The world is changing, with more systems becoming automated through the Internet of Things (IoT). By the end of 2020, 38.5 billion connected devices are expected to be part of the IoT, which is an increase of 25.1 billion from 2015. With the digital revolution thoroughly underway, companies have been fully aware that statistical data can help their businesses thrive and increase efficiency. In this paper, the design and implementation of an Arduino sensor system used to record the temperature and location of ladle vessels for metallurgical purposes is presented. The Arduino microcontroller has multiple modules connected to it, including a K-Type thermocouple, Global-Positioning System (GPS) Shield, Real-time clock, and a Bluetooth module. Additionally, our system was fully tested to demonstrate that it could measure 1220 Celsius for twenty-two hours. Our work can contribute to the development of Industrial IoT and smart sensor services.

世界正在发生变化，越来越多的系统通过物联网 (IoT) 实现自动化。到 2020 年底，预计将有 385 亿台连接设备成为物联网的一部分，比 2015 年增加了 251 亿台。随着数字革命的深入开展，企业已经充分意识到统计数据可以帮助其业务蓬勃发展，提高效率。在本文中，介绍了用于记录用于冶金目的的钢包容器的温度和位置的 Arduino 传感器系统的设计和实现。Arduino 微控制器连接了多个模块，包括一个K- 型热电偶、全球定位系统 (GPS) 屏蔽、实时时钟和蓝牙模块。此外，我们的系统经过全面测试，证明它可以在 22 小时内测量 1220 摄氏度。我们的工作可以为工业物联网和智能传感器服务的发展做出贡献。