Збірники наукових праць ЦНТУ
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Item Травмування зерна пшениці зерноочисною машиною ОВУ–25 та шляхи його зниження(ЦНТУ, 2019) Писарькова, І. О.; Писарькова, И. О.; Pisarkova, I.Проведені дослідження з визначення рівня механічного травмування зерна при первинному очищенні машиною ОВУ–25. Отримана залежність коефіцієнта пошкодження (Kп, %) зерна від вологості (W, %) в різних зонах машини. Данні служать для вибору геометрії поверхонь робочих органів очисника вороху з метою зниження травмування зерна. Проведены исследования для определения уровня механического травмирования зерна при первичной очистке на машине ОВУ–25. Полученны зависимости коэффициента повреждения (Kп,%) зерна от влажности (W,%) в разных зонах машины. Данные служат для выбора геометрии поверхностей рабочих органов очистителя вороха с целью снижения травмирования зерна. nvestigation of the influence of the operating and transporting parts of the universal heap cleaner OVU-25 on damage and seed quality in order to ensure minimal influence of the operating parts of technical means on grain material in preparation for long-term storage due to repeated processing on technological equipment. The zones of greatest influence of the operating parts of grain cleaning machine OVU-25 in contact with the particles of the processed material are determined. Experimental studies were conducted to identify the level of mechanical damage of the grain during the initial cleaning by this machine. The quantitative composition of the operating parts and their technological characteristics were determined. The experimental data of the damage factor (Kp,%) of grain from humidity (W,%) in different operating zones of the machine on the basis of which graphical dependences were obtained. The influence of technological parameters of the operating parts on damage of grains was also identified. It has been established that the maximum damage of grain occurs in contact with the scrapers of conveyors, and the least damage occurs in the aspiration channels of the air purification system. Factors affecting the damage to the particles of the treated material were also investigated and identified. It is established that the damage of grains is influenced by the conditions of their contact with the surfaces, the characteristics of the contact surfaces, the length of the path of movement of the material, the speed of its movement and strokes during the cleaning process. All these observations make it possible to identify the drawbacks of the technological schemes of similar grain-cleaning machines and to substantiate proposals for changes in the structures of operating and transporting parts, materials and geometry of contact surfaces. The data are used to select the geometry of the surfaces of the operating parts of the heap cleaner in order to reduce grain damage.Item Механічне травмування насіння(ЦНТУ, 2018) Скринник, І. О.; Пісарькова, І. О.; Петренко, М. М.; Скринник, И. А.; Писарькова, И. А.; Петренко, Н. Н.; Skrynnik, I.; Pisarkova, I.; Petrenko, M.Отримані залежності відношення нормальної до поверхні складової швидкості зернівки пшениці після удару по поверхні до швидкості удару (аналог коефіцієнта миттєвого тертя, від якого залежить травмування зерна) і коефіцієнта травмування насіння від швидкості удару поповерхні, кута її нахилу, матеріалу, геометрії, вологості зерна. Ці дані служать для вибору режимів роботи машин для післязбиральної обробки зерна і геометріїповерхонь їх робочих органів. Получены зависимости отношения нормальной к поверхности составляющей скорости зерновки пшеницы после удара по поверхности к скорости удара (аналог коэффициента мгновенного трения, от которого зависит травмирование зерна) и коэффициента травмирования семян от скорости удара по поверхности, угла ее наклона, материала, геометрии, влажности зерна. Эти данные служат для выбора режимов работы машин для послеуборочной обработки зерна и геометрии поверхностей их рабочих органов. The objective of the article is to establish the influence of various factors on the ratio of the normal to the surface of the wheat grain velocity component after impact on the impact velocity (the analogue of the coefficient of instant friction which influences grain damage). Another objective is the study of the dependence of damage in the process of its interaction with the surfaces of working elements of machines on speed impact with the surface, its tilt angle, material, geometry and grain humidity. It has been established that when the angle of impact of grain with the surface increases, then the normal component of velocity after impact is reduced. It determines the rate of the dynamic load on the grain. Therefore, with the increaseof the angle of impact, the proportion of damaged grains decreases. Under impact loads, the destruction (damage) of grains takes place due to stresses (tension) that occur in the place contact of grains and the surface. The tension is directly proportional to the impact force and inversely proportional to the contact area.The contact area depends on the rate of the elastic deformation of the bodies: grain – surface, which increases with the decrease of the elastic modulus of the surface materials and grains. With the increase in the velocity of impact, the restitution factor decreases because part of the energy of grain deformation goes to its local destruction. At the same time, the values of the coefficients of grain damage increase accordingly with increasing velocity (from 1 m/s to 11 m/s). When impacting with the outside surface of the cylinder, the damagecoefficient of the grain decreases with the increase in the angle of impact and the decrease in cylinder diameter. It mainly happens due to reducing the damage of the shell, as this reduces the time of contact of the grain with a convex curvilinear surface after impact. When the grain impactswith the inner cylindrical surface, the degree of grain damage increases due to the increase in the time of the slip of the grain on the surface. It was established that the percentage of grain damage is the smallest in the range of moisture of the grainsat W = 12.7-15.3%, which can be rational in the case of clearing wheat grains by machines. Reducing or increasing this rate leads to the increase in the percentage of grain damage. Therefore, grain damage during the impact can be reduced by choosing rational technological modes of operation, the geometry of surfaces of working elements of grain cleaning machines and their coatings.Item Транспортування зерна сої гвинтовими робочими органами під час збирання та післязбиральної обробки(ЦНТУ, 2018) Куликівський, В. Л.; Боровський, В. М.; Палійчук, В. К.; Куликовский, В. Л.; Боровский, В. Н.; Палийчук, В. К.; Kulykivskyi, V.; Borovskyi, V.; Palіychuk, V.Представлено результати експериментальних досліджень технологічного процесу переміщення зерна сої, гвинтовими робочими органами збиральних та очисних машин, які були направлені на визначення раціональних конструктивно-технологічних параметрів транспортерів. Встановлено, що основний вплив на травмування зернового матеріалу транспортером мають зазор між витками і кожухом, частота обертання гвинтового робочого органу та вологість насіння сої. Представлены результаты экспериментальных исследований технологического процесса перемещения зерна сои, винтовыми рабочими органами уборочных и очистительных машин, которые были направлены на определение рациональных конструктивно-технологических параметров транспортеров. Установлено, что основное влияние на повреждение зернового материала транспортером имеют зазор между витками и кожухом, частота вращения винтового рабочего органа и влажность семян сои. When performing technological processes agricultural production the grain is repeatedly subjected to shocks, compression and friction, which is accompanied by damage to the surface and internal tissues of the seeds. The main cause of damage to the seeds is the mechanical action of the screw working bodies of the machines and tools during post-harvest processing, drying and transportation. A significant portion of damaged seeds appears already at the stage of soybean harvesting. The level of damage to the grain during harvesting depends on the perfection of the design of the harvesting machines, the modes of operation of their working bodies, the timing and methods of harvesting, and the physical and mechanical properties of the grain at the time of displacement. The purpose of the paper is to determine the dependence of the grain material injury on the parameters of screw feeders and to substantiate their optimal values. The greatest influence on the damage of grain material carries a gap between the turns of the screw working organ and the screw housing its approximation to the size of the grain particles leads to increased destruction of individual grains. The use of conveyors with a minimum gap between the screw and the housing allows reducing soybean grain damage by up to 0.2% as well as reducing the microscopic damage to seeds threefold while maintaining the maximum productivity of the process. Increasing the travel distance significantly affects the damage to the grain material. During the twofold transmission of soybean grain through a screw conveyor, the maximum damage to the seeds was 1.4 % of the total amount of transported grain. A doubling of the transportation distance led to a significant increase in grain damage, which reached 2.8 %. Damage to soybean grain by screw conveyors during harvesting depends on its humidity. With a high moisture content of the material, the screw working bodies deform the soybean seeds and the seed coat peels off. The decrease in humidity leads to a significant fragmentation of the grains by the working bodies of the conveyors. The optimal indicators of moisture content of soybean grain, in terms of the formation of macroscopic and microscopic damage to seeds, by a screw conveyor, are in the range of 13...15%.Item Вплив травмування на міцність насіння зернових культур(КНТУ, 2014) Дерев’янко, Д. А.; Derevyanko, D.В статті розглядаються дослідження травмування та руйнування зернівок від впливу зовнішніх та внутрішніх факторів. The paper considers the research of the weevil damage and compression as a result of inner and outer factors. The effects of damaging on the solidity of the cereal seeds. In the process of a constant weevils damaging a plastic zone appears at the end of a crack at the end of damaging the increase in pressure results in additional efforts in the zone of a plastic deformation. These additional efforts lead to the increase in microdamages which are the basis for the creation of the future weevils cracking resulting in their damaging. The nature of weevils damaging depends on the cracks size and guantity as well as on their location. Being taker together they effect the seeds solidity, that is their damages and deformities.Item Дослідження впливу механічних навантажень на травмування насіння барабанними та аксіально-роторними обмолочувальними апаратами(КНТУ, 2014) Дерев’янко, Д. А.; Derevianko, DmitryВ статті проводяться теоретичні розрахунки та обґрунтування впливу різних обмолочувальних апаратів на травмування насіння зернових культур. Розглядаються головні відмінності режимів роботи таких апаратів та їх вплив на пошкодження і травмування зернівок. The theoretical calculations and the substantiations of the effects of different threshing devices on the damage of the grain crops seeds are given in the paper. The principal differences in the work regimes of such devices as well as their effects on the weevils damage and compression are considered in the paper.