RU2544622C1 - Undercover soil disrupter - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: undercover soil ripper comprises milling chisel plough knife with a rack (2) and a hollow mole blade. Inside the mole blade on the shaft (6) the thrust bearings (7) are mounted. The shaft (6) is connected through the connecting insert (12) to the soil disrupter (15) in the form of a conical spring. The connecting insert (12) has left-handed threaded recesses. The housing of the hollow mole blade with the thread on both ends is cut horizontally lengthwise in half. The halves (3, 4) of the mole blade are welded to the milling chisel plough and covered by the expansion head (8) and a nut (9) with the sealing ring (10). The side slits of the mole blade housing are sealed with flat gaskets in the form of an I-beam. The spring of the disrupter in the front part is made in the form of a cylinder in the middle part in the form of a cone with the angle of expansion α=15…25°, in the rear part in the form of the rotation paraboloid y=xn, where n=0.5…0.7. The cross-section of the spring in the working part is made in the form of a wedge with an angle of inclination to the axis of the spring wire β=10…20°. The working face of the spring is coated with a layer of wear-resistant material.

EFFECT: ensuring quick assembly and disassembly of the mole blade and intensive quality soil crumbling.

3 cl, 4 dwg

Description

The invention relates to agricultural machinery, in particular, to devices for subsurface tillage, prone to water and wind erosion.

Known soil cultivators, the working bodies of which are made in the form of tension springs or equal resistance, the front cylindrical part of which is mounted on a threaded plug [US Pat. RF №2113081, 1998] or on a loop [US Pat. RF No. 2112333, 1998].

These cultivators are passive and severely deform the soil, creating great traction resistance.

A device for subsurface cultivation of the soil is known, containing slitherez, a hollow drainer on slitherese and a collar of the arch with ripping elements connected by a hinged axis with a tapering logarithmic spiral [SU No. 112247A, 1984] (prototype).

Disadvantages: manufacturing complexity, high labor costs for assembly - disassembly during repair, crushing of soil particles, creates a great traction resistance.

The problem to which the invention is directed is the creation of a quick-detachable trainer design and intensive high-quality crumbling of the soil.

This problem is solved by the fact that in the subsoil cultivator of the soil on the slit knife there is a body of a hollow drainer with threads at the ends, which is sawn in half, halves are welded to the slit knife, an expansion head is screwed on the front in the thread, a nut with a sealing ring is screwed in the back, inside housings mounted thrust bearings with a shaft associated with a soil cultivator, the side slots of the drainer housing are sealed with flat spacers in the form of an I-beam. The front cylindrical end of the conical spring is screwed onto the left helically threaded threaded recesses of the connecting insert. The angle of the cone of expansion of the spring cultivator is α = 15 ... 25 °, and the cross section of the spring in the working part is made in the form of a wedge inclined to the axis of the spring wire at an angle β = 10 ... 20 °, and the working face of the spring is coated with a wear-resistant material, for example, Sormait . A variation of the spring ripper is the form: in the front part - a cylinder, in the middle - a cone, and in the back - a paraboloid of revolution y = x ⁿ , where n = 0.5 ... 0.7.

In FIG. 1 shows a working body of a subsoil soil cultivator in a section; in FIG. 2 is a section along AA from FIG. 1 draenera body; in FIG. 3 - section of the spring wire; in FIG. 4 - working body with a loosening spring of complex shape.

The upper 3 and lower 4 halves of the body 5 of the hollow drainer with threaded ends are welded to the rack 1 and toe 2 of the slit knife. The body of the trainer is made in the form of a hollow cylinder and cut in half along. Thrust bearings 7 are installed on the shaft 6 inside the draining body, the draining body is closed on the thread with a head 8 on the front and the nut 9 with a sealing ring 10 on the back. The lateral slots of the draining body 5 are covered by flat gaskets 11 in the form of an I-beam. The shaft 6 by means of an insert 12 having a left-hand helical groove 13, where the cylindrical spiral wrap 14 of the cultivator is screwed, is connected to the conical cultivator 15 of the spring wire. The expansion angle of the conical ripper α = 15 ... 25 °. The cross section 16 of the wire in the working part is wedge-shaped, the angle of inclination of the axis of the wedge is β = 10 ... 20 °, the working face 17 is covered with a wear-resistant material, for example, Sormait, layer thickness 0.2 ... 0.4 mm. The shape of the ripper: on the length a - cylindrical, on the length b - conical, on the length c - in the form of a paraboloid of revolution y = x ⁿ , where the exponent n = 0.5 ... 0.7.

The expansion angle α = 15 ... 25 ° is selected so that each subsequent turn cuts off the soil layer without crushing it.

The angle of inclination of the axis of the wedge β = 10 ... 20 ° is selected so that the wedge is rigid and sharpened, like an ax blade.

The design of the spring of the cultivator in the front part is a cylinder for winding onto the insert, in the middle there is a cone for cutting soil layers, in the back there is a paraboloid of rotation y = x ⁿ (n = 0.5 ... 0.7) for swelling (raised) loosened soil.

Subcutaneous cultivator operates as follows. A cultivator is lowered onto the soil at the headland at the beginning of the rut, while the slotted knife 1 is deepened into the soil, the trainer 5 forms a drain, and under the action of the transverse component of the soil reaction to the turns 15 of the spring cultivator, they begin to rotate counterclockwise in the bearings 7 of the trainer 5. When The wedge part of the loosening spring carefully, without creasing, cuts off the soil strips, which are crushed to form a loosening layer, and the soil rises above the working body. With an increase in resistance (increase in soil density), the spring stretches and the diameter D of loose soil decreases, with a decrease in resistance, the diameter D increases. The spring wire allows the cultivator to adapt to continuously changing soil conditions. Covering the face with wear-resistant material allows self-sharpening of the working body.

When disassembling the cultivator, the nut 9 is unscrewed, then the head 8, the upper 3 and lower 4 halves of the housing 5 are disconnected, then the shaft 6 is turned out of the insert 12.

The use of a subsoil soil cultivator allows the formation of a wavy bottom, a loose soil layer without rotation, which significantly increases the moisture capacity. The implementation of the working body of the cutting and elastic type reduces traction resistance. Running the trainer with a quick-release tool allows you to quickly replace a failed (broken) working body. Increases labor productivity, improves the quality of loosening the soil.

Claims (3)

1. A subsoil soil cultivator containing a slotted knife with a hollow drainer, in which thrust bearings are mounted on a shaft connected to the soil cultivator in the form of a conical spring, characterized in that the body of the drainer is made in the form of a hollow cylinder with thread at the ends, cut in half, welded to a slit knife, in the front part an expansion head is screwed on the thread, and in the back part it is closed with a nut with a sealing ring, the side slots of the drainer body are sealed with flat gaskets in the form of an I-beam, while the spring The ripper in the front part is made in the form of a cylinder, in the middle - in the form of a cone, and in the back - a paraboloid of revolution y = x ⁿ , where n = 0.5 ... 0.7, the angle of the cone of expansion of the spring ripper is α = 15 ... 25 ° and the cross section of the spring in the working part is made in the form of a wedge inclined to the axis of the spring wire at an angle β = 10 ... 20 °. 2. The subsoil cultivator according to claim 1, characterized in that the front cylindrical end of the conical spring is screwed onto the left-helically threaded threaded recesses of the connecting insert. 3. The subsoil cultivator according to claim 1, characterized in that the working face of the spring is coated with a wear-resistant material, for example, Sormait layer thickness of 0.2 ... 0.4 mm.

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