The present invention relates to a portable building assembly providing a complete structure configured for onsite construction. The structure once packed down can be delivered to site in a flat packed form most efficient for transportation.

In one aspect of the invention, a foldable shelter pod is provided herein including: a top; a bottom; first and second foldable end walls; first and second foldable side walls; and, a plurality of mountable corner panels. The walls are each adjustable from an initial flat folded state to a use state where an obtuse angle is internally subtended. In the use state, first, second, third, and fourth corner openings are defined between adjacent pairs of end walls and side walls. The corner panels are mountable in the first, second, third, and fourth corner openings to brace the foldable shelter pod in an erected state.

A collapsible hunting blind apparatus comprises a floor member, a roof member, and a plurality of walls. The roof member includes angled surfaces and side walls coupled to the angled surfaces. The plurality of walls are hingedly couplable to the floor member such that the plurality of walls hingedly fold inward toward opposite walls and atop the floor member. The roof member is couplable to the floor member while the plurality of walls are folded atop the floor member.

An objective of the present invention is to provide a deployable structure which enables an element even with high rigidity to be folded. A deployable structure (1A) includes a pair of belt-shaped elements (3A, 3A) and a connecting element (4A), wherein the connecting element (4A) connects the pair of belt-shaped elements (3A, 3A) so as to be freely deformable between a folded state and a deployed state, with corners (307) of the pair of belt-shaped elements (3A, 3A) being in contact with each other on their front faces (301) on one side in a thickness direction of the pair of belt-shaped elements (3A, 3A), wherein the pair of belt-shaped elements (3A, 3A) extends in parallel to a predetermined plane xy in the folded state and perpendicular to the predetermined plane xy in the deployed state. Ends of the front faces (301) of the belt-shaped elements (3A, 3A) are connected to the connecting element (4B) via first bent portions (5) which are bendable along the ends. Lateral faces (303, 304) of the pair of belt-shaped elements (3A, 3A) have second cutouts (308) which avoid an interference of the pair of belt-shaped elements (3A, 3A) in the deployed state.

A module for use in constructing a building includes a ceiling assembly. Wall assemblies are configured for attachment to opposite sides of the ceiling assembly generally at tops of the wall assemblies. A floor assembly is configured for attachment generally to bottoms of the wall assemblies. Connector plates are attached to the wall assemblies. The connector plates are configured to receive fasteners for attaching the ceiling assembly and floor assembly to the wall assemblies. A method of construction using the modules is also disclosed.

An expandable shelter assembly that includes a covering hinge coupled to an expandable frame and a base hinge coupled to the expanding frame opposite the covering. The expandable frame is a hollow quadrilateral structure that includes a plurality of sides. The expandable frame includes a collapsed state and a deployed state. When collapsed, the expandable frame is collapsed and the cover is positioned proximate to the base. When deployed, the expandable frame is expanded and the cover is positioned distal to the base. Each side of the expandable frame is insulated, collapsible; includes a first panel hinge coupled to a second panel; and folds inward when the expandable frame is in the collapsed state. The covering and the base are each complementary in shape compared to the expandable frame. The covering is a rigid structure that partially encloses the expandable frame. The base is a hollow and rigid frame.

A connector and a method of providing a framing component for building construction are disclosed, the connector including a first member having opposite plate members with a top portion and a bottom portion, wherein the top portion is pivotally connected to the bottom portion, and a second member having a base member with attachment members, wherein the second member is attached at an angle of 14-50 degrees to the first member. The method is a method of providing a framing component for building construction, the method including the steps of providing the connector, connecting a top chord to the top portion of the connector, and connecting a bottom chord of a wooden joist to the bottom portion of the connector, wherein the connector connects the top chord and the bottom chord in such a way to allow for the top chord and bottom chord to stay in intact.

A spacer system for stacked building structures that is in mating engagement with a seal plate provided on an edge of an enclosure component.

An enclosure member for a building structure comprising a planar laminate having a first facing layer; a layer of foam having a first face and a second opposing face; and a second facing layer; where the first facing layer is fastened to the first face of the layer of foam, and the second facing layer is fastened to the second opposing face of the layer of foam. An edge of the enclosure is provided with a perimeter structure that can perform one or more of a sealing function, an edge reinforcement function and a pivotable joining function with another enclosure, in accordance with the particular embodiment.

A living space is disclosed including one or more adjustable or reconfigurable rooms. A room may be made reconfigurable by including fixed walls and a frame that is mounted to move in a first direction between a first position coextensive with the fixed walls and a second position that is extended relative to the fixed walls. The room may further include panels mounted in the frame configured to move in a second direction, orthogonal to the first direction, to seal off a front of the room. In examples, the panels may store against the frame when not in use.