A horizontal support apparatus and method are provided for use with any structure having a horizontal span, including but not limited to doors, garages, and windows. The horizontal support apparatus may include two support columns, a lintel that is configured to be attached to the support columns, and that includes a vertical flange and a horizontal flange. The apparatus may include two lift bolts coupled to two end portions of the horizontal flange. The two lift bolts may be configured to respectively raise the two end portions of the horizontal flange. The apparatus may include two rotatable lift nuts that, when rotated, raise the lift bolts to engage and raise the two ends of the horizontal flange.

A doorway lintel lift apparatus and method are provided. The door lintel lift apparatus may include two support columns, a lintel that is configured to be attached to the support columns, and that includes a vertical flange and a horizontal flange. The apparatus may include two lift bolts coupled to two end portions of the horizontal flange. The two lift bolts may be configured to respectively raise the two end portions of the horizontal flange. The apparatus may include two rotatable lift nuts that, when rotated, raise the lift bolts to engage and raise the two ends of the horizontal flange.

Described are dry cast lightweight veneer blocks and a system and method of installing lightweight veneer blocks. The courses can be assembled without mortar between the courses. As an example, sides of the veneer blocks have areas that recede from an imaginary plane between adjacent veneer blocks to give a deep texturing and a shadow effect between veneer blocks. The installation system and method include a substrate, an air barrier applied to the substrate, a plurality of veneer blocks, and an adhesive applied between the plurality of veneer blocks and the air barrier.

The insulation tile comprises a first planar surface, a second planar surface and side surfaces defining the surfaces, and a casting compound layer as well as an insulation material layer, which is manufactured from thermal insulation material, the compression strength of which is at least 10 kPa. The casting compound layer forms the first planar surface of the insulation tile and the insulation material layer forms the second planar surface of the insulation tile. Furthermore, the insulation material layer of the insulation tile comprises grooves in the area of the planar surface which will be against the casting compound layer. The insulation tile according to the invention can be used in floor, roof and wall structures.

An integrated fiber cement and foam cladding system is provided that incorporates foam or similar light weight material to improve the insulation capacity of the cladding system. The system includes at least a fiber cement layer and a foam layer disposed on the backside of the fiber cement layer. The system improves the R-value of the building, a measure of the building's resistance to transferring heat or thermal energy.

Elongated lighting fixtures intended to be incorporated into thin architectural surfaces, interconnected and configurable as a continuous run with potential to follow the direction of adjacent planar surface in three dimensional spaces while maintaining the structural integrity of the supporting framework.

Carbon sequestering infrastructure incorporates carbon-sequestering cladding members that are separate and distinct from structural elements configured to carry a structural load of the infrastructure. The cladding is capable of capturing and sequestering carbon from carbon dioxide in atmospheric/ambient air. The cladding may be distinct members having a high carbon capture capacity (but a low compressive strength unsuitable for use in a structural member) attached to structural members having a lower carbon capture capacity (and a higher compressive strength suitable for use in a structural member). The cladding member may be formed as an envelope suitable for use as a form in casting a structural member. Infrastructure elements including cladding may be configured such that the cladding is removable and replaceable after is carbon sequestering capacity is diminished, to allow for carbon sequestration over the entire length of the infrastructure.

A system and method for installing tile includes the use of fasteners and washers that are installed into the interstitial gaps of the tiles or installed through the face of the tile. The washers and fasteners create a downward pressure on the tiles to align the edges of the tiles and to ensure that the tiles conform to the surface to which they are applied, thereby significantly reducing or minimizing the occurrence of gaps or voids between the installation surface and the tiles. Once the tiles are fixed in position and the adhesive has set or cured, the washers and fasteners are removed and the interstitial spaces or gaps between the tiles is grouted and the tile can be painted or stained. Additionally, the method of manufacturing decorative concrete tiles uses flexible rubber molds to achieve a variety of unique shapes, patterns, and textures.

An integrated fiber cement and foam cladding system is provided that incorporates foam or similar light weight material to improve the insulation capacity of the cladding system. The system includes at least a fiber cement layer and a foam layer disposed on the backside of the fiber cement layer. The system improves the R-value of the building, a measure of the building's resistance to transferring heat or thermal energy.

A method for making an accessory cladding element for use in architecture and design. The method provides preparing an elastically deformable support element, including a first outer surface, in particular a decorated surface, a second outer surface and a plurality of spacer elements placed between the two surfaces. An impermeable and removable layer is applied on the first outer surface to protect at least a part thereof. Then a fluid cement mixture is prepared and introduced into the support element to obtain a cement-based composite structure in a deformable state. The excess fluid cement mixture is removed from the support element. The cement-based composite structure in the deformable state is positioned in a forming device which gives it the desired shape. The composite structure is solidified and after the removable layer is removed.