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.

The curtain wall includes mullion profiles, transom profiles and one or more panels, where the mullion profiles extend vertically, where the transom profiles each are attached to two mullion profiles and extend horizontally, where the mullion profiles are provided with a groove on each side for receiving the side edge of a panel. The grooves have an access opening, where the access opening has a first fixed dimension or width in a horizontal direction, where the transom profiles have a second dimension in a horizontal direction and at right angles to the profile direction of the transom profiles, where the second dimension is larger than the first dimension, where the transom profiles have a third dimension in a non-horizontal direction at right angles to the profile direction, where the third dimension is smaller than the first dimension.

The curtain wall includes mullion profiles, transom profiles and one or more panels, where the mullion profiles extend vertically, where the transom profiles each are attached to two mullion profiles and extend horizontally, where the mullion profiles are provided with a groove on each side for receiving the side edge of a panel. The grooves have an access opening, where the access opening has a first fixed dimension or width in a horizontal direction, where the transom profiles have a second dimension in a horizontal direction and at right angles to the profile direction of the transom profiles, where the second dimension is larger than the first dimension, where the transom profiles have a third dimension in a non-horizontal direction at right angles to the profile direction, where the third dimension is smaller than the first dimension.

The invention relates to covering a gap between windows at the ridge of a double pitch skylight including at least one pair of windows. Each window comprises a frame with a frame top member and the windows of a pair are interconnected by one or more mounting brackets at the ridge. A cover element is arranged so that it interconnects the two windows of the pair on the interior side and extends in parallel with the ridge length direction. One edge of the cover element is inserted in a groove in the top frame member of one window of the pair and another opposite edge is inserted in a corresponding groove in the other window. The cover element is preferably made from an airtight material, is preferably convex on the interior side in the mounted state, and is preferably provided with elastic connecting parts at the two opposite edges.

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 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.

The curtain wall includes mullion profiles, transom profiles and one or more panels, where the mullion profiles extend vertically, where the transom profiles each are attached to two mullion profiles and extend horizontally, where the mullion profiles are provided with a groove on each side for receiving the side edge of a panel. The grooves have an access opening, where the access opening has a first fixed dimension or width in a horizontal direction, where the transom profiles have a second dimension in a horizontal direction and at right angles to the profile direction of the transom profiles, where the second dimension is larger than the first dimension, where the transom profiles have a third dimension in a non-horizontal direction at right angles to the profile direction, where the third dimension is smaller than the first dimension.

The invention relates to covering a gap between windows at the ridge of a double pitch skylight including at least one pair of windows. Each window comprises a frame with a frame top member and the windows of a pair are interconnected by one or more mounting brackets at the ridge. A cover element is arranged so that it interconnects the two windows of the pair on the interior side and extends in parallel with the ridge length direction. One edge of the cover element is inserted in a groove in the top frame member of one window of the pair and another opposite edge is inserted in a corresponding groove in the other window. The cover element is preferably made from an airtight material, is preferably convex on the interior side in the mounted state, and is preferably provided with elastic connecting parts at the two opposite edges.

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.