SU1166679A1 - Soil-tilling implement - Google Patents

Abstract

SOIL PROCESSING MACHINE, including a milling drum, with working bodies attached to it, a grate behind it, made of arcuate longitudinally vertical elements, and a casing, characterized by the fact that, in order to improve the quality of grinding the soil during cultivation, the ratio of the distance from the elements the grating to the trajectory of rotation of the ends of the working bodies to the distance between the elements of the grating is 1-1.5. Od O) 0) i; o / U /////////////// L Fi, 1

Description

The invention relates to agricultural machinery, in particular, to tillage implements. M. Tillage implements containing a milling drum with L-shaped OJ knives are known. A disadvantage of the known implements is the poor quality of ground grinding. Closest to the present invention is a soil-cultivating tool containing a milling drum with working bodies fixed on it, a lattice located behind it, filled with arcuate longitudinal-vertical elements and a casing 2. The disadvantage of this tool is incomplete shredding of the soil, which is that large clumps thrown by the working bodies that do not pass through the blades are not crushed, as a result of which the seed openers are prevented from moving or the coulters are turned on the surface during sowing. The purpose of the invention is to improve the quality of grinding the soil in the cultivation of rice. This goal is achieved by the fact that in a soil-cultivating tool, the ratio of the distance from the grid elements to the trajectory of rotation of the ends of the working bodies to the distance between the grid elements is 1-1.5. In FIG. t depicts a tillage implement, side view; FIG. 2 is a view along arrow A in FIG. 1. FIG. The tillage implement contains a milling drum 1 with attached to the non-working bodies 2, a grid 3 consisting of longitudinal-vertical elements 4, mounted behind the milling drum 1 and a casing 5, the elements 4 of the grid have an arched shape. The distance about from the elements 4 of the grid 3 to the trajectory of rotation of the ends of the working bodies 2 and the distance 6 between the elements 4 of the grid 3 are in a ratio. o / g 1-1,5, which ensures the fractional composition of lumps of the treated soil is not more than 20 mm, i.e. improves the quality of pre-sowing tillage when growing rice (reducing the ratio and increasing it to 1.5 worsens the fractional composition, which will lead to a decrease in rice yield) the dependence of the fractional composition of soil lumps on the ratio / g is given in the table. Tillage tool works as follows. When the guns move, the working bodies 2 that are thrown away by the working bodies pass through the elements 4 of the grid 3, are crushed and, falling on the casing 5, feeds down. The lumps of soil that did not pass through the lattice elements 4 through the working bodies 2 along the elements 4 of the lattice 3 fall in front of the milling drum 1 and they are re-crushed by the working bodies 2. Due to the fact that the distance between the lattice elements 4 and 3 The trajectory of rotation of the working bodies 2 of the milling drum 1 is in a ratio of 1-1.5, grinding of large clumps of soil with a diameter of more than 20 mm is provided. The proposed tool improves the quality of tillage in the cultivation of rice, which leads to an increase in its yield level.

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FIG. 2

Claims (1)

SOIL PROCESSING TOOLS, including a milling drum, with working bodies fixed on it, a grating located behind it, made of longitudinally vertical elements of an arcuate shape, and a casing, characterized in that, in order to improve the quality of grinding the soil during cultivation, the ratio of the distance from the grating elements to the trajectory of rotation of the ends of the working bodies to the distance between the elements of the lattice is 1-1.5. FIG. 1