What is described is a method for producing a framework-like supporting structure for a passenger transport system, such as a moving staircase, in which an entire production sequence is divided into at least three separate joining steps which can be performed by coordinated semi- or fully automated joining stations that cooperate with each other. Each of the joining stations comprises at least one retention device and at least one welding robot, as well as optionally at least one handling robot. The joining steps to be performed in the individual joining stations are configured so that interim products can be produced efficiently and harmonized with a subsequent joining step in a subsequent joining station. Interim products can be forwarded sequentially and at optimized, short intervals from joining station to joining station, to be able to provide a finished, load-bearing supporting structure at the end of the sequence.

What is described is a method for producing a framework-like supporting structure for a passenger transport system, such as a moving staircase, in which an entire production sequence is divided into at least three separate joining steps which can be performed by coordinated semi- or fully automated joining stations that cooperate with each other. Each of the joining stations comprises at least one retention device and at least one welding robot, as well as optionally at least one handling robot. The joining steps to be performed in the individual joining stations are configured so that interim products can be produced efficiently and harmonized with a subsequent joining step in a subsequent joining station. Interim products can be forwarded sequentially and at optimized, short intervals from joining station to joining station, to be able to provide a finished, load-bearing supporting structure at the end of the sequence.

The application relates to a device and to an assembly line for producing a supporting structure for a passenger transport system, such as an escalator, which have a sequential arrangement of semi- or fully automatically operating and mutually cooperating assembly stations and a sequential order of assembly steps. Each of the assembly stations can include at least one holding device and at least a welding robot as well as, optionally, at least one handling robot. The assembly stations are configured in such a way that intermediate products can be produced efficiently by respective assembly steps. Each can be coordinated with a subsequent assembly station, so that the intermediate products can be passed sequentially with optimized short cycle times from assembly station to assembly station, to be able to provide a finished, load-bearing supporting structure at the end of the sequence.

The application relates to a device and to an assembly line for producing a supporting structure for a passenger transport system, such as an escalator, which have a sequential arrangement of semi- or fully automatically operating and mutually cooperating assembly stations and a sequential order of assembly steps. Each of the assembly stations can include at least one holding device and at least a welding robot as well as, optionally, at least one handling robot. The assembly stations are configured in such a way that intermediate products can be produced efficiently by respective assembly steps. Each can be coordinated with a subsequent assembly station, so that the intermediate products can be passed sequentially with optimized short cycle times from assembly station to assembly station, to be able to provide a finished, load-bearing supporting structure at the end of the sequence.

An escalator or moving walkway comprises two access areas. The escalator or the moving walkway comprises components generating thermal losses that are arranged in at least one of the access areas in a component room. The escalator or the moving walkway comprises at least one walkable access module, which is arranged adjacent to the component compartment. The access module comprises a cavity, wherein at least one opening exists between the component compartment and the cavity, through which the thermal energy of the components generating thermal losses can be transferred from the component compartment to the cavity.

An escalator or moving walkway comprises two access areas. The escalator or the moving walkway comprises components generating thermal losses that are arranged in at least one of the access areas in a component room. The escalator or the moving walkway comprises at least one walkable access module, which is arranged adjacent to the component compartment. The access module comprises a cavity, wherein at least one opening exists between the component compartment and the cavity, through which the thermal energy of the components generating thermal losses can be transferred from the component compartment to the cavity.

A floor cover of an escalator or a moving walkway is described. The floor cover has a floor cover support and at least one cover element. The opening of a space provided under the floor to the surrounding floor which can be walked on can be closed in a flush manner by at least one cover element which lies on the floor cover support. The floor cover includes at least one device by which one single possible correct installation position of the at least one cover element on the floor cover support is specified. In the correct installation position, the cover element lies flush on the floor cover support, and in an incorrect installation position, the device causes at least one part of the cover element is arranged so as to visibly project beyond the floor cover support.

A floor cover of an escalator or a moving walkway is described. The floor cover has a floor cover support and at least one cover element. The opening of a space provided under the floor to the surrounding floor which can be walked on can be closed in a flush manner by at least one cover element which lies on the floor cover support. The floor cover includes at least one device by which one single possible correct installation position of the at least one cover element on the floor cover support is specified. In the correct installation position, the cover element lies flush on the floor cover support, and in an incorrect installation position, the device causes at least one part of the cover element is arranged so as to visibly project beyond the floor cover support.

A support structure of an escalator or a moving walkway with at least two attachment devices for personal protective equipment, which attachment devices are spaced apart from another at most by a safety distance, welded, soldered or riveted to the support structure and preferably color-coded, are arranged in a central region of the support structure.

A support structure of an escalator or a moving walkway with at least two attachment devices for personal protective equipment, which attachment devices are spaced apart from another at most by a safety distance, welded, soldered or riveted to the support structure and preferably color-coded, are arranged in a central region of the support structure.