RU2799417C1 - Circular soil cultivator - Google Patents

Abstract

FIELD: agricultural engineering.

SUBSTANCE: body of the ripper is made in the form of a wheel with holes on the rim and an axial sleeve on the hub. On the body there are arc-shaped blades with sleeves on the back with axial pins. The blades are equipped with movable bits with protrusions on one of the bit faces. Guide brackets are fixed on the blades, inside of which movable bits are located. Brackets are fixed on the back side of the blades. Stops are installed at the holes on the inner side of the rim.

EFFECT: simplified design, improved quality of tillage.

1 cl, 2 dwg

Description

The present invention relates to agricultural engineering and can be used for loosening the soil in crop production.

Known devices for tillage by digging, the principle of operation of which is based on the use of the advantages of tensile and shear deformations when loosening the upper soil layer with its division into stable soil aggregates. As a rule, such machines are equipped with working bodies mounted on caterpillar propellers (RF patents 2064741, 2258337, 2269880, 2286035) and are L-shaped or in the form of individual blades that perform cyclic movements when performing technological operations.

The disadvantages of such devices is the creation of excessive pressure on the soil, which causes high compression strains, which contributes to the destruction of primary soil aggregates, violating the soil structural structure. In addition, part of the soil remains on the working bodies during deepening and drags the propellers into a repeated loosening cycle, which contributes to excessive loosening of the soil.

A known device is a circulating ripper intended for surface tillage by digging patent RF 2282957 containing a cylindrical body, hinged blades with levers, springs and support pins.

The disadvantage of the known device is the complexity of the design and poor quality loosening of dense soils.

The closest analogue to the claimed object is a circular soil cultivator device (RF patent 2343656), designed for surface tillage by dripping, containing a housing with an axial sleeve, arcuate blades with rectangular holes in the canvas and axial studs.

The disadvantage of the known device is the complexity of the design and poor quality loosening of dense and grassy soils. Indeed, the grassy part of the upper soil layer, as well as any plant residues on the soil surface, clog the rectangular holes of the blades with their grassy root system and contribute to the transfer of the contents of the blades, dragging them up along the periphery of the body, thereby unnecessarily spraying the soil and, in general, reducing the quality of surface treatment .

The technical result of the claimed device is to improve the quality of tillage and simplify the design.

The technical result is achieved by the fact that the proposed device containing a body made in the form of a wheel with holes on the rim and an axial bushing on the hub, arc-shaped blades with bushings on the back and axial pins, movable bits with protrusions on one of their faces are additionally introduced into the design of the blades and guide brackets inside which are the primary bits.

The figures show a circular soil cultivator.

Fig. 1 diagram of the movement of the blades, position I with the upper location of the movable bit and II the lower location of the movable bit; V - direction of movement.

Fig. 2 - an arc-shaped blade with bushings.

The body 1 of the ripper is made in the form of a wheel with holes 2 on the rim 3 and an axial sleeve 4 on the hub. On the body 1 there are blades 5 of an arcuate shape with bushings 6 on the back of the axial studs 7. The blades 5 are equipped with movable bits 8 with projections 9 on one of the faces of the bits 8. Guide brackets 10 are fixed on the blades 5, inside of which the movable bits 8 are located. Brackets 10 are fixed on the back side of the blades 5. Stops 11 are installed at the holes 2 on the inner side of the rim 3.

Soil cultivator circular works as follows.

Directly the technological process of work is accompanied by rolling over the soil of the body 1, made in the form of a wheel with a rim 3. The blades 5 alternately, by digging, perform the technological process. At the moment the next blade 5 approaches the soil surface, the movable bit 8 moves under its own weight in the guide brackets 10 and takes its lower position, limited by the stop 11. In this case, the blade blade 5 is located higher relative to the soil surface than the lower part of the movable bit 8, which is closer to the soil surface. With further rolling of the body 1, the lower part of the bit 8 touches the soil, followed by pressure on it from the side of the soil and its extension upwards. The upper part of the bit 8, thus, enters the hole 2 on the rim 3 of the body 1 and comes into contact with the stop 11. As a result, the blade 5 is fixed in the radial alignment of the rim 3 of the body 1. Next, the blade 5 performs the technological process of loosening the soil by digging in a cyclic motion and, leaving the soil, ensures the movement of the movable bit 8 down the guide brackets 10 and thereby unlocks the radial fixation of the blade 5, which, under the action of its own weight, freely rotates on its pins 7 and bushings 6 located on the back of the blade 5. The last positions of the blade 5 ensures complete spillage of the contents of the blades 5, that is, loosened soil and plant residues with root inclusions, ensuring the structural composition and the technological process of loosening the soil.

The dimensions of the ripper body and the number of blades are selected from a ratio that ensures uniform loosening of the surface layer of the cultivated soil.

Claims (1)

Circular soil cultivator, containing a body made in the form of a wheel with holes on the rim and an axial bushing on the hub, arc-shaped blades with bushings on the back and axial studs, characterized in that it has movable chisels with protrusions on one of the faces and guide brackets that fixed on the back sides of the blades, while the movable bits are placed inside the guide brackets, in addition, stops are installed on the inner side of the body rim at the holes with the possibility of radial fixation of the blades at the moment of penetration into the soil and rotation of the blades at the moment of their deepening from the soil.

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