RU2354087C1 - Deep tiller - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: deep tiller contains two layer tine with removable knife, chisel and additional ripping elements fixed on the tine. The chisel is fixed on the tine with the frog in the form of a clamp covering the tine and equipped with a plane in front of the tine designed for the chisel. The layers of the tine are bent up every which way below the frog, forming symmetrical Λ-shaped arch in front. The corner angle of the Λ-shaped arch is 50-60°. The frogs with their chisels, the width of which is less than one of the upper frog and chisel, are fixed firmly and perpendicularly on the ends of the Λ-shaped arch. Additional ripping elements are fixed on the back side of the tine, and made in the form of a mole blade and pivotally attached to the inclined Λ-shaped arch. The upper frog is fixed on the tine with possibility to be discretely resettled. Removable knifes are mounted on the inclined tines of the Λ-shaped arch. Mounting hinges of the mole blades have two degrees of freedom. The back side of the upper part of the tine has a pipe with jet on its end.

EFFECT: enhancement of operating and technological characteristics and functional capabilities of the tool combined with decrease of energy consumption and increase of soil quality.

6 cl, 6 dwg

Description

The invention relates to agricultural machinery, to tools for deep primary (autumn) tillage, and can be used in agriculture for agrotechnical reclamation of degraded, solonetzic, etc. lands.

A tillage implement is known that contains a frame with successively mounted plow bodies and subsoilers, and the subsoiler legs have a horizontal share operating in the frontal plane with a chisel at the end (RU 2267243 C1, IPC АВВ 13/14 (2006.01), А01В 15/00 (2006.01), A01B 49/02 (2006.01), 01/10/2006).

The technical drawback of such tools: high traction resistance as a result of the presence of horizontal shares operating in the frontal plane and working at a relatively large depth in the mode of blocked cutting (without carrying soil chips to the surface); increased metal consumption due to the presence of a significant cantilever load on the subsoilers; insufficient depth of soil cultivation for land reclamation of degraded, solonetzic, etc. soils.

Known is a combined plane cutter - a slotter containing separately mounted on a frame a disk knife, plane-cutting paws and slit (deep-ripper) (journal "Agriculture", 2005, No. 2, p.18-19, Fig. 1).

The technical drawback of such combined tillage implements: increased metal consumption as a result of the presence of a separate working body for each technological operation of tillage; ineffective soil loosening by means of a slotter due to the limited depth of penetration into the soil (25-35 cm) and a significant distance between the slotters along the front of the action; the absence of the soil softening effect characteristic of chisels, which also increases the traction resistance of the gun.

Also known is a chisel type deep-ripper, which is most closely comparable to the proposed invention, comprising a knife stand (a stand with an overhead knife), a baler (chisel) at the end and additional loosening elements on the back of the rack - soil lifts at the bottom and a cultivator foot at the top; the depth of subsurface loosening of the soil is up to 0.6 m (see the journal “Vestnik of RAAS”, 2003, No. 4, pp. 28-30, Fig. 4).

The technical drawback of this deep-ripper: with a depth of loosening of the soil of 0.5-0.6 m, the chisel effect is reduced, since with such a depth of penetration of the chisel into the soil, a full-scale collapse of the soil does not occur at an angle of ≈45 ° in front and on the sides of the rack, resulting in an increase in traction resistance; insufficient loosening of the soil along the front of the action of the tillage implement due to the large distance between the uprights (0.5 m) and the indicated penetration depth into the soil (soil elevators are ineffective); inability to use, for example, for agrotechnical land reclamation degraded, solonetzic, etc. soil for the above reasons; it is not possible to incorporate liquid fertilizers and ameliorants into the soil simultaneously with plowing the soil; the impossibility of further increasing the depth of loosening of the soil.

Technical task: increasing the depth of soil cultivation with a simultaneous increase in the amount of loosening of the soil along the front of the tillage implement and while maintaining the chisel effect of softening the soil at a given depth and, as a result, reducing the specific traction resistance of the deep-ripper, introducing liquid fertilizers and ameliorants simultaneously with plowing the soil.

Effect: increase operational and technological indicators and functionality while reducing specific energy consumption and increasing soil fertility.

According to the invention, the deep-ripper comprises a stand with an overhead knife, a chisel fixed to it, and additional loosening elements on the back of the stand; the latter is made two-layer, the bit is fixed to the rack by means of a shoe in the form of a bracket covering the rack with a platform in front of the rack for the bit; below the shoe, the rack layers are bent in different directions, forming a symmetrical Λ-shaped arch in the front view, on the ends of which the shoes are fixed rigidly and perpendicular to the upper part of the rack, with their bits whose width is 2.0-2.5 times less than the width of the upper shoe and chisels; additional loosening elements are made in the form of drains and are pivotally attached to the inclined racks of the Λ-shaped arch.

Along with this, the upper shoe is mounted on a rack with the possibility of discrete reinstallation; the angle of the Λ-shaped arch is 50-60 °; false knives are mounted on inclined racks of the Λ-shaped arch; hinges of fastening of drains have two degrees of freedom; the back side of the upper part of the rack is equipped with a tube with a jet at its lower end.

Figure 1 shows a ripper, side view; figure 2 is the same front view; figure 3 is a section aa in figure 1; figure 4 - leader I of figure 2 (without false knives); figure 5 - diagram of the interaction of the ripper with the soil; Fig.6 is a section bB in Fig.5.

The subsoiler includes a rack 1, on which a shoe 2 with a chisel 3 removably mounted on it is mounted with the possibility of reinstallation. For mounting the rack on the frame of the tillage implement, holes 4 are provided. The rack is made of two layers - from two sheet parts 5 and 6, which are rigidly interconnected by welding: welds are made at the joints 7 (with cutting edges) of the parts and by cutting oblong holes 8 in one of the parts to obtain riveted welds 9. The shoe 2 is made in the form of covering with cradle bracket 10 with platform 11 in front of the rack for the bit 3. In the rack there are through holes 12 through which the shoe can be discretely reinstalled along the height of the rack to change the depth h of the introduction of the bit 3 into the soil.

Below shoe 2, the sheet parts 5 and 6 — pillar layers — are bent in different directions, forming a symmetrical Λ-shaped arch 13 in the front view. As a result, two additional inclined pillars 14 and 15 are formed, which belong to the arch. The angle α of the solution of the Λ-shaped arch is 50-60 °. The bending point of the inclined racks 14 and 15 is reinforced with a weld 16. At the ends of the arch, at the bottom of the inclined racks 14 and 15, shoes 17 with their removably mounted chisels 18 are fixed rigidly (by welding) and with a removable mounted chisels 18. Width of the shoes 17 and chisels 18 2.0-2.5 times less than the width In the upper shoe 2 and bit 3.

Additional loosening elements are made in the form of drains 19, which are pivotally attached to the rear side of the inclined racks 14 and 15 of the Λ-shaped arch 13. The hinges 20 for fastening the drains have two degrees of freedom. On the front side of the inclined racks mounted knives 21 to increase the efficiency of cutting deep soil horizons. The back side of the upper part of the rack 1 is equipped with a tube 22 with a nozzle 23 at its end - for feeding and spraying liquid fertilizers and ameliorants. The tube is connected to the corresponding system on the gun frame (not shown in the drawings).

Subsoiler works as follows.

When the arable unit moves, a deep-ripper with its chisels - the top 3 and two bottom 18 - rips the soil at different horizons at depths h and H (the two-tier main processing is carried out - loosening the soil). Taking into account the possibility of reinstalling shoe 1 on rack 1 with a chisel 3, through holes 12 the depth of loosening of soil in the upper tier can vary in the range of 25-40 cm. Depth H of penetration into the soil of lower chisels 18 located on shoes 17 perpendicular to the upper part of rack 1 , reaches 80 cm. The width of the shoe 2 and the bit 3 V = 70 mm, the thickness of the rack (a total of two parts 5 and 6) B ₁ = 40 mm. With such dimensions and the known angle of installation (declination) of the bit β = 25-30 ° and the presence of a bevel on the bit, the effect of soil cheesing is ensured. Cheesing is accompanied by decompaction and partially collapse of the soil at an angle of ≈45 ° on the sides of the rack (zone 24) and in front of the rack (zone 28).

This effect is explained by blocked cutting of the soil by means of the upper chisel 3 without the removal of soil shavings on the day surface. Since the chip cut by the bit is locked on all sides, it accumulates on the upper planes of the bit. With further movement of the deep-ripper, the chips are compressed, the pressure on the plane of the bit (soil compression stress) reaches a huge value - up to 50 MPa, moisture and air are squeezed out of the chips. After that, fragments of compressed soil break down from the bit and fan-like scatter to the side (left and right) and forward in the direction of travel (the process is continuous). This leads to the indicated softening and collapse of the soil, due to which the specific chisel traction resistance is reduced by 30-40% compared to a plow plow (excluding the interaction with the soil of inclined racks 14 and 15 with their chisels 18).

Along with chizing, a deep-ripper provides loosening of deeper soil horizons, which is very important for degraded, solonetzic, etc. lands. This function is realized by the Λ-shaped arch 13 - its overhead knives 21 on the inclined racks 14 and 15 and the chisel 18 on the lower ends of the racks located on the shoes 17 perpendicular to the upper part of the rack 1, as well as the drainage 19 pivotally mounted on the back side of the racks. Width in the lower shoes 17 and bits 18 are 2.0-2.5 times less than the width in the upper shoes 2 and bits 3; if, as noted, B = 70 mm, then b = 28-35 mm with a thickness of inclined racks of ₁ = 20 mm, and taking into account overhead knives in ' ₁ = 28 mm. As a result of this, and also because of the significant depth H of the introduction of the lower bits 18 into the soil (up to 80 cm), the effect of chiseling due to digging the soil with the lower bits is not fully manifested. But taking into account the action of the overhead knives 21 and drain 19, a kind of loosening of the deep soil horizons occurs with the formation of loosened zones 25 and 26. This is also facilitated by the relative position of the inclined racks 14 and 15 at an angle of the Λ-shaped arch 13 α = 50-60 °.

During the formation of zones 25 and 26, stresses arise in adjacent soil layers (in the H – h horizon), which leads to the formation of cracks 27. And this is an additional softening of the soil with an improvement in the water-air regime of the entire horizon, up to the depth N. Presence between inclined racks 14 and 15 and drains 19 hinges 20 with two degrees of freedom helps to stabilize and self-regulate the position of drains in the soil. The described process of the main tillage (loosening) of the soil is accompanied, as a rule, by the supply and incorporation into the soil (to a given depth) of liquid complex fertilizers and ameliorants. For solonetzic soils, iron sulfate, readily soluble in water, can be used as an ameliorant. To do this, the tube 22 laid on the rear side of the upper part of the rack 1 is used with a nozzle (sprayer) 23 at its lower end (tubes with nozzles are installed on each rack of the tillage implement). Liquid fertilizers or ameliorants seep into deeper horizons of the soil along loosened zones 25 and 26 and partly along formed cracks 27.

This ensures an increase in the depth of the main tillage with an increase in the amount of loosening along the front of the action of the tillage implement while maintaining the chisel effect of loosening the soil on the first tier — a predetermined depth of 40 cm and a partial manifestation of this effect on the second tier — in the horizon of up to 80 cm. only the implementation of agrotechnical land reclamation degraded, solonetzic, etc. soil, but also reduce the specific traction resistance of the deep ripper. This effect increases due to the introduction of liquid complex fertilizers and ameliorants simultaneously with plowing the soil. The result is an increase in operational and technological indicators and the functionality of the plowing machine while reducing specific energy consumption and increasing soil fertility.

Claims (6)

1. A subsoiler containing a stand with an overhead knife, a chisel fixed on it and additional loosening elements on the back of the stand, characterized in that the stand is double-layered, the chisel is fixed to the stand by a shoe in the form of a bracket covering the rack with the platform in front of the stand for the bit, below The shoe layers of the rack are bent in different directions, forming a symmetrical Λ-shaped arch on the front view, at the ends of which the shoes with their bits are fixed rigidly and perpendicular to the upper part of the rack, the width of which 2.0-2.5 times less than the width of the upper shoe and chisel, with additional loosening elements made in the form of drains and pivotally attached to the inclined racks of the Λ-shaped arch. 2. The subsoiler according to claim 1, characterized in that the upper shoe is mounted on a rack with the possibility of discrete reinstallation. 3. The subsoiler according to claim 1, characterized in that the solution angle of the Λ-shaped arch is 50-60 °. 4. The subsoiler according to claim 1, characterized in that the overhead knives are mounted on inclined racks of the Λ-shaped arch. 5. The subsoiler according to claim 1, characterized in that the hinges for attaching the drains have two degrees of freedom. 6. The subsoiler according to claim 1, characterized in that the rear side of the upper part of the rack is equipped with a tube with a nozzle at its lower end.

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