Monografia_Mec_Industrial
URI permanente para esta coleçãohttps://ri.ifam.edu.br/handle/4321/966
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Trabalho de Conclusão de Curso Monitoramento remoto por meio de um radar baseado em Arduino(2021-05-12) Silva, Carlos Douglas André e; Frota, Vitor Bremgartner da; Pereira, Micila Sumaria Medeiros; Fernandes, Priscila SilvaAutomation exists in our daily lives, not only because of its practicality or status, but also related to the reduction in the consumption of water and energy resources, and the safety and comfort that users bring to users through the use of interconnected environments. Among the various types of automation, we have home automation, which is related to the use of automated processes in homes, apartments and offices, mainly for social welfare and comfort of life, such as air conditioning, lighting and security automation. The present work presents an Arduino-based radar, in which by uniting it with components, several home security projects can be carried out. This research also demonstrates a process of inserting residential security protection, that is, when an intruder is detected, it will show on the graphical interface, in another project the residents of the residence will receive a message on their computer alerting them about problems in housing.Trabalho de Conclusão de Curso Protótipo de sistema cartesiano para transporte de carga em uma indústria do Polo Industrial de Manaus(2024-12-17) Souza, Marcos Paulo dos Santos; Santos, Alyson de Jesus dos; http://lattes.cnpq.br/5998752909180697; Martiniano, Alexandre Lopes; http://lattes.cnpq.br/2232239320901259; Veloso, Hugo AlvesThe systems developed for industrial automation have been steadily implemented in industrial hubs across various regions around the world. Their applications have addressed numerous issues and challenges, such as reducing production time, improving product quality, handling high-risk tasks, and preventing Repetitive Strain Injuries (RSI). This work aimed to develop a prototype of a Cartesian automatic robot system that replaced manual transportation of products (Pick-and-Place), accelerating the time of process. The system consists of electric actuators controlled by servo motors, sensors, and pneumatic actuators, which are in turn controlled by a programmable logic controller (PLC) and a human-machine interface (HMI). After the implementation and testing of the prototype, it was found that it was possible to achieve a reduction in load transportation time