In a method for renewing a track (2) and cleaning a ballast bed (3), the old track (2) is lifted off the ballast bed in sections as a track panel (15), transported forward in a working direction (4) and deposited on track panel wagons (8). The exposed ballast bed (3), forming a renewal gap (17), is cleaned by a cleaning machine (11), spoil (32) accruing in the process is transported forward underneath the track panels (15) deposited on the track panel wagons (8), and stored in hopper cars (10). New rails (29), pre-deposited underneath new sleepers (27) positioned on sleeper wagons (14), are pulled forward into the renewal gap (17) by the cleaning machine (11) and deposited on the cleaned ballast bed (3). The new sleepers (27) are laid down on the cleaned ballast bed and connected to the new rails (29) lifted off the ballast bed (3).

The present disclosure generally relates to a railroad track ballast tamping vehicle and associated methods of use, wherein the vehicle comprises: a rigid frame; a variable-displacement servo-pump operatively coupled to the vehicle; at least one linear hydraulic actuator operatively coupled to the frame at a proximal end of the at least one linear hydraulic actuator and comprising: at least one internal cavity for receiving hydraulic fluid from the variable-displacement servo-pump via a hydraulic hose; and an actuator rod passing through a first internal cavity and a second internal cavity of the at least one linear hydraulic actuator; and a tamping tool operatively coupled to a distal end of the at least one linear hydraulic actuator. A tamping pad associated with the tamping tool may be lowered into ballast underlying railroad tracks and between railroad track ties for performing ballast tamping operations.

Automated storage is provide for a ballast wing mounted on a regulator frame of a ballast regulator machine. A machine controller may detect actuation of a wing activation switch and, in response, actuate a wing lift cylinder connected between the regulator frame and a wing arm to dispose the wing arm within a predetermined safe zone, actuate a wing pivot cylinder to rotate a wing frame to a wing frame stored position, actuate a wing extension cylinder to retract the wing arm extension to a retracted position within the wing arm, and actuate the wing lift cylinder to rotate the ballast wing to a stored position adjacent the regulator frame.

Automated storage is provide for a ballast wing mounted on a regulator frame of a ballast regulator machine. A machine controller may detect actuation of a wing activation switch and, in response, actuate a wing lift cylinder connected between the regulator frame and a wing arm to dispose the wing arm within a predetermined safe zone, actuate a wing pivot cylinder to rotate a wing frame to a wing frame stored position, actuate a wing extension cylinder to retract the wing arm extension to a retracted position within the wing arm, and actuate the wing lift cylinder to rotate the ballast wing to a stored position adjacent the regulator frame.

A railcar ballast delivery gate with first and second parallel side walls spaced apart by a center truss plate that extends between and is perpendicular to each of the two side walls, a center angled bar that straddles the center truss plate, first and second primary elongated tubes extending between the first and second side walls on opposing sides of the side walls, and a divider assembly. The primary elongated tubes are rotatably connected to first and second tube arms, which in turn are fixedly couple to first and second secondary elongated tubes that are configured to move relative to the primary elongated tubes while remaining parallel to them. The tube arms are rotatably connected to door linkages that are situated underneath and fixedly attached to door panels resting on trusses that extend from a center truss plate.

A sweeping device works on a track formed of rails and sleepers. The sweeping device has a brush shaft formed from a plurality of shaft portions configured as hollow shafts, and resilient sweeping elements protruding radially from the brush shaft. The sweeping device can be attached via at least one adjustable vertical drive to a vehicle that can travel on rails. It is provided that at least one axis of rotation of a shaft portion is adjustable via a control shaft with control elements acting externally on the shaft portion. This achieves an increase in sweeping performance and thus the cost efficiency of the machine, with a concomitant improvement in the quality of the sweeping pattern.

The invention relates to a track ballast levelling apparatus (1) comprising a machine frame (15) which is movable on rail bogies (14) and with which a levelling apparatus adjustable relative to the machine frame (15) and a sweeping device adjustable relative to the machine frame (15) are associated, wherein the levelling apparatus has a central plough (23) and two flank ploughs (24) and the sweeping device has a rotatably driven ballast-sweeping brush (2, 12) for sweeping away track ballast. and wherein the machine frame (15) is optionally assigned a ballast conveying device associated with the ballast-sweeping brush (2, 12) and a ballast silo (3) with ballast chutes (9, 10) for ballasting the track. In order to create advantageous maintenance conditions, it is proposed that the ballast-sweeping brush (2, 12) is mounted in a rotationally driven manner in a sweeping brush housing (13) which is mounted so as to be pivotally adjustable about a machine vertical axis with respect to the machine frame (15) between a sweeping position and a maintenance position by means of a rotating device (6).

A track maintenance machine for compaction of ballast under sleepers of a track includes a machine frame movable by undercarriages on the track and a tamping unit which includes an electric vibration drive for vibratory actuation of tamping tools. An electric intermediate circuit has an electric energy store or storage device. An electric machine is associated with at least one undercarriage and coupled for generator operation to the intermediate circuit. The electric vibration drive is coupled to the intermediate circuit for supply. In this way, braking energy is used in an optimal manner for supplying the vibration drive. A method for operation of a track maintenance machine is also provided.

The invention relates to a track maintenance machine with a conveyor or excavating chain arrangement for removing and collecting railway ballast and/or other formation or substructure layers of a track structure, comprising a cutter bar which can be positioned below a track and which has at least two bar elements, each adjustable in position and alignment, and which is attached on the one hand to an ascent channel and on the other hand to a return channel, furthermore comprising a guided excavating chain consisting of a plurality of chain links, wherein the arrangement can be fastened to a machine frame by means of at least one height-adjustable suspension device. It is provided that the excavating chain is designed to be divisible, that the bar elements can be connected via a coupling to form a closed overall unit, and that the arrangement can be variably adjusted in its excavating working width by adjusting the position of the bar elements. This provides a significant improvement in handling when setting up, installing, and positioning the machine device.

A railway works machine comprises a machine chassis and a works shuttle, the machine chassis having two opposite longitudinal end portions and a middle portion connecting the opposite longitudinal end portions, a volume being created underneath the middle portion of the machine chassis to house at least part of the works shuttle. The shuttle chassis is able to move with respect to the machine chassis back and forth between two end-of-travel positions. A longitudinal locking system allows the machine chassis to be secured to the shuttle chassis in a position for travel. The longitudinal locking system comprises a first locking device locking together a first of the two longitudinal end portions and the shuttle chassis and a second locking device locking together the shuttle chassis and a second of the two longitudinal end portions.