A universal chain tie down assembly includes an anchor base and an associated turret, with a cannon pivotally connected to the turret. The proximal portion of a tensioning rod is associated with the cannon. The tensioning rod further includes a distal portion associated with a hub, along with a tool attachment portion that is configured for engagement by a tool for rotation of the tensioning rod. First and second arms of a constant tensioning device extend from proximal ends associated with the hub to distal ends spaced distally of the hub. A chain is associated with a distal end of the constant tensioning device, such as by being linked to the curved portion of a U-bolt of the constant tensioning device. A tension lock assembly and/or an anti-vibration assembly may be employed to prevent a vibration-induced change in the tension in the universal chain tie down assembly.
A hatch lock cover includes inner and outer flanges, with a keeper and a handle positioned between the flanges. The handle is rotatable with respect to the flanges to move a batten bar contacting surface into and out of engagement with a batten bar or a hatch cover tab of a hatch cover. A downwardly extending portion of an arm of the keeper may define an aperture and/or include a projection for securing an adjustment plate or extension piece to the arm to provide an alternative batten bar contacting surface. Alternatively, a mounting bracket may be provided to secure the hatch cover lock to a railcar, with the mounting bracket accommodating the hatch cover lock in different positions having different elevations. Such configurations allow the hatch cover lock to be adjusted for use with a batten bar or hatch cover tab having a gasket that has become worn out.
Abstract of the Disclosure A hatch lock cover includes inner and outer flanges, with a keeper and a handle positioned between the flanges. The handle is rotatable with respect to the flanges to move a batten bar contacting surface into and out of engagement with a batten bar or a hatch cover tab of a hatch cover. A downwardly extending portion of an arm of the keeper may define an aperture and/or include a projection for securing an adjustment plate or extension piece to the arm to provide an alternative batten bar contacting surface. Alternatively, a mounting bracket may be provided to secure the hatch cover lock to a railcar, with the mounting bracket accommodating the hatch cover lock in different positions having different elevations. Such configurations allow the hatch cover lock to be adjusted for use with a batten bar or hatch cover tab having a gasket that has become worn out. Date recue/Date Received 2021-01-20
A universal chain tie down assembly includes an anchor base and an associated turret, with a cannon pivotally connected to the turret. The proximal portion of a tensioning rod is associated with the cannon. The tensioning rod further includes a distal portion associated with a hub, along with a tool attachment portion that is configured for engagement by a tool for rotation of the tensioning rod. First and second arms of a constant tensioning device extend from proximal ends associated with the hub to distal ends spaced distally of the hub. A chain is associated with a distal end of the constant tensioning device, such as by being linked to the curved portion of a U-bolt of the constant tensioning device. A tension lock assembly and/or an anti-vibration assembly may be employed to prevent a vibration-induced change in the tension in the universal chain tie down assembly.
A universal chain tie down assembly includes an anchor base and an associated turret, with a cannon pivotally connected to the turret. The proximal portion of a tensioning rod is associated with the cannon. The tensioning rod further includes a distal portion associated with a hub, along with a tool attachment portion that is configured for engagement by a tool for rotation of the tensioning rod. First and second arms of a constant tensioning device extend from proximal ends associated with the hub to distal ends spaced distally of the hub. A chain is associated with a distal end of the constant tensioning device, such as by being linked to the curved portion of a U-bolt of the constant tensioning device. A tension lock assembly and/or an anti-vibration assembly may be employed to prevent a vibration-induced change in the tension in the universal chain tie down assembly.
A universal chain tie down assembly includes an anchor base and an associated turret, with a cannon pivotally connected to the turret. The proximal portion of a tensioning rod is associated with the cannon. The tensioning rod further includes a distal portion associated with a hub, along with a tool attachment portion that is configured for engagement by a tool for rotation of the tensioning rod. First and second arms of a constant tensioning device extend from proximal ends associated with the hub to distal ends spaced distally of the hub. A chain is associated with a distal end of the constant tensioning device, such as by being linked to the curved portion of a U-bolt of the constant tensioning device. A tension lock assembly and/or an anti-vibration assembly may be employed to prevent a vibration-induced change in the tension in the universal chain tie down assembly.
A universal chain tie down assembly includes an anchor base and an associated turret, with a cannon pivotally connected to the turret. The proximal portion of a tensioning rod is associated with the cannon. The tensioning rod further includes a distal portion associated with a hub, along with a tool attachment portion that is configured for engagement by a tool for rotation of the tensioning rod. First and second arms of a constant tensioning device extend from proximal ends associated with the hub to distal ends spaced distally of the hub. A chain is associated with a distal end of the constant tensioning device, such as by being linked to the curved portion of a U-bolt of the constant tensioning device. A tension lock assembly and/or an anti-vibration assembly may be employed to prevent a vibration-induced change in the tension in the universal chain tie down assembly.
A universal chain tie down assembly includes an anchor base and an associated turret, with a cannon pivotally connected to the turret. The proximal portion of a tensioning rod is associated with the cannon. The tensioning rod further includes a distal portion associated with a hub, along with a tool attachment portion that is configured for engagement by a tool for rotation of the tensioning rod. First and second arms of a constant tensioning device extend from proximal ends associated with the hub to distal ends spaced distally of the hub. A chain is associated with a distal end of the constant tensioning device, such as by being linked to the curved portion of a U-bolt of the constant tensioning device. A tension lock assembly and/or an anti-vibration assembly may be employed to prevent a vibration-induced change in the tension in the universal chain tie down assembly.
F16B 39/10 - Locking of screws, bolts, or nuts in which the locking takes place after screwing down by a plate or ring immovable with regard to the bolt or object
An uncoupling lever for a railcar has first, second, and third lever members slidably connected to each other for relative motion along their lengths. The second and third lever members are urged apart from one another along their lengths with a biasing member. The uncoupling lever has a handle configured for manual operation of the uncoupling lever, and a hook configured for actuating a lock of a coupler of the railcar. One of the handle and hook is operatively connected to the first lever member and the other of the handle and hook is operatively connected to the third lever member.
An uncoupling lever for a railcar has a handle rotated upward to move the uncoupling lever upward, raising a lock lifter linkage allowing a knuckle of a coupler of the railcar to open, uncoupling adjacent railcars. The uncoupling lever may be a telescoping lever with a biasing member allowing improved extension/compression and operation. The uncoupling lever has first, second, and third lever members slidably connected to each other for relative motion along their lengths. The second and third lever members are urged apart from one another along their lengths with a biasing member. The uncoupling lever has a handle configured for manual operation of the uncoupling lever, and a hook for actuating a lock of a coupler of the railcar. One of the handle and hook is operatively connected to the first lever member and the other of the handle and hook is operatively connected to the third lever member.
06 - Common metals and ores; objects made of metal
12 - Land, air and water vehicles; parts of land vehicles
22 - Rope, netting, tents, awnings, sails and sacks; padding and stuffing materials
Goods & Services
railway car hardware, made of metal or primarily of metal, namely, anchors, brackets, cables, clamps, cotter pins, hangers, latches, retainers, sleeves and supports non-metallic securement components for railways cars, namely, edge protectors; railway car hardware, made of metal or primarily of metal, namely, couplings, locking mechanisms for railcar couplers and locking hitch couplers securement components for railways cars, namely, synthetic webbing, rope and straps
13.
Ratchet load binder tie down anchor apparatus and methods of using the same
The present invention relates to a chain telescoping ratchet load binder tensioner apparatus useful for utilizing, for example, as tie-downs for heavy equipment on the decks of railcars, trucks, or other vehicles, although the invention should not be limited to its preferred application. More specifically, the present invention relates to a chain telescoping ratchet load binder tensioner apparatus for tensioning and holding a chain, such as a ½″ chain, and for tensioning the chain for the afore-mentioned tie-down applications. In addition, the present invention comprises a ratchet load binder tie down anchor apparatus comprises an end link and a swivel allowing the ratchet load binder to swivel about a central axis. Methods of use are further provided.
A railway car air brake hose support bracket has an upper portion with first and second attachment members, a lower portion and an air hose connector. The first attachment member enters into and engages a portion of an accessible compartment of an uncoupling mechanism housing below the coupler head, and the second attachment member is secured to an air brake hose support lug of the railway car coupler. The air brake hose connector engages an air brake hose assembly and suspends this hose assembly from the railway coupler at a predetermined distance above the rail bed. A method of installing the hose support bracket includes positioning the first and second attachment members, securing them in place, and attaching one or more railway brake hose units to the air hose connector, either before or after this positioning and securing of the upper portion of the bracket.
F16L 3/12 - Supports for pipes, cables or protective tubing, e.g. hangers, holders, clamps, cleats, clips, brackets substantially surrounding the pipe, cable or protective tubing comprising a member substantially surrounding the pipe, cable or protective tubing
B61H 11/06 - Applications or arrangements of braking or retarding apparatus not otherwise provided forCombinations of apparatus of different kinds or types of hydrostatic, hydrodynamic, or aerodynamic brakes
F16L 3/127 - Supports for pipes, cables or protective tubing, e.g. hangers, holders, clamps, cleats, clips, brackets substantially surrounding the pipe, cable or protective tubing comprising a member substantially surrounding the pipe, cable or protective tubing and extending away from the attachment surface
B60T 17/04 - Arrangement of piping, valves in the piping, e.g. cut-off valves, couplings or air hoses
B61G 5/08 - Couplings not otherwise provided for for, or combined with, couplings or connectors for fluid conduits or electric cables for fluid conduits
15.
Variable stiffness compression apparatus, systems and methods of using the same
The present invention comprises an apparatus for use in line with a chain or a strap tie-down assembly. When the chain or strap tie-down assembly is tightened on a commodity to prevent movement of the same during shipping, the apparatus compresses and stretches. During transport, if the commodity loosens and creates slack in the chain or tie-down assembly, the apparatus may decompress and shorten, thereby taking up the slack and maintaining tension in the chain or tie-down assembly to prevent or minimize loosening and damage of the commodity.
The present invention comprises an apparatus for use in line with a chain or a strap tie-down assembly. When the chain or strap tie-down assembly is tightened on a commodity to prevent movement of the same during shipping, the apparatus compresses and stretches. During transport, if the commodity loosens and creates slack in the chain or tie-down assembly, the apparatus may decompress and shorten, thereby taking up the slack and maintaining tension in the chain or tie-down assembly to prevent or minimize loosening and damage of the commodity.
A railway car air brake hose support bracket has an upper portion with first and second attachment members, a lower portion and an air hose connector. The first attachment member enters into and engages a portion of an accessible compartment of an uncoupling mechanism housing below the coupler head, and the second attachment member is secured to an air brake hose support lug of the railway car coupler. The air brake hose connector engages an air brake hose assembly and suspends this hose assembly from the railway coupler at a predetermined distance above the rail bed. A method of installing the hose support bracket includes positioning the first and second attachment members, securing them in place, and attaching one or more railway brake hose units to the air hose connector, either before or after this positioning and securing of the upper portion of the bracket.
F16L 3/12 - Supports for pipes, cables or protective tubing, e.g. hangers, holders, clamps, cleats, clips, brackets substantially surrounding the pipe, cable or protective tubing comprising a member substantially surrounding the pipe, cable or protective tubing
B61H 11/06 - Applications or arrangements of braking or retarding apparatus not otherwise provided forCombinations of apparatus of different kinds or types of hydrostatic, hydrodynamic, or aerodynamic brakes
F16L 3/127 - Supports for pipes, cables or protective tubing, e.g. hangers, holders, clamps, cleats, clips, brackets substantially surrounding the pipe, cable or protective tubing comprising a member substantially surrounding the pipe, cable or protective tubing and extending away from the attachment surface
A railway car air brake hose support bracket has an upper portion with first and second attachment members, a lower portion and an air hose connector. The first attachment member enters into and engages a portion of an accessible compartment of an uncoupling mechanism housing below the coupler head, and the second attachment member is secured to an air brake hose support lug of the railway car coupler. The air brake hose connector engages an air brake hose assembly and suspends this hose assembly from the railway coupler at a predetermined distance above the rail bed. A method of installing the hose support bracket includes positioning the first and second attachment members, securing them in place, and attaching one or more railway brake hose units to the air hose connector, either before or after this positioning and securing of the upper portion of the bracket.
B61G 5/08 - Couplings not otherwise provided for for, or combined with, couplings or connectors for fluid conduits or electric cables for fluid conduits
A railcar deck channel pivoting side wall apparatus and methods of making and using the same are provided. Specifically, the railcar deck channel pivoting side wall apparatus comprises a pivoting side wall arranged within a railcar deck channel to allow for the easy installation and/or removal of chain assemblies on railcar decks for the transport of heavy items thereon.
A spring-style railway hose support has a retraction-biased extension unit of a longitudinally compressible spring and a pair of oppositely directed internal wireforms within the longitudinally compressible spring. The internal wireforms engage respective ends of the longitudinally compressible spring, and a closed end of each is configured to allow it to project beyond a respective end of the longitudinally compressible spring. The retraction-biased extension unit is adapted to be directly or indirectly connected to a railway brake hose and to a railway car component that is positioned above the hose on a railway car.
F16L 3/01 - Supports for pipes, cables or protective tubing, e.g. hangers, holders, clamps, cleats, clips, brackets for supporting or guiding the pipes, cables or protective tubing, between relatively movable points, e.g. movable channels
B61G 5/08 - Couplings not otherwise provided for for, or combined with, couplings or connectors for fluid conduits or electric cables for fluid conduits
F16L 3/205 - Supports for pipes, cables or protective tubing, e.g. hangers, holders, clamps, cleats, clips, brackets with special provision allowing movement of the pipe allowing movement in transverse direction having supporting springs
A spring-style railway hose support has a retraction-biased extension unit of a longitudinally compressible spring and a pair of oppositely directed internal wireforms within the longitudinally compressible spring. The internal wireforms engage respective ends of the longitudinally compressible spring, and a closed end of each is configured to allow it to project beyond a respective end of the longitudinally compressible spring. The retraction-biased extension unit is adapted to be directly or indirectly connected to a railway brake hose and to a railway car component that is positioned above the hose on a railway car.
The present invention relates to a chain winch apparatus useful for utilizing, for example, as tie-downs for heavy equipment on the decks of railcars, trucks, or other vehicles, although the invention should not be limited to its preferred application. More specifically, the present invention relates to a chain winch apparatus for winching and holding a chain, such as a ½″ chain, and for tensioning the chain for the afore-mentioned tie-down applications. Methods of use are further provided.
06 - Common metals and ores; objects made of metal
12 - Land, air and water vehicles; parts of land vehicles
22 - Rope, netting, tents, awnings, sails and sacks; padding and stuffing materials
Goods & Services
(1) Railway car hardware, made of metal or primarily of metal, namely anchors, brackets, cables, clamps, cotter pins, couplings, hangers, latches, locking mechanisms, retainers, sleeves and supports.
(2) Railway car non-metallic lading securement components, namely, edge protectors.
(3) Railway car non-metallic lading securement components, namely synthetic webbing, rope and straps.
06 - Common metals and ores; objects made of metal
12 - Land, air and water vehicles; parts of land vehicles
22 - Rope, netting, tents, awnings, sails and sacks; padding and stuffing materials
Goods & Services
Railway car hardware, made of metal or primarily of metal, namely, anchors, brackets, cables, clamps, cotter pins, couplings, hangers, latches, locking mechanisms, retainers, sleeves and supports non-metallic securement components for railways cars, namely, edge protectors securement components for railways cars, namely, synthetic webbing, rope and straps
26.
STRAPPING RETAINER FOR LADING AND METHOD FOR USING THE SAME
A retainer having an elongated body secures one end of a cargo-engaging strapping to a wall anchor of a cargo transport unit wall. In operation, a loop is formed in the strapping and passed from a first side of the anchor to a second side, where the retainer is inserted within the loop, such that the loop engages a portion of a strapping-engaging surface of the retainer body. Then the loop is pulled toward the anchor until the retainer seats against the anchor. Finally, the portion of the strapping extending from the first side is pulled toward the second side, whereby a loose end of the loop is secured against the anchor. The retainer prevents strapping slippage along the anchor, which preserves the tension in the strapping and prevents the cargo from shifting and becoming damaged. The retainer also allows for improved application and removal of the strapping.
A two-piece anchor assembly has a retainer and an interlocking link. The link is a unitary component that is formed by a single forging step. The link is secured to the floor of a railway flatcar by the retainer. A steel band is connected at one end to a load bearing surface of the link of a first anchor assembly and at another end to a load bearing surface of the link of a second anchor assembly. A tensile force is then applied to the steel banding and crimped with a clip in order to secure cargo. The load bearing surface has an enhanced banding radius, which reduces the risk of band breakage when the steel band is subjected to a high tensile force by preventing "creasing" at contact locations.
