RU2071226C1 - Slitter - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: slitter has vertical knife, chisel mounted on lower part of cutter and deforming members positioned on side surfaces and adapted to compact slit walls. Knife is formed as equilateral triangle with double-sided blades at its lateral surfaces. Equally spaced mounting openings are extending along triangle median length and along median intersection. Chisel is mounted in operating position in one peripheral opening at the point of intersection of joined blades. Annular channels of different size made in knife side surfaces have scalene trapezium-shaped section with centers aligned with mounting opening axes. Deforming members are formed as pairs of spherical disks, whose concavities are faced to knife side surfaces. Peripheral edges of disks are fixed in annular channels. Deforming members are interconnected and connected with tine by bolt positioned in one of mounting openings of knife and inserts in central openings of spherical disks. EFFECT: increased efficiency, simplified construction and enhanced reliability in operation. 2 cl, 18 dwg

Description

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

A tool is known for soil protection tillage, containing successively slitherez 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 the walls of the slit is made in the form of a spring-mounted C-shaped stand narralika with a half-screw dump. In front of the slitherer, a disk placed with it in the same plane is installed [1]
The reasons that impede the achievement of the required technical result in the implementation of the known device include the complexity of the design with high metal consumption. Despite the presence of a circular knife in front of the slit, cutting the root and plant debris, the roots of plants are extracted from the walls of the gap with a C-shaped stand. Hanging roots on a C-shaped rack do not allow to obtain high-quality walls for supplying irrigation water to the underlying soil horizons. The described tool can sooner be adopted for local loosening of the soil, rather than for making anti-erosion cracks.

A slit cutting tool is also known, comprising a frame and a knife-shaped stand fixed to it at an acute angle to the direction of movement, on which loosening legs are tiered, and the working width of each lower located paw is less than the working width above the located paw, in which, in order to improve the quality of formation slots on waterlogged soils it is equipped with rollers, which are placed behind the rack, and the latter has a wattle mechanism, which is fixed on its lower part at an acute angle to the horizontal plane. Each loosening paw is installed at an acute angle to the horizontal plane, and the installation angle of each lower located paw is less than the installation angle above the located paw [2]
The described tool has a very narrow range of applications, mainly for local loosening of the soil. Rigid paws rigidly fixed on the lateral surface of the rack cut the root system of plants, which is unacceptable when sowing crops of perennial fodder land and grass mixtures.

 The closest device of the same purpose to the claimed object according to the totality of features is a working body for soil slitting, containing a vertically mounted knife, on the side surfaces of which there are ribs for sealing the walls of the gap, in which, in order to increase the uniformity of the compaction of the walls of the gap along its height by performing in the walls of the molehills, the ribs are made in the form of semi-cones, the top of which is placed on the blade of the knife, while the semi-cones located on one side surface of the knife are shifted in height relative partial-conical bodies positioned on the other surface of the knife, and the half-cone base diameter greater than the distance between adjacent semicone [3] The device we have taken as a prototype.

 The reasons that impede the achievement of the required technical result when using the known device adopted for the prototype include insufficiently wide functionality. With the described device, it is possible to carry out soil cleavage without the root system of plants. The latter hang on an inclined rack. The deformation of the soil by semi-cones is statistical in nature and does not take into account the diversity of the soil and its moisture.

 The invention consists in the following.

 The problem to which this invention is directed, expanding the functionality of scleraezia: making vertical slots with flat walls on crops of perennial grasses of the second and third years of growth; crafts cracks for aeration of the soil; crafts cracks for feeding livestock waste water and industrial water into the soil; crafts in the soil of molehills to drain excess water; crafts of water-catching cracks on crops along the slope and in flat areas.

 The technical result is an increase in the quality of the operations performed, a decrease in traction resistance, an increase in durability, a unification of parts.

 The specified technical result in the implementation of the invention is achieved by the fact that in the known device for soil slitting, including a vertically mounted knife, on the lateral surfaces of which there are deformers for sealing the walls of the slit, the slitherer is equipped with a chisel and means for fixing on the knife of the chisel and deformers, while the knife is made in the form of an equilateral triangle with dihedral blades along its sides, along the length and at the intersection of the medians of which mounting holes are made with equal pitch to accommodate bits and, moreover, on the side surfaces of the knife there are made different-sized annular grooves with a cross section in the form of an unequal trapezoid and with centers aligned with the axes of the mounting holes, while the deformers are made in the form of different-sized spherical disks facing concavities towards the side surfaces of the knife, and are placed with peripheral edges in annular grooves of the knife, and the deformers between themselves and the rack are connected by a bolt located in one of the mounting holes of the knife and in the inserts of the Central holes of the spherical discs; the knife on the slitherer frame is installed by means of one of the pairs of mounting holes.

 Due to the fact that different-sized deformers are placed on the side surfaces of the knife, the above technical result is achieved.

 The analysis of the prior art by the applicant, including a search by patent and scientific and technical sources of information and identification of sources containing information about analogues of the claimed invention, allowed to establish that the applicant did not find an analogue characterized by features identical to all the essential features of the claimed invention.

 Therefore, the claimed invention meets the requirement of "novelty" under applicable law.

 To verify the compliance of the claimed invention with the requirement of "inventive step", the applicant conducted an additional search for known solutions in order to identify features that match the distinctive features of the claimed invention, the results of which show that the claimed invention does not follow explicitly from the prior art, since the level of technology defined by the applicant, it is not revealed the impact provided by the essential features of the claimed invention transformed tion to achieve a technical result.

 Therefore, the claimed invention meets the requirement of "inventive step" under applicable law.

 In FIG. 1 shows a slit view, side view; figure 2 is the same, plan view; in FIG. 3 the same, front view, the placement of different-sized deformers on the side surfaces of the knife; figure 4 is the same, front view, the placement of the largest deformers; figure 5 the same front view, the position of the deformers when making cracks when watering livestock drains; figure 6 is the same, front view, the position of the deformers when making the drains to drain excess water; Fig.7 is the same, front view, the position of the middle deformers when making water-catching cracks in the slope areas; Fig.8 is the same, front view, the position of the small deformers when making cracks before irrigation on crops of perennial grasses; in Fig.9 section AA in Fig.1, the mutual connection of the knife and the deformers; figure 10 section BB in figure 1, the relative position of different-sized deformers and chisels on the knife; in Fig.11 cross-section BB in Fig.1, the placement of the edges of the spherical disks in the annular grooves on the side surfaces of the knife; Fig. 12 is a cross-sectional view of a slit made by a slit-cutting knife when sowing crops of perennial grasses in the first and second years of life; in Fig.13 the same, with aeration of the soil in irrigated agriculture; in Fig.14 is a cross section of the slot when sowing crops of perennial grasses in the third and subsequent years of growth; on Fig the cross section of the gap when making the drain for irrigation with livestock waste and industrial-processed water; in Fig.16 the same, when doing the drain for draining excess water into the drainage network; on Fig cross-section of the slit made on the slope sections; on Fig water-catching gap on soils prone to water erosion.

 The slitherer contains a vertically mounted knife 1, on the lateral surfaces 2 and 3 of which are placed different sized deformers 4 6 for sealing the walls of the slit, and a bit 7 on the lower part of the knife 1, equipped with fixing means on the knife 1.

Knife 1 is made in the form of an equilateral triangle with dihedral blades 8 around its perimeter. Knife 1 is made of quality carbon steel with a thickness of 20 mm. The angle of sharpening of the dihedral blade does not exceed 20 25 ^o . Different types of contact holes 9 12 are made along the length of the medians of the triangle and at the point of their intersection. The holes 12 are made with a diameter of 20 mm. In one of the peripheral holes 12 at the intersection of the mating blades 8, a bit 7 is placed in the working position. The bit 7 is symmetrical and provided with two blades 13 and 14. The sharpening angle of the blades 13 and 14 is made less than 30 ^o due to undercutting of the lower face 15. In the center of the bit 7, a rectangular groove is made for installing one of the pointed ends of the knife 1. Blades 13 and 14 are subjected to surface hardening by high-frequency currents with a depth of 0.8 1.2 mm with a surface layer hardness of at least 40.50 HRC. At the intersection of the blades 8, the bit 7 in the hole 12 of the knife 1 is fixed by means of fixation in the form of a cylindrical pin 16. The hole 9 and 10 are made with a diameter of 18 mm, and the holes 11 with a diameter of 32 mm and are provided for installation by means of one of the pairs of mounting holes 11 on the gun frame 17 .

 On the side surfaces 2 and 3, in the mirror image, different-sized annular grooves 18 20 are made. The grooves 18 20 in cross-section are made in the form of an unequal trapezoid with centers aligned with the axes of the mounting holes 9 11. Deformers 4 6 are made in the form of different-sized spherical disks facing concavities in the side of the side surfaces 2 and 3 of the knife 1. The spherical disks of the deformers 4 6 with their peripheral edges 21 23 are located respectively in the annular grooves 18 20. The pairs of spherical deformers 4 6 are connected to each other and the knife stand 1 bolts mi 2 located in the mounting holes 9 11 of the knife 1. The bolt 24 and nut 25 are installed in pairs of liners 26. The liner 26 is made in the form of a prism with a square base. The inner cavity 27 of the insert 26 is made in the form of a cylinder with a base diameter larger than the socket head by a size of 24 mm. In the interconnection of the inserts 26 in the square holes 28 of the spherical disks of the deformers 4, 5 and 6, the bolts 24 and the nuts 25 are recessed inside the space of the deformers 4 6. Quick-detachable plugs (not shown) are installed in the cylindrical holes 27 of the inserts 26 to prevent soil from entering the threaded sections bolts 24.

 Sclierez works as follows.

 An agricultural implement is mounted on an aggregate tractor. On the beams of the gun frame 17, by means of a pair of fixing bolts installed in the mounting holes 11, the slit knife 1 is installed in an upright position. The knife 1 together with the bit 7 is lowered to the surface of the field. When the unit is moving, under the influence of the weight of the implement, the weight of the knife 1 and the drag of the bit 7, the cutting edge of the blade 13 cuts the soil layer. Under the influence of the soil reaction on the blade 13, the chisel 7 carries the knife 1 to a predetermined depth of the craft cracks. Blade 8 when the knife moves cuts a vertical narrow wall. When the knife 1 moves, the deformer 4 comes into operation. The mating edges 21 of the spherical disks of the deformer 4 in the annular groove 18 on the front of the knife 1 deform the soil into the walls of the slit. An increase in the height of the segment of the spherical surface of the deformers 4 leads to an increase in soil deformation, which ultimately leads to the formation of slit walls 29 with flat 30 and cylindrical 31 surfaces. The bit 7 at the bottom of the slit 29 forms a focal reservoir 32.

 When sowing crops of perennial grasses, both monoculture (alfalfa, clover) and mixtures of grasses (alfalfa, hedgehog team, clover, fescue, pasture ragrass) with an underdeveloped root system of plants, narrow slots 29 are made with 30 flat vertical walls (see Fig. .12). To do this, the deformers 4 and 6 are removed from the side surfaces 2 and 3 of the knife 1. The bit 7 allows the blade 8 on the front of the knife 1 to penetrate into the soil. Blade 8 cuts the roots of plants. The plant parts of the stems of the sidewall 30 of the slit 29 are reinforced with them. During irrigation, non-absorbed water from local depressions is directed to slots 29. Irrigation water flows down the walls 30 and fills the volume of focal reservoirs 32. As tank 32 is filled, irrigation water fills the entire volume of slit 29. As slit 29 is filled, water is absorbed into the soil and enters into the root systems of plants.

Under the influence of raindrops and from the support wheels of tractors and agricultural machines (annually at least three slopes in irrigated agriculture), the soil in the upper, root and subsurface horizons is strongly compacted. The density of the soil in the third and fourth years of plant life reaches 2.2 3.2 g / cm ³ . The lack of atmospheric oxygen, nitrogen, and other components in the overconsolidated soil layer negatively affects the development of the measles system of plants. Soil-forming processes in the soil cease. To increase the service life of perennial crops of fodder crops for the third and fourth years after the third mowing, slits are cut with a complex geometry of the walls 30 and 31 of the slit 29. To accomplish this task, spherical disks of different-sized deformers 4 and 6 are mounted on the side surfaces 2 and 3 ( see figures 1, 2, 3 and 13). In this case, the cylindrical walls 31 in the plow layer are intensely densified by the spherical disks of larger size than the disks of the deformer 6 in the lower section of the knife 1 when making an expanded slot above the source reservoir 32. The soil is saturated with nitrogen and oxygen during the autumn-winter period in the root-inhabited layer.

For irrigation of the same areas after the first mowing, complex step gaps are formed in three tiers: wide in the upper part; narrow at the bottom; loosened into two slots (see Fig. 14). In this case, with irrigation rates of 600
1200 m ³ / ha non-absorbed water is completely collected in the cracks, moistening the entire soil formation to a depth of 40-60 cm. This eliminates surface evaporation. The presence of a large supply of moisture provides intensive plant growth for a long period of plant vegetation.

 When watering alfalfa crops, a slit is performed (see Fig. 15), which is formed by a knife 1 with a deformer 5 in its middle part that allows feeding livestock stocks with small and large fractions to the fields in the root-inhabited layers. Local local unloading of large fractions due to the peculiarities of the shape of the gap ensures their supply at any distance. In wetlands with an elevated level of groundwater, a deformer 6 is installed in the hole 11, which runs drains 33 (see Fig. 16) located above the focal reservoirs 32. Focal reservoirs 32 subsoil water is directed to the drains 33 and discharged into the drainage network.

 When cultivating perennial grasses on the slopes and in landscape agriculture, a water-catching slot 34 is presented, shown in Fig. 17, eliminating soil erosion.

 On crops of row crops (corn, sorghum, sunflower, amaranth, Sudan grass, etc.) in irrigated agriculture, it is preferable to perform the gap shown in Fig. 18.

 Thus, the above information indicates the fulfillment of the following set of conditions when using the claimed invention: the product embodying the claimed invention in its implementation is intended for use in agricultural machinery, for the claimed invention in the form described in the presented claims, the possibility of it is confirmed implementation using the methods and methods described above or known prior to the priority date; means embodying the claimed invention in its implementation, is capable of achieving the achievement of the technical result perceived by the applicant.

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

Claims (2)

 1. The slitherer containing a vertically mounted knife, on the lateral surfaces of which there are deformers for sealing the walls of the slit, characterized in that the slitherer is equipped with a chisel and means for fixing the bit of the chisel and deformers on the knife, while the knife is made in the form of an equilateral triangle with dihedral blades along it to the sides, along the length and at the intersection of the medians of which the mounting holes are made with equal pitch to accommodate the bit, moreover, on the side surfaces of the knife, different-sized annular grooves are made with a section in the form e unequal trapezoid and with the centers aligned with the axes of the mounting holes, while the deformers are made in the form of different-sized spherical disks facing concavities towards the side surfaces of the knife, and are placed by peripheral edges in the annular grooves of the knife, and the deformers are connected to each other and the rack by a bolt placed in one of the mounting holes of the knife and in the inserts of the Central holes of the spherical discs.  2. Slitherese according to claim 1, characterized in that the slitherese is installed on the frame by means of one of the pairs of mounting holes.

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