An assembly for increasing the load-bearing capacity of a structural component of a rail vehicle, in particular the tensile strength and the compressive strength. The structural component has a first connection point and a second connection point. A tensile force acting on the first connection point or a compressive force acting on the first connection point is transmitted to the second connection point. A first load path which is designed to transmit the compressive force is formed between the first connection point and the second connection point, and a second load path which is designed to transmit the tensile force is formed between the first connection point and the second connection point. The first load path and the second load path have different compressive strengths, thus achieving a division of the force transmission by the different compressive strengths.

An assembly for increasing the load-bearing capacity of a structural component of a rail vehicle, in particular the tensile strength and the compressive strength. The structural component has a first connection point and a second connection point. A tensile force acting on the first connection point or a compressive force acting on the first connection point is transmitted to the second connection point. A first load path which is designed to transmit the compressive force is formed between the first connection point and the second connection point, and a second load path which is designed to transmit the tensile force is formed between the first connection point and the second connection point. The first load path and the second load path have different compressive strengths, thus achieving a division of the force transmission by the different compressive strengths.

A hybrid cable/rail transportation system comprising: at least one portion of the system configured as a cable transportation system; at least one portion of the system configured as a rail transportation system, a first trolley coupled to the supporting cable and comprising a first coupling device for coupling to the cabin; a second trolley coupled to the rail and comprising a second coupling device for coupling to the cabin; a plurality of transportation units wherein each transportation unit comprises a cabin, each cabin comprising a roof provided with a coupling system configured for coupling the cabin to the first trolley along the system portion configured as a cable transportation system and to the second trolley along the system portion configured as a rail transportation system; wherein the coupling system arranged on the roof of the cabin, the first coupling device of the first trolley and the second coupling device of the second trolley are configured for allowing a progressive passage of the cabin from the first to the second trolley, or vice-versa, without stopping the support.

A system for the transportation of loads and/or persons at height comprises at least one car defining at least one cab for the transportation of loads and/or persons, and comprises a (tangible) cable transport component/unit/device/machine (or the like) of the car adapted to move the latter suspended at height; and a (tangible) movement component/unit/device/machine (or the like) of the car onto the ground.

A system for the transportation of loads and/or persons at height comprises at least one car defining at least one cab for the transportation of loads and/or persons, and comprises a (tangible) cable transport component/unit/device/machine (or the like) of the car adapted to move the latter suspended at height; and a (tangible) movement component/unit/device/machine (or the like) of the car onto the ground.

A housing of a railway vehicle device includes a reinforcing member and at least one first exterior member. The reinforcing member includes a first support member extending in a X-axis direction, and second support members that are fixed to the first support member while main surfaces are oriented in a direction intersecting the X-axis direction, the second support members being plate-like members. The first exterior members are thin plate-like members that are fixed to side surfaces of the second support members, cover a periphery of the reinforcing member, and form housing surfaces extending along the X-axis direction. In each of the first exterior members, cutouts each are formed extending in a direction intersecting the X-axis direction from the both ends in the direction intersecting the X-axis direction. An opening is formed, by the cutouts, in at least one of the housing surfaces extending along the X-axis direction.

A housing of a railway vehicle device includes a reinforcing member and at least one first exterior member. The reinforcing member includes a first support member extending in a X-axis direction, and second support members that are fixed to the first support member while main surfaces are oriented in a direction intersecting the X-axis direction, the second support members being plate-like members. The first exterior members are thin plate-like members that are fixed to side surfaces of the second support members, cover a periphery of the reinforcing member, and form housing surfaces extending along the X-axis direction. In each of the first exterior members, cutouts each are formed extending in a direction intersecting the X-axis direction from the both ends in the direction intersecting the X-axis direction. An opening is formed, by the cutouts, in at least one of the housing surfaces extending along the X-axis direction.

A bolster structure is capable of securing a prescribed space between a bolster and an underframe, maintaining the rigidity of the bolster structure, and reducing its weight and cost. The bolster structure is provided on an underframe constituting a floor of a railroad vehicle, and is formed by joining a plurality of shaped members having a multi-layer structure in which a width direction of the structure body is an extrusion direction. The plurality of shaped members include: shaped members 15B and 15C having a region in which a part of layers on an underframe side is notched at a center of the structure body in the width direction; and shaped members including a fastening portion formed by notching a part of layers at both ends of the structure body in the width direction. A side beam of the underframe is fixed by the fastening portion.

A bolster structure is capable of securing a prescribed space between a bolster and an underframe, maintaining the rigidity of the bolster structure, and reducing its weight and cost. The bolster structure is provided on an underframe constituting a floor of a railroad vehicle, and is formed by joining a plurality of shaped members having a multi-layer structure in which a width direction of the structure body is an extrusion direction. The plurality of shaped members include: shaped members 15B and 15C having a region in which a part of layers on an underframe side is notched at a center of the structure body in the width direction; and shaped members including a fastening portion formed by notching a part of layers at both ends of the structure body in the width direction. A side beam of the underframe is fixed by the fastening portion.

According to a railcar, a low-floor underframe includes side beams to which side bodyshells are coupled, a high-floor underframe includes a center sill disposed to extend in a car longitudinal direction at a center in a car width direction and a body bolster coupled to this center sill and to be an installation portion of a bogie, and the body bolster is coupled to the side beam by a coupling member. Thus, the car end compression load input to the high-floor underframe can be directly transmitted from the center sill and the body bolster to the side beams via the coupling member. This can disperse the car end compression load on the side bodyshells to ensure the car strength against the car end compression load.