A structure for hiding rooftop equipment has a plurality of pre-cut, adjustable metallic frame and support members essentially consisting of vertical support members, horizontal frame members, top frame members, and bottom retaining members, wherein the plurality of pre-cut, adjustable metallic frame and support members are configured to surround the rooftop equipment while providing a passageway enabling a user to provide maintenance on the rooftop equipment, and, each bottom retaining member is comprised of a base portion, a reinforcement member, and a connecting member wherein the connecting member is mechanically fastened either to an existing roof curb forming part of the building the structure is on or to a base portion of the rooftop equipment.

A retention system may comprise a bracket, a bar system, a seal and a bonded washer. The bracket may have a first portion and a second portion. The first portion and the second portion may be operatively coupled together at an angle . The bracket may also have a texture. The bracket may define a mounting surface. The bar system may comprise a bar installable in the bracket. The seal may be installable in the bracket and disposed beneath the mounting surface. The bonded washer may be installable on and compressible against the mounting surface.

A retention system may comprise a bracket, a bar system, a seal and a bonded washer. The bracket may have a first portion and a second portion. The first portion and the second portion may be operatively coupled together at an angle . The bracket may also have a texture. The bracket may define a mounting surface. The bar system may comprise a bar installable in the bracket. The seal may be installable in the bracket and disposed beneath the mounting surface. The bonded washer may be installable on and compressible against the mounting surface.

A mounting mechanism for connecting mechanical equipment to any mounting surface has an upper (floating) portion, and a lower (fixed) portion. The mechanical equipment is mounted to the upper portion, and the lower portion is mounted to the mounting surface. The upper portion and lower portion are connected to each other via a connection mechanismpreferably a resilient connection mechanism. A restraint mechanism is attached to both the upper portion and the lower portion on the side of the upper and lower portion that faces away from the equipment. The restraint mechanism provides positive restraint at a rate of at least 5 pounds per linear inch of length but can provide much higher than that. The restraint mechanism is flexible to allow for isolation of the equipment.

The invention is a roofing underlayment for solar shingles that includes a water-impervious membrane adapted to be attached to a roof. The underlayment also includes a mechanical attachment member having a mechanical first portion embedded within the membrane and having a mechanical second portion extending above the membrane, wherein the mechanical second portion of the mechanical attachment member is configured to mechanically attach a solar shingle to the roof. The underlayment also includes an electrical conductor having an electrical first portion of which is embedded within the membrane, having an electrical second portion which is configured to electrically connect to a solar shingle, and having an electrical third portion which is configured to electrically connect to an electrical circuit. An air gap area is also provided that allows for air flow below the solar shingles. The air gap area comprises an area between a bottom surface of the solar shingles and a top surface of the membrane.

The invention is a roofing underlayment for solar shingles that includes a water-impervious membrane adapted to be attached to a roof. The underlayment also includes a mechanical attachment member having a mechanical first portion embedded within the membrane and having a mechanical second portion extending above the membrane, wherein the mechanical second portion of the mechanical attachment member is configured to mechanically attach a solar shingle to the roof. The underlayment also includes an electrical conductor having an electrical first portion of which is embedded within the membrane, having an electrical second portion which is configured to electrically connect to a solar shingle, and having an electrical third portion which is configured to electrically connect to an electrical circuit. An air gap area is also provided that allows for air flow below the solar shingles. The air gap area comprises an area between a bottom surface of the solar shingles and a top surface of the membrane.

A composite material may be used as a building material to provide desirable visible aesthetics, such as in a roof or facade. The composite material may include two or more materials, wherein a first material provides desirable qualities for appearance and a second material provides desirable qualities for strength or other characteristics desirable of a building material. Each of the first material and the second material may be transparent, such that the composite material is also transparent. The first material may be Ethylene tetrafluoroethylene (ETFE) and the second material may be Polyethylene terephthalate (PET).

A composite material may be used as a building material to provide desirable visible aesthetics, such as in a roof or facade. The composite material may include two or more materials, wherein a first material provides desirable qualities for appearance and a second material provides desirable qualities for strength or other characteristics desirable of a building material. Each of the first material and the second material may be transparent, such that the composite material is also transparent. The first material may be Ethylene tetrafluoroethylene (ETFE) and the second material may be Polyethylene terephthalate (PET).

Construction panels and other materials, methods for their manufacture, and systems and methods for monitoring environmental conditions with such panels are provided herein. The panels include a core having a first surface and an opposed second surface, and an environmental sensor assembly associated with the panel and configured to detect an environmental condition of the panel and wirelessly communicate data on the environmental condition to a reader.

Roofing panels with water shedding features may be installed on the roof of a house or other structure in lieu of or as an underlayment for traditional roofing materials. The water shedding features can be built into a base of the roofing panels, as part of a frame for the roofing panels, or formed as part of a waterproofing layer applied to the base of the roofing panels, or which can be configured as a roofing panel. The roofing panels also can be installed in overlapping courses along a roof with water shedding features applied thereto or incorporated along one or more peripheral edges. The water shedding features of adjacent roofing panels will collect and divert water away from the upper surfaces and/or away from headlap and/or sidelap joints defined between the roofing panels.