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 remining 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 rectangular parallelepiped modular structure; size of the structure variable by selection of elements from a plurality of elements; the elements adapted for interconnection to form the structure; the modular structure collapsible for transport and storage; two or more of the modular structures providing stability and support for an overarching roof assembly.

The portable structure will generally have a pod from which a suite frame and suite may be deployed. The suite will allow personnel to administer to many critical demands and activities. The portable structure may be deployed upon any terrain, whether level or uneven, rigid or soft, and both the pod and the suite may be leveled independently. Additionally, the portable structure may incorporate at least one cocoon section wherein the cocoon section comprises at least one interior layer contacting a mesh covering placed over the suite frame, at least one thermal layer affixed to the interior layer, wherein the thermal layer includes heat adding and heat removal members capable of removing or adding heat to the mesh covering or a substance adjacent the at least one thermal layer and at least one exterior layer affixed to the thermal layer.

The invention is a modular building component with rod-based dimensions. The modular building component comprises a prismatic box structure. A number of the prismatic box structures are placed side by side horizontally to create a ceiling and a floor with rod-based dimensions. The ceiling and the floor function as components of a building with rod-based dimensions. The building may also have walls that are also prismatic box structures with rod-based dimensions. Two or more of the buildings can be placed side by side to fill equal portions of an entire width of a perfect-acre lot. The buildings that fill an entire perfect-acre lot lead to a sustainable community design, given that no space is wasted. The rod-based building components are properly dimensioned for quickly assembling these optimally sustainable buildings.

A mobile office structure and comprises a base frame set including multiple first base frames and multiple second base frames. Multiple wheel sets are connected to the underside of each of the second base frames. A top frame set includes multiple first top frames and multiple second top frames. Multiple upright frames are located at four corners of a combination of the base frame sets and the top frame sets. Multiple separators are respectively connected between any two of the upright frames. Multiple linings are assembled between any of the two upright frames, and each lining is located corresponding to the inside of each of the separators. Multiple outer plates are assembled between any of the two upright frames, and each outer plate is located relative to the outside of each of the separators. A door plate assembly is installed between the base frame set and the top frame set.

A mobile office structure and comprises a base frame set including multiple first base frames and multiple second base frames. Multiple wheel sets are connected to the underside of each of the second base frames. A top frame set includes multiple first top frames and multiple second top frames. Multiple upright frames are located at four corners of a combination of the base frame sets and the top frame sets. Multiple separators are respectively connected between any two of the upright frames. Multiple linings are assembled between any of the two upright frames, and each lining is located corresponding to the inside of each of the separators. Multiple outer plates are assembled between any of the two upright frames, and each outer plate is located relative to the outside of each of the separators. A door plate assembly is installed between the base frame set and the top frame set.

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.

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 remining 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 modular enclosure structure having at least three walls and comprised of at least three elongated posts selected from at least two elongated upright/vertical posts. Each post has a longitudinal hollow a flexible and durable compacted sheet material therein and wherein a narrow longitudinal through-slot aligned with the free end of each of the compacted sheet materials. Sheet material in each hollow is able to be externally drawn and retracted with manipulation of the free end. The free end of each sheet material has a latching member attached to either an elongated upright/vertical post member, having at least two latching members or to the two elongated posts having hollows and also cooperative latching members, wherein walls of sheet material are externally drawn from the posts with compacted sheet material to form an enclosure comprising at least three walls of sheet material.

The invention is a modular building component with rod-based dimensions. The modular building component comprises a prismatic box structure. A number of the prismatic box structures are placed side by side horizontally to create a ceiling and a floor with rod-based dimensions. The ceiling and the floor function as components of a building with rod-based dimensions. The building may also have walls that are also prismatic box structures with rod-based dimensions. Two or more of the buildings can be placed side by side to fill equal portions of an entire width of a perfect-acre lot. The buildings that fill an entire perfect-acre lot lead to a sustainable community design, given that no space is wasted. The rod-based building components are properly dimensioned for quickly assembling these optimally sustainable buildings.