The present disclosure relates generally to a roofing system including flashing, for example, suitable for protecting a roof from water leakage. The present disclosure relates more particularly to a roofing system including first, second, and third courses of shingles, where the second course overlaps the first and the third course overlaps the second. A flashing plate is disposed over the first course of shingles and partially under the second course of shingles. The flashing plate and the third course of shingles are spaced apart by a gap in a direction of the slope of the roof between a top edge of the flashing plate and a lower edge of the third course of shingles.

A metal wall material 1 according to the present invention comprises: a front substrate 10 made of a metal sheet, the front substrate 10 comprising a body portion 100 formed into a box shape; a back substrate 11 arranged on a back side of the front substrate 10 so as to cover an opening of the body portion 100; and a core material 12 filled between the body portion 100 and the back substrate 11, the metal wall material 1 being tightened to a wall base by driving at least one tightening member into the body portion 100, wherein a top plate portion 101 of the body portion 100 comprises at least one protruding rib 3 comprised of at least one protrusion 30 disposed along a side of a polygon or along a circle, and wherein the metal wall material 1 is configured such that the tightening member is driven into an inner region 3a of the protruding rib 3.

A fastener plate for use in coupling an underlayment to a roof surface is disclosed. In use, the fastener plate is arranged and configured to enable subsequently applied liquid coatings to flow through a top surface of the fastener plate and into one or more cavities so that the liquid coating seals any openings created by introduction of the fastener. In one embodiment, the fastener plate may include a top surface, a bottom surface, a fastener opening for receiving a fastener, a plurality of openings formed in the top surface, and one or more cavities positioned between the top surface and the bottom surface, the one or more cavities being in fluid communication with the plurality of openings so that the liquid coating can flow through the plurality of openings formed in the top surface and into the one or more cavities to seal any voids created by the fastener.

Exemplary systems and methods allow for enhanced energy performance of buildings, for example hybrid roof systems. The system may utilize a material having a porous water-retaining substrate and a high albedo coating. The high albedo coating may be disposed on the outer surface of the porous water-retaining substrate.

A method for installing a roof tile covering on a roof structure comprising: providing a plurality of roof tiles comprising a porcelain body and an attachment hole above the roof structure; placing and fixing a part of the plurality of roof tiles onto the roof structure, forming a horizontal row; interrupting the horizontal row at a distance from a hip or valley of the roof structure; cutting a roof tile to provide a triangular or trapezoidal piece comprising one or more attachment holes; placing and fixing the triangular or trapezoidal piece onto the roof structure over the hip or valley, leaving a gap between the triangular or trapezoidal piece and the plurality of roof tiles in the horizontal row; and placing and fixing at least one roof tile on the roof structure over the gap, wherein the roof tile covering comprises a plurality of horizontal rows of roof tiles.

A metallic roof material 1 according to the present invention comprises: a front substrate 10 made of a metal sheet, the front substrate 10 comprising a body portion 100 formed into a box shape; a back substrate 11 arranged on a back side of the front substrate 10 so as to cover an opening of the body portion 100; and a core material 12 filled between the body portion 100 and the back substrate 11, the metallic roof material 1 being tightened to a roof base by driving at least one tightening member into the body portion 100, wherein a top plate portion 101 of the body portion 100 comprises at least one protruding rib 3 comprised of at least one protrusion 30 disposed along a side of a polygon or along a circle, and wherein the metallic roof material 1 is configured such that the tightening member is driven into an inner region 3a of the protruding rib 3.

A roofing, cladding or siding product which is light weight, easy to install, durable and resistant to environmental wear. The module comprises an underlapping region and an exposed region, wherein the underlapping region is adapted to be at least partially covered by the exposed region of an adjacent module when installed on a building surface. The module also includes a textured surface area on an upper surface of the underlapping region and/or an underside of the exposed region. In use, the textured surface (e.g. made up from a densely packed group of cones, pyramids or cylinders) presents an increased surface area for improved contact with an adhesive. The adhesive, e.g. in strip form, may by located on an aligning part of an adjacent module with the textured surface area.

The present disclosure relates to a technical filed of mounting a tile, and discloses a tile fixing device and a method for disassembling the tile fixed by the same. The tile fixing device includes: a slider, at least a portion of the slider being disposed below the tile; a connector, at least a portion of the connector being disposed above the tile and the connector being coupled to the slider so as to hold the tile between the at least a portion of the connector and the at least a portion of the slider; and a fixing beam configured to be fixed on the building, and the slider being hung on the fixing beam so as to fix the tile on the building. In the tile fixing device, the fixing beam comprises a sliding groove extending in a direction at a certain angle to a longitudinal direction of the fixing beam and running through the fixing beam, the certain angle is greater than 0 degree and less than 180 degrees, the longitudinal direction of the fixing beam extends in a horizontal direction, and the slider is configured to be rotated such that the slider can slide along the sliding groove and slide out of the sliding groove so as to detach the slider from the fixing beam and remove the tile. The present disclosure has the advantages of easy disassembly and easy maintenance.

A porcelain roof tile installing system that comprises: a roof tile having a porcelain body provided with an attachment hole; a nail for being inserted into the attachment hole of the roof tile thereby installing the roof tile to a roof structure; a nail gun for pushing the nail into the attachment hole; wherein the nail gun has a centering element configured to be coupled with the attachment hole.

One embodiment can provide a photovoltaic roof module. The photovoltaic roof module can include a plurality photovoltaic roof tiles. A respective photovoltaic roof tile can include a glass front cover, a back cover that includes glass of photovoltaic backsheet, and a plurality of photovoltaic structures encapsulated between the glass front cover and the back cover by an encapsulant. The photovoltaic roof tile can be configured to function as a roof tile when placed on a rooftop of a building, thereby protecting the building from weather elements.