A mounting device (10) is disclosed having a one-piece body (11). A slot (20) extends into this body (11), and is defined by a slot base (22) and a pair of spaced slot sidewalls (24a, 24b) that each extend from the slot base (22). The slot sidewalls (24a, 24b) are disposed in non-parallel relation to each other.

Building integrated photovoltaic (BIPV) systems provide for solar panel arrays that can be aesthetically pleasing and appear seamless to an observer. BIPV systems can be incorporated as part of roof surfaces as built into the structure of the roof, flush or forming a substantively uniform plane with roof panels or other panels mimicking a solar panel appearance. Pans supporting BIPV solar panels can be coupled by standing seams, in both lateral and longitudinal directions, to other photovoltaic-supporting pans or pans supporting non-photovoltaic structures, having both functional and aesthetic advantages. In some configurations, adjacent photovoltaic modules may be oriented so that a boundary between an up-roof photovoltaic module and a down-roof photovoltaic module is not noticeable by observers positioned at typical viewing angles of the roof.

Building integrated photovoltaic (BIPV) systems provide for solar panel arrays that can be aesthetically pleasing and appear seamless to an observer. BIPV systems can be incorporated as part of roof surfaces as built into the structure of the roof, flush or forming a substantively uniform plane with roof panels or other panels mimicking a solar panel appearance. Pans supporting BIPV solar panels can be coupled by standing seams, in both lateral and longitudinal directions, to other photovoltaic-supporting pans or pans supporting non-photovoltaic structures, having both functional and aesthetic advantages. In some configurations, adjacent photovoltaic modules may be oriented so that a boundary between an up-roof photovoltaic module and a down-roof photovoltaic module is not noticeable by observers positioned at typical viewing angles of the roof.

A clip for electrically bonding a pair of adjacently-disposed metal panels is disclosed. One embodiment entails such a clip (104) including a first clip member (112) and an oppositely disposed second clip member (116). The surface (114) of the first clip member (112) that faces the second clip member (116) includes at least one grounding projection (128), while the surface (118) of the second clip member (116) that faces the first clip member (112) also includes at least one grounding projection (128). The clip (104) may be installed on a standing seam (102) of a panel assembly (100), with its first clip member (112) engaging one of the metal panels 82 that define this stand seam (102) and with its second clip member (116) engaging the other of the metal panels 82 that define this same standing seam (102).

A clip for electrically bonding a pair of adjacently-disposed metal panels is disclosed. One embodiment entails such a clip (104) including a first clip member (112) and an oppositely disposed second clip member (116). The surface (114) of the first clip member (112) that faces the second clip member (116) includes at least one grounding projection (128), while the surface (118) of the second clip member (116) that faces the first clip member (112) also includes at least one grounding projection (128). The clip (104) may be installed on a standing seam (102) of a panel assembly (100), with its first clip member (112) engaging one of the metal panels 82 that define this stand seam (102) and with its second clip member (116) engaging the other of the metal panels 82 that define this same standing seam (102).

Building integrated photovoltaic (BIPV) systems provide for solar panel arrays that can be aesthetically pleasing and appear seamless to an observer. BIPV systems can be on-roof systems, elevated from the surface of a roof, being flush or forming a substantively uniform plane with roof panels or other panels mimicking a solar panel appearance. Pans supporting BIPV solar panels can be coupled by standing seams to other photovoltaic-supporting pans or pans supporting non-photovoltaic structures, having both functional and aesthetic advantages. In some configurations, inverted seams can couple photovoltaic-supporting pans and non-photovoltaic structures, forming a substantively planar surface. In some configurations, the appearance of BIPV systems can be particularly aesthetically pleasing and generally seamless to an observer.

Building integrated photovoltaic (BIPV) systems provide for solar panel arrays that can be aesthetically pleasing and appear seamless to an observer. BIPV systems can be on-roof systems, elevated from the surface of a roof, being flush or forming a substantively uniform plane with roof panels or other panels mimicking a solar panel appearance. Pans supporting BIPV solar panels can be coupled by standing seams to other photovoltaic-supporting pans or pans supporting non-photovoltaic structures, having both functional and aesthetic advantages. In some configurations, inverted seams can couple photovoltaic-supporting pans and non-photovoltaic structures, forming a substantively planar surface. In some configurations, the appearance of BIPV systems can be particularly aesthetically pleasing and generally seamless to an observer.

A mounting device (10) is disclosed having a one-piece body (11). A slot (20) extends into this body (11), and is defined by a slot base (22) and a pair of spaced slot sidewalls (24a, 24b) that each extend from the slot base (22). The slot sidewalls (24a, 24b) are disposed in non-parallel relation to each other.

A photovoltaic module installation roof renewal method for installing a photovoltaic module on a roof of a building constructed with a roof frame having a repetitively formed crest and root includes the steps of: interposing an insulator at the roots of the roof frame; producing a photovoltaic module installation roof panel in a length corresponding to the length of the roof at a roof renewal site by using a portable roll foaming machine to transport the photovoltaic module installation roof panel onto the roof; installing the photovoltaic module installation roof panel on the roof frame at which the insulator is interposed; fastening a bracket for installing a photovoltaic module on the photovoltaic module installation roof panel; and installing the photovoltaic module on the bracket.

An interlockerable structural panel (4) with a channel cross-section including a base 3) and first (52) and second side wall (51) forming the sides of the channel, wherein an end of the first side wall distal the base is curved as a first arc (13) directed away from a central portion of the channel and an end of the second side wall is curved as a second arc (23) directed towards the central portion of the channel and wherein a straight section (24) extends from the end of the second arc (23) distal the base (3).