A roofing system and method, which includes elongate rain diverting devices for directing rainwater and snowmelt away from an underlying sheet material and roof deck, is provided. The system includes roofing tiles having strips of hook and loop fasteners (H&L strips) adhered to both faces. The rain diverting devices have an H&L strip adhered along a lower edge of both faces. As each new row of tiles is installed on the roof deck, the device is applied over an upper portion of the tiles, extending over and onto the sheet material above the tiles, and across the roof deck. As additional rows of tiles are installed, each device is releasably attached to underlying and overlying tiles by way of the H&L strips adhered to both the tiles and the device. The devices also allow for single lap tiling (less weight on roof deck) and for use of shorter tiles (saving material cost).

Tile fixing devices, tile mounting methods, and roofs, such as those associated with solar tiles, are provided. For example, tile fixing devices related to the technical field of photovoltaic power generation are provided. In one illustrative implementation, a tile fixing device may include: a tile hook which is provided thereon with a fixing piece configured to cooperate with the mounting hole of the tile, as well as a positioning structure configured to limit the tile batten. Various tile mounting methods and roofs are also disclosed.

A roofing, cladding or siding module is described. The module comprises an underlapping region adapted to be substantially covered by an exposed region of an adjacent overlapping module when installed on a building surface. A plurality of projections are formed on an underside of the underlapping region. The projections are feet to support the module on the building surface to provide a gap between the module and the building surface, and/or provide a profile on the underside of the underlapping region to define a pathway for air flow between the module and the building surface. Each projection is formed by a downwardly projecting portion of the underlapping region with a corresponding cavity in an upper side of the underlapping region, and the cavity is shaped to prevent or minimize water pooling in the cavity.

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.

The present disclosure includes roof shingle systems. One roof shingle system includes at least two shingles, a shingle clip, a drip edge, and a power collection unit. Each shingle has a semiconductive layer configured to deliver power, electrical current/voltage, and/or control signals to the power collection unit. The shingle clip continues a conductive path between the two shingles. The drip edge is at least partially insulated and partially conductive, and the conductive portion continues the path from the shingle semiconductive layer to the power unit where energy is collected. One method of installing a shingle system includes the steps of positioning a shingle having a transducer in the form of a semiconductive layer, and positioning a shingle clip to engage the semiconductive layer of the shingle.

A system and method of roofing. The present invention includes a fabric sheet having an upper surface and a lower surface. The upper surface includes one of a hook and loop fastener and the lower surface is configured to be attached to a roof decking. The present invention further includes a plurality of tiles each having an upper edge, a lower edge, a top surface, and a bottom surface. The other of the hook and loop fastener is attached to the bottom surface. The plurality of tiles are releasably attached to the upper surface of the fabric sheet via the hook and loop fasteners.

The present disclosure includes roof shingle systems. One roof shingle system includes at least two shingles, a shingle clip, a drip edge, and a power collection unit. Each shingle has a semiconductive layer configured to deliver power, electrical current/voltage, and/or control signals to the power collection unit. The shingle clip continues a conductive path between the two shingles. The drip edge is at least partially insulated and partially conductive, and the conductive portion continues the path from the shingle semiconductive layer to the power unit where energy is collected. One method of installing a shingle system includes the steps of positioning a shingle having a transducer in the form of a semiconductive layer, and positioning a shingle clip to engage the semiconductive layer of the shingle.

The present disclosure includes roof shingle systems. One roof shingle system includes at least two shingles, a shingle clip, a drip edge, and a power collection unit. Each shingle has a semiconductive layer configured to deliver power, electrical current/voltage, and/or control signals to the power collection unit. The shingle clip continues a conductive path between the two shingles. The drip edge is at least partially insulated and partially conductive, and the conductive portion continues the path from the shingle semiconductive layer to the power unit where energy is collected. One method of installing a shingle system includes the steps of positioning a shingle having a transducer in the form of a semiconductive layer, and positioning a shingle clip to engage the semiconductive layer of the shingle.

A roofing plate has a body with a fastener hole extending from a top to a bottom. The body defines an outer periphery with rounded edges and the top edge of the fastener hole has rounded edges. The plate may be molded from a polymer material. The plate has an impact surface area and rounded edges sufficiently large to protect against membrane puncture from a projectile under very severe hail or similar conditions.

A system includes a plurality of photovoltaic modules, each having a mat with an edge and a spacer with an edge, the edge of the mat being attached to the edge of the spacer. The spacer includes a plurality of support members and a solar module mounted to the support members. Each of the support members includes a ledge. The solar module and the ledge form a space therebetween. The space is sized and shaped to receive an edge of a solar module of another of the photovoltaic modules. The spacer of one of the photovoltaic modules overlays the mat of another of the photovoltaic modules.