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).

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 water diverter for diverting water on a building roof or gutter is provided. The diverter includes a main body having a first portion having a top side and a bottom side, a diverting portion extending from the top side of the first portion at a first angle, the first angle being an angle greater than zero degrees, and an attachment portion extending from the first portion and being configured to attach to the building roof or gutter; a first opening in one of the first portion and the diverting portion, the first opening being configured to allow the water to pass through the one of the first portion and the diverting portion; and a filter element positioned above the first portion of the main body and through which the water can pass.

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.

Certain exemplary embodiments can provide a system, device, method, and/or composition of matter configured and/or adapted to manage water received upon a raised pedestal paver system, the raised pedestal paver system comprising an array of elongate pedestals, the raised pedestal paver system further comprising substantially planar array of pavers, each pedestal from the array of elongate pedestals configured to partially vertically support at least two substantially adjacent pavers from the array of pavers.

An example canopy includes a plurality of panels arranged in a plurality of rows and a plurality of sequences, including a first sequence, second sequence, and a third sequence. The second sequence is disposed between the first and third sequences and forms a rainwater collection channel The panels of the second sequence are angled with respect to the panels of the first and third sequences to optimize solar radiation and rainwater collection efficiency. Photovoltaic cells are provided on a flexible top surface of some or all of the panels. A hybrid canopy, a method of making a hybrid canopy, and a method of using and learning from a hybrid canopy, are shown and described.

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.

The invention relates to a surface coverings system for a surface such as a roof, a floor or another substantially flat surface subjected to water and needs drainage, and methods for preparing such a system. The surface covering system comprises a rectangular plate with a mark marking a highest point, a substantially flat lower surface and an upper surface with a first slope facing from the mark towards a second mark provided in connection to the outer edge of the plate. The first slope is circular and has a linear radial inclination () facing from the mark towards essentially all points on the rectangular plate. The slope forms an elevation in the plate forming at least a part of a cone or blunt cone with the tip of the cone defined by the mark with the lowest point(s) of the upper surface of the disc defined by the second mark.

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 roofing insert, comprising a molded insert made with insulating material having at least one planar surface opposed by either a non-planar surface or more than one non-parallel surface.