The invention relates to an articulated vehicle including a plurality of vehicles or vehicle parts connected to one another in an articulated manner, a passage arranged between adjacent ones of the vehicles or the vehicle parts, the passage having an inner lining and an outer lining laterally spaced from the inner lining so as to define an empty cavity therebetween, one front wall on each side of the passage between the two adjacent vehicles or vehicle parts, the inner lining and the outer lining being arranged at the front walls of the two adjacent vehicles or vehicle parts while forming the empty cavity therebetween, a noise-absorbing noise insulation layer applied to a free surface on each of the front walls in the empty cavity between the inner and outer lining, wherein each of the noise-absorbing noise insulation layer extends into the empty cavity and terminates at a surface facing opposite to the each of the front walls respectively.

An endframe of a gangway, the endframe configured to be connected to an endframe of a different gangway or to a car of a multi-car vehicle, the endframe comprising a beam, a connector attached to the beam, the connector being configured to connect the beam to a beam of an endframe of a different gangway or to connect the beam to a car of a multi-car vehicle or to connect the beam to a connector attached to a beam of an endframe of a different gangway or to connect the beam to a connector attached to a car of a multi-car vehicle, wherein a contact surface formed by a part of the beam and a groove arranged in the beam, wherein the groove has an opening and walls that delimit the groove, wherein one of the walls delimiting the groove is a backward facing wall, wherein the backward facing wall faces away from the contact surface, wherein the connector has a protrusion that is arranged inside the groove.

An endframe of a gangway, the endframe configured to be connected to an endframe of a different gangway or to a car of a multi-car vehicle, the endframe comprising a beam, a connector attached to the beam, the connector being configured to connect the beam to a beam of an endframe of a different gangway or to connect the beam to a car of a multi-car vehicle or to connect the beam to a connector attached to a beam of an endframe of a different gangway or to connect the beam to a connector attached to a car of a multi-car vehicle, wherein a contact surface formed by a part of the beam and a groove arranged in the beam, wherein the groove has an opening and walls that delimit the groove, wherein one of the walls delimiting the groove is a backward facing wall, wherein the backward facing wall faces away from the contact surface, wherein the connector has a protrusion that is arranged inside the groove.

An articulation system (1) for interconnecting first and second vehicle units of an articulated road vehicle comprises a central element (2) including a vertical cylinder with left and right arcuate walls (4) extending between two facing openings. First and second interconnecting structures (5) are joined to the central element (2) and are adapted to be respectively attached to the first and second vehicle units on opposed sides of the central element (2). Each interconnecting structure has a pitch joint member (5a) and a yaw joint member (5b). The pitch joint member (5a) has a frame (7) perpendicular to a longitudinal axis of a corresponding one of the first and second vehicle units and a pitch hinge mechanism (6) at a floor level to interconnect with the corresponding one of the first and second vehicle units. The yaw joint member (5b) has a frame (8) perpendicular to the longitudinal axis of the corresponding one of the first and second vehicle units and left and right arcuate walls juxtaposed to the left and right arcuate walls (4) of the vertical cylinder and rotatable therearound. The frame (7) of the pitch joint member (5a) and the frame (8) of the yaw joint member (5b) are juxtaposed and mechanically linked to jointly form a planar roll joint mechanism.

An articulation system (1) for interconnecting first and second vehicle units of an articulated road vehicle comprises a central element (2) including a vertical cylinder with left and right arcuate walls (4) extending between two facing openings. First and second interconnecting structures (5) are joined to the central element (2) and are adapted to be respectively attached to the first and second vehicle units on opposed sides of the central element (2). Each interconnecting structure has a pitch joint member (5a) and a yaw joint member (5b). The pitch joint member (5a) has a frame (7) perpendicular to a longitudinal axis of a corresponding one of the first and second vehicle units and a pitch hinge mechanism (6) at a floor level to interconnect with the corresponding one of the first and second vehicle units. The yaw joint member (5b) has a frame (8) perpendicular to the longitudinal axis of the corresponding one of the first and second vehicle units and left and right arcuate walls juxtaposed to the left and right arcuate walls (4) of the vertical cylinder and rotatable therearound. The frame (7) of the pitch joint member (5a) and the frame (8) of the yaw joint member (5b) are juxtaposed and mechanically linked to jointly form a planar roll joint mechanism.

A cable supporting device for articulated vehicles, designed for installing in an intercommunicating compartment between two adjacent cabins of an articulated vehicle, including at least one cable-holder element, defining internally at least one channel for housing at least one cable, two anchoring plates connected or connectable to respective ends of the cable-holder element and each configured for stable mounting to a different end portion of the articulated vehicle, and at least one connecting element, positioned for connecting between at least one end of the cable-holder element and the respective anchoring plate. In particular, the connecting element is configured to allow a reciprocal movement, between the respective end of the cable-holder element and the respective anchoring plate, at least about two axes of rotation which are not parallel to each other and preferably perpendicular to each other.

Described is a fixing device for fixing together a first and a second structure, each of said structures having at least a first and a second cavity, the device comprising a first and a second fixing element, each fixing element having a body comprising a seat and a pin, wherein: the pin of the first fixing element is configured to be inserted, freely passing through, in the first cavities of the first and of the second structure and to be reversibly coupled to the seat of the second fixing element, and the pin of the second fixing element is configured to be inserted, freely passing through, in the second cavities of the first and of the second structure and to be reversibly coupled to the seat of the first fixing element.

A joint module for an articulated vehicle, for pivotally interconnecting a first vehicle part and a second vehicle part of the articulated vehicle, the joint module including articulation joint having: a first segment, connectable to the first vehicle part, a second segment, connectable to the second vehicle part, a slewing bearing pivotally coupling the first segment to the second segment, the slewing bearing having an inner ring and an outer ring pivotable with respect to each other about a pivot axis, the pivot axis defining an axial direction of the articulation joint, the first segment having two first connecting plates spaced apart at a first distance and perpendicular to the axial direction, the outer ring being fixated to the connecting plates therebetween, each of the two first connecting plates having an arc-shaped recess wherein a central axis of the arc-shape of the recess is concentric with the pivot axis, and the second segment having two second connecting plates spaced apart at a second distance and perpendicular to the axial direction, the second distance being such that the two first connecting plates, at least with a portion thereof between which the outer ring is fixated, extend between the two second connecting plates, and the inner ring being fixated to the second connecting plates therebetween and at the location of the recesses in the first segment and method of manufacturing the same.

A joint module for an articulated vehicle, for pivotally interconnecting a first vehicle part and a second vehicle part of the articulated vehicle, the joint module including articulation joint having: a first segment, connectable to the first vehicle part, a second segment, connectable to the second vehicle part, a slewing bearing pivotally coupling the first segment to the second segment, the slewing bearing having an inner ring and an outer ring pivotable with respect to each other about a pivot axis, the pivot axis defining an axial direction of the articulation joint, the first segment having two first connecting plates spaced apart at a first distance and perpendicular to the axial direction, the outer ring being fixated to the connecting plates therebetween, each of the two first connecting plates having an arc-shaped recess wherein a central axis of the arc-shape of the recess is concentric with the pivot axis, and the second segment having two second connecting plates spaced apart at a second distance and perpendicular to the axial direction, the second distance being such that the two first connecting plates, at least with a portion thereof between which the outer ring is fixated, extend between the two second connecting plates, and the inner ring being fixated to the second connecting plates therebetween and at the location of the recesses in the first segment and method of manufacturing the same.

The invention relates to a gangway for connecting a first car of a multi-car vehicle to a second car, the gangway having a first element and a second element of a group of elements that is made up of a first vehicle mounting plate at a first end for mounting the gangway to the first car, a second vehicle mounting plate at a second end for mounting the gangway to the second car, a centre frame arranged between the first vehicle mounting plate and the second vehicle mounting plate a hoop arranged between the first vehicle mounting plate and the second vehicle mounting plate and whereby the gangway has a normal position, in which normal position the first element has a predefined position relative to the second element whereby a spring element is connected with a first end to a first connection point on the first element and is connected with a second end to a second connection point on the second element, whereby in the normal position of the gangway the first connection point is at a different height compared to second connection point and/or the first connection point is arranged further outward than the second connection point and/or the first connection point is arranged further inward than the second connection point.