Readily joining CLT panels to obtain a box-shaped building unit.

An orthogonal part of each surface of a rectangular parallelepiped has a structure wherein a surface of edge of lumber 11s of a CLT panel 11 is made abut on an inner main surface 10i of a CLT panel 10 and joined thereto by a joining member 2 so that a surface of edge of lumber 10s of the CLT panel 10 and an outer main surface 11o of the CLT panel 11 are flush. A joining part by the joining member 2 has a structure wherein the surface of edge of lumber 10s and the inner main surface 10i and outer main surface 10o of the CLT panel 10 are opened so that the outer main surface 10o side is wider than the inner main surface 10i side, the surface of edge of lumber 11s and at least the outer main surface 11o of the CLT panel 11 are opened so that the inner side of the CLT panel 11 is wider than the surface of edge of lumber 11s side, and the butterfly joint-shaped joining member 2 is inserted into the opening of the CLT panel 10 and the opening of the CLT panel 11 from the surface of edge of lumber 10s of the CLT panel 10 and the outer main surface 11o of the CLT panel 11 side.

Readily joining CLT panels to obtain a box-shaped building unit.

An orthogonal part of each surface of a rectangular parallelepiped has a structure wherein a surface of edge of lumber 11s of a CLT panel 11 is made abut on an inner main surface 10i of a CLT panel 10 and joined thereto by a joining member 2 so that a surface of edge of lumber 10s of the CLT panel 10 and an outer main surface 11o of the CLT panel 11 are flush. A joining part by the joining member 2 has a structure wherein the surface of edge of lumber 10s and the inner main surface 10i and outer main surface 10o of the CLT panel 10 are opened so that the outer main surface 10o side is wider than the inner main surface 10i side, the surface of edge of lumber 11s and at least the outer main surface 11o of the CLT panel 11 are opened so that the inner side of the CLT panel 11 is wider than the surface of edge of lumber 11s side, and the butterfly joint-shaped joining member 2 is inserted into the opening of the CLT panel 10 and the opening of the CLT panel 11 from the surface of edge of lumber 10s of the CLT panel 10 and the outer main surface 11o of the CLT panel 11 side.

A prefabricated integrated window and wall is provided. The prefabricated integrated window and wall includes a window frame, a wall, and a power system. The window frame is configured to hold a variety of different windows. The window frame includes a frame head and a sill. The frame head includes a channel. The sill includes tabs. The wall is configured around the window frame. The wall is configured to connect to the tabs of the sill and the channel of the frame head. The power system is molded into the window frame. A method of assembling the prefabricated integrated window and wall is also provided.

A high performance wall assembly receives an exterior covering of a building. The high performance wall assembly includes a frame assembly having a top member, a bottom member opposite the top member, and a plurality of vertical members. The vertical members are coupled to and extend between the top and bottom members. The high performance wall assembly also includes a rigid foam insulating panel coupled to the frame assembly. A structural foam layer is disposed on the plurality of vertical members and on the rigid foam insulating panel. The structural foam layer couples the rigid foam insulating panel to the frame assembly and couples the plurality of vertical members to the top and bottom members such that the high performance wall is free of fasteners.

A high performance wall assembly receives an exterior covering of a building. The high performance wall assembly includes a frame assembly having a top member, a bottom member opposite the top member, and a plurality of vertical members. The vertical members are coupled to and extend between the top and bottom members. The high performance wall assembly also includes a rigid foam insulating panel coupled to the frame assembly. A structural foam layer is disposed on the plurality of vertical members and on the rigid foam insulating panel. The structural foam layer couples the rigid foam insulating panel to the frame assembly and couples the plurality of vertical members to the top and bottom members such that the high performance wall is free of fasteners.

A high performance wall assembly receives an exterior covering of a building. The high performance wall assembly includes a frame assembly having a top member, a bottom member opposite the top member, and a plurality of vertical members. The vertical members are coupled to and extend between the top and bottom members. The high performance wall assembly also includes a rigid foam insulating panel coupled to the frame assembly. A structural foam layer is disposed on the plurality of vertical members and on the rigid foam insulating panel. The structural foam layer couples the rigid foam insulating panel to the frame assembly and couples the plurality of vertical members to the top and bottom members such that the high performance wall is free of fasteners.

A high performance wall assembly receives an exterior covering of a building. The high performance wall assembly includes a frame assembly having a top member, a bottom member opposite the top member, and a plurality of vertical members. The vertical members are coupled to and extend between the top and bottom members. The high performance wall assembly also includes a rigid foam insulating panel coupled to the frame assembly. A structural foam layer is disposed on the plurality of vertical members and on the rigid foam insulating panel. The structural foam layer couples the rigid foam insulating panel to the frame assembly and couples the plurality of vertical members to the top and bottom members such that the high performance wall is free of fasteners.

A building framework is disclosed herein comprising a first structural member, a second structural member, and a third structural member disposed between the first and second structural members, a first web member connecting the first and third structural members in a spaced apart relationship, and a second web member connecting the second and third structural members in a spaced apart relationship. The first web member is positioned relative to the second web member such that the shortest distance between the first web member and second web member is greater than or equal to 5 times the thickness of the third structural member. Additional products, systems, and methods also are disclosed.

Wall structures and methods of manufacturing wall structures are described. The wall structures include a frame, a foam panel attached to the frame, a brace disposed in a cavity defined by the frame, and a foam layer. The wall structures can impart a high wall racking strength and good thermal performance through the combination of the foam layer, brace, and the foam panels.

A building framework is disclosed herein comprising a first structural member, a second structural member, and a third structural member disposed between the first and second structural members, a first web member connecting the first and third structural members in a spaced apart relationship, and a second web member connecting the second and third structural members in a spaced apart relationship. The first web member is positioned relative to the second web member such that the shortest distance between the first web member and second web member is greater than or equal to 5 times the thickness of the third structural member. Additional products, systems, and methods also are disclosed.