SU1748668A1 - Universal tillage implement - Google Patents

Abstract

Usage: tillage with deep-tilling working bodies of the dense subsoil layer. The essence of the invention: a device comprising a stand with an undercutting element and a subsoiler with a stand and chisels, is made with an undercutting element in the form of single-sided flat-cutting legs. Subsoiler is connected to the stand by means of a bracket, the front part of which is rigidly connected to the stand, and the rear has a vertical axis and an adjustment mechanism in the form of a sector with a horizontal axis. 1 hp ff, 5 ill.

Description

The invention relates to agricultural machinery, in particular to working bodies for tillage.

The purpose of the invention is to improve the quality of tillage and reduce traction resistance.

Fig. 1 is a schematic diagram of a combined soil-cultivating tool, side view and section AA; Fig. 2 shows a variant of the working body for slitting the soil and a section along BB; on fig.Z - bracket, side views, in plan and axonometric; figure 4 - sector mechanism; 5 shows the position of the subsoiler

In addition, in Fig. 5, the following notation is adopted: ai is the depth of processing of the clipping legs; ag depth of processing subsoil; a and b - boundaries of soil destruction by a tillage

The combined working body has a stand 1 (Fig. 1 and 2) with an undercutting element 2 and a subsoiler 3. having a stand

4 with a chisel 5. The undercutting element 2 of the working organ is made in the form of one-sided flat-cutting legs 6 and 7. The subsoiler 3 is connected to the stand 1 by means of a bracket 8. The front part 9 of which is rigidly connected to the stand 1 and each of the flat-cutting feet b and 7, and the back 10 has a vertical axis 11 and an adjustment mechanism in the form of a sector 12 with a horizontal axis 13, with sector 12 mounted on the vertical axis 11 of the bracket 8, and the post 4 of the subsoiler 3 is fixed on the horizontal axis 13 of sector 12, and the holes 14 and 15 for simultaneously adjusting subsoiler 3 height 32 and angle a of inclination to the vertical. The rack 1 of the flat-cutting legs 6 and 7 is flat, the front side 16 of which is sharpened. The bracket 8 is connected to the stand 1 of the flat-cutting legs 6 and 7 by the groove 17, and to the sector 12 by the groove 18 (FIG. 3). Sector 12 is made in the form of a casing to the upper part of the C-shaped rack 4, popesl

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the river section of which is made in the form of L-shaped (figure 4).

The device works as follows.

First, according to agricultural engineering, the processing depth ai of the upper russ is regulated,. and then the depth of slit aa of the subsoiler 3. When processing the flat-cutting legs 6 and 7, undercut weeds, perform a continuous treatment of the upper tier, and the subsoiler 3 performs a trenching of the lower tine and deforms the weight of the compacted soil sole. During operation, the subsoiler 3, together with sector 12, can be deflected to the left and right by means of the vertical axis 11 and, as a result, the aggregate drag resistance, i.e. here, due to the deformation, the C-shaped leg 4 is encountered by a gap formed in the soil.

Such a design of a two-stage working body, when fully equipped, allows it to work in continuous processing and chasing, and cultivate the soil to a depth twice the critical depth Ncr (chilling depth}). This is ensured by the fact that each rus can work the soil to a depth not exceeding the critical The depth of the PCR processing. This is ensured by the fact that the placement of the lower rus chisel 5 ensures the cleavage exit from this chisel is located behind the knives b and 7 of the upper rus deformers that have already been chipped rhny formation, providing, in turn, the optimum zone loosening of all formation.

In addition, the same working body, when removing knives - chisels installed in the lower part of the upper stand of the stand, deflected backward, can also be used for embellishment with the effect of mole (figure 2). The application of the proposed working body occurs at a lower traction resistance compared to existing working bodies intended for tillage to the specified depth.

The need for a vertical articulated axis 11 of the lower C-shaped post 4 of the working body, upper, deflected backwards, is associated with the task of reducing the drag resistance of the entire working body when the latter is thinned, since they eliminate the need to give it transverse rigidity bits 5 submersible 3. The change in the magnitude of the penetrating force with a certain change in the depth of processing of the "lower light" is made by turning the C-shaped

The supports 4 around the axis 11 of the hinge suspension linking the upper and lower Russes. The fixing bolt of the holes 14 or 15 are simultaneously shear, which prevents the tool from breaking.

A two-layer tillage at the same time provides better loosening, carried out by flat cutters 6 and 7, since only the arable layer is loosened by knives having an arc profile in the transverse plane (section A-A, Fig. 1), which provides bulk loading of the formation.

The sole sole is undermined by the chisel 5 subsoil 3 working body

with the closure of the zones of deformation of both Rus due to the occurrence of chipping along the quince plane.

Soil-digging working body does not load the rack with transverse loads

this combined working body, which makes it possible to reduce the thickness of the stand and the energy consumption for cutting the soil. This is accomplished under the effect of loading the formation with bit 5 by installing it under

Claims (2)

flat-cut paws 6 and 7 to a depth less than the critical depth. Claim 1. Combined tillage working body, including a stand with undercutter and subsoiler having a stand with a chisel, characterized in that, in order to improve the quality of tillage and reduce traction resistance, the undercutting element is made in a bidet of unilateral flat-cutting legs, the subsoiler is connected to the stand by means of a bracket, the front part of which is rigidly connected to the stand and each of the flat cutting feet, and the rear has a vertical axis and an adjustment mechanism in the form of a sector with a horizontal axis, with the sector mounted on the vertical axis of the bracket, and the rack of the subsoiler is fixed on the horizontal axis sector. 2. The working body according to claim 1, which differs from the fact that the sector and the stand of the subsoiler have openings for simultaneous adjustment of the submersible in height and angle of inclination to the vertical.  / //// //// //// //// //// //// //// ff-9 //// V-v s / s / U 8998t7il Fig.z Fy  N . , 2 1J Fig.Ј 15 sr in-in u ////