RU2192720C2 - Working tool for slitter - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: working tool has tine, knives and chisels. Tine is defined by left-hand and right-hand sides. Inserts are located between sides so as to define slots. Knives are positioned in slots for movement and fixation on front part of tine. Detachable knives are made in the form of flat oblique-angled parallelepiped. Chisels are positioned in mutually offset relation on lower cuts of tine. Slots on upper faces of chisels are adapted for joining lower edges of knives. Each of sides is stamped as unitary part from sheet steel of standard quality and has complicated geometrical form. Flat part of sides and upper mounting portions are arranged in vertical position. Mounting portions are mutually offset from vertical axis of symmetry of tine to define stepped portion with steps oriented in direction of movement in parallel planes. Mounting portions are connected with side flat portion through surfaces inclined to vertical planes. Said parts of sides are continued with strips inclined to side similar to that of parallel planes. Knife made in the form of flat rectangular parallelepiped is mounted in tine slot between vertical middle flat parts of sides. EFFECT: simplified construction and increased efficiency in controlling lands subjected to water erosion. 3 dwg

Description

 The invention relates to agricultural machinery, in particular to tillage tools for treating soils subject to water erosion.

The closest analogue in terms of the set of essential features to the claimed object is the working element of the slotter containing the rack, removable knife elements and a bit on the bottom edge of the rack, in which, in order to simplify the manufacturing technology, the rack is made in the form of sidewalls and fixed on the inside of each inserts with the formation between the inserts of the groove, and each removable element of the knife is made in the form of an oblique parallelepiped and installed in the groove of the rack with the possibility of its movement and fixation, and cutting I edge at an acute angle of the upper removable element is located in front of the cutting edge at a dull angle of the subsequent removable element; the bit is provided with a longitudinal groove; the non-working faces of the liners of the upper removable element in the sidewalls of the rack are placed vertically (SU, copyright certificate 1734586, A1, Mcl ⁵ A 01 B 35/26. The working body of the slotter / A.P. Sapunkov and A.M.Saldaev. Declared 24.09 .1990; publ. 05.23.1992).

The disadvantages of the analyzed working organ of the slotting machine include the fact that the gap made by them intercepts satisfactorily artificial and natural precipitation. However, when making cracks on the slopes, their side walls are inclined to the horizon by an angle of less than 90 ^o and minus the value of the slope angle. Water from slopes during heavy rainfall and accelerated snowmelt rolls through avalanches through the slopes down the slope.

 The invention consists in the following.

 The problem to which the claimed invention is directed is to intercept storm flows on sloping landscapes.

 The technical result is a decrease in flushing of solid runoff (soil and soil) and an increase in the wetting zone.

 The specified technical result is achieved by the fact that in the known working organ of the slotting machine containing a rack in the form of sidewalls and liners fixed on the inside of each of them with the formation of a groove between the liners, mounted on the front part in the groove of the rack with the possibility of its movement and fixing the knife in the form of a flat oblique parallelepiped and placed on the bottom cut of the rack with a longitudinal groove on the upper face of the bit, according to the invention, the rack has a complex shape: the middle flat part of the sidewall and the upper mon important sections are given a vertical position, the mounting sections are mutually offset from the vertical axis of symmetry of the rack and ledge to the direction of movement in parallel planes, while the said mounting sections are connected to the middle flat part of the sidewall with planes differently inclined to the vertical and continue in the form of inclined shelves with slopes at the same the same side, and in the rack groove between the middle flat vertical parts of the sidewalls, a knife is mounted in the form of a rectangular parallelepiped.

 Due to the fact that the sidewalls are given a complex geometric shape, which, when coupled with the inserts, form a rack of the working organ of the slotting machine with grooves on the vertical and inclined frontal faces, in which the knives are placed, and on the lower sections of the inclined shelves - chisels, the above technical result is achieved.

 The invention is illustrated by drawings.

 Figure 1 shows the working body of the alkali, front view.

 Figure 2 is the same side view.

 Figure 3 is the same plan view.

 Information confirming the possibility of implementing the claimed technical solution is as follows.

 The working body of the slot machine (see Figs. 1-3) contains a rack 1, knives 2, 3, 4, 5 and 6, bits 7 and 8. The rack 1 is formed of two sidewalls 9 and 10 and inserts 11 and 12, fixed from the inside sides of each of them with the formation between the liners of the grooves. Sidewalls 9 and 10 are made in mirror image. A complex geometric shape is given to each sidewall (9, 10) with a single piece of sheet steel (rolled) with a thickness of 8 ... 10 mm. The middle flat part 13 of the sidewall 9 (10) and the upper mounting sections 14 and 15 of the rack 1 are given a vertical position. Mounting sections 14 and 15 are mutually offset from the vertical axis of symmetry of the rack and the ledge to the direction of movement in parallel planes. On the mounting sections 14 and 15 of rack 1, pairs of holes 16 and 17 are made, through which rack 1 is connected to the frame of a commercially available tillage implement, for example, a trailed plane cutter of the KPP-2.2 brand, as well as implements of other brands of KPG-2-150, KPSh -9 and others

 Said mounting sections 14 and 15 are connected to the middle flat part 13 of the sidewalls 9 and 10 of the planes 18 and 19 differently inclined to the vertical. The planes 18 and 19 of each sidewall 9 and 10 are continued in the form of inclined shelves 20 and 21 with slopes in the same direction.

 In the grooves on the front of the rack 1 between the inclined planes 18 and 19 mounted knives 2 and 3 in the form of flat oblique parallelepipeds. In the groove of the rack 1 between the middle flat parts 13 of the sidewalls 9 and 10, a knife 4 is mounted in the form of a flat rectangular parallelepiped. In the grooves of the inclined shelves 20 and 21, respectively, knives 5 and 6 are provided with the ability to move and fix. The above-mentioned knives 2-4 are equipped with the same possibility.

 On the lower sections 22 and 23 (see FIGS. 1 and 2) of the inclined shelves 20 and 21 in the grooves of the sidewalls 9 and 10, detachable bits 7 and 8 are placed with the possibility of fixation. The bits 7 and 8 and the knives 2-6 are made of carbon heat-treated steel, which gives them the desired wear resistance and strength. The exclusion of joints in the pairing of bits 7 and 8 with knives 5 and 6 is achieved by the grooves on the upper faces of the said bits.

 Sidewalls 9 and 10 are made by proper cutting of sheet metal with waste into chips and cutting into scrap metal of not more than 3% of the material. Mutual conjugation of mounting sections 14 and 15, planes 18 and 19 differently inclined to the vertical, middle flat part 13 and lower inclined shelves 20 and 21 are made on cylindrical surfaces with radii of 20 ... 30 mm. The thickness of the liners 11 and 12 is greater than the thickness of the knives 2-6 by 1.0 ... 1.5 mm. To exclude cracking on the sidewalls 9 and 10 when performing technological sections on the rear and front parts of the rack 1, holes 24 were made with a diameter of at least 16 ... 18 mm. Corresponding bevels 25 are made on the frontal parts of planes 18 and 19 differently inclined to the vertical, the middle flat part 13, and on the lower inclined shelves 20 and 21 of the sidewalls 9 and 10.

 The working body of the slitter works as follows.

 The rack 1 through the holes 16 and 17 on the mounting sections 14 and 15 and two pairs of bolts M 30x145 and nuts M 30 are connected to the frame of the tillage implement. Depending on the thrust class of the aggregating tractor (or 3, or 4, or 5), either 5, 6, or 8 racks 1 are mounted on it, respectively. The step of placing racks 1 on the implement frame is linked to the slope of the terrain. After that, check the technical condition of the working body and the mounting pins of the knives 2-6 and bits 7 and 8 in the mates of the sidewalls 9 and 10.

 When lowering the frame from the transport position to the working and translational movement of the tractor unit, the first surfaces of the field (deposit) touch the bits 7 and 8. The bits 7, 8 cut into the upper humus layer. This leads to the fact that the lower inclined shelves 20 and 21 are carried away in the upper soil layer. Knives 5 and 6 of shelves 20 and 21 cut the roots of the plants and carry them down, towards the ground, to the lower part of the rack 1. When the rack 1 is deepened, knife 4 on the vertical flat part 13 of the rack 1 of the working body comes into operation.

 Chisels 7 and 8 reach the subsurface layer and crash into the ground. Active forces - the weight force from the implement’s frame, support wheels, suspension, the weight of the rack and the reaction of soil and soil on the cutting edges of knives 4, 5 and 6 contribute to the deepening of the rack 1 along with bits 7 and 8 to the required depth of the work of volumetric inclined mutually communicating cracks. Lastly, when deepening, knives 2 and 3 of differently inclined planes 18 and 19 come into operation. Plant residues and roots of either the predecessor or the growing plant communities are slanted with the front cutting edges of the knives 2 and 3.

 Thus, a soil trench is formed at a depth of 15 ... 25 cm in a triangular cross section with loosened soil without turning the soil layer while maintaining the stubble background. The lower part of this trough is connected by a vertical slit made by a knife 4 and a vertical flat part 13 of the sidewalls 9 and 10, with inclined slots formed by knives 5 and 6 on the inclined shelves 20 and 21. Knives 5 and 6 between the multidirectional inclined slots form a ridge of height 20. ..25 cm. This monolithic ridge from the ground further serves as a waterproof wall to retain excess moisture during heavy rainfall or heavy snowmelt. Thus, after the passage of each rack 1 of the described working body on the surface of the processed array remain slanted intersecting intersections in the soil section.

 The lower Volga region of the Russian Federation is characterized by an acute deficit of soil moisture. Most precipitation falls in the autumn-winter period, followed by short-term thaws. When snow melts, water enters the loosened soil in the upper horizon and from this zone rolls along the vertical slit into the lower inclined sections. This achieves interception on the slopes of the flow of water. This increases the soil moisture reserve. During the growing season of plants, the humidity threshold is maintained within 70 ... 80% of HB.

 Thus, the implementation of the rack of the working body of the described form ensures the achievement of the claimed technical result.

Claims (1)

 The working tool of the slotter, containing a rack in the form of sidewalls and liners fixed on the inside of each of them with the formation of a groove between the liners, mounted on the front part in the rack groove with the possibility of its movement and fixation, a knife in the form of a flat oblique parallelepiped and placed on the bottom section of the rack with a longitudinal groove on the upper edge of the bit, characterized in that the stand has a complex shape: the middle flat part of the sidewall and the upper mounting sections are given a vertical position, mounting sections are offset from the vertical axis of symmetry of the rack and are set with a ledge to the direction of movement in parallel planes, while the aforementioned mounting sections are connected to the middle flat part of the sidewall by planes differently inclined to the vertical and continue in the form of inclined shelves with slopes in the same direction, and in the rack groove between the middle vertical flat parts of the sidewalls, a knife is mounted in the form of a flat rectangular parallelepiped.

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