Systems, components, apparatuses and methodologies of the present invention are directed to techniques that ensure that all deck-to-wall, roof-to-wall and other constructions properly protect the home from the environment, particularly along the wetter coastal regions by forming a layered, waterproof seal of metal, plastic and bitumen. A modularized system of components, that overlap each other either over and or under to create a system that meets the design criteria of critical flashing components, each with waterproofing capability either built-in or applied onsite in use, are employed to cover critical building areas prone to water infiltration and damage.

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 customizable roof drip edge system includes an inner footing, an outer section, and a tail integrally formed with the inner footing and the outer section. The tail is nailable to a roof substrate. The outer section includes a bridging member connecting the tail to an outer footing. The bridging member and the outer footing are configured for directing the flow of water off of a roof. The inner footing is spaced from the outer footing by a suitable distance and configured to be placed against an eave as a positioning aid such that the drip edge can easily and reliably be installed with sufficient spacing for the installation of a fascia board after installation of the drip edge. The drip edge may be bendable to user-selectable angles between the tail and the inner footing and outer section to accommodate a range of roof pitches.

Flashing for use at the edge of roofs or decks that are provided with surface materials are presented. In exemplary embodiments, flashing may be provided at the edge of a roof to retain or provide an edge treatment for an aesthetic and functional surface material, such as, for example, a cast paver, while at the same time allowing for water drainage. In one embodiment, a piece of flashing material contains a leg that is fastened along the edge of the top of a flat roof. This embodiment continues into two legs that form a V-shaped trough which comes off the roofing membrane and has penetrations at the bottom to release water. The outer leg of the V most commonly extends to a level higher than the roofing membrane in order to make contact with and edge an installed surface material. Various other shapes and end treatments, including various embodiments providing both an edge flashing as well as an integrated rectangular shaped gutter-like trough are also presented.

In an embodiment, a method includes applying a liquid plural component polymer to a sloped roof to form a protective surface that inhibits moisture seepage to the roof sheathing. In some embodiments, the plural component polymer may be a polyurea compound having a hardening time that is less than approximately 10 minutes. In some embodiments, one or more of the components may be aerated prior to application to the roof substrate. In some embodiments, one or more polystyrene panels may be affixed to the sloped roof prior to application of the liquid plural component polymer. Other embodiments are described and claimed.

A kick out flashing includes a base for placement adjacent a roof, a sidewall for placement adjacent a wall by the roof, a first kick out wall angled away from the sidewall, an intermediate wall joined with the first kick out wall, distal from and optionally parallel to the sidewall, and a second kick out wall angled away from the intermediate wall, the second kick out wall distal from the sidewall and downstream from the first kick out wall. The sidewall, intermediate wall and a bottom wall can form a channel that receives a J channel or other wall covering. The first kick out wall can prevent water from traveling directly under the bottom wall and/or the channel, diverting it away from the sidewall. The second kick out wall can further divert water away from the channel and/or sidewall.

A profiled element for terraces and balconies includes a substantially flat wing for anchoring the profiled element to the floor, a front portion for protecting an outer edge of a floor paving and protruding outward with respect thereto, and a drip lip which is constituted by a contoured element that extends downward from the wing, in a region to be arranged at an edge of a terrace. The drip lip includes at a lower end, at least one first protrusion and at least one second protrusion, the second protrusion being disposed lower than the first protrusion, and both protruding outward with respect to the front portion.

Flashing for use at the edge of roofs or decks that are provided with surface materials are presented. In exemplary embodiments, flashing may be provided at the edge of a roof to retain or provide an edge treatment for an aesthetic and functional surface material, such as, for example, a cast paver, while at the same time allowing for water drainage. In one embodiment, a piece of flashing material contains a leg that is fastened along the edge of the top of a flat roof. This embodiment continues into two legs that form a V-shaped trough which comes off the roofing membrane and has penetrations at the bottom to release water. The outer leg of the V most commonly extends to a level higher than the roofing membrane in order to make contact with and edge an installed surface material. Various other shapes and end treatments, including various embodiments providing both an edge flashing as well as an integrated rectangular shaped gutter-like trough are also presented.

This is a uniquely designed water diverter device for gutters at wall abutments. The device secures the gutter and provides a seal for preventing water to leak and ooze behind the siding. Thus it prevents rainwater from seeping behind siding or under roofing material, yet at the same time does not allow the buildup of debris which can create a back-up of water or allow the formation of ice dams to exacerbate a back-up of water. The diverter device includes a base structure with a top, bottom, closed end, open end, and a raised rim section extending from a plate with a gutter side and wall side; a cover section; a manner to hold the cover to rim of base; and an adhesive, seal, and fasteners to hold wall face plate of base structure to the face of a wall abutment.

A roof edge mounting bracket preferably includes a base member and a vertical attachment flange. The base member extends outward in a horizontal orientation from the vertical attachment flange. A lower portion of the vertical attachment flange extends below the base member and an upper portion of the vertical attachment flange extends above the base member. A plurality of staggered fastener openings are preferably formed through the base member. An angled roof edge bracket includes a base member and a vertical attachment flange. The base member extends from the vertical attachment flange at an acute angle. A cantilevered roof edge bracket preferably includes a cantilevered base member and a vertical attachment flange. A roof edge angle bracket includes a base member and a vertical attachment flange. A roof edge vertical bracket preferably includes a vertical attachment flange, a bottom offset lip and an upper retaining lip.