A rail brace assembly for first and second rails includes a first support having an electrically insulating material configured to be engaged with a first side of base portions of the first rail and the second rail, with the first support defining a plurality of openings, a second support having an electrically insulating material configured to be engage with a second side of the base portions of the first rail and the second rail, with the second support defining a plurality of openings, a first base member having an electrically insulating material configured to be engaged with a bottom surface of the base portions of the first rail and the second rail, and a plurality of fasteners each configured to extend through one of the plurality of openings of the first support and the second support.

A rail brace assembly for first and second rails includes a first support having an electrically insulating material configured to be engaged with a first side of base portions of the first rail and the second rail, with the first support defining a plurality of openings, a second support having an electrically insulating material configured to be engage with a second side of the base portions of the first rail and the second rail, with the second support defining a plurality of openings, a first base member having an electrically insulating material configured to be engaged with a bottom surface of the base portions of the first rail and the second rail, and a plurality of fasteners each configured to extend through one of the plurality of openings of the first support and the second support.

The invention relates to a profiled bearing for a rail and to a rail system. The profiled bearing has a profiled base with a first lateral wall, a second lateral wall, and a base which connects a first end of the first lateral wall to a first end of the second lateral wall, and the profiled bearing also has a profiled clamping section. The base and the lateral walls form a receiving pocket for receiving the rail. In a functional position, the profiled clamping section is clamped in a gap between the rail inserted into a bearing bed of the base and the second lateral wall. A clamping finger which extends in the direction of the second lateral wall is molded in the region of a second end of the first lateral wall, said end being arranged at a distance from the base, wherein the rail can be pressed into the bearing bed by means of the clamping finger, and the profiled clamping section has a base web with two clamping limbs which extend from one face of the base web and which can be pressed into the gap between the rail inserted into the bearing bed and the second lateral wall. The clamping limbs of the profiled clamping section extend in the direction of the bearing bed in the functional position in which the clamping limbs are inserted into the gap, and a first clamping limb lies against the rail at least in some regions and a part of a second clamping limb is pressed into an undercut formed on the second lateral wall. The invention further relates to a rail system.

The invention relates to a profiled bearing for a rail and to a rail system. The profiled bearing has a profiled base with a first lateral wall, a second lateral wall, and a base which connects a first end of the first lateral wall to a first end of the second lateral wall, and the profiled bearing also has a profiled clamping section. The base and the lateral walls form a receiving pocket for receiving the rail. In a functional position, the profiled clamping section is clamped in a gap between the rail inserted into a bearing bed of the base and the second lateral wall. A clamping finger which extends in the direction of the second lateral wall is molded in the region of a second end of the first lateral wall, said end being arranged at a distance from the base, wherein the rail can be pressed into the bearing bed by means of the clamping finger, and the profiled clamping section has a base web with two clamping limbs which extend from one face of the base web and which can be pressed into the gap between the rail inserted into the bearing bed and the second lateral wall. The clamping limbs of the profiled clamping section extend in the direction of the bearing bed in the functional position in which the clamping limbs are inserted into the gap, and a first clamping limb lies against the rail at least in some regions and a part of a second clamping limb is pressed into an undercut formed on the second lateral wall. The invention further relates to a rail system.

A pre-buried casing tube uses glass fiber reinforced resin as the raw material to enhance the operation strength of the pre-buried casing tube, extend the service life of the pre-buried casing tube, and reduce maintenance cost of the railway transport system. The pre-buried casing tube includes at least one casing tube body, each casing tube body including at least one retaining element, the retaining elements provided in intervals along one side of the casing tube, each casing tube body disposed adjacently so as to form a passage for a screw, each retaining element provided in the passage for the screw.

An angled guide plate, in particular for rail fastening systems, includes a basic body that has an upper side and an underside, wherein the underside is designed for arranging on a further element, in particular a railway sleeper, whereas the upper side describes an opposite plane substantially transversely to the railway sleeper and wherein the angled guide plate consists of a guide region and a supporting region, wherein the guide region and the supporting region extend substantially parallel and adjacent to one another in a direction transverse to a track direction, and wherein the upper side and the underside are spaced apart from one another so that a thickness of the supporting region, as measured substantially perpendicularly to the underside, is larger, at least in part, than a thickness of the guide region.

An angled guide plate, in particular for rail fastening systems, includes a basic body that has an upper side and an underside, wherein the underside is designed for arranging on a further element, in particular a railway sleeper, whereas the upper side describes an opposite plane substantially transversely to the railway sleeper and wherein the angled guide plate consists of a guide region and a supporting region, wherein the guide region and the supporting region extend substantially parallel and adjacent to one another in a direction transverse to a track direction, and wherein the upper side and the underside are spaced apart from one another so that a thickness of the supporting region, as measured substantially perpendicularly to the underside, is larger, at least in part, than a thickness of the guide region.

A boltless brace assembly for a rail includes a base block interlocked with a brace, and further includes a wedge to be inserted between an upper surface of the base block and a lower surface of the brace, thereby applying an upward force to the brace and a resultant downward force to secure the rail base. The brace assembly may be modified to provide a universal brace assembly, a resilient brace assembly, or a frog base clamp.

A boltless brace assembly for a rail includes a base block interlocked with a brace, and further includes a wedge to be inserted between an upper surface of the base block and a lower surface of the brace, thereby applying an upward force to the brace and a resultant downward force to secure the rail base. The brace assembly may be modified to provide a universal brace assembly, a resilient brace assembly, or a frog base clamp.

A system for a screwless rail fastening includes a spring element and a supporting collar. The spring element has a bearing section, a curved section, a holding-down section, aligned in the opposite direction to the bearing section, a curved section curved in the direction of the bearing section, and a locking section aligned transversally to the bearing section. The supporting collar includes a fastening section for retaining the supporting collar on the foundation, a carrier section supported by the fastening section, a bearing recess formed on the carrier section for mounting of the bearing section, and a locking head supported by the carrier section on which a counter-bearing for the locking section is formed so that the locking section is retained in a position relative to the bearing section of the spring element.