RU2116710C1 - Plow body - Google Patents

Abstract

FIELD: agricultural engineering, in particular, equipment for basic cultivation of soil. SUBSTANCE: plow body has share and subsoiler made as additional part of share. Share is provided with chisel disposed adjacent to landward edge of plow and adapted to form channel in subsoil layer, with sizes in transverse-vertical section t=(20-27%)B and h=(32-40%)B, and is further provided with wing positioned at an angle of γ₁ = 60-65^° = 60-65 deg and adapted to form in subsoil layer channel with sizes in transverse-vertical section h(1)= (18-25%)B and t(1) =(16-26%)B; and front edge of share wing has angle ε = 55...63^°,=55-63 deg, where t is width of channel formed by share chisel; h is depth of channel formed by share chisel; t(1) is width of channel formed by share wing; h(1) is depth of channel formed by share wing; B is plow body width; γ₁ - is angle of share wing; ε is angle of inclination of share wing front edge to horizontal plane. EFFECT: increased efficiency and improved quality of cultivated soil. 3 dwg

Description

 The invention relates to the field of agricultural engineering, in particular to tillage tools for basic tillage.

 Known cut housing intended for dump plowing of podzolic soils with a small arable horizon with a simultaneous deepening of 4 to 5 cm. The housing has two shares and a blade [1, p. 16].

 Also known is a casing with a subsoil, consisting of a paw attached to the casing stand pivotally or rigidly, on trailed plows, the subsoiler is mounted in the casing post using a four-link parallelogram mechanism, the leading link of which is connected with the plow lifting mechanism. The paw stand has a number of holes that allow you to deepen the paw 6 - 15 cm more than the share [1, p. 17].

 For an existing plow body with a subsoiler, the subsoil actuator — the lancet paw — is mounted on a separate special rack with two leads to an additional bracket mounted on the plow body, which makes the case more metal-intensive. Vegetable debris accumulates on the rack of the subsoiler. On hard soils, the soil seams between the plow body and the lancet paw of the subsoiler. During operation, the plow body, as a result of significant lateral forces acting on the blade, moves toward the field board. And this causes lateral loads acting on the subsoiler, which leads to bending of the rack.

 The objective of the present invention is to reduce the metal consumption, reducing the harmful forces acting on the field board, eliminating overhanging vegetation and jamming of the soil between the body and the subsoiler.

The problem is solved due to the fact that in the plow body, including the share and the subsoiler, according to the invention, the subsoiler is made in the form of an additional part of the share, while the share on the side of the field edge is equipped with a bit that forms a groove in the subsurface layer with dimensions in the transverse vertical section t = (20 - 27%) B and h = (32 - 40%) B, and on the side of the furrowed edge, the share has a wing that is located at an angle γ ₁ = 60-65 ^° and forms a groove in the subsurface horizon with dimensions transversely -vertical section h ₁ = (18 - 25%) B and t ₁ = (16 - 26%) B, and the front edge of the share wing is made at an angle ε = 55-63 ^° ,
Where
t is the width of the groove formed by the ploughshare bit;
h is the depth of the groove formed by the ploughshare bit;
t ₁ is the width of the groove formed by the share wing;
h ₁ - the depth of the groove formed by the wing share;
B is the width of the plow body;
γ ₁ - the angle of the wing share;
ε is the angle of inclination to the horizon of the leading edge of the share wing.

 In FIG. 1 shows a general view of the plow body, a view from the side of the furrowed edge; in FIG. 2 shows a general view of the plow body in plan; in FIG. 3 shows a transverse vertical section of a subsurface layer.

 The plow body consists of a rack 1, on which a shoe 2 is fixed. A blade 3, a ploughshare 4 and a field board 5 are attached to the shoe 2.

The share 4 on the side of the field edge is equipped with a bit 6, which forms a groove 8 in the subsurface layer with the size in the transverse vertical section t = (20 - 27%) B and h = (32 - 40%) B, and on the side of the furrowed edge, the share 4 has a wing 7, which is located at an angle γ ₁ = 60-65 ^° and forms a groove 9 in the subsurface horizon with dimensions in the transverse vertical section h ₁ = (18 - 25%) B and t ₁ = (16 - 26%) B, and the leading edge of the wing 7 of the share 4 is made with an angle ε = 55-63 ^° ,
Where
t is the width of the groove formed by the ploughshare bit;
h is the depth of the groove formed by the ploughshare bit;
t ₁ is the width of the groove formed by the share wing;
h ₁ - the depth of the groove formed by the wing share;
B is the width of the housing;
γ ₁ - the angle of the wing share;
ε is the angle of inclination to the horizon of the leading edge of the share wing.

 The plow body works as follows.

 With the translational movement of the plow body, the chisel 6 of the share 4 forms a groove 8 in the soil, and the wing 7 forms a groove 9. In the process of forming the groove 9, the wing 7 of the share 4 is introduced into the subsurface horizon and from the side of wing 7 on the soil layer in the transverse vertical section abcd acts the force P, which shifts the soil formation abcd to the left, toward the groove 8. When the ultimate stresses are reached in the subsurface horizon abcd, soil crumbles.

Due to the obtuse angle ε of entry of wing 7 of share 4, plant residues and plant roots freely slide along the front face of wing 7, and share 4 does not become clogged with plant residues. Due to the fact that the wing surface 7 is set to the direction of movement of the body at an angle γ ₁ , the field board 5 is unloaded, the effort to drag the body along the bottom of the furrow is reduced. In addition, the force of the lateral displacement of the hull acting on the blade 3, is balanced by the reaction force of the soil of the subsurface horizon acting on the wing 7.

Claims (1)

A plow body including a ploughshare and a subsoiler, characterized in that the subsoiler is made in the form of a bit fixed on the side of the field edge of the share to form a groove in the subsurface layer with dimensions in the transverse vertical section determined by the ratios t = (20 - 27%) B and h = (32 - 40%) B, and located on the side of the furrowed edge of the share wing, which is installed at an angle γ ₁ = 60 - 65 ^o to form grooves in the subsurface horizon with dimensions in the transverse vertical section determined by the ratios h ₁ = (18 - 25%) B and t ₁ = (1 6 - 26%) B, and the front edge of the share share wing is located at an angle ε = 55 - 63 ^o , where t is the width of the groove formed by the share bit, h is the depth of the groove formed by the share bit, t ₁ is the width of the groove formed by the share wing , h ₁ is the depth of the groove formed by the share wing, B is the width of the hull, γ ₁ is the angle of installation of the share, ε is the angle of inclination to the horizon of the front edge of the share.

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