A cargo transporting vehicle configured to travel along a path of a work site is provided. The cargo transporting vehicle includes: a traveling unit configured to travel on the path; a plate configured to load a cargo thereon; a loading unit including at least an articulated arm structure in which a width and an extendable length are adjusted according to dimensions of the cargo, the articulated arm structure being configured to load and unload the cargo onto and from the plate; and a plate lifting unit configured to raise or lower the plate.

A cargo transporting vehicle configured to travel along a path of a work site is provided. The cargo transporting vehicle includes: a traveling unit configured to travel on the path; a plate configured to load a cargo thereon; a loading unit including at least an articulated arm structure in which a width and an extendable length are adjusted according to dimensions of the cargo, the articulated arm structure being configured to load and unload the cargo onto and from the plate; and a plate lifting unit configured to raise or lower the plate.

A disclosed method extends a support system for a maglev vehicle, the support system having at least a first landing gear assembly and a second landing gear assembly. The method includes the steps of determining a weight-on-wheels status for each of the first and the second landing gear assemblies and determining a distance from each of the first and second landing gear assemblies to a support surface. First and second extension speeds are determined for each of the first and second landing gear assemblies, respectively. The first landing gear assembly is extended at the first extension speed until the first landing gear assembly reaches a weight-on-wheels condition, and the second landing gear assembly is extended at the second extension speed until the second landing gear assembly reaches the weight-on-wheels condition.

A disclosed method extends a support system for a maglev vehicle, the support system having at least a first landing gear assembly and a second landing gear assembly. The method includes the steps of determining a weight-on-wheels status for each of the first and the second landing gear assemblies and determining a distance from each of the first and second landing gear assemblies to a support surface. First and second extension speeds are determined for each of the first and second landing gear assemblies, respectively. The first landing gear assembly is extended at the first extension speed until the first landing gear assembly reaches a weight-on-wheels condition, and the second landing gear assembly is extended at the second extension speed until the second landing gear assembly reaches the weight-on-wheels condition.

The ultralight two track train that does not derail, made up of one or more ultralight wagons and aerodynamic, oval or semi-oval transverse profiles, characterized in that the wagons carry vertical or inclined wheels or pulley wheels in their lower area and supported by the chassis of the wagons, which rest and roll on a pair of vertical or inclined rails, the channels of the pulley wheels are supported and held on the head of circular, semicircular or semi-oval section of the rails, the heads of the rails being trapped with the pulley wheels, adding pairs of wheels that use a common axis, the rails are coupled and fixed tongue and groove to the sleepers or to some monolithic structures or channels, the sleepers are fixed using the track system on concrete slab, using electrical supply means, propellant means and reducing means of the front, rear and lateral resistance of the wagons, adding wheels with permanent magnets or with electromagnets that are attached, or run close and attracted by the rails.

A vehicle is configured to operate in a first mode in a cantilevered manner from a left side of the vehicle; in a second mode in a cantilevered manner from a right side of the vehicle; and in a third mode in which the vehicle is supported from beneath in a non-cantilevered manner. The vehicle comprises a number of wheel assemblies to facilitate operation in first, second and third modes. The vehicle is configured to navigate between first mode and second mode at junctions offering both options by electing different combinations of wheel engagement and disengagement.

A vehicle is configured to operate in a first mode in a cantilevered manner from a left side of the vehicle; in a second mode in a cantilevered manner from a right side of the vehicle; and in a third mode in which the vehicle is supported from beneath in a non-cantilevered manner. The vehicle comprises a number of wheel assemblies to facilitate operation in first, second and third modes. The vehicle is configured to navigate between first mode and second mode at junctions offering both options by electing different combinations of wheel engagement and disengagement.

A railcar steering bogie includes a bogie frame, a wheelset, an axle box suspension, a steering mechanism configured to steer the wheelset, a brake unit, and a brake unit support link. The brake unit includes: a main body frame; a brake shoe supported by the main body frame and pressed against a wheel tread of the wheel during braking. The brake unit support link couples the axle box suspension and the brake unit and transmits displacement of the axle box in a car longitudinal direction to the brake unit at least during steering performed by the steering mechanism. The brake unit support link restricts the brake unit from being displaced outward in a car width direction by a predetermined distance or more during the braking. At least one of a side surface of the brake unit support link and a side surface of the brake unit includes a sliding surface.

A wheel for a displacement truck having a wheel body and removable ribs is provided. The ribs are segmented into at least two parts to facilitate removal from the wheel body.

A wheel for a displacement truck having a wheel body and removable ribs is provided. The ribs are segmented into at least two parts to facilitate removal from the wheel body.