The present invention is directed roof edge seal and barrier devices and their method of manufacture. A method of manufacturing a comb-like sealing strip for use as a roof edge seal or barrier comprises stamping or cutting an elongate strip of material along a sinuous path located between the edges of the strip and then separating the strip into two portions, each of which consists of a fixing edge corresponding to the edge of the original strip from which project a series of teeth or prongs forming a comb structure.

A fiber cement soffit comprising a first major face, a second major face, an intermediate portion positioned between the first and second faces and an edge portion surrounding the intermediate portion such that the first and second faces, intermediate portion and edge portion together form a panel of predetermined thickness; and a plurality of apertures extending between the first and second major faces of the soffit through the predetermined thickness forming a vented portion wherein the apertures comprise between approximately 8% and 28% of the total surface area per linear foot of each of the first major face and second major face of the vented portion such that the net free ventilation provided per linear foot of the fiber cement soffit is between 10 and 16 square inches.

A roof vent includes a continuous elongate mat composed of a mesh of randomly oriented fibers. The mat has a top surface, a bottom surface, and a first longitudinally extending side surface. A portion of the mat proximate to and forming the first longitudinally extending side surface is configured as a wind baffle. The wind baffle includes a wind deflector lip, formed from the mesh, which extends above the top surface of the mat.

A roof vent for ventilating the roof of a building to the atmosphere. The roof vent includes a flange portion to lay against the roof, the flange portion having an opening to let air vent from the interior of the building (e.g. an attic). The roof vent can optionally include a collar portion extending from the flange portion and enclosing, at least in part, about a periphery of the opening and a cap dimensioned and configured to cover over the opening (including the hole in the roof) and optionally over the collar portion. The cap is configured to provide a passage (between the flange portion and the cap) through which air can pass between the atmosphere and the opening. The roof vent also includes a corrugated filter plate, e.g. partially enclosed by the cap, and interposed between the central opening and the passage, the corrugated filter plate having a pore size sufficient to permit air to pass through but inhibit the passage of snow particles, cinder particles and/or water droplets there-through.

A ventilated solar panel system mounted on a roof of a building (1), comprising a plurality of joists (12, 112) arranged substantially normal to an upper ridge (14) of the roof, and extending from the upper ridge (14) to a lower region of the roof, and a set of rectangular solar panels (2, 13), arranged on and supported by the joists (12, 112). The system further comprises a set of electrical fans (25), each fan (25) being arranged in the lower region of the roof and being aligned with one of the joists (12, 112), wherein each fan (25) is configured to create a flow of air towards the ridge (14), and wherein each joist (12, 112), in an end facing one of the fans (25), is formed with a dividing edge (32, 132) configured to divide the flow of air into two sub-flows (26a, 26b), a first sub-flow (26a), directed to a first side of the joist (12, 112), and a second sub-flow (26b) directed to a second side of the joist (12, 112), opposite to the first side.

A roof deck intake vent is provided. The roof deck intake vent includes a first portion connected to a second portion. The first portion is further connected to an upper edge and the second portion further connected to a lower edge. Opposing first and second side walls are connected to the first and second portions. The opposing first and second side walls extend from the upper edge to the lower edge. The first and second side walls form an extension having a lower surface. The first portion, upper edge, and the extension cooperate to form an air intake, such that air entering the roof deck intake vent enters the vent through the lower surface of the extension when the vent is installed on an edge or eave of a roof.

An exterior insulating system for a building includes at least one insulating panel having a wall-facing side and an outward-facing side, a top and a bottom, the at least one insulating panel having a slope at the top that angles downwardly from the wall facing side to the outward-facing side; and at least one auxiliary panel having a first elongated edge dimensioned to be fastened along a soffit that is extending outwards from a wall of the building, the first elongated edge opposite a main body of the at least one auxiliary panel from a second elongated edge of the at least one auxiliary panel that is connectable to the at least one insulating panel, the main body incorporating structure for permitting airflow through the main body. In one example, the first elongated edge of the at least one auxiliary panel comprises holes therethrough for receiving respective fasteners to fasten the first elongated edge along the soffit.

A rafter vent system suitable for valley roof or hip roof construction, the system having at least one rafter bypass channel member in fluid communication with rafter vent members positioned between adjacent hip or valley rafters, the rafter bypass channel member providing a bypass channel for passage of ventilating air along a hip or valley rafter, such that a passageway is created extending between eave vents and ridge vents.

A ventilation screed having an upper attachment flange having a top portion and a bottom portion and at least one opening in the top portion; a drip edge protruding from the bottom portion of the upper attachment flange; a drainage cavity protrusion protruding from the bottom portion of the upper attachment flange above the drip edge, wherein the drainage cavity has an L-shaped drainage trough portion having at least one drainage opening in a bottom portion, an upper ground portion in communication with the L-shaped drainage trough portion and a drainage cavity shroud in communication with the upper ground portion, wherein the drainage cavity shroud extends past the drip edge.

EXTERIOR FINISH SYSTEM AND METHOD

An exterior finish system usable in building construction, the system generally comprises at least one wall-sheathing element configured to sheath exterior surfaces of a built structure, the at least one wall-sheathing element constructed of at least one carbon-fiber composite; at least one soffit covering element configured to cover soffit areas of the built structure, the at least one soffit covering element constructed of the at least one carbon-fiber composite; and at least one trim element configured to trim the at least one wall-sheathing element and the at least one soffit covering element, the at least one trim element constructed of the at least one carbon-fiber composite. A kit and method is also disclosed.