RU2110165C1 - Slit cutting apparatus - Google Patents

Abstract

FIELD: agriculture, in particular, erosion-preventive tillage of soil for perennial fodder crops. SUBSTANCE: slit cutting apparatus has chisel whose cutting edge penetrates into upper root soil layer due to point loading of its weight. Chisel cuts plant stems and roots. Tine angle in vertical plane may be changed depending on various physico-mechanical properties of soil at slit bottom of arable layer in its middle part and presence of live roots in upper layer. Soil of slit wall is additionally deformed and width of slit is increased due to increased thickness of soil deformer line as compared to thickness of chisel tine. Soil particles of upper layer are drawn into lower layers due to inclined position of deformer line. EFFECT: increased efficiency, simplified construction and enhanced reliability in operation. 5 cl, 8 dwg, 1 tbl

Description

 The invention relates to agricultural machinery, in particular to working bodies for sowing crops under perennial feed crops and soil during erosion control.

 It is known a tillage implement containing a frame with support wheels and a grip, working bodies fixed to the frame, each of which has a stand and a cutting element, in which, in order to increase reliability and reduce metal consumption, each working body is equipped with a flexible connection to ensure its rigidity, and the gnome is connected to the frame movably with the possibility of movement in the horizontal plane and is spring-loaded relative to it, while one end of the flexible connection is fixed to the gland and the other to the rack of the working body; a vertical groove is made in the rack of the working body, in which the end of the flexible connection is placed with the possibility of height adjustment; flexible connection is equipped with a tension device [1].

 The design drawback of the described tillage implement is the poor tillage and is not suitable for making drainage slots in fields occupied by perennial forage crops, for example, alfalfa, clover, leguminous and other grass mixtures. Each circular knife in front of the working body cuts a narrow slot with a thickness of 8-10 mm into a clay no more than 10-15 cm. The rope placed between the circular knife and the rack of the working body does not improve the characteristics of the gap.

 A tillage implement is also known, which contains a frame on which working bodies, supporting wheels and a helical mechanism are installed, in which, in order to reduce metal consumption by creating prestressed elements and improve the quality of soil cultivation, it is equipped with a circular knife placed before stretching the working body, with this disk knife, stretching and the toe of the working body are located in one longitudinally vertical plane, and each disk knife is mounted on a screw mechanism, and the axis of the disk knife is ene below the reference wheel axle [2].

 The disadvantage of the design of the gun is the low technical reliability. The latter is due to the fact that the axles of the support wheel and circular knife are placed on the mixed axes. Slight misalignment of the axis of the disk knife leads to cutting a slit with inclined walls. Stretching the strut of the working body slides out of the inclined slit, this leads to deformation of the strut and rupture of the stretch.

 In addition to these tillage tools, there is a known tool for soil slitting, containing a frame, a knife-like stand and mounted on it along its trailing edge with the possibility of rotation in the horizontal plane of the shank mounted on it with the possibility of free rotation of the rollers, in which, in order to improve the quality of formation of the gap on various soils and reducing traction resistance, the implement is equipped with a drive, and the stand is located vertically, while the drive is connected to the shank by means of a rocker mechanism, the floor un which has a finger cooperating with holes formed on the crank, the diameter of the roller is equal to the thickness of the racks [3].

 Despite the fact that the diameter of the roller does not exceed the thickness of the knife-shaped stand, the width of the slit is 1.5-2.0 times the thickness of the stand. The latter leads to the drying out of the soil in the walls of the gap and to the death of plants. The roller seals only part of the walls of the gap. Considering also that the soil density varies significantly along the length of the headland, and the amplitude and frequency of oscillations are constant, the degree of compaction of the walls varies over a wide range and does not meet the requirements.

 The closest device of the same purpose to the proposed object in terms of features is a tool for protective soil treatment, containing successively installed slitherese and a working body for loosening the walls of the slit, in which, in order to increase the degree of crumbling of the soil along the edges of the slit, the working body for loosening of the walls of the slit is made in the form of a mouth box mounted on a spring C-shaped stand with a half-screw dump, a disk placed with it in the same plane is installed in front of the slitherer [4].

 The reasons that impede the achievement of the required technical result when using the known device include the low quality of cracks, the complexity of the design, excessive metal consumption, high energy consumption and low technical reliability of the working body for loosening the walls of the cracks. A disk knife, a slitherer, and on a C-shaped strut a narralik with a half-screw dump are placed in a sequential row on the gun frame. A circular knife cuts plant and root debris. This eliminates their overhang at the top of the rack. However, in the middle and lower parts of the rack, and the root parts of the plants hang on the rack of cherese. The working body located in the section of the slitherese for loosening the walls of the slot increases the width of the slot from 40 mm to 80-120 mm. After making such a gap, partially covered with soil, up to 25-30% of cultivated plants die. When cultivating the soil, occupied by perennial forage crops (alfalfa, clover, legume-cereal mixtures, goat, etc.), the implementation of such gaps is unacceptable, because they do not ensure the penetration of irrigation water into the lower root horizons. The described slitherese has a great traction resistance. When processing crops of fodder crops, they form soil ridges along the slit. They prevent a low cut of plants, which leads to loss of yield: from 15 to 25% of the green mass of herbs.

Known working body for soil sowing, including a stand with a knife made in the form of a two-sided vertical wedge with a curved-concave cutting edge, in which, in order to reduce traction resistance, a curved-concave cutting edge of the knife is made in the form of a parabola with the center of its branch in the middle the height of the rack, while the angle of sharpening of the knife in the upper and lower parts of the parabola decreases to the center of its branch; the value of the angle of sharpening of the knife decreases from 40 to 18 ^o [5]. We have accepted this working body as a prototype.

 The reasons that impede the achievement of the required technical result when using the known device include the low quality of crafts cracks.

 The invention consists in the following. The objective of the invention is to increase the stability of the walls of the gap against collapse during irrigation of crops and when intercepting water on the slopes in the presence of rainfall.

 The technical result is an increase in the quality of the work of the slit, lower traction resistance, the exclusion of soil rollers along the slit, self-cleaning of the rack of the working body and the deformer of the walls of the slit.

The specified technical result in the implementation of the invention is achieved by the fact that in the known device containing a knife-shaped stand with a curved-concave cutting edge on the front part with a variable angle of sharpening of the dihedral blade, the stand is equipped with a replaceable bit and a deformer of the wall of the slot located in the alignment of the rack and made in the form the rope, the diameter of which is greater than the thickness of the rack, while the ends of the rope by means of connecting links are fixed in the upper mounting and lower parts of the rack above the bit, installed o with the possibility of reinstalling in an inclined hole and fixed by a pair of cylindrical pins, the connecting link is made in the form of a stepped pin, the smaller step has a diameter less than the thickness of the rack, and the large step has a blind hole with a diameter equal to the diameter of the end of the cone, while on the surface of the pin is small diameter made a pair of half-cylinder recesses; the rear of the rack is equipped with a pair of inclined holes, paired with small steps of the connecting links; the connecting links in the inclined holes of the rack are fixed by cylindrical pins placed in pairs of holes whose axes are orthogonal and do not intersect with the axes of the blind inclined holes; the angle of sharpening of the dihedral blade on the front of the rack along the height of the rack is reduced from 180 ^o to 20 ^o .

 Due to the fact that the working body for making slots is made in the form of a rack with a chisel and a wall deformer in the form of a rope with a diameter greater than the thickness of the rack, the above technical result is achieved.

 In FIG. 1 shows a working body for making cracks, side view; in FIG. 2 is the same, section AA in FIG. one; in FIG. 3 is the same, section BB in FIG. one; in FIG. 4 - same, section BB in FIG. one; in FIG. 5 schematically shows the specific resistance of the soil to the branch of the wall deformer when processing crops of perennial forage crops; in FIG. 6 - the same, when cutting cracks in the fields after water-charging irrigation; in FIG. 7 - the same, when cutting cracks in a field occupied by perennial forage crops, for example, legumes and cereal mixtures, after the green mass has been cut; in FIG. 8 is a graphical depiction of changes in the values of sharpening angles i, setting the cutting edge α to the horizon and cutting δ along the height of the working body strut.

 The working body for making cracks contains a rack 1, a chisel 2 and a deformer 3 of the walls of the slit. Stand 1 is made of sheet steel with a thickness of t = 20 mm. Stand material 1 - Steel 50.

The upper mounting part 4 of the rack 1 is provided with three holes. Holes 5 are provided for mounting the rack 1 on the longitudinal beams of the frame of the tillage machine. The diameter of the holes 5 is 24 ^+0.8 mm. The center-to-center distance between holes 5 is 180 mm. Between the holes 5, a third hole 6 is made with a diameter of 100 ^+0.8 mm for mounting the rack 1 on a cylindrical annular stop welded to the vertical side wall of the frame beam of the tillage machine. The cross-section of the ring stop 20x20 mm ² . The lower part 7 of the rack 1 is provided with a longitudinal inclined hole in which the bit 2 is installed. The bit 2 in the inclined hole of the rack 1 is fixed by cylindrical pins 8. The front part of the rack 1 is provided with a dihedral blade 9, the cutting edge 10 of which has a curved-concave shape. The cutting edge 10 has a variable angle to the horizon in the range from α _min = 58 ^o to α _max = 165 ^o . The angle of sharpening i _{o of the} dihedral blade 9 along the height of the rack 1 decreases from 180 ^o to 30 ^o , while the smallest angle of sharpening i _o is at a height of 510 mm (see table and Fig. 8). The cutting angle along the height H of the rack 1 varies according to the relationship shown in FIG. 8 graph δ = f (H), and numerical values are determined by calculation according to the following formula and are presented in the table:
δ = arctan [tgi ₀ • sin (180 ^° -α)],
Where
i _o - sharpening angle, deg .;
α is the angle of inclination of the tangent to the cutting edge 10 at a given height H of the rack 1, deg .;
δ - cutting angle, deg.

The dihedral blade 9 along the height of the rack 1 is subjected to volume hardening to a hardness of 40 - 50 HR _e C. The axis of the bit 2 is inclined to the horizon at an angle of 5 - 8 ^o .

 The deformer 3 of the walls of the slit is made in the form of a rope (cable winding) with an external diameter of d = 24 mm and is installed in the alignment behind rack 1 (Fig. 1 and 2). The rope length is 1.5 to 1.8 times greater than the height of the rack H. The ends 11 and 12 of the rope are pressed into the blind holes of the connecting links 13 and 14. Each of the connecting links 13 (14) has a cylindrical rod 15 with a diameter of 16 mm, on the surface of which two half-cylindrical recesses 16. The rods 15 of the links 13 and 14 are placed in the inclined holes 17 and 18 of the rack 1. One of these holes 17 is made on the rear upper (mounting) part 4 of the rack 1 (Fig. 1 and 4). Another hole 18 is made on the lower part 7 of the rack 1, which is placed above the inclined hole for installing the bit 2 (Fig. 1 and 3). The rods 15 of the links 13 and 14 in the holes 17 and 18 are fixed by pairs of cylindrical pins 19 with a diameter of 20f 8 mm The length of the pins 19 is equal to the thickness of the rack 1.

 The working body for making cracks operates as follows.

The rack 1 of the working body for making cracks through the holes 6 is hung on the bonnets of the frame of the tillage implement. The M24x120 bolts attach the upper mounting part of the rack 1 to the frame beams. Stand 1 with a bit 2 occupies its working position. Tillage mounted system of an aggregated tractor is transferred from the transport position to the working one. The cutting edge of the bit 2 touches the surface of the field and due to the large specific load (almost point) under the influence of the force of the weight of the working body and the weight of the implement, the bit 2 cuts into the upper root-inhabited soil layer. When the tractor moves, chisel 2 cuts into the arable horizon, cutting stems and roots of plants. At the same time, the lower part 7 of the rack 1, due to the geometry of the front part, is intensively involved in the direction of the plow furrow in the subsurface layer. Chisel 2 and the lower part of the rack 1 rushes into the soil. The front part of the rack 1 is equipped with a dihedral blade 9. The cutting edge 10 of the blade 9 along the height of the rack 1 has a variable sharpening angle. The angle of sharpening on the bottom of the rack is 180 ^o . In the middle part of the rack 1, the sharpening angle decreases to 20 ^o C, and in its upper part again reaches 30 ^o . This allows us to take into account the difference in the physical and mechanical properties of the soil at the bottom of the slit of the arable horizon in its middle part and the presence of living roots in the upper layer. With steady movement, the blade 9 on the upper part of the rack cuts the soil layer with the roots and stems of the cultivated forage crop. The uncut stems and roots of the plants glide down the blade 9, where the sharpening angle is the smallest. Due to the curvature of the cutting edge 10 and the minimum sharpening of the blade 9, the cutting angle does not exceed 18-23 ^o . The cutting edge 10 in this section cuts the plant debris, and the dihedral blade 9 stems the side walls of the rack 1 are pressed into the walls of the slit, reinforcing them. In the future, a deformer of 3 slit walls comes into operation. Due to the larger size of the rope (the diameter of the rope is 24 mm, and the thickness of the rack 1 is 20 mm), the soil in the walls of the slit is additionally deformed, while increasing the width of the slit. With a specific load of soil q _max in the lower part of the slit, the branch of the rope of the deformer 3 occupies the position shown in FIG. 5. The soil particles of the upper layer are carried away to the lower horizons due to the greater angle of inclination of the deformer rope 3. With the soil resistivity q equal to the height of the slit, the rope occupies the position shown in FIG. 6. Plant residues and soil particles in this case experience only a shift in the direction of movement of the rack 1 and are pressed into the walls of the gap, increasing their resistance to collapse.

 When making cracks in crops with a dried top layer, the rope of the soil deformer occupies the position shown in FIG. 7. By the lower branch of the deformer rope 3, moist soil particles are carried away to the upper, dried soil horizons. The wet mass from the lower layers of the soil is covered with overdried cracks. This ensures their high resistance to collapse when watering with specified standards. Irrigation water along the reinforced walls of the gap enters the lower root-inhabited layers. Soil is saturated with moisture in the lower layers. Slots intercept avalanche flows of irrigation water from the surface of the field and direct them to lower horizons. This eliminates water erosion of the soil and ensures a uniform distribution of precipitation over the field surface.

 In the process of work of the working body, intensive wear of the bit 2 occurs. When the protruding working part of the bit 2 decreases, the pins 8 are removed from the holes on the bottom 7 of the rack 1. The bit 2 is moved from the inclined hole in the direction of the toe of the rack 1. When the branches of the rope of the deformer 3 of the walls wear the slots the pins 19 are removed from the holes. The connecting links 13 and 14 are removed from the inclined holes 17 and 18. Depending on the degree of wear of the rope branches, the latter can be rearranged or interchanged.

Thus, the above information indicates that when using the invention the following set of conditions:
means embodying the invention in its implementation, is intended for use in agricultural machinery;
for the invention in the form described in the independent clause of the claims below, the possibility of its implementation using the methods described above or known prior to the priority date of the means has been confirmed;
means embodying the invention in its implementation, is able to ensure the achievement of the perceived technical result.

 Therefore, the invention meets the requirement of "industrial applicability" under applicable law.

Sources of information:
1. SU, copyright certificate N 1482542, cl. A 01 B 3/64.

 Tillage tool // Belonogov V.A. Stated - 04/16/1986. Published - 05/30/1989.

 2. SU, copyright certificate N 1461380, cl. A 01 B 49/02.

 Tillage tool // Belonogov V.A., Lyubimov A.I., Nefedov B.A. , Arkhipov A.S. It is declared - 12/02/1985. Published - 02/28/1989.

 3. SU, copyright certificate N 1419533, cl. A 01 B 13/16. Tools for soil cleavage // Badridze N.Z., Hegelidze K.G., Zangaladze D.Ya., Tatishvili G.Sh., Abramashvili T.G. Announced - 01/09/1987. Published - 08/30/1988.

 4. SU, copyright certificate N 1530108, cl. A 01 B 13/16, 49/02. The tool for soil tillage // Zakharov P.Ya. Announced - 01/31/1986. Published - 08/15/1987.

Claims (5)

 1. The working body for making cracks, containing a knife-shaped stand with a curved-concave cutting edge on the front part with a variable angle of sharpening of the dihedral blade, characterized in that the stand is equipped with a replaceable bit and a deformer of the walls of the slot located in the alignment of the rack and made in the form of a rope, the diameter of which is greater than the thickness of the rack, while the end of the rope by means of connecting links is fixed in the upper mounting and lower parts of the rack above the bit installed with the possibility of reinstallation in an inclined hole and fixed with a pair of cylindrical pins.  2. The working body according to claim 1, characterized in that the connecting link is made in the form of a stepped pin, the smaller step has a diameter smaller than the thickness of the rack, and the large step has a blind axial hole with a diameter equal to the diameter of the end of the rope, while on the surface of the pin a small diameter made a pair of semi-cylindrical recesses.  3. The working body according to claim 1, characterized in that the rear of the rack is equipped with a pair of inclined holes, mating with small steps of the connecting links.  4. The working body according to any one of claims 1 to 3, characterized in that the connecting links in the inclined holes of the rack are fixed by cylindrical pins placed in pairs of holes whose axes are orthogonal and do not intersect with the axes of the blind inclined holes. 5. The working body according to claim 1, characterized in that the angle of sharpening of the dihedral blade on the front of the rack along the height of the rack is reduced from 180 to 20 ^o .

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