RU2048047C1 - Drill - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: drill has a frame, carrier drive wheels, a draft bar, and spring-loaded rocking tenons. Ends of these tenons are connected with the draft bar, and other ends of the tenons are connected with double-disk colters. The drill is provided with freely swivel primary furrow cutters mounted on brackets ahead of the colters. The drill is also provided with a seed box with seeding units, seed spouts, and other devices. The primary furrow cutters are disk knives, and their brackets are rigidly attached to the spring-loaded rocking tenons of the colters so that they combine to form a spring-loaded rocking bell-crank sagging downward. The disk knives are mounted for adjustment of their position. In operation, the soil is distorted, and it offers lower resistance to the outfit. The drill allows for adjustment of the furrow depth and position, and overloaded may be avoided. EFFECT: enhanced operating capabilities. 6 dwg

Description

 The invention relates to agricultural machinery, in particular to seeders for direct sowing of crops.

For direct sowing of crops, seeders are used that contain devices installed in front of the coulters for the formation of the primary furrow. Such combined cultivated seeders are known in which the aforementioned device and the coulter are combined in a single working body. In addition, seeders contain, as a rule, a frame, support and drive wheels, a seed box with sowing devices, a drive from the wheels to the sowing devices and seed tubes. Such, for example, are a stubble seeder-cultivator [1] a seeder in which in front of the disk coulters are provided rod-shaped working bodies-bed formers in the form of S-shaped racks [2] a seeder in which active gear disk knives with a drive from the support drive wheels [3]
Known devices [1, 2] have increased resistance to movement of the seeder due to the formation of the primary furrow by traditional and irrational methods. In such devices, the depth of the furrow to a certain extent depends on the topography of the soil, and the formation of the furrow is accompanied by the removal of soil to the sides, which is an additional source of distortion of the topography of the soil, despite the presence of shorting in the seeders, which in this case will sprinkle the seeds with a mixture of top (dry) and moist soil. In the device [3] the presence of active toothed circular knives somewhat reduces the resistance to movement of the seeder and the energy consumption of the system. However, circular toothed knives are not kinematically connected to the coulters and for this reason an uneven depth of the primary furrow is allowed. In addition, the presence of an active drive of gear disc knives requires an increase in the mass of the seeder, otherwise the support-drive wheels that absorb additional torque may slip.

 The closest device of the same purpose to the claimed object in terms of features is a device for direct sowing [4] which, as a device for forming a primary furrow, contains freely rotatable corrugated discs mounted on brackets in front of the coulters of an anchor type. With this embodiment of the device for direct sowing, energy costs are somewhat reduced due to the movement of the corrugations in the soil along a path approaching the cycloid.

 The reasons that impede the achievement of the technical result when using the known device [4] include the fact that in the known device, the corrugated disks cannot have an increased width (in a plane perpendicular to the plane of the drawing in FIGS. 1 and 2), which is a source of increased resistance to seeder movement. On the sides of the corrugation, soil will stick if sown in moist soil, resulting in a deformation of the furrow and additional resistance to the movement of the seeder. Using a corrugated disk, it is difficult to cut (with direct sowing) the remains of the trunks and root system of such crops as, for example, corn, which limits the scope of the known device. The corrugated disk is kinematically not connected with the opener, which leads to an uneven track depth.

The prototype of the invention is a seeder containing a frame with a transverse shaft, coupled by a chain transmission with support-drive wheels, to which a crankshaft with disk knives rigidly fixed on it, each with a double-disc coulter is mounted pivotally via connecting rods [5]
The above-described disadvantages of drive knives in the design of this seeder remained unchanged.

 The invention consists in the following.

 The problem to which the invention is directed, is to reduce the emission of soil on the sides and the resistance to movement of the seeder, increasing the uniformity of the depth of seed placement and expanding the scope.

 The technical result that can be obtained by carrying out the invention is expressed in the transformation of the system: a device for the formation of a primary furrow, the sowing double-disc coulter into a self-regulating structure with limited resistance to soil deformation and minimal ejection of soil on the sides, capable of working on moist soils and on almost any stubble background (with direct sowing), including on the post-harvest residues of corn, sunflower, sorghum, Sudanese, etc. with the ability to control the depth of the furrow and its position and protect the device from overload.

 The specified technical result during the implementation of the invention is achieved by the fact that, in the known seeder, the devices for forming the primary furrow are made in the form of circular knives, and the arms of the circular knives are rigidly connected to the spring-loaded swing leashes of the double-disc coulters so that together they form a single two-arm spring-loaded swing lever down, while the brackets of the disk knives are made in the form of a fork, and the disk knives are mounted with the possibility of changing the distance between the axis of the disks th knife and the swing axis of the two shoulders of the lever and with the possibility of displacement of the blade knives along its axis.

 The analysis of the prior art by the applicant, including a search by patent and scientific and technical sources of information and identification of sources containing information about analogues of the claimed invention, allowed to establish that the applicant did not find an analogue characterized by features identical to all the essential features of the claimed invention. The proposed prototype allowed us to identify a set of essential distinguishing features in relation to the applicant’s perceived technical result in the claimed object set forth in the claims.

 Therefore, the claimed invention meets the requirement of "novelty" under applicable law.

 To verify the compliance of the claimed invention with the requirements of the inventive step, the applicant conducted an additional search for known technical solutions in order to identify features that match the distinctive features of the claimed invention from the prototype. The results of the verification show that the claimed invention does not follow explicitly from the prior art for a specialist, in particular, the known invention does not provide for any known transformations.

 Therefore, the claimed invention meets the requirement of "inventive step" under applicable law.

 The drawing shows the claimed device and its elements, where in FIG. 1 shows a general view of the seeder, side view; figure 2 section aa in figure 1; in FIG. 3 section BB in figure 1; in Fig.4 node I in Fig.2; figure 5 section bb in figure 4; Fig.6 kinematic and power diagram of the system disk knife double disc coulter seeder.

The seeder contains a frame 1, wheels 2 and 3, one of which or both wheels are driven, a driving beam 4, short 5 and elongated 6 leashes and spring acting on the leashes 7. One ends of both short and elongated leashes are connected via axis 8 with a lead bar 4. The opposite ends of the leads are connected to the double-disc openers 9. Ahead of the openers on the brackets 10, freely rotatable disk knives 11 are mounted that carry the functions of the device for the formation of the primary furrow. The brackets 10 are rigidly connected to the corresponding short 5 and elongated 6 leashes of the openers 9 (Fig.2-4). Brackets of circular knives and coulter leads form a single two-arm spring-loaded lever swinging on axis 8, bent down. The brackets 10 of the circular knives are made in the form of a fork (figure 5), in the elements of which a number of coaxial holes a are provided. A disk knife 11 is mounted in one pair of these holes on the axis 12 and on the bearings. The attachment unit of each disk knife also includes spacer sleeves 13 and 14 and a set of washers 15 and 16. Due to the presence of coaxial holes, the disk knife 11 has the possibility of discrete movement by changing the distance between the axis 12 of the disk knife and the axis 8 of the two shoulders of the lever. By changing the number of washers from sets 15 and 16, it is possible to displace the disk knives along its axis 12. When connecting the brackets 10 to the leads 5 and 6, technological measures are provided so that the angle of attack γ of the disk knives 11 is 10 ± 2 ^° . Circular knives 11 are made of high-carbon alloyed and heat-hardened steel, the cutting edge of the knife is sharpened, the optimum thickness of the disc is 2.3 mm. Complete or partial unification of disc knives 11 and coulter discs is not ruled out 9. The seeder also includes (Figs. 1 and 2) a seed box 17 with sowing units, a drive from the wheels 2 or 3 to the sowing units (chain transfers (not shown) and a gear change box 18, seed tubes 19 connecting sowing devices with openers 9, and other elements.

 The described seeder operates as follows.

The seeder is normally aggregated with a tractor. In the sowing apparatus of the seed box 17, coils are installed corresponding to the sown agricultural crop. The seeding rate is set by the speed of rotation of the coils of the sowing apparatus due to the selection of the gear ratio of the drive from the wheels 2 or 3 to the sowing apparatus using the gearbox 18. When the seeder moves along the stubble background (direct sowing), the disk knives 11, pre-set to a predetermined depth (for due to the installation of the axes 12 in the corresponding coaxial holes a), freely rotating on the axis, they are embedded in the soil and cut through narrow slits, the width of which is almost equal to the thickness of circular knives. As the angle of attack γ circular blades close to zero ^(about 0 ± 2), the removal of soil on the hand movement is not excluded, but without cutting soil compaction slit walls. When cutting cracks in the path of circular knives, post-harvest crop residues (stems, roots, etc.) come across that are not dug up and are not carried out of the soil, but are cut (cut). Dry clods of soil and other elements are cut in the same manner. Moving along a single rut (gap) following the disk knives, the double-disc openers 9 spread the soil, turning a straight narrow gap into a gap with inclined walls. Post-harvest residues, being previously cut with circular knives, do not have a significant effect on this process. If the track of the disk knives does not coincide somewhat with the track of the double-disc openers, the corresponding knife is shifted along its axis 12 by changing the set of washers 15 and 16 in the knife attachment site. The depth of the slots after the circular knives and after the double-disc coulters is approximately the same and corresponds to the specified depth of seed placement in the soil (pre-setting for the specified depth of seed placement is carried out by means of a seeder in the usual manner). Seeds by means of sowing apparatus come from the seed box 17 into the vas deferens 19 and then through the coulters 9 lie on the bottom of the slit with inclined walls. The seed slot is then poured with the help of hookers attached to the drill.

When the seeder works on real soil with a stubble background, the system self-regulates the disk knife double disc coulter (Fig.6). External forces that contribute to the deepening of the disk knives 11 and double-disc coulters 9 into the soil are: part of the weight of the seeder G attributable to this system after adjusting the depth of seed placement; weight G _{n of the} circular blade 11 assembly together with the bracket 10; weight G _{from a} double-disc coulter 9 assembled with a short 5 or elongated 6 leash and parts of the device for attaching the spring 7. The spring force P _p acts on this system as an external force (due to the swing of the two-shouldered lever AOW). When the drill moves, the disk knife 11, encountering the resistance of the soil and the stubble background, seeks to reduce the depth of penetration into the soil and turn around clockwise on the bracket 10 relative to axis 8. This phenomenon leads to a decrease in the resistance force R on the disk knife and entails not only a reversal of the entire two-shouldered lever AOB, but also a deepening in the soil of the double-disc coulter 9. The latter, when it goes deeper, encounters additional resistance, the force R 'increases. With increasing force R ', its vertical component R _in ' also increases, and consequently, the moment M ₂ , which turns the system in the opposite direction, despite the opposition of the moment M _p (from the spring force on the shoulder l _p ); in this case, M ₂ > M _p . When the turn lever AOB counterclockwise force R 'decreases, the resistance R of the knife and its vertical component of the increase _in R, a moment M ₁ is increased and the cutting ability of the knife is restored. Thus, the kinematically coupled system of a two-disc opener disc knife is in dynamic equilibrium, which is characterized by the equality of moments M ₁ + + M _p M ₂ , while the depth of penetration of knives and openers into the soil is approximately the same (h ₁ ≈ h ₂ ).

In systems with short 5 and 6 elongated leashes of double-disc openers 9, the forces of action of the forces l ₃ and l _{4 are} different. The given equality of moments is observed due to the fact that with increasing l ₃ and l _{4 the} shoulder increases, the action of the force l _{p of the} spring. The kinematically coupled system of a disk knife double disc coulter self-stimulates with increasing resistance in front of the knife and reacts to obstacles that occur in the path of the knife, and sometimes in the path of the coulter. With such an obstacle as the remainder of the trunk and the root of the corn, the disk knife 11 rises somewhat, turns around the axis 8. But the increased resistance R 'from the side of the double-disc coulter 9 does not allow the knife to step over this obstacle, as a result of which such obstacles will be cut. If there is an obstacle that cannot be cut with a circular knife (stone, metal object), then the knife, despite the deepening of the opener and the increase in resistance R ', will step over this obstacle, then the next opener will also come after the knife, despite the deepening of the knife and increase in force R. Thanks to this, the system is protected from overload and breakage. Low-frequency oscillations of the system, the causative agents of which are the stubble background and uneven soil resistance, are quenched with the help of a spring 7, while the depth of penetration of circular knives into the soil practically does not change. Ultimately, the resistance to movement of the seeder along the stubble background is minimal, the topography of the soil does not change, the depth of seed placement in the soil is quite uniform under difficult sowing conditions.

 Thus, the above information indicates the fulfillment when using the claimed invention of a combination of conditions: the claimed device is intended for use for its intended purpose in agricultural production; the possibility of carrying out the invention is achieved using known means and methods; the proposed seeder is highly efficient, with its help, energy and labor costs are reduced during sowing by eliminating soil pretreatment, while the soil is protected from erosion, root residues in the soil are a source of additional environmentally friendly fertilizer; the technological result perceived by the applicant is achieved with simplicity of design, increased unification and reliability during operation.

 Therefore, the claimed invention meets the requirement of "industrial applicability" under applicable law.

Claims (1)

 A SEED DRILL mainly for direct sowing, containing a frame, support-drive wheels, a driving beam, spring-loaded swinging leads, some ends of which are connected to a driving beam, and others with double-disc coulters mounted on brackets in front of the coulters are freely rotatable devices to form a primary furrow in the form of disk knives, seed box with sowing devices, drive from wheels to sowing devices and seed tubes, characterized in that the brackets of the disk knives are rigidly connected to the spring-loaded swing schimisya leashes coulters to form a single double-arm spring-loaded rocker arm, curved downward, and the brackets are made of circular blades in the form of a fork, and the circular knives are mounted with the possibility of changing the distance between the axis of the circular knife and the axis of the rolling double-armed lever and displacement of the circular knives along its axis.

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