Science and world
ISSN 2308-4804. Science and world. 2021. № 12 (100). Vol. II
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Science and world № 12 (100), December, Vol. II (2)
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ISSN 2308-4804. Science and world. 2021. № 12 (100). Vol. II.
41 impact of the working bodies of the sowing unit on the seeds in the hopper. An example is the spool seeding machine developed by H.A. Oleinik (A.C. 1727616, 1990), a single-coil seeding machine for several crops with different seed sizes P.V. Sysolina (application for A.C 1601968, 1972), sowing machines of seeders of modifications C3-3,6 (1971) for small-seed crops. Continuous seeding machines include the Webb precision seeder disc seeding machine (Great Britain), as well as the Fendt disc seeding machine (Denmark). In continuous-action machines, special pads are used to regulate the seed rate for seeding, which are engaged in opening rows with the required number of cells (other rows are closed). Mechanical seeding apparatuses include the seeding apparatus of the group of authors of the precision seeding drill with a seeding disc (A.S. 1371565, 1988) and the screw-type apparatus of V.A. Khodorevsky (A.S. 180866, 1966), as well as the poppet – scraper seeding apparatus (developed by A.D. Seleznev, A.A. Yatskevich). Common disadvantages of all domestic (developed during the USSR) mechanical seeding machines: difficulties in setting up seed sowing of various crops, difficulties in maintaining stable operation at high speeds, as well as instability in seed dosing [9]. According to publications related to research in the field of agricultural machinery, it can be noted that vibrating mechanical sowing machines are marked as promised. When vibration takes place (oscillatory movements with high frequency and low amplitude), the bulk materials (seeds) behave like "viscous liquids", and flow freely and evenly out of the container. The advantages of vibrating mechanical seeding machines over other methods are: resistance to external factors; destructive forces between individual elements of the body; the possibility of changing the vibration modes and the amount of mass being moved; vibration can be caused by various methods (mechanical, electromagnetic, pneumatic or hydraulic) [3]. One of the most striking examples of a mechanical vibrating seeding machine is a seeding machine with a complex design (developed by a group of authors under the leadership of A.C. Vishnyakov), where seeds pass through the hopper-dispenser-rod system through a system of metering dampers (RF patent No. 2310311, 2007) [9, 11]. The design of Kudryavtsev N.E. also belongs to the category of the vibrating sowing device, where, under the influence of vibration, the seeds are selected by the beveled end of a hollow tube and fed into the seedpipe in the form of a chain. The design of Antonov N.V. also belongs to this group, where the vibrating element is made in the form of a tray, and with a change in the angle of inclination of the tray, the seeding varies widely. The device of N.V. Szegeda is made according to the tray type, it also has an elastic fixed plate (under the action of a vibrator, it makes high-frequency movements) and as a result, the device evenly pours out seeds in comparison with the coil device. The seeding machine of Kuznetsova R. G. also belongs to this category, and consists, like all devices, of a hopper, as well as a bottom with calibrated seeding holes. The oscillation in this case is fed to the bottom and the seeds pass through the holes in the seed ducts. The design is suitable for uniform seeding of non-loose grasses. In addition to the listed sowing machines, there is a category of vibrating ones and the development of the Romanian authors of the MJC-1 seeder with a vibrating hopper, a vibrator and a spreading disc. The vibrating seeding machine of JSC ANITIM is made in the form of a short cylinder with walls (side), the inner part of the housing on the shaft is mounted with a vibrating bottom (it oscillates with a certain frequency and amplitude). All the listed designs of seeding machines of this category have a number of significant disadvantages, such as: the inability to dose the flow of small seeds, the difficulty of creating flows for several seed lines [3]. Seed vibration dosing systems are not widely used in global production, but they can certainly be considered promising, as they were about a century ago (taking into account electronic process control systems). Some authors have tried to use pneumatic sowing machines for sowing agricultural crops. For example, this problem was dealt with by V.I. Alexandrov (1930s), later I.L. Slutsky (1943) proposed the design of a pneumatic sowing machine for sowing grain, which is a hollow cylinder with holes. When vacuum was created in the cavity of the rotating cylinder, the seeds were sucked into the holes outside the cylinder and removed from the hopper. Gradually, such devices turned into precision seeding machines, but did not take root in grain seeders due to the complex design, as well as low productivity [5]. Hydraulic seeding machines consist of a hydraulic sprayer in the form of a coil, a sprayer and an aerosol generator. Main disadvantage of such devices is the inability to work with hygroscopic materials like mineral fertilizer. In this direction, work was carried out both abroad and in the post-Soviet countries, but despite this, this type of seeding apparatus was not widely used [12]. Electric seeding machines are supposed to use the latest technologies and technical means, tools based on physical and technical methods of using electricity. Electricity has the highest power when converted to other forms of energy, high concentration per unit volume and mass of electrical installations, easily divisible by type, power and voltage, flexible control and remote transmission, high hygiene and environmental safety. In this regard, in the future, the existing technologies will be replaced as much as possible by electrical technologies, in which the working body can be a direct method of electrical energy, voltage, current, electromagnetic field, etc. The most common seeding apparatus is electromechanical devices, where electricity serves to drive the organs, and mechanics for capturing and transporting seeds, but there are variants of devices in which using electricity improves seed capture and transportation [8]. As described above, the complex technological process of growing agricultural crops, including forage crops, is inextricably linked with the high-quality functioning of the sowing apparatus of the seeder family. From the perfection of the design of the sowing machines, from its technical condition, as well as the correct setting in the literal sense, first, the quality of sowing, and ultimately the yield of agricultural crops depend. In the CIS countries, there is a reduction in the market for seeders.Farmers rely on spare parts and repair of sowing machines. There are many reasons, imported products at an unaffordable price, and domestic ones (Russia, |
