RU195729U1 - Plow body with a blade blade - Google Patents

Abstract

The utility model relates to agricultural engineering, and specifically to tillage implements. To reduce energy consumption and improve the quality of the process in a plow body with a blade blade, including a rack 1, to which a shoe 2 is attached, to which a ploughshare 5 is attached using fastening elements 3 and 4 , the chest of the blade 6, the strip of the blade 7 and the field board 8, the upper 9 and lower 10 forming the strip of the blade 7 have an angle η with a ploughshare blade 11 in the development, determined by the formula: where η is the angle in the development between the tangent to the the relative trajectory of the formation and the ploughshare blade, deg; α is the angle between the oz axis and the projection of the tangent line to the yoz plane on the relative path, deg; ε is the dihedral angle between the tangent plane and the groove bottom plane, deg; γ is the angle between the tangent plane trace on the xoy plane and the direction of movement of the body, deg.

Description

The utility model relates to agricultural machinery, and specifically to tillage implements.

Theoretical studies of the plow-dump surface are known as the development of a trihedral wedge (see L. V. Gyachev. The theory of the plow-dump surface. Zernograd, 1961). According to the results of theoretical studies, the position of the plow-heap surface in space can be characterized by two angles (Fig. 2), the dihedral angle ε between the tangent plane and the bottom plane of the furrow xoy and the angle y between the track of the tangent plane on the xoy plane and the direction of movement of the body (ax ) At the same time, soil movement is characterized by two types of trajectories: absolute with respect to the motionless patronymic system and relative along the plow-heap surface itself. The direction in space of the tangent line to the relative path of the formation particle at the current point (Fig. 2) is determined by two angles: the angle α between the oz axis and the projection onto the yoz plane of the tangent line AF to the relative path and the angle β between the tangent AF and the axis oh. After extension of the unfolding surface of the plow body into a plane, the relative trajectory will become a flat curve, and its tangent will make an angle η with the share blade in the sweep. It is at this angle that the soil layer moves along the plow-heap surface, the value of which is determined by the formula:

where η is the angle in the sweep between the tangent to the relative trajectory of the formation and the share blade, deg;

α is the angle between the oz axis and the projection onto the yoz plane of the tangent line to the relative trajectory, degrees;

ε is the dihedral angle between the tangent plane and the plane of the bottom of the furrow, deg;

γ is the angle between the trace of the tangent plane on the xoy plane and the direction of movement of the body, deg.

The well-known DuraMaxx Hybrid plow body for Lemken sticky soils (see Lemken's Diamant semi-mounted rotary plows brochure p. 11 - prototype), including a rack, shoe, ploughshare, field board, dump chest, dump strips with upper and lower forming and fastening elements.

A significant drawback of this plow body is that when the soil layer moves along the plow body with a strip blade, it alternates with the blade strips, between which the bed has nothing to rely on. Thus, alternating changes in the friction forces occur, which leads to the inhibition and crawl of the previous part of the formation to the next, which leads to its unloading when moving on a plow-dump surface and an increase in energy intensity.

The technical result of the proposed utility model is to reduce energy intensity and improve the quality of the process.

The technical result is achieved by the fact that in the plow body with a blade blade, including a stand, shoe, ploughshare, field board, blade chest, blade strip with upper and lower generators and fastening elements, according to a utility model, the upper and lower forming blade strips have the blade share in the scan angle η, determined by the formula:

where η is the angle in the sweep between the tangent to the relative trajectory of the formation and the blade of the share, deg;

α is the angle between the oz axis and the projection onto the yoz plane of the tangent line to the relative trajectory, degrees;

ε is the dihedral angle between the tangent plane and the plane of the bottom of the furrow, deg;

γ is the angle between the trace of the tangent plane on the xoy plane and the direction of movement of the body, deg.

The novelty of the claimed technical result is due to the following. The implementation of the upper and lower generators of the strip of the blade in such a way that they had an angle η with a ploughshare blade in the reamer, determined by the formula:

where η is the angle in the sweep between the tangent to the relative trajectory of the formation and the share blade, deg;

α is the angle between the oz axis and the projection onto the yoz plane of the tangent line to the relative trajectory, degrees;

ε is the dihedral angle between the tangent plane and the plane of the bottom of the furrow, deg;

γ is the angle between the trace of the tangent plane on the xoy plane and the direction of movement of the body, deg.

This will prevent its unloading, since each individual part of the formation will not change its interaction with the strip or the gap between them, which will also reduce the dynamic interaction of the formation with the blade, and, consequently, the energy consumption of the process will also decrease.

The invention is illustrated by drawings, where figure 1 shows a General view of the body of the plow with a blade blade, figure 2 is a diagram for determining the angles of interaction of the soil layer with the plow-heap surface; figure 3 is a diagram of the interaction of the soil formation and the location of the angle η in the scan between the tangent to the relative trajectory of the formation and the blade share.

The plow body with a blade blade (Fig. 1) includes a rack 1 to which a shoe 2 is attached. A shoe share 5, a breast blade 6, a blade strip 7 and a field board 8 are attached to the shoe 2 using fasteners 3 and 4; the upper 9 and lower 10 forming strips of the blade 7 have a blade share 11 in the scan angle η, determined by the formula:

where η is the angle in the sweep between the tangent to the relative trajectory of the formation and the share blade, deg;

α is the angle between the oz axis and the projection onto the yoz plane of the tangent line to the relative trajectory, degrees;

ε is the dihedral angle between the tangent plane and the plane of the bottom of the furrow, deg;

γ is the angle between the trace of the tangent plane on the xoy plane and the direction of movement of the body, deg.

The plow body with a blade blade works as follows.

When moving the plow body with a blade blade, the ploughshare 5 and the chest of the blade 6 cut off the soil layer in horizontal and vertical planes and feed it to the strip of the blade 7. By performing the upper 9 and lower 10 forming strips of the blade 7 in such a way that they have a blade ploughshare 11 in the scan angle η, determined by the formula:

where η is the angle in the sweep between the tangent to the relative trajectory of the formation and the blade of the share, deg;

α is the angle between the oz axis and the projection onto the yoz plane of the tangent line to the relative trajectory, degrees;

ε is the dihedral angle between the tangent plane and the plane of the bottom of the furrow, deg;

γ is the angle between the trace of the tangent plane on the xoy plane and the direction of movement of the body, deg.

when the soil layer moves along the strips 7, it does not change its interaction with the strips 7 or the gap between them, which will prevent the previous part of the formation from crawling onto the next, and therefore its unloading, and will also reduce the dynamic interaction of the formation with the blade, and, consequently, the energy intensity of the process will decrease. Due to the fact that part of the soil layer moves along lanes 7, and the other part along the gap between them, the resulting difference between the forces R ₁ and R ₂ will lead to fracture of the formation, which in turn will lead to a decrease in the energy intensity of the process and to better crumbling of the formation. The field board 8, attached to the rack 1 through the shoe 2, due to the pressure of the formation on the ploughshare 1 and the strip of the blade 7, abuts against the wall of the furrow, which allows you to maintain a rectilinear stable movement of the plow body with a blade blade

Thus, the proposed plow body with a blade blade ensures the achievement of a technical result.

Claims (6)

The plow body with a blade blade, including a rack, shoe, ploughshare, field board, blade chest, blade strips with upper and lower generators and fastening elements, characterized in that the upper and lower generatrix of the blade strips have an angle η defined by the share blade in the reamer, defined according to the formula:

where η is the angle in the sweep between the tangent to the relative trajectory of the formation and the blade of the share, deg; α is the angle between the oz axis and the projection onto the yoz plane of the tangent line to the relative trajectory, degrees; ε is the dihedral angle between the tangent plane and the plane of the bottom of the furrow, deg; γ is the angle between the trace of the tangent plane on the xoy plane and the direction of movement of the body, deg.

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