RU186224U1 - ADAPTATION TO DISK SOIL PROCESSING TOOLS - Google Patents

Abstract

The utility model relates to the field of agricultural engineering, in particular to machines (disk implements) for tillage.

The technical result of this model is to improve the quality of tillage, reduce energy intensity by reducing traction resistance.

The technical result is achieved by optimizing the shape of the shield having a cycloidal concave working surface with a radius of the producing circle R = 0.2 m with the ability to adjust the height and angle to the horizontal plane and their fixation. This design will improve the quality of tillage and reduce the energy intensity of the process.

Description

The utility model relates to the field of agricultural engineering, in particular to machines (disk implements) for tillage.

Known adaptation to a tillage implement, including a stand, a vertical flap and a mechanism for regulating its position relative to the extreme disk [Karpenko, A.N. Khalansky, V.N., Agricultural machinery. - M .: Agropromizdat, 1989, p. 159].

This technical solution eliminates the removal of soil beyond the width of the capture tool, but has several disadvantages. In particular, due to the fact that the distance between the extreme disk and the shield is limited, in conditions of high humidity, crushing of the formation, soil unloading and, as a result of this, deterioration in the quality of its processing, increase in energy consumption are not excluded.

The closest analogue to the technical solution is the adaptation to a disk tillage implement [RU, invention No. 2344586, IPC AO1B 5/00, 7/00, 2009], including a spring-loaded flap mounted at an angle to the horizontal plane, forming sharp angles in it with the longitudinal and transverse directions with the possibility of its regulation. The disadvantage of this technical solution is that the rejection of soil from the flap leads to an increase in the traction resistance of the disk harrow by approximately 2% [Improving the quality of the processing of row-spacing of berry bushes in loamy soils of high humidity by improving the structural-operational parameters of the disk harrow. Nikitin V.V. The dissertation for the degree of candidate of technical sciences. 2009, Voronezh State Agrarian University].

The technical result of this model is to improve the quality of tillage, reduce energy intensity by reducing traction resistance.

The technical result is achieved by optimizing the shape of the shield having a cycloidal concave working surface with a radius of the producing circle R = 0.2 m. With the possibility of adjustment in height and angle to the horizontal plane and their fixation. This design will improve the quality of tillage and reduce the energy intensity of the process.

The decrease in traction resistance of the gun is carried out due to the design features of the shield 1 (Fig. 2), made in the form of a cycloidal concave surface. It is known that a cycloidal surface, consisting of a cycloid with a radius of the generating circle R = 0.2 m (flat transcendental curve), has the property of “brachistochron curve” - the curve of the fastest descent or the curve of the shortest time. In other words, a soil layer passing over such a surface has the highest average speed compared to other curved surfaces (cylindrical, parabolic, elliptical, hyperbolic, etc.), and this causes a maximum force impulse (reactive effect), depending on the translational speed soil fragments and directed along the movement of the unit:

where S is the momentum of the force; M is the mass of the soil layer on the shield; k is the recovery coefficient on impact.

Since in other technical solutions the totality of the distinguishing features of the utility model was not found, it meets the criterion of "novelty."

The utility model is illustrated by drawings, where in FIG. 1 shows a device for a disk tillage implement, side view; in FIG. 2 is a section AA, in FIG. 3 is a diagram of the interaction of a soil formation with a shield.

The adaptation to the disk tillage implement contains (Fig. 1), an inclined spring-loaded flap 1 mounted on the concave side of the extreme disk, which, by means of an adjustable mechanism 2, is attached to the column 3 with the possibility of vertical movement relative to the disk 4 with fixing in the desired position.

отбрасываемого пласта на преодоление тягового сопротивления. Adaptation to a disk tillage implement works as follows. Before starting work, the device is adjusted to a predetermined technological mode by adjusting the position of the shield 1 so that it interacts optimally with the soil layer 5 (Fig. 3). When the disk tool moves forward, the soil layer 5 cut off by the extreme disk 2 meets the working concave surface of the shield 1 and collapses into fragments 6 and is thrown back (strictly in the opposite direction of the tool movement) with the highest speed V _max . Since the cycloidal surface of the flap is a “curved surface of the fastest descent” or “curve of the shortest time”, it allows more efficient use of kinetic energy

discarded formation to overcome traction resistance.

Information sources:

1. Karpenko AN, Khalansky VN, Agricultural machinery. - M .: Agropromizdat, 1989, p. 1592 - Patent for utility model No. 169788, IPC А01В 15/04, 2017.

2. RU, invention No. 2344586, IPC АВВ 5/00, 7/00, 2009.

3. Improving the quality of processing rows of berry bushes in loamy soils of high humidity by improving the structural - operational parameters of the disk harrow. Nikitin V.V. The dissertation for the degree of candidate of technical sciences. 2009. Voronezh State Agrarian University.

Claims (1)

Adaptation to a disk tillage implement, including a spring-loaded flap mounted on the concave side of the extreme disc with the possibility of adjustment in height and angle to the horizontal plane and their fixation, characterized in that the form of the flap has a cycloidal concave working surface with a radius of the producing circle R = 0, 2 m

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