An anti-derailment safety device is in a shape of an inverted letter L and includes a transverse portion and a longitudinal portion perpendicular to the transverse portion at a side below the transverse portion; two sides of the transverse portion in a width direction of the transverse portion are each provided with an installation seat formed by a wing plate extending outwardly, and bolt holes are provided on the installation seat; and an inner side surface of the longitudinal portion is a stopping surface.

An anti-derailment safety device is in a shape of an inverted letter L and includes a transverse portion and a longitudinal portion perpendicular to the transverse portion at a side below the transverse portion; two sides of the transverse portion in a width direction of the transverse portion are each provided with an installation seat formed by a wing plate extending outwardly, and bolt holes are provided on the installation seat; and an inner side surface of the longitudinal portion is a stopping surface.

An elongated rail fastener apparatus for use near an obstacle such as a guard rail, or other location where space is restricted. The fastener preferably extends past the obstacle and is provided with a shoulder having at least one elevated notch, positioned to allow installation of the clip with a vertical and lateral movement, and without the application of a large force perpendicular to the rail. A U-shaped embodiment of the fastener is also described.

An elongated rail fastener apparatus for use near an obstacle such as a guard rail, or other location where space is restricted. The fastener preferably extends past the obstacle and is provided with a shoulder having at least one elevated notch, positioned to allow installation of the clip with a vertical and lateral movement, and without the application of a large force perpendicular to the rail. A U-shaped embodiment of the fastener is also described.

An energy-absorbing vehicle barrier system is provided. The energy-absorbing vehicle barrier system provides a series of spaced apart barrier units, wherein adjacent barrier units are interconnected by a cable linkage, enabling the modularity that limits damage to the barrier system and facilitates segmented replacement. Each barrier unit provides a vertically spaced apart net of longitudinal cables, each longitudinal cable terminates adjacent the opposing end faces of its barrier unit in the form of a loop, protruding through the end face. The resulting column of spaced apart loops nest with the adjacent barrier unit's column of spaced apart loops in an aligned configuration so that a pin secures both sets of columns, providing the cable linkage. The barrier units are made from no fine concrete that crumbles upon collision so as to absorb energy. The system sits on a substructure also adapted to absorb the energy of a high-speed collision.

An energy-absorbing vehicle barrier system is provided. The energy-absorbing vehicle barrier system provides a series of spaced apart barrier units, wherein adjacent barrier units are interconnected by a cable linkage, enabling the modularity that limits damage to the barrier system and facilitates segmented replacement. Each barrier unit provides a vertically spaced apart net of longitudinal cables, each longitudinal cable terminates adjacent the opposing end faces of its barrier unit in the form of a loop, protruding through the end face. The resulting column of spaced apart loops nest with the adjacent barrier unit's column of spaced apart loops in an aligned configuration so that a pin secures both sets of columns, providing the cable linkage. The barrier units are made from no fine concrete that crumbles upon collision so as to absorb energy. The system sits on a substructure also adapted to absorb the energy of a high-speed collision.

Guide rail support (10) intended to withstand forces (F) exerted in a direction (T) transverse to a railway track on a guide rail (5) extending in a longitudinal direction (L) of the railway track. The guide rail comprises: a front face (31) in the transverse direction for supporting the guide rail (5) or an attachment part (23) of the guide rail, a lower face (33) in a third direction (V) substantially perpendicular to the longitudinal direction and the transverse direction, wherein the lower face transversely comprises at least one front section (43) and one rear section (45), and at least one reinforcement rib (35) transversely linking the front face and the rear section. The rear section and the front section respectably define, in a contact plane (P) of the lower face with the rail support, two distinct contact surfaces (47, 49) separated by a section (51) of the contact plane and devoid of any contact with the lower face, while the reinforcement rib spans the said section.

Guide rail support (10) intended to withstand forces (F) exerted in a direction (T) transverse to a railway track on a guide rail (5) extending in a longitudinal direction (L) of the railway track. The guide rail comprises: a front face (31) in the transverse direction for supporting the guide rail (5) or an attachment part (23) of the guide rail, a lower face (33) in a third direction (V) substantially perpendicular to the longitudinal direction and the transverse direction, wherein the lower face transversely comprises at least one front section (43) and one rear section (45), and at least one reinforcement rib (35) transversely linking the front face and the rear section. The rear section and the front section respectably define, in a contact plane (P) of the lower face with the rail support, two distinct contact surfaces (47, 49) separated by a section (51) of the contact plane and devoid of any contact with the lower face, while the reinforcement rib spans the said section.

A guardrail system for use along a roadway. The system can include a longitudinal body having one or more longitudinal void spaces formed therein, at least one substantially vertical post connected at one or both ends of the body, and a longitudinal member disposed within any one of the longitudinal void spaces of the body having a crosswise ultimate tensile strength that is at least 20% greater than the crosswise ultimate tensile strength of the longitudinal body.

A guardrail system for use along a roadway. The system can include a longitudinal body having one or more longitudinal void spaces formed therein, at least one substantially vertical post connected at one or both ends of the body, and a longitudinal member disposed within any one of the longitudinal void spaces of the body having a crosswise ultimate tensile strength that is at least 20% greater than the crosswise ultimate tensile strength of the longitudinal body.