Матеріали конференцій
Постійне посилання колекціїhttps://dspace.nuft.edu.ua/handle/123456789/7498
Переглянути
2 результатів
Результати пошуку
Документ Integration of technology in the mechatron module of liquid dosing(2023) Yasychev, Vladyslav; Butyk, Taras; Kryvoplias-Volodina, LiudmylaThe influence of individual parameters on the accuracy of productdose formation was determined during physical and mathematical modeling. We have found ways to ensure the necessary distribution of compressed air pressure, subject to compliance with the specified performance of the dispenser. Research results make it possible to improve the operation of dosing systems for liquid products with high dosing accuracy. The control system is formed on the basis of electro-pneumatic complexes. The control model with dosing operating modes is substantiated. It was established that the consumption of compressed air will depend on the value of the input main pressure P (0.05... 0.4 MPa). The consumption of the product was in the range of 1 ml to 50 ml with a feeder volume of 2.25 l. A mathematical model of the dosing process of liquid products (noncarbonated drinking water, milk, juice) has been developed. Boundary conditions took into account the influence on the formation of the product dose from the programmed current values in mA (with an accuracy of 0.001 mA) in relation to the standard scale Imin, Imax=4..20 mA. An analytical description of individual stages of the dosing process with further analysis of individual stages and accepted assumptions was formed. Tests of the experimental sample of the dispenser showed the accuracy of the repetitions of the dose extrusion (limits ± 0.035% and 0.8%) from the set value of the dose mass up to 50 ml during the change and the initial liquid level in the reservoir of the dispenser feeder.Документ System engineering of packaging equipment(2024) Volodin, Sergiy; Savchuk, Oleksandr; Kostin, Vladimir; Yasychev, VladyslavModular design of packaging equipment is one of the ways to create a new generation of such equipment. Modular design implies that any part of the system consists of separate units (modules). This approach is consistent with the evolutionary approach to equipment development, as it allows manufacturers to easily modify or upgrade equipment as needed. Modular design also allows manufacturers to create complex systems with different types of transportation systems, such as series, parallel, flat, and spatial. Модульна конструкція пакувального обладнання - один із способів створення нового покоління такого обладнання. Модульна конструкція передбачає, що будь-яка частина системи складається з окремих блоків (модулів). Такий підхід відповідає еволюційним підходом до розробки обладнання, оскільки дозволяє виробникам легко модифікувати або модернізувати обладнання за потреби. Модульна конструкція також дозволяє виробникам створювати складні системи з різними типами транспортних систем, такими як послідовна, паралельна, плоска і просторова.