This invention provides a circular tower spiral escalator structure with counter-rotating sprocket wheels at the top and bottom floors that use a side bow roller chain to connect and drive the ascending and descending escalator steps. Two pedestal robots and a step conveyor at the top and bottom floors pick up each escalator step when it arrives and move it to the opposite side of the circular tower where it departs. An alternate design replaces the two pedestal robots and step conveyor with a double arm pedestal robot on the top and bottom floors. Both designs provide continuous transport of escalator riders to a plurality of floors of varying ceiling heights with level entries and exits on each floor.

This invention provides a circular tower spiral escalator structure with counter-rotating sprocket wheels at the top and bottom floors that use a side bow roller chain to connect and drive the ascending and descending escalator steps. Two pedestal robots and a step conveyor at the top and bottom floors pick up each escalator step when it arrives and move it to the opposite side of the circular tower where it departs. An alternate design replaces the two pedestal robots and step conveyor with a double arm pedestal robot on the top and bottom floors. Both designs provide continuous transport of escalator riders to a plurality of floors of varying ceiling heights with level entries and exits on each floor.

Conveyors and people movers, such as escalators and moving walkways, for instance, may include a support member belt comprised of a plurality of support members guided on rails. The support members may be, for example, steps of an escalator or pallets of a moving walkway. Each support member may be secured to a pair of drag rollers that travels along the rails. Further, each support member may include a roller spindle that is held rotationally conjointly in or on a body of the support member. Between the roller spindle and the body of the support member, there may be a plug-in connection by way of which the roller spindle is maintained against an undercut under bias of a latching device.

Conveyors and people movers, such as escalators and moving walkways, for instance, may include a support member belt comprised of a plurality of support members guided on rails. The support members may be, for example, steps of an escalator or pallets of a moving walkway. Each support member may be secured to a pair of drag rollers that travels along the rails. Further, each support member may include a roller spindle that is held rotationally conjointly in or on a body of the support member. Between the roller spindle and the body of the support member, there may be a plug-in connection by way of which the roller spindle is maintained against an undercut under bias of a latching device.

A passenger conveyor includes a first stationary structure and a second stationary structure; a step positioned between the first stationary structure and the second stationary structure, the step has a tread with a tread surface; and a skirt secured to the step between the step and the first stationary structure, the skirt includes an upper tread edge; wherein the upper tread edge extends beyond the tread surface by at least about 10 mm.

A passenger conveyor includes a first stationary structure and a second stationary structure; a step positioned between the first stationary structure and the second stationary structure, the step has a tread with a tread surface; and a skirt secured to the step between the step and the first stationary structure, the skirt includes an upper tread edge; wherein the upper tread edge extends beyond the tread surface by at least about 10 mm.

Step for an escalator as well as the method for manufacturing the step, wherein the step is configured as a one-piece die-cast light metal part containing a step plate, a skirt, at least one transverse rib, guide lugs, wherein the guide lugs are fastened solely on the skirt, and drive lugs wherein the drive lugs are each arranged and fastened solely on the step with a connecting web.

Step for an escalator as well as the method for manufacturing the step, wherein the step is configured as a one-piece die-cast light metal part containing a step plate, a skirt, at least one transverse rib, guide lugs, wherein the guide lugs are fastened solely on the skirt, and drive lugs wherein the drive lugs are each arranged and fastened solely on the step with a connecting web.

A carrier component for a track system may comprise a carrier and a pair of rollers coupled to one another by the carrier. Each of the rollers may include at least one rolling surface configured to engage opposing sides of a track. At least one of the rollers may be spring-loaded and biased toward the other. Alternatively, or additionally, at least one spring loaded roller may include an armature connected to a pivot of the carrier, wherein the armature may be biased by a coil spring for coupling the at least one spring loaded roller with a track.

Step element for an escalator or for a moving walkway, wherein the step element is configured as a one-piece die-cast aluminum part, comprising a step element skeleton and a step plate, wherein the step plate has a step profile, wherein the step profile has webs and grooves running in the travelling direction, wherein the webs are formed by two web arms running practically parallel to one another and by a connecting web face and the grooves run between the webs which are arranged in a row alongside one another.