RU110894U1 - CULTIVATOR ARROW FEET - Google Patents

Abstract

The utility model relates to agricultural machinery, namely to the design of tillage implements, more specifically to lancet paws of cultivators with a rigidly fixed cutting part, and can be used to create modern machine cultivators. The task of the utility model to be solved is the creation of a modern, reliable and efficient working body of the cultivator with high wear resistance and a resource in various operating conditions, processing quality and reduced traction resistance. The problem to be solved and the technical result of the utility model are the creation of an equally stable working body with an equally high resource and wear resistance of both the bow and blade parts of the wings under various operating conditions, including light loamy and sandy soils. In this case, the traction resistance of the paw should not increase as it wears out. This problem is solved by the fact that in the lancet paw of the cultivator containing the nose, symmetrical wings with blade parts and the fastening element of the paw to the cultivator, according to the utility model, the nose of the cultivator paw is made and includes a patch element in the form of a pointed beam fixed in the nose cultivator leg parts mechanically, by welding or soldering. In addition, the patch element can have a cross-section in the form of a semicircle, polygon, rectangle and is made of wear-resistant steel X12, X12MF, other wear-resistant steel or wear-resistant cast iron. A rectangle - a less desirable shape, a polygon and a semicircle - are most preferable, because they provide the greatest rigidity at the same section area; a semicircle is obtained by means of a longitudinal section of a round bar; a polygon is a hexagon. The length of the beam of the patch element should be between 60-90 mm, the angle of sharpening is 25 ... 30 °, the protrusion of the pointed part of the patch from the base of the fore part of the paw is 30 ... 40 mm, the width of the beam is 0.1 ... 0.15 of the working width paws, timber thickness - 2.5 ... 3.5 of the thickness of the sheet from which the paw is made. In addition, the preferred material for the manufacture of the paw itself instead of steel 65G can be alloy steel 40XC or 40X with a surface hardness in the range of HRC 48-55. These grades in their physicomechanical, technical and economic characteristics (hardness, toughness, strength, wear resistance) exceed the parameters of steel 65G. In addition, the sharpening of the wings of the paw of the cultivator is carried out: - from the upper side at an angle of 8-10 ° when the angle of the wings to the horizon ε≤15 °; - with double-sided sharpening at an angle of 4-5 ° with an angle of wings to the horizon of 15 ° <ε≤20 °; - from the bottom side at an angle of 8-10 ° with the angle of the wings to the horizon ε> 20 °. Such sharpening angles to the greatest extent ensure good penetration of the paw and the smallest stabilized angle of sharpening when the blade wears.

Description

The utility model relates to agricultural machinery, namely to the design of tillage implements, more specifically to lancet paws of cultivators with a rigidly fixed cutting part, and can be used to create modern high-performance and high-resource cultivators for continuous and inter-row tillage.

A known design of a lancet paw of a cultivator containing a nose, symmetrical wings with a blade part and an element for attaching a paw to a cultivator post (Klenin N.I., Sakun V.A., Agricultural machines, M .: Kolos, 1994, p.751, p. .139). ^] .

The main parameters of the known design of the lancet paw are: a solution angle of 2γ = 56-80 °; crumbling angle α = 9-18 °; angle to the horizon ε = 15-30 °; point angle i = 12-15 °; working width b = 145-385 mm; thickness 4-8 mm; the depth of processing is 4-12 cm. Depending on the values of these parameters, the full or loosening functions of the paws during soil treatment are manifested.

The resource of the known cultivating paws, in the case of steels of type 65G usually used for their 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 paws. At the same time, the wear rate of the bow is about 3 ... 4 times higher than the wear rate of the blade part of the wings.

This is due to the fact that the nose of the paw carries out direct frontal cutting of the soil, since its cutting edge increases and becomes almost perpendicular to the direction of movement of the paw, while the blade part of the wings performs oblique cutting, since its cutting edge is at an angle to the direction of movement. As a result of this, the pressure of the soil acts on the bow, 3-4 times higher than the pressure acting on the blade part of the wings. As a result of this type of wear during operation, the traction resistance of the paw increases, its deepening ability decreases, and the agrotechnical requirements for soil cultivation are not met.

The closest technical solution to the proposed one is the lancet paw of the cultivator containing the nose, symmetrical wings with blade parts and the fastening element of the paw to the cultivator post (RF patent No. 2070363, АВВ 35/00, 1996 - prototype, publication date 12/20/1996 g Bulletin No. 351996).

The known cultivator paw has blades fused with a reinforcing layer, a shank located behind the bow, in which the working surfaces of the wings and sections adjacent to the bow are curved, and the lines of the cutting edges of the bow are extended forward relative to the lines of the cutting edges of the blades on the wings.

For the reinforcing layers of the nose and blade parts of the paw in modern conditions, wear-resistant high alloy alloys FBH-6-2, US-25 and others with a thickness of 0.4-0.5 mm on the blade and 0.8-1.0 mm on the fore are used. Due to this, the wear resistance of the legs increases slightly.

However, the service life of the known cultivating paw with hardened surfacing does not satisfy the condition of equal resistance of the toe and the blade part of the wings, especially when treating sandy, sandy loam and light loamy soils with hardness exceeding 1.5-1.7 MPa. So, the operating time of the well-known lancet cultivating paw of rolled steel 65G is 10-20 ha. In this case, the individual working surfaces of the legs wear out not equally.

The problem to be solved and the technical result of the utility model are the creation of an equally stable working body with an equally high resource and wear resistance of both the bow and blade parts of the wings under various operating conditions, including light loamy and sandy soils. In this case, the traction resistance of the paw should not increase as it wears out.

This problem is solved by the fact that in the lancet paw of the cultivator containing the nose, symmetrical wings with blade parts and the fastening element of the paw to the cultivator, according to the utility model, the nose of the cultivator paw is made and includes a patch element in the form of a pointed beam fixed in the nose parts of the cultivator leg, while the elements of the cultivator leg are made of alloy steel 40XC, 40X or 65G with a surface hardness in the range of HRC 48-55, and the patch element is made of wear-resistant alloyed steel X12, H12MF, wear resistant steel or other wear-resistant cast iron.

In addition, the patch element may have a cross-section in the form of a semicircle, polygon, rectangle. A rectangle - a less desirable shape, a polygon and a semicircle - are most preferable, because they provide the greatest rigidity at the same section area; a semicircle is obtained by means of a longitudinal section of a round bar; a polygon is a hexagon.

The length of the beam of the patch element should be within 60-90 mm, the angle of sharpening is 25-30 °, the protrusion of the pointed part of the patch from the base of the bow is 30-40 mm, the width of the beam is 0.1-0.15 of the width of the leg , the thickness of the beam is 2.5-3.5 of the thickness of the sheet from which the paw is made.

The indicated steel grades for the manufacture of paw elements in their physicomechanical, technical and economic characteristics (hardness, toughness, strength, wear resistance) exceed the parameters of steel 65G.

This is evidenced by the results of studies conducted at Moscow State Agrarian University. VP Goryachkina and presented in table 1. Steel 45 is accepted as reference steel in the state of supply with hardness HB 180.

In addition, the sharpening of the wings of the paws of the cultivator is carried out:

- from the upper side at an angle of 8-10 ° with the angle of setting to the horizon ε≤15 °;

- with bilateral sharpening at an angle of 4-5 ° with an angle of setting to the horizon of 15 ° <ε≤20 °;

- from the bottom side at an angle of 8-10 ° with the angle of setting to the horizon ε> 20 °.

Such sharpening angles to the greatest extent ensure good penetration of the paw and the smallest stabilized angle of sharpening when the blade wears.

Table 1 Values of hardness, strength, relative wear resistance and cost estimate of steel wear resistance steel grade Tempera vacation tour, ° С Impact strength, J / cm ² Hardness, NKS _e Time. tensile strength, MPa Relative wear resistance Relative price Relative cost estimation of wear resistance 45 175 thirty thirty 1050 1.00 1.00 1,0 65g 400 thirty 48 1650 1.86 1.40 0.75 40X 180 thirty 55 1800 2.60 1.30 0.50 40HS 175 60 57 2000 2.80 1.34 0.48

As can be seen from this table, at the same toughness (30 J / cm ² ), the relative cost estimate of 40XC steel is more than 1.5 times lower than that of 65G steel, i.e. the wear resistance of 40XC steel is higher, and its cost is lower compared to steel 65G.

Depending on the purpose, lancet paws with patch elements can be installed on all types of cultivators to perform both weeding, row-spacing processing, and when performing pre-sowing treatment of all types of soils, except stony soils. In this case, the loosening ability of the paws increases.

A specific example of the implementation of lancet paws with a patch element is presented in figure 1

The lancet paw of the cultivator comprises a nose 1, symmetrical wings 2 with blade parts 3, and an element 4 for attaching the paws to the tiller stand. The nose part 1 of the cultivator paw is made by the national team and includes a patch element 5 in the form of a pointed beam mechanically fixed in the nose part 1 of the cultivator paw with screws 6 or welding or soldering.

The lancet paw of the cultivator is made of sheet rolled steel 40XC with a thickness of t = 6.0 mm with the following parameters: solution angle 2γ = 60 °; crushing angle α = 18 °; angle to the horizon ε = 30 °; working width b = 330 mm. The nose of the paw 1 is chopped off to a width of c = 30-35 mm. Two 08.5 mm holes are drilled on the paw for mechanical fastening of the patch element.

The paw is hardened to a hardness of HRC 52-55 (from steel 40X - to a hardness of HRC 50-52) and the blade portion of the wings 3 is sharpened from the lower side by an angle i = 8-10 °. The thickness of the blade after sharpening d = 0.5 mm.

The patch element 5 is made of bar-rolled steel XI 2 with a diameter of 35 mm The length of the patch element is L = 90 mm. After processing one end of the workpiece into a cone with an angle at the vertex of 2β = 60 °, the workpiece is cut along the axis into two equal parts. Thus, two overhead elements are made from the bar. A step of 6 mm depth (equal to the thickness of the sheet from which the paw is made) is milled on the plane of the element’s connector to ensure a stepless connection of the patch element with the paw. Before attaching to the paw, the patch element is hardened to a hardness of HRC58-60, then attached to the paw with two 6 M8 screws (can be riveted).

Lancet paw with patch element operates as follows.

The sharp wear-resistant patch of the nose of the paw easily penetrates into the soil and loosens it, thereby significantly reducing the load on the beginning of the blade part of the wing. Since the angle of tapering of the bow (patch) is 30 °, this ensures good penetration of the legs, and the minimum sharpening angle i = 10 ° from the lower working surface of the blade part of the wings - their sharpness is sufficient even with significant wear across the width. All this provides high performance paws for a long period of time without increasing traction resistance.

As a result of the introduction of lancet paws with overhead elements, their resource is increased, to no less than 40-50 ha, while ensuring the agrotechnical requirements of soil cultivation, the cost of processing is reduced, labor productivity is increased by reducing the number of paw changes and their repair at low capital costs.

Claims (4)

1. The lancet paw of the cultivator, containing the nose, symmetrical wings with blade parts and an element for attaching the paw to the cultivator post, characterized in that the nose of the cultivator paw is prefabricated and includes a patch element in the form of a pointed beam fixed to the nose of the cultivator paw, the elements of the cultivator paw are made of alloy steel 40XC, 40X or 65G with a surface hardness in the range of HRC 48-55, and the patch element is made of wear-resistant alloy steel X12, X12MF, another of osostoykoy wear resistant steel or cast iron. 2. The lancet paw of the cultivator according to claim 1, characterized in that the patch element has a cross-section in the form of a semicircle, polygon, rectangle. 3. The lancet paw of the cultivator according to claim 1, characterized in that the length of the patch element must be 60-90 mm, the angle of tapering β = 25-30 °, the protrusion of the pointed part of the patch element from the base of the nose of the paw a = 30 ... 40 mm, beam width s = 0.1-0.15 mm from the width of the gripping paws, beam thickness h = 2.5 ... 3.5t the thickness of the sheet from which the paw is made. 4. The lancet paw of the cultivator according to claim 1, characterized in that the sharpening of the wings of the paw of the cultivator is carried out: from the upper side at an angle of 8-10 ° with the angle of setting ε≤15 ° to the horizon; with bilateral sharpening at an angle of 4-5 ° with an angle of setting to the horizon of 15 ° <ε≤20 °; - from the bottom side at an angle of 8-10 ° with the angle of setting to the horizon ε> 20 °.