SU1007568A1 - Combined soil tillage implement - Google Patents

Abstract

COMBINED SOIL PROCESSING TOOL, including a frame with plow bodies located on the side opposite to the direction of seam turn with plow bodies, an additional frame with working bodies for preliminary soil preparation, characterized in that, in order to reduce the drag of the unit, working bodies for preliminary soil preparation made in the form of sequentially installed plowshares and circular knives, with the plowshares of the plow bodies and working bodies for preliminary preparation and the soils are inclined relative to the direction of movement of the aggregate in different directions. (L ate 05 ac

Description

And; () Boring refers to the agricultural force construction, in particular to the combined tillage tools m.

Known commercially available plows, including a frame with plow bodies 1.

When the plow is working on the fields from under tilled crops, the unit is not stable in depth and across the width of the grip, and the tillage crests greatly increase, which makes it difficult to pre-sowing the soil. A tractor operating in field conditions has vertical, horizontal and angular oscillations when moving on an uneven surface, which are also observed when moving across and along furrows, ditches, etc. The oscillations of the tractor affect the quality of work performed, the well-being and fatigue of the tractor driver, in addition, adversely affect the durability and reliability of the tractors. Restricting the speed of movement of the arable unit, in order to reduce fluctuations caused by unevenness, reduces its productivity and efficiency.

It is also known to use a combined tillage implement, including a frame with plow bodies and located on the side opposite to the direction of turnover of the layers with plow bodies, an additional frame with working bodies for preliminary soil preparation 2.

In a known tool, working bodies for preliminary soil preparation are made in the form of rotary working bodies, which provide a preliminary leveling of the soil surface, which reduces in field conditions the tractor oscillations when moving across and along furrows, ditches, etc. However, the tool has significant energy intensity and metal intensity , and during operation - high traction resistance due to the significant pressure of the field boards of the plow bodies on the furrow walls.

The purpose of the invention is to reduce the tractive resistance of the aggregate.

This goal is achieved by the fact that the working bodies for preliminary soil preparation are made in the form of sequentially installed shares and disk knives, while the blades of the plow bodies and working bodies for preliminary soil preparation are inclined relative to the direction of movement of the unit in different directions.

Ma FIG. 1 shows a combined tillage implement, general view; in fig. 2 - the technological process of work, in FIG. 3 is a diagram of the acting forces on the working bodies of the tillage implement.

The combined tillage implement consists of a plow 1 and an additional frame 2, which at three points 3–5 is pivotally connected to the main plow frame. The additional frame 2 has two crossbars 6 and 7, on which the left 5 turners, the plowshares 8 and the disc knives dividers 9 are fastened. To support movement along the depth of the course, the additional frame has a support wheel 10. The additional frame is raised and lowered with working elements with help

0 hydraulic cylinders 11. The additional frame to the plow is detachable, thereby facilitating its installation and disassembly. The position of the plowshares 8 and the knives 9 is regulated both by the depth of the stroke and by the width of the grip.

5 The device operates as follows.

When the plowing unit moves across or along the ridges (Fig. 2a), the left-turning plowshares 8 cut the crests, move them to the side, and thus, during the subsequent passage, the tractor moves along the leveled and loosened section (Fig. 2b). This allows the process to be performed at a higher speed, due to the fact that

5, on a flat and relatively soft soil, the tractor oscillations in magnitude and frequency are insignificant, therefore, the dynamic load on the aggregate decreases sharply. Circular knives cut the reservoir in a vertical plane (Fig. 2c). The distance between the knives is equal to the width of the grip of one body (35 cm) and is set so that the layer captured by the plow body is cut in the middle. For the purpose of more intensive crumbling of the soil, it is possible to increase the number of disk knives, setting them at a distance of 6/3 from one another.

Cutting the topsoil from the height of the ridges and cutting in a vertical plane improves soil crumbling, reservoir turnover, and stubble termination.

0 and organo-mineral fertilizers. Soil loosening is largely facilitated by a satisfactory turn of the reservoir from the bottom up to the slope. It has been established that large boulders formed in the absence of knives after the passage of the body

5 but fall off into the furrow. Therefore, the application of the proposed invention not only on the lowlands, but also on the slopes gives a positive effect.

The transverse component forces (fig. 3) 0 of the soil effect on the left-turning plowshares are balanced by the transverse component forces acting on the field boards of the plow bodies. As a result, the pressure of the soil on the field boards is somewhat reduced, therefore, the strength of the 5 friction of the board against the soil decreases and, in the aggregate of all these factors, the drag of the plow decreases. FIG. 3 shows the schemes of forces acting on

plow and left-turning blade. The moment M, created by the left-turning ploughshare relative to the center of the plow body, is directed against the moment Mj of the forces exerted by the soil on the plow body (perceived by the field board). Thus, the resulting moment Mj acting on the field board is equal to the difference of the moments MJ and M, i.e., Ms MJ-M ,.

The technical and economic efficiency of the present invention is as follows. Placing on the left side in the course of movement of the working bodies in the form of plowshares allows leveling the surface of the floor, ensures the movement of the arable unit at high speed, which improves the quality of the plowing and increases the productivity and efficiency of the tillage tool. The knives installed behind the plowshares, cutting the reservoir in a vertical plane, contribute to the intensification of the crumbling of the soil, which improves its preparation for sowing. Left-turning plowshares reduce soil pressure on the field boards of the plow body, as a result of which its drag resistance is reduced. By improving the quality of plowing, reducing the cost of mechanical energy for the subsequent preparation of the soil for sowing, and performing the technological process at higher speeds, the annual economic efficiency from introducing one combined tillage tool at a reduced cost is about 200 rubles.

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2.

Claims (1)

COMBINED SOIL PROCESSING TOOLS, including a frame with plow bodies located on the side opposite to the direction of formation rotation with plow bodies, an additional frame with working bodies for preliminary soil preparation, characterized in that, in order to reduce the traction resistance of the unit, the working bodies for preliminary soil preparation are made in the form of sequentially installed plowshares and circular knives, while plowshares of plow bodies and working bodies for preliminary soil preparation inclined relative to the direction of movement of the unit in different directions.