RU2226757C1 - Working member of tillage tool - Google Patents

Abstract

FIELD: agriculture engineering; erosion-preventive treatment of soil. SUBSTANCE: proposed working member contains post made up of set of flexible plates, plate-to-frame holding unit and plate-to-point bar holding unit. Flexible member in form of rope is arranged between holding units and point bar in longitudinal plane of symmetry of working member. Ends of rope are fitted in ball supports. One of supports is mounted in point bar socket. Other support is arranged in cup socket. Cup is installed for screwing into threaded bushing on mounting part of unit holding plates to frame of tillage tool. EFFECT: improved quality of cultivation. 5 cl, 5 dwg

Description

The invention relates to agricultural machinery, in particular to equipment for anti-erosion tillage.

Known cuttings, for example, a plow ditch, having a housing that is fastened to the working edge, in which, in order to reduce the pulling force of the ditch and to allow the knife to cut the wood located on the path of movement, the upper end of the lever of the cutter is connected to the neck of the rotary in a vertical plane a crankshaft mounted on the front end of the ridge, and the lower end of the lever is connected using a rotary sleeve placed in its longitudinal groove with horizontally fastened with the digger axis with the axis, while the working edge of the lever is made with cutting teeth with a step equal to the lever stroke (SU, copyright certificate No. 227740, class C. A 01 B 15/18. Cherepkovy knife / E.A. Shchekotin (USSR). Application No. 1165712 / 29-33; filed June 15, 1967, publ. September 25, 1968, Bull. No. 30)

The disadvantages of this cuttings knife include low technical and operational reliability. A tillage tool is also known, including a knife mounted on the frame and rippers located on its sides, in which, in order to reduce material consumption and traction resistance, the implement is equipped with a crankshaft, the knife in the lower part is made with a transverse hole, and the rippers are in the form of a missed through the knife hole of a flexible element, the ends of which are fixed on diametrically opposite necks of the crankshaft (SU, copyright certificate No. 1036260, A, M. class. ³ A 01 B 13/60. Tool for tillage / N.I. Kuzmenko (USSR) Application No. 34337 33 / 30-15; claimed 04/30/1982; publ. 08/23/1983, Bull. No. 31).

The disadvantage of this tool is the poor quality of soil treatment due to the overhang of plant roots on flexible elements.

The closest analogue to the claimed object is the rack of the tillage working body, containing a set of elastic plates to the frame of the tillage implement and the mounting unit of the plates to the cutting elements of the working body, in which, in order to reduce traction resistance and increase the stability of the working body along the depth of processing, the mount of the plates to the cutting elements is shifted backward along the direction of the attachment of the plates to the frame, while the plates are installed with a gap relative to the longitudinal plane the symmetry of the working body (SU, copyright certificate No. 1507219, A1, M.cl. ⁴ A 01 B 35/26, 13/16. The stand of the tillage working body / N.R. Valov, V. A. Gribenko, Yu. B. . Beschastnov et al. (USSR), application No. 4298617 / 30-15; claimed on 08.24.1987; published on 09.15.1989, Bull. No. 34).

A disadvantage of the described rack is limited functionality.

The invention consists in the following.

The problem to which the invention is directed is to reduce erosion processes on erizio-dangerous pastures and slope massifs occupied by crops of perennial forage crops.

EFFECT: increased volume of loose soil in a water-absorbing gap and productivity of cultivated forage crops.

The specified technical result is achieved by the fact that in the known working body of the tillage implement containing a rack of a set of elastic plates of rectangular cross section, the attachment unit of the plates to the frame of the tillage implement, the attachment unit of the plates to the cutting element is a bit on the lower end of the elastic plates installed with a gap relative to the longitudinal the plane of symmetry of the working body, according to the invention, between the attachment points of the plates to the frame of the tillage implement and the bit at the lower end of the elastic plates in a flexible element in the form of a rope is mounted on the home plane of symmetry of the working body, the ends of which are placed in ball bearings, while the lower end of the flexible element with a ball bearing is placed in the socket of the glass mounted with the possibility of screwing into the threaded sleeve on the mounting part of the plate mounting unit to the frame of the tillage implement ; each ball bearing is equipped with a semicircular groove made in the equatorial plane of the ball and with a diametrical groove intersecting with the semicircular groove; the gap between the elastic plates is made variable with the largest value in the middle of the rack; each elastic plate on the front part is provided with a curved cutting edge; the cutting edge of the elastic insert is formed by a single-sided blade with a variable sharpening angle.

Due to the fact that the flexible element is made in the form of a rope and installed between the elastic plates of the rack, the above technical result is achieved. The invention is illustrated by drawings.

Figure 1 shows the working body of the tillage implement, left view.

Figure 2 is the same front view.

In Fig. 3, section A – A in Fig. 2, a section in the longitudinal plane of symmetry of the attachment point of the plates to the frame of the implement, bit, flexible element, ball bearings in the nests of the bit and the glass.

In Fig.4 is a section bB in Fig.3, a section in the equatorial plane of the ball joint and the lower end of the rope.

Figure 5 - section bb in figure 3, a section of semicircular grooves and a diametral groove with coils of the lower end of the rope laid in them.

Information confirming the possibility of implementing the declared acquisition is as follows.

The working body of the tillage implement contains a rack 1 from a set of elastic plates 2 and 3 of rectangular cross-section, a node 4 for attaching the plates 2, 3 to the frame of the tillage implement, a node 5 for attaching the plates 2, 3 to the cutting element, a bit 6 at the lower end of the elastic plates 2, 3 Plates 2, 3 are installed with a gap relative to the longitudinal plane of symmetry of the working body. The gap between the elastic plates 2, 3 is made variable with the largest value in the middle of the rack 1. Between the nodes 4 and 5 of the fastening of the plates 2, 3 to the frame of the tillage implement and chisel 6 at the lower end of the elastic plates 2, 3 mounted in the longitudinal plane of symmetry of the working body flexible element 7 in the form of a rope. The ends 8 and 9 of the rope are placed in the ball bearings 10 and 11. Each ball bearing 10 (11) is equipped with a semicircular annular groove 12 in the equatorial plane of the ball bearing 10 and a diametrical groove 13 intersecting with the semicircular groove 12. The ball bearing 10 is mounted in the socket 14 of the bit 6. The upper end 9 of the flexible element 7 with the ball bearing 11 is placed in the socket 15 of the glass 16. The glass 16 is installed with the possibility of screwing the toes 17 into the threaded sleeve 18. The sleeve 18 is placed on the mounting part of the rack 1, i.e. on the node 4 of the fastening of the elastic plates 2, 3 to the frame of the tillage implement. Each elastic insert 2, 3 on the front part is provided with a curved cutting edge 19. The cutting edge 19 on the outer side surface of the elastic insert 2 (3) is formed by a single-sided blade 20 with a variable sharpening angle. The angle of sharpening of the plates 2 (3) in the middle of the rack 1 is the smallest and does not exceed 18-21 ° C. The largest sharpening angle of the plates 2 and 3 in the attachment points 4 and 5 is 35-40 °.

The working body of the tillage implement the technological process of processing erosion-hazardous soils performs as follows. Through the holes of the mounting angle 4, the rack 1 is placed on the frame of a tillage implement equipped with support wheels and a suspension. When moving the tillage aggregate over the surface of the field to be cultivated and lowering the frame from the transport position to the working bit 6 on the attachment point 5 of the elastic plates 2, 3, the first touches the day surface of the array. The cutting edge of chisel 6 first cuts the soil layer, saturated with roots, and then when deepening more than 27 cm under the arable horizon, i.e. priming. Crashing into the soil and soil, the chisel 6 carries along the elastic plates 2, 3 and the elastic element 7 in the form of a rope. The cutting edge of 19 single-sided blades of 20 plates 2 and 3 cuts the soil layer and goes into the space between plates 2 and 3. Intensive crumbling of the cut soil and soil layer is exposed to the flexible element 7. The roots of weeds and cultivated plants with element 7 are combed out of the layer and sent to the zone with the greatest loading. With an increase in the local load on the rope branch, i.e. on the flexible element 7, it begins to move towards the greatest reaction from the efforts of soil resistance and overhanging roots. This leads to the fact that the rope fastening nodes 4 and 5 are mutually closer. The increasing load on the flexible element 7 leads to bending of the elastic plates 2 and 3 of the rack 1, removing their middle parts from each other. With increasing distance between plates 2 and 3, the load on the rope from lateral soil pressure decreases, the roots move off the rope and this clears the elastic element 7. When the load on the elastic element 7 decreases due to dissipative forces, the elastic plates 2 and 3 together with the bit 7 return to starting position. Vertical movement of the bit 6 and deviations to the left and right of the cutting edges 19 of the one-sided blades 20 of the elastic plates 2 and 3 from the longitudinal plane of symmetry and the vibrational movements in this plane of the elastic element 7 lead to intensive crumbling of the root-containing arable layer and the arable horizon. When irrigating perennial forage crops in crop rotations and pastures, irrigation water in the cracks accumulates, is evenly distributed over the layers until it closes, and increases the soil moisture reserves. This achieves an increase in the productivity of fodder crops and eliminates the processes of water erosion.

Claims (5)

1. The working body of the tillage implement, containing a rack of a set of elastic plates of rectangular cross section, the attachment of the plates to the frame of the tillage implement, the attachment of the plates to the cutting element is a bit on the lower end of the elastic plates installed with a gap relative to the longitudinal plane of symmetry of the working body, characterized in that between the nodes of attachment of the plates to the frame of the tillage implement and the bit at the lower end of the elastic plates in the longitudinal plane of symmetry of the working body is mounted flexibly an element in the form of a rope, the ends of which are placed in ball bearings, while the lower end of the flexible element with a ball bearing is mounted in the socket of the bit, and the upper end of the flexible element with a ball bearing is placed in the socket of a glass mounted with the possibility of screwing into the threaded sleeve on the mounting part node mounting plates to the frame of the tillage implement. 2. The working body according to claim 1, characterized in that each ball bearing is provided with a semicircular groove made in the equatorial plane of the ball and a diametrical groove intersecting with the semicircular groove. 3. The working body according to claim 1, characterized in that the gap between the elastic plates is made variable with the largest value in the middle of the rack. 4. The working body according to claim 1, characterized in that each elastic plate on the front part is provided with a curved cutting edge. 5. The working body according to claim 4, characterized in that the cutting edge of the elastic plate is formed by a single-sided blade with a variable angle of sharpening.

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