RU2195797C2 - Overall tillage tool - Google Patents

Abstract

FIELD: agricultural engineering. SUBSTANCE: tillage tool has frame, carrier wheels and working members: flat hoes, rolls and sweep. Cylindrical levelers are arranged on frame in two rows at an angle to tillage tool advancement line in conjunction with hoes. Rotation rolls and rotating chain-type sweep are positioned rearward of hoes. Tillage tool of such construction is used preferably for tillage of fallow lands. EFFECT: improved quality of tilled soil. 7 dwg

Description

 The invention relates to agricultural machinery, in particular to cultivators for continuous tillage, for example, steam field care.

 A well-known cultivator for continuous tillage (see Solovyov IB. Non-chain cultivators for continuous tillage KSHU-12, KSHU-18, - (inf. Sheet. - ПКО 4528. - VNIPTIMESKH, PMG, 1984.-3 p.) , including a frame consisting of a central, two lateral and two extreme sections; support and transport wheels; adjustment mechanisms; working bodies (lancet paws and rotors).

 The disadvantages of the known cultivators for continuous tillage include the fact that when they work on steam fields, the moist layers of the soil are significantly removed to the day surface, a moisture-saving layer is formed unsatisfactorily in one pass of the cultivator.

 Known cultivator for continuous tillage (see inf. Sheet. A.O. "Red Aksai". Trailed wide-cut cultivator KPK-8.0. Rostov-on-Don. 1999. - 2 pp.), Including a sectional frame, support - transport wheels, adjustment and control mechanism, working bodies (loosening paws, behind which a compacting-ripping roller attached to the frame is placed).

 The disadvantages of the known cultivator for continuous tillage include the fact that during tillage in the spring-summer period, namely during pre-sowing and during steam care, a significant amount of moist soil is brought to the day surface of the cultivated field, the moisture of which within 2 hours completely evaporates. Moisture removal by this cultivator is due to a number of technological and design flaws that lead to intensive overhang of crop residues and parts of trimmed weeds, which even with vibration devices are unsatisfactorily thrown from the racks.

 The technical result is an increase in the quality of processing steam fields.

 To eliminate these shortcomings and achieve a technical result, round sections with two cylindrical racks mounted in two rows at an angle to the cultivator line of movement are fixed on the frame sections, while the loosening legs are fixed on the levelers and installed in a checkerboard pattern so that between each paw of the first and second row there is a gap equal to the width of the paw and increased by 2-4 cm, in addition, in the inoperative zone of the levelers there is a node that rigidly connects them with the racks, and behind the roller a loop fixed on it is made, made in the form of links with teeth.

 The installation of equalizers on paired racks of circular cross-section provides an increase in the reliability of the technological process of continuous processing, since plant residues are much better off the circular racks. This provides a reduction in gross formation and mixing of the upper layers with the lower, wet.

 Setting the loosening paws on a cylindrical leveler with gaps equal to the working width and increased by 2-4 cm allows continuous processing with leveling the soil before working the loosening paws, which ultimately allows you to get a uniform loosened soil layer in depth, in the longitudinal and transverse directions.

 The arrangement of levelers with paws according to the scheme in two rows, in a checkerboard pattern and at an angle to the line of movement of the cultivator, makes it possible to carry out continuous cultivation and crumbling of the soil to a given depth and leveling it without moving it to the day surface of the cultivated field.

 Placing in the inoperative zone of the junction of the rake paw racks with the leveler so that the shield is inclined at an angle to the horizontal plane, and the paw blades are located at an angle to the line of movement during operation, reduces the removal of wet layers on the day surface, and increases the indicators characterizing wind resistance of the soil surface , because the working body with such a sequence of arrangement of elements (racks, guard, loosening paws and levelers) less plows the crop residues in the soil, creates a must Ovia for a smaller moisture evaporation from the soil, retains its structure.

The combination of the work of the leveler and loosening paws with the simultaneous operation of the roller and the rotating chain loop allows for forming a top dry soil layer in one pass of the cultivator with the following parameters: aggregation - 0.25-3 mm; density - 0.7-0.9 g / cm ³ ; porosity - 60%, which provide better moisture absorption in the lower horizons of the soil of atmospheric precipitation and their better conductivity deep into the treated soil layer than in other conditions.

 In FIG. 1 shows a diagram of a cultivator for continuous tillage (side view).

 Figure 2 shows the same cultivator (top view).

 In Fig.3 - the working body of the cultivator (side view).

 Figure 4 shows a section aa of figure 3.

 Figure 5 - loosening paw (side view).

 Figure 6 is a cylindrical equalizer coated with fluoroplastic.

 Fig.7 is a section bb In Fig.6.

 The cultivator for continuous tillage has a sectional frame: a central 1 and two lateral 2, 3, interconnected by hinge axles 4 and hydraulic cylinders 5 located across the cultivator center line, and supporting-transport wheels 6, the first wheels are mounted on the side frames, and the second - on the central, in addition, the central frame has a spoke 7 and longitudinally mounted hydraulic cylinders 8 connected to the central frame and the axis 9 of the support and transport wheels 6. On the central and side frames, ripper launchers are arranged in two rows in series s 10, sealingly-loosening roller 11 and the rotatable stub 12 with links 13 and 14 teeth.

 A distinctive design feature of the cultivator is not only that it is equipped with loosening legs 10, a compacting-loosening roller 11 and a loop 12, links 13 with teeth 14 of which rotate from interacting with the soil, but also that the levelers 15 are covered with fluoroplastic 16 and perform functions holders of loosening legs 10 and are made cylindrical, located at an angle α to the line of movement of the cultivator, and the node 17 connecting the levelers and racks of the shield 18 of the loosening legs 10 is located in the inoperative zone of the cylinder Skogen equalizer 15. When performing the role of an equalizer, he is at the very day the horizontal plane of the soil.

 In addition, the cultivating paws 10 are mounted on cylindrical equalizers 15 so that between each paw of the first and second row there is a gap equal to the width of the paw and increased by 2-4 cm.

 The technological process of the cultivator with the proposed sequence of working bodies is as follows.

 When the unit moves in the working position, the sections of the side frames 2, 3 are in the horizontal plane, as well as the central 1. The working bodies are the loosening legs 10 and the guard 18, are deepened to the set depth, the rollers 11 touch the soil surface as well as the links 13, cylindrical levelers 15 level the surface of the soil, loosening paws 10, an inclined flap 18 cut the formation and weeds, crumble the soil; the roller-ripper 11 compacts the soil, and the teeth 14 and links 13 of the rotating plume 12 mulch the upper layer, level the soil surface.

 With this performance of the surface treatment technological process, even from the middle soil layers (below 4-6 cm) moisture is not carried out to the day surface, and the layers of moist soil below 6 cm are covered by a well-loosened, leveled upper layer, which makes it possible to retain moisture in the root habitat for a long time the horizon.

 In addition, the soil particles do not increase the number of soil particles <1 mm, which ensures environmental stability in the area of application of the cultivator for continuous processing.

 It should be noted that fluctuations in wind speed in the surface soil layer interacting with the surface formed by the proposed set of working bodies cannot destroy soil particles to fractions <1 mm, since after work of the cultivating paws, rollers and a rotating plow, crop residues do not penetrate deep into soil, and bonding with the top layer 6 cm thick, most of them remain above the soil surface in a standing, inclined or horizontal position.

 Thus, the use of a cultivator for continuous tillage during steam care and during pre-sowing treatment does not violate the ecological balance of the environment.

Claims (1)

 Cultivator for continuous soil cultivation, including a sectional frame, cultivating paws fixed to the frame, behind which there is a compacting-cultivating roller attached to the frame, supporting transport wheels and an adjustment mechanism, characterized in that circular sections with two sections mounted on the frame sections rows at an angle to the line of movement of the cultivator with cylindrical levelers, while the loosening legs are fixed to the levelers and are staggered so that between each leg is aligned At the first and second row there is a gap equal to the width of the paw and increased by 2-4 cm, in addition, in the inoperative zone of the levelers there is a node that rigidly connects them with the racks, and a loop mounted on it is installed behind the roller in the form of links with teeth.

Images