RU125017U1 - DOGS - Google Patents

Abstract

The utility model relates to agricultural engineering, in particular to the anchor working bodies of the seeders for subsoil sowing of seeds and fertilization with the method of horizontal seeding. The opener contains a furrow former in the form of an elongated and curved plate. A guide for seed is installed on the furrow generator. The upper part of the furrow plate covers the two shelves of the bracket fixed on one of the two half-sleeves, covering the beam of the frame of the traction means through the elastic elements. Elastic elements are made with a cross-sectional shape that repeats the shape of the lumen between the inner surface of the half-sleeves and the beam surface covered by them, which enhances the damping properties of these elements. Improves the reliability and quality of the formation of the sowing furrow. 1n. and 5 h. Peninsula f-ly, 6 Il.

Description

The technical field to which the utility model

The claimed utility model relates to agricultural engineering, namely to the anchor working bodies of the seeders for the subsoil sowing of seeds and fertilization with the method of lower case sowing.

The level of technology

Known solutions of anchor coulters, the main structural elements of which are racks with seven-way guides and with chisel-shaped rippers fixed in the lower part of the rack, wedge-shaped arresters, etc.

Known anchor working body of the drill-cultivator (see utility model patent RU 86385, IPC А01С 7/20, publ. September 10, 2009), containing a tubular stand, the lower front part of which is elongated in the direction of movement of the drill, while the stand is equipped with brackets for installation of seed tube. To the said elongated surface of the stand there is attached a means for the formation of a landing furrow - an arm, made in the form of a metal cast body with cutting edges and a seating surface.

The execution of the anchor body in the form of a stand with an arm attached to it increases the maintainability of such a coulter, since if the butt is broken, it is easily replaced by another. However, the openers of this design are generally characterized by low reliability and low performance. When the coulter works, the nadalnyk position relative to the stand may be disturbed, which will affect the quality of the seedbed formation, adjustment of this position requires stopping the work, and the presence of intermediate connections (mating surfaces, bolted connection) adversely affect the stability factor of the taper angle of the naralnik relative to the treated surface.

These shortcomings are absent in the openers, the cutting part of which is made integral with the element that performs the function of the stand. However, such well-known solutions are characterized by the presence in the product of various designs of suspensions and other nodes that ensure the connection of the coulter's cutting element with the beam of the frame of the agricultural machine and ensure the required position of the cutting angle of this working body relative to the soil.

Known construction of the opener (see DE 10 2007014792, IPC A01C 7/06; A01C 7/20; publ. 10/02/2008), which includes the furrow-forming working body in the form of a vertically elongated one-piece plate, the upper part of which is bolted to a curved bracket connected through a system of intermediate nodes with the drill frame, and the lower cutting part is made in the form of a protrusion with cutting edges on the front face of the plate and with a bevel on the rear face. A groove is formed above the protrusion with cutting edges for mounting on the said plate of the device for distribution of the sowing material with a material conduit attached to it.

The disadvantage of this opener is the complexity of the constructive execution of the connection of the furrow-forming working body with the frame beam of the traction machine.

As a prototype of the proposed solution, the opener design was adopted (see WO / 2009/146780, IPC А01С 7/20, publ. 10.02.2009), containing a sludge-forming working body in the form of a plate with a lower cutting part, connected through a curved arm to the frame beam, while the said lever is connected to the frame beam by means of a hinge with rubber bearings. A seed planer is mounted on the plate, made in the form of a volume-spatial part, including planes covering the plate, which pass into semi-cylindrical surfaces, forming a channel for feeding seeds into the furrow.

The disadvantage of the opener described in application WO / 2009/146780, as well as the constructive solutions described above, is the presence of intermediate levers and other constructive connections between the plate with the cutting part and the beam of the agricultural machine frame, which ensures the movement of the opener operating costs, determines the instability of the position of the cutting angle of the working body relative to other nodes of the mechanism, and therefore entails errors in the position of this angle relative to respect to the treated soil.

Disclosure of utility model

The claimed utility model solves the problem of creating an easy-to-make and reliable opener during operation, suitable for minimal tillage technology without mixing and carrying out the lower wet layers to the surface. At the same time, in addition to improving reliability, a technical result is achieved, which consists in the fact that, while simplifying the structure of the opener, an optimal setting angle of its cutting part is ensured, which results in high-quality formation of the furrow and placement of seeds in the wet soil layer before it falls, keeping low traction resistance. At the same time, the claimed constructive solution contributes to the self-cleaning of the opener from crop residues, and also contributes to a better passage of the material through the guide without compromising the quality of laying the seed in the furrow.

The task is solved and the above technical results are achieved due to the fact that in the opener containing the furrower in the form of an elongated plate with a wedge-shaped extension of the lower part forming an acute knife, the top of the cutting angle is directed in the direction of the opener movement, the contour of one side of this angle is formed by the lower end the plate, and the contour of its other side is formed by the bevel of the plate, coupled with its longitudinal, oriented in the direction of the direction of the opener movement through the setting plate for a guide mounted on the plate above the knife, connected to the material pipeline and forming, together with the back longitudinal side of the plate, a channel for feeding the sown material into the furrow, the furrower being connected to the frame beam of the traction means by means of a bracket fixed on one of the two beams covering the said beam through elastic elements, according to the claimed utility model; elastic elements are made with a cross-sectional shape that repeats the shape of the gap between the inner surface The bracket is made in the form of two shelves parallel to each other, covering the upper part of the plate along its planes and rigidly connected with it, while the middle part of the plate is curved in an arc with a bulge in the direction opposite to the movement of the opener.

The inventive opener design, as well as the prototype, is characterized by the presence of a solid plate that performs the function of a stand and is also a cutting element. Since the plate is a flat part with a narrow edge, and it is the edge of this edge that is the cutting part of an acute-angled knife formed by a wedge-shaped expansion of the lower part of the plate, thanks to this narrow form, the vomer easily penetrates the soil and causes only a slight movement of soil material, which minimizes moisture loss when sowing. The narrow shape of the coulter results in low pulling demand. However, along with the positive aspects of the claimed design, also inherent in the prototype, and unlike the latter, the claimed solution is characterized by the fact that the said plate is connected to the beam frame of the traction means, i.e. agricultural machinery, seeders, etc. Namely, the plate with the cutting knife in the lower part of its upper part is rigidly connected to the bracket, which, in turn, is rigidly connected to the half-clamp covering the beam of the traction means. The bracket is made in the form of two shelves parallel to each other, covering the upper part of the plate along its planes and rigidly connected with it. Such a solution of the knot between the furrowing agent and the frame eliminates any tilting of the plate in relation to the yoke covering the horizontal beam, and also ensures the orientation of the plate in the vertical plane and, therefore, provides the required position of the knife with respect to the soil.

Another distinctive feature of the proposed solution is the implementation of elastic elements through which half-sleeves are mounted on the beam, with a cross-sectional shape that repeats the shape of the gap between the inner surface of the half-sleeves and the surface of the beam covered by them. In other words, elastic elements that perform the function of dampers completely fill the space between the parts to be joined, ensuring a tight fit on the beam of the collar to which the cutting element is rigidly attached, i.e. the plate with the lower part in the form of an acute-angled knife, which predetermines, on the one hand, the exclusion of undesirable shifts of the cutting member relative to the beam, and on the other hand, the damping properties of the elastic element provide the necessary changes in the coulter pressure, depending on the conditions arising during its operation, provide its three-dimensional deviation, and thus protects the vomer from overloads and from the effects of stones, optimizes the sowing operation of the soil relief. Along with the above, the implementation of elastic elements tightly filling the space between the inner surface of the yoke and the beam determines that when the opener works, its microvibration takes place, the magnitude of which does not affect the quality of formation of the sowing furrow, and, firstly, self-cleaning of the opener, frees it from soil residues and other organic matter, and secondly, facilitates unhindered passage through the material line and the seed mother guide ala and organic fertilizers, without compromising the quality of their laying in the seed bed.

The above described technical results are most pronounced when making half-sleeves Λ-shaped with bends for fasteners, when mounted on a beam with a square cross-section, and when the shape of elastic elements predetermined by the shape of these mating parts. In this case, half-sleeves encompass a beam with a square cross-section with each vertex bending the yoke over the middle part of the corresponding side of the beam, while the elastic elements are made with a triangular cross-section, commensurate with the triangle of the corresponding side of the beam and the angle of the yoke facing it. The triangular cross-sectional shape of the elastic elements, as well as the fact that, with this design, the contact area of the elastic elements with the mating surfaces increases, predetermine the gain of both the bonding and damping properties of such a compound.

A distinctive feature of the proposed solution in comparison with the prototype is the curved shape of the plate with the cutting bottom, i.e. with an acute-angled knife, namely, the middle part of the plate is curved in an arc with a bulge in the direction opposite to the direction of movement of the vomer. The curvature of the plate and its connection to the upper part with a bracket fixed on the half-sleeve not only contributes to the optimization of the position of the acute-angled knife in order to reduce the cutting resistance, but also to the fact that all the elastic elements filling the volume between the clamp and the beam, in full all zones are involved in the damping of dynamic loads arising during the work of the opener.

In the particular case of the implementation of the claimed device, the middle part of the plate is bent, and the lower part of the plate on which the guide is mounted, and the upper part of the plate covered by the shelves of the bracket are made straight and oriented relative to each other at an angle of 45 °. This angle was set experimentally. Changing the angle in the direction of its increase or decrease entails the incomplete use of the damping properties of elastic elements in the device, and also leads away from the optimum setting angle of the cutting part of the plate to the bottom of the sowing furrow, which is reflected in a change in the configuration of the sowing furrow and in the deterioration of the quality of sowing (the grain does not fall strictly in the sowing line, the laying of the seeds is not at the right level). Also, an optimum angle of the cutting part of the plate, i.e. angular knife. It was found that the quality of the sowing furrow and the laying of seeds is the highest when the bevel of the plate forming the cutting angle of the knife is at an angle of 25 ° relative to a conventional line parallel to the longitudinal axis of that straight part of the plate on which the guide is mounted, and when the bottom end of the plate is angle of 5 ° relative to the perpendicular to the above conditional line.

An angular knife has sides, which are the lower part of the planes of the plate. The aforementioned angle of 5 ° contributes to the fact that the soil cut off by the angle of the knife is moved apart by the plate planes on the sides of the sowing furrow and prevents the ground from shedding before the laying of seeds and fertilizers on the bottom of the sowing furrow occurs.

A guide mounted on a plate above an acute-angled knife also contributes to quality sowing. It is made in the form of a volume-spatial part, including mounting planes covering the plate, turning into semi-cylindrical surfaces, the edges of which, along the generator of the cylinder, are made with joints connected to each other. Moreover, the semi-cylindrical surfaces go from top to bottom into inverted semi-cones with vertices spaced indented from the lower edge of the guide, and below the level of the mentioned vertices into vertical walls, separated from each other by a distance not exceeding the thickness of the plate. These vertical walls exclude lateral dispersion of seeds. At the same time, the edge of the lower end of the plate and its back longitudinal face is shifted back to the opposite direction from the direction of movement of the opener, so that the rear face of the plate, which, together with the semi-cylindrical surfaces of the guide, forms a channel for feeding seeds and fertilizers to the sowing furrow, has parts smooth bend with concavity, also facing the opposite direction of the movement of the opener. Thus obtained "slide" contributes to the uniform laying of seeds in the seed bed.

The installation of the guide on the plate is predetermined by the need to coordinate the seed and fertilizer supply area strictly in that part of the sowing furrow that is formed but not yet covered with soil. However, the weight of the guide affects the position of the cutting edge of an acute-angled knife, and was taken into account when selecting its above optimal angles. Also, the execution of elastic elements that perform the damping function, to a certain extent, is due to the installation on the plate of a guide for seeds and fertilizers associated with the material pipeline, since these elements affect the dynamic characteristics of the opener.

Technologically, it is rational to form a guide from a single sheet metal, using well-known methods of metal processing: cutting the workpiece and forming the guide's body by stamping and bending.

Product performance enhances the surface coverage of the lower part of the plate with an intrinsically resistant material, while the wear-resistant coating is made of an acute-angled knife, including the lower end of the plate and its surface located below the mounting planes of the guide.

Brief Description of the Drawings

The claimed technical solution is illustrated by the following drawings:

figure 1 schematically shows the opener, side view,

figure 2 is a view of And figure 1,

figure 3 is a view In figure 1,

figure 4 - shows the furrower, side view,

figure 5 - schematically depicts the sender, side view,

figure 6 is a view of figure 5.

Implementation of the utility model

The opener contains a furrow former in the form of an elongated plate 1 with a bend in the middle part and with rectilinear lower and upper parts (see Fig. 1 and Fig. 2). The lower part of the plate 1 is made with a wedge-shaped extension, forming an acute-angled knife 2, the apex of the cutting angle of which is directed in the direction of movement of the vomer. The direction of movement of the coulter is shown in figure 1 by the arrow N. The contour of one side of the cutting angle is formed by the lower end of the T plate, and the contour of its other side is formed by the bevel S of the plate. This bevel S is associated with a longitudinal, oriented in the direction of the direction of movement of the opener, by the face G through the adjusting groove 3 for the guide 4 mounted on the plate 1 above the knife 2. The guide 4 is connected to the material pipeline through the socket 5 (a part of it is shown by dotted lines) and is intended for feeding seeds and fertilizers into the sowing furrow formed by the knife 2, both its cutting angle and the surfaces (lateral sides) of the lower part of plate 1. Direction 4 (see figure 1, figure 5 and figure 6) is made in the form of a spatial part, molded from solid sheet metal, by stamping and bending from the blank of the required configuration. It includes the mounting planes 6, which cover the plate 1, turning into semi-cylindrical surfaces 7, which go from top to bottom into inverted half-cones 8. Thus, a part of the channel for feeding the funnel-shaped seeds and fertilizers is formed. The vertices of the mentioned semi-cones are spaced from the lower edge of the guide, and below these vertices the guide is made with vertical walls 9, separated from each other by a distance not exceeding the thickness of plate 1. The edges of guide 4, along the generator of the cylinder, are made with connected limbs 10, bolted together. The back longitudinal edge Q of the plate 1 is placed in the volume formed by the above described elements of the guide 4 of the channel for feeding the sown material into the furrow. In the lower part, this face is made with a smooth bend J, while the edge of the lower end of the T plate 1 and its back longitudinal face Q is shifted back. The channel formed in this way contributes to the seeding material entering strictly into the line of the sowing furrow, excluding scatter on the sides, and ensures an even distribution of this material along the length of the sowing furrow.

Furrower, i.e. the plate 1 is connected to the beam 11 of the frame by means of a yoke and an arm fixed to the yoke 12. The yoke consists of two half clamps 13 and 14, covering said beam 11 and interconnected by a bolt connection 15. The bracket 12 is fixed on the lower half sleeve 14 by welding and made from two shelves parallel to each other, covering the upper part of the plate 1 along its planes and rigidly connected with it by means of bolted joints 16. The shelves of the bracket 12 in the area of their attachment to the semi-bolt 14 are increased in width so that About the end of this increase rests on the bend of the half-clamp 14. This design of the bracket increases the strength characteristics of the connection between the bracket and the half-clamp, reducing the risk of fracture of the weld between these elements.

The volumes between the inner surfaces of the semi-holders 13 and 14 and the surfaces of the beam are filled with elastic elements 17, made with a cross-sectional shape that follows the shape of the gap between the inner surface of the semi-bolts 13 and 14 and the surface of the beam 11 covered by them. half-sleeves 13 and 14 are Λ-shaped with bends 18 for fasteners 15. These half-sleeves span a beam with a square cross-section with the location of each vertex of the bend iba clamp over the middle part of the corresponding side of the beam. The elastic elements 17, i.e. dampers are made with a triangular cross-section, commensurate with the triangle formed by the contours of the corresponding side of the beam 11 and the angle of the clamp facing towards it. Elastic elements 17, performing the function, the dampers are made of rubber compound with a hardness of 80 units, made to specifications.

The lower part of the plate 1, including the cutting corner zone, the end face T of the plate 1 and the adjacent side zones of the plate 1, is covered with wear-resistant material, according to known technologies.

The opener works as follows.

When moving the vehicle and lowering the frame, the acute-angled knife 2 of the plate 1 is sunk into the ground and moves in the direction of travel of the vehicle. An angular knife 2 and the sides of the lower part of the plate 1 form a narrow sowing furrow without mixing the soil. At the bottom of the sowing furrow, seed and, if necessary, granulated mineral fertilizers are fed through the guide 4. The closure of the furrow with seeds and fertilizer occurs due to the self-precipitation of the soil.

Making the groove narrow eliminates the release of wet soil to the surface, thereby retaining moisture in it, contributes to the rapid heating of the soil around the seeds, provides less traction resistance. Experimental testing and production use of the openers of the claimed design showed positive results both in performance and quality of sowing.

Claims (6)

1. Vomer containing furrow former in the form of an elongated plate with a wedge-shaped expansion of the lower part forming an acute knife, the top of the cutting angle of which is directed in the direction of movement of the vomer, the contour of one side of this angle is formed by the lower end of the plate, and the contour of the other side is formed by the bevel of the plate mated with its longitudinal, face-oriented in the direction of the movement of the opener, through the installation groove for the guide, mounted on the plate above the knife, connected to the material pipe and Together with the rear longitudinal edge of the plate, there is a channel for feeding the sown material into the furrow, the furrower being connected to the beam of the frame of the traction means by means of a bracket fixed on one of the two half-sleeves, covering the said beam through elastic elements, characterized in that the elastic elements are made with a shape cross-section, repeating the shape of the gap between the inner surface of the half-hubs and the beam surface covered by them, the bracket is made in the form of two parallel between minutes flanges covering the upper part of the plate by its planes and rigidly connected with it, the middle part of the plate is curved in an arc with the convexity in a direction opposite the coulter movement. 2. Vomer according to claim 1, characterized in that the half-sleeves are Λ-shaped with bends for fasteners and cover the beam with a square cross-section with the location of each vertex of the bend of the yoke above the middle part of the corresponding side of the beam, while the elastic elements are made with the transverse triangular cross-section, commensurate with the triangle formed by the contours of the side of the beam and facing the angle of the clamp. 3. The coulter according to claim 1, characterized in that the part of the plate on which the guide is mounted, and the part of the plate enclosed by the shelves of the bracket are made straight and oriented relative to each other at an angle of 45 °, while the bevel of the plate forming the cutting angle of the knife made at an angle of 25 ° relative to the conditional line parallel to the longitudinal axis of the said part of the plate with a guide, and the lower end of the plate is made at an angle of 5 ° relative to the perpendicular to the said conditional line. 4. The coulter according to claim 1, characterized in that the sender is made in the form of a volume-spatial part, including mounting planes covering the plate, turning into semi-cylindrical surfaces, the edges of which along the generator of the cylinder are made with connected limbs, and semi-cylindrical surfaces go downwards in inverted semi-cones with vertices indented from the lower edge of the guide, and below the level of the said vertices - in vertical walls, separated from each other by a distance, not stripping the thickness of the plate, with the guide formed from a single sheet metal. 5. The opener according to claim 1 or 4, characterized in that the edge of the lower end of the plate and the back longitudinal edge thereof is offset to the side opposite to the direction of movement of the opener, forming a smooth bend in the lower part of the surface. 6. The coulter according to claim 1 or 3, characterized in that the surface of the lower part of the plate is covered with a wear resistant material.

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