The present invention is systems and methods for detecting and locating leaks in roofing membranes and roof flashing. The systems include a conductive mesh underneath the roofing membrane and/or a conductive medium behind the roof flashing; attractor cables; and a reversible power supply attached to the conductive mesh/medium and attractor cables. The roofing membrane system also includes sensors, which may be wireless. The systems are controlled by a computer.

The present invention is systems and methods for detecting and locating leaks in roofing membranes and roof flashing. The systems include a conductive mesh underneath the roofing membrane and/or a conductive medium behind the roof flashing; attractor cables; and a reversible power supply attached to the conductive mesh/medium and attractor cables. The roofing membrane system also includes sensors, which may be wireless. The systems are controlled by a computer.

Herein disclosed is an asphalt roofing shingle, adapted to be laid up in courses on a roof, comprising an upper headlap portion, a lower tab portion, vertically spaced apart upper and lower edges, laterally spaced apart right and left edges and top and bottom surfaces. The bottom surface is configured to be laid up on a roof facing the roof and the tab portion of the top surface is configured to be substantially weather-exposed when laid up on a roof. The upper headlap portion is configured to be substantially covered by the tab portion of roofing elements in a next-overlying course of roofing elements when laid up on a roof. The upper headlap portion further comprises a plurality of parallel, evenly laterally spaced, first markings, the first markings being useful, at least, for aligning adjacent shingles, cutting books of shingles, forming starter shingles from full shingles and forming a grid of shingles without external measuring devices.

Herein disclosed is an asphalt roofing shingle, adapted to be laid up in courses on a roof, comprising an upper headlap portion, a lower tab portion, vertically spaced apart upper and lower edges, laterally spaced apart right and left edges and top and bottom surfaces. The bottom surface is configured to be laid up on a roof facing the roof and the tab portion of the top surface is configured to be substantially weather-exposed when laid up on a roof. The upper headlap portion is configured to be substantially covered by the tab portion of roofing elements in a next-overlying course of roofing elements when laid up on a roof. The upper headlap portion further comprises a plurality of parallel, evenly laterally spaced, first markings, the first markings being useful, at least, for aligning adjacent shingles, cutting books of shingles, forming starter shingles from full shingles and forming a grid of shingles without external measuring devices.

This invention, in embodiments, relates to a roofing system that includes a roof deck, a plurality of tapered insulation panels applied onto the roof deck, at least one non-tapered insulation panel applied onto the plurality of tapered insulation panels, and a membrane layer applied onto the at least one non-tapered insulation panel. This invention, in embodiments, further relates to a roof assembly kit that includes a plurality of tapered insulation panels and instructions for installation, as well as a method of installing such a roofing system.

This invention, in embodiments, relates to a roofing system that includes a roof deck, a plurality of tapered insulation panels applied onto the roof deck, at least one non-tapered insulation panel applied onto the plurality of tapered insulation panels, and a membrane layer applied onto the at least one non-tapered insulation panel. This invention, in embodiments, further relates to a roof assembly kit that includes a plurality of tapered insulation panels and instructions for installation, as well as a method of installing such a roofing system.

A TPO roofing membrane formulated to have enhanced induction welding properties, including: a TPO roofing membrane, with: a top TPO layer, a middle scrim layer, and a bottom TPO layer; and elastomeric additives added to the TPO membrane, wherein the elastomeric additives increase induction welding performance of the TPO membrane, and wherein elastomeric additives include polypropylene-based (C3) elastomers and polyethylene-based (C2) elastomers.

A TPO roofing membrane formulated to have enhanced induction welding properties, including: a TPO roofing membrane, with: a top TPO layer, a middle scrim layer, and a bottom TPO layer; and elastomeric additives added to the TPO membrane, wherein the elastomeric additives increase induction welding performance of the TPO membrane, and wherein elastomeric additives include polypropylene-based (C3) elastomers and polyethylene-based (C2) elastomers.

A roof ridge shingle unit including: a substantially elongated cover element shaped like a plurality of shingles longitudinally overlapping partially each other and having a substantially inverted V-shaped transversal cross-sectional configuration defining a pair of opposed side edges and a zenith ridge extending longitudinally therealong between the side edges, the cover element defining a top surface and an opposed bottom surface, the cover element defining longitudinally opposed first and second ends; and a first end attachment provided substantially adjacent the first end and a second end attachment provided substantially adjacent the second end. The first and second end attachments are configured and sized so that the first end attachment of the roof shingle unit is attachable to the second end attachment of a similar roof shingle units so that the roof ridge shingle units are secured to each other in a predetermined positional relationship relative to each other.

A roof ridge shingle unit including: a substantially elongated cover element shaped like a plurality of shingles longitudinally overlapping partially each other and having a substantially inverted V-shaped transversal cross-sectional configuration defining a pair of opposed side edges and a zenith ridge extending longitudinally therealong between the side edges, the cover element defining a top surface and an opposed bottom surface, the cover element defining longitudinally opposed first and second ends; and a first end attachment provided substantially adjacent the first end and a second end attachment provided substantially adjacent the second end. The first and second end attachments are configured and sized so that the first end attachment of the roof shingle unit is attachable to the second end attachment of a similar roof shingle units so that the roof ridge shingle units are secured to each other in a predetermined positional relationship relative to each other.