RU2847014C1 - Tillage tool working body - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: working element of tillage tool consists of stand (1) with shoe (2) welded in lower part, to which removable chisel (3) is attached. Along stand (1) there are holes (4) drilled through which a movable pair of cutting wings (5) is fixed with a pair of bolts. Along the outline of cutting wing (5) rear edge (6) longitudinal slots (7) are made, changing into transverse (8) to prop (1) parallel to the plane of rear edge (6) with the cutout bending upwards, forming protrusions (9) in the longitudinal direction. vertical plane. Distance between longitudinal slots (7) is equal to L. Length of longitudinal slot (7) is equal to ¼ L. Length of transverse slot (8) is equal to ½ L. Front edge of protrusions (9) is tapered and at an angle β is inclined backward.

EFFECT: improving tillage quality with reduction of erosion particles quantity in the cultivated soil surface layer.

1 cl, 1 dwg

Description

The invention relates to agricultural machinery and can be used in agriculture for primary deep tillage of soil, primarily for row crops, as well as for various other agricultural crops grown in the traditional and strip farming system.

A loosening working element is known, made in the form of cylindrical rotating rods in two rows (USSR Author's Certificate for Invention No. 1029836).

The main disadvantage of this analogue is that, if the field is heavily infested with weeds, the first row of rotating rods will wind around the plant roots and then pull the entire plant to the depth of maximum soil unevenness, which leads to a decrease in the quality of field leveling, as well as to an increase in the traction resistance of the wide-grip leveler.

A modular working element is known, which can be used for strip loosening, including a rack, a shoe with an attached chisel and a pair of cutting wings, attached to the rack with a pair of bolts through bushings, one of which is made with an eccentric offset (RU Patent No. 2399177, published 09.20.2010, Bulletin No. 26).

The technical disadvantage of this modular working element is the technological limitation and low quality of strip tillage.

The closest device to the claimed tillage implement is a working element for strip deep tillage, consisting of a stand with a shoe welded to the bottom with a narrow attached chisel; holes are drilled along the stand, through which a movable pair of cutting wings is attached with a pair of bolts (RU Patent No. 2714289, published 02/13/2020, Bulletin No. 5).

The technical disadvantage of this working organ is the low quality of soil loosening with the formation of erosive particles, which limits its use on sloping lands.

The objective is to reduce erosion processes from soil cultivation.

The technical result is an increase in the quality of loosening with a reduction in the amount of erosive particles in the surface layer of the cultivated soil.

The technical result is achieved by the tillage implement's working element comprising a shank with a shoe welded to the bottom, bearing an attached chisel. Holes are drilled along the shank, through which a pair of movable cutting wings are secured with bolts. Along the outline of the cutting wings' rear edge, _longitudinal slots are made, which transition into transverse slots relative to the shank, parallel to the plane of the rear edge, with the cutouts bent upward, forming projections in the longitudinal-vertical plane. The distance between the longitudinal slots is equal to L, the length of the longitudinal slot is ^1/4 L, and the length of the _transverse slot is ^1/2 L. Furthermore, the front face of the projections is tapered and inclined backward at an angle β.

Fig. 1 shows the working element of a tillage implement, side view.

The working element of the tillage implement consists of a stand 1 with a shoe 2 welded to the bottom and an attached chisel 3. Holes 4 are drilled along the stand, through which a movable pair of cutting wings 5 are attached with a pair of bolts. Along the outline of the rear edge 6 of the cutting wing 5, longitudinal 7 slots are made that pass into transverse 8 slots to the stand 1 parallel to the plane of the rear edge 6 with an upward bend, forming projections 9 along the longitudinal-vertical plane. The distance between the longitudinal 7 slots is equal to L, the length of the longitudinal slot 7 is equal to ^l / ₄ L, and the length of the transverse slot 8 is equal to ^l / ₂ L. In addition, the front face of the projections 9 is made with a sharpening and is inclined backward at an angle β.

The working element of a tillage implement operates as follows.

When loosening the soil with the working element of a tillage implement, the soil deformation line extends forward and laterally at an angle of 40-45 degrees from the tip of chisel 3. As a result of loosening the soil from chisel 3, the soil crumbles, and the number of erodible particles in the surface layer (0-5 cm) increases, which further leads to erosion processes. One important indicator of the quality of soil cultivation is the size of the crumbling clods. According to STO AIST 4.6-2018, the size of clods up to 50 mm must constitute at least 75% of the tilled layer. The content of erosion-hazardous soil particles in the 0-5 cm layer must not increase. To improve the quality of soil loosening with minimal formation of erodible particles, the loosened soil from the chisel must be further deformed through a stretching process. For this purpose, the cutting wings 5 have been designed with modifications. The installation of cutting wings 5 leads to additional crumbling along the cutting line, as well as during variable soil runoff from cutting wings 5 along the line of transverse 8 slot and rear edge 6. In addition, part of the soil will additionally rise upward when moving along projections 9 formed by _bending the cutout formed by longitudinal 7 and transverse 8 slots. The distance between the longitudinal slots is equal to L. The length of longitudinal 7 slot is equal to ^1/4 L, and the length of transverse 8 slot is equal to ^1/2 _L. The ratio of the distance between the longitudinal slots equal to L, with the size of longitudinal 7 slot ^1/4 L and _{transverse 8 slot 1/2 L} ^is determined by the size of the lumps from additional crumbling during variable soil runoff from cutting wing 5. Such design of cutting wings 5 provides additional stretching of the soil in the transverse-longitudinal plane during runoff. As a result, the finer fraction is separated into the lower layers. This design of the undercutting wings 5, through variable movement along the formed cutouts and protrusions, allows the already partially loosened soil from the chisel to be further crumbled to a predetermined size and separates a quantity of eroded particles from the surface layer into the lower layers.

The execution of the front edge of the projections 9 with a sharpening and a backward inclination at an angle β makes it possible to prevent crop and root residues from hanging on the paw.

Consequently, such a design of the working element of a soil-cultivating implement ensures an increase in the quality of loosening with a reduction in the amount of erosive particles in the surface layer of the cultivated soil.

Claims (1)

A working element of a tillage implement consisting of a stand with a shoe welded to the bottom, to which an overhead chisel is attached, holes are drilled along the stand, through which a movable pair of cutting wings is secured with a pair of bolts, characterized in that longitudinal slots are made along the outline of the rear edge of the cutting wing, turning into transverse slots to the stand parallel to the plane of the rear edge with an upward bend of the cut, forming projections in a longitudinal-vertical plane, wherein the distance between the longitudinal slots is equal to L, the length of the longitudinal slot is equal to ^l / ₄ L, and the length of the transverse slot is equal to ¹ / ₂ L, in addition, the front face of the projections is made with a sharpening and is inclined backward at an angle β.