Development of a generalized algorithm for the creation of containers for liquid using computer-aided design of products and technologies
DOI:
https://doi.org/10.15276/opu.1.67.2023.09Keywords:
liquid container, information model, adaptive-parametric model, generalized algorithmAbstract
Designing facilities for storing various liquids (water, oil, alcoholic products, etc.) requires the use of modern computer technologies. To improve efficiency, reduce design and production costs, it is necessary to create optimal algorithms based on information models of objects, designing containers of various shapes. The proposed approach allows reducing the time for the development of new object models based on existing prototypes, which take into account the used technological production process. The implementation of this idea is possible only with the use of modern CAD systems based on adaptive-parametric models of objects and embedded programming tools to create specialized design subsystems. CAD Autodesk Inventor has such capabilities. To work with this CAD, a generalized algorithm (information model) for designing containers for liquids was proposed. The paper considers in detail the stages of the algorithm execution on the example of a plastic bottle for liquid. The created model used a tabular task of capacity parameters through Excel. To create a parametric series of containers of different shapes, it is necessary to set mathematical dependencies between the dimensions of the object and the volume. The proposed information model can be adapted for containers of different configurations. Containers can be not only plastic, but also glass. Using the proposed design information model, an adaptive-parametric model of a bottle filled with liquid was developed in CAD Autodesk Inventor.
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