METHODOLOGY FOR CREATING PARAMETRIC MODELS OF PARTS FOR AUTOMATED DESIGN OF TECHNOLOGICAL PROCESSES
Annotation
The complexity of integrating computer-aided design systems, in particular AutoCAD, and computer-aided design of technological processes is caused by the lack of the necessary interoperability between them. A method of parallel formation of the geometric and parametric model of a part is proposed, which makes it possible to ensure the necessary compatibility of models. The method is based on the creation of a library of parametric models of structural elements. Setting the element by displaying the parameters on the screen automatically leads to the setting of its geometric image with subsequent attachment to the forming image of the part. The method requires the creation of appropriate libraries of structural elements and the organization of a single information space for technological preparation of production. The proposed method reduces the time for designing parts and developing technological processes.
Keywords
Постоянный URL
Articles in current issue
- SPECIAL PROPERTIES OF HAMMING CODES THAT APPEAR WHEN SYNTHESIZING SELF-CHECKING DIGITAL DEVICES
- CHOOSING THE OPTIMAL CONFIGURATION OF THE ONBOARD COMPLEX OF THE SPACECRAFT TO RESTORE ITS OPERABILITY
- FEATURES OF THE IMPLEMENTATION OF A DISTRIBUTED VIRTUAL MACHINE WHEN BUILDING A GENERAL-PURPOSE COMMUNICATION INFRASTRUCTURE
- DEVELOPMENT AND IMPLEMENTATION OF ELEMENTS OF AN INFORMATION AND ANALYTICAL PLATFORM FOR SOLVING TRANSPORT AND LOGISTICS PROBLEMS
- APPLICATION OF MACHINE LEARNING METHODS TO LOCALIZE QUADCOPTER SENSOR FAILURES
- MONITORING THE DEGREE OF WOOD THERMAL DAMAGE BY MEASURING ITS COLOR CHARACTERISTICS
- EXPERIMENTAL STUDY OF ACOUSTIC EMISSION PARAMETERS DURING CYCLIC TESTING OF METAL PRODUCTS OF ADDITIVE MANUFACTURING
- USE OF A FIBER OPTIC SPECTROMETER TO ASSESS THE MINIMUM NUMBER OF MALIGNANT CELLS BY DIFFUSE REFLECTANCE SPECTRA IN THE NEAR INFRARED REGION
- ANOMALOUS SPECTRUM COMPRESSION AS A MEANS OF OBTAINING RADIATION OF SUPER-PLANCK INTENSITY