Sherborne Sensors Limited - PRODUCT NEWS





Inertial sensors keep passenger and freight operations on track

Jesse Bonfeld at Sherborne Sensors examines some of the applications served by inertial sensors such as accelerometers and inclinometers in the rail industry.

Sensors have been in use in the rail industry almost since its inception. Initially, lanterns were used as signalling devices to communicate between the engineer and the conductor. Rudimentary gauges were in use to monitor the operation of the engine. And mechanical level indicators were used to monitor water levels in the tenders.

Today, there are a multitude of sensors used to not only monitor conditions, but also to enable and enhance the performance, safety, economy, and efficiency of modern passenger and freight operations.
Sensor design and characteristics
As with many industrial applications, sensors used in the rail industry must be able to perform in very harsh and aggressive environments. Extremes in temperature, vibration, shock and electrical noise are typical. In addition, many sensors are tasked with performing critical functions, necessitating very high levels of reliability, repeatability, robustness and accuracy.

What's more, being a highly regulated industry responsible for the safety of lives and property, railway owners, operators, equipment managers and their vendors are incentivised to implement proven technologies and solutions that have shown themselves capable in these environments.

Three common applications for inertial sensors in the rail industry include passenger car acceleration modulation, alignment functions in rail line repairs and rail line condition compliance and monitoring.

Passenger car acceleration modulation
Many of the electrified and mechanical rail systems in operation today are highly automated, designed to maximise all operational elements, and to improve the service experience while minimising cost. Most of us have experienced a train, subway or airport rail system with the all too familiar rapid acceleration on departure, and deceleration on arrival. This function is actually quite complex, having to replicate the acceleration condition with variations in track inclination, highly variable weight loads due to changes in onboard passenger volumes, and track conditions (e.g. ice, rain, snow).

Optimising the g forces during these events is accomplished using a sophisticated accelerometer, which provides a feedback signal to the train's main control system. In this way, we as passengers can at least know what to expect regardless of the high level of variability that exists where these vehicles operate.
Alignment functions in rail line repairs
Most of the repair work performed on rail lines is accomplished using highly-automated machinery capable of removing damaged sections and completely rebuilding them in a single integrated procedure.

Strict rules exist through regulatory agencies as to the configuration of the rails to the surface where they are mounted, and to each other. Very slight errors in positioning can lead to repairs that are out of specification, and ultimately present a significant safety hazard and liability.

To ensure proper orientation and alignment, most alignment repair systems are equipped with both single and dual axis inclinometers. These devices help rail owners and the repair companies ensure that track conditions are optimised and in compliance once repairs are complete.

Rail line condition compliance and monitoring
Although some situations exist where the need for rail repair work is obvious, many other conditions worthy of repair are more subtle. Ground subsidence due to track bed undermining for example, or the warping of tracks due to excessive wear can put sections of rail out of compliance with their rated load and speed schedules.

In the United States, there are four categories for rail systems that define how fast a train can run, and how much weight the rails can carry. If a section of track falls out of compliance, operators are compelled to reduce loads and speed, which can add significantly to their costs. The decision to take a rail section out of service is not taken lightly, as this can adversely affect schedules and car availability, rippling through the rail system and possibly putting time-sensitive cargo at risk.

The industry has addressed these issues by developing equipment to proactively inspect their rail systems and ensure compliance. This equipment includes wheeled vehicles that ride the system while collecting and logging critical data such as rail gauge, incline and offset. Incline and offset data is captured using highly sophisticated dual axis inclinometers, whose performance is optimised to allow these vehicles to travel at very high speeds, while still being able to pinpoint compliance problems to within just a few inches.

Moving forward
The rail industry, like many others, has evolved over many years. Sensors have played a key role in improving rail travel reliability, affordability and safety. In particular, sophisticated inertial sensors are employed to address key operational and design challenges. Nevertheless, rail owners and operators continue to look to the sensor industry for novel solutions as new challenges arise with every advance in rail system and equipment designs.


About Sherborne Sensors:
Sherborne Sensors is a global leader in the design, manufacture and supply of high-precision inclinometers, accelerometers, force transducers and load cells, rotary encoders, instrumentation and accessories for industrial, military and aerospace customers. Products offered under the Sherborne Sensors brand are renowned for their ultra-reliability and long-life precision within critical applications. Recent acquisition of synergistic technologies by Sherborne Sensors within our inclinometer and force and load cell offerings has allowed customers to benefit from expanded product lines, with added benefits of engineering support, global sales presence, repair, refurbishment and calibration services, stocking programs, and continuous product improvement.



For more information, please contact :-

Robin Butler
Sherborne Sensors Limited
1 Ringway Centre, Edison Road, Basingstoke RG21 6YH United Kingdom
Tel: +44 (0)1908 673 868
E-mail:
robin.butler@sherbornesensors.com
Web :
www.sherbornesensors.com

November 2011

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