A skylight assembly, having framing members that define an interior space and rafters that span the interior space between framing members, for supporting panes of glass, each pane having at least one structural glass panel and a thermal panel. The framing members each have a vertical portion and support assembly extending inwardly, including an upper support surface, a lower support surface, and a vertical step therebetween. A glass setting block made of a rubbery material rests upon the upper support surface, vertical step, and lower support surface. The structural glass panels are fully supported by the upper support surface. The thermal panel is supported by the lower support surface, and is sealed to the upper support surface by a spacer, forming an insulating glass unit therewith. The full support of the structural glass, independent of the support of the thermal panel, allows the skylight to be thermally insulated and walkable.

A spacer member, for allowing a walkable skylight with an insulating glass unit to be created with a structural glass panel and a thermal glass panel. The spacer member includes a slab part and a tube part having substantially the same thickness. The tube part is hollow, containing desiccant material for absorbing moisture within the insulating glass unit. The spacer members may be joined together to create a spacer frame. The spacer frame defines an inner rectangular region. When the spacer frame is sealed between the structural glass panels and the thermal glass panel, an air gap is created within the inner rectangular region. The desiccant material effectively removes moisture from air within the air gap.

A walk-on laminated safety glass pane having an anti-slip surface is decribed. The laminated safety glass pane includes at least two glass panes, which are permanently bonded to each other using a polymeric layer.

A polymeric intermediate layer is applied to one surface of the laminated safety glass pane.

A glass pane having an anti-slip surface is applied to the polymeric intermediate layer.

An elastic polymeric gasket is inserted circumferentially in the edge region of the polymeric intermediate layer.

The laminated safety glass pane has a drilled hole and the drilled hole is sealed at subatmospheric pressure.

A walk-on laminated safety glass pane having an anti-slip surface is decribed. The laminated safety glass pane includes at least two glass panes, which are permanently bonded to each other using a polymeric layer.

A polymeric intermediate layer is applied to one surface of the laminated safety glass pane.

A glass pane having an anti-slip surface is applied to the polymeric intermediate layer.

An elastic polymeric gasket is inserted circumferentially in the edge region of the polymeric intermediate layer.

The laminated safety glass pane has a drilled hole and the drilled hole is sealed at subatmospheric pressure.

A floor lighting assembly includes a luminous composite sheet and a light transmissive carpet. The luminous composite sheet has a top side, a bottom side, and an edge extending from the top side to the bottom side. The light sources are arranged in a row and are configured to emit light into the light guide film through the edge. The light transmissive carpet is disposed above the top side of the light guide film. The light transmissive carpet includes a backing structure and a pile mounted to and extending from the backing structure. The light guide film is configured to spread and redirect the light that is received therein through the edge for emitting the light through the top side of the light guide film such that some of the light is transmitted through the light transmissive carpet.

A floor lighting assembly includes a luminous composite sheet and a light transmissive carpet. The luminous composite sheet has a top side, a bottom side, and an edge extending from the top side to the bottom side. The light sources are arranged in a row and are configured to emit light into the light guide film through the edge. The light transmissive carpet is disposed above the top side of the light guide film. The light transmissive carpet includes a backing structure and a pile mounted to and extending from the backing structure. The light guide film is configured to spread and redirect the light that is received therein through the edge for emitting the light through the top side of the light guide film such that some of the light is transmitted through the light transmissive carpet.

A floor panel has a bottom side and a walkable top side opposite the bottom side. An apparatus for detecting an object on the floor panel includes a holder that is mounted on, in, or under the floor panel. The apparatus includes a radar device configured to emit a radar signal, detect a radar echo reflected from the object, and provide a data signal based on the radar echo. The holder is configured to hold the radar device. A method for detecting the object on the floor panel includes, using the radar device, emitting a radar signal. The method includes, using the radar device, detecting a radar echo reflected from the object. The method includes providing a data signal based on the radar echo.

A floor panel has a bottom side and a walkable top side opposite the bottom side. An apparatus for detecting an object on the floor panel includes a holder that is mounted on, in, or under the floor panel. The apparatus includes a radar device configured to emit a radar signal, detect a radar echo reflected from the object, and provide a data signal based on the radar echo. The holder is configured to hold the radar device. A method for detecting the object on the floor panel includes, using the radar device, emitting a radar signal. The method includes, using the radar device, detecting a radar echo reflected from the object. The method includes providing a data signal based on the radar echo.

A framing device for a glass floor unit utilizing a shield connected to the glass floor unit and at least one tab connected to the shield. A threaded member selectively interacts with the tab to adjust the vertical position of the glass floor and to hold down the glass floor relative to a support connected to an edifice foundation.

A framing device for a glass floor unit utilizing a shield connected to the glass floor unit and at least one tab connected to the shield. A threaded member selectively interacts with the tab to adjust the vertical position of the glass floor and to hold down the glass floor relative to a support connected to an edifice foundation.