RU2089054C1 - Method and apparatus for soil slitting of areas sown with complex cereal-legume grass mixtures - Google Patents

Abstract

FIELD: irrigated agriculture. SUBSTANCE: method involves cutting stepped slits with reservoirs by means of soil slitters; providing stepped slits during continuous movement of equipment next and following years upon third mowing of grass mixtures; forming wide slit with inclined walls in arable layer, with displaced soil being positioned adjacent to wide slit sides; providing narrow slit with reservoirs in subsurface layer; increasing slit depth from 0.35-0.6 m; reducing sections of wide slits by 15-25%; reducing slit spacing from 1.8-2.0 to 0.5-0.7 m. Apparatus has shank, widener and chisel. Shank is made in the form of triangle with unequal sides. Widener positioned in central opening of shank is made in the form of two hollow rings. Rings are conjugated at intersection of triangle medians with long side of triangle and are spaced apart at short side. Shank of soil slitter is moved from one position to other position by turning it about vertical axis aligned with one median of triangle through 180 deg or about one of horizontal axes of fastening bolts through 120 or 240 deg. EFFECT: increased efficiency, simplified method and apparatus and improved quality soil. 4 cl, 18 dwg, 5 tbl

Description

 The invention relates to agriculture, in particular to methods for increasing the productivity of complex legumes and cereal grass mixtures in irrigated agriculture.

A known method of cultivation of crops, including loosening of the arable and subsurface layers, the formation of cracks in the subsurface layer and filling the soil with a fertile layer, in which to increase productivity by increasing soil fertility, liquid organic fertilizers are applied every 3-4 years, combining with complex tillage for row crops, containing the formation of molehills in the subsurface layer, which are siphoned, while liquid organic fertilizers are added to the molehills, and liquid mineral fertilizers niya in the zone of occurrence of seeds; soil preparation for sowing seeds is carried out over molehills by profile loosening of the upper part of the walls of the cracks and the formation of slopes with an angle between them of 60-90 ^o .

 The reasons that impede the achievement of the required technical result when implementing this method when cultivating complex legume-cereal grass mixtures in irrigated agriculture include soil compaction, despite the fact that a vertical gap is formed under the seed bed during sowing with a focal reservoir in the subsurface horizon.

 A known method of soil sowing through winter crops, including cutting of water-catching slots with tier-shaped focal reservoirs, in which, in order to reduce damage to plants and increase water absorption in the root zone when snapping, focal reservoirs are created below the tillering site in the secondary root formation zone with the extruded soil being placed in sidewalls of cracks and tanks.

 The reasons that impede the achievement of the desired technical result when using the known method include the rapid siltation of the walls of narrow slots. As a result, access of atmospheric oxygen and nitrogen to root-inhabited soil horizons ceases. Silting of narrow cracks is the main cause of water erosion in crops of perennial grasses.

 The closest method of soil cleavage of the same purpose to the claimed object according to the totality of features is a method of soil cleavage containing stepwise cutting of slots, in which, in order to reduce the energy intensity of the process and improve the quality of cleavage, the first step of the slit is cut with loosening of its bottom and lower part of the walls, and before cutting the second stage of the slit, wet soil is wetted at the bottom of the bottom of the walls of the first stage of the slit. A device for soil siphoning according to the described method, comprising a frame with support wheels and cherezres mounted on it in tiers, in which, in order to reduce the energy consumption of the process and improve the quality of siphoning, the cherezes are installed in pairs and the pair of cherezes is installed frontally, and the cherezes are paired in parallel in tiers, with the upper layer tearing provided with a ripper installed in its lower part, which is connected to the trough by means of a hinge rod. This method is adopted as a prototype.

The reasons that impede the achievement of the required technical result when using the known method adopted for the prototype include the mechanical destruction of plant roots upon repeated passage of the unit. Unfortunately, it is impossible to use the slots made during the first transition as guides. After slitting, irrigation is immediately carried out with a norm of at least 500-700 m ³ / ha. At the same time, cracks made at shallow depths are flooded with upper fertile soil. At the second pass of the unit, the supporting wheels of the tractor and the slotter again compact the soil. When the racks move in front of them, soil rollers form. During the second and third mowing, the soil rollers increase the cutting height and, as a result, yield loss. Clogging of the cutting apparatus of mowers and reaping aggregates with soil reduces their operational reliability. To change the depth of the gap (in the direction of increasing and decreasing) requires a large investment of labor and time. With a weight of 80 kg of gullet, two workers are required to move to a new position. When rearranging the working bodies in the described device, safety measures are not followed. The frame of the gun must be raised to the maximum height in order to change the position of the cherezore stand. These and a number of other shortcomings negate the implementation of this method when cultivating complex mixtures in irrigated agriculture.

 A tool for cutting slots is 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, the working width of each lower located paw is less than the working width higher than the located paw, in which, in order to improve the quality of formation of cracks on in waterlogged soils, it is equipped with rollers, which are located behind the rack, the latter having a mole hanger, which is fixed in its lower part at an acute angle to the horizontal plane; each loosening leg is set at an acute angle to the horizontal plane, and the installation angle of each lower located leg is smaller than the installation above the located leg.

 The specified tool runs a slit with inclined walls. The cavity of the slit is filled with loose soil. When sowing crops of perennial grasses, 10-15% of the root system of plants is completely destroyed. Such a thinning of plants is unacceptable.

 A tool for anti-erosion tillage is known that contains a frame, a slitherer with a cutting knife installed in front of it at an acute angle to the direction of movement, the upper end of which is fixed to the frame, and packer rollers located on the sides of the slitheree, in which the cutter is equipped with a drive to reduce traction resistance , which is placed in the rack of sclerosis and connected with the lower end of the knife; the upper end of the knife is pivotally connected to the frame with the possibility of adjusting its angle of inclination.

 The described tool due to the cutting knife eliminates the overhang of the root and plant residues on the rack. However, the craftsmanship of narrow slots throughout the depth does not ensure the achievement of the required technical result.

 It is also known a tool 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.

 The reasons that impede the achievement of the required technical result when using the known device include low technological reliability. A circular knife provides cutting of root and plant residues. However, an additional working organ on a C-shaped rack destroys the root system of plants.

 The closest device of the same purpose to the claimed object according to the totality of features is the working element of the slotter, containing a stand, a chisel and a loosening plate pivotally attached to the bit, the width of which is greater than the width of the stand, in which, in order to increase the degree of loosening of the walls of the slot, the loosening plate is additionally connected to the bit an elastic element and is made curved in the plane of symmetry of the rack; the loosening plate is made with lateral vertical faces. This device is 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 the low quality of cracks. The rack described working body can make a narrow gap. As the cutting edge of the rack wears out, the latter is subject to rejection. An increase in the depth of cut slots can be performed with screw mechanisms of the support wheels of the frame of the slot machine. However, the range of the screw mechanisms will be enough only for 0.15-0.20 m, while the implementation of the required technology, the range of the screws should be at least 0.4 m. The described working body is not adapted to other techniques for making deeper cracks.

 The invention consists in the following.

 The objective of the invention is to increase productivity and obtain nutritionally balanced feed with a stable ratio of components in complex legume-cereal mixtures.

 The effect and technical result that can be obtained by carrying out the invention are expressed in feed productivity, soil protection from erosion, and also in providing simple means for the proportion of legumes and cereal fodder crops in complex mixtures as plants grow in their third, fourth and other years of life.

 The indicated effect and technical result during the implementation of the invention are achieved by the fact that in the known method of soil cleavage through complex legume-cereal grass mixtures, including cutting step slots with focal reservoirs by schlieres, into the second, third, fourth and subsequent years after the third cutting of grass mixtures with continuous movement simultaneously create step gaps: a wide gap with inclined walls in the arable horizon with the displaced soil in its sidewalls and a narrow gap with a focal reservoir in the subsoil th horizon, while annually the depth of the slots is increased from 0.35 to 0.6 m, the cross sections of the wide slots are reduced by 15-25% and the pitch between them is reduced from 1.8-2.0 to 0.5-0.7 m

 To implement this method, there is provided a device for soil sowing, including a frame with support wheels and mounted on it slotry, in which the slotry mounted with the possibility of group discrete changes in the depth of crafts step slots by turning the racks in the longitudinally vertical planes, each of which is made in in the form of a versatile triangle, the front faces of which are equipped with blades with cutting edges, the mating places of the blades are equipped with means for placing the bit, and in the center of the triangle, a technological hole is made with an expander placed in it to perform the first step of the slit, with mounting holes made with offset from the edge of the technological hole with equal angular pitch, by means of pairs of which the rack is mounted on the device frame; the bit is made in the form of a symmetric arc plate equipped with front and rear cutting edges, in the center of the arcuate plate there is a rectangular groove for installing the rack in it at the blade interface, a pair of brackets with holes for mounting on the rack are placed on the concave curved face of the bit along the edges of the rectangular groove congestion; the slitherer expander for performing the first slit step is made in the form of two hollow equal rings mounted in the technological hole of the rack, mated at the intersection point of the median with the largest side of the triangle and offset from each other by the thickness of the rack in the diametrically opposite direction.

 To implement the inventive method, a working element of the slotter with blades is provided on the peripheral part of the cherese strut, made in the form of a flat polygon.

 The analysis of the level of technologies (methods) and technology, 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 us to establish that no analogues were found (both in terms of the method and in the device for the implementation of the method), characterized by features identical to all the essential features of the invention. The proposed prototypes for the method and for the device made it possible to identify a set of essential distinguishing features in relation to the applicant’s perceived technical result in the claimed method and device for implementing the method set forth in the claims.

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

 To verify the compliance of the invention with the requirement of an inventive step, an additional search was carried out for known methods and technical solutions in order to identify features that match the distinctive features of the claimed invention from the prototype. The results of the verification show that the invention does not follow for the specialist an explicit example from a known level of technology and technology, in particular, the invention does not provide for known transformations.

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

In FIG. 1 shows a working organ of snapping, side view; figure 2 is the same front view; in FIG. 3, section AA in FIG. 1, a diametrical section of a glierez stand with an expander in a process hole; in Fig. 4, section B-B in Fig. 1, the placement of the bit on the lower portion of the cherezore stand; figure 5 is a cross section of a stepped slit and focal reservoir when making cracks after the third mowing on the crops of legumes and cereal mixtures at the end of the second year; Fig.6 is the same, after the third mowing at the end of the third year; Fig.7 is the same after the third mowing at the end of the fourth year; on Fig the process of formation of different depth stepped gaps; Fig.9 schematically shows the position of the rack of gill in the craft of cracks in the second year of growth of plants in complex mixtures; in FIG. 10 transferring the gill scaffold rack from the worker to the transport position by turning the rack around the horizontal axis of the front bolt on the implement frame beam; figure 11 the position of the rack glierez on the frame of the gun when making step slots on crops of grass mixtures at the end of the third year of their life by turning the rack around the horizontal axis of the rear bolt securing the glue to the beam of the gun; in Fig.12 - the sequence of translation of the rack sclerosis in an intermediate transport position; in Fig.13 the position of the rack glihereza on the frame of the gun when making step slots on crops of grass mixtures after the third mowing at the end of the third year of use by turning the rack in the lowest position; in FIG. 14 changing the position of the slitherese by rotating the stand 180 ^° about the vertical axis aa with abrasive wear of the front cutting edge; in FIG. 15 the intermediate position of the rack when translating cherezherez in the working position; in FIG. 16 the use of part of the cutting edge on the front part of one of the sides of the triangle with abrasive wear of the other part; on Fig is the transport position of the rack sclerosis; on Fig the working position of the rack cherese with the smallest depth of crafts step gap.

 Information confirming the possibility of carrying out the invention are as follows.

A device for slitting soil (Figs. 1 and 2) comprise a stand 1, an expander 2 slots in the upper part of the stand 1 and a chisel 3 in its lower section. Rack 1 is made in the form of a versatile triangle. The front faces 4-6 of the triangle are equipped with blades 7. The blades 7 are formed by sharpening the side faces 8 and 9. The angle of sharpening of the blades 7 does not exceed 25 ^o . The thickness of the rack 1 is 20 mm. In the center of gravity of the triangle (at the intersection of the medians), a hole 10 with a diameter of 550-600 mm is made. At the intersection of the blades 7, a pair of cylindrical holes 11 are made for installing a bit 3 in them in the working position. The expander 2 (Fig. 1-3) of the slit is made of two round hollow rings 12. The hollow rings 12 in the hole 10 are mounted in such a way that the front the faces 4 of the ring 12 are conjugated, and in the diametrically opposite direction (on the face 6), the rings 12 are spaced apart by the thickness of the rack 1. The hollow rings 12 are made of water pipes with an inner diameter of 1/2 '' (12.7 mm). On the side faces 8 (9), mounting holes 13-15 with a diameter of 30 mm are made, by means of a pair of holes (13-14, 14-15, 15-13) of which the rack 1 can be fixed on the frame beam in one of six working positions. Chisel 3 (Fig.1,2 and 4) is made of strip high-quality carbon steel (steel 65G GOST 1050-74) 60 mm wide and 8 mm thick. The shape of the bit 3 is made in the form of an arc of a circle. The radius of curvature is 250 mm. The ends of the cavity of the bit 3 are equipped with cutting edges 16 and 17 by sharpening the lower concave face 18 at an angle of 20-25 ^o . On the lower edge of the strip 19, a pair of brackets 19 are fixed with welds. On the lateral surface of the brackets 19 there are holes aligned with the holes 11 on the lateral edge 8 (9). Symmetrically to the vertical axis of the bit 3, a groove 20 is made for installation in it of the lower part of the bit 3. The bit 3 to the rack 1 is fixed by pairs of bolts 21 in the holes 11 of the side face 8. The brackets 19 are placed along the groove 20.

To implement the proposed method of soil cleavage on the crops of complex legumes and cereal mixtures, the device for soil cleavage is brought into working position. The rack 1 for snapping a pair of fixing bolts placed in the coaxial holes of the frame beam and in one of the pairs of mounting holes 13-14, 14-15, 15-13, is installed in the working position so that one of the three medians is aligned with the vertical axis ( Fig. 1,8,9,11,13,14,16 and 18). The implement’s frame contains standard units: a frame, support wheels with screw mechanisms, a suspension with fingers for hanging on the longitudinal link of the tractor’s hinged system. The method of aggregation in a three-point scheme with locking the lower longitudinal rods. Lateral deviation of the implement frame from the longitudinal axis of the tractor is not more than ± 25 mm in the working position and not more than ± 10 mm in the full transport position. The predetermined depth of the stepped slit crafts is provided by screw mechanisms for crafting the upper wide part of the slit and rearrange the cheresera stand 1 to new positions by turning the stand 1 in a longitudinally vertical plane by an angle of 120 ^o or 240 ^o (Fig. 8).

The rack 1 of the slitherer for crafts of stepped slots of different depths is transferred from one working position to another (Figs. 9-18) by turning it successively by means of fixing bolts as horizontal axes at an angle of 120 ^° in the vertical plane. The front bolt is used as the axis of rotation to translate into transport position (Fig.10,12,15 and 17). The back fixing bolt in this case is partially recessed into the internal cavity of the frame beam. When translating the rack 1 to the desired position, the bolt is used as the axis of rotation when installed in one of six operating positions. To increase the service life of the rack 1 and to improve the quality of the workmanship of the cracks, all blades 7 are used. For this purpose, the rack 1 is rotated around the vertical axis aa by 180 ^° , combining with one of the medians of the base triangle of cherese. The angle of inclination of the blades 7 on the end faces 4-6 to the horizontal from the placement of the rack 1 on the frame beam can vary from α ₁ to α ₆ when changing the depth of the gap from H ₁ to H ₆ with an equal depth of arable layer "a" in the range 24-27 cm.

 Consider the sequence of operations of the method of soil sowing on crops of complex legume-cereal grass mixtures for the second, third and fifth years of growth. Legume-cereal mixtures for obtaining a complete feed are presented in Table 1. As legumes, clover and alfalfa were used. As a cereal hedgehog, the national team, meadow fescue, boneless rump. The soil type is light chestnut. Ancestral cereal crops. Plots with an area of up to 20 ha were irrigated with a double console sprinkler unit DDA 100 MA. Irrigation rate provided a moisture content in the root-inhabited layer of not less than 70% HB.

To craft the stepped slots, an aggregate is formed that contains a caterpillar tractor of draft class 3 and an implement equipped with a suspension, a frame with longitudinal beams, and support wheels with screw mechanisms and cherezes. The first slitting is carried out after the third mowing of grass mixtures. For high-quality craftsmanship of cracks after the third mowing, transverse rakes of the GP-14 type remove plant residues from the field surface. Four racks of 1 slitherese are installed on the implement’s frame with a distance between the racks of at least 1.8-2.0 m. The depth of the wide slits craft is set by screw mechanisms of the support wheels a 25-27 cm. The depth of the crafts of narrow slots is set by turning the rack 1 to the position shown the dotted line in Fig. 8. In this case, the blade 7 on the edge 4 is set in the direction of movement of the unit. When the unit moves, the blade 7 cuts a narrow vertical slot with a width of 20 mm. The inclined edge 7 of face 4 involves the root, crop and plant residues in the arable horizon. When meeting with the inclined rings 12 of the expander 2 on the edge 4, the second phase of deformation of the walls of the slit 22 and 23 to the side occurs, simultaneously reinforcing them with plant and root residues. When making wide slots on the verge 4, the expander 2 has a maximum width of 55.4 mm. With further movement of the rack 1 on a given plot of soil, the rear portion of the slit expander 2 comes into operation. In this case, the width of the slit increases to size b ₁ in the upper part of the slit and at the depth of the arable horizon has their slope towards the narrow part of the slit 24, which ends in a focal reservoir 25 in the subsurface horizon. The lower part of the rack 1 cuts a narrow gap 24 in the plow sole and below the arable horizon to a depth of H ₁ 0.35 m from the day surface of the soil. Chisel 3 cutting edge 16 cuts the soil. Due to the curvature of the bit 3 steadily moves at a given depth, compensating for the vertical reaction of the soil on the inclined blade 7 of the rack 1. Moving the rack 1 with an extender on its upper part and a bit 3 on its lower part provides an artifact of a step gap (Figs. 2 and 5). The compacted inclined walls of the slit 22 and 23 in the arable horizon exclude their collapse in the autumn-winter period. During the autumn-winter period, an aeration of the root-inhabited soil layer occurs through the inclined walls of the slit 22 and 23. With intensive snow melting in the spring, water flows down the inclined walls 22 and 23 and rushes into a narrow slit 24, filling the reservoir 25. Compression of the root systems of cereal crops with a loose-bush system leads to active vital activity of the root system and to the formation of tillering nodes in the early -Spring period. The loose soil in the zone of step gaps leads to the activation of aerobic microorganisms, which atmospheric oxygen and nitrogen are processed into digestible forms. The presence of a sufficient amount of moisture in the root-inhabited horizon, heat, and a loosened soil layer ensures the active life of legumes and cereal plants.

 Tables 2 and 3 show the yield by green mass of complex legume-cereal mixtures with a different combination of crops and the proportion of legumes (45, 60 and 75%) when cultivated according to the known technology (control) and according to the described method at the end of the second year of plant life. For all these combinations, a steady increase in yield is observed.

 In the third year of plant life, at the end of the season after the third mowing, they are snapping, while the cross-section of the wide slit is reduced by 20-25% and the depth of the narrow slit is increased to 0.40-0.45 m. face 5 in the direction of movement of the unit. The preferred distance between adjacent slots when making the racks 1 is set equal to 1.2-1.4 m

 The yield of grass mixtures, according to the fourth year, is shown in table 4. In the table. Figure 5 shows the productivity of legume-cereal mixtures during sizing at the end of the second and at the end of the third year of plant life and in crops without sipping.

 In the fourth year of plant life, after harvesting the green mass, step slots with a depth of up to 0.6 m are performed. The step between the slots is reduced to 0.7 m. With an increase in the craftsmanship of narrow slits 24 (Figs. 6 and 7), the cross section of the wide slit is simultaneously reduced 20-25% than the total traction resistance of the gun is maintained in a given range of traction power of the DT-75M tractor (traction class 3). This ensures the movement of the four racks of sclerez at operating speeds in the range of 5.4-7.8 km / h. The data in Table 4 indicate the stability of the yield of leguminous-cereal mixtures during their intensive operation in the sixth year of growth. In crops without slitting, there is a sharp decrease in both yield and feed quality. This is due to both plant allelopathy, degeneration of legumes, and soil fatigue. Soil compaction under adverse conditions leads to a complete cessation of plant life (focal extinction of plants).

 Thus, the above information indicates the fulfillment of the following conditions when using the invention: the claimed method and device for its implementation are intended for use in agriculture when sieving primarily multicomponent fodder crops in irrigated agriculture, while sloter (device) can also be used for sipping conventional crops of a number of other grain, industrial, fodder and medicinal crops; the possibility of carrying out the invention is achieved using known methods and means; the proposed method of soil slitting on the crops of multicomponent leguminous-cereal perennial grass mixtures is extremely effective, achieved at all stages of the plant life cycle, starting from seed growth and ending with the preparation and feeding of the obtained feeds, the slitting method favorably affects the soil. The technical result of the proposed device for implementing the methods is achieved with simplicity of design, the use of known elements and is characterized by wide capabilities.

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

Claims (4)

 1. A method of slitting soil through complex legume-cereal grass mixtures, including cutting stepwise slots with focal reservoirs with chlorez, characterized in that stepwise slots are simultaneously created in the second, third, fourth and subsequent years after the third cutting of grass mixtures with continuous movement, one of which is performed wide with inclined walls in the arable horizon with the displacement of soil displaced in its sidewalls, and the other narrow with a focal reservoir in the subsurface horizon, with each year increasing the depth of the cracks 0.35 to 0.6 m, the cross-sections of wide slits 15 is reduced by 25% and reduce the step between from 1.8 2.0 to 0.5 0.7 m.  2. A device for soil slitting, including a frame with support wheels and mounted on it slit, characterized in that the slit is installed with the possibility of group discrete changes in the depth of crafts step slots by turning the racks in the longitudinally vertical planes, each of which is made in the form a versatile triangle, the front faces of which are equipped with blades with cutting edges, the mating places of the blades are equipped with a means for placing a bit, and a technolo nical hole with expanders arranged therein to perform the first stage slit and offset from the edge of the opening process with an equal angular pitch formed mounting holes, through which steam rack mounted on the frame of the device.  3. The device according to claim 2, characterized in that the bit is made in the form of a symmetric arcuate plate provided with front and rear cutting edges, a rectangular groove is made in the center of the arcuate plate to install a rack in it at the place where the blades mate, and in a concave curved face of the bit along the edges of a rectangular groove there is a pair of brackets with holes for mounting on a slot board.  4. The device according to p. 2, characterized in that the shearer expander for performing the first slit step is made in the form of two hollow equal rings mounted in the rack technological hole, conjugated at the intersection point of the median with the largest side of the triangle and offset from each other by the rack thickness in diametrically opposite direction.

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