SU1715219A1 - Working tool of soil tillage implement - Google Patents

Abstract

The invention relates to forestry machinery, in particular to the working bodies of tools for the treatment of forest soils. The purpose of the invention is to improve the quality of soil treatment by the working body. The working body contains flanges 2 rigidly mounted on the shaft 1 with loose elements 3 fixed on them, the flanges 2 being installed at an angle to the longitudinal and transverse planes.

Description

ate yu

with

Fig

passing through the axis of rotation of the shaft. New in the working body is the other design of the loosening elements 3, as well as the presence of the fender plates k. Elements 3 are made in the form of diametrically arranged and shaped isosceles trapezium plates, the larger base of each of which is located on the flange, and the smaller base of the plates are arranged parallel to each other. The baffle plates k are cantilevered on the shaft 1 between the flanges 2, are located tangentially to the shaft, and between themselves along a helical line, with the free end of each plate bent toward the shaft. The tool body cuts into the pre-cut formation with the front edges of the trapezoidal plates, lifts it to itself, I will act on it below the front edges and side edges and remove it from

his soil layer, and then passes on to the next working body. Small soil particles are thrown to the bottom of the furrow, pieces of the soil together with the roots fall on the shaft 1 and are thrown off by the fender plates. 2 Il.

Claims (1)

The invention relates to forestry equipment, in particular to the working bodies of implements for the treatment of forest soils. A working body of a tillage tool is known, containing star-shaped or disk-shaped working bodies mounted on a shaft, mounted obliquely to the longitudinal axis of the shaft and displaced by the same angle relative to each other. In the process, flexible wood roots are wound on a shaft in between, between the discs, as a result, the working body loses its ability to cultivate the soil. In addition, the winding of the roots necessitates the frequent stopping of the gun for cleaning the shafts, which reduces labor productivity. Also known is a working body of a tillage tool containing working bodies rigidly mounted on a shaft in the form of toothed disks inclined to longitudinal and transverse planes passing through the axis of rotation of the shaft, the disks being inclined relative to each other in different positions. This working body is characterized by the same disadvantage. The aim of the invention is to improve the quality of soil treatment. This goal is achieved by the fact that in the working body of a tillage tool containing working bodies rigidly mounted on the shaft in the form of flanges with loosening elements rigidly fixed on them, the working bodies mounted on the shaft at an angle to the longitudinal and transverse planes passing through the axis of rotation of the shaft, loosening elements of each working body are made in the form of diametrically located and having the form of an isosceles trapezium plates, the larger base of each of which is located on the flange, and the smaller the base plates are placed in parallel, while the working body is provided with fender plates fixed on a shaft and located along a helical line between the flanges, each of which is placed tangentially to the shaft and its free end is bent toward the shaft. Figure 1 is a schematic representation of the working body of a soil-cultivating tool; in fig. 2 is a section A-A in FIG. The working body of a tillage tool contains working bodies rigidly mounted on shaft 1 in the form of flanges 2 with loosening elements 3 fixed on them. These working bodies are mounted on shaft 1 at an angle to the longitudinal and transverse planes passing through the axis of rotation of the shaft. Loosening elements 3 of each working body are made in the form of diametrically arranged and shaped isosceles trapezium plates, the larger base of each of which is located on the flange 2, and the smaller bases of the plates are parallel to each other. In order to eliminate unbalance and ensure uniform load on shaft 1, the working bodies are shifted to the same angle relative to the other in the plane of rotation. Between the flanges 2 on the shaft 1 on a tangent to the surface of the cantilever fixed bumper plates and located along a helical line. The free end of each plate is bent to the side of the shaft 1. When the tillage implements (not shown), equipped with a set of working bodies arranged one after the other, move, the loosening elements 3 of the front ones raise: the pre-cut layer of forest soil on itself affects the black front edges and lateral faces. Subsequently, the formation moves over the set of working bodies, and the loosening elements 3 act on it from below, removing the soil layer from it. Small soil particles are transferred by the side edge along spins and are cast down to the bottom of the furrow. Between the elements, 3 pieces of soil, together with the roots, fall onto the shaft 1 and are thrown off from it by the fender plates k. The curvilinear shape of the latter and fastening them tangentially to the surface of the shaft 1 ensures soil glide and |; {with a low resistance, which increases the efficiency of throwing and prevents the flexible tree roots from being wound on the shaft 1. an isosceles-shaped trapezoid plate provides a combination of-. Sliding cutting with the front edge, which reduces the energy intensity of the process, with the lateral edge of the soil layer shifted to the optimum width. As the front edges of the elements 3 are worn, the latter are rearranged on the flanges 2 by the opposite edge forward, which increases the service life of the working bodies. The use of the proposed working body will make it possible to obtain an economic effect in the national economy by improving the quality of tillage. Claims of the Invention The working body of a tillage tool containing discs rigidly mounted on a shaft with loosening elements rigidly fixed on them that are inclined to the longitudinal and transverse planes passing through the axis of rotation of the shaft that, in order to improve the quality of tillage, the loosening elements of each of the discs are made in the form of diametrically located and shaped isosceles trapezium plates, the larger base of each of which is located on the disc, and smaller bases Lastin arranged parallel to each other, wherein the actuator is provided with a rigidly secured to the shaft and positioned between the discs of the helix baffle plates each of which is arranged tangentially to the shaft, and its free end is bent towards the shaft. fig g