A gripping mechanism is provided for use with an apparatus for removing and inserting a rail tie that needs repair or replacement from a railroad track, and includes at least one gripper lever constructed and arranged to be actuated between a closed position and an open position, and a plurality of gripper fingers. Each gripper finger is configured for being individually attachable to and removable from a corresponding one of the at least one gripper lever for grasping the rail tie.

A gripping mechanism is provided for use with an apparatus for removing and inserting a rail tie that needs repair or replacement from a railroad track, and includes at least one gripper lever constructed and arranged to be actuated between a closed position and an open position, and a plurality of gripper fingers. Each gripper finger is configured for being individually attachable to and removable from a corresponding one of the at least one gripper lever for grasping the rail tie.

The purpose of the invention is a railway track (3) sleeper (2) squaring device and the machine which carries this device. The device comprises a first and a second positioning element (1) adapted to be located between pairs of sleepers (2) and for locating at opposite ends of the sleepers (2) and parallel to the direction of the railway track (3) where these positioning elements (1) can be extended in that direction with the first and second positioning element (1) being configured such that on extending them simultaneously to a pre-set value they push the sleepers (2) so as to produce squaring of these sleepers (2).

The invention relates to a mechanism (130) for moving stacks (21, 22) of sleepers (21, 22) intended to equip a railway track, the displacement mechanism (130) being intended to equip at least two successive work wagons (100, 200, 300) of a railway vehicle (1), the displacement mechanism (130) comprising guide means (140) configured to guide, along a longitudinal direction (X) of each of the wagons, a plurality of adjacent carriages (131) in pairs, the displacement mechanism (130) comprising drive means (150) for moving the carriages (131) together reciprocally between a first and a second travel position, so that each carriage (131) carries a stack (21, 22) of sleepers (21, 22) following a forward path (W1) from the first to the second travel position and configured to travel a return path (W2) from the second to the first travel position while being unloaded.

The invention relates to a mechanism (130) for moving stacks (21, 22) of sleepers (21, 22) intended to equip a railway track, the displacement mechanism (130) being intended to equip at least two successive work wagons (100, 200, 300) of a railway vehicle (1), the displacement mechanism (130) comprising guide means (140) configured to guide, along a longitudinal direction (X) of each of the wagons, a plurality of adjacent carriages (131) in pairs, the displacement mechanism (130) comprising drive means (150) for moving the carriages (131) together reciprocally between a first and a second travel position, so that each carriage (131) carries a stack (21, 22) of sleepers (21, 22) following a forward path (W1) from the first to the second travel position and configured to travel a return path (W2) from the second to the first travel position while being unloaded.

A system and method for automating railroad maintenance for a tie gang using electronic tie marking (ETM) configured to optimize railroad asset maintenance. The system enables the automating of an adaptive maintenance process for the asset that is being maintainanced. The system can identify a railroad asset scheduled for maintenance using various forms of inspection including real-time kinematic (RTK)-corrected GPS data, radar signal processing data, and real-time imaging. The system also provides for the acquisition and upload of asset pictures for verification and analysis of a railroad asset. The system can identify a next location to perform maintenance and can calculate an optimum path based on sensor input incorporating machine-specific and environmental characteristics. The system further can provide a customizable user interface to identify, track, and process information related to maintenance of the railroad asset.

A system and method for automating railroad maintenance for a tie gang using electronic tie marking (ETM) configured to optimize railroad asset maintenance. The system enables the automating of an adaptive maintenance process for the asset that is being maintainanced. The system can identify a railroad asset scheduled for maintenance using various forms of inspection including real-time kinematic (RTK)-corrected GPS data, radar signal processing data, and real-time imaging. The system also provides for the acquisition and upload of asset pictures for verification and analysis of a railroad asset. The system can identify a next location to perform maintenance and can calculate an optimum path based on sensor input incorporating machine-specific and environmental characteristics. The system further can provide a customizable user interface to identify, track, and process information related to maintenance of the railroad asset.

The invention relates to a transfer car (100) for sleepers designed to outfit a railway vehicle of the type comprising equipment for laying down new sleepers (21) and/or removing worn sleepers (22), the transfer car (100) comprising an undercarriage (110) supported by at least one running gear (112), the transfer car (100) being characterized in that it comprises at least one traverser (50) supported by an armature (60), the armature (60) being supported by the undercarriage (110) and fixed in relation to the undercarriage (110), the traverser (50) being configured to move the sleepers from at least one receiving zone (Z1, Z2) to at least one conveying platform (P2).

The invention relates to a transfer car (100) for sleepers designed to outfit a railway vehicle of the type comprising equipment for laying down new sleepers (21) and/or removing worn sleepers (22), the transfer car (100) comprising an undercarriage (110) supported by at least one running gear (112), the transfer car (100) being characterized in that it comprises at least one traverser (50) supported by an armature (60), the armature (60) being supported by the undercarriage (110) and fixed in relation to the undercarriage (110), the traverser (50) being configured to move the sleepers from at least one receiving zone (Z1, Z2) to at least one conveying platform (P2).

A system and method for automating railroad maintenance for a tie gang using electronic tie marking (ETM) configured to optimize railroad asset maintenance. The system enables the automating of an adaptive maintenance process for the asset that is being maintainanced. The system can identify a railroad asset scheduled for maintenance using various forms of inspection including real-time kinematic (RTK)-corrected GPS data, radar signal processing data, and real-time imaging. The system also provides for the acquisition and upload of asset pictures for verification and analysis of a railroad asset. The system can identify a next location to perform maintenance and can calculate an optimum path based on sensor input incorporating machine-specific and environmental characteristics. The system further can provide a customizable user interface to identify, track, and process information related to maintenance of the railroad asset.