An escalator system with vertical step risers and side flanges includes a plurality of escalator steps, at least one varying length drive mechanism, a first decking, and a second decking. Each of the plurality of escalator steps includes an elongated step body, a first step mounted angled flange, and a second step mounted angled flange. The elongated step body transports passengers along the escalator path. The first step mounted angled flange and the second step mounted angled flange connect to form continuous barriers that prevent entrapment of objects between the moving steps and stationary panels. The at least one varying length drive mechanism prevents horizontal movement between each of the plurality of escalator steps traveling along the passenger side, thereby preventing entrapment of objects between adjacent steps. The first decking and the second decking partially cover the first step mounted angled flange and the second step mounted angled flange.

An escalator system with vertical step risers and side flanges includes a plurality of escalator steps, at least one varying length drive mechanism, a first decking, and a second decking. Each of the plurality of escalator steps includes an elongated step body, a first step mounted angled flange, and a second step mounted angled flange. The elongated step body transports passengers along the escalator path. The first step mounted angled flange and the second step mounted angled flange connect to form continuous barriers that prevent entrapment of objects between the moving steps and stationary panels. The at least one varying length drive mechanism prevents horizontal movement between each of the plurality of escalator steps traveling along the passenger side, thereby preventing entrapment of objects between adjacent steps. The first decking and the second decking partially cover the first step mounted angled flange and the second step mounted angled flange.

An escalator device includes a plurality of steps, wherein both sides of each step are provided with mounting portions and step wheels rotatably mounted to the mounting portions; step wheel guide rails fixedly arranged on both sides of the escalator device for guiding the step wheels of each step, during the operation of the escalator device, the step wheels of each step move along the step wheel guide rails on both sides respectively; and anti-detachment guide rails arranged on both sides of the escalator device, during the movement of the step wheels of each step along the step wheel guide rails on both sides respectively, the anti-detachment guide rails are located above and spaced apart from anti-detachment portions of each step, a piezoelectric sensor is provided on the surface of the anti-detachment guide rail facing the anti-detachment portion.

An escalator device includes a plurality of steps, wherein both sides of each step are provided with mounting portions and step wheels rotatably mounted to the mounting portions; step wheel guide rails fixedly arranged on both sides of the escalator device for guiding the step wheels of each step, during the operation of the escalator device, the step wheels of each step move along the step wheel guide rails on both sides respectively; and anti-detachment guide rails arranged on both sides of the escalator device, during the movement of the step wheels of each step along the step wheel guide rails on both sides respectively, the anti-detachment guide rails are located above and spaced apart from anti-detachment portions of each step, a piezoelectric sensor is provided on the surface of the anti-detachment guide rail facing the anti-detachment portion.

A moving walkway (1) comprises at least one endless belt (12) moving in a conveyance direction along a closed loop; a plurality of pallets (20); and a plurality of linkages (26a, 26b) rotatably connecting adjacent pallets (20) with each other. A mounting portion (20a) of each pallet (20) is rotatably connected to the at least one belt (12).

A moving walkway (1) comprises at least one endless belt (12) moving in a conveyance direction along a closed loop and a plurality of pallets (20). The closed loop comprises a conveyance portion (16) and a return portion (18) extending between two turnaround portions (5, 7), respectively. Each of the pallets (20) comprises at least one mounting portion (20a, 20b) rotatably attached to the at least one belt (12), and at least one mechanical connection (21) connecting the pallet (20) with the at least one mounting portion (20a) of an adjacent pallet (20).

A moving walkway (1) comprises at least one endless belt (12) moving in a conveyance direction along a closed loop and a plurality of pallets (20). The closed loop comprises a conveyance portion (16) and a return portion (18) extending between two turnaround portions (5, 7), respectively. Each of the pallets (20) comprises at least one mounting portion (20a, 20b) rotatably attached to the at least one belt (12), and at least one mechanical connection (21) connecting the pallet (20) with the at least one mounting portion (20a) of an adjacent pallet (20).

An escalator system with vertical step risers and side flanges includes a plurality of escalator steps, at least one varying length drive mechanism, a first decking, and a second decking. Each of the plurality of escalator steps includes an elongated step body, a first step mounted angled flange, and a second step mounted angled flange. The elongated step body transports passengers along the escalator path. The first step mounted angled flange and the second step mounted angled flange connect to form continuous barriers that prevent entrapment of objects between the moving steps and stationary panels. The at least one varying length drive mechanism prevents horizontal movement between each of the plurality of escalator steps traveling along the passenger side, thereby preventing entrapment of objects between adjacent steps. The first decking and the second decking partially cover the first step mounted angled flange and the second step mounted angled flange.

An escalator system with vertical step risers and side flanges includes a plurality of escalator steps, at least one varying length drive mechanism, a first decking, and a second decking. Each of the plurality of escalator steps includes an elongated step body, a first step mounted angled flange, and a second step mounted angled flange. The elongated step body transports passengers along the escalator path. The first step mounted angled flange and the second step mounted angled flange connect to form continuous barriers that prevent entrapment of objects between the moving steps and stationary panels. The at least one varying length drive mechanism prevents horizontal movement between each of the plurality of escalator steps traveling along the passenger side, thereby preventing entrapment of objects between adjacent steps. The first decking and the second decking partially cover the first step mounted angled flange and the second step mounted angled flange.

The application relates to passenger transport systems and related methods. The passenger transport system has multiple step units, a comb plate, a monitoring device, and a marking device. The step units are to be moved one behind the other continuously along a predefined movement path during normal operation. The comb plate is arranged at a fixed position relative to the predefined movement path. The monitoring device is configured to monitor an actual position of a currently monitored step unit relative to the predefined movement path and to detect a deviation of the actual position from the predefined movement path by more than an allowable tolerance value and activate the marking device in response thereto. Upon being activated, the marking device is configured to mark the currently monitored step unit and/or a step unit spatially correlating to the currently monitored step unit.