초록 ▼

A monoblock concrete crosstie for railway tracks that achieves a high performance in operation includes a steel structure that is formed from ultra-resistant high strength steel plates embedded in a concrete element and having pre-stressed cold rolled wires with ends that form button head knots whic

A monoblock concrete crosstie for railway tracks that achieves a high performance in operation includes a steel structure that is formed from ultra-resistant high strength steel plates embedded in a concrete element and having pre-stressed cold rolled wires with ends that form button head knots which are anchored to the steel plates. A faceted geometry allows optimal material usage and in turn increases the crosstie-ballast interlocking and stability with respect to the support surface.

대표청구항 ▼

1. A mono-block pre-stressed concrete crosstie for use in ballasted railways comprising: an elongated concrete element having a longitudinal axis;an internal steel structure of the concrete element;one or more widened rail seat and shoulder bearing surface of the concrete element; and symmetric oppo

1. A mono-block pre-stressed concrete crosstie for use in ballasted railways comprising: an elongated concrete element having a longitudinal axis;an internal steel structure of the concrete element;one or more widened rail seat and shoulder bearing surface of the concrete element; and symmetric opposing sides of the concrete element, each having a plurality of lateral wedges adjacent to but not underlying the widened rail seat and shoulder bearing surface and configured to interlock with railroad ballast;wherein the internal steel structure of the concrete element further comprises three first steel plates on a first end and three second steel plates on a second end, and each of the first steel plates and the second steel plates comprises a plurality of first tensioning structures configured for connection to a tensioning device that is external to the mono-block pre-stressed concrete crosstie, each said first tensioning structure disposed between two second tensioning structures, each second tensioning structure coupled to a steel element that is internal to the mono-block pre-stressed concrete crosstie. 2. The crosstie of claim 1 including each of the first plates coupled to one of the second plates by said steel elements in the form of a plurality of pre-stressed wires, wherein each wire is tensioned to at least 70% (seventy percent) of its elastic capacity, wherein the plurality of pre-stressed wires are arranged in parallel, and wherein each of the plurality of pre-stressed wires is secured to one or more of the plates by pressed button head type knots located at the wire ends. 3. The crosstie of claim 1, wherein the plates of the internal steel structure are embedded in the concrete and apply a compressive force to the concrete, and the steel elements in the form of a plurality of pre-stressed wires coupled to each plate that works by adherence to transfer a load to the concrete. 4. The crosstie of claim 1, wherein each said plate associated with a plurality of steel elements in the form of pre-stressed wires and embedded in high strength concrete capable of supporting a minimum axle load of 39 tons (US), and where the crosstie has a maximum length of 8 feet. 5. The crosstie of claim 1 wherein the elongated concrete element comprises a center section having a first width, wherein the rail seat and shoulder bearing surface has a second width, and wherein the ends have a third width, and wherein the second width is greater than either the first width or the third width. 6. The crosstie of claim 1 wherein the plurality of lateral wedges comprise two or more wedges in each end and two or more wedges at a transition between each of two widened rail seat and shoulder bearing surfaces and a central body. 7. The crosstie of claim 1 wherein a center of gravity of the elongated concrete element and a center of gravity of the internal steel structure are selected based on a service load. 8. The crosstie of claim 1 wherein each of the first plates coupled to one of the second plates by said steel elements in the form of a plurality of pre-stressed wires. 9. The crosstie of claim 8 wherein each wire is tensioned to at least 70% (seventy percent) of its elastic capacity. 10. The crosstie of claim 9 wherein the plurality of pre-stressed wires are arranged in parallel. 11. The crosstie of claim 10 wherein each of the plurality of pre-stressed wires is secured to one or more of the plates. 12. The crosstie of claim 1, wherein the internal steel structure is formed said plates that are configured to apply a compressive force to the concrete. 13. The crosstie of claim 1, wherein the internal steel structure comprises a system of said plates and said steel elements in the form of pre-stressed wires embedded in high strength concrete. 14. The crosstie of claim 1 wherein a center of gravity of the elongated concrete element is aligned in relation to the center of gravity of the internal steel structure to effectively resist service loads. 15. The crosstie of claim 1 further comprising a plurality of wedges disposed along a bottom surface of the elongated concrete element. 16. A mono-block reinforced concrete crosstie for use in ballasted railways comprising: an elongated concrete element having a longitudinal axis;an internal steel structure of the concrete element;one or more widened rail seat and shoulder bearing surface of the concrete element; and symmetric opposing sides of the concrete element, each having a plurality of lateral wedges configured to interlock with railroad ballast, wherein the internal steel structure of the concrete element further comprises three first steel plates on a first end and three second steel plates on a second end, and each of the first steel plates and the second steel plates comprises a plurality of first tensioning structures configured for connection to a tensioning device that is external to the mono-block pre-stressed concrete crosstie, each said first tensioning structure disposed between two second tensioning structures, each second tensioning structure coupled to a steel element that is internal to the mono-block pre-stressed concrete crosstie, each of the first plates coupled to one of the second plates by said steel elements in the form of a plurality of pre-stressed wires, wherein each wire is tensioned to at least 70% (seventy percent) of its elastic capacity, wherein the plurality of pre-stressed wires are arranged in parallel, and wherein each of the plurality of pre-stressed wires is secured to one or more of the plates by pressed button head knots located at the wire ends, wherein the plates of the internal steel structure are embedded in the elongated concrete element and apply a compressive force to the elongated concrete element, wherein the plurality of pre-stressed wires work by adherence to transfer a load to the concrete, wherein the elongated concrete member is made of high strength concrete capable of supporting a minimum load of 39 tons (US) on each axle of the crosstie, wherein the crosstie has a maximum length of 8 feet, wherein the elongated concrete element has dimensions from a center of a rail seat to a nearest end of 18 inches or less, a plurality of rail seats and a plurality of field side shoulders having a transverse width of approximately 10 inches on an upper surface of the crosstie, where one or more the rail seats widens to approximately 12.3 inches at a base, wherein the elongated concrete element comprises a center section having a first width, wherein the rail seat and shoulder bearing surface has a second width, and wherein the ends have a third width, and wherein the second width is greater than either the first width or the third width, wherein the plurality of lateral wedges comprise two or more wedges in each end and two or more wedges at a transition between each of two widened rail seat and shoulder bearing surfaces and a central body, and further comprising a plurality of wedges disposed along a bottom surface of the elongated concrete element.