RU2127965C1 - Soil tillage tool - Google Patents

Abstract

FIELD: agriculture, in particular, presowing treatment of soil adapted for different crops, may be used for tillage of interrows in gardens, vineyards, berry-fields and seedling growing nurseries. SUBSTANCE: soil tillage tool has frame, carrier wheels, hitch for tractor, subsoilers and two rows of batteries with combined working tools, such as spherical semidisks, trapezium-shaped sleeves and L-shaped rotary cutters, which are fixed on flanges independently and isolated one relative to another in spaces between pairs of semidisks. Adjacent pairs of semidisks are arranged so that their convex surfaces are faced one to another to improve quality of tilled soil and provide complete tillage across the whole width of tillage tool. Axes of batteries are connected with their ends to carrier wheels of tillage tool through chain transmission having transmission ratio value exceeding known value by at least 1.5-2.0 times. Such construction allows soil profile to be leveled. EFFECT: increased efficiency, improved soil tillage quality, intensive weed control and improved field relief leveling. 2 cl, 2 dwg

Description

 The invention relates to the field of agricultural engineering, in particular to implements with combined working bodies for presowing soil preparation for various crops.

 Known combined soil-cultivating implements composed of disk batteries and flat-cutting legs, or loosening legs. As an analogue, the Combined Tillage Tool by A.S. USSR N 519154. Also known device for and.with. USSR NN 184020, 152978, 747667, as well as French patent N 2267688 and others.

 As a prototype adopted "Tillage" by and.with. USSR N 1380633, class A 01 B 49/02 dated 03.15.88, in which cut spherical half-discs are used on parallel shafts with trapezoidal bushings so that adjacent in a row and between rows they are diametrically opposed to each other in longitudinally-vertical and transverse vertical planes, and the angle a solution of adjacent half-disks between the rows is located in the direction of movement of the gun.

 The disadvantage of the prototype is the presence of a blemish formed in the spaces between adjacent half-disks located concave to each other in both the front and rear rows of batteries. In addition, for one full revolution during rotation, the half-disk shovels the soil halfway through the sweep and, therefore, between the front and rear rows there will be flaws in the direction of translational movement along the width of the gaps of 1, 3 and 5 pairs of front and back rows of batteries.

 Thus, the presence of flaws does not provide high quality soil cultivation, weed control, their incorporation into the soil, and the smoothness of the background surface of the soil after the passage of the implement.

 The proposed device improves the design of the prototype, eliminating its inherent disadvantages through the use of 3 types of combined working bodies - stabilizing the stability of the depth of travel of cultivating paws with a sequential symmetrical arrangement in the front row, spherical notched half-discs and located between their pairs in the second and third rows of G- shaped milling knives. In addition, the prototype device will also improve due to the drive of the barrels with cut-out spherical half-disks and L-shaped milling knives with a chain transmission from the support wheels of the gun with the ability to control the gear ratio from 1: 1 to 1: 1.5 and 1: 2 by changing the sprockets with the corresponding number of teeth only on the axles of the support wheels.

 The aim of the invention is to improve the quality of processing of heavy and clogged soils, the intensity of destruction of weed vegetation and improve the alignment of the field surface.

To achieve this goal, the device has the following distinctive features:
- a sign relating to the location of the loosening legs in series with a symmetrical arrangement on the frame in the front row so that the intermediate middle leg lies on the line of intersection of the centers of gravity of the implement and tractor and, at the same time, all the legs are removed at an equal distance from each other and lie in the same the transverse vertical plane of motion with the axes of rotation of the support (more precisely, support with the installation of a predetermined depth of the working bodies of the implement) wheels or, more precisely, the support-drive wheels of the implement;
- a sign relating to the execution of half-disks cut, due to the need for better treatment of heavy and clogged soils by grinding large lumps and fractions of the soil, as well as the destruction of weeds and plant debris with their incorporation in the soil layer due to the combination of half-disks with L-shaped milling knives;
- a sign of independently installed between each pair of half-disks of the second and third rows of batteries of L-shaped milling knives so that they are located in the intervals of the half-disks of each pair concave to each other;
- a sign relating to the implementation of the gear ratio with the ability to control the rotation speed of the batteries of the second and third row of cut half-disks with L-shaped milling knives due to the additional chain transmission with a gear ratio from the support-drive wheels of the implement, which is increased by 1.5 and 2 times, which is realized by replacing sprockets on the axes of rotation of the drive wheels of the sprockets with the required number of teeth 1.5 or 2 times, provided that the number of teeth of the driven sprockets remains constant on the axes of rotation of the batteries of the second and retego rows of cut spherical half-disks with L-shaped milling cutters.

 In FIG. 1 shows a tillage implement, top view; in FIG. 2 is a view aa of FIG. 1.

 The tillage implement consists of a frame 1, a three-point attachment 2 to the tractor and support wheels 3. On the frame 1 in the front row there are loosening legs 4 on the vertical racks, and under the transverse bars of the frame 1 are placed at the front and rear along the edges of the holes 5 in the holes 5 vertical racks 6 with roller bearings 7, fixed rigidly by means of nuts 8 and supporting two rows of batteries with horizontal shafts 9, on which spherical half-disks 10 are mounted with one-sided sharpening along the edge 11 of the cut side of rotation, mounted on a truncated trapezoidal bushings 12, and between each pair of half-disks mounted L-shaped milling knives 13, mounted on the flanges 14. The shafts 9 are interconnected by a chain gear 15 with sprockets 16 and 17. Intermediate sprockets 17 are in turn connected by a chain gear with leading asterisks 18 mounted on the axles of the supporting-drive wheels 3.

 The technological process of work consists in the following: during translational movement of the tractor unit, the soil-cultivating implement is lowered in the working position with a predetermined processing depth, and first, loosening legs 4 are deepened to full depth, followed by deepening of spherical half-disks and L-shaped milling knives 10 and 13, which are held at specified depths by wheels 3 and simultaneously carry out additional rotation of the shafts 9 by means of an additional chain transmission from sprockets 18 to the star chkam 16 and 17; loosening legs 4 loosen the soil at a certain distance (autonomously with an independent deformation zone that is not in contact with each other) and carry out the function of stabilizing the stability of the movement of the gun in the horizontal-vertical plane due to its symmetrical and consistent arrangement on the frame 3 along the working width relative to the set followed in the second and third rows by pairs of half-disks and L-shaped milling knives 10 and 13; cultivating paws 4 at a deeper depth process three independent soil monoliths along the working width, the middle paw moving along the line of action coinciding with the longitudinal axis of symmetry with the center of gravity of the implement and the tractor, followed by paws 4 at a predetermined lower depth, the soil is treated with spherical semi-disks 10 and milling knives 13 of the second and third rows over the entire working width without any flaws, and with an additional synchronous increased rotation, providing high quality cut eniya large fractions of the soil and kill weeds with their incorporation in the top layer to be treated. At the same time, spherical half-disks 10 shovel the soil, destroying large lumps and cutting off the weed vegetation left in the treated layer, and milling knives 13 loosen the blemishes area while simultaneously grinding plant residues in the soil layer, which, in combination with half-disks, create a level surface surface over the entire working width .

Thus, the high economic effect is ensured by the design and technological features of the device:
- a short longitudinal base of the combined implement, which allows to significantly increase its maneuverability and ease of control with the tractor on bends, a significant reduction in metal consumption per meter of working width for existing combined tillage implements and heavy disc harrows, lack of drive from the tractor power take-off shaft to active working bodies - half discs and milling knives, the ability to work at higher speeds with intensive crumbling of the soil without large spraying;
- combining operations with the possibility of replacing and eliminating plowing, minimizing the treatment during pre-sowing operations of soil preparation for various agricultural crops, high quality of crumbling soil, destruction and incorporation of plant debris in the soil layer, the formation of a leveled surface of the field and the expansion of operational performance indicators also in orchards and vineyards.

Claims (2)

 1. A tillage implement containing a frame, a linkage mechanism, support wheels, a chain drive and successively loosening legs and two rows of batteries in the form of horizontal axes with cut spherical semi-disks with one-sided sharpening of the cut edges of each and trapezoid bushings, characterized in that it is equipped autonomously mounted flanges with L-shaped knives fixed to them on the front and rear shafts in the intervals of spherical half disks concave to each other.  2. The gun according to claim 1, characterized in that the axis of the batteries are connected at the ends with the supporting wheels of the guns by a chain transmission with a gear ratio increased by at least 1.5-2.0 times with the possibility of regulating the latter.

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