RU2356203C1 - Multiple-unit tool for primary tillage - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: tool contains a frame, support wheel with mechanism controlling depth of cultivation, removable tools including flat cutting blades. The operating elements made in the form of flat cutting blades are fixed with the possibility of regulating setting angle due to rotation of fasteners having eccentricity. The flat cutting blades are attached to the brackets of the frame by bolting. Bolts disposed in the end orifices of the brackets are mounted in corresponding orifices of the supports of the flat cutting blades in eccentric sleeve. The width of the eccentric sleeve part disposed inside of the orifices of the supports does not exceed thickness of the support, and part of sleeves butting out the gauge of the support has the diametre which is bigger than the orifices of the support. The orifices in the supports of the flat cutting blades are placed at angle α/2 to the plane of share blades in the flat cutting blades. The value of the sleeve eccentricity should correspond the condition: 4e < a × tgα, where e - value of eccentricity, m; α - maximum angle of penetrating into soil by the flat cutting blade, degree; a - distance between the end orifices of the fixing bracket of the operating elements, m.

EFFECT: simplification of adjusting angle when on penetrating into soil by the flat cutting blades, reliability improvement of fastening attachment.

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Description

The invention relates to agricultural machinery, in particular to combined implements for primary tillage with replaceable working bodies.

Known cultivator-plane cutter KPG-250, consisting of a frame with a linkage mechanism, support wheels with mechanisms for regulating the depth of processing and two flat-cut legs (when processing the soil to a depth of 30 cm). Flat-cut legs consist of a rack, a shoe with a chisel and shares, and are bolted to the frame. An arm with an adjusting bolt is welded in the upper part of the rack from the frame side and two holes are made for attaching the rack to the frame, the second hole being made in the form of a groove in the direction of travel of the gun. The angle of entry of the plane-cutting paws into the soil is adjusted by turning the plane-paw around the front bolt. It is recommended to install flat-cut paws for working on loose soils so that the plowshares blades are located in a horizontal plane, on compacted soils - the front part of the plowshares should be installed below the rear ends by 15 ... 20 mm or at an angle of 5 °. The selected position of the plane-cutting paws is fixed with an adjusting bolt and bolts securing the paws to the implement frame (Sergeev I.F., Sychugov NP Agricultural machines. - M.: Agropromizdat, 1986. - 223 p. - P.21 ... 23).

The disadvantage of this tool is the poor quality of the soil at the maximum depth of processing due to the fact that the location of the brackets for the adjustment bolts on the side surfaces of the racks of plane-cutting paws leads to the unloading of plant debris and soil in front of the rack and to subsequent clogging of the space between the implement frame and the soil. To avoid this, racks of flat-cut legs extend, which leads to high metal consumption of flat-cut legs.

The closest in technical essence is a combined implement for basic tillage, consisting of a plow frame, a support wheel with a mechanism for regulating the depth of processing, interchangeable working bodies. Replaceable working bodies for subsurface tillage, made in the form of plane-cutting paws, are attached to the brackets of the plow frame using eccentric pins, and the value of the eccentricity of the pins is:

2е≤a · tgα,

where e is the magnitude of the eccentricity, m;

α is the maximum angle of entry of a plane-cutting paw into the soil, degrees;

a - the distance between the extreme holes of the bracket for fastening the working bodies, m

Adjusting the angle of entry of the plane-cutting paws into the soil by turning the eccentric pins in the holes of the mounting bracket of the working bodies of the plow frame allows the tool to be adapted to the mechanical composition and density of the soil to be cultivated (Decision on the grant of a patent for an invention according to application No. 2006110694/12 (011638) dated 04/03/2006) .

The disadvantage of this mechanism for adjusting the angle of entry of a plane-cutting paw into the soil is the complexity of the design and manufacture of eccentric studs. The process of setting the angle of entry of the plane-cutting paws into the soil is difficult to perform and time-consuming, since it is necessary to simultaneously control the degree of tightening of the threaded joints on both sides of the stud. In addition, the step at the junction of the two parts of the eccentric stud is a stress concentrator, which reduces the reliability of the connection and requires improving the quality of the material of the fasteners or increasing the size of the cross section.

The invention is aimed at solving the following problem: to simplify the design of the mechanism and the process of adjusting the angle of entry of the plane-cutting paws into the soil, as well as to increase the reliability of the fastening connection.

The problem is solved due to the fact that the combined implement for primary tillage containing a frame, a support wheel with a mechanism for adjusting the depth of processing, interchangeable working bodies, including plane-cutting legs, the installation angle of which on the frame is adjusted by turning fasteners having eccentricity, according to the invention, the working bodies, made in the form of flat-cut legs, are attached to the frame brackets by means of bolted connections, while the bolts located in the extreme holes to the brackets are installed in the corresponding holes of the racks of plane-cutting paws in eccentric bushings, in which the width of the part inside the holes of the racks does not exceed the thickness of the rack, and the part of the bushings protruding beyond the thickness of the rack has a diameter larger than the hole of the rack, and the holes in the racks of plane-cutting paws are located at an angle α / 2 to the plane of the blades of the plowshares of a plane-cutting paw, and the magnitude of the eccentricity of the sleeve must satisfy the condition:

4е≤a · tgα,

where e is the magnitude of the eccentricity, m;

α is the maximum angle of entry of a plane-cutting paw into the soil, degrees;

a - the distance between the extreme holes of the bracket for fastening the working bodies, m

In case of subsurface tillage, the combined implement produces deep loosening of the soil with flat-cutting paws. The specified depth of tillage is provided by the mechanism for regulating the depth of processing of the support wheel. The ability to adjust the angle of entry of the plane-cutting paws into the soil allows you to adapt the combined tool for the main processing, equipped with plane-cutting paws, to the mechanical composition of the treated soil without changing the design of the frame, including when using plow frames and the construction of fastening racks of plow bodies.

To adjust the angle of entry of the plane-cutting paws into the soil, the bolt connections are loosened and, by turning the eccentric sleeve located in the mounting hole of the rack of the plane-cutting paw, the position of the plane-cutting paw relative to the bracket for fastening the working bodies of the frame is changed. In this case, the installation of eccentric bushings in the extreme mounting holes in opposite positions in height should ensure in one case the minimum angle of entry of the plane-cutting paws into the soil, equal to 0 °, in the second - the maximum, equal to 5 °.

The use of a mechanism for adjusting the angle of entry of a plane-cutting paw into the soil instead of eccentric bush pins, in which the axis of symmetry of the outer and inner diameters are eccentric, greatly simplifies the manufacture of fasteners. This reduces the complexity of the process of setting the angle of entry of the plane-cutting paws into the soil, since when using eccentric bushings it is enough to loosen the degree of tightening of the bolted joints and turn the eccentric sleeve to the desired position - thereby changing the position of the plane-cutting paws relative to the mounting bracket. In this case, it is not necessary to first expose the eccentric studs to the desired position, and then tighten the nuts, while controlling the degree of tightening of the threaded joints on both sides of the stud.

In addition, the reliability of attaching a plane-cutting paw to the frame is increased, since the use of eccentric bushings in combination with a standard bolted connection avoids the use of eccentric studs in the connection, the design of which determines the step at the junction of the two parts of the stud, which is a stress concentrator and reduces the reliability of the connection .

The location of the holes in the uprights of the plane-cutting paws at an angle α / 2 to the plane of the blades of the plowshares of the plane-cutting paws halves the amount of eccentricity of the bushings. In this case, the magnitude of the eccentricity of the sleeve, regardless of the design features of the mounting bracket of the working bodies of the plow frame and the stand of the plane-cutting paw, is determined by the formula:

4е≤a · tgα,

where e is the magnitude of the eccentricity, m;

α is the maximum angle of entry of a plane-cutting paw into the soil, degrees;

a - the distance between the extreme holes of the bracket for fastening the working bodies, m

This ratio and the location of the holes in the racks of plane-cutting paws at an angle to the plane of the blades of the plowshares of the plane-cutting paws can significantly reduce the external installation diameter of the eccentric sleeve.

The combination of the above essential features provides a solution to the problem and determines the simplicity of the design and the process of adjusting the angle of entry of the plane-cutting paws into the soil while increasing the reliability of the fastening connection.

Figure 1 shows the General structural and technological scheme of a combined tool for the main tillage, equipped with plane-cutting paws; figure 2 diagram of the attachment of a plane-cutting paws on the frame of a combined implement for basic tillage.

Combined tool for the main tillage, equipped with flat-cut legs, consists of frame 1, support wheel 2 with a mechanism for adjusting the working depth 3, flat-cut legs 4. Fastening of flat-cut feet to the brackets of fastening the working bodies 5 of the frame is carried out by means of bolted joints 6 with eccentric bushings 7.

Combined tool for primary tillage works as follows. Depending on the type of interchangeable working bodies installed on the frame 1, subsurface or heap tillage is performed. When moving tools equipped with plane-cutting paws 4, the latter produce deep loosening of the soil. The mechanism for adjusting the depth of processing 3 of the support wheel 2 provides the adjustment of the implement to a given depth of tillage. Adjusting the angle of entry of the plane-cutting paws into the soil by loosening the bolted joints 6 and turning the eccentric bushings 7 in the holes of the mounting bracket of the working bodies 5 of the frame 1 allows you to adapt the implement to the mechanical composition and density of the treated soil.

The use of a combined implement for primary tillage in comparison with the prototype allows us to simplify the design and process of adjusting the angle of entry of the plane-cutting paws into the soil, to increase the reliability of the fastening connection.

Claims (1)

Combined tool for basic tillage, containing a frame, a support wheel with a mechanism for adjusting the depth of processing, interchangeable working bodies, including plane-cutting legs, the installation angle of which on the frame is adjusted by turning fasteners having an eccentricity, characterized in that the working bodies, made in the form of plane-cutting paws, are fixed to the frame brackets by means of bolted connections, while the bolts located in the extreme holes of the brackets are installed in the corresponding holes of the plank racks paws in eccentric bushings, in which the width of the part inside the rack openings does not exceed the thickness of the rack, and the part of the bushings protruding beyond the rack thickness has a diameter larger than the rack hole, and the holes in the racks of plane-cut legs are located at an angle α / 2 to the plane of the blades of plowshares of a plane-cutting paw, and the magnitude of the eccentricity of the sleeve must satisfy the condition
4е≤a · tgα,
where e is the magnitude of the eccentricity, m;
α is the maximum angle of entry of a plane-cutting paw into the soil, deg .;
a - the distance between the extreme holes of the bracket for fastening the working bodies, m

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