Центральноукраїнський науковий вісник. Технічні науки.
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Ідентифікатор медіа: R30-03350 (рішення Національної ради України від 25.04.2024 р. № 1418).
ISSN 2664-262X (p)
DOI: 10.32515/2664-262X
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Item Підвищення ефективності управління технологічним процесом доставки на основі аналізу статичних та динамічних резервів транспортної системи(ЦНТУ, 2023) Голуб, Д. В.; Holub, D.В статті розроблений теоретичний підход, який здійснює опис процесів організації і дезорганізації логістичних потоків в транспортній системі та відображає важливі сторони її функціонування. Запропоновано, що управління в транспортній системі слід розглядати як підтримку її стійкого стану і створення нової системної властивості, а саме динамічних резервів. The nature of static and dynamic reserves of the transport system and the degree of their influence on the technological process of delivery are given. The structure of flows connecting a specific supplier and consumer is considered. It was found that dynamic reserves are management reserves, and their size is determined by the amount by which static reserves can be reduced. The classification of dynamic reserves is given, the conditions of their occurrence are described, and interaction schemes are given. It is shown that assigning the priority of one of the jets in the flows of the transport system leads to the acceleration of the passage of one jet at the expense of slowing down the other (others), and the delays are transferred from one jet to another while maintaining their total amount, that is, at an unchanged average speed of the flows. It was found that the acceleration of the flow leads to the release of a certain group of vehicles, which can be used as a reserve, and when it slows down, on the contrary, additional vehicles are absorbed due to an increase in their number on the road. There are also a number of technological mechanisms for speeding up and slowing down the progress of flows. It has been found that the transport system can actively adapt to changes in the rhythms of senders and receivers due to the management of stream jets, but the possibilities of its adaptation are quite limited. And therefore, if the rhythms of the jets in the flow are too much out of sync, there is a possibility of a moment when reliable transport communication cannot be ensured and the transport system begins to play the role of limitation. It was found that the set of dynamic reserves allows to significantly increase the efficiency of the transport system in conditions of unevenness, but it requires the development of new approaches to the principles and methods of optimization, as well as the choice of effective work organization. It is assumed that the management capabilities and the size of the dynamic reserves of the transport system are greater, the more different jets are released in the flow, and therefore the greater the diversity in the subsystems, the more noticeable is the effect of organization, combining them into a single system.Item Обґрунтування обладнання для збирання льону олійного зернозбиральним комбайном(ЦНТУ, 2022) Дідух, В. Ф.; Буснюк, В. В.; Бодак, М. В.; Didukh, V.; Busyijk, V.; Bodak, M.В статті проводиться аналіз технологій збирання льону олійного з використанням зернозбирального комбайна. Тривалі дослідження у Луцькому НТУ вказують на можливість застосування брання стеблостою льону олійного. Запропонована конструкція широкозахватного брального апарату для даного способу з врахуванням сучасної методології створення сільськогосподарської техніки. Визначено необхідні робочі органи, які забезпечують формування потоку групи стебел і передачу їх на жатку зернозбирального комбайна. Встановлена умова нерозривності потоку групи стебел для забезпечення рівномірної подачі у молотильний апарат для якісного відділення насіння. Presentation of the results of experimental field research, laboratory to determine the conditions for harvesting oilseed flax stalks in the phase of full maturity. Outlining the conditions for the technological operation of harvesting oilseed flax by extracting stems from the soil. Presentation of the methodology for determining the necessary working elements of the equipment for extracting stems from the soil and forming the continuity of the flow of a group of stems on the harvesting part of the combine harvester. The problem that arises in the process of harvesting flax oil in the phase of full maturity is due to the presence of fiber in the stems, which complicates the work of the segmental-finger cutter. Therefore, the collection of such stems is carried out by the method of taking (extraction from the soil). This phenomenon requires the development of equipment for the universalization of the combine harvester, which increases its ability to be used in the harvesting of crops, taking into account the growing conditions and the state of the stalk. The experiments were conducted in the field on the Lyrina variety to establish the average value of the collection effort. The crops were not characterized by uniform ripening, which allowed to choose areas that characterized the maturity phases of oilseed flax. Start of research: mid-July, end - until 01.09. Accordingly, the study of the continuity of flow was conducted in the laboratory by simulating the selection of stems from one to five adjacent rows. It was found that a cylindrical support rough surface is required to ensure the continuity of the flow in the equipment. Based on the proposed structural and logical scheme, the main working units of the equipment to ensure high-quality harvesting of oilseed flax of any phase of ripeness without changing the design of the harvesting part of the combine harvester. These include: the mechanism of separation of portions of the stem from the total array and the picking device, which consists of pairs of rollers with horizontal axes of rotation and a distance between them of 76.2 mm. Combining the results of field and laboratory studies with the analysis of forces when moving the stem mass in the form of a flow of a group of stems on the supporting surface allowed to offer a constructive - layout scheme of equipment for harvesting oilseed flax. This equipment is intended to be installed on the harvesting part of the combine without changing its design. The analysis of forces performed for the flow of stems moving inseparably on a cylindrical support surface is important for the study of the selection of the stem mass of crops from rolls.