A functional roof construction arrangement for a roof frame of a building, includes a plurality of functional roof modules being assembled together. Each of the functional roof modules includes a module housing and a roof functional unit which includes three different roof functional panel units selectively supported by the module housing at different levels thereof to provide different functions for the building. The roof functional panel units are selectively configured for selectively providing multiple functions of solar energy collection, thermal insulation, sound insulation, wireless network system, and the like.

A functional roof construction arrangement for a roof frame of a building, includes a plurality of functional roof modules being assembled together. Each of the functional roof modules includes a module housing and a roof functional unit which includes three different roof functional panel units selectively supported by the module housing at different levels thereof to provide different functions for the building. The roof functional panel units are selectively configured for selectively providing multiple functions of solar energy collection, thermal insulation, sound insulation, wireless network system, and the like.

A roofing structure is disclosed. The roofing structure includes a roof sheathing structure, a riser positioned on the sheathing structure, and a felt positioned on the riser, where the riser is between the roof sheathing structure and the felt. The roofing structure also includes a first course of roof shingling elements placed on the felt and on the riser, where the riser causes a portion of a roof sheathing structure side of the first course of roof shingling elements and a portion of the felt to be spaced apart from the roof sheathing structure by at least about one quarter inch.

A roofing structure is disclosed. The roofing structure includes a roof sheathing structure, a riser positioned on the sheathing structure, and a felt positioned on the riser, where the riser is between the roof sheathing structure and the felt. The roofing structure also includes a first course of roof shingling elements placed on the felt and on the riser, where the riser causes a portion of a roof sheathing structure side of the first course of roof shingling elements and a portion of the felt to be spaced apart from the roof sheathing structure by at least about one quarter inch.

The invention provides a system for installing a load on a metal panel roof, the system comprising a rail and closure structure adapted to be supported by ribs defined by the roof panels, and a load adapted to be supported on the rail and closure structure. In some embodiments, standing seams on ribs, and side rails on the rail and closure structure, extend parallel to each other, and optionally parallel to opposing sides of a hole in the roof. In some embodiments, substantially all of a downwardly-directed force of the load passes downwardly through the rail and closure structure to the ribs, and from the ribs to underlying structural members of the building.

A synthetic starter tile for an angled roof interface can include a non-planar body defining a longitudinal axis. The body can include an overlap edge perpendicular to the longitudinal axis, an exposed edge opposite the overlap edge, an overlap portion extending from the overlap edge, and an exposed portion extending from the overlap portion to the exposed edge. The exposed edge can form at least one acute compound angle, A.sub.CA, with respect to the longitudinal axis.

A synthetic starter tile for an angled roof interface can include a non-planar body defining a longitudinal axis. The body can include an overlap edge perpendicular to the longitudinal axis, an exposed edge opposite the overlap edge, an overlap portion extending from the overlap edge, and an exposed portion extending from the overlap portion to the exposed edge. The exposed edge can form at least one acute compound angle, A.sub.CA, with respect to the longitudinal axis.

The invention provides a system for installing a load on a metal panel roof, the system comprising a rail and closure structure adapted to be supported by ribs defined by the roof panels, and a load adapted to be supported on the rail and closure structure. In some embodiments, standing seams on ribs, and side rails on the rail and closure structure, extend parallel to each other, and optionally parallel to opposing sides of a hole in the roof. In some embodiments, substantially all of a downwardly-directed force of the load passes downwardly through the rail and closure structure to the ribs, and from the ribs to underlying structural members of the building.

The invention provides a system for installing a load on a metal panel roof, the system comprising a rail and closure structure adapted to be supported by ribs defined by the roof panels, and a load adapted to be supported on the rail and closure structure. In some embodiments, standing seams on ribs, and side rails on the rail and closure structure, extend parallel to each other, and optionally parallel to opposing sides of a hole in the roof. In some embodiments, substantially all of a downwardly-directed force of the load passes downwardly through the rail and closure structure to the ribs, and from the ribs to underlying structural members of the building.

The invention provides a system for installing a roof penetrating structure to a metal roof, the system comprising: a) a rail and closure structure adapted to be supported by adjacent rib elevations of said roof; b) a skylight adapted to be supported on the rail and closure structure; and c) a support member for sealing a cut away portion of the rib structure to divert water away from the rail and closure structure.