Frauscher Sensor Technology has completed the divestiture to Wabtec Corporation.

Find Out More
Maintaining the past, creating the future | UK
Train DetectionUnited Kingdom of Great Britain and Northern Ireland

Maintaining the past, creating the future

Operator
Dean Forest Railway
Country
United Kingdom of Great Britain and Northern Ireland
Segment
Main & Regional Line
Application
Track Vacancy Detection
Products
FAdC®, RSR123
Year
2019
Download

The Dean Forest Railway (DFR) operates a historical 7 km passenger service line running north from Lydney Junction to Parkend, in the Forest of Dean. Due to extensions of the line and an additional turnout being added at Parkend, an update and modernisation of the existing train detection and signalling system was necessary. Being a heritage railway, it requires high standards in terms of signalling and safety, whilst maintaining the historical touch of the line.

The train detection system had to be integrated into the mechanical interlocking that was also being restored to bring Parkend signal box back to life. Achieving the necessary ballast resistance to reliably operate track circuits would have involved relaying a large portion of track. Together with the maintenance requirements of additional track circuits, this would have been too time-consuming, as the line is operated by a volunteer workforce. Alternatively, extending the original token system would have reduced the number of income-generating services. Thus, a different method of track vacancy detection was necessary.

Based on previous positive experiences, DFR decided to go for an axle counter solution from Frauscher. To provide maximum flexibility and meet the variety of requirements defined, the Frauscher Advanced Counter FAdC® was chosen. On track, nine Frauscher Wheel Sensors RSR123 are now detecting even the old steam train’s wheel flanges highly reliably. Using the system’s ability of establishing individual architectures, the axle counter was collocated with the interlocking inside the existing signal box. Track vacancy detection data is provided to be electronically integrated into the mechanical interlocking. Additionally, Supervisor Track Sections STS and Counting Head Control CHC are providing maximum availability and system resilience. The Frauscher Diagnostic System FDS provides DFR’s experts with remote access to real-time diagnostic data.

Quick installation

With the assistance of the Frauscher UK employees, installing and commissioning the FAdC® and Wheel Sensors RSR123 took only six days, including laying the cable. This resulted in a minimum downtime on site.

Reduction of ongoing maintenance costs

The possibility of remote diagnostics ensures that a time related benefit is given during operation as well, as it can help off duty staff members to support their colleagues onsite and reduce ongoing maintenance costs. Data configuration and consistency of spare parts, allows for future remodelling and expansion work. Project details

Similar Projects
This might also interest you
1/5
Train DetectionDenmark

Renewal signalling FAdC® and RSR123

Banedanmark, the Danish railway infrastructure owner, started replacing the existing signalling system in the Eastern region of Denmark in 2009 to implement the newest proven signalling technology, based on standard industrial hardware components and redundant system configurations. Uniform system interfaces should reduce signalling failures to provide a better reliability and punctuality of the entire network. For this project, Frauscher delivered the Frauscher Advanced Counter FAdC® and the Frauscher Wheel Sensor RSR123.
Learn More
Train DetectionGermany

Dillinger Hütte

A new ladder track was required to provide more parking tracks in the steel plant. At the same time, the layout of the dead end tracks were optimised and the efficiency of the whole depot improved by installing the Frauscher Advanced Counter FAdC®i in combination with the wheel sensor RSR180. With the implementation of the Frauscher Diagnostic System FDS, the overall maintenance costs can be significantly reduced.
Learn More
Train DetectionChina

CBTC Fallback System on Beijing Metro Lines

Beijing metro, one of the busiest lines in the world, was Frauscher’s very first assignment when entering the Chinese market. Due to its utilised capacity, it requires a great level of stability, reliability and performance of the entire signalling system. The Communication Based Train Control System (CBTC) applied here relies on a backup system consisting of fixed automatic train detection systems. Axle counting systems from Frauscher are perfectly suited for the accurate operation of such stand-by systems.
Learn More
Train DetectionIndia

Increasing Availability at Adra Yard

Adra Yard belongs to the Southeastern Railway Zone of Indian Railways and is in West Bengal. Initially the yard was equipped with track circuits and there was a requirement to get them replaced with the Frauscher Advanced Counter FAdC®. This project is one of Frauscher’s esteemed Indian Railway Projects with a coverage of 139 counting heads and 97 track sections.
Learn More
Data TransmissionIndia

South Central Railway

The Vijayawada Division of Indian Railways introduced a new train detection system with data transmission functionality to overcome the challenges of the existing BPAC and conventional quad cable-based systems. Frauscher implemented the Frauscher Advanced Counter FAdC®, featuring full redundancy, advanced reset mechanisms and remote diagnostics. This upgrade delivers significant cost savings and enhanced system availability for the operator.
Learn More