SU1360601A1 - Soil-tilling working member - Google Patents

Abstract

FIELD OF THE INVENTION The invention relates to agricultural machinery. The purpose of the invention is to reduce the energy intensity of loosening. The soil-cultivating tool consists of a rack 1, chisels .2, mounted along axis 3 of loosening elements 4, made in the form of balls 7 and rollers 8. Balls 7 and rollers 8 are eccentrically mounted on axis 3. between brackets 5. Brackets 5 are freely mounted on axis 3, the upper end of which is provided with a biasing spring 6. When the working member is in operation, a compacted soil core is created in front of the balls 7 and rollers 8, due to which the eccentric placement of the elements 4 is ensured by turning them about axis 3, and the investigator But, the shift and destruction of the soil region, which reduces the energy intensity of loosening. The installation of balls 7 in the lower part of the rack contributes to their more frequent turning, and the placement of rollers 8 in the upper part of the rack reduces their clogging with plant residues, which also leads to a decrease in the drag resistance. 1 hp f-ly, 4 ill. So about

Description

FIELD OF THE INVENTION The invention relates to agricultural machinery, in particular, to soil-cultivating workers.

The purpose of the invention is to reduce the energy intensity of loosening.

FIG. 1 shows a tillage working body, general view; in fig. 2 is a section A-A in FIG. one; in fig. 3 - formation from the front by a compacted core rack, top view; in fig. 4 - a view from the working body of a compacted core, top view.

The soil-cultivating working body includes a rack I in the form of a symmetrical wedge with a chisel 2 and with loosening elements 4 on the axis 3 in front of it .- On the axis 3 there are mounted sliding brackets 5, covering the front part of the rack 1 with their base. The loosening elements 4 are located on axis 3 between brackets 5 with the possibility of turning. The lower end of the axis 3 is rigidly fixed on the bit 2, and the upper end is mounted on the rack 1 and is equipped with a clamping spring 6. The loosening elements are made in the form of the same diameter of the balls 7 and the roles of the cocks 8 with the through eccentric hole 9, and the balls 7 are placed in the bottom parts of the rack 1, and the rollers 8 - at the top. The distance between adjacent brackets 5, and consequently, the number of elements, is chosen so that the operation ensures rigidity of the axis 3 and the gaps between the loosening elements 4 and the front part of the rack 1. The diameter of the loosening elements 4 is equal to or slightly more ( 1–5 mm) thickness of the stand 1. In this case, work with minimal friction of the soil on the lateral surfaces of the stand 1 is ensured. An increase in the ratio of the elements to the thickness of the stand 1 leads to an increase in traction: - resistance.

The device works as follows.

In the composition of the soil-cultivating tool, the stand 1 of the working body is moved in the direction B (Fig. 1). On the balls 7 and the rollers 8, the soil begins to stick and a compacted core of soil forms. However, due to the heterogeneity of the soil, the centers of the formed nuclei always turn out to be offset with respect to the axis of rotation 3. This leads to the occurrence of torques increasing with increasing

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der. Balls 7 and rollers 8 are in equilibrium until the moment of resistance of the soil is less than the torque from the frictional forces. A further increase in the size of the compacted core from the soil will lead to the turning of the balls 7 and the rollers 8 on the axis 3 and the destruction of the soil villages. This process is periodically repeated.

Due to the installation of loosening elements 4 on axis 3 with an eccentricity of m, the resultant R soil resistance forces are displaced relative to the center O axis 3, which causes a torque that exceeds the moment of resistance of the force of friction of the soil on the material, which causes the element to turn 4 and the removal of soil, stony inclusions, remnants of rhizomes, etc. When the loosening elements in the form of balls 7 are made, a more frequent shift of compacted soil cores, their destruction, are achieved, which reduces traction resistance and, consequently, the power consumption of loosening. By making the loose elements in the form of rollers 8 in the upper part of the rack, the clogging of them with plant residues is reduced, which also reduces the loosening energy intensity.

Claims (2)

1. Soil-cultivating tool containing a stand with chisels and with an axis installed along it in front, on which loosening elements spring along it are located, characterized in that, in order to reduce the loosening energy intensity, the axis is fitted with sliding parts brackets covering the front part of the rack, while the loosening elements are placed between the brackets and made in the form of eccentrically located on the axis of the body of rotation, with the loosening elements mounted on the axis in the upper part of the rack and made in the form of rollers, and loose elements in the lower part of the rack - in the form of balls. 2. A working member according to claim 1, characterized in that the forming rollers are made straight or concave with a constant radius of curvature. Aa I pl. draw 00 .five BNIIPIZakaz 5769/1 Circulation 628 Subscription Production and printing company, Uzhgorod, st. Design. four