RU2628491C1 - Cultivator shovel - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: cultivator shovel comprises the shank, the bow part, the base with symmetrical left and right wings. Overhead elements are installed on the bow part and the wings. The overhead elements in the form of curved plates are made of wear resistant alloy steel. The overhead elements are attached to the base and the bow part on the lower shovel side with the convex side down by means of bolted connections. The overhead elements edges protrude forward from the anterior shovel base borders, forming a cutting edge. The central overhead element of the bow part is formed with bilateral arrow-like cusp and bilateral reinforcing plasma-powder surfacing according to the logarithmic curve shape on the lower part of the blades. The side bilateral overhead elements of the wings are made parallelogram-shaped with alternately, starting from the middle one, alternating of the bilateral reinforcing plasma-powder surfacing according to the logarithmic curve shape in the lower part of their blades. The plate thickness of the central and side overhead elements is respectively 1/2 and 1/4 of the shovel base thickness.

EFFECT: increasing the needed quality indices of the cultivation process, increasing the reliability, durability and maintainability of a cultivator shovel.

2 cl, 3 dwg

Description

The invention relates to agricultural machinery, in particular to implements for tillage, and can be used in the manufacture and repair of cultivating paws of modern high-performance and high-resource cultivators for continuous and inter-row tillage.

Known cultivator leg containing the nose, symmetrically located wings with a blade part and a shank for attaching the legs to the rack of the cultivator [Klenin N.I., Sakun V.A. Agreecultural machines. Agreecultural equipment. - M .: Kolos, 1994, 751 p. - p. 139)]. The thickness of the wings of the legs is 4-8 mm, the angle of sharpening of the blades 12-15 °.

The disadvantages of the known cultivator legs include the following.

The technical resource, in the case of 65G steel commonly used for its manufacture, and depending on the granulometric composition of the treated soils, does not exceed 7-15 hectares due to the intensive abrasive wear of the bow and blade parts of the wings of the paw. This is due to the fact that the hardness of the material of the paws obtained during their manufacture is in the range of 37-43 HRC units, which is significantly less than the hardness of the abrasive particles of the soil. In addition, according to the agrotechnical requirements for cultivators, the thickness of the cutting edges of the blade blades should not exceed 1 mm. However, during the operation of the cultivators, due to the high contact pressure and the abrasive effect of the soil, the paw blades quickly become dull and the thickness of the cutting edge increases to 3-5 mm, which leads to the loss of working capacity of the cultivator paws. As a result, the technological process of cultivation is disrupted: loosening of the soil by the paws and cutting of the roots of weeds is worsened, the traction resistance of the tillage implements and fuel consumption of the tractor engines increase, and the evenness of the depth of the tillage is not ensured. To restore the efficiency of cultivating paws, it is often necessary to carry out their laborious forging extraction and sharpening. When reducing the width of the wings of the paws to the maximum permissible value (50-60% of the nominal size of the new paws) they are rejected, i.e. most of the material of the paws and the cost of their manufacture are not used.

Also known is a cultivating paw, in which a layer of wear-resistant material is deposited by the method of surfacing on the edge of the cutting blades [RF Patent No. 2216138, IPC АВВ 35/20. Publ. November 20, 2003]. During the operation of the cultivator paw, uneven wear of the blade layers occurs, as a result of which the cutting edge becomes thinner than the total thickness of the blade, which improves the quality and reduces the specific energy consumption of the soil cultivation process.

However, the existing solution has significant drawbacks - the process of self-sharpening blades is provided only on certain types of soils, which limits the application of the existing technical solution. For example, on sandy soils, a very quick self-sharpening of the blade occurs, which leads to breaking off a thin layer of the blade formed by a wear-resistant material, and its unproductive losses. On chernozem soils, on the contrary, there is no self-sharpening effect, which causes the formation of an occipital chamfer of the blades, causing the cultivator working bodies to deepen from the soil. Moreover, due to the rectilinear shape of the cutting edges of the blades, the necessary crushing of the soil and cutting of weeds are not provided, which affects the quality of the soil treatment. In addition, the performance of the paws with blades deposited by wear-resistant material cannot be restored by blacksmithing, and when the width of the wings of the paws is reduced, they are also rejected.

As a prototype of the invention adopted the paw of a cultivator containing a shank, nose, base, left and right wings with patch elements of a triangular shape [Pat. Ukraine №24403, А01В 33/00. - Declared. 03/14/2007; publ. 06/25/2007, Bull. No. 9].

Known paw of the cultivator contains the nose, the base with symmetrical left and right wings and a shank for attaching the paws to the rack of the cultivator. On the fore part of the paw is fixed a central invoice element of a triangular shape, the apex of which protrudes forward relative to the line of the fore part blade. On each of the wings of the legs are mounted overhead elements of a triangular shape so that their vertices coincide with the lines of the blades of the wings of the legs, and the lateral edges protrude beyond the lines of the blades of the wings of the legs, forming a stepped cutting edge. The thickness of each patch is less than the thickness of the base of the paw.

The prototype has the following disadvantages.

In the process of operation of the cultivator paw, intensive wear occurs on the unstrengthened edges of the patch elements protruding beyond the line of the blade wings of the paw, due to the high pressure on them of the soil with abrasive particles. Since the nose of the paw receives greater soil pressure than the wings of the paw, with the same thickness of the patch the element of the bow wears out faster than the patch of the wings. In this case, a high probability of kink of flat overhead elements under the action of the vertical component of the soil resistance force. As a result of these reasons, the cultivator’s paws lose their working capacity, the quality indicators of the cultivation process deteriorate and the traction resistance of the tillage tools increases, and there is a need for additional costs for their repair.

The essential features of the invention, coinciding with the features of the prototype, is the presence in the claw of the cultivator of the shank, nose, base with symmetrical left and right wings, as well as attached elements installed in the bow and wings, the edges of which form a cutting edge.

The technical result of the invention is to provide the necessary quality indicators of the technological process of cultivation, increasing the reliability, durability and maintainability of the cultivator paws in various operating conditions on different types of soils, reducing the cost of repairs and reducing the traction resistance of tillage tools.

и

толщины основания лапы.Technical solution - the cultivating paw contains a shank, nose, base with symmetrical left and right wings, as well as overhead elements installed in the nose and on the wings, while overhead elements in the form of curved plates made of wear-resistant alloy steel are attached to the base and the bow of the lower side of the paw with the convex side down using bolted connections so that their edges protrude 15-20 mm from the front borders of the base of the paw, forming a cutting edge, the central the mantelpiece of the bow is made with two-sided arrow-shaped sharpening and two-sided reinforcing plasma-powder surfacing in the form of a logarithmic curve on the lower side of its blades, and the side overhead elements of the wings are made in the form of a parallelogram with alternating starting from the middle alternating two-sided reinforcing plasma-powder surfacing in the shape of a logarithmic curve on the lower side of their blades, and the thickness of the plates of the Central and side overhead elements respectively

and

thickness of the base of the paw.

и

толщины основания лапы обеспечивает равностойкость накладных элементов к изнашиванию при обработке почвы, а их крепление к основанию лапы при помощи болтовых соединений позволяет производить их быструю замену при ремонте, что в совокупности позволяет уменьшить затраты на ремонт. Поочередное, начиная со среднего, чередование элементов с двусторонней упрочняющей плазменно-порошковой наплавкой в форме логарифмической кривой на нижней стороне лезвий накладных элементов, края которых выступают вперед от передней границы основания лапы на 15-20 мм, и накладных элементов без наплавки приводит к тому, что в начальный период эксплуатации культиваторной лапы накладные элементы без наплавки изнашиваются быстрее элементов с наплавкой, вследствие чего режущая кромка лапы приобретает зубчатую форму с выступами и впадинами. При взаимодействии такого зубчатого лезвия с почвой контактное давление концентрируется на упрочненных выступах, способствуя эффективному скалыванию почвы, одновременно происходит ее скольжение во впадинах между выступами с минимальным сопротивлением. В результате перераспределения контактного давления и скольжения почвы вдоль лезвия происходит самозатачивание его режущей кромки. Скалывание почвы выступами лезвия с ее скольжением и эффектом самозатачивания режущей кромки в совокупности приводят к существенному снижению сопротивления при обработке почвы, а благодаря этому также уменьшается износ и увеличивается долговечность культиваторной лапы.Between the totality of the essential features of the invention and the achieved technical result, there is the following causal relationship. The implementation of overhead elements in the form of curved plates with a convex side down increases their rigidity, preventing kink under the action of the vertical component of the soil resistance force. The use of wear-resistant alloy steel for the application of overhead elements makes it possible to heat them up to 55-60 HRC units, which, in combination with bilateral reinforcing plasma-powder surfacing in the form of a logarithmic curve on the lower part of the blades, significantly increases their resistance to wear by soil abrasive particles. The execution of the central overhead element of the bow with two-sided arrow-shaped sharpening, and the side overhead elements of the wings in the form of a parallelogram allows you to reinstall them on the leg with a 180 ° turn during wear of one of the blades of the overhead elements, thereby increasing durability and maintainability of the cultivator leg in various operating conditions on different types of soils. The ratio of the thickness of the plates of the Central and lateral overhead elements, respectively

and

the thickness of the base of the paw ensures that the patch elements are equally resistant to wear during soil cultivation, and their attachment to the base of the paw with bolted connections allows them to be quickly replaced during repair, which together allows to reduce repair costs. Alternating, starting from the middle, the alternation of elements with bilateral reinforcing plasma-powder surfacing in the form of a logarithmic curve on the lower side of the blades of patch elements, the edges of which protrude 15-20 mm forward from the front border of the foot base, and patch elements without surfacing leads to that in the initial period of operation of the cultivator paw, overlay elements without surfacing wear out faster than elements with surfacing, as a result of which the cutting edge of the paw acquires a serrated shape with protrusions and depressions. In the interaction of such a serrated blade with the soil, the contact pressure concentrates on the hardened protrusions, contributing to the effective cleavage of the soil, while it glides in the depressions between the protrusions with minimal resistance. As a result of the redistribution of contact pressure and soil sliding along the blade, its cutting edge is self-sharpening. Shearing of the soil by the protrusions of the blade with its sliding and the effect of self-sharpening the cutting edge together lead to a significant reduction in resistance when processing the soil, and this also reduces wear and increases the durability of the cultivator paws.

The set of features of the invention that distinguish it from the prototype is new, it ensures the achievement of a technical result, and therefore, the invention, in comparison with the prototype, meets the criteria of "novelty" and "significant differences".

The invention is illustrated graphic material, where

in FIG. 1 shows a diagram of a cultivating paw (top view),

in FIG. 2 shows a diagram of a cultivating paw (bottom view),

in FIG. 3 shows a cross-section along AA in FIG. 2.

и

толщины основания 3 лапы.The cultivator leg contains a shank 1, a bow 2, a base 3 with symmetrical left 4 and right 5 wings. In the bow part 2, a central patch element 6 is attached on the bottom side to the base 3 with a bolt connection 8 in the form of a curved plate with a convex side down with a two-sided arrow-shaped sharpening and a two-sided reinforcing plasma-powder surfacing 9 in the form of a logarithmic curve on the lower side of its blades. On the wings 4 and 5, lateral patch elements 7 in the form of curved parallelogram-shaped plates with a convex side down and alternating from the middle alternating two-sided reinforcing plasma-powder surfacing 10 in the form of a logarithmic curve on their lower side are fixed on the lower side by means of bolted joints 8 blades. The edges of the attachment elements 6 and 7 protrude from the front edges 11 of the base of the foot 3 at a distance of 15-20 mm, forming cutting edges 12. The thickness of the plates of the central 6 and side 7 of the attachment elements is respectively

and

base thickness 3 paws.

A cultivating paw with patch elements operates as follows. When moving in the soil, the central pointed wear-resistant patch 6 of the fore part 2 of the paw easily penetrates into the soil and loosens it, thereby significantly reducing the load on the cutting edges 12 of the wings 4 and 5. This forms a strip of soil loosened by patch 6, which wider than element 6 due to lateral cleavage of the soil. Then lateral wings 4, 5 paws with attached elements 7 enter into the work, which expand the zone of loosening of the soil and cut the rhizomes of weeds. In this case, the shape of the cutting edge 12 of the wings 4, 5 of the paw has a special role due to the alternating alternation of bilateral reinforcing plasma-powder surfacing 10 in the form of a logarithmic curve on the lower part of the blades of the patch elements 7, the edges of which protrude 15- 20 mm, and the fact that in the initial period of operation of the cultivator paw, the overlay elements 7 without surfacing wear out faster than the elements with surfacing, as a result of which the cutting edge 12 of the paw acquires a toothed shape with protrusions and depressions. In the interaction of such a serrated blade with the soil, the contact pressure concentrates on the hardened protrusions, contributing to the effective cleavage of the soil, while it glides in the depressions between the protrusions with minimal resistance. As a result of the redistribution of contact pressure and sliding of the soil along the blade, its cutting edge 12 self-sharpenes. Shearing of the soil with the ledges of the blade with its sliding and the effect of self-sharpening of the cutting edge 12 together lead to a significant reduction in resistance when processing the soil, and this also reduces wear and increases durability cultivating paws.

When one of the sides of the central 6 and side 7 overhead elements is worn out, they can be easily reinstalled with 180 ° swivel legs, and when fully worn, it is also easy to replace them with new ones without forging and sharpening the cultivating leg, which further increases durability and maintains maintainability cultivating paws in various operating conditions on different types of soils.

The created cultivating paw has increased efficiency, durability and maintainability in various operating conditions on different types of soils and provides a reduction in repair costs and a decrease in traction resistance of tillage tools.

Claims (2)

1. A cultivating paw containing a shank, a bow, a base with symmetrical left and right wings, as well as patch elements installed in the bow and wings, characterized in that the patch elements in the form of curved plates made of wear-resistant alloy steel are attached to the base and fore part on the lower side of the paw with the convex side down using bolted joints so that their edges protrude forward from the front borders of the base of the paw, forming a cutting edge, with the central patch element The nose part is made with bilateral arrow-shaped sharpening and bilateral reinforcing plasma-powder surfacing in the form of a logarithmic curve on the lower part of the blades, and the lateral double-sided wing overhead elements are made in a parallelogram shape with alternating starting from the middle alternating bilateral reinforcing plasma-powder surfacing in the form of a logarithmic curve on the lower part of their blades, and the thickness of the plates of the Central and side patch elements are 1/2 and 1/4 thickness, respectively us the base of the paw. 2. The cultivating leg according to claim 1, characterized in that the edges of the patch elements protrude 15-20 mm from the front boundaries of the base of the leg.

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