A roof structure has a level support frame extending in a support frame plane, is supported by a support structure and has at least two longitudinal beams arranged parallel and at a mutual distance from each other and at least two cross beams arranged parallel to each other and at a mutual distance from each other and surrounds a frame field. Several rafters connect the cross beams with each other and are arranged at a mutual distance from the longitudinal beams in such a way that the frame field is divided into several roof fields. The roof fields are each covered by a level cover plate, wherein each cover plate extends in its own cover plane and the cover planes are arranged at an angle to the support frame plane. The cover plates are each rectangular and have a long longitudinal axis and a short longitudinal axis perpendicular to it.

A system and method is provided for attaching glass panels to a substructure. Embodiments include a blocking extending along a length of a structural element and attached to a first portion of a surface of the structural element. Flashing covers the blocking, and has a flange extending outward from a lower edge of the blocking to contact a second portion of the surface of the structural element. An elastic flange gasket covers an outer edge of the flange and contacts an inner main surface of a glass panel. A glazing cap extends along the blocking, having an elastic cap gasket for contacting the outer main surface of the glass panel. The glazing cap extends over and attaches to the blocking for retaining the glass panel between the flange gasket and the cap gasket, and for sealing the glass panel, the flange gasket, and the cap gasket.

A waterproof connecting structure is used in coordination with a solar panel array in order to construct a vertical wall or a rooftop panel of a building. The waterproof connecting structure comprises two half components and a connecting component. The two half components are disposed between the two solar panels. The connecting component covers a joint between the two half components so that rainwater flowed into a conduit passage formed by each of the half components is guided out. Thereby, the rainwater is prevented from infiltrating into a building.

A waterproof connecting structure is used in coordination with a solar panel array in order to construct a vertical wall or a rooftop panel of a building. The waterproof connecting structure comprises two half components and a connecting component. The two half components are disposed between the two solar panels. The connecting component covers a joint between the two half components so that rainwater flowed into a conduit passage formed by each of the half components is guided out. Thereby, the rainwater is prevented from infiltrating into a building.

Methods for constructing and a building kit for use thereof are disclosed. The building kit includes a plurality of posts configured for embedding within square apertures of a foundation, wherein the posts have a cross-shaped cross-sectional shape, a plurality of cross-shaped cross-sectional shaped elongated members, a plurality of roof panels, wherein the roof panels include solar cells, and a plurality of wall panels having conforming shape to the cross-shaped cross-sectional shaped elongated members.

Methods for constructing and a building kit for use thereof are disclosed. The building kit includes a plurality of posts configured for embedding within square apertures of a foundation, wherein the posts have a cross-shaped cross-sectional shape, a plurality of cross-shaped cross-sectional shaped elongated members, a plurality of roof panels, wherein the roof panels include solar cells, and a plurality of wall panels having conforming shape to the cross-shaped cross-sectional shaped elongated members.

A glazing panel roofing system includes a glazing panel and glazing panel brackets configured to clamp upon one of the side edge surfaces of the glazing panel. The glazing panel includes two flat face surfaces and two side edge surfaces. The glazing panel brackets are configured to clamp upon one of the side edge surfaces of the glazing panel. Each glazing panel bracket includes a base clamping feature including a base gripping feature surface configured to abut a first surface of the flat face surfaces, a top clamping feature including a top gripping feature surface configured to abut a second surface of the flat face surfaces, and a threaded fastener securing the top clamping feature to the base clamping feature, wherein torque applied to the threaded fastener changes a clamping force applied between the top clamping feature and the base clamping feature upon the glazing panel.

A glazing panel roofing system includes a glazing panel and glazing panel brackets configured to clamp upon one of the side edge surfaces of the glazing panel. The glazing panel includes two flat face surfaces and two side edge surfaces. The glazing panel brackets are configured to clamp upon one of the side edge surfaces of the glazing panel. Each glazing panel bracket includes a base clamping feature including a base gripping feature surface configured to abut a first surface of the flat face surfaces, a top clamping feature including a top gripping feature surface configured to abut a second surface of the flat face surfaces, and a threaded fastener securing the top clamping feature to the base clamping feature, wherein torque applied to the threaded fastener changes a clamping force applied between the top clamping feature and the base clamping feature upon the glazing panel.

A roof for a building comprises a ridge beam for defining an upper edge of the roof, and a first eaves beam for defining a lower edge of the roof. The roof further comprises a first panel connectable to both the ridge beam and the eaves beam, being capable of spanning the distance therebetween and extending over at least a first portion of the area of the roof. In addition, the roof comprises one or more retention structures positionable relative to the first panel and one of said beams and configured to clamp said panel against the other of said beams.

A roof for a building comprises a ridge beam for defining an upper edge of the roof, and a first eaves beam for defining a lower edge of the roof. The roof further comprises a first panel connectable to both the ridge beam and the eaves beam, being capable of spanning the distance therebetween and extending over at least a first portion of the area of the roof. In addition, the roof comprises one or more retention structures positionable relative to the first panel and one of said beams and configured to clamp said panel against the other of said beams.