost of the sowing machine. Another disadvantage is the large overall length and a complex eccentric mechanism for regulating the depth of seed placement.

The technical essence of this utility model is: the creation of a parallelogram coulter suspension mechanism for sowing grain and leguminous crops using the “zero” technology, providing copying of the field microrelief and accurate seed placement in depth with simultaneous rolling of the seed furrow with adjustable force, which can be installed on the seeder frame instead openers with a lancet paw and providing a simplification of the design in comparison with analogues and prototype.

The present technical essence is achieved by the fact that the coulter suspension mechanism comprising a housing, a damper mechanism, a coulter, a coulter stand, a mounting wheel of a press wheel, further comprises hinged rods connecting the coulter rack to the body, made in an arcuate shape, with a bulge towards the coulter, a damper mechanism made in the form of a spring connecting the coulter rack to the housing, and the press wheel is fixed on the beam with the possibility of changing the position in height.

This design allows you to increase the distance from the lower hinge of the rack to the mouthpiece and reduce the clogging of the coulter with crop residues. The case is made so that its part with holes for the hinges is located below the beam of the frame and is moved forward in the direction of the drill, and the upper part, in which the upper support of the spring of the damper is located, is moved a little back. This allows you to use the space in front and behind the beam of the frame, and, therefore, to reduce the part of the mechanism located behind the beam and install it on the compact frames of mechanical seeders. Curved traction allows you to expand the range of movement of the coulter in a vertical plane and increase its copying ability. The left side of the rack is at the same time a beam for fastening the press wheel. The seed placement depth is controlled by moving the press wheel studs in a toothed elongated hole made in the beam so that the wheel stud with its square part is set to the desired position, it is necessary to loosen the nut a few turns, move the stud into the groove and fix the wheel with the nut, which significantly reduces the complexity of adjustment.

New is that the coulter copying range has been expanded through the use of curved rods in a parallelogram suspension, and the adjustment of the seed placement depth has been greatly simplified due to the use of a notched groove and a stud with a square element. As well as the coulter suspension mechanism can be made without welding operations and cast parts, which significantly reduces the cost of its production.

The utility model is “industrially applicable” due to the fact that it can be effectively used in agriculture. Description of the utility model is accompanied by drawings:

Figure 1 - diagram of the suspension mechanism of the opener, side view.

Figure 2 - diagram of the suspension mechanism of the coulter, top view.

Figure 3 - diagram of the suspension mechanism of the opener, isometry.

The coulter suspension mechanism is attached to the seeder frame 1 by the body 2 with the help of the bracket 3 and fasteners. Case 2 consists of two plates 4 connected by three threaded spacers 5 and 6, two of which 6 are made with holes perpendicular to the axis. Also, holes in the body plates are made under the axis of the hinges 7 and slots 20 under the axis 27 of the upper support 19 of the spring 24. The opener 8 is made similar to the casing 2 - the left plate is simultaneously the beam 9 of the press wheel 23, and the right one is the fastener plate 10 of the opener 11. The beam 9 and the plate 10 are connected by a threaded spacer 5 and the axes of the hinges 7, which also serve as spacers. The coulter 11 is attached to the rack so that it forms an angle with the surface of the soil, which allows better to go overhanging crop residues. The parallelogram mechanism in the suspension is formed by the body 2, the opener strut 8, the upper 21 and lower 22 with hinged rods and four hinges 7. In the upper part of the opener strut there is the axis 12 of the threaded rod 13. The rod 13 performs two adjustment functions - adjusting the spring force by moving its lower support 14 with a nut 15 for threading and adjusting the range of vertical movement of the opener by rearranging the spring cotter pin 16 in the holes 17 of the upper part of the rod, which abuts against the sleeve 18 of the upper support 19 of the spring 24.

The work of the seeder mechanism for planting seeds in the soil.

When lowering the frame 1 of the seeder, on which the housing 2 of the coulter suspension mechanism is fixed using fasteners and staples 3, in the working position, the rack 8 with the coulter 11 and wheel 23 moves upward, compressing the spring 24, sets the predetermined rolling force of the seed furrow. In this case, the rod 13 slides in the sleeve 18 of the upper support 19 of the spring 24, thereby freeing the cotter pin 16. The cotter pin 16 can be moved to the extreme hole from the number of holes 17 of the rod 13 to expand the range of the coulter copying. Copying the field microrelief is carried out due to the parallel movement of the rack 8 with the opener 11 and the rolling wheel 23 relative to the frame 1 of the seeder. In this case, the seed placement depth is limited by the position of the press wheel 23 relative to the opener 11. The wheel position is adjusted by moving its stud 25 in the toothed groove 26 of the beam 9 and fixing it with the nut 25. During sowing, the spring 24 is continuously compressed and expanded due to movement of the rack 8 with the opener 11 and the wheel 23 due to field irregularities, while the upper support 19 of the spring 24 oscillates relative to the axes 27 fixed in the housing 2. The stability of the spring 24 is ensured by a constant coaxial orientation of the lower 14 and the upper 19 of its supports - the lower support is fixed on the rod 13, swinging relative to the rack 8 of the opener 11 on the axis 12, and the upper one is rotated due to the translational movement of the rod 13 in the sleeve 18 of the upper support 19.

The rolling force in the coulter copying range does not change much, since when moving the stand 8 of the opener 11 from the lowest to highest position, the spring 24 is compressed and the rolling force increases, however, the axis of the spring and the rod 13 rotate relative to the point of application of the spring force, which causes reduction of the vertical component, and, consequently, of the rolling force — as a result, the rolling force changes nonlinearly.

Claims (1)

The coulter suspension mechanism comprising a housing, a damper mechanism, a coulter, a coulter rack, a mounting wheel of a press wheel, characterized in that it further comprises articulated rods connecting the coulter rack to the body, made in an arcuate shape, with a bulge towards the coulter, the damper mechanism is made in in the form of a spring connecting the coulter rack to the housing, and the press wheel is fixed on the beam with the possibility of changing the height position.

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