Abstract: The present invention relates to a factory energy management system for the dyeing industry, which enables an energy management system (EMS) to be applied to dyeing industrial processes that over-consume energy, so as to reduce energy consumption by an optimized production management process. The present invention provides a factory energy management system (FEMS) for dyeing industry, in which an optimized production management system (POP) and an energy management system (EMS) are integrated into a single platform, and which enables real-time monitoring of energy usage in each of dyeing and finishing processes based on hardware, software and ICT-based monitoring and control technology, optimizes the use of energy in each process by analyzing aggregate date, and is configured to apply energy use factors and related data analysis and control processes in different manners depending on the characteristics of dyeing industrial processes.
Abstract: The present invention relates to a platform for the dyeing industrial, comprising a factory energy management system linked with an optimized production management system, in which the platform enables an energy management system (EMS) to be applied to dyeing industrial processes that over-consume energy, so that the consumption of energy can be reduced by an optimized production management process, whereby the proportion of energy cost in the production cost can be reduced, thereby ensuring industrial competitiveness. The platform according to the present invention comprises a communication interface platform, an energy optimization technology analysis platform, and a monitoring and analysis status platform.
Abstract: According to an embodiment of the present disclosure, a left and right balancing system for a treadmill may comprise two detection devices respectively installed at a left and right side of the treadmill, detecting strengths of vibrations respectively at the left and right side of the treadmill when a user exercises on the treadmill, generating detection strength signals according to the detected strengths, and transferring the generated detection strength signals to the user, and a notification device receiving the detection strength signals from the detection devices and indicating the user's left and right balance state.
Abstract: An integrated tag device includes an active tag and transmits a tag signal; a reader device recognizes tag device identification information, generate and transmit a tag device recognition signal, receive a risk notification signal and inform a worker; a worker terminal checks location information thereof, includes the checked location information in a map information request signal, and transmits the map information request signal, receives and displays factory facility map information; an intelligent integrated safety management control server checks reader device identification information and tag device identification information, checks installation location information, tracks a location and predicts a movement path of each moving entity, classifies and stores a movement pattern and a movement path, checks reader device identification information, generates and transmits a risk notification signal, checks worker terminal location information and identification information, checks reader device identific