RU2245607C1 - Combined seeding unit - Google Patents

Abstract

FIELD: agriculture and agricultural engineering, in particular, equipment for seeding of grass, brush and subbrush on non-tilled lands, such as pastures with natural herbage, including meadow grass seeds, legimunous seeds and mixtures thereof.

SUBSTANCE: combined apparatus has tractor, hopper adapted for seeds and fertilizers and equipped with seeding units, seed guides, shanks, covering device and covering roller. Apparatus is further equipped with rollers arranged in succession and kinematically connected with one another. Shanks are made in the form of soil deforming devices pivotally fixed on roller surface in staggered arrangement. Each of soil deforming devices is made in the form of rod mounted in receptacle. One end of rod has thickened portion formed as truncated cone joined with rod through spherical layer on larger base of truncated cone. Other end of rod is equipped with threaded shank and receptacle belt, onto which fastening members and seat are mounted. Fastening members and seat are joined with compression spring located in receptacle of soil deforming device, which is made in the form of hollow cylinder with bottom. Axis of symmetry of receptacle is deviated by angle of 20-35 deg from roller radius in direction opposite to rolling direction of roller. Bottom part of receptacle made in the form of hollow cylinder extends above roller hosing surface. Roller has guides made in the form of pipes arranged in equally spaced relation in mounting disks of roller housing. At least one point on surface of each guide is aligned with point lying on inner surface of disk. Outer mounting disks of roller housing are joined with mounting rings of ballast cylinders by means of fastening devices and dismantling devices. One end of cylinder has pin. Covering devices are fixed on roller second with respect to course of advancement of apparatus.

EFFECT: increased efficiency by creating stable and high-productive agrocenosis on degraded and tumbledown pastures.

3 cl, 11 dwg

Description

The invention relates to agriculture and agricultural machinery, in particular to sowing equipment primarily for sowing seeds of grasses, shrubs and shrubs on untreated massifs, for example, on pastures with natural grass stand, including including bluegrass, bean herbs, and mixtures thereof.

A mounted unit for simultaneous sowing of fertilizers with flax seeds, grain crops and herbs is known, in which, together with sowing, the introduction of full organic-mineral mixtures or individual mineral fertilizers in powder or granular form in a row below the seeds to the required depth is used together with a front-mounted seeder mounted in front of the tractor, as well as a skating rink, a grain seeder and a grass sowing device, mounted on the rear of the tractor (SU, copyright certificate No. 115645, IPC A 01 C 7/06. Tractor nav waist unit / collective mechanization department of Research Institute of Flax (USSR) .Zayavleno 07/20/1057. Application №580843).

The described aggregate, despite its wide technical capabilities, can only work in pre-treated fields, where the soil aggregates in the 0-12 cm layer do not exceed 1.5-2.5 cm. In natural pastures, keeled coulters do not provide the required embedment depth. Grass seeds sown by this unit on the surface of the pasture flutter in the wind and die.

A device for chopping woody vegetation is also known, which is attached to the frame of a self-propelled chassis and contains a hollow roller equipped with a shaft and knives rigidly fixed on its outer surface, in which a reservoir is articulated for the vegetation in the roller cavity on its shaft for liquids and a vane pump, and the surface of the roller is made with holes; the liquid tank is made in the form of a semi-cylindrical container, the geometric on which is offset relative to the vertical axis of the roller body; in order to uniformly supply liquid to the openings of the roller, the vane pump is made in the form of a hub mounted on the shaft of the roller, equipped with blades with elastic blades and a pinion gear crown having a second crown mounted on the inside of the roller end wall and interacting with the crown mounted on the hub using an asterisk pivotally mounted on a vertical bracket mounted on the roller of the roller (SU, copyright certificate No. 235433, IPC A 01 B 29/00, A 01 B 29/06. Device for chopping woody vegetation. B .P. Moreev (USSR) .- Application No. 1137101 / 29-33; Announced 02.25.1967; Publish. 01.16.1969. Bull. No. 5 // Discovery. Inventions. - 1969. - No. 5).

The disadvantages of this device in relation to the problem we are solving are that the knives mounted on the surface of the skating rink are capable of chopping (chopping into pieces) plant stems and branches of shrubs and shrubs only with a given step. However, these knives are not able to make holes for placement of sown seeds in them. In general, the tool is designed to suppress the upper vegetation by herbicides.

The closest device of the same purpose to the claimed object for the totality of signs is a sowing combined unit containing a wheeled tractor, a hopper for seeds and fertilizers with sowing devices, seed tubes, coulters, shortcuts and packer rollers, in which, in order to enable early sowing of seeds on waterlogged soil and simplify the design of the unit, the tire treads of the front wheels of the tractor are made with annular protrusions acting as coulters, and the hopper for seeds and fertilizers with sowing by the seeding apparatus, the vas deferens and earthenware are located in the tractor’s cross-wheel space, and the tractor’s rear wheels are used as press rollers (SU, copyright certificate No. 913962, M.cl. ³ A 01 B 49/04, A 01 C 7/00. unit / Nikitin V.B., Fortuna V.I., Kochkin E.A., Patrin P.N., Anokhin V.I. (USSR). - Declared 05.11.1980; Publish. 23.03.1982). We have accepted this unit as the closest analogue.

The reasons that impede the achievement of the required technical result when using the described device, adopted as the closest analogue, include unsatisfactory seed placement quality and low technological reliability of the tire treads of the front and rear wheels, as well as the high complexity when changing the sowing scheme. It is impossible to constructively drive the shaft of the metering devices with one circuit of a chain (belt) transmission from a dual rear wheel. Constantly turned on the shaft of the sowing apparatus leads to the loss of expensive seeds. When working in adapted farming with complex contours of plots, the set seed rate is not provided. Tractor wheel treads additional re-compaction of the upper soil layer. On the track of the tractor, the precipitated natural rainfall flows (rolls down) into the lowering of the terrain, while not increasing the soil moisture reserves in the root horizon of the soil.

The invention consists in the following.

The problem to which the invention is directed is the expansion of the functionality of the sowing combined unit.

The technical result is the creation of sustainable plant communities with high feed quality and productivity.

The specified technical result is achieved by the fact that in the known sowing combination unit containing a tractor, a hopper for seeds and fertilizers with sowing devices, seed tubes, coulters, shorters and a packer roller, according to the invention, the coulters are made in the form of soil deformers mounted on the surface of the front in the direction of travel the roller is articulated in a checkerboard pattern, each of the deformers is mounted in a socket and made in the form of a rod, one end of which has a thickening in the form of a truncated cone, conjugated with eraser a spherical layer on the larger base of the truncated cone, and the other end of the rod is equipped with a threaded shank and a landing belt, on which fasteners and a saddle are mounted, paired with turns of a compression spring located in the cavity of the soil deformer and made in the form of a hollow cylinder with a bottom, the axis of symmetry the nests are deviated from the roller radius in the opposite direction by rolling the roller at an angle of 20 ... 35 °, while the bottom of the nest in the form of a hollow cylinder protrudes above the surface of the roller casing, a hole is made in the center of the bottom of the nest with a seat for the size of the mating spherical layer of the rod, ballasts in the form of cylinders filled with concrete are placed in the cavity of the roller casing with the possibility of dismantling in the guides and mounting disks, a mounting ring fixed to the casing mounting disk is fixed to the cylinder surface, and one of the ends of the cylinder equipped with a trunnion, while the zagortachki are fixed on the second skating rink; guides in the form of tubes with equal pitch are placed in the mounting disks of the roller casing, while at least one of the points on the surface of each guide is aligned with a point lying on the inner surface of the disk; the external mounting disks of the roller casing are interfaced with the mounting rings of the ballast cylinders by means of fixing means and dismantling devices.

Due to the fact that the soil deformers are made in the form of truncated cones pivotally connected to the outer surface of the roller casing, and pre-installed at an angle to the radius of the roller, the above technical result is achieved.

The invention is illustrated by drawings.

Figure 1 schematically shows a sowing combination unit, side view.

In Fig.2 shows a section aa in Fig.1, a diametrical section of the front roller, performing the functions of the opener.

Figure 3 - section bB in figure 2, the position of the soil deformers on the surface of the casing of the roller and concentrically to him - the ballast cylinder on the guides and mounting disks of the casing.

Figure 4 - place In figure 3, the initial position of the soil deformer in the nest of the casing of the roller.

In Fig.5 - place G in Fig.3, the position of the deformer at the time of formation of the holes on the soil surface.

Figure 6 is the same at the time of the exit of the deformer from the hole.

In Fig.7 is a view of D in Fig.1, the position of the main holes on the surface of the pasture, made by the soil deformators of the front roller.

On Fig - view E in figure 1, the position of the different-sized holes on the surface of the pasture, made by soil deformers front and rear rollers.

In Fig.9 - section FJ in Fig.7, a transverse vertical section of the hole.

Figure 10 is a cross section ZZ in figure 7, a longitudinally vertical section of the hole.

Figure 11 is a view of And figure 10, the position of this part of the hole relative to the upper cut on the soil surface.

Information confirming the possibility of implementing the claimed invention are as follows.

The sowing combination unit (see Fig. 1) contains a caterpillar tractor of draft class 1 3-4, a hopper 2 for seeds and fertilizers with sowing devices 3, seed tubes 4, openers 5, shorting 6 and a packer roller 7. Hopper 2, openers 5, shortcuts 6 and a packer roller 7 are placed on the frame 8. The front part of the frame 8 is equipped with a trailed earring 9 for connection to the towbar 10 on the hitch 11 of the tractor 1.

The unit has sequentially installed and kinematically connected rollers 12 and 13. The front roller 12 in the direction of movement of the unit performs the functions of seeders 5 of the seeder. The roller 12 is equipped with deformators 14 soils. The soil deformers 14 are pivotally mounted on the surface of the roller 12 and staggered one relative to the other. Each of the deformers 14 is mounted in the socket 15. The deformer 14 is made in the form of a rod 16. One end of the said rod 16 has a bulge 17 in the form of a truncated cone. The thickening 17 is associated with the rod 16 by the spherical layer 18 on the large base of the truncated cone. The other end of the shaft is provided with a threaded shank 19 and a seat belt 20. A seat 21 is mounted on the seat belt 20, and fasteners 22, 23 and 24 are mounted on the threaded shaft 19. The shoulder of the seat 21 is connected to the coils of the compression spring 25. The other end of the compression spring 25 is placed in the nest 15 of the soil deformer 14, the compression spring 25 may be shaped as a hollow cylinder or a truncated cone. The socket 15 of the soil deformer 14 is made in the form of a hollow cylinder with a bottom 26. The bottom 26 of the socket 15 faces the casing 27 of the roller 12. The axis of symmetry II of the socket 15 is deviated from the radius of the roller 12 in the opposite direction to the rolling of the roller 12 at an angle of 20 ... 35 ° .

The bottom of the nest 15 in the form of a hollow cylinder protrudes above the surface of the casing 27 of the roller 12. In the center of the bottom 26 of the nest 15, a hole 28 is made with a seat for the size of the mating spherical layer 18 of the rod 16 (see Figs. 4-6). In the cavity of the casing 27 of the roller 12 with the possibility of dismantling in the guides 29, 30, 31 and 32 (see figure 3) and mounting discs 33, 34, 35 and 36 placed ballasts in the form of cylinders 37 and 38 (see figure 2) . Guides 29-32 in the form of pipes with equal pitch are placed in the mounting disks 33-36 of the casing 27 of the roller 12. The smooth dismantling of the ballast in the form of a cylinder 37 (38) from the casing 27 of the roller 12 is facilitated by the fact that at least one of the points on the surface of each guide 29 (30-32) is aligned with the point lying on the inner surface of the disk 33 (34-36). The external mounting disks 33 and 36 of the casing 27 of the roller 12 are coupled to the mounting rings 39 and 40 of the ballast cylinders 37 and 38 by means of fasteners and dismantling devices. The cavities of the ballast cylinders 37 and 38 are filled with concrete. On the surface of each cylinder 37 (38), a mounting ring 39 (40) is fixed with a weld, mating with the mounting disk 33 (36) of the casing 27. One of the ends of the cylinder 37 (38) is equipped with a pin 41 (42). Ballasts in the form of cylinders 37 and 38 in the casing 27 of the roller 12 are mounted opposite (see figure 2). The pins 41 and 42 of the ballast cylinders 37 and 38, the roller 12 is paired with the frame 8. The roller 13 has a similar design. The diameter of the roller 13 at the protruding ends of the soil deformers 14 is less than the described diameter of the soil deformers 14 of the roller 12 by 30 ... 50%.

A roller 13 of a smaller diameter, acting as a shorting 6, is presented in the form of a drum with the same ballast cylinders 37 and 38 and soil deformers 14.

The described roller 13 is connected by rods 43 with the pins 41 and 42 of the front roller 12 (see figure 1). The rods 43 with the frame 8 are additionally connected by flexible rods 44.

The seed tubes 4 of the hopper 2 are installed between the rollers 12 and 13 behind the soil deformers 14. This achieves the targeted seed delivery when removing seeds from the hopper 2 with commercially available spool or pin apparatus 3. The drive shaft of the metering apparatus 3 receives rotation from the sprocket 45 on the right axle 42 of the roller 12 through a chain gear 46.

The packer roller 7 (see Fig. 1), when carrying out the technological process a, is equipped with the possibility of translating into the transport position by means of a hydraulic actuator 47. The pins 48 of the roller 7 are connected by means of rods 49 to the frame 8. For this, the frame 8 is equipped with two pairs of brackets 50 and 51. The cavity the roller 7 is filled with liquid ballast. The cavity of the roller 7 can also be filled with either sand or concrete to increase the pressure force from the active mass.

The sowing combination unit operates as follows.

Before starting the operation of the unit, the species composition of grasses growing on pastures is determined. Next, the hopper 2 is filled with seeds of a single-species composition or a mixture of bluegrass and leguminous crops. The seeding rate (legumes within 3-5 kg / ha and bluegrass within 20-25 kg / ha) is specified for each array. Shrubs and shrubs are selected according to their habitat. Depending on the density (hardness) of the soil in the upper horizon (determined by the DONNII or Yu.Yu. Revyakin design densitometer in the early spring), the roller cavity 7 is filled with liquid or solid ballast. When transporting the above tools, the roller 7 is hydraulically driven 47 in relation to the frame 8 lower down, i.e. to working position. The front of the frame 8 with a hydraulic hitch 11 of the tractor 1 through the hitch 10 and the hooked earring 9 is transferred to the transport position. Thus form a semi-mounted - trailed unit with wide transport capabilities. The clearance between the coulters 5 and the coulters 6 and the surface of either the road or another section is 200 ... 250 mm. This eliminates the mechanical damage to the soil deformers 14 of the rollers 12 and 13.

When the process is performed by hydraulic actuator 47, the packer roller 7 is smoothly transferred to the transport position (see Fig. 1), and the soil deformers 14 of the rollers 12 and 13 are in the working position. In this position, only the force of the weight of the ballast cylinders 37 and 38, the casing 27 of the roller 12 and the rods 43 acts on the deformers 14 of the soil of the rear roller 13. In addition to the weight force of the ballast cylinders 37 and 38 and the casing 27, additionally, active forces created by moments of force from a part of the weight of the tractor 1 and moments of forces of the weight of the roller 7, frame 8, hopper 2 seeds and other components of the implement. When the ratio of the geometric shoulders from the towbar 10 to the axis of the pins 41 and 42 of the roller 12 and the shoulder from the geometric axis of symmetry of the pins 41 and 42 to the axis of the pins 48 of the roller 7, the total effect of these forces is 2.5 to 3 times the size of the weight of the roller 7, filled with liquid or solid ballast. This allows you to significantly reduce the structural weight of the unit and increase the efficiency of the introduction of the soil deformers 14 into the upper overconsolidated layer.

When moving the sowing combination unit, each soil deformer 14 of the front roller 12 on the surface of the processed array makes holes 52 (see Figs. 7, 9, 10 and 11). Due to the installation of sockets 15 at an angle to the radius of the casing 27 of the roller 12, the lower thinned part of the rod 16 is perpendicular to the upper soil layer. Due to the small area of the smaller base of the truncated cone of thickening 17, the bottom 53 of the hole 52 is formed (see Fig. 5, 6, 7, 9).

With further rolling of the roller 12 with the conical surface of the thickening 17, an inclined wall 54 of the hole 52 is formed. When rolling the roller 12, the thickening 17 of the soil deformer 14 due to the spherical layer 18, the rod 16 moves in the hole 28. The saddle 21 deforms the coils of the compression spring 25. This eliminates damage to the walls of 54 holes 52. After passing the hole 52, the rod 16, under the action of the compression spring 25, turns the ball layer 18 in the hole 28 of the bottom 26. When the roller 12 is rolling from its pin 42, the chain sprocket 45 is driven by a chain drive 46 and rotates the sowing shaft apparatuses 3. The sowing apparatus 3 take out the seeds from 2 into the mouthpieces and the vas deferens are distributed in the holes 52 and in the form of strips between them (see Fig. 7). With further movement of the unit, the rear roller 13 under its own weight, the sown seeds in strips presses into the upper soil layer. The deformers 14 of the rear roller 13 form holes 55 of smaller sizes. The position of the wells 55 with respect to the holes 52 is shown in the plan of FIG. In wells 55, previously sown seeds are pressed into the bottom and walls.

To create sustainable fodder agrocenoses with a sowing combined unit, three conditions have been created for the growth of grass seeds, shrubs and shrubs:

- free in-depth arrangement of seeds in the bottom part 53 and on the walls 54 of the holes 52;

- the rolled position of the seeds of legume-bluegrass grass mixtures on the surface of the created pasture;

- implanted (rolled) position of seeds in holes 55 of a smaller size in the upper soil layer.

In the autumn-winter period (when sowing in the southern regions of the Russian Federation in the third decade of August or the first decade of September), a sufficient amount of short-term rainfall occurs. When precipitation occurs in wells 52, optimal conditions for the growth of grass and shrub seeds are created. Shoots in holes 52 are protected from autumn dry winds. Seeds in the upper layer, having wintered safely, begin to grow in the spring.

When sowing seeds of grass and shrubs on obstructed, easily blown soils, erosion-hazardous areas, the packer roller 7 is brought into working position and the strip surface is additionally rolled.

Thus, the described set of essential features provides a solution to the technical problem - stable and highly productive agrocenoses on degraded and downed pastures.

Claims (3)

1. A sowing combination unit containing a tractor, a hopper for seeds and fertilizers with sowing devices, seed tubes, openers, clippers and a packer roller, characterized in that the coulters are made in the form of soil deformers mounted on the surface of the forward along the path of the roller pivotally staggered , each of the deformers is mounted in the socket and made in the form of a rod, one end of which has a thickening in the form of a truncated cone, mating with the rod with a spherical layer on the larger base of the truncated cone, and the other the th end of the rod is equipped with a threaded shank and a landing belt, on which fasteners and a saddle are mounted, mated to the turns of a compression spring located in the cavity of the soil deformer and made in the form of a hollow cylinder with a bottom, the axis of symmetry of the socket is deviated from the radius of the roller in the opposite direction to the rolling direction roller at an angle of 20-35 °, while the bottom of the nest in the form of a hollow cylinder protrudes above the surface of the casing of the roller, in the center of the bottom of the nest there is a hole with a seat for the size of the mating spherical layer reaping, in the cavity of the casing of the roller with the possibility of dismantling in guides and mounting disks, ballasts are placed in the form of cylinders filled with concrete, a mounting ring fixed to the surface of the cylinder is attached to the mounting disk of the casing, and one of the ends of the cylinder is equipped with a trunnion, while the shorting is fixed to the second in the direction of the rink. 2. The assembly according to claim 1, characterized in that the guides in the form of pipes with equal pitch are placed in the mounting disks of the roller casing, with at least one of the points on the surface of each guide aligned with a point lying on the inner surface of the disk. 3. The assembly according to claim 1, characterized in that the external mounting disks of the roller casing are coupled to the mounting rings of the ballast cylinders by means of fasteners and dismantling devices.

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