SU1702888A1 - Soil tillage implement - Google Patents

Abstract

FIELD OF THE INVENTION The invention relates to agricultural machinery. The purpose of the invention is to improve the quality of plowing with effective anti-erosion protection. In a tillage implement, cylindrical working bodies are located at least two rows with each cylinder displaced in one row relative to the adjacent cylinder of another row transverse to the direction of the plane movement by an amount equal to the width of one working member: b 4 sin a V h (OR-n cos ft cos ft. Where a is the angle between the projection of the rotation of the cylindrical working body on the horizontal plane and the longitudinal axis of the frame; / is the installation angle of the cylindrical surface forming; h is the distance from the cross point The frontal projections of adjacent guides of the cylindrical surfaces of the working bodies to the line formed by crossing the horizontal plane of the installation of working organisms with their surfaces make up 0.04-0.05 m. At a given ratio of the parameters of the tool, a high-quality smooth plowing of the soil with soil crests is ensured mi in the subsurface layer, which increases the effectiveness of radiation protection. 4 il. ate

Description

 This invention relates to agricultural machinery, in particular to tillage tools,;:

The purpose of the invention is to enhance; plowing quality with effective erosion protection of the soil.

FIG. frontal tillage tool shown; figure 2 - the same. view from above; on fig.Z - projections of cylindrical working bodies on the frontal plane; on fig.4-installation angles of cylindrical working bodies in the coordinate system. . -; ;

The tillage tool consists of rums 1, nzeesky 2 mechanism, two support wheels 3 with mechs-5 4 adjustments

depths of processing and cylindrical working bodies 5-9, which are located in at least two consecutive ones. In the first row, cylindrical working bodies 5 and 6 are installed, in the second row,

 7-9. Each working body is made in the form of a hollow cylinder that is installed through the subsurface unit 10 on the frame 1. Each. the cylindrical body has a replaceable knife 11, which can be solid or serrated, -... ,,.-...:: The projections of the axes of rotation are cylindrical; The working bodies on the horizontal plane are located at an angle a. to. the longitudinal axis of the frame, coinciding with the direction of movement of the tool. Each

"That

X

the cylindrical working body of one row is shifted in the transverse direction relative to the cylindrical working body of the other row adjacent to the mime by the value,. determined by the distance between the points of intersection of the projections of the cutting edges of the cylinders on the frontal plane and equal to the width. the capture of one cylindrical working body, defined by the value,. У:.: /. :: -;: ..

.

(2 ----)

b - 4 sfnaVLJL

nt

where / 2 is the angle of installation of the forming cylindrical surfaces relative to the horizontal plane; ; :

h is the distance between the intersection point of the frontal projections of the guides of adjacent cylindrical surfaces of the Organs in adjacent rows and the smaller intersection of the horizontal plane of installation of the working bodies with the cylindrical surfaces forming them, which is 0.04-0.05 m ;. : ..:,: V-.:/: -Л-: -У: - U ..-:.:. :: / U. R is the radius of the cylindrical guide surface of the working member. ; ,; The numerical values of the values of a And / are chosen taking into account the known recommendations for setting plowshares of standard plow bodies to the wall and the bottom of the furrow, with this value: 30-42 °; / 15-30 °. The value of b is determined by the conditions of the traction force of the self-propelled chassis (tractor), to which the tillage tool is attached, by the limiting values of depth, plowing, determined by the design specification, as well as by the number of working parts in the tool. For given values of it, D h, b, determine R. The value of R. ensures optimal metal intensity of the cannon and provides optimal conditions for the permeability of the soil layer of the cylinder inside the cylinder at the maximum coefficient of scaling of the soil equal to 1.5. ;: y:: y

Soil tillage is carried out as follows. ..P / L - -.:. ..-

Anticipation with the help of the regulating depth of processing mechanism sets the depth of processing. At 1 forward moving of the tool, cylindrical working bodies under the influence of the weight of the tool are introduced to a predetermined depth, the layers are cut out in the form of circular segments of the {Shindrichnymi rings). The layer rises inside the cylinder, turns around, and leaves the opposite side of the ring.

Due to the arrangement of cylindrical working bodies with successive rows and their transverse displacement, the repeated working surfaces of adjacent working surfaces on a part of each treated formation are provided.

soil, which improves the quality of plowing with the simultaneous formation of soil ridges in the subsurface layer, which increases the efficiency of soil protection and erosion. The soil crests in the subsurface horizon have parameters that are not

affecting agronomic tolerance for

the depth of processing, with the height of the ridges corresponding to a value of 0.040.05 m, which is within

the standard deviation of the depth of treatment across a single pass of the gun.

Formula. neither

A tillage implement containing a frame on which hollow cylindrical working bodies for tillage are installed by means of bearing assemblies forming cylindrical

whose surfaces are set at an acute angle to the horizontal plane, and the projections of the axes of rotation of these working bodies on the horizontal plane are at an angle to the longitudinal axis of the frame,

characterized by the fact that, in order to improve the quality of plowing and the effectiveness of anti-erosion protection, the cylindrical working bodies are located on the frame at least two consecutive along the row, each cylindrical working body of one row is displaced in the transverse direction relative to the cylinder adjacent to it of another .r yes by the amount determined by

the distance between the points of intersection of the projections of the cutting edges of the cylinders onto the frontal plane and equal to the working width b of one working member, satisfying the ratio ...

:. ; G: W, y. . :::. C, YY - -:; -; .. ..:. h, (2 R - -J-UT

 n

COS / 5 v COS /

where a is the angle between the projection of the axis of rotation of the cylindrical working body on the horizontal plane and the longitudinal axis of the frame; :,.;. - .; , .. ;; .... . -. -

D-angle installation of forming a cylindrical surface of the working body to the horizontal plane;

ton.i

 ; Y: Y: III: YA;

one;:; Schy: shch shsh; KShShShSh & ..

., Ј-:. .- .-, .-: -:: ,,.. J; ov - .g V- Art. -. ....--; -:. -...- -g

direction of ogreggot

Claims (1)

Claim D. the cylindrical working body of one row is displaced in the transverse direction of the cylindrical slave of its organ adjacent to it of another row, by an amount determined by the distance between the intersection points of the projections of the cutting edges of the cylinders on the frontal plane and equal to the width. capture of one cylindrical working body, determined by the value ..- · b - 4 slnavL · 11 ___ \ j cos / 3 ^K co? /? where β is the installation angle of the generatrix of the cylindrical surfaces relative to the horizontal plane; ^; l ' ^λ / 11 - the distance between the intersection of the frontal projections of the guides of adjacent cylindrical surfaces of the Bodies in adjacent rows and the smaller intersection of the horizontal plane of the installation of the working bodies with their cylindrical surfaces •, which is equal to ^: 0.04-0.05 m; R is the radius of the guide cylindrical surface of the working body. ) The numerical values of the quantities α and β are selected taking into account the well-known recommendations for setting the plowshares of standard plow bodies to the wall and bottom of the furrow, with the value # = 30-42 °; /? = 15-30 °. ⁴ The value of b is determined by the conditions of traction of the self-propelled chassis (tractor), to which the tillage implement is attached, by the limiting values of the depth of cultivation a, 'Defined by the technical design specification, and also taking into account the number of working bodies in the implement. For given values of a, β, h, b, a value of 40 G is determined. . “By soldering the metal consumption of the gun, the optimum conditions for the passability of the soil layer inside the cylinder are ensured at the maximum coefficient of inflated soil - equal to 1.5. Soil tillage is carried out as follows ‘D as follows. Preliminarily, using the mechanism for regulating the depth of processing, set ·: pour the specified depth of processing. When tj? ' moving the gun forward tsilandrich '' 'skis working bodies under the action of force from ’' the weight of the gun are introduced to a given depth of 55 well, cut out the layers in the form of circular segments; '. . Nynth cylindrical rings. Plast 'β - the angle of installation of the generators of the cylin- der rises inside the cylinder, turning the surface of the working body to a horizontal plane; Due to the arrangement of cylindrical working bodies in successive rows and the existing lateral displacement, multiple effects of adjacent working surfaces on a part of each treated soil layer are ensured, which improves the quality of plowing with the simultaneous formation of soil ridges in the subsoil layer, which increases the effectiveness of soil erosion protection. The soil ridges available in the subsurface horizon have parameters that do not affect the agrotechnical tolerance in terms of processing depth, while the height of the ridges corresponds to a value of 0.04-0.05 m, which is within the standard deviation of the processing depth across one pass of the implement. A tillage implement containing a frame on which hollow cylindrical working bodies for tillage are installed by means of bearing assemblies, the cylindrical surfaces of which are mounted at an acute angle to the horizontal plane, and the projection axes of rotation of these working bodies on a horizontal plane are located at an angle to the longitudinal axis of the frame, '' characterized in that, in order to improve the quality of plowing and the effectiveness of anti-erosion protection, cylindrical working bodies are located on the frame at least two consecutive rows in the direction of travel, with each row providing an optimal cylindrical working element of one row, shifted in the transverse direction relative to the adjacent cylinder of the other row by an amount determined by 45 the distance between the intersection points of the projections of the cutting cylinder edges to the frontal plane and equal to the working width b of one working body, satisfying the ratio b = 4 slnaV.JL ,, β ο? By?/? ^N coT / P where a is the angle between the projection of the axis of rotation of the cylindrical working body on the horizontal plane and the longitudinal axis fifty. h is the distance from the intersection of the frontal projections of the guides of the adjacent cylindrical surfaces of the working bodies to the line formed at the intersection with the horizontal plane of installation of the working bodies with their surfaces forming, which is (0.04-0.05) m; R is the radius of the guide cylindrical surface of the working body. ·. '' ... '·· - · _ · ”’ • g- “··. ·;. · · / 1 T d I d / AND 7/7 /. Φϋτ.1 1D ΤΓ ft! V -4 A, 7 ^; · '·, Ύ. · F-. '·· Jr ’ 1 = s I ..1702888 "and * f. £. .7-. V / '( - £ .S ‘ι ' V