RU2110166C1 - Deep ripper - Google Patents

Abstract

FIELD: agriculture. SUBSTANCE: deep ripper has frame, hitching device, carrier wheels, tine 1 with two double-faced cutting edges inclined at different angles and disposed on front part. Tine 1 has chisel 2 and ripping member 3 mounted behind tine 1. Ripping member 3 is made in the form of anchor chain length. End links of chain are connected with tine 1 by means of intermediate members 12 and 13. Strengthened links of larger size than that of links on end portions of chain are positioned in mid portion of anchor chain length. Such construction facilitates crumbing of water-logged soil layers and reduction of draft. EFFECT: increased efficiency, simplified construction and enhanced reliability in operation. 1 dwg

Description

 The invention relates to agricultural machinery, in particular to tools for deep loosening of the soil in the fields occupied by perennial fodder crops in irrigated agriculture.

 Known working body for soil sowing, 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 sealing of the walls of the gap along its height due to the execution in the walls of moles, the ribs are made in the form of semi-cones, the top which are placed on the blade of the knife, while the half cones located on one side surface of the knife are offset in height relative to the half cones located on the other side surface of the knife, and the diameter of the base I half cone is greater than the distance between adjacent half cones [1].

In irrigated agriculture during the cultivation of perennial forage crops (alfalfa, clover, rapeseed, goatberry, mallow, legume-bluegrass mixtures), with irrigation rates for the vegetation of the order of 3000 - 3700 m ³ / ha and three to four cuttings for each season and three-year use of grass stand , the soil density in the layer of 0 - 30 cm reaches 1.37 - 1.46 g / cm ³ , the hardness is up to 86 - 128 kgf / cm ² . Processing of these soils with serial reinforced plows after five years of operation becomes almost impossible. To improve the water-physical properties of these soils and to create optimal conditions for the growth and development of cultivated plants, preliminary deep loosening without turning the formation to a depth of at least 60 cm is required. It should also be noted that the roots that are saturated with this soil layer hang on the inclined blade of the knife, and semi-cones do not properly loosen the soil. The depth of cultivation by the specified working body does not exceed 30 cm. The absence of a chisel at the lower end of the knife limits the service life of the working body for soil cleavage.

 Also known is a working body for loosening the soil, containing a stand, a removable chisel in the lower portion of the stand, and a cultivator of soil mounted on the rear part along the height of the stand [2].

 A soil cultivator mounted behind a working body stand only produces compaction of the walls of the slit.

где
B₁, B₂, B₃ - ширина захвата рабочих органов соответственно, первого, второго и третьего ярусов;
a₂, a₃ - высота рабочей части стоек второго и третьего ярусов;
ψ - 40 - 50^o;
L - длина выступающей части рабочего органа от носка его лезвия до режущей кромки стойки;
B_ст - ширина стойки;
β - угол крошения.Also known is a deep-ripper containing a frame mounted on it at an obtuse angle to the direction of movement of the beam with a leading cutting edge, working bodies in the form of chisels and pointed arms with blades protruding in front, along the length of the beam, while the working tool working width is made variable, decreasing from the upper tier to the lower, in which, in order to improve the quality of anti-erosion preparation of the soil by increasing its filtration properties, each working body is connected to the beam through perpendicular a rack disposed thereto with a cutting edge, wherein the width of each working member is determined by the following relationship:

Where
B ₁ , B ₂ , B ₃ - the width of the working bodies, respectively, of the first, second and third tiers;
a ₂ , a ₃ - the height of the working part of the racks of the second and third tiers;
ψ - 40 - 50 ^o ;
L is the length of the protruding part of the working body from the tip of its blade to the cutting edge of the rack;
B _article - rack width;
β is the angle of crumbling.

 The working bodies of the upper tiers are made in the form of lancet paws, and the lower - in the form of a chisel [3].

 The disadvantages of the subsoiler are high traction resistance, overhang of plant and root residues, soil sticking, low technical reliability and design complexity.

где
B_i - ширина захвата i-й лапы i-го яруса;
B_o - ширина захвата лапы одного из ярусов;
φ - угол трения почвы о металл;
θ - угол скалывания пласта;
a_i - высота рабочей части стоек i-й лапы i-го яруса;
α - угол установки лапы к дну борозды [4].In addition, a deep-ripper is known that contains a frame with an attached device, a support roller and belt-mounted ripping working bodies made in the upper tiers in the form of lancet paws with a working width that decreases from the upper tier to the lower tier, in which, in order to reduce energy intensity of the process of loosening and improving the quality of soil cultivation, the width of each leg is determined from the ratio

Where
B _i - the width of the i-th leg of the i-th tier;
B _o - the width of the paws of one of the tiers;
φ is the angle of friction of the soil on the metal;
θ is the shear angle of the formation;
a _i - the height of the working part of the racks of the i-th paw of the i-th tier;
α is the angle of the paw to the bottom of the furrow [4].

 The disadvantages of the deep-ripper include low operating efficiency, despite the consistent arrangement of the racks of the working bodies with a decreasing width of the grip along the depth of processing. Setting the track roller shows a poor quality of the process.

 The problem to which the invention is directed is to increase the efficiency of use of the working body.

 The technical result is a decrease in traction resistance and an increase in the degree of crumbling of re-compacted soil layers.

 The specified technical result during the implementation of the invention is achieved by the fact that in the known subsoiler containing a frame with an attached device, support wheels, a rack with a blade on the front part, a replaceable bit on its lower section and a ripping working element installed behind the rack, the latter is made in the form of an anchor bow chain, the final links of which are connected by an adapter to the rack, and in the middle part of the bow there are reinforced links with larger sizes than the links on the final sections of the chain.

 Due to the fact that the ripping element is made of different-sized links of the anchor chain, the above technical result is achieved.

 The analysis of the prior art, including a search by patent and scientific and technical sources of information and identification of sources containing information about analogues of the invention, allowed to establish that no analogue was found, characterized by features identical to all the essential features of the invention.

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

 To verify the compliance of the invention and the requirement of the inventive step, an additional search was carried out for known solutions in order to identify features that match the features of the invention that are distinctive from the prototype, the results of which show that the invention does not explicitly follow from the prior art, since the influence of the salient features of the invention of transformations to achieve a technical result.

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

 The invention is illustrated in the drawing, which shows a ripper with a ripping working body installed behind the rack in the form of different-sized links of the anchor chain bow, side view.

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

 The subsoiler is mounted on a frame that has a suspension for mounting on a mounted tractor, support wheels with screw mechanisms (standard units are not shown in the drawing) and contains a rack 1, a chisel 2 and a loose working body 3 mounted behind the rack 1. The rack 1 has an upper mounting part 4 with holes for fastening with bolts 5 to the frame of the subsoiler. The front part 6 of the rack 1 is equipped with two diagonal blades 7 and 8. The lower part 9 of the rack 1 has a support platform on which a replaceable bit is fixed by means of countersunk bolts 2. The upper part 4 and the lower part 9 of the rack 1 are equipped with two blind inclined holes 10 and two pairs of cylindrical holes 11. In the inclined holes 10, adapters 12 and 13 are installed for connecting the working body 3 to the rear of the rack 1. The position of the adapters 12 and 13 in the inclined holes 10 is fixed by a cylindrical pin tami 14, installed with a slight tightness in the holes 11.

 The loosening working body 3 is made in the form of a bow of the anchor chain. The final links 15 and 16 of the anchor chain are placed in the oval holes 17 of the adapters 12 and 13. In the middle part of the anchor chain link, reinforced links 18, 19 and 20 are installed. The size of the reinforced links 18 - 20 is 1.5 - 2.0 times larger than the sizes links 15 and 16 of the anchor chain. The length of the bow is 1.5 times the height of the rack 1.

 Subsoiler works as follows.

 The mounted tractor mounted system of the subsoiler frame is transferred from the transport position to the working position. Support wheels set the required depth of cultivation. When the tractor moves, the bit 2 carries the rack 1 to a predetermined processing depth. Different inclined dihedral blades 7 and 8 cut vertically the arable horizon and soil to a depth of 60 cm. The cutting edges of the blades 7 and 8 cut the roots and plant residues and move into the slot, moving the self-cleaning stand 1. Chisel 2 loosens the soil in the soil layer below 50 cm. Following the rack 1, the loosening working element 3 comes into operation. Reinforced links 18 - 20 of the anchor chain have a greater frontal resistance than the connecting links 15 and 16. For this reason, the links to the walls of the slit anchor chain selectively produced burst pressure directed upwards. This leads to the rupture of re-compacted soil layers and their intensive crumbling. Particles and agronomically valuable fractions of the soil undergo repeated crumbling from the side of the upper inclined branch of the bow. When the soil density in the lower layers is greater than in the upper arable horizon, reinforced links 18 - 20 are carried away to the lower horizons and loosen them. With soil density greater in the upper horizon than in the lower layers, intensive loosening of the upper layer occurs. The placement of the reinforced links 18 - 20 of the anchor chain in the middle part of the bow excludes the removal of erosion-hazardous particles to the day surface. The design of the loosening working body 3 in the form of different-sized links of the anchor chain provides self-cleaning of the working body, a high degree of loosening of the soil with minimal energy consumption and can be used as a tool for anti-erosion treatment while preserving the natural soil fertility.

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 as described in the independent clause of the claims below, the possibility of its implementation using the means and methods described above or known prior to the priority date 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.

Claims (1)

 A subsoiler containing a frame with a hinged device, support wheels, a rack with two differently inclined dihedral blades on the front part, a replaceable chisel on its lower section and a ripping working body installed behind the rack, characterized in that the ripping working body is made in the form of an anchor chain bow, the end the links of which are connected to the rack by adapters, and in the middle part of the bow there are reinforced links with larger sizes than the links in the final sections of the bow.