RU2182752C1 - Tillage tool - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: tillage tool has bearing tine, tip, shank, base and disks. Front faces of tine and tip are made respectively in the form of triangular prism and wedge with some sharpening angles. Shanks are fixed in front of disks at an angle to base. Disks are made round and arranged without overlap for rotation in horizontal plane from drive. Additional cutting knives and rippers are fixed to disk surfaces. Sweepers are positioned in disk lower parts. Tillage tool may be used for surface and subsoil tillage. EFFECT: increased efficiency, simplified construction and enhanced reliability in operation. 7 dwg

Description

 The invention relates to agricultural machinery, in particular to tillage working bodies for surface and subsurface tillage.

 Known tillage working body, consisting of racks, paddle, chisels and shares, above which on the horizontal axes mounted self-rotating rollers made in the form of eccentric cams [1].

 Also known is a soil cultivating working body, consisting of a stand on which a cutting paw with a mouthguard is fixed, and freely rotating rollers made in the form of truncated cones are installed on separate non-rigid rods, at an angle to each other, [2].

 A common drawback of these working bodies is poor-quality tillage - an insufficient degree of crumbling and loosening. When moving such working bodies, the rollers, enveloping and clinging to plant debris and soil, turn into cylindrical, non-rotating smooth coils, become passive appendages and only contribute to soil unloading, creating additional traction resistance. After the passage of such working bodies on the field surface, lumps of unburnt soil remain, and often continuous monoliths of the cut soil layer.

 The closest in technical essence and the achieved result to the proposed one is a soil cultivating working body, including a stand, a baler, a base and discs installed along the base in front in a row, obliquely in the direction of the baler and freely rotating on their axes [3] (prototype).

 The disadvantage of the tillage working body is its inoperability.

 Tillage working body, made in the form of a flat-cutting paw, in which the main technological function of the ploughshare when cutting the reservoir is performed by the nalarik with disks, becomes inoperative.

 When this working body moves, disks located at a certain acute angle to the narrator, having entered into direct technological contact with the soil, bite into it, actually performing the function of cutting shares, undergoing tremendous physical stress with a pressure of several hundred kg, due to which they are deformed - bend and break, without producing any technological impact on the soil, except for its unloading.

 The objective of the invention is to improve the quality of tillage and increase the efficiency of the tillage working body.

 The essence of the claimed invention lies in the fact that in the soil cultivating working body, including the stand, the baler, the base and the disks, made in the form of regular polygons installed along the base in a row with mutual overlap and freely rotating on the axes, mounted on the base with an inclined towards the mouth , according to the invention, the front face of the rack and the frontal surface of the narralik are made in the form of a triangular prism and a wedge, respectively, with sharpening angles, plowshares are fixed in front of the disks at an angle α to the base, circular disks with a cutting edge at an angle β are mounted without overlap with the possibility of horizontal rotation and are equipped with additional cutting knives and rippers, as well as scrapers, while the knives are made in the form of plates with a curvature along the logarithmic spiral with "left" and " the right "outgoing branches and a T-shaped cross-section and double-sided sharpening of knives at an angle β, and rippers made in the form of a cone with an angle of sharpening β and a height equal to twice the height of the knives are located on the disk between the knives and the same distance from the axis of the disk, disk drive carried by a spring "twisting-untwisting", and discs with "left" and "right" outgoing branches established on the basis of turn.

 Comparison of the claimed invention with the prototype shows that it is new that the front face of the rack and the frontal surface of the narral are respectively made in the form of a triangular prism and a wedge with point angles α, before the disks, also at an angle α to the base, plowshares are installed, and the disks are installed without overlapping with the possibility of horizontal rotation from the drive, operating from the spring in the mode of "torsion-unwinding", and have a circular shape, on the surface of which are attached additional cutting knives and cultivators having Responsibly T-shaped in cross section and cone-shaped with cutting and sharpening angles β, and scrapers are installed in the lower part of the discs.

 The physical and technological embodiment in the design of the working body is based on the law of conservation of energy - the transition of kinetic energy into potential energy and vice versa, the source of which is an active drive of disks with additional cutting elements with two disturbance forces factors. The first factor is the action of the force impulse from the reaction from the side of the soil layer cut by the shares, and feeding it to the disk, the second is the reverse reaction force of the elastic spring of the disk drive. The combination of these dependent and inseparable factors of the perturbation forces contributes to a positive effect on the soil cultivation process, improving the quality of cultivation and crumbling.

 The presented drive mechanism is the pendulum mechanism, where the cutting disc with additional knives performs the pendulum function, and the drive is a torsion-untwisting spring driven by force reactions from the soil layer and the inverse elastic spring reaction, i.e. . the present invention is a plane-cutting paw, supplemented by a rotary type cutting apparatus.

 The design of the working body, the configuration of the main elements and the drive, as well as their geometric parameters and the values of their values contribute to its reliable performance and ultimately the quality of the soil treatment, which are undeniable and beyond doubt.

 Thus, the claimed invention meets the criterion of "novelty."

 The claimed invention meets the criterion of "inventive step", as it is not obvious to a specialist and provides an improvement in the quality of tillage.

 The invention meets the criterion of "industrial applicability", as it can be used in agricultural engineering in the development of tillage machines and implements for both solid surface and subsurface deep loosening while maintaining stubble and fertile soil layer.

 The invention is illustrated by drawings. Figure 1 shows a tillage working body in a perspective view; figure 2 - disk with additional cutting knives and cultivators, view in plan; figure 3 is the same in section, side view; figure 4 a, b - discs with additional cutting knives "left" and "right" outgoing branches, plan view; in Fig.5 a, b - an additional cutting knife and a cultivator in a section.

 Tillage working body consists of a supporting rack 1, oral 2, plowshares 8, base 4 and drives 5 with a drive.

 The front face of the rack 1 and the frontal surface of the narralik 2 are respectively made in the form of a triangular prism and a wedge with sharpening angles α. The shares 3 are also made at an angle α to the base 4 and are fixed in front of the disks 5. The disks 5 are mounted without overlap with the possibility of horizontal rotation, have a round shape with cutting edges at an angle β. Additional cutting elements are installed on the surface of the disks 5: knives 6 and rippers 7, and in the lower part of the disks 5 concentrically, in a checkerboard pattern and at an equal distance from each other, scraper 8. Cutting knives 6 are made in the form of plates with a curvature along a logarithmic spiral with left "and" right "- outgoing branches. In cross section, the cutting knives 6 are T-shaped with double-sided sharpening of the blades at an angle β. The rippers 7 have the shape of a cone with an angle of sharpening β and are located between the knives 6 at the same distance from the axis of the disks 5. The height of the rippers 7 is twice the height of the knives 6.

 The drive disk 5 consists of a cylindrical spring 9, a sliding bearing 10, a vertical stationary axis 11, a protective sleeve 12, the lower end of which is rigidly connected to the base 4 and the cuff - boot corrugated 13.

 The spring 9 operates in the "torsion-untwisting" mode with an angle of "twist-untwisting" φ. Its upper end is connected to the disk 5, and the lower to the base 4.

 Disks 5 with "left" and "right" outgoing branches are installed on the basis of 4 in turn.

 The kinematic connection between the movable disk 5 and the base 4 of the working body is carried out by a sliding bearing 10, the inner race of which is rigidly locked with the fixed axis 11 with the blind washer 14 and screw 15, and the outer race is also sliding with the disk 5, the cover with gasket 16 and screw 17.

 Tillage working body operates as follows.

 Before starting work, the necessary depth of soil cultivation is established (surface loosening up to 15 ... 16 cm or deep subsurface till 30 ... 40 cm).

 When the working body moves, the main physical load - frontal resistance (reaction) from the soil side is perceived by the mouth 2, plowshares 3 and rack 1 located in front of the disks 5 with additional cutting knives 6 and rippers 7 having equal cutting and crushing angles α. Then, the soil layer cut by the mouth 2 and plowshares 3, moving, enters into direct technological contact with the disks 5, cutting knives 6 and cultivators 7, removing them from the state of equilibrium. Due to the constant change in the physical and mechanical characteristics of the soil, different resistance forces act on disks 5 with knives 6 and cultivators 7, which, in the presence of a spring disk 5, cause angular vibrations of the cutting knives 6 and cultivators 7 in a horizontal plane around axis 11. At the same time, the variable nature of the force resistance from the side of the soil layer and the reverse reaction of forces from the side of the spring disk 5 with knives 6 and rippers 7, leading them to oscillatory motion (left - right around axis 11), contribute to the intensive second and final soil treatment - chipping, shredding and ripping, making thus difficult high transverse angular fluctuations. As a result of this, the quality of soil cultivation is improved, clogging-sticking of disks by soil and plant debris is eliminated, soil unloading is excluded and traction resistance of the working body is reduced.

Due to the equivalence of the cutting angles α, in particular 15 ^o , a uniformly-uniform and symmetrical distribution is ensured, without chipping and unloading the cut soil layer on both sides of the rack and feeding it to disks with cutting knives and cultivators, which also have identical angles β, in particular 3 ^o , cutting, crumbling and loosening, which improves the quality of loosening and crumbling of the soil, and also improves the stability of the working body both in depth of processing and in rectilinear movement and decreases its traction resistance. Since between the cutting angles α (cutting angle, lift-feed by plowshares of the soil layer), in particular 15 ^o , and the translational speed of the working body V (feed of the soil layer S, trimmed by plowshares), in particular 2 m / s, there is an inversely proportional relationship , then the probability of direct technological contact of the cropped soil layer is guaranteed, because the trajectory of the soil layer is constant. In addition, the stability and dynamism of the drive of the disks with cutting knives and cultivators without damping oscillations around the axis with the technological process is provided by the actuator spring 9, since the value of the inverse elastic reaction of the spring at the angle of "twist-unwind" φ≥3.14 rad (± 180 ^o ) exceeds the value of the reaction value of the soil formation, as a result of which the entire cycle of the soil cultivation process does not stop, continuing with an angular velocity of oscillation ω≥0,052 s ^-1 .

As for the inertial loads that occur during the technological process, they are eliminated by the configurations and values of geo-genetic parameters and the values of both disks with a diameter D, in particular 22 cm, and cutting knives with a height h (in particular 5 cm) and cultivators with a height of 2h, located on the surface of the disk in a logarithmic spiral with radii of curvature that vary geometrically with “left” and “right” outgoing branches with their alternate location on the basis of the working body with a width of capture L cm, in particular 100, 150 see. This helps to mitigate, balance short-term inertial loads and reduce the coefficients of cutting, crumbling and loosening of the soil without mulching and spraying the fertile humus layer, especially when deep soilless tillage (up to 30 ... 40 cm) with the stubble remaining. In addition, due to the fact that the center distance between the disks 5 exceeds the value of their diameter, in particular, by 3 cm, and the disk drive is equipped with a coil spring with the number of working turns n≤5 (3 pcs.) Made of spring steel (Art. 60 C ₂ ), and is protected by a clip 12 and anther cuff 13, and disks 5 by scrapers 8, then the stability and reliability of the working body is ensured without jamming, jamming by soil lumps, foreign objects and enveloping plant debris with dust and any particles to drive.

 The present invention is simple to manufacture, reliable in efficiency, effective in soil cultivation, as it is based on the improvement of flat-cut legs, widely used in agricultural production, and can be widely used in the field of agricultural engineering, in particular in the modernization of tillage machines for surface and deep baseless loosening the soil.

 The use of the invention improves the efficiency of soil cultivation, improving the quality of dyeing and loosening while maintaining its humus layer.

Sources of information
1. A.S. USSR 1375148, A 01 B 35/22, 1989

 2. A.S. USSR 1482546, A 01 B 35/02, 49/02, 1989

 3. A.S. USSR 1192649, A 01 B 35/24, 35/26, 1985

Claims (1)

 Tillage working body, including the stand, the hand bed, the base and rotating disks mounted along the base in a row, characterized in that it is equipped with plowshares fixed in front of the disks at an angle α to the base, and the front face of the rack and the frontal surface of the narral are made in the form of a triangular prism and wedge , respectively, with sharpening angles α, while the disks are round in shape with a cutting edge at an angle β, are installed with the possibility of horizontal rotation without overlapping and are equipped with additionally installed and their surfaces with cutting knives and cultivators, and in the lower part with scrapers, in addition, the knives are made in the form of plates with a curvature along a logarithmic spiral with left- and right-descending branches and a T-shape in cross section and have bilateral sharpening at an angle β, The rippers are made in the form of a cone with an angle of sharpening β and a height equal to twice the height of the knives, and are located on the disks between the knives at the same distance from the axis of the disks, disks with left- and right-descending branches are mounted alternately on the base, and their drive has zhinu torsion.

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