SU1347875A1 - Implement for cultivating soil for forest plantation - Google Patents

Abstract

This invention relates to agricultural mackinning. The purpose of the invention is to improve the quality of soil preparation for planting forest cultures by increasing the size of the drainage furrow and the formation of equal microdesusions (MP). The tool contains a frame, hinge elements 2, successively installed on horizontal longitudinal shafts, a royor 5,6. The diameter of the rotor is 5 MenbLje dia- Mei-pa of the rotor 6. The shafts of the shaft are relative to each other in the horizontal plane on the difference of their rationalism. Before the rotor 5, an oporn is installed: the element (OE) 8. The rotor 5.6 have covers 9.10, which are connected to the oral chambers, which form the trapezium in the course of operation of the MP rotors. The projections of the workers of the coit1) of rotors 5 and 6 onto the frontal plane are crossed at the point located on the line, the passage of sh. I through the plane of the base frontally; O projection 8. The rotors 5 and 6 have counter-opposing directional rotation and equal linear velocities through the PTO track mount and gearbox 7. When the gun is operating, the rotor 5 cuts a furrow, the cross-sectional area of which is equal to the cross section of the formed MP. S. (O (L Plyskosnost osns1ani ppirnsho element OO 4 | 00 ate

Description

The rotor 6 cuts a layer of soil with a cross-section equal to the cross-section of the previously cut soil layer by the rotor 5 and below it. In this case, the line passing through the exit point of the knives.rotor 5 from the soil and the entry point of the knives of the rotor 6 into the pochpa is located on the ridge of the furrow, i.e. in the plane

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The invention relates to agricultural machinery, in particular, tools for tillage, and can be used in forestry enterprises in preparing the soil for planting forest crops using microgravity.

The purpose of the invention is to improve the quality of soil preparation for planting forest crops by increasing the size of the draining furrow and forming equal micro-heights.

Figure 1 shows a tillage implement, rear view; figure 2 is the same, side view; and FIG. 3 - the same, top view.

The tillage implement contains frame 1 with hitch elements 2 on a tractor mounted on longitudinally horizontal shafts 3 and 4 successively placed rotors 5 and 6. The diameters of rotors 5 and 6 are different, with the diameter of the first one moving along the rotor 5 smaller than the diameter of the rotor 6 located behind it. The shafts 3 and A are driven from the tractor through a gearbox 7, which is located between the rotors 5 and 6. By means of the gearbox, the rotors 5 and 6 communicate in opposite directions and equal linear speeds of rotation. The shafts 3 and 4 of the rotors are displaced relative to each other in the transverse direction by an amount a, which is equal to the difference of the radii of rotation (Rr) of the rotors 6 and 5. The supporting element 8 is placed in front of the rotor 5 The projections of the working contours of the rotors 5 and 6 to the frontal plane are intersected at point A which is located on the line passing through the plane of the base of the frontal projection of the support element 8. Due to such

30 through the plane of the base. Thus, when the rotors work, the layers of soil cut by them have an equal cross-section, and consequently, the formation of equal-sized MPs is carried out. The MP profile is determined by the shape of the soil chambers. 2 3.p. f-ly, 3 ill.

the location of the knives of the rotors 5 have an exit point B from the soil on the edge of the furrow formed by them, and the knives of the rotor 6 have an entry point B into the soil on that

same lines.

The rotors 5 and 6 are equipped with protective covers 9 and 10, each of which is connected to the corresponding soil chamber II and 12, which are fastened to the gearbox housing by means of spacing 13. To protect the rotor 5 from damage when it encounters obstacles on the front the surface of the support element 8 is fixed cutting knife 14, the base of which is located at the level of the rotor 5. The rotor 6 of larger diameter protects the cutting blade 15 fixed on the base of the gear 7.

The knives 14 and 15 also perform the role of a stabilizer of the gun in the horizontal plane, i.e. to increase the reactive moment, preventing the play of rotors in the formed furrow.

A tool for tillage for planting forest crops is as follows.

The implement from the transport position is lowered by means of the tractor hitch until a guaranteed clearance remains between the soil and the rotor 6 of a larger diameter. After turning on the rotor drive, the torque from the tractor's power take-off shaft

gear 7 is transferred to rotors 5 and 6. With the start of movement of the unit, the gun with rotating rotors is lowered into the working position, which is determined by immersing the rotor blade in

the soil to a predetermined depth, as well as the appearance of contact between the supporting element 8 and the soil. The rotors 5 and 6, immersed in the soil and moving along the direction of movement of the unit, rotate in opposite directions with equal linear speeds, cut out each soil shavings and throw it into the corresponding soil chambers 11 and 12. The work of each rotor 5 and 6 has its features.

The rotor 5 of a smaller diameter, immersed, when operating in the soil to a predetermined depth, cuts a furrow in it, the cross-sectional area (S) of which, in the form of a segment, is equal to the cross-sectional area of the formed ridge of microviolet. Since the rotor 5 is installed perpendicular to the direction of movement of the gun, the knives, when operated, move along a helical line, performing a transverse cutting of the soil. From point B of milling, the soil moves along a trajectory close to the tangent, enters the soil chamber 1I. Flying into the soil chamber, the soil strikes its walls and falls down onto the untreated soil, forming a micro-increase in the form of a continuous string near the furrow. At the same time, soil chambers form microweights with a trapezoid cross section. Chambers II and 12 are made of elastic material in order to prevent the chambers from breaking down by stones, timber residues, and also to overcome stumps by passing them under them.

A rotor 6 of a larger diameter, immersed, when operating in the soil, at a predetermined depth, cuts a furrow in it, the cross-sectional area of which in the form of a segment is equal to twice the cross-sectional area of the formed ridge or doubled cross-sectional area of the furrow cut by the rotor 5. A smaller diameter rotor 5 mounted in front has already cut a furrow in the soil, then a larger diameter rotor 6 mounted behind it cuts the remaining soil with a cross section (S,) in the form of a sickle, i.e. Each of the rotors 5 and 6 cuts the same soil volumes, as a result of which two equal-sized ridges of a given profile are formed using soil chambers 11 and 12. The process of cutting the soil with a larger diameter rotor 6 is similar to the operation of the rotor 5 with the only difference that

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Point B, the entry of the rotor blades 6 soil, is undead on the furrow edge, i.e. in the horizontal plane of the support member 8, where the exit point of the rotor blades 5 is from.

Since the rotors 5 and 6 have equal linear rotational speeds, and the milled soil overcomes equal distances in the soil chambers 11 and 12, as a result, the same degree of crushing of the soil is achieved in simultaneously formed cages. The formation of two equally sized groups, given a profile during primary tillage, is provided. When tilling the soil with such an instrument, a drainage furrow is formed,

allowing to divert excess moisture from soil to inter-row sprues, and the grades themselves, in addition to certain sizes, have the same degree of crushing of the soil and the same volume weight, which

creates an optimal water-air regime for the root system of seedlings, i.e. improves the quality of tillage. In addition, formed equal weights and a drainage furrow between them allow mechanized planting of seedlings and further processing of them in the process of development in a mechanized way.

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Claims (3)

Invention Formula  I. A tillage tool for planting forest crops, containing a frame on which rotors with oppositely directed rotors with longitudinal rotation shafts, the axes of which are placed in a common horizontal plane, are mounted and are shifted relative to each other in the transverse direction and drive, which is characterized by the fact that, in order to improve the quality of tillage for planting forest crops by increasing the size of the drainage furrow and forming equal-sized microweights, the diameters of the rotors are different, and the axial displacement of the axes is equal differences of their radii, while the projections of the working circuits of the rotors on the frontal plane are intersected at a point that is located on a line passing through the plane of the base of the frontal Noah projection of the support element placed in front of the rotors, 2. Tool POP.1, characterized in that the rotor shafts are connected to the drive through a gearbox for ensuring equality of their linear velocities. 3. The instrument according to claim, characterized in that the soil chambers e; 1 microlining are located on the sides of the rotors. f1 yy Editor N.Gorvat Compiled by T. Molochnikova Tehred I. Popovich Order 5133/1 Circulation 627 Subscription VNIIPI USSR State Committee for inventions and discoveries I13035, Moscow, Zh-35, Raushsk nab., d.4 / 5 Production and printing company, Uzhgorod, Proektna str., 4 Proofreader L. Patay