The invention is for a modular building unit (10, 200, 210) for use in constructing a building. The building unit (10, 200, 210) has a planar body (12) having two major side faces (12.1) and two ends (12.2) between each side face (12.1), and a connection interface (28, 30) provided at each of the ends, for connecting similar building units (10, 200, 210) with complemental connection interfaces. The body (12) comprises three walls (14, 16, 18) arranged side-to-side and transversely spaced from each other, the three walls (14, 16, 18) thus defining two planar spaces (20, 22) therebetween, and a plurality of reinforcing webs (24) in the first space, for providing structural support to the building unit (10, 200, 210). The second space (22) defines at least one hollow cavity for receiving a matched insulation insert (25) thereby to impart insulating properties to the building unit (10, 200, 210).

The invention is for a modular building unit (10, 200, 210) for use in constructing a building. The building unit (10, 200, 210) has a planar body (12) having two major side faces (12.1) and two ends (12.2) between each side face (12.1), and a connection interface (28, 30) provided at each of the ends, for connecting similar building units (10, 200, 210) with complemental connection interfaces. The body (12) comprises three walls (14, 16, 18) arranged side-to-side and transversely spaced from each other, the three walls (14, 16, 18) thus defining two planar spaces (20, 22) therebetween, and a plurality of reinforcing webs (24) in the first space, for providing structural support to the building unit (10, 200, 210). The second space (22) defines at least one hollow cavity for receiving a matched insulation insert (25) thereby to impart insulating properties to the building unit (10, 200, 210).

A drywall kit is provided including a wall frame, a drywall section, and a cabinet. The wall frame includes a top plate, a bottom plate, and a plurality of vertical studs. A first vertical stud includes a first hole and a first bolt screwed into the first hole. A second vertical stud includes a second hole and a second bolt screwed into the second hole. The drywall section includes a third hole which aligns with the first hole and a fourth hole which aligns with the second hole. The cabinet includes a back panel. The back panel includes a fifth hole which aligns with the first hole and a sixth hole which aligns with the second hole. The cabinet and the drywall section are secured to the wall frame via the first bolt and the second bolt. A method of installation is also provided.

A column assembly includes a two or more piece interlocking column assembly having at least a first linear section configured with an annular curve about a first short dimension, said at least first linear section having a first exterior surface, a first interior surface, and a first set of opposing edges, wherein said first set of opposing edges are configured with a first opposing male/female latch mechanism; and at least a second linear section configured with said annular curve about a second short dimension, said at least second linear section having a second exterior surface, a second interior surface, and a second set of opposing edges, wherein said second set of opposing edges are configured with a second opposing male/female latch mechanism, wherein said first opposing male/female latch mechanism and said second opposing male/female latch mechanism are configured to friction fit thereto each other.

A thermal break wood and rigid insulation wall support column, buttress or header is comprised of spaced apart multiple parallel and right angled wood panels. The right angled wood panels are secured together by box joints. Non-metallic angled mechanical fasteners hold the lumber panels together in a truss angled arrangement maintaining the panels spaced relationship. A thermal break section of rigid foam insulation is injected between the lumber panels and around the mechanical fasteners.

A thermal break wood and rigid insulation wall support column, buttress or header is comprised of spaced apart multiple parallel and right angled wood panels. The right angled wood panels are secured together by box joints. Non-metallic angled mechanical fasteners hold the lumber panels together in a truss angled arrangement maintaining the panels spaced relationship. A thermal break section of rigid foam insulation is injected between the lumber panels and around the mechanical fasteners.

An insulated construction member has a first wooden rail and a second wooden rail. The second wooden rail is positioned in parallel spaced relation to the first wooden rail. This parallel spaced relation creates a thermal break between the first wooden rail and the second wooden rail. A series of planar wooden connectors are positioned at spaced intervals along the length of the first wooden rail and the length of the second wooden rail. Each of the planar wooden connectors extends across the thermal break between the first wooden rail and the second wooden rail. A polymer insulation is positioned between the first wooden rail and the second wooden rail completely filling the thermal break. The polymer insulation encapsulates the series of planar wooden connectors, with the polymer insulation being reinforced by the series of planar wooden connectors.

An insulated construction member has a first wooden rail and a second wooden rail. The second wooden rail is positioned in parallel spaced relation to the first wooden rail. This parallel spaced relation creates a thermal break between the first wooden rail and the second wooden rail. A series of planar wooden connectors are positioned at spaced intervals along the length of the first wooden rail and the length of the second wooden rail. Each of the planar wooden connectors extends across the thermal break between the first wooden rail and the second wooden rail. A polymer insulation is positioned between the first wooden rail and the second wooden rail completely filling the thermal break. The polymer insulation encapsulates the series of planar wooden connectors, with the polymer insulation being reinforced by the series of planar wooden connectors.

Systems for reinforcement of structural elements such as piles, posts, pillars, and pipes are disclosed. The present invention features reinforced structural elements. The reinforced structural elements may include a sleeve structure positioned around a length of the structural element such that there is a chamber between the structural element and the sleeve structure. This chamber may be filled with concrete or another core filler material so as to reinforce the structural element. The sleeve structures of the present invention may be formed by the assembly of multiple staggered segmented layers of coupled reinforcing shells such as rigid, semi-rigid, or flexible fiber-reinforced shells.

Systems for reinforcement of structural elements such as piles, posts, pillars, and pipes are disclosed. The present invention features reinforced structural elements. The reinforced structural elements may include a sleeve structure positioned around a length of the structural element such that there is a chamber between the structural element and the sleeve structure. This chamber may be filled with concrete or another core filler material so as to reinforce the structural element. The sleeve structures of the present invention may be formed by the assembly of multiple staggered segmented layers of coupled reinforcing shells such as rigid, semi-rigid, or flexible fiber-reinforced shells.