An e-clip installation machine for securing rails to steel ties via automating and reducing the time required for installing e-clips that attach rails to steel ties is provided. The e-clip installation machine automates the process of securing rails to steel ties via inserting e-clips into a respective shoulder clip on either side of the two rails. A pair of hydraulic jaws clamp the steel tie and bring it up against the underside of the rails. Two e-clips for each rail are placed in position at the respective shoulder clips. Two pairs of hydraulic clamp mechanisms, corresponding to each rail, press the respective e-clips through openings within the respective shoulder clips. The e-clip installation assembly includes a jaw assembly and two clamp assemblies. Each clamp assembly includes a pair of clamp mechanisms, positionable on either side of a rail in proximity to a shoulder clip affixed to a steel tie. A clamp mechanism is utilized to compress an e-clip within an opening of the shoulder clip.

An installation device for tension clamps for attaching a rail to a railroad tie or another rail substructure, a method for attaching at least two tension clamps in their installation position by such an installation device, and a system made of an installation device with a drive device connected to it are disclosed.

An installation device for tension clamps for attaching a rail to a railroad tie or another rail substructure, a method for attaching at least two tension clamps in their installation position by such an installation device, and a system made of an installation device with a drive device connected to it are disclosed.

A tuned mass damper for damping airborne vibrations at one or more rail frequencies from a rail generated by movement of wheels over the rail. The tuned mass damper includes one or more damper elements including a damper element material, and a body element including a body material. The damper elements are at least partially embedded in the body element. The body element has inner and lower exterior surfaces formed to fit within first and second pockets on opposite first and second sides of the rail defined by a web portion and a foot. The damper element material and the body material are selected and formed so that the tuned mass damper vibrates in response to movement of the wheels over the rail at one or more damper frequencies that at least partially interferes with the rail frequencies.

A tuned mass damper for damping airborne vibrations at one or more rail frequencies from a rail generated by movement of wheels over the rail. The tuned mass damper includes one or more damper elements including a damper element material, and a body element including a body material. The damper elements are at least partially embedded in the body element. The body element has inner and lower exterior surfaces formed to fit within first and second pockets on opposite first and second sides of the rail defined by a web portion and a foot. The damper element material and the body material are selected and formed so that the tuned mass damper vibrates in response to movement of the wheels over the rail at one or more damper frequencies that at least partially interferes with the rail frequencies.

Present embodiments relate to a tie plate orientation device. More specifically, but without limitation present embodiments relate to a tie plate orientation device that orients tie plates in a desired orientation for subsequent feeding, including an optional handheld magnetic device for manual assisted manipulation of the tie plates.

Present embodiments relate to a tie plate orientation device. More specifically, but without limitation present embodiments relate to a tie plate orientation device that orients tie plates in a desired orientation for subsequent feeding, including an optional handheld magnetic device for manual assisted manipulation of the tie plates.

A tie plate inserter assembly on a track mounted machine is provided that is configured to ensure appropriate location of a tie plate and a tie relative to a rail of a railway. The assembly includes a frame supported, at least indirectly, on a chassis of the machine and having a tie plate clamp assembly that includes a self-centering mechanism that centers the tie plate relative to a longitudinal centerline the tie. The tie plate clamp assembly has a first clamp plate and a second clamp plate configured to clamp together to hold the tie plate. The tie clamp assembly also has first and second clamp plates configured to clamp together to hold the tie in place. The assembly may additionally include a tie clamp assembly that can actuated to center the tie relative to a reference point on the frame.

Systems, methods, and non-transitory, machine-readable media for extracting railway fasteners and adjusting railway anchors are disclosed. A tie plate manipulator may be slidably coupled with a frame assembly and may include tie plate tools in an opposing arrangement and slidably coupled with a support framework. A fastener extractor may include fastener-extracting arms and pivot joints pivotably coupling the fastener-extracting arms with a subassembly. The fastener extractor may be slidably coupled with the frame assembly so that at least part of the fastener extractor is disposed over the tie plate manipulator. The fastener extractor may be coupled with the tie plate manipulator at least in part with a cylinder system. Each fastener-extracting arm may be adjustable to selectively engage and extract a railway fastener. The tie plate manipulator may be operable to engage and adjust a tie plate on the railway tie with the pair of tie plate tools.

Systems, methods, and non-transitory, machine-readable media for extracting railway fasteners and adjusting railway anchors are disclosed. A tie plate manipulator may be slidably coupled with a frame assembly and may include tie plate tools in an opposing arrangement and slidably coupled with a support framework. A fastener extractor may include fastener-extracting arms and pivot joints pivotably coupling the fastener-extracting arms with a subassembly. The fastener extractor may be slidably coupled with the frame assembly so that at least part of the fastener extractor is disposed over the tie plate manipulator. The fastener extractor may be coupled with the tie plate manipulator at least in part with a cylinder system. Each fastener-extracting arm may be adjustable to selectively engage and extract a railway fastener. The tie plate manipulator may be operable to engage and adjust a tie plate on the railway tie with the pair of tie plate tools.