RU2050760C1 - Working member for moldboardless cultivation - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: working members of implement have shank and carrying hoe; each wing of hoe is provided with rod-shaped ripper at the top and ripper in form of sweep at the bottom. Arrangement and fastening of rippers provides strength of structure, prevents deformation of carrying hoe wings which makes it possible to use energy at tilling in best way and improve quality of cultivated soil. EFFECT: improved quality of cultivation of soil. 4 cl, 2 dwg

Description

 The invention relates to agricultural machinery, in particular to tillage implements for subsurface tillage.

 Known tillage tool with a working body for non-moldboard tillage (ed. St. USSR N 1759255, class A 01 B 35/26), including a rack with a nialnik made in the form of a plate pointed at the front end, and two rigidly symmetrically located behind the rack plastic ripping elements installed relative to it by a leash, the leash being made in the form of a two-console bracket, each console of which is directed back and down, and each ripping element is mounted on the corresponding console and installed ен in the longitudinal-vertical plane at an acute angle to the horizontal, with the rear end of each ripping element located above the front and its front edge at the level of the leading edge of the narral, and the narral has a cutting edge, each ripping element is mounted with the possibility of adjusting the acute angle to horizontal longitudinally-vertical plane.

 The disadvantage of the tool is that due to the mismatch of the levels of the cutting edges of the mouthpiece, cantilever brackets and the installation of the lower edge of the cultivators in the zone of soil cracks, and not in the area of the cut formation, there is an increase in energy consumption, this is also facilitated by the installation of plate cultivators, since they work like legs chisel cultivator, tearing, compacting, transporting the layer up and wrapping it like a plow blade. At the same time, soil compaction with cultivators reduces the quality of soil treatment.

 A tillage implement with working bodies for non-moldboard tillage is known (ed. St. USSR N 1311637, class A 01 B 36/26), including a stand with cutting plowshoes mounted on it and loosening elements pivotally mounted on them from the rear, which are made in the form of knife-shaped plates with double-sided sharpening, and the back of the plates is bent at an acute angle to the direction of movement and together with the limb is provided with a loosening tooth.

 The disadvantage of this cultivating implement is that the cutting shares with hinge elements made in the form of knife-shaped plates, the back of which is bent up and equipped with a loosening tooth, which on heavy swimming soil clogged by marsh weeds will not work efficiently due to clogging, will create additional traction resistance during operation. The gun self-deepens subject to the complete clogging of the loosening elements.

 Known tillage tool with working bodies for subsurface tillage (ed. St. USSR N 1367878, class A 01 B 35/26), including a stand and a flat-cutting leg, on the wings of which are mounted stabilizer-dividers in the form of pointed legs, between the wings of which rod-shaped cultivators are placed, having a straight shank at the end of each, having a diamond shape in cross section and inclined at an acute angle to the ploughshare of a flat-cutting leg.

 The disadvantage of this tillage implement is that the stabilizer-dividers located on the wings of the legs from above create traction resistance during operation, which determines the bending (torque) moment of the wing of the leg. The wing, bending, loses the set cutting angle and is pressed to the bottom of the furrow, while the friction forces sharply increase, i.e. energy intensity of the process. The location of stabilizers on the wing together with cultivators in conditions of wet, heavy, swimming, and clogged rhizome weeds (tubers, reeds, cattails) of the soil provides conditions for clogging of the working bodies and disruption of the technological process, which also reduces the quality of soil treatment.

 The objective of the invention is to improve the quality of loosening of the soil.

 The task is achieved in that each wing of the carrier leg is equipped with a rod-shaped cultivator on top and the bottom of the cultivator in the form of a pointed arm, the socks of the carrier and arrow legs of the cultivators are located in the same horizontal plane, the plane of the wings of the carrier leg and the pointed legs of the cultivators are parallel, the edge of the wing blade of the carrier leg and the edge of the outer wing of the lancet paws of the cultivator are mounted in the same plane of the direction of movement, the lancet paws of the cultivators are rigidly connected to the wings of the bearing paw of the implement through the bracket n and rod ripper bracket lancet paws ripper tooth has a shape with front cutting edge.

 In FIG. 1 shows a schematic diagram of a tillage implement with working bodies for subsurface tillage, side view; in FIG. 2 schematic diagram of the working bodies of the gun, top view.

 The tillage tool with working bodies for non-moldboard tillage contains a rack 1, which carries a paw 2, the wings of which are equipped with rod-shaped cultivators 3 on the top, and below the cultivators 4 in the form of lancet paws, which are rigidly connected to the carrier paw 2 through an arm 5 and rod-shaped cultivators 3, socks carrier legs 2 and lancet legs of rippers 4 lie in a horizontal plane. The planes of the wings of the carrier foot 2 and lancet paws of the cultivators 4 are parallel, the edge of the wing blade of the carrier paw 2 and the edge of the outer wing of the paws of the cultivators 4 are mounted in the same plane of the direction of movement, the bracket 5 of the paw of the cultivator 4 has a tooth shape with a front cutting edge.

 The proposed tillage tool works as follows.

 When moving a tillage implement with working bodies for non-moldboard tillage, the carrier leg 2 cuts the soil layer, which is cut by the stand 1 into two parts, each of which enters the rod-shaped cultivators 3, under the influence of which they are destroyed into separate blocks and lumps when leaving the rod-shaped cultivators 3 blocks and lumps fly along the trajectory, additionally crumbling and mixing, while 4 rippers in the form of lancet paws, being under the main flow of movement of blocks and lumps of soil, cut the lower tier along the soil, which could not trim the wings of the bearing leg 2. Each layer of soil is cut by the cutting edge of the bracket 5 into two parts, destroying it into blocks and lumps and laying them in place of the cut sole. In this case, a fairly flattened sole and “smooth” plowing are formed without pile ridges and breakup furrows, which is especially important on heavy and swimming soils, for example, rice fields.

 In the field, the adjustment of the tillage implement is simple and is carried out by the central thrust of the power tool hydraulics.

Claims (6)

 1. A WORKING BODY FOR IMMEDIATE TILLING OF THE SOIL, including a stand bearing a paw, on each wing of which there are mounted belt cultivators, and mounting brackets of cultivators, characterized in that the cultivator of the upper tier is rod-shaped and the cultivator of the lower tier is in the form of a lancet.  2. The working body according to claim 1, characterized in that the socks of the bearing paw and lancet paws are located in one horizontal plane.  3. The working body according to claim 1, characterized in that the plane of the wings of the carrier legs and lancet legs are located in parallel.  4. The working body according to claim 1, characterized in that the edge of the blade of the support leg and the edge of the blade of the outer wing of the lancet paw are placed in one longitudinally vertical plane.  5. The working body according to claim 1, characterized in that each lancet paw is rigidly connected to the wings of the bearing paw by means of a bracket-shaped ripper rigidly fixed from below.  6. The working body according to PP.1 to 5, characterized in that each bracket is made in the form of a tooth with a front cutting edge.

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