A system for providing siding to a building is disclosed. The system utilizes components which have their own brackets with attachment flanges in order to connect directly to an exterior wall of the building. The brackets contain their own integrated water control systems, which co-act with those of other components to control and direct water into vertical channels and out from behind the siding system. These flanges double as self-contained flashing. In all the system presents a roof-to-foundation siding system that is self-contained and fully transitional from one piece to another.

A kit that includes multiple rectilinear elongate polygonal elements having five unique shapes, four of which are concave polygonal elements. In some examples, when arranged with respect to one another, the elements of the kit form a girih strapwork pattern. In one aspect, respective elements in a kit may include bezels or boarders along longer sides to enhance an over/under weaving effect of the girih strapwork pattern. In other aspects, one or more elements may be formed as a tray, and some of the trays may include various components or materials disposed in the tray (e.g., architectural surface materials, biological systems, various electronic components) to provide for a variety of creative designs and structural/sculptural installations for built environments. In some implementations, one or more such trays may have beveled rims so as to appear light and thin when viewed.

A kit that includes multiple rectilinear elongate polygonal elements having five unique shapes, four of which are concave polygonal elements. In some examples, when arranged with respect to one another, the elements of the kit form a girih strapwork pattern. In one aspect, respective elements in a kit may include bezels or boarders along longer sides to enhance an over/under weaving effect of the girih strapwork pattern. In other aspects, one or more elements may be formed as a tray, and some of the trays may include various components or materials disposed in the tray (e.g., architectural surface materials, biological systems, various electronic components) to provide for a variety of creative designs and structural/sculptural installations for built environments. In some implementations, one or more such trays may have beveled rims so as to appear light and thin when viewed.

Embodiments of the present invention provide a connection system with a projection on a first connector and a co-operating cavity on a second connector to provide push-through connection of the connectors in first and second configurations in which the projection extends to first and second depths respectively within the cavity, wherein one or more of the projection or cavity is movable in two dimensions perpendicular to a longitudinal axis of the projection when received in the cavity, wherein the first and second connectors have cooperating locking surfaces arranged to engage each other when the projection is received at the second depth to prevent said movement in two dimensions and wherein the cooperating locking surfaces do not engage each other so as to prevent said movement in two dimensions when the projection is received at the first depth in the receiving cavity.

Embodiments of the present invention provide a connection system with a projection on a first connector and a co-operating cavity on a second connector to provide push-through connection of the connectors in first and second configurations in which the projection extends to first and second depths respectively within the cavity, wherein one or more of the projection or cavity is movable in two dimensions perpendicular to a longitudinal axis of the projection when received in the cavity, wherein the first and second connectors have cooperating locking surfaces arranged to engage each other when the projection is received at the second depth to prevent said movement in two dimensions and wherein the cooperating locking surfaces do not engage each other so as to prevent said movement in two dimensions when the projection is received at the first depth in the receiving cavity.

A step clip fastening device, the step clip fastening device comprising: an elongated base strip having a first end and a second end, wherein a female locking part is attached to the first end and a male locking part is attached to the second end; a plurality of step clip sets extending substantially perpendicularly upwards from the base strip, wherein each of the step clip set comprising at least two step clips arranged in a back-to-back configuration, wherein a step clip is attached at each of the first end and the second end of the base strip; an anchor protruded at a center of each of the step clip; and one or more tabs extending substantially perpendicularly downwards from the base strip between two corresponding step clips facing each other.

A step clip fastening device, the step clip fastening device comprising: an elongated base strip having a first end and a second end, wherein a female locking part is attached to the first end and a male locking part is attached to the second end; a plurality of step clip sets extending substantially perpendicularly upwards from the base strip, wherein each of the step clip set comprising at least two step clips arranged in a back-to-back configuration, wherein a step clip is attached at each of the first end and the second end of the base strip; an anchor protruded at a center of each of the step clip; and one or more tabs extending substantially perpendicularly downwards from the base strip between two corresponding step clips facing each other.

A screw-in back bolt comprises a back bolt sleeve and a limit screw. A front end of the back bolt sleeve is an expandable portion that can be expanded by the limit screw. The limit screw (3) can be screwed in from a rear end of the anchor bolt sleeve until the limit screw is secured in place. The expandable portion of the back bolt sleeve (2) is provided with one or more conical surfaces. A method for installing a panel based on the screw-in back bolt comprises: drilling an back bolt hole in a back of the panel; injecting an adhesive into the back bolt hole; placing the back bolt sleeve into the back bolt hole; and screwing the limit screw into the back bolt sleeve to expand the anchor bolt sleeve. A curtain wall comprises the panel and the screw-in anchor bolt.

A roofing, cladding or siding module is described. The module comprises an underlapping region adapted to be substantially covered by an exposed region of an adjacent overlapping module when installed on a building surface. A plurality of projections are formed on an underside of the underlapping region. The projections are feet to support the module on the building surface to provide a gap between the module and the building surface, and/or provide a profile on the underside of the underlapping region to define a pathway for air flow between the module and the building surface. Each projection is formed by a downwardly projecting portion of the underlapping region with a corresponding cavity in an upper side of the underlapping region, and the cavity is shaped to prevent or minimize water pooling in the cavity.

A roofing, cladding or siding module is described. The module comprises an underlapping region adapted to be substantially covered by an exposed region of an adjacent overlapping module when installed on a building surface. A plurality of projections are formed on an underside of the underlapping region. The projections are feet to support the module on the building surface to provide a gap between the module and the building surface, and/or provide a profile on the underside of the underlapping region to define a pathway for air flow between the module and the building surface. Each projection is formed by a downwardly projecting portion of the underlapping region with a corresponding cavity in an upper side of the underlapping region, and the cavity is shaped to prevent or minimize water pooling in the cavity.