• Back

  • Monitoring Railcar Wheels Wirelessly

    Monitoring Railcars Wirelessly Image

    Application: Monitoring wheels on a railcar and triggering a pushing arm

    Challenges: Cables cannot be used in this environment

    Solution: Sure Cross FlexPower Node

    Benefits: Rugged wireless sensor resistant to vibration, dirty and high-temperature environments

    In grain stations and ports, railcar axle movers push railway cars so that train engines are not needed. A railcar wheel monitoring system detects the railcar wheels and triggers an axle pushing arm to activate, pushing the railcar to the next loading or unloading station. Train stations create very harsh conditions and a rugged solution is needed that can accurately detect the large railcars.

    Description

    Because train car distribution centers are harsh, subject to high traffic volumes, extreme temperatures, dirty environments, and high vibration, running cables is not possible. Previous solutions involved long-range photoelectric sensors installed in locations where power was available. Because this was often a long distance from the rail car, sensor accuracy was affected by weather and other environmental conditions.

    A Sure Cross FlexPower Node connected to a limit switch makes operating this system more reliable. The railcar wheel triggers a trip arm, activating the limit switch connected to the FlexPower Node. The pusher arm rises and pushes the railcar to the next loading or unloading station.

    Featured Products

    Performance Series Industrial Wireless Gateways and Nodes
    Performance Series Industrial Wireless Gateways and Nodes

    Create point-to-multi point networks that distribute I/O over large areas. Input and output types include discrete (dry contact, PNP/NPN), analog (0 to 10 V dc, 0 to 20 mA), temperature (thermocouple and RTD), and pulse counter.

    Read More