A floor assembly of a modular home includes a frame including a plurality of floor joists, at least one upper plate coupled to a top of the frame, a skid plate coupled to a bottom of the frame, the skid plate including a circular opening, and a pin socket including a cylindrical pipe section positioned around the circular opening. The pin socket is configured to receive a rotation pin and configured to cause the rotation of the floor assembly about the rotation pin when a force is applied to the floor assembly.

A modular home includes a space inside the modular home. The modular home includes a floor assembly including a frame comprising a plurality of floor joists, at least one upper plate coupled to a top of the frame; and at least one lower plate coupled to a bottom of the frame. The modular home includes a bladder tank support assembly coupled to the floor assembly. The bladder tank support assembly includes a support platform configured to be lowered from an upper position in which the support platform is received within the opening to a lower position below the floor assembly. The modular home includes an inflatable bladder tank positioned on the support platform, the inflatable bladder tank structured to fit between the support platform and the floor of the space when the inflatable bladder tank is deflated and the support platform is in the upper position.

An enclosure component having a thickness for a building structure having an interior sheathing layer comprising paper; a first structural layer bonded to the interior sheathing layer and comprising a first generally rectangular structural panel of magnesium oxide arranged in a side-by-side relationship with a second generally rectangular structural panel of magnesium oxide to define a first structural panel seam between the first and second structural panels. There is a first binding strip of magnesium oxide positioned over the first structural panel seam and fastened to form a lap joint with the first structural panel and with the second structural panel, so as to bond together the first and second structural panes. The enclosure component includes a first strengthening layer, comprising woven fiber mat, bonded to the first structural layer; and a foam layer with first and second opposing faces comprising a first generally rectangular foam panel and a second generally rectangular foam panel arranged in a side-by-side relationship to define a foam panel seam between the first and second foam panels. The first structural panel seam is offset from the foam panel seam a select distance in a direction generally perpendicular to the thickness. The first strengthening layer is bonded to the first opposing face of the foam layer. The enclosure component also has a second structural layer comprising a third generally rectangular structural panel of magnesium oxide arranged in a side-by-side relationship with a fourth generally rectangular structural panel of magnesium oxide to define a second structural panel seam between the third and fourth structural panels. There is a second binding strip of magnesium oxide positioned over the second structural panel seam and fastened to form a lap joint with the third structural panel and with the fourth structural panel, so as to bond together the third and fourth structural panels. The second structural panel seam is offset from the foam panel seam a select distance in a direction generally perpendicular to the thickness; and the second structural layer is bonded to the second opposing face of the foam layer.

A modular connector is disclosed that comprises of a middle-plate, a plurality of sectioned-base-plates, and a pluraity of locking-plates. The middle-plate and the plurality of sectioned-base-plates have a plurality of slotted holes to enable faster construction and deal with construction tolerances efficiently. Also, a plurality of grooved surfaces on the sectioned-base-plate and the locking-plate provide a system so that bolted-connected modules do not slide and remain at initially its aligned position. Disclosed is also a method for assembling a modular building.

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.

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.

An exemplary modular building component disclosed herein includes at least three side walls connected to each other to form a frame structure having an open exterior end and an open interior end, in various aspects. Each of the side walls includes a mating inner structural wall and an outer pivoting wall, in various aspects. The structural wall and the pivoting wall each include a top end and a bottom end, wherein the pivoting wall bottom end is adapted to pivotably engage the structural wall bottom end, in various aspects. A tautened fabric material covers the frame structure exterior end and is secured to each pivoting wall, in various aspects. The fabric is tautened over the frame structure exterior end as each pivoting wall top end is pivoted into abutment with its mating structural wall top end, in various aspects. Related methods are disclosed.

A trailer configured to transport a load includes a bed including an upper surface configured to support the load, a slot positioned in the bed and extending from a front portion of the bed to a rear portion of the bed, and a first rotation pin configured to translate within the slot and extending from within the slot to above the upper surface of the bed.

Disclosed herein is the fabrication and implementation of prefabricated volumetric construction modules that include transitioning members that adjust between vertical support columns and structural trusses via lateral joints. Modification of vertical support columns to trusses enables open space configurations in volumetric construction. Each volumetric module includes a habitation zone and a truss zone. Folding or transitioning a vertical support column at the lateral joint positions a lower region of the support column from the habitation zone into the truss zone. The vertical support columns are transitioned in a specified order where within a given row of vertical support columns. Beginning from a first interior column on an edge-positioned transforming volumetric module, workers fold half of the vertical support columns of the given row into the truss arrangement in a first direction toward the edge-positioned transforming volumetric module. Continuing from a second interior column on an opposite edge-positioned transforming volumetric module, a worker folds a remaining half of the vertical support columns of the given row into the truss arrangement in a second direction toward the opposite edge-positioned transforming volumetric module.

A method of unloading a modular home from a trailer includes extending a plurality of linear actuators coupled to overhanging portions of a modular home positioned on a bed of a trailer until the linear actuators lift the modular home off of the trailer, sending instructions to one or more crawlers to move under the modular home, retracting the linear actuators to lower the modular home such that a lower surface of the modular home rests on a platform positioned on each of the crawlers, sending instructions to the crawlers to move the modular home to an installation location, extending the linear actuators until the linear actuators lift the modular home off of the crawlers, sending instructions to the crawlers to move out from under the modular home, and retracting the linear actuators to lower the modular home to an installed height.