A modular sill assembly includes a top layer, a bottom layer, a first fastener, and a second fastener. The top layer includes a first top plate and a second top plate. The first and second top plates define a door channel therebetween. Each of the first and second top plates includes a top surface, a bottom surface, and a blind bore. The blind bore is defined in the bottom surface and extends towards the top surface. The blind bore is threaded. The bottom layer includes a first base plate that defines a through bore. The first fastener extends through the first base plate and is threadably received in the blind bore of the first top plate to secure the first top plate to the first base plate. The second fastener extends through the first base plate and is threadably received in the blind bore of the second top plate to secure the second top plate to the first base plate.

A sill (1, 1′) for a lift door is manufactured with a method that includes the steps of providing at least one support element (2) and an upper profile (4) that defines at least a boundary surface (6) of a first groove longitudinal (8) for slidingly receiving a lift door. The support element (2) and the upper profile (4) are joined, placing a first demarcation profile (10, 10′) alongside the upper profile (4), so that a boundary surface (12) of the first demarcation profile delimits part of the first longitudinal groove (8). A sliding transversal cross-section of the first longitudinal groove (8) is adjusted by approaching/distancing the boundary surfaces (6, 12) and, having obtained a desired sliding transversal cross-section, constraining the mutual position of the first demarcation profile (10, 10′) and of the upper profile (4).

A modular elevator assembly and a guide rail. The modular elevator assembly includes: a bottom module; a top module; at least one intermediate module being configured to be removably stacked between the bottom module and the top module; and wherein each of the bottom module, the top module and the intermediate module includes a plurality of guide rails, and the cross section of the guide rail includes: a first section extending along a length direction of the guide rail; a second section extending in parallel to the first section and being attached to the first section; and a transition portion connecting between the first section and the second section and being configured to provide a cross-sectional profile that transits between the first section and the second section; and wherein the guide rail further includes a connection structure, the connection structure is configured to connect the guide rails.

A modular elevator assembly and a guide rail. The modular elevator assembly includes: a bottom module; a top module; at least one intermediate module being configured to be removably stacked between the bottom module and the top module; and wherein each of the bottom module, the top module and the intermediate module includes a plurality of guide rails, and the cross section of the guide rail includes: a first section extending along a length direction of the guide rail; a second section extending in parallel to the first section and being attached to the first section; and a transition portion connecting between the first section and the second section and being configured to provide a cross-sectional profile that transits between the first section and the second section; and wherein the guide rail further includes a connection structure, the connection structure is configured to connect the guide rails.

An elevator hall door assembly and an elevator system, wherein the elevator hall door assembly includes a hall door header provided with a guide rail, a hall door hanger plate capable of translating in the rail of the hall door header; hall door panels located below the hall door hanger plate; guide shoes at the bottom of the hall door panels; and a hall door sill provided under the hall door panels, the hall door sill having a guide groove extending in a translation direction of the hall door panels, and the guide shoes being accommodated in the guide groove; anti-off members are further provided at the bottom of the hall door panels.

An elevator hall door assembly and an elevator system, wherein the elevator hall door assembly includes a hall door header provided with a guide rail, a hall door hanger plate capable of translating in the rail of the hall door header; hall door panels located below the hall door hanger plate; guide shoes at the bottom of the hall door panels; and a hall door sill provided under the hall door panels, the hall door sill having a guide groove extending in a translation direction of the hall door panels, and the guide shoes being accommodated in the guide groove; anti-off members are further provided at the bottom of the hall door panels.

An elevator door panel including a front plate, a thermal insulation member, a fixing member, and a longitudinal reinforcement plate, wherein four bent parts are formed by bending upper and lower ends and both side ends of the front plate into a U shape toward the back surface, the longitudinal reinforcement plate is connected to the bent parts by two brim parts on the back surface of the front plate while forming a space between the back surface and the longitudinal reinforcement plate, and the thermal insulation member is provided in the space formed between the longitudinal reinforcement plate and the back surface and fixed by the fixing member.

An elevator door panel including a front plate, a thermal insulation member, a fixing member, and a longitudinal reinforcement plate, wherein four bent parts are formed by bending upper and lower ends and both side ends of the front plate into a U shape toward the back surface, the longitudinal reinforcement plate is connected to the bent parts by two brim parts on the back surface of the front plate while forming a space between the back surface and the longitudinal reinforcement plate, and the thermal insulation member is provided in the space formed between the longitudinal reinforcement plate and the back surface and fixed by the fixing member.

An elevator trench drain includes a trench and a drain passageway. The trench has a base wall with peripheral side walls extending upwardly therefrom to define a trench volume therein. The drain passageway extends downwardly from the base wall of the trench and places the trench volume in fluid communication with a lower opening of the drain passageway. The drain passageway has a first section proximate the base wall defining a first cross-sectional area and a second section distal the base wall defining a second cross-sectional area. The second cross-sectional area is less than the first cross-sectional area and this reduction in cross-sectional area produces a head pressure that increases the flow out of the lower opening.

An elevator door subsystem including a hanger mount, a leveling cam, an engaging member, and a roller assembly, configured such that when the roller assembly is positioned on one side of the elevator door hanger, the hanger mount is positioned within an opening of the elevator door hanger, and the leveling cam is positioned on another side of the elevator door hanger, the engaging member is receivable by the roller assembly after the engaging member is passed through an opening in the leveling cam, an opening in the hanger mount, and the opening in the door hanger.