According to some embodiments, a railcar comprises an underframe and at least one hopper. The hopper is configured to transport a lading material. A longitudinal sliding gate assembly is coupled to the hopper and comprises: a pair of side walls coupled to a pair of end walls forming a discharge opening; a pair of tracks, one coupled to each end wall; a sliding gate slidably coupled to the pair of tracks; and a threaded drive screw coupled to the sliding gate and to the pair of side walls. Rotation of the threaded drive screw in a first direction moves the sliding gate along the tracks to an open position that permits the lading material to discharge, and rotation of the threaded drive screw in an opposite direction moves the sliding gate along the tracks to a closed position that restricts the lading material from discharging.
According to some embodiments, a compression strut comprises a first strut body comprising a threaded end and a hollow end, and a second strut body comprising a threaded end and a shaped end. The hollow end of the first strut body is slidably coupled to the shaped end of the second strut body. A spring is disposed between the first strut body and the second strut body configured to resist longitudinal compression of the compression strut. The first strut body is rotationally coupled to the second strut body so that rotation of the first strut body also rotates the second strut body and rotation of the second strut body also rotates the first strut body. A first ball end is threaded to the first strut body and a second ball end is threaded to the second strut body.
B61D 7/18 - Eléments de fermeture des ouvertures de déchargement pivotants
F16F 3/04 - Ensembles de ressorts constitués par plusieurs ressorts, p.ex. pour réaliser une caractéristique d'élasticité voulue avec ressorts en acier ou faits d'un autre matériau, ayant une friction intérieure faible composés uniquement de ressorts enroulés
B61D 7/20 - Eléments de fermeture des ouvertures de déchargement coulissants
B61D 7/26 - Dispositifs d'ouverture ou de fermeture mécaniques
B61D 7/28 - Dispositifs d'ouverture ou de fermeture hydrauliques ou pneumatiques
F16F 9/32 - Ressorts, amortisseurs de vibrations, amortisseurs de chocs ou amortisseurs de mouvement de structure similaire, utilisant un fluide ou moyen équivalent comme agent d'amortissement - Parties constitutives
According to some embodiments, a railcar comprises an interior wall and guard strips magnetically coupled to the interior wall. Each of the guard strips comprises a cushioning material for absorbing impact. The guard strips are configured to prevent an object loaded in the railcar from contacting the interior wall. The railcar further comprises protected magnetic fastening systems coupling each of the guard strips to the interior wall. Each of the protected magnetic fastening systems comprises a magnet and a rod comprising a first end and a second end. The first end is coupled to the magnet, and the second end extends through the guard strip. The protected magnetic fastening system may further comprise a cup washer coupled to the second end of the rod and secured with a fastener. The cup washer partially surrounds the fastener to restrict objects larger than the cup washer from contacting the fastener.
B61F 11/00 - Véhicules ferroviaires caractérisés par des éléments de prise avec la voie autres que des roues, p.ex. des boules
B61D 3/18 - Wagons de marchandises découverts ou fourgons adaptés au transport de chargements particuliers de véhicules
B60L 13/00 - Propulsion électrique pour véhicules à monorail, véhicules suspendus ou chemins de fer à crémaillère; Suspension ou lévitation magnétiques pour véhicules
B60L 13/06 - Moyens pour déterminer ou commander la position ou l'assiette du véhicule relativement à la voie
B61F 9/00 - Véhicules ferroviaires caractérisés par des moyens de prévention contre les déraillements, p.ex. par utilisation de roues de guidage
E01B 25/30 - Voies pour véhicules à suspension ou à sustentation magnétiques
4.
System and method for restraining a vehicle with integral tightening device
A system includes a strap assembly positioned on a portion of a tire of a vehicle and configured to be coupled to a deck of a transport, and a mandrel assembly operable to be coupled to the strap assembly. The system also includes a winch assembly configured to be coupled to the deck of the transport including a winch assembly axel configured to be coupled to the mandrel assembly. The winch assembly is configured to engage the winch assembly axel to prevent rotation of the mandrel assembly in a first rotational direction to produce a tension force to secure the strap assembly around the portion of the tire. The system further includes a tightening assembly configured to rotate the mandrel assembly in a second rotational direction to produce a tightening force to tighten the strap assembly around the portion of the tire. The system additionally includes a release mechanism.
In one embodiment, a system includes a first door assembly operable to at least partially cover an opening of a rail car. The system also includes an actuator. A first common linkage is coupled to the actuator and is operable to reciprocally move in a longitudinal direction relative to the actuator. In particular embodiments, a first secondary linkage is coupled to the first common linkage and is coupled to an exterior surface of the first door assembly, wherein the first secondary linkage cooperates with the first common linkage to move the first door assembly between an open position and a closed position over the top hatch of the rail car.
A system for covering a railcar includes a first set and a second set of structural members coupled to a railcar. The structural members are configured to move between a loading position, an unloading positing, and a covered position. The system includes a plurality of cover portions, each coupled to a structural member of the first set and a structural member of the second set. In the loading position, at least one of the first set and at least one of second set are proximate longitudinal sides of the railcar. In the unloading position, at least one of the first set and at least one of second set are proximate a longitudinal center line of the railcar. In the covered position, the first set are proximate the longitudinal center line of the railcar, and the second set are proximate the longitudinal sides of the railcar.
A gusset is capable of providing reinforcement in tank cars, particularly for nozzles in tank cars. A tank car includes a body having a curved wall portion, a nozzle opening formed in the wall, a reinforcing pad disposed on the wall, adjacent to the nozzle, and a gusset configured to support the nozzle. The gusset includes a portion of a cylinder having a predetermined radius. The portion of the cylinder includes a first edge disposed adjacent to a circumferential surface of the nozzle and a second edge disposed adjacent to a circumferential surface of the reinforcing pad, such that an axis of the portion of the cylinder intersects an axis of the nozzle at a predetermined angle. The predetermined radius and the predetermined angle are configured such that an arc of the portion of the cylinder extends less than approximately 180 degrees.
B61D 5/06 - Montage des citernes; Caisses et châssis faisant corps
B65D 90/00 - MANUTENTION; EMBALLAGE; EMMAGASINAGE; MANIPULATION DES MATÉRIAUX DE FORME PLATE OU FILIFORME ÉLÉMENTS D'EMBALLAGE; PAQUETS - Parties constitutives, détails ou accessoires des grands réceptacles
8.
Tie down system with winch and grate overlay panel
In a tie down system and method for securing a vehicle tire to a wire grate, a slotted overlay panel rest on top of the wire grate. A clevis assembly having one end of a tire trap assembly attached thereto is provided along with the winch assembly having a winch for receiving an opposite end of the tire strap assembly. Each of the clevis assembly and winch assembly have a T hook with a T portion which is insertable through a respective slot of the overlay panel.
A method comprising removing a roof from a railcar, the railcar comprising a plurality of top chords, coupling an outer portion of a replacement roof to one or more of the plurality of top chords, the outer portion comprising a frame and a first plurality of panels, and coupling an inner portion of the replacement roof to the frame of the outer portion of the replacement roof after coupling the outer portion to one or more of the plurality of top chords, the inner portion comprising a second plurality of panels.
In one embodiment, a system includes a first door assembly operable to at least partially cover an opening of a rail car. The system also includes an actuator. A first common linkage is coupled to the actuator and is operable to reciprocally move in a longitudinal direction relative to the actuator. In particular embodiments, a first secondary linkage is coupled to the first common linkage and is coupled to an exterior surface of the first door assembly, wherein the first secondary linkage cooperates with the first common linkage to move the first door assembly between an open position and a closed position over the top hatch of the rail car.
A draft sill with special rear draft lug for a railcar is disclosed. In some embodiments, a rear draft lug comprises a metallic body. The rear draft lug further comprises a boss extending along a transverse portion of the metallic body. The boss is configured to be coupled to a first vertical reinforcement plate. The rear draft lug also comprises an overhang portion extending from the boss along the transverse portion. The overhang portion configured to be coupled to the first vertical reinforcement plate. In some embodiments, the boss and the overhang portion are configured to be coupled to the first vertical reinforcement plate with a weld.
A vehicle restraint system includes a strap assembly configured to be positioned on a portion of a tire of a vehicle to secure the vehicle to a configurable track assembly, such that the strap assembly is configured to be coupled to the configurable track assembly on inboard side of the tire of the vehicle. System includes a pin assembly configured to be coupled to the configurable track assembly on outboard side of the tire of the vehicle, such that the pin assembly is operable to receive the strap assembly. System also includes a winch assembly configured to be coupled to the configurable track assembly and to a second end of the strap assembly, such that the winch assembly is uncoupled from the pin assembly and operable to tighten the strap assembly around a portion of the tire.
Systems and methods for accumulating air in an auxiliary reservoir of a railroad car are disclosed. In some embodiments, the method may include charging an air brake system. Air pressure in the air brake system may reach a predetermined value. Once this predetermined value is reached, additional or excess air may be bled from the air brake system and the additional or excess air may accumulate in an auxiliary reservoir. The auxiliary reservoir may be adapted to supply air to an auxiliary cylinder or other types of pneumatic components or equipment.
B60T 13/00 - Transmission de l'action de freinage entre l'organe d'attaque et les organes terminaux d'action, avec puissance de freinage assistée ou relais de puissance; Systèmes de freins incorporant ces moyens de transmission, p.ex. systèmes de freinage à pression d'air
B61D 7/02 - Wagons-trémies avec des ouvertures de déchargement dans le fond
B60T 15/48 - Autres dispositifs de commandes ou valves caractérisés par des fonctions définies pour emplissage des réservoirs
B61D 7/28 - Dispositifs d'ouverture ou de fermeture hydrauliques ou pneumatiques
B60T 8/66 - Dispositions pour adapter la force de freinage sur la roue aux conditions propres au véhicule ou à l'état du sol, p.ex. par limitation ou variation de la force de freinage selon une condition de vitesse, p.ex. accélération ou décélération selon une condition de vitesse et une autre condition, ou selon une pluralité de conditions de vitesse utilisant un circuit électrique pour commander l'action de freinage, le circuit générant une fonction de commande relative à la dynamique de la roue ou du véhicule freinés l'action de freinage étant sensible à la différence entre une vitesse calculée ou théorique et une vitesse réelle d'une roue
B60T 13/36 - Systèmes à air comprimé directs, c. à d. freins actionnés directement par l'air comprimé
B60T 15/30 - Valves-relais triples ou autres permettant l'application ou le relâchement par à-coups et qui sont actionnées par la variation de pression dans le tuyau de frein reliant les cylindres de frein ou organes équivalents à la source d'air comprimé, au vid commandées par trois pressions de fluides avec une brusque action de freinage
A railway car includes a railway car underframe having a first longitudinal side sill and a second longitudinal side sill with at least one sidewall assembly disposed along the first longitudinal side sill of the railway car underframe. The sidewall assembly is formed in part from a side sheet, an interior vertical support post, and an exterior vertical support post. A first end of the interior vertical support post and a first end of the exterior vertical support post are each respectively disposed adjacent to the first longitudinal side sill of the railway car underframe. The exterior vertical support post is coupled to an exterior surface of the side sheet. The interior vertical support post is coupled to an interior surface of the side sheet.
B61D 17/00 - PARTIES CONSTITUTIVES DU CORPS DES VÉHICULES FERROVIAIRES OU GENRES OU TYPES DE VÉHICLES - Parties constitutives structurales du corps des véhicules
15.
System and method for reinforcing railway tank cars
An apparatus for reinforcing a railway tank car includes a tank shell. A plurality of attachment pads are welded to the tank shell to form a tank assembly. The tank assembly is subjected to a post-weld heat treatment. A plurality of shield plates may each be welded directly to at least one of the plurality of attachment pads. The shield plates are not subjected to the post-weld heat treatment.
Hopper cars both open and covered and discharge control systems are disclosed. Each hopper car may include at least one hopper and a center sill which defines in part a longitudinal axis of the hopper car. At least one discharge opening may be formed proximate a lower portion of each hopper. A respective door assembly may be pivotally mounted adjacent to each discharge opening to control the flow of lading from the respective discharge opening. Each discharge control system may include a common linkage and associated secondary linkages operable to move associated door assemblies between a first position and a second position. A power source including a motor, an air cylinder or a hydraulic cylinder may be disposed on the railway car to move the common linkage. For other hopper cars a wayside drive system may be releasably engaged with a capstan operable coupled to the common linkage.
A railcar system includes a plurality of railcar walls and a plurality of railcar support posts each coupled to at least one of the plurality of walls. Each of the plurality of support posts comprises a web portion comprising a non-metallic material and a plurality of flange portions coupled to the web portion, the flange portions comprising a metallic material.
B61D 17/00 - PARTIES CONSTITUTIVES DU CORPS DES VÉHICULES FERROVIAIRES OU GENRES OU TYPES DE VÉHICLES - Parties constitutives structurales du corps des véhicules
E04C 3/00 - Eléments de construction de forme allongée, conçus pour supporter des charges
18.
Hopper cars with one or more discharge control systems
Hopper cars both open and covered and discharge control systems are disclosed. Each hopper car may include at least one hopper and a center sill which defines in part a longitudinal axis of the hopper car. At least one discharge opening may be formed proximate a lower portion of each hopper. A respective door assembly may be pivotally mounted adjacent to each discharge opening to control the flow of lading from the respective discharge opening. Each discharge control system may include a common linkage and associated secondary linkages operable to move associated door assemblies between a first position and a second position. A power source including a motor, an air cylinder or a hydraulic cylinder may be disposed on the railway car to move the common linkage. For other hopper cars a wayside drive system may be releasably engaged with a capstan operable coupled to the common linkage.
A railcar with discharge control system is disclosed. In one embodiment, a railway car includes an underframe and at least one hopper for transporting lading. The railway car further including the underframe including a center sill which defines in part a longitudinal axis of the railway car. A discharge opening formed proximate to a lower portion of the hopper. A respective door assembly pivotally mounted adjacent to the discharge opening to control the flow of lading from the hopper. The door assembly operable for movement between a first, closed position and a second, open position relative to the discharge opening. A discharge control system operable to move the door assembly between the first position and the second position. The discharge control system operably moves generally longitudinally along the axis of the railway car to move the door assemblies between the first, closed position and the second, open position.
A universal boxcar is provided with load carrying capabilities of a conventional uninsulated boxcar and temperature ratings of an insulated boxcar. The insulated boxcar may be formed with interior dimensions corresponding generally with interior dimensions of an uninsulated boxcar without requiring the use of high cost, high performance insulation. The insulated boxcar may be formed at a reasonable cost and selling price with increased load carrying capacity, increased service life, and reduced maintenance costs as compared to conventional insulated boxcars.
B61D 17/00 - PARTIES CONSTITUTIVES DU CORPS DES VÉHICULES FERROVIAIRES OU GENRES OU TYPES DE VÉHICLES - Parties constitutives structurales du corps des véhicules
A universal boxcar is provided with exterior metal surfaces and load carrying capabilities of a conventional uninsulated boxcar and thermal transfer ratings of an insulated boxcar. The boxcar may be formed with interior dimensions corresponding generally with interior dimensions of an uninsulated boxcar without high cost, high performance insulation. The boxcar may include a double side doors slidably mounted on the exterior of each sidewall assemble. A load restraint system may be provided with improved load carrying capabilities and performance characteristics. The load restraint system may have increased load carrying capacity, increased service life, and reduced maintenance costs. All or portions of the load restraint system may be used in uninsulated boxcars or temperature controlled railway cars.
B61D 17/00 - PARTIES CONSTITUTIVES DU CORPS DES VÉHICULES FERROVIAIRES OU GENRES OU TYPES DE VÉHICLES - Parties constitutives structurales du corps des véhicules
A railcar with discharge control system is disclosed. In one embodiment, a railway car includes an underframe and at least one hopper for transporting lading. The railway car further including the underframe including a center sill which defines in part a longitudinal axis of the railway car. A discharge opening formed proximate to a lower portion of the hopper. A respective door assembly pivotally mounted adjacent to the discharge opening to control the flow of lading from the hopper. The door assembly operable for movement between a first, closed position and a second, open position relative to the discharge opening. A discharge control system operable to move the door assembly between the first position and the second position. The discharge control system operably moves generally longitudinally along the axis of the railway car to move the door assemblies between the first, closed position and the second, open position.
A railcar with longitudinal discharge openings is disclosed. In one embodiment, the railcar includes an underframe, a pair of sidewall assemblies and a hopper formed between the sidewall assemblies. The underframe has a center sill and a pair of side sills. The center sill disposed between the pair of side sills along a generally longitudinally axis of the railcar. The hopper includes a discharge opening adjacent to the center sill. A respective discharge door assembly disposed adjacent to each discharge opening to control flow of lading from each hopper. Each discharge door may hinge from the center sill for movement between a first position and a second position relative to the discharge openings.