A drive belt segment (22) for forming a drive belt (20), in particular an endless drive belt (20) configured to be employed in a people conveyor (1), has two opposing ends and extends in a longitudinal direction between the two opposing ends. Each end is provided with a connector (30) which is configured for being connected to a corresponding connector (30) of the same or another drive belt segment (22) for forming an endless drive belt (20).

A drive belt segment (22) for forming a drive belt (20), in particular an endless drive belt (20) configured to be employed in a people conveyor (1), has two opposing ends and extends in a longitudinal direction between the two opposing ends. Each end is provided with a connector (30) which is configured for being connected to a corresponding connector (30) of the same or another drive belt segment (22) for forming an endless drive belt (20).

A conveyor belt fastening system for an endless belt formed by joining a first and a second end of a conveyor belt together, the system comprising: a lace connected to the first and second ends of the conveyor belt, the endless belt having an exterior and an interior surface; at least one drive sprocket and at least one return roller about which the interior surface of the endless belt is peripherally wrapped, the at least one drive sprocket configured to translate the endless belt; wherein the lace has a symmetric configuration about a longitudinal axis of symmetry, the longitudinal axis aligned longitudinally and parallel to the endless belt, between the exterior and interior surfaces of the endless belt.

An industrial fabric/belt including spiral coils shaped as a symbol for infinity or a lemniscate, i.e., infinity elements, are joined to each other with a pintle. A fabric element is configured as a continuous loop to form an industrial fabric employing a plurality of infinity coil elements.

An industrial fabric/belt including spiral coils shaped as a symbol for infinity or a lemniscate, i.e., infinity elements, are joined to each other with a pintle. A fabric element is configured as a continuous loop to form an industrial fabric employing a plurality of infinity coil elements.

A belt or a belt segment has a plurality of strength members that extend in a longitudinal direction (X) and are arranged parallel to one another, and a connecting element which forms one end of the belt or belt segment and is configured to be connected to a further connecting element at the other end of the belt or to one end of a further belt segment. The ends of the strength members are held by the connecting element. The belt or belt segment is characterized in that the ends of the strength members are connected to at least one clamping body in a force-fitting manner, wherein the clamping body can be held by the connecting element in a force-fitting manner at least in the longitudinal direction (X).

A belt or a belt segment has a plurality of strength members that extend in a longitudinal direction (X) and are arranged parallel to one another, and a connecting element which forms one end of the belt or belt segment and is configured to be connected to a further connecting element at the other end of the belt or to one end of a further belt segment. The ends of the strength members are held by the connecting element. The belt or belt segment is characterized in that the ends of the strength members are connected to at least one clamping body in a force-fitting manner, wherein the clamping body can be held by the connecting element in a force-fitting manner at least in the longitudinal direction (X).

The present invention relates to a belt or a belt segment having a plurality of strength supports. The strength supports run in the longitudinal direction (X) and are disposed so as to be mutually parallel. A connection element which forms one end of the belt or the belt segment and is configured for connecting to a further connection element of the other end of the belt or to one end of a further belt segment, it being possible for the ends of the strength supports to be held in a force-fitting manner by the connection element by way of press-fitting. The belt or the belt segment includes a part-region of the connection element which is configured as a tool region, in order to serve as a tool part during press-fitting of the ends of the strength supports in the connection element.

The present invention relates to a belt or a belt segment having a plurality of strength supports. The strength supports run in the longitudinal direction (X) and are disposed so as to be mutually parallel. A connection element which forms one end of the belt or the belt segment and is configured for connecting to a further connection element of the other end of the belt or to one end of a further belt segment, it being possible for the ends of the strength supports to be held in a force-fitting manner by the connection element by way of press-fitting. The belt or the belt segment includes a part-region of the connection element which is configured as a tool region, in order to serve as a tool part during press-fitting of the ends of the strength supports in the connection element.

A belt or a belt segment has a plurality of strength members that run in the longitudinal direction (X) and are disposed so as to be mutually parallel, and has a connection element forming one end of the belt, or of the belt segment and is configured to be connected to a further connection element at the other end of the belt, or to an end of a further belt segment, or is configured to connect two ends of the belt, or of the belt segment, wherein at least one end of a strength member is connected in a force-fitting manner to a clamping body, wherein the clamping body can be held in a form-fitting manner by the connection element at least in the longitudinal direction (X) through a strength member leadthrough. A strength member leadthrough in the longitudinal direction (X) has a widening facing the clamping body.