The present invention relates to the use of a multi-layered sheet material (1) comprising a reinforcing member (2), having a polymer coating (3) at least on one side, preferably on both sides, wherein the reinforcing member (2) comprises at least one backing fabric (6) made of warp threads (7a,b) and weft threads (8a,b), and wherein the sheet material (1) comprises at least one channel (12) extending through the sheet material (1), and wherein the warp and weft threads (7a,b; 8a; 8b) are woven together such that the backing fabric (6) comprises both single layer fabric regions (14) and at least one at least two-layered fabric region having at least two fabric layers (15a,b), which are not joined together, so that the channel (12) is each formed between the fabric layers (15a,b), as a bellows wall (19) of a crossway bellows (16), a crossway element comprising such a sheet material for the protection of a passageway of two vehicle parts or components, which are connected together movably relative to each other, against external influences, as well as a vehicle, a flight passenger bridge or staircase and a building connection comprising such a crossway 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.

A bellows of a gangway between two articulately connected vehicles, of a canopy roof of an air passenger stair or a bridge or of a gangway into a building, comprises several successively arranged frames and all the frames are divided, preferably in a plane, on two opposite sides, thus forming several bellows parts.

A bellows of a gangway between two articulately connected vehicles, of a canopy roof of an air passenger stair or a bridge or of a gangway into a building, comprises several successively arranged frames and all the frames are divided, preferably in a plane, on two opposite sides, thus forming several bellows parts.

Provided is a flame-retardant rubber composition including the following components (A) to (D): (A) An olefin-based rubber, (B) An acid-modified polyolefin, (C) A metal hydroxide, and (D)

A cross-1 inking agent for the component (A). A content of the component (C) with respect to 100 parts by weight of a total content of the component (A) and the component (B) falls within a range of from 100 parts by weight to 350 parts by weight. Also provided is an external diaphragm for railroad cars including a cross-linked product of the flame-retardant rubber composition. Thus, there can be provided a flame-retardant rubber composition excellent in rubber physical properties, such as tensile strength and breaking elongation, and durability, and also excellent in flame retardancy, and an external diaphragm for railroad cars obtained using the flame-retardant rubber composition.

Provided is a flame-retardant rubber composition including the following components (A) to (D): (A) An olefin-based rubber, (B) An acid-modified polyolefin, (C) A metal hydroxide, and (D)

A cross-1 inking agent for the component (A). A content of the component (C) with respect to 100 parts by weight of a total content of the component (A) and the component (B) falls within a range of from 100 parts by weight to 350 parts by weight. Also provided is an external diaphragm for railroad cars including a cross-linked product of the flame-retardant rubber composition. Thus, there can be provided a flame-retardant rubber composition excellent in rubber physical properties, such as tensile strength and breaking elongation, and durability, and also excellent in flame retardancy, and an external diaphragm for railroad cars obtained using the flame-retardant rubber composition.

A middle hoop system for a vehicle joint arranged between a vehicle front part and a vehicle rear part of a vehicle and forms a passage between the vehicle front part and the vehicle rear part. The middle hoop surrounds the passage. The middle hoop system comprises a cable strand which extends between the vehicle front part and the vehicle rear part, wherein the cable strand is arranged above the passage. The middle hoop system comprises a pivot lever between the middle hoop and the cable strand. A first pivot joint is formed between the pivot lever and the middle hoop. In a preferred embodiment, the pivot lever guides the cable strand at a distance from the first pivot joint. The middle hoop system is cost-effective and provides reliable guidance for the cable strand.

A middle hoop system for a vehicle joint arranged between a vehicle front part and a vehicle rear part of a vehicle and forms a passage between the vehicle front part and the vehicle rear part. The middle hoop surrounds the passage. The middle hoop system comprises a cable strand which extends between the vehicle front part and the vehicle rear part, wherein the cable strand is arranged above the passage. The middle hoop system comprises a pivot lever between the middle hoop and the cable strand. A first pivot joint is formed between the pivot lever and the middle hoop. In a preferred embodiment, the pivot lever guides the cable strand at a distance from the first pivot joint. The middle hoop system is cost-effective and provides reliable guidance for the cable strand.

A vehicle, particularly a rail vehicle, includes at least two coach bodies being coupled together and at least one line bridging a gap between the coach bodies. The line, which is an outwardly electrically insulated high-voltage line, is flexible and is guided by a cable guiding device in the region of the gap between the coach bodies at least in sections. The cable guiding device includes a multiplicity of guiding elements which are mechanically coupled together and can be pivoted in relation to each other in a guiding plane. The cable guiding device is flexible in the guiding plane and is less flexible in a plane which is perpendicular thereto than in the guiding plane.