RU2040866C1 - Working tool of soil slitter - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: working tool of soil slitter comprises a shank and two curvilinear cutting edges on its front. The lower part of the shank is equipped with a chisel. The point of contact of cutting edges on the front surface has a frontal portion. The chisel is made in the form of a part of a concave curvilinear trapezium with the cutting edge sharpened at 25 deg, said sharpening being made on the wide base of the trapezium. The side of the frontal part at the point of contact of curvilinear blades is spray-coated with a wear-resistant material. One of the sides of curvilinear blades is also spray-coated with wear-resistant material. EFFECT: improved design. 4 cl, 7 dwg

Description

 The invention relates to agricultural machinery, in particular to the production of tillage machines and implements.

Known working body of the cultivator, consisting of a rack, on the lower end of which a lancet paw is mounted, and above it with a shift backward in the direction of movement, a second lancet paw, in which, in order to improve the crumbling of the soil, the second lancet paw is pivotally mounted [1]
The described working body is of interest in irrigated agriculture, since lancet paws on two levels provide intensive crumbling of the soil layer. This contributes to soil absorption during irrigation and eliminates surface runoff. The presented working body can be used for cultivating rows of row crops, which would facilitate irrigation with a high norm of 600 to 1000 m ³ / ha without the occurrence of surface runoff. On crops of perennial crops, grasses, hayfields and cultivated pastures, this working body is not acceptable. With the blades of both paws of the upper and lower tiers, the roots of the plants in the passage area of the working body are completely cut. When placing lancet paws with distances of 1.4 m from each other, up to 30% of plants on an area of 1 ha are destroyed.

Known tillage tool containing a tow hitch, chassis, frame and working body, made in the form of an inclined rack and three tier-mounted knives with a variable working width, increasing in height of the rack. The front of the tilt stand is equipped with a blade with a cutting edge. The back of the inclined rack in its lower part is equipped with a leash located in the alignment of the inclined rack. The blades of longline knives are combined with the cutting edge of an inclined rack [2]
In this working body, the most interesting is the inclined stand with a blade on the front. A vertical slit formed by a flat stand and loosened soil in the arable horizon facilitates the penetration of irrigation water into the arable layer. This replenishes the moisture reserves in the root-inhabited layer. Shooted longline knives, placed in three tiers on the lower part of the inclined rack, intensively crumble and grind the lower layer of soil. A flat stand when moving the implement provides minimal damage to plants on the soil surface. However, the blades of lancet paws of longline knives crush the root system of plants, and from the deformation of the soil, the roots of the plants in the deformation zone are destroyed, which is greater than the width of the grip of longline knives. When making cracks with the specified working body with an interval of 1.4 m on an area of 1 ha, up to 20.22% of plants will be destroyed.

 A tool for cutting slots is known, comprising a knife-shaped stand fixed to the frame at an angle and cut by cutting and mounted on the belt with loosening elements, in which, in order to improve the quality of cutting cracks and reduce energy consumption, each of the loosening elements has a cylindrical shape with a lower horizontal plane the edge and is connected with the knife-like stand by means of an additional knife, while the last and loosening elements are placed at an angle to the vertical, and their lower parts are displaced towards detecting movement, wherein the cutting edges are stepped ryhlyaschimi element. The angle between the higher loosening element and vertically is less than the angle between the last and below the loosening elements. The surface of the loosening element is made with a wear-resistant coating in the form of strips located along the generatrix of the cylinder, the width of which is equal to the width of the steps of the cutting edges [3] We adopted this tool as a prototype.

 When making cracks in the crops of perennial grasses, the loosening elements of the knife-like stand are clogged with root and plant residues. Hanging roots on a knife-like stance increase overall traction resistance. The walls of the slit are torn. The upper plane-cutting paw completely destroys the roots of plants in the area of passage of the working body. When irrigated by sprinkling, the loosened soil from the surface of the field swims into the crevice and limits the access of water to the underlying horizons.

The front part of the rack is equipped with two different-sized curved sections with blades made on them with cutting edges in the form of parts of a parabola branch, and the place of their mates is equipped with a frontal section in the form of a bit, and a large curved section with a blade is placed over a small curved section. The lower part of the rack is equipped with a bit in the form of a part of a curved trapezoid with a sharpening angle of the cutting edge of 25 ^about . Sharpening is made on a wide base of the trapezoid. The width of the upper base of the trapezoid is greater than the thickness of the rack. The face of the frontal portion of the interface of the curved blades is sprayed with wear-resistant material. One of the faces of the blades of curved cutting edges is also sprayed with wear-resistant material. The blade sharpening angle of the upper curved section is made equal to 18.20 ^about , and the bottom 30 ^about .

 The working organ of the slotting machine will be used in agriculture for the sowing of crops of perennial forage crops, grasses, meadows and pastures. The presented working body can be manufactured by machining sheet metal with a thickness of 20 mm. By welding it is possible to achieve reliable welds for joining materials of a steel 40 strut with carbon steel U8A bits. Volumetric hardening of the cutting edge of the bit and the spraying of the blades of the rack, the places of their mating with wear-resistant material ensures the performance of the rack and bit for 8.9 years.

 In FIG. 1 shows a working element of a slot machine, side view; in FIG. 2 same front view; in FIG. 3 node I in FIG. 1; in FIG. 4, section AA in FIG. 1; in FIG. 5, section BB in FIG. 1; in FIG. 6, section BB in FIG. 2; in FIG. 7 section GG in FIG. 1.

The working body for soil cleavage contains a flat stand 1 of a complex configuration, on the lower part of which a bit 2 is placed. The upper part of the stand 1 is provided with holes for connecting to the beam 3 of the implement frame using bolts 4, nuts 5 and washers 6 and 7. Shear bolts 4 on beam 3 is limited by front 8 and rear 9 stops. The upper front part of the rack 1 is equipped with a blade 10 with a cutting edge 11. The cutting edge 11 of the blade 10 is made curved in the form of branches of a parabola. The inflection point of the parabola branches and the focus of the parabola are combined with the direction of movement of the rack of the working organ of the slot machine. The sharpening angle of the blade 10 is made equal to 18.20 ^about . The lower front part of the rack 1 above the bit 2 is provided with a curved blade 12 with a cutting edge 13. The angle of sharpening of the blade 12 is made equal to 30 ^about . The junction of the blade 10 of the upper cutting edge 11 with the blade 12 of the lower cutting edge 13 is provided with a frontal section 14. The angle of inclination of the frontal section 14 to the direction of movement of the rack 1 is made equal to 145 ^about . The surface of the frontal section 14 is sprayed with wear-resistant material. The bit 2 with the rack 1 is connected by welds in places of their mutual contact. Chisel 2 is made of carbon steel U8A. The frontal section of the bit 2 is made curved in the form of a concave part of the surface of the cone. The width of the bit at the base is 40 mm, and in the upper part 30 mm. The lower part of the bit 2 is made sharpened. The angle of sharpening bit 2 is 25 ^about . The angle of setting bit 2 to the horizon is 28.30 ^about . The thickness of the rack 1 is 20 mm. The material of the rack is steel 40. One of the faces of the blades 10 and 12 is sprayed with a wear-resistant material, and the other face of the rack 1 is left unchanged after machining its front part.

 The tool with the working body of the slot machine works as follows.

On the bars 3 of the gun frame with an interval from each other of 1.4.2.0 m, racks of 1 working bodies of the slotting machine are placed. The depth of the craft cracks is set equal to 40.60 cm with the support wheels of the frame or with skis. When moving the gun, bit 2 touches the surface of the field. Due to the force of the gun’s weight and the drag of the bit 2, the stand 1 with the bit 2 is carried to the full depth (see Fig. 1). The horizontal bars 3 bit frame 2 occupy a position 1 stands at an angle ^of 30 to the horizontal. The upper cutting edge 11 of the blade 10 of the rack 1 protrudes above the field surface for at least 10.15 cm. With further movement of the rack 1, the blade 10 of the upper part of the cutting edge 11 cuts plant and root residues on the field surface and in the arable layer. Hanging stems and root parts of the cultivated crop on a slit field slide on an inclined curved part of the cutting edge 11. These parts of the stems are carried away into the arable horizon. When the stems and roots move along the blade 10, parts of these plants reinforce the walls of the cracks by pressing them with the sides of the rack 1. The height of the curved cutting edge 11 is greater than the depth of the arable horizon. Therefore, those stems whose strength turned out to be quite high are carried away to the limits of the plow sole. Since the density of the soil at this depth is greater, the pressure exerted on the cutting edge 11 in the lower part of the cutting edge 11 is higher. This leads to a complete cut of the stems and their descent from the blade 10. The cutting edge 11 along the height of the rack 2 is made for a difference in height differences of 30.40 cm. A narrow strip of roots is cut with blade 10 without deformation of the soil. The width of the gap does not exceed 20 mm. The cutting edge 13 of the blade 12 with a chisel 2 loosens the plow sole 15 and the soil below the plow sole 15. Chisel 2 forms a loosened drain 16 at a depth of 30.50 cm from the field surface. The gap formed by the blade 12 on the bottom of the rack 1, provides for irrigation moisture access to the drain 16. The curved cutting edge 13 of the blade 12 eliminates the removal of roots on the surface. When moving the working body, for example, in an alfalfa layer with roots up to 2 m, 60.70% of the total mass of roots is in the soil layer up to 80 cm, from the surface of the bit 2, the roots go to the blade 12 with a curved cutting edge 13. Since the soil density in the loosened layer in the drain 16 after bit 2 is less than behind the rack 1, then the root residues rise up, while moving along the blade 12 are cut and reinforce the walls of the gap between the plow sole 15 and the drain 16. The frontal section 14 divides the cutting edges 11 and 13 into two zones and simultaneous With this, it distributes the plant stems in the upper part of the slit, and the roots in the lower part of the slit. The frontal section 14 intensively destroys the over-compacted part of the plow sole and the underlying horizons. The upper blade 10 with a curved cutting edge 11 form a vertical gap without disturbing the roots of cultivated plants, and the side faces reinforce the walls with parts of plants. The blade 12 with a cutting edge 13 of the lower part of the rack 1 provides moisture access to the loosened draene 16. The described placement of the bit 2 on the rack 1 loosens the drain 16 and eliminates the swelling of the soil on the field surface with the formation of a soil roller around the gap.

 Clicking on crops of perennial grasses is carried out after mowing and harvesting rolls from the field surface. The time gap between mowing and picking grass and subsequent watering on an irrigated field should not exceed 3.4 days. After sowing the crops with multi-support sprinklers, watering is carried out. Depending on the field slopes, irrigation water slides into loosened drains 16. The reinforced walls of the slots exclude siltation and flooding of the soil being washed away. As the drain 16 is filled with water, the water level rises along the walls of the gap. A moisture reserve is created in the drains. The arable horizon is pumped through the walls of the cracks. When the soil swells under the influence of moisture, the walls of the cracks close. This eliminates further drying of the soil and damage to the root system of plants.

 The quality of the work of the slots depends on the state of the cutting edges 11 and 13. As the rack 1 is working, the blades 10 and 12 wear. However, the sprayed edge of the blade 10 abrases more slowly with wear-resistant material than the face of the rack 1 without spraying. This leads to the fact that the sting of the cutting edge 11 and 13 is always renewed, which ensures cutting of the roots and stems on the blades 10 and 12. This ensures the service life of the rack 1 for 8-10 years of operation of the implement.

According to the results of studies in 1992, on the crops of alfalfa of the second year of cultivation of the variety Leninsky after the second mowing in the conditions of the OPH Irrigated NPO Irrigation, the following was established. The experimental working bodies of the slot machine were compared with the working bodies of the serial SchN 2-140 slot machine. Unit: DT-75M tractor + SchN 2-140 sowing machine. The working speed of the slit cutting was kept constant in all experiments and was equal to 5.9 km / h (II gear). The depth of slit cutting by serial working bodies was equal to 45 cm. According to agrotechnical requirements, alfalfa sowing on light chestnut soil requires slitting to a depth of 50 ± 3 cm.The depth of cutting more than 45 cm by serial working bodies cannot exceed the specified value due to design features. The depth of the slit crafts by the experimental working body was set equal to 55 cm. In both cases, two racks were installed on the frame in both cases. The slit pitch was 1.4 m. Slitting was carried out after 3 days from the start of alfalfa rolls harvesting. HB soil was 60%. The slits were cut along the long side of the field. The head length is 1400 m. Before watering, the width of the slit was measured. After the passage of the serial working body, the stable gap was at a depth of 18 to 35 cm with a width of 45 mm. The height of the soil roller on both sides of the slit reached 10.12 cm. The width of the loose layer on the surface of the field reached 40.60 cm. Up to 36% of cultivated plants were destroyed in the aisle passage area of the serial working body. The experimental working bodies had a stable gap with a width of 18.20 mm at a depth of 44.46 cm. The lower soil zone was deformed. The width of the drain was 45.50 mm. The drainage depth is 10.16 cm. There is no soil roller along the slit. The walls of the gap are reinforced with plant and root residues. In the course of the stand, less than 8% of the plants were damaged along the headland of 1400 m. Traction resistance of experimental and serial working bodies, respectively, amounted to 2760 and 3480 kG. Irrigation rate was set equal to 600 m ³ / ha. Watering was carried out by two sprinkler machines DMU-B "Frigate". In a control plot with a surface slope of 0.05, soil washout was 4.0 t / ha, and in a plot with slits cut by experimental working bodies, it did not exceed 0.8 t / ha. When soil samples were taken for moisture after three days after irrigation, the soil was moistened to a depth of 80 cm when processed by experimental working bodies, i.e. to the depth of the main roots of alfalfa. When performing slices at the processing site by serial working bodies, the soaking depth ranged from 30 to 50 cm. The moisture reserves in the first case amounted to 80.85% of the irrigation norm, and when working with the working bodies of the SchN 2-140 alkali extractor, not more than 60%. In 1992, durability tests the operation of the blades of the working element of the alkali was not carried out.

Claims (4)

 1. WORKING BODY OF THE CLITCHER, comprising a stand with a curved cutting edge on the front part and a bit in the lower section, characterized in that the stand on its front part is equipped with two different curved sections with blades made on them with cutting edges in the form of parts of a parabola branch, and the place of their mates is equipped with a frontal section, and a large curved section is placed above the small curved section. 2. The working body according to claim 1, characterized in that the bit is made in the form of a concave part of a curved surface and in the form of a trapezoid with a sharpening angle of the cutting edge of 25 ^o , and the sharpening is made on the wide base of the bit.  3. The working body according to claim 1, characterized in that the face of the frontal portion of the interface of the curved blades is sprayed with wear-resistant material.  4. The working body according to claim 1, characterized in that one of the faces of the curved blade is sprayed with wear-resistant material.

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