RU2113079C1 - Deep digger - Google Patents

Abstract

FIELD: agriculture; deep tillage in irrigation and dry farming. SUBSTANCE: deep digger has vertical shank 1 with blade 2 and point bar 4 on its lower portion. Shank 1 has ripper 6 in form of disks 11,12,13 secured in pairs in tiers behind shank 1 by means of connecting links and coupled with shank through adapters and shots of anchor chain. Each disk has cutting edge on peripheral portion made by one-sided sharpening of upper plane at angle of 15-21 degrees. Port with radial slots in made in center of each disk. Disks 11,12,13 on connecting links are installed for re-placing of cutting edge relative to direction of movement of shank 1. Connecting link of disk with anchor chain shot is made in form of ring or equilateral triangle with rounded off corners. Adapter connecting shank with anchor chain shot is made in form of oval end link and cylindrical trunnion 29. Semicylindrical recesses are made on surface of adapter trunnion 29. Mounting and lower portions of shank 1 in longitudinal vertical plane of symmetry are provided with inclined blind holes 32,33 and pairs of through holes made on side surface of shank 1. Different-size disks 11,12,13 of ripper 6 are installed behind shank 1 with diameters decreasing in direction from mounting part of shank to its point bar for by-tier loosening of soil in depth of tillage. EFFECT: reduced draft, improved quality of soil tillage. 11 cl, 4 dwg

Description

 The invention relates to agricultural machinery, in particular to soil subsoilers.

Known working body for soil sowing, containing a rack with a knife in the form of a dihedral vertical wedge with a curved-concave cutting edge, in which, in order to reduce traction resistance, the curved-concave cutting edge of the knife is made in the form of a parabola with the center of its branch at the middle of the height of the rack, this angle of sharpening of the knife in the upper and lower parts of the parabola decreases to the center of its branches; the value of the angle of sharpening of the knife decreases from 40 to 18 ^o [1].

 The described working body performs only a narrow slot with a width of 2 cm and a depth of not more than 45 cm. The walls of the slot with the sides of the rack are only compacted.

 Some of these drawbacks are eliminated by the soil-cultivating soil cultivating tool, which contains successively installed slitherese and a working body for loosening the walls of the slit, made in the form of a nalik mounted on a spring C-shaped stand with a half-screw dump; in front of the slitherer, a disk [2] placed with it in one plane is installed.

 The disadvantage of this working body is the low quality of crumbling soil. After the gun passes, the treated strip is 6.0-8.0 cm wide at a depth of no more than 30-40 cm. Despite the presence of a circular knife mounted in front of the cherez, the roots hang on the C-shaped rack. The latter causes soil buildup and an increase in overall traction resistance.

 The closest technical solution is a soil deep-ripper, including a vertical stand and a tooth pivotally mounted in its lower part, connected via a rod to a vibrator, in which, in order to improve the quality of loosening due to better grinding and mixing of the soil horizontally, the ripper has additional teeth fixed to the stand in tiers, while the distance from the upright to the toe of each upstream tooth is less than the downstream [3]. This soil subsoiler is adopted as a prototype.

 The disadvantage of this subsoiler is the low quality of soil crumbling, high energy consumption, a small loosening zone and low technical reliability of the vibrator and tooth drive.

 The objective of the invention is the expansion of the functionality of agricultural implements and improving the quality of tillage.

 EFFECT: reduced traction resistance, simplified design, increased service life and quality of processing.

The specified technical result during the implementation of the invention is achieved by the fact that the known soil deep-ripper, including a vertical stand with a cutting edge on the front part and a chisel on its lower section, is equipped with a ripper made in the form of disks mounted by means of connecting links in tiers behind the stand and associated adapters and the bow of the anchor chain; the disks are equipped with a cutting edge made on the peripheral part by one-sided sharpening of the upper plane at an angle of 15 ... 21 ^o , and a window with radially directed grooves is made in the center of the disk; disks on the connecting links are installed with the possibility of reinstalling the cutting edge to the direction of movement of the rack; the width of the radial grooves of the disks is made equal to the diameter of the rod of the connecting links; the connecting link of the disk with the bow of the anchor chain is made in the form of a ring; the connecting link of the disk with the bow of the anchor chain is made in the form of an equilateral triangle: the top of which is rounded; the adapter connecting the rack with the bow of the anchor chain is made in the form of an oval end link and a cylindrical pin, the axis of which is combined with the long axis of symmetry of the link, and the interface between the link and the pin is reinforced by the tide; semi-cylindrical recesses are made on the surface of the adapter pin; the mounting and lower parts of the rack in the longitudinally vertical plane of symmetry are equipped with inclined blind holes, the diameter of which is equal to the diameter of the adapter pins, and pairs of through holes made on the side surface of the rack, and the axes of these holes do not intersect with the axes of the inclined holes; the front of the rack is equipped with a removable blade; the disks are made of different sizes and behind the rack are installed with a decreasing diameter in the direction from the mounting part of the rack to its bit.

 Due to the fact that the rack is equipped with a cultivator in the form of tiered discs connected by a flexible rod to the rack, 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 invention, allowed to establish that the applicant did not find an analogue characterized by features identical to all the essential features of the invention.

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

 To verify compliance of the invention with the requirement of "inventive step", an additional search was carried out for known solutions in order to identify features that match the distinctive features of the prototype of the invention, the results of which show that the invention does not explicitly follow the prior art, as the prior art defined by the applicant, the influence of the transformations provided for by the essential features of the proposed invention on the achievement of Technical result.

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

 In FIG. 1 shows a ripper, side view; in FIG. 2 is a section AA in FIG. 1, the cross section of the rack and the diametrical section of the connecting link and the disk of the cultivator on the upper tier; in FIG. 3 is a section BB in FIG. 2, the position of the disk and the connecting link in the form of a ring on the bow and the intermediate link; in FIG. 4 - the same, when performing a connecting link in the form of an equilateral triangle with rounded vertices.

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

 The subsoiler (see Figs. 1 and 2) contains a vertical stand 1, a removable blade 2 on an inclined front portion 3, a chisel 4 on the bottom portion 5 of the stand 1 and a soil ripper 6.

The upper mounting part 1 of the rack 1 is equipped with three holes 8 with a diameter of 32 ^+0.8 mm for installing the working body of the subsoiler on the implement frame. The pitch between holes 8 is 150 ± 0.5 mm. The thickness of the rack 1 is 30 mm. Stand material 1 - steel 50 GOST 1050-74. A removable blade 2 is mounted on the inclined front portion 3. The blade 2 has a cutting edge 9. The blade 2 is made of a wear-resistant high-strength material. The blade 2 on the inclined front section 3 is fixed by three studs 10 with a diameter of 12 mm, which are placed in the holes and secured by nuts 11 installed in the oval holes 12. In the lower section 5 of the rack 1, an interchangeable bit 4 is fixed with bolts with a countersunk head. Bit 4 is made 80 in width 80 mm The cutting edge of the bit 4 is formed by sharpening the lower plane of the bit at an angle of 25 ... 30 ^o .

 The soil cultivator 6 is made in the form of discs 11, 12 and 13 with a diameter of 200-250 mm, secured by means of connecting links 14, 15 and 16 half-tier behind the rack 1 and associated adapters 17 and 18 and bows 19 and 20 of the anchor chain. The connecting links 14-16 are mutually connected by intermediate links 21 and 22, the design of which is similar to the links of the anchor chain of the bows 19 and 20.

Discs 11 - 13 with a thickness of 16 mm are made of steel 65G GOST 1050-74. Each of the disks 11 - 13 is equipped with a cutting edge 23, made on the peripheral part of one-sided sharpening of the upper plane 24 at an angle i = 15-21 ^o (see Fig. 3 and 4). In the center of the disk 11 (12, 13), a window 25 is made with radially directed grooves 26. The width of the grooves 26 is equal to the diameter of the rod 27 of the connecting link 14 (15, 16). Thanks to the radially directed grooves 26, the disks 11 - 13 have the ability to reinstall the cutting edge 23 so that non-working sections of the edge 23 with a cutting edge thickness of less than 0.5 mm are placed in the direction of the rack 1. Connecting links 14 - 16 of the disks 11 - 13 and the link 19 and 20 anchor chains can be made in the form of a ring (see Fig. 3) with a diameter of 100-120 mm or in the form of an equilateral triangle with a side of no more than 80-100 mm and rounding at the tops (see Fig. 4).

 The bows 19 and 20 of the anchor chain are connected by adapters 17 and 18. The adapter 17 (18) of the connection of the rack 1 with the bow 19 (20) of the anchor chain is made in the form of an oval end link 28 and a cylindrical pin 29. The axis of the pin 29 is aligned with the long axis the symmetry of the link 28. The interface between the spigot 29 and the link 28 is reinforced by the tide 30. On the surface of the spigot 29 of the adapter 17 (18) there are semi-cylindrical recesses 31.

 The upper mounting part 7 of the rack 1 and the lower part 5 of the rack 1 in the longitudinally vertical plane of symmetry are equipped with inclined blind holes 32 and 33, the diameter of which is equal to the diameter of the pins 29 of the adapters 17 and 18. Two pairs of through cylindrical holes are made on the side surface of the rack 1, in which the cylindrical pins 34 are tightened. The axis of the holes of the cylindrical pins 34 do not intersect with the axes of the blind inclined holes 32 and 33. This allows the cylindrical pins in the inclined holes 32 and 33 to be securely fixed Adapters 17 and 18 of the links 19 and 20 of the anchor chain.

 To increase the intensity of crumbling and the loosening zone, different-sized disks 11-13 can be installed on the connecting links 14-16. The diameters of the disks 11, 12, 13 are respectively 300, 200 and 150 mm.

 Subsoiler works as follows.

 Rack 1 with three M32x150 bolts, flat and spring washers and M32 nuts through holes 6 are attached to the frame of the tillage machine. Check the technical condition of the removable blade 2, the bit 4 and the tightening of the nuts 11 on the studs 10 installed in the oval holes 12. Then examine the position of the cylindrical pins 34 in the holes on the side surface in the upper mounting part 7 and on the lower section 5 of the rack, evaluate the technical condition of the connecting links 14-16 and cutting edges 23 on the front of the disks 11-13.

 When transferring the frame of the tillage implement from the transport position to the working bit 4, it touches the surface of the field at an angle to the horizontal. The cutting edge of the bit 4 cuts into the surface of the field. Chisel 4 goes deep into the arable horizon. The cutting edge 9 of the removable blade 2 cuts the virgin soil layer vertically. Due to the inclination of the bit 4 of the rack 1 to the horizon and the weight of the rack 1 and part of the weight of the implement’s frame, the bit 4 cuts into dense untreated soil horizons. The reaction of the cutting forces of the soil on the cutting edge of the bit 4 and the cutting edge 9 of the removable blade 2 is aimed at increasing the depth of the rack 1. The adapter 18 in the lower section 5 of the rack 1 carries the bow 20 of the anchor chain. The links of the anchor chain of the bow 20 are carried away into a loosened soil gap made by a chisel 4 and a removable blade 2. The connecting link 16 carries along the lower disk 13. The cutting edge 23 of the disk 13 cuts the soil layer along an inclined plane and rushes behind the counter 1 towards the lower part of the soil cracks. At the same time, subsequent connecting links 14 and 15 with intermediate links 21 and 22 and links of the upper link 19 of the anchor chain carry the disks 11 and 12. With steady motion, the disks 11, 12 and 13 are installed in tiers along the height of the slit.

Disks 11-13 with their cutting edges 23 cut horizontally soil strata and soil. The tiered arrangement of disks 11-13 provides intensive crumbling of the soil layer. Disks 11-13, attached to the rack 1 with bows 19 and 20, have the selective ability to till. With increasing soil density in the lower horizons, the traction resistance of the disk 13 increases in comparison with the traction resistance of the disk 11 moving in the upper arable layer. For this reason, the disk 11 tends to go deeper into the deep, loosening the lower horizons of the soil. When the cultivator is working in soil conditions with a deep occurrence of the fertile layer, disks 11-13 along the height of the rack 1 are placed with equal intervals. When treating the soil after many years of forage crops, the hardness of the soil of the upper horizon reaches 7-80 kgf / cm ² . The traction resistance of the upper disk 11 increases sharply. In this case, the bow 19 occupies the minimum inclined position, and the disks 12 and 13 are moved to the upper re-compacted horizon.

 The selectivity of the cultivator 6 of the soil allows you to effectively treat over-compacted soil horizons and increase the volume of loose soil in the direction of movement of the rack 1.

 An increase in the amount of cultivation is achieved by setting the soil cultivator 6 with disks 11, 12, 13, the diameter of which is made equal to 300, 200 and 150 mm, respectively. In this case, the degree of crumbling of the soil of the upper layer increases significantly compared to the lower horizon.

As the operating time, the front cutting edges 23 of the disks 11-13 are subject to wear. When the chamfer on the front sections of the disks 11-13 is greater than 3 mm, the disks 11-13 on the rods 27 are rearranged in a new position. To do this, the disk 11 is moved in the connecting link 13 in the direction of the rack 1 until then, until the rod 27 is in the window 25 of the disk 11. Then, the disk 11 is rotated around a vertical axis. After turning the disk 11 at an angle of 72 ^o new groove 26 is combined with the rod 27 of the connecting link 14 and the disk 11 is shifted back. The previously unused cutting edge 23 on the disk 11 will be directed towards the rack 1. This increases the life of the soil cultivator 6. When the cutting edges 23 on the disks 11-13 are completely worn, the cultivator 6 is dismantled and restored. For this, the cylindrical pins 34 are removed from the pairs of holes in the upper mounting part 7 and in the lower portion 5 of the rack. Semicylindrical recesses 31 on the surface of the pins 29 of the adapters 17 and 18 are released from the pins 34, and the pins 29 of the adapters 17 and 18 are removed from the blind inclined holes 32 and 33. A new cultivator is mounted in the reverse order to the place of the worn cultivator 6 or after restoration. Assembling and disassembling the cultivator is done by one person.

 When transferring the rack 1 of the deep-ripper from the working position to the transport links of the anchor chain in the bows 19 and 20 are installed along the plumb line. In this case, soil particles, overhanging plant and root residues from the links of the anchor chain, connecting links and discs are released. Thus, at the end of each corral, an additional cleaning of the cultivator 6 takes place.

Thus, the above information indicates that when using the invention the following set of conditions;
- a tool 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 in the application or known prior to the priority date is confirmed;
- a tool 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 (11)

 1. A subsoiler, including a vertical stand with a cutting edge on the front part and a chisel on its lower section, characterized in that it is equipped with a ripper made in the form of discs, secured by means of connecting links in tiers behind the stand and associated adapters and bows of the anchor chain. 2. The subsoiler according to claim 1, characterized in that the disks are provided with a cutting edge made on the peripheral part of one-sided sharpening of the upper plane at an angle of 15 - 21 ^o , and a window with radially directed grooves is made in the center of the disk.  3. The subsoiler according to claims 1 and 2, characterized in that the disks on the connecting links are installed with the possibility of reinstalling the cutting edge to the direction of movement of the rack.  4. The subsoiler according to claims 1 and 2, characterized in that the width of the radial grooves of the disks is made equal to the diameter of the rod of the connecting links.  5. The subsoiler according to claim 1, characterized in that the connecting link of the disk with the bow of the anchor chain is made in the form of a ring.  6. The subsoiler according to claim 1, characterized in that the connecting link of the disk with the bow of the anchor chain is made in the form of an equilateral triangle, the vertices of which are rounded.  7. The subsoiler according to claim 1, characterized in that the adapter connecting the rack with the bow of the anchor chain is made in the form of an oval end link and a cylindrical pin, the axis of which is aligned with the long axis of symmetry of the link, and the interface between the link and the pin is reinforced by the tide.  8. The deep-ripper according to claims 1 and 7, characterized in that on the surface of the journal of the adapter half-cylindrical recesses are made.  9. The subsoiler according to claim 1, characterized in that the mounting and lower parts of the rack in the longitudinally vertical plane of symmetry are equipped with inclined blind holes, the diameter of which is equal to the diameter of the adapter pins, and pairs of through holes made on the side surface of the rack, and the axes of these holes do not intersect with the axes of the inclined holes.  10. The subsoiler according to claim 1, characterized in that the front of the rack is equipped with a removable blade.  11. The subsoiler according to claim 1, characterized in that the disks are made of different sizes and are mounted behind the rack with a decreasing diameter in the direction from the mounting part of the rack to its bit.

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