Controls and weighing systems and equipment are crucial for the safe movement of rail, as well as the maintenance of the railway infrastructure.
Train weighing equipment is used to weigh bogies, axles, and full trains to ensure they are well-balanced.
Control equipment helps in monitoring and controlling train movements for their safe passage and prevention of derailments and collisions.
Finding suppliers of controls and weighing systems
Our Railway Technology team has researched and listed some of the leading providers and suppliers of train weighing equipment and train control systems, all based on its experience in the sector.
The list contains manufacturers and distributors of portable scales, depot equipment, automatic train and vehicle weighing systems, and non-contact measuring systems.
See Also:
We have also included information about providers of train in-motion weighing systems, automatic train control devices, automatic train stop devices, automatic train operating devices, over-run protection systems, level crossing gate control equipment, and more.
Our extensive list also includes information on the service providers of railway engineering tests, fast-track rail inspection, measuring, and monitoring.
Within our download content we detail a range of industry information that is useful for railway executives, engineers, managers, suppliers, and others involved in the operations of the railway industry.
Weighing and control in high-speed rail systems
High-speed rail is a rapidly expanding new mode of transport. Building and maintaining tracks that allow high-speed rail travel requires sophisticated equipment and systems.
The system combines high-speed wheel-rail technology, highly reliable brake technology, and powerful traction technology for safe railway operations.
Advanced high-speed rail weigh-in-motion train equipment, high-speed train bogie weighing systems, and other equipment is required for the correct weight and balance distribution of a high-speed rail.
Their operations will also depend on track or site conditions and rolling stock.
Traction power supply system and train control systems should be continuously upgraded for smoother and safer high-speed performance.
FAQs
What is the purpose of train weighing equipment in rail operations?
Train weighing equipment is used to measure the weight of bogies, axles, and full trains to ensure balanced and safe distribution.
Proper weight management is critical for preventing derailments, ensuring efficient braking, and optimising fuel consumption.
Regular weighing helps rail operators meet safety regulations and maintain smooth, safe operations.
How does weigh-in-motion (WIM) technology benefit rail systems?
Weigh-in-motion technology allows trains to be weighed while in motion, improving operational efficiency by eliminating the need for stopping.
It provides accurate data on axle loads, helping to prevent overloading and minimise wear on tracks.
This technology is widely used in high-speed rail systems to ensure safety and precision without disrupting service.
Why is accurate weight distribution important for train safety?
Accurate weight distribution is crucial for maintaining a train’s balance and preventing uneven wear on wheels and tracks.
Improperly distributed weight can lead to increased stress on certain components, raising the risk of derailments or mechanical failures.
Monitoring weight helps maintain optimal performance and safety in rail operations.
What are the different types of train control systems used in rail networks?
Train control systems include automatic train control (ATC), automatic train stop (ATS), and over-run protection devices.
These systems help monitor and regulate train speed, control braking, and prevent collisions or derailments. Integration of these systems ensures smooth rail traffic, reduces human error, and enhances overall safety.
How do high-speed rail systems ensure proper weight management?
High-speed rail systems use advanced weigh-in-motion equipment and bogie weighing systems to ensure precise weight management.
Given the high speeds involved, proper weight distribution is crucial to maintaining stability and preventing excessive wear on the rails.
These systems continuously monitor weight conditions to ensure safety without interrupting service.