RU2222131C2 - Tilled crop cultivation method and apparatus - Google Patents

Abstract

FIELD: agriculture, in particular, cultivation of roots during preemergence and postemergence growing periods. SUBSTANCE: method involves preliminary cutting of narrow ridges; embedding seeds in ridges; caring for young crops by providing inter-row tillage procedures by cultivator; during presowing period after cutting of ridges, forming beds by acting upon ridge top with the use low-speed horizontal cutters for forming of 0.005-0.5 m depth seed beds; also, during care stage, providing stage-by-stage increase in the height of ridges and simultaneously increasing their width while forming bed side inclination angle of 10-89 deg with respect to bed vertical axis. Apparatus has mobile power unit and cultivator composed of sections mounted on bars. Each section is composed of slitter and disks-coverers arranged rearward of slitter and equipped with circumferential mellowing members. Ribbed drums are positioned behind sections and provided with mellowing members mounted on ribs. Tip of each mellowing member of disk-coverer is spaced from vertical plane extending through horizontal and vertical axes of symmetry of section by greater or equal distance than base. Angle β and height of arrangement of disk-coverer are adjusted by means of adjustment unit. EFFECT: simplified method and process, improved quality of soil mellowing during presowing period by inter-row tillage procedure and reduced labor intensity. 3 cl, 7 dwg

Description

 The invention relates to agriculture, in particular to methods and devices for cultivating root crops in both pre-emergence and post-emergence periods.

 A known method of caring for planting potatoes and a device for its implementation / 1 /. Loosening of the top of the ridge is carried out before hilling, and after hilling, loosening of the subsoil layer on the sides and top of the ridge is carried out with the simultaneous formation of the profile of the ridge. The device for the care of planting potatoes contains okuchniki and conical tooth drums located behind each of them on the horizontal axis. In addition, the device contains two more dental drums located on the longitudinal axis of symmetry of the device between adjacent ridges, with one drum placed in front of the ridgers and the other behind the conical drums.

 The disadvantage of this method and device is as follows. The method does not allow to obtain a sufficiently low soil density in the zone of the root system, and the design of the device is quite complicated.

 There is also known a method of cultivating crops / 2 /, including the formation of narrow-profile trapezoidal ridges based on the calculation of single-line or two-line sowing of seeds in them, fertilizing in ridges, and fertilizers are embedded in the soil layer displaced into the ridges during their formation from the furrow zone with equal volume displaced soil and ridge volume above the soil surface. After this, the surface of the displaced soil layer is compacted into the ridges and the seeds are sown at a distance of 4-10 cm from the nearby edge of the ridge.

 The disadvantage of this method is that in the upper part of the ridge the seed bed is not performed, which leads to a deterioration of soil aeration, a decrease in yield and product quality.

 The closest in technical essence to the claimed method is a method of growing potatoes / 3 /, including preliminary cutting of narrow ridges, planting tubers through them one by one, and planting care by inter-row cultivator cultivations with extension of the ridges in width, and inter-row cultivation will be carried out by layer-by-layer loosening of each row-spacings with three-tier hills, first in the middle to a depth of 8-9 cm, and then on both sides of the first track of the hiller to a hinterland of 17-18 cm with the formation of a protective zone from the landing a row with tubers equal to 15-16 cm, and again in the middle to a depth of 8-9 cm, while the hills on the cultivator are arranged in three rows with a distance between the first and second rows of 40-45 cm. In addition, after loosening the soil, the top of the ridge level with tooth rippers.

 The disadvantage of this method is the lack of the operation of preparing the seed bed in the upper part of the ridge, which leads to a deterioration of soil aeration, a decrease in yield and an increase in plant damage by diseases and, in general, a deterioration in product quality (formation of irregularly shaped potato tubers, etc.) .

 The closest in technical essence to the claimed device is a device for growing potatoes, described in / 4 /. The device consists of a power tool and a cultivator. The working bodies of the cultivator contain front sections mounted on bars. Each section consists of a slit-forming machine and low-speed right and left front milling cutters located behind it, which are shorting discs with loosening elements on their periphery, and the right and left milling cutters are located symmetrically with respect to the vertical plane passing through the horizontal axis of symmetry of the section, which coincides with the horizontal axis row spacings symmetry. Behind the front sections are low-speed horizontal milling cutters, which are ribbed drums with loosening elements mounted on their ribs.

 The disadvantage of this device is that it does not allow to form a seed bed in the pre-sowing period, as well as to raise the front mills at the same time as adjusting their angle of attack.

 The aim of the invention is to improve the quality of loosening the soil in the pre-sowing period and during inter-row cultivations and, as a result, improve soil aeration, increase productivity and improve the quality of agricultural products.

 This goal is achieved by the fact that in the method of cultivating row crops, including preliminary cutting of narrow ridges, seeding them with seeds and caring for crops by inter-row cultivators, the working bodies of which have frontal and horizontal low-speed mills, in the pre-sowing period immediately after cutting ridges from them form ridges by acting on the upper part of the ridge with low-speed horizontal cutters, creating a seed bed with a depth of 0.005-0.5 m.

In addition, during the care of crops, a stepwise increase in the height of the ridges is carried out with a simultaneous increase in their width while providing a slope angle of the sides of each ridge of 10-89 ^o relative to its vertical axis by specially adjusting the angle of attack and the height of the frontal low-speed mills of the cultivator.

 This goal is also achieved by the fact that in the device for growing row crops, consisting of a mobile energy tool and a cultivator, the working bodies of which contain front sections mounted on bars, each of which consists of a slot former and low-speed right and left front mills located behind it, consisting of zagotachi disks with loosening elements on their periphery, the right and left milling cutters being located symmetrically with respect to the vertical plane passing through th the horizontal and horizontal axes of symmetry of the section, while the horizontal axis of symmetry of the section coincides with the horizontal axis of symmetry of the row spacing, and low-speed horizontal milling cutters located behind the front sections, which are ribbed drums with loosening elements mounted on their ribs, the end of each loosening element of the shortening disk is located relative to a vertical plane passing through the horizontal axis of symmetry of the cultivator section, at a greater or equal distance than its base nie.

 In addition, in the device for adjusting the angle of attack and the height of the front low-speed milling cutters, the front section further comprises an adjustment unit, consisting of a bracket with a hinge (s) located in its upper part, and holes made below the hinge along an arcuate path, two racks with screwdriving discs are fixed to the hinge, while the bracket is located between the two racks and is connected to them by means of a spring assembly with a latch (s).

 Figure 1 shows a vertical section of a ridge formed by frontal low-speed milling cutters; figure 2 is a vertical section of the ridge formed from the crest of the horizontal low-speed mill; figure 3 is a vertical section of the ridge in the post-emergence period; figure 4 is a top view of the front sections; figure 5 - diagram of the device; figure 6 is a view of figure 5; Fig.7 is a view In Fig.6.

The method of cultivating row crops consists (Fig. 1) in preliminary cutting of narrow ridges 1 using frontal low-speed milling cutters 2 (linear speed of the ends of working bodies 2 to 20 km / h). Directly after cutting ridges 1 of them form ridges 3 (Fig. 2) by acting on the upper part of each ridge 1 with a low-speed horizontal milling cutter 4, creating a seed bed 5 in the upper part of ridge 1 with a depth of h = 0.005-0.5 m. the period of care for the crops carry out a stepwise increase in the ridge 3 while ensuring the angle α of the slope of the sidewalls 6 of the ridges 3 (Fig. 3), equal to 10-89 ^o , relative to its vertical axis by specially adjusting the angle of attack β (Fig. 4) and the height of the front mills 2.

 The device consists of a mobile power tool and a cultivator. Each section 7 consists of a slotting device 10 (the working part of which is made in the form of an arcuate, lancet elements, etc.) and the right-hand 11 and left 12 (frontal) milling cutters 2 (Fig. 6) located behind it, which are zagotachi 13 with loosening elements 14 at their periphery, the right 11 and left 12 cutters are symmetrically relative to the vertical plane passing through the horizontal 15 (figure 4) and vertical 16 (figure 6) axis of symmetry of section 7, and the horizontal axis of symmetry 15 of section 7 coincides with the horizontal axis s row spacing Behind the front sections 7 there are horizontal milling cutters 4, which are ribbed drums 17 with loosening elements 18 installed on their ribs 18. The end of each loosening element 14 is its working part in contact with the soil, and the loosening element 14 is attached to the grounding disk 13 with the base.

 The end of the loosening element 14 is located relative to the vertical plane passing through the horizontal 15 and vertical 16 axis of symmetry of the cultivator section 7 at a greater or equal distance than its base.

 To ensure the implementation of the ridges immediately after cutting the ridges on the lower rigid rods 19, a device 20 is installed to increase the pressure of the horizontal mills 4 on the ridge, which can be made in the form of boxes with sand, molten loads mounted on the cross between the rigid rods 19, etc.

 In addition, to adjust the angle of attack β and the lift height of the front low-speed cutters 2, the front section 7 further comprises an adjustment unit (Fig. 7), consisting of an arm 21 with a hinge 22 located in its upper part and holes 23 made below the hinge 22 arcuate trajectory. Two racks 24 are fixed to the hinge 22 with screwdriving disks 13, while the bracket 21 is located between two racks 24 and is connected to them by means of a spring assembly 25 and a special latch 26.

 The device operates as follows. The cultivator moves along the prepared field with the help of an energy tool, and in the process of moving with a slotting machine 10 and frontal mills located behind it 11 and left 12, which are zagotachi disks 13 with loosening elements 14 at their periphery, narrow ridges 1 are formed. Immediately after cutting narrow ridges 1 in the pre-sowing period, the upper part of the narrow ridges 1 is affected by low-speed horizontal milling cutters 4, forming from the ridges 1 ridges 3, the upper part of which is mennoe bed depth of 0.005-0.5 m.

Sowing (planting) seeds of row crops is carried out either directly on the day of formation of the ridges or within 7 days after their formation (in the spring). During the period of crop care (pre-emergence period) using slotting machines 10 and frontal cutters 11 and 12, a stepwise increase in the height of the ridges is performed with a simultaneous increase in their width while providing a slope angle α of the sides of each ridge 10-89 ^o relative to its vertical axis by specially adjusting the angle of attack β and the lifting height of the front low-speed milling cutters 2, and the slope angle α can both increase in the process of caring for the crops, and remain the original depending on the cultivated crop. For example, for potatoes, the slope angle α increases from 10 ^o to 85 ^o , and for carrots when planted with high-precision seeders, the slope angle is in the range of 30-60 ^o .

 At the same time, for some row crops, for example potatoes, in the pre-emergence period (blind hilling) immediately after the front cutters 2, horizontal mills 4 act on the soil, and in order to exclude damage to plants in the post-emergence period, horizontal mills 4 are not used.

 The depth of tillage during the preparation of ridges and during row-spacing treatments is regulated by raising and lowering the support wheels of the cultivator.

 The implementation of the seed bed in the upper part of the ridge (the formation of a loose layer with a thickness of 0.005-0.5 m) allows you to increase soil aeration, hold moisture, create favorable conditions for the development of the root system (and for potatoes and stolon growth), etc., which ultimately accelerates the development of plants, increases productivity and improves the quality of agricultural products by stabilizing the factors of plant life support.

 The implementation of the seedbed allows, for example, when growing potatoes to reduce energy costs for harvesting, as well as to reduce the loss of tubers behind the combine, since when harvesting the knife of the combine easily separates the layer of loose soil under the tubers from the layer of unprepared soil below the seed bed.

 Adjusting the angle of attack of the front cutters with their simultaneous rise allows you to create a volumetric ridge of the required height, which contributes to the integrated protection of, for example, potato tubers from late blight.

Sources of information
1. A. p. USSR 1500177, IPC A 01 B 79/00, 21/04, 13/02, 49/02, publ. 01/15/89

 2. Application 970388 of July 15, 1997 for the grant of a patent of the Republic of Belarus for the invention of "Method for the cultivation of agricultural crops", IPC A 01 B 79/02, publ. 03/30/99 g.

 3. A.S. USSR 1584781, IPC A 01 B 79/02, A 01 G 1/00, publ. 08/15/90 g.

 4. A positive decision on the grant of a patent of the Russian Federation for the invention RU 2125783 "A method of growing potatoes and a device for its implementation" (by application 97112710/13 of 08/05/97), IPC A 01 B 79/02, publ. 02/10/99

Claims (2)

1. A method of growing row crops, including preliminary cutting of narrow ridges, seeding them in seeds and caring for crops by inter-row cultivation, characterized in that in the pre-sowing period immediately after cutting ridges they form ridges by impacting the upper part of the ridge with low-speed horizontal milling cutters creating a seed bed with a depth of 0.005-0.5 m, while in the period of care for crops, a stepwise increase in the height of the ridges is carried out with a simultaneous increase in their width while ensuring an angle of inclination sidewalls and the ridges 10-89 ° about its vertical axis. 2. A device for cultivating row crops, consisting of a mobile power tool and a cultivator having sections, each of which has a slot former and located behind it discs-loosers with loosening elements on their periphery and a unit for adjusting the angle of attack and height of rise, are located symmetrically with respect to the vertical plane passing through the horizontal and vertical axis of symmetry of the section, while the device has a ribbed drum located behind the shorting discs mounted on its ribs by loosening elements, characterized in that the end of each loosening element of the zagotachka disk is located relative to the vertical plane passing through the horizontal axis of symmetry of the cultivator section at a greater or equal distance than its base, while the knot adjusts the angle of attack and height of rise zagortachi disks has a bracket with a hinge located in its upper part and holes made below the hinge along an arcuate path, moreover, zagotachi disks are fixed on the hinge e by means of two struts, and the bracket is placed between the racks and connected to them by means of a spring assembly with a lock.

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