EP4185752A1 - Enclosure component sealing systems - Google Patents

Abstract

Systems for sealing the abutting portions of wall, floor and roof components to limit or prevent the ingress of rain water, noise and outside air into the interior of foldable transportable building structures, which abutting portions are provided with two enclosure component sealing structures in pressing contact either when the building structure is manufactured, or later when the structure is transported to its final location and fully unfolded, and one or more compression or shear seals.

Description

ENCLOSURE COMPONENT SEALING SYSTEMS

CROSS-REFERENCES TO RELATED APPLICATIONS

[001] This application claims the benefit of U.S. Provisional Application No. 63/136,268 filed January 12, 2021, U.S. Provisional Application No. 63/181,447, filed April 29, 2021, and U.S. Provisional Application No. 63/196,400 filed June 3, 2021.

BACKGROUND OF THE INVENTION

Field of the Invention

[002] The inventions herein relate to structures, such as dwellings and other buildings for residential occupancy, commercial occupancy and/or material storage, and to components for such structures.

Description of the Related Art

[003] In the field of residential housing, the traditional technique for building homes is referred to as “stick-built” construction, where a builder constructs housing at the intended location using in substantial part raw materials such as wooden boards, plywood panels, and steel columns. The materials are assembled piece by piece over a previously prepared portion of ground, for example, a poured concrete slab or a poured concrete or cinder block foundation. [004] There have been a variety of efforts to depart from the conventional construction techniques used to create dwellings, as well as commercial spaces and like. One of the alternatives to stick-built construction is very generally referred to as modular housing. As opposed to stick-built construction, where the structure is built on-site, a modular house is constructed in a factory and then shipped to the site, often by means of a tractor-trailer.

[005] Such modular housing often exceeds in size normally-permitted legal limits for road transport. For example, in the United States the maximum permitted dimensions for road transport are in general 102 inches (259.1 cm) in width, 13.5 feet (4.11 m) in height and 65 to 75 feet (19.81 to 22.86 m) in length. Thus, in many cases transporting a modular house from factory to site requires oversize load permits, which may impose restrictions on when transport can be undertaken and what routes can be utilized. Oversize road regulations may also require the use of an escort car and a trailing car as well. All of these requirements and restrictions inevitably increase the cost of the modular housing.

[006] Significant advancements in the construction of dwellings and commercial space are described in U.S. Patent Nos. 8,474,194, 8,733,029, 10,688,906, 10,829,029 and 10,926,689. In one aspect, these patents pertain to fabricating wall, floor and roof components in a factory that are folded together into a compact shipping module, and which are then transported to the intended location and unfolded to yield a fully formed structure.

SUMMARY OF THE INVENTION

[007] The present inventions are directed to enclosure component sealing systems for foldable, transportable building structures. These foldable, transportable structures includes a number of wall, floor and roof components with exterior edges abutting top, bottom or interior faces of other wall, floor and roof components. In addition, the foldable, transportable structures include a number of partitioned wall, floor and roof components with abutting interior edges when the enclosure components are fully unfolded.

[008] The present inventions describe advancements in sealing the abutting portions of the wall, floor and roof components to limit or prevent the ingress of rain water, noise and outside air into the interior of the structure. The present inventions include sealing systems that in general terms utilize two enclosure component sealing structures in pressing contact either when the building structure is manufactured, or later when the structure is transported to its final location and fully unfolded.

[009] In one aspect, the present inventions are directed to an end cap, to be secured to an edge of a building structure enclosure component, which comprises a planar elongate seal plate having an interior face, an opposed exterior face, a first edge, an opposed second edge and a thickness. The interior face is adapted to be secured to the edge of the enclosure component, an elongate key is provided on the interior face of the seal plate, and an elongate accessory slot is defined in the exterior face of the seal plate, with the accessory slot having a depth less than the thickness of the seal plate. There is also provided a first locating slot extending from the first edge of the seal plate inwardly into the thickness of the seal plate toward the second edge, and a second locating slot extending from the second edge of the seal plate inwardly into the thickness of the seal plate toward the first edge.

[0010] In another aspect, the present inventions are directed to a sealing system for abutting regions of building structure enclosure components, which comprises a planar elongate first seal plate having a first interior face and an opposed first exterior face, with the first interior face adapted to be secured to an enclosure component, and the first exterior face defining an elongate seal slot. The first seal plate is adapted to mate with a planar elongate second seal plate, with the first exterior face being positioned in proximity with a second exterior face of the second seal plate, and an elongate resilient compression seal is positioned in the elongate seal slot. The elongate resilient compression seal has a hollow seal chamber and comprises an elongate base, an elongate first seal wall joined to the base and an opposed elongate second seal wall joined to the base, with the first and second seal walls extending away from the base in a diverging relationship. An elongate first arcuate buttress is joined to an end of the first seal wall distal from the base, and an elongate second arcuate buttress is joined to an end of the second seal wall distal from the base. In addition, an elongate planar first seal surface is joined to an end of the first arcuate buttress distal from the first seal wall, and an elongate planar second seal surface is joined to an end of the second arcuate buttress distal from the second seal wall, with the first seal surface and the second seal surface each extending away at an angle from the first arcuate buttress and the second arcuate buttress respectively in a converging relationship. There is also provided an elongate seal closure having a first closure end joined to an end of the first seal surface distal from the first arcuate buttress, and a second closure end joined to an end of the second seal surface distal from the second arcuate buttress. The base, the first and second seal walls, the first and second arcuate buttresses, the first and second seal surfaces and the seal closure thereby define the hollow seal chamber.

[0011] In yet another aspect, the present inventions are directed to a sealing system for abutting regions of enclosure components for a building structure, which comprises a planar elongate first seal plate having a first interior face and an opposed first exterior face, with the first interior face adapted to be secured to a first enclosure component, and the first exterior face defining an elongate seal slot. The first seal plate is adapted to mate with a planar elongate second seal plate by lateral movement of a second exterior face of the second seal plate relative to the first exterior face of the first seal plate, and an elongate resilient shear seal is positioned in the elongate seal slot. The elongate resilient shear seal has a hollow seal chamber and comprises an elongate base, an elongate first seal wall joined to the base and an opposed elongate second seal wall joined to the base, with the first and second seal walls extending away from the base in a diverging relationship. An elongate seal support is joined to an end of the first seal wall distal from the base, and an elongate planar seal closure is joined to an end of the second seal wall distal from the base. In addition, an elongate planar cantilevered seal surface is joined to the seal closure distal from the second seal wall at a shear seal junction, with the cantilevered seal surface oriented at an upward angle relative to the base and terminating at a free end, and an end of the seal support distal from the first seal wall is joined either to the shear seal junction, or to the elongate planar cantilevered seal surface proximate to the shear seal junction, to thereby define the hollow seal chamber.

[0012] These and other aspects of the present inventions are described in the drawings annexed hereto, and in the description of the preferred embodiments and claims set forth below.

BRIEF DESCRIPTION OF THE DRAWINGS

[0013] Figure 1 is a perspective view of a structure prepared in accordance with the present inventions.

[0014] Figure 2 is a top schematic view of the structure shown in Figure 1. [0015] Figure 3 is an end view of a shipping module from which is formed the finished structure shown in Figure 1.

[0016] Figures 4 and 5 are partial cutaway views of a finished structure in accordance with the present inventions, depicting in greater detail aspects of the roof, wall and floor components.

[0017] Figure 6 is a schematic perspective view depicting the exterior edge reinforcement for a wall component in accordance with the present inventions.

[0018] Figure 7 is an exploded cross-sectional view of a multi-layered, laminate design for use in the enclosure components of the present inventions.

[0019] Figure 8A is an exploded perspective view of a finished structure in accordance with the present inventions, depicting suitable locations for the sealing systems of the present inventions on the horizontally positioned enclosure components, and Figure 8B is an exploded perspective view of a finished structure in accordance with the present inventions, depicting correspondingly suitable locations for the sealing systems of the present inventions on the vertically positioned enclosure components

[0020] Figure 9 is a side view of a roof portion in accordance with the present inventions.

[0021] Figure 10 is a schematic side view of an I-beam end cap in accordance with the present inventions.

[0022] Figure 11A is a section view of a compression seal in accordance with the present inventions, and Figure 1 IB is a side view of a roof bottom plate with a compression seal provided in one of its two seal slots in accordance with the present inventions.

[0023] Figure 12 is an exploded side view of the junction between a wall vertical interlock and a wall end cap in accordance with the present inventions, and Figure 13 is an exploded side view of the junction between a roof bottom plate and wall end cap in accordance with the present inventions.

[0024] Figures 14 is an exploded side view of the junction between an I-beam interlock A and an I-beam interlock B in accordance with the present inventions.

[0025] Figure 15 is an exploded side view of the junction between a floor top plate and a wall end cap in accordance with the present inventions. [0026] Figure 16A is a section view of a shear seal in accordance with the present inventions, and Figure 16B is a side view of a wall end interlock with a shear seal provided in its seal slot in accordance with the present inventions.

[0027] Figure 17 is an exploded side view of the junction between a floor top interlock and a wall end interlock A in accordance with the present inventions.

[0028] Figure 18 is an exploded side view of the junction between a wall end interlock B and a wall end interlock A in accordance with the present inventions.

[0029] Figure 19 A is a side view of the junction between a perimeter board and an I-beam end lock in accordance with the present inventions, and Figure 19B is a depiction of the positioning of an I-beam end cap, a floor top plate, a wall end cap and a perimeter board in accordance with the present inventions.

[0030] Figure 20 is a side view of the junction between a roof skirt board and an I-beam end lock in accordance with the present inventions.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0031] An embodiment of the foldable, transportable structure 150 in which the inventions disclosed herein can be implemented is depicted in Figures 1 through 5. When fully unfolded, as exemplified by Figure 1, structure 150 has a rectangular shape made of three types of generally planar and rectangular enclosure components 155, the three types of enclosure components 155 consisting of a wall component 200, a floor component 300, and a roof component 400. As shown in Figures 1 and 2, the perimeter of structure 150 is defined by first longitudinal edge 106, first transverse edge 108, second longitudinal edge 116 and second transverse edge 110. For convenience, a direction parallel to first longitudinal edge 106 and second longitudinal edge 116 may be referred to as the “longitudinal” direction, a direction parallel to first transverse edge 108 and second transverse edge 110 may be referred to as the “transverse” direction; and a direction parallel to the vertical direction in Figure 1 may be referred to as the “vertical” direction. Structure 150 as shown has one floor component 300, one roof component 400 and four wall components 200; although it should be understood that the present inventions are applicable to structures having other configurations as well. [0032] Enclosure components 155 (wall component 200, floor component 300 and roof component 400) can be fabricated and dimensioned as described herein and positioned together to form a shipping module 100, shown end-on in Figure 3. The enclosure components 155 are dimensioned so that the shipping module 100 is within U.S. federal highway dimensional restrictions. As a result, shipping module 100 can be transported over a limited access highway more easily, and with appropriate trailering equipment, transported without the need for oversize permits. Thus, the basic components of structure 150 can be manufactured in a factory, positioned together to form the shipping module 100, and the modules 100 can be transported to the desired site for the structure, where they can be readily assembled, as described herein.

Enclosure Component (155): General Description

[0033] The enclosure components 155 of the present invention include a number of shared design features that are described below.

A. Laminate Structure Design

[0034] Enclosure components 155 can be fabricated using a multi-layered, laminate design. A particular laminate design that can be used to fabricate enclosure components 155 comprises a first structural layer 210, a foam panel layer 213, a second structural layer 215 and a protective layer 218, as shown in Figure 7 and described further below.

[0035] In particular, first structural layer 210 is provided in the embodiment of enclosure component 155 that is depicted in Figure 7. First structural layer 210 in the embodiment shown comprises a sheet metal layer 205, which can be for example galvanized steel or aluminum. Sheet metal layer 205 is made from a plurality of generally planar rectangular metal sheets 206 positioned adjacent to each other to generally cover the full area of the intended enclosure component 155.

[0036] Referring again to Figure 7, there is next provided in the depicted embodiment of enclosure component 155 a foam panel layer 213, comprising a plurality of generally planar rectangular foam panels 214 collectively presenting a first face 211 and a second opposing face 212. Foam panels 214 are made for example of expanded polystyrene (EPS) foam. A number of these foam panels 214 are positioned adjacent to each other and superposed first face-down on first structural layer 210 to generally cover the full area of the intended enclosure component 155. The foam panels 214 of foam panel layer 213 preferably are fastened to the metal sheets 206 of first structural layer 210 using a suitable adhesive, preferably a polyurethane based construction adhesive. Foam panel layer 213 can include exterior edge reinforcement and interior edge reinforcement, as described further below.

[0037] In the embodiment of the enclosure component 155 depicted in Figure 7, there is next provided a second structural layer 215, having a first face that is positioned on the second opposing face 212 of foam panels 214 (the face distal from first structural layer 210), and also having a second opposing face. Second structural layer 215 in the embodiment shown comprises a sheet metal layer 216, which can be for example galvanized steel or aluminum. Sheet metal layer 216 is made from a plurality of generally planar rectangular metal sheets 217 positioned adjacent to each other and superposed first face-down on the second opposing face of foam panel layer 213 to generally cover the full area of the intended enclosure component 155. The metal sheets 217 of second structural layer 215 preferably are fastened to foam panel layer 213 using a suitable adhesive, preferably a polyurethane based construction adhesive.

[0038] In the embodiment of the enclosure component 155 depicted in Figure 7, there is optionally next provided a protective layer 218, having a first face that is positioned on the second opposing face of second structural layer 215 (the face distal from foam panel layer 213), and also having a second opposing face. Optional protective layer 218 in the embodiment shown comprises a plurality of rectangular structural building panels 219 principally comprising an inorganic composition of relatively high strength, such as magnesium oxide (MgO). The structural building panels 219 are positioned adjacent to each other and superposed first face-down on the second opposing face of second structural layer 215 to generally cover the full area of the intended enclosure component 155. The building panels 219 of protective layer 218 preferably are fastened to second structural layer 215 using a suitable adhesive, preferably a polyurethane based construction adhesive. Protective layer 218 can be used if desired to impart a degree of fire resistance to the enclosure component 155, as well as to provide a pleasing texture and/or feel.

[0039] Other embodiments of multi-layered, laminate designs that can be used to fabricate the enclosure components 155 of the present invention, are described in U.S.

Nonprovisional Patent Application No. 16/786,130, entitled “Foldable Building Structures with Utility Channels and Laminate Enclosures,” filed on February 10, 2020, which has issued as U.S. Patent No. 11,118,344. The contents of that U.S. Nonprovisional Patent Application No. 16/786,130, entitled “Foldable Building Structures with Utility Channels and Laminate Enclosures” and filed on February 10, 2020 are incorporated by reference as if fully set forth herein, particularly including the multi-layered, laminate designs described for example at 0034-57 and depicted in Figures 4A-4D thereof.

B. Enclosure Component Exterior Edge Reinforcement

[0040] The exterior edges of each enclosure component 155 (i.e., the edges that define the perimeter of enclosure component 155) can be provided with exterior edge reinforcement, as desired. Exterior edge reinforcement generally comprises an elongate rigid member which can protect the foam panel material of foam panel layer 213 that would otherwise be exposed at the exterior edges of enclosure components 155. Exterior edge reinforcement can be fabricated from one or more of laminated strand lumber board, wooden board, C- channel extruded aluminum or steel, or the like, and is generally secured to the exterior edges of enclosure component 155 with fasteners, such as screw or nail fasteners, and/or adhesive.

C. Enclosure Component Partitioning

[0041] Enclosure components 155 in certain instances are partitioned into enclosure component portions to facilitate forming a compact shipping module 100. In those instances where an enclosure component 155 is partitioned into enclosure component portions, any exterior edge reinforcement on the exterior edges defining the perimeter of the enclosure component is segmented as necessary between or among the portions.

[0042] The enclosure component portions can be joined by hinge structures or mechanisms to permit the enclosure component portions to be “folded” and thereby contribute to forming a compact shipping module 100.

D. Enclosure Component Interior Edge Reinforcement

[0043] An enclosure component 155 partitioned into enclosure component portions will have interior edges. There will be two adjacent interior edges for each adjacent pair of enclosure component portions. Such interior edges can be provided with interior edge reinforcement. Similar to exterior edge reinforcement, such interior edge reinforcement generally comprises an elongate, rigid member which can protect the foam panel material of foam panel layer 213 which that would otherwise be exposed at the interior edges of enclosure components 155. Interior edge reinforcement can be fabricated from one or more of laminated strand lumber board, wooden board, C-channel extruded aluminum or steel, or the like, and is generally secured to the interior edges of enclosure component 155 with fasteners, such as screw or nail fasteners, and/or adhesive.

E. Enclosure Component Load Transfer

[0044] In the case of enclosure components 155, it is necessary to transfer the loads imposed on their surfaces to their exterior edges, where those loads can be transferred either to or through adjoining walls, or to the building foundation. For enclosure components 155 that are horizontally oriented when in use (floor component 300 and roof component 400), such loads include the weight of equipment, furniture and people borne by their surfaces, as well as vertical seismic loads. For enclosure components that are vertically oriented when in use (wall component 200), such loads include those arising from meteorological conditions (hurricanes, tornadoes, etc.) and human action (vehicle and other object impacts).

[0045] For this purpose, multi-layered, laminate designs as shown in Figure 7 will function to transfer the loads described above. To add additional load transfer capability, structural members, such as beams and/or joists, can be utilized within the perimeter of the enclosure components 155, as is deemed appropriate to the specific design of structure 150 and the particular enclosure component 155, to assist in the transfer of loads to the exterior edges. Particular embodiments of such structural members, which also incorporate hinge structures, are described in U.S. Provisional Patent Application No. 63/188,101, filed May 13, 2021, entitled “Folding Beam Systems” and having the same inventors as this disclosure.

[0046] Further design details of wall component 200, floor component 300, and roof component 400 are provided in the sections following.

Wall Component (200)

[0047] Typically, a structure 150 will utilize four wall components 200, with each wall component 200 corresponding to an entire wall of structure 150. A. General Description

[0048] Wall component 200 has a generally rectangular perimeter. As shown in Figure 1, wall components 200 have plural apertures, specifically a door aperture 202, which has a door frame and door assembly, and plural window apertures 204, each of which has a window frame and a window assembly. The height and length of wall components 200 can vary in accordance with design preference, subject as desired to the dimensional restrictions applicable to transport, described above. In this disclosure, structure 150 is fashioned with all sides of equal length; accordingly, its first and second longitudinal edges 106 and 116, and its first and second transverse edges 108 and 110, are all of equal length. It should be understood however, that the inventions described herein are applicable to structures having other dimensions, such as where two opposing wall components 200 are longer than the other two opposing wall components 200.

[0049] As indicated above, wall components 200 of the present inventions can utilize a multi-layered, laminate design. In the embodiment depicted in Figures 1 through 6, wall component 200 utilizes the multi-layered, laminate design shown in Figure 7 employing these particular elements: sheet metal layer 205 of first structural layer 210 is 24 gauge galvanized steel approximately 0.022 - 0.028 inch thick, the foam panels 214 of foam panel layer 213 are EPS foam approximately 5.68 inches thick, the sheet metal layer 216 of second structural layer 215 is 24 gauge galvanized steel approximately 0.022 - 0.028 inch thick, and the building panels 219 of protective layer 218 are MgO board approximately 0.25 inch (6 mm) thick.

[0050] The perimeter of each wall component 200 is generally provided with exterior edge reinforcement. As exemplified by wall component 200 shown in Figure 6, the exterior edge reinforcement for wall component 200 is a floor plate 220 along the bottom horizontal edge, a ceiling plate 240 along the top horizontal edge and two end pieces 270 respectively fastened at each vertical edge of wall component 200. In the case of a wall component 200, exterior edge reinforcement provides regions for fastening like regions of abutting wall components 200, roof component 400 and floor component 300, in addition to protecting the exterior edges of foam panel material. [0051] In the embodiment shown in Figures 1 through 6, the exterior edge reinforcement for wall component 200 provided by floor plate 220, ceiling plate 240, and end pieces 270 is fabricated from laminated strand lumber board 5.625” deep and 1.5” thick.

B. Partitioned Wall Components

[0052] Referring to Figure 2, structure 150 has two opposing wall components 200, where one of the two opposing wall components 200 comprises first wall portion 200s- 1 and second wall portion 200s-2, and the other of the two opposing wall components 200 comprises third wall portion 200s-3 and fourth wall portion 200s-4. Each of wall portions 200s- 1, 200s-2, 200s-3 and 200s-4 has a generally rectangular planar structure. As shown in Figure 2, the interior vertical edge 192-1 of wall portion 200s- 1 is proximate to a respective interior vertical edge 192-2 of wall portion 200s-2, and the interior vertical edge 194-3 of wall portion 200s-3 is proximate a respective interior vertical wall edge 194-4 of wall portion 200s-4. Interior edge reinforcement can be provided at any one or more of vertical edges 192-1, 192-2, 194-3 and 194-4. In the embodiment shown in Figures 1 through 6, the interior edge reinforcement provided at vertical edges 192-1, 192-2, 194-3 and 194-4 is fabricated from laminated strand lumber board 5.625” deep and 1.5” thick.

[0053] Referring again to Figure 2, first wall portion 200s- 1 is fixed in position on floor portion 300a proximate to first transverse edge 108, and third wall portion 200s-3 is fixed in position on floor portion 300a, opposite first wall portion 200s- 1 and proximate to second transverse edge 110. First wall portion 200s- 1 is joined to second wall portion 200s-2 with a hinge structure that permits wall portion 200s-2 to pivot about vertical axis 192 between a folded position and an unfolded position, and third wall portion 200s-3 is joined to fourth wall portion 200s-4 with a hinge structure to permit fourth wall portion 200s-4 to pivot about vertical axis 194 between a folded position and an unfolded position.

[0054] Notably, first wall portion 200s- 1 is longer than third wall portion 200s-3 by a distance approximately equal to the thickness of wall component 200, and second wall portion 200s-2 is shorter than third wall portion 200s-3 by a distance approximately equal to the thickness of wall component 200. Furthermore, wall portion 200s- 1 and wall portion 200s-3 are each shorter in length (the dimension in the transverse direction) than the dimension of floor portion 300a in the transverse direction. Dimensioning the lengths of wall portions 200s- 1, 200s-2, 200s-3 and 200s-4 in this manner permits wall portions 200s-2 and 200s-4 to nest against each other in an overlapping relationship when in an inwardly folded position. In this regard, Figure 2 depicts wall portions 200s-2 and 200s-4 both in their unfolded positions, where they are labelled 200s-2u and 200s4-u respectively, and Figure 2 also depicts wall portions 200s-2 and 200s-4 both in their inwardly folded positions, where they are labelled 200s-2f and 200s4-f respectively. When wall portions 200s-2 and 200s-4 are in their inwardly folded positions (200s-2f and 200s-4f), they facilitate forming a compact shipping module. When wall portion 200s-2 is in its unfolded position (200s-2u), it forms with wall portion 200s-l a wall component 200 proximate first transverse edge 108, and when wall portion 200s-4 is in its unfolded position (200s-4u), it forms with wall portion 200s-3 a wall component 200 proximate second transverse edge 110.

[0055] The hinge structures referenced above, for securing first wall portion 200s- 1 to second wall portion 200s-2, and third wall portion 200s-3 to fourth wall portion 200s-4, can be surface mounted or recessed, and of a temporary or permanent nature. The provision of interior edge reinforcement, as described above, can provide a region for securing such hinge structures. Suitable hinge structures can be fabricated for example of ferrous or nonferrous metal, plastic or leather material.

C. Unpartitioned Wall Components

[0056] As compared to the two wall components 200 proximate first and second transverse edges 108 and 110, which are partitioned into wall portions, the remaining two wall components 200 proximate first and second longitudinal edges 106 and 116 do not comprise plural wall portions, but rather each is a single piece structure. However, one of these wall components 200, which is sometimes denominated 200P in this disclosure, and which is located on floor portion 300b proximate first longitudinal edge 106, is pivotally secured to floor portion 300b by means of hinge structures to permit wall component 200P to pivot about horizontal axis 105 shown in Figure 3 from a folded position to an unfolded position. Pivotally securing wall component 200P also facilitates forming a compact shipping module 100. The remaining wall component 200, sometimes denominated 200R in this disclosure, is rigidly secured on floor portion 300a proximate second longitudinal edge 116 and abutting the vertical edges of first wall portion 200s- 1 and third wall portion 200s-3 proximate to second longitudinal edge 116, as shown in Figure 2. [0057] The hinge structures referenced above, for securing wall component 200P to floor portion 300b, can be surface mounted or recessed, and of a temporary or permanent nature. The provision of exterior edge reinforcement, as described above, can provide a region for securing such hinge structures. Suitable hinge structures can be fabricated for example of ferrous or non-ferrous metal, plastic or leather material.

Floor Component (300)

[0058] Typically, structure 150 will utilize one floor component 300; thus floor component 300 generally is the full floor of structure 150.

A. General Description

[0059] Floor component 300 has a generally rectangular perimeter. Figures 4 and 5 depict floor component 300 in accordance with the present inventions. The perimeter of floor component 300 is defined by first longitudinal floor edge 117, first transverse floor edge 120, second longitudinal floor edge 119 and second transverse floor edge 118. In particular, (a) first longitudinal floor edge 117, (b) first transverse floor edge 120, (c) second longitudinal floor edge 119 and (d) second transverse floor edge 118 generally coincide with (i.e., underlie) (w) first longitudinal edge 106, (x) first transverse edge 108, (y) second longitudinal edge 116 and (z) second transverse edge 110, respectively, of structure 150.

[0060] The length and width of floor component 300 can vary in accordance with design preference. In the particular embodiment of structure 150 depicted in Figures 2, 4 and 5, floor component 300 is approximately 19 feet (5.79 m) by 19 feet (5.79 m).

[0061] Floor component 300 and its constituent elements are generally designed and dimensioned in thickness and in other respects to accommodate the particular loads to which floor component 300 may be subject. It is preferred that floor component 300 utilize a multi-layered, laminate design, such as that described in connection with Figure 7. In the embodiment shown in Figures 4 and 5, the bottom- most surface of floor component 300 comprises sheet metal layer 205 of first structural layer 210, with sheet metal layer 205 being 24 gauge galvanized steel approximately 0.022 - 0.028 inch thick. Above sheet metal layer 205 there are provided foam panels 214 of foam panel layer 213. In the embodiment shown in Figures 4 and 5, foam panels 214 are EPS foam approximately 7.125 inches thick. Above foam panel layer 213 there is provided sheet metal layer 216 of second structural layer 215, with sheet metal layer 216 being 24 gauge galvanized steel approximately 0.022 - 0.028 inch thick. Above sheet metal layer 216 of second structural layer 215, there are provided building panels 219 of protective layer 218, with building panels 219 being MgO board approximately 0.25 inch (6 mm) thick.

[0062] The perimeter of each floor component 300 is generally provided with exterior edge reinforcement. As exterior edge reinforcement for the embodiments of floor component 300 shown in Figures 4 and 5, a first footing beam 320 (visible edge-on in Figure 4) is positioned at the first longitudinal floor edge 117 of floor component 300, a second footing beam 320 (visible edge-on in Figure 5) is positioned at the second transverse floor edge 118 of floor component 300, a third footing beam 320 (visible edge-on in Figure 5) is positioned at the first transverse floor edge 120 of floor component 300, and a fourth footing beam 320 (visible edge-on in Figure 4) is positioned at the second longitudinal floor edge 119 of floor component 300. In the case of floor component 300, the exterior edge reinforcement provided by footing beams 320 assists in resisting vertical loads and transferring such loads to any roof component 400 thereunder and then to underlying wall components 200, and/or to the foundation of the structure 150, in addition to protecting the edges of foam panel material of the foam panel layer 213.

[0063] In the embodiment shown in Figures 1 through 6, the exterior edge reinforcement provided by footing beams 420 of floor component 300 is fabricated from laminated strand lumber board 7.125” deep and 1.5” thick.

B. Floor Partitioning

[0064] The floor component 300 is partitioned into floor portion 300a and floor portion 300b. Figure 2 shows flow portions 300a and 300b in plan view, and Figure 4 shows floor portions 300a and 300b in section view, edge-on.

[0065] Each of the floor portions 300a and 300b is a planar generally rectangular structure, with floor portion 300a adjoining floor portion 300b. Interior edge 301a of floor portion 300a abuts interior edge 301b of floor portion 300b, as shown in Figure 4. As interior edge reinforcement, a reinforcing board 307 is positioned in floor portion 300a adjacent interior edge 301a, and a reinforcing board is positioned in floor portion 300b adjacent interior edge 301b. Additional structural members, such as beam and/or joists, can be utilized within the perimeter of one or more of floor portions 300a and 300b, as is deemed appropriate to the specific design of structure 150 and floor component 300, to assist in the transfer of vertical loads to one or more of reinforcing boards 307.

[0066] Referring to structure 150 shown in Figures 2 and 4, floor portion 300a is fixed in position relative to first wall portion 200s- 1, third wall portion 200s-3 and wall component 200s-R. Floor portion 300a is joined with hinge structures to floor portion 300b, so as to permit floor portion 300b to pivot through approximately ninety degrees (90°) of arc about a horizontal axis 305, located proximate the top surface of floor component 300, between a fully folded position, where floor portion 300b is vertically oriented as shown in Figure 3, and the fully unfolded position shown in Figures 2 and 4, where floor portion 300b is horizontally oriented and co-planar with floor portion 300a.

[0067] The hinge structures joining floor portions 300a and 300b can be surface mounted or recessed, and of a temporary or permanent nature. Suitable hinge structures can be fabricated for example of ferrous or non-ferrous metal, plastic or leather material. The hinge structures joining floor portions 300a and 300b are adapted to pivot through approximately ninety degrees (90°) of arc.

[0068] There is provided interior edge reinforcement, reinforcing board 307, at each of interior edges 301a and 301b, as shown in Figure 4. The interior edge reinforcement provided by reinforcing board 307 at interior edges 301, 301b can provide a region for mounting hinge structures, in addition to protecting the edges of foam panel material. Reinforcing boards 307 can be made of laminated strand lumber board 7.125” deep and 1.5” thick.

Roof Component (400)

[0069] Typically, structure 150 will utilize one roof component 400; thus roof component 400 generally is the full roof of structure 150.

A. General Description

[0070] Roof component 400 has a generally rectangular perimeter. Figures 1, 4 and 5 depict roof component 400 in accordance with the present inventions. The perimeter of roof component 400 is defined by first longitudinal roof edge 406, first transverse roof edge 408, second longitudinal roof edge 416 and second transverse roof edge 410. In particular, (a) first longitudinal roof edge 406, (b) first transverse roof edge 408, (c) second longitudinal roof edge 416 and (d) second transverse roof edge 410 of roof component 400 generally coincide with (i.e., overlie) (w) first longitudinal edge 106, (x) first transverse edge 108, (y) second longitudinal edge 116 and (z) second transverse edge 110, respectively, of structure 150.

[0071] The length and width of roof component 400 can vary in accordance with design preference. In the particular embodiment of structure 150 depicted in Figures 1, 4 and 5, the length and width of roof component 400 approximates the length and width of floor component 300.

[0072] Roof component 400 and its constituent elements are generally designed and dimensioned in thickness and in other respects to accommodate the particular loads to which roof component 400 may be subject. It is preferred that roof component 400 utilize a multi-layered, laminate design, such as that described in connection with Figure 7. In the embodiment shown in Figures 4 and 5, the top-most surface of roof component 400 comprises sheet metal layer 205 of first structural layer 210, with sheet metal layer 205 being 24 gauge galvanized steel approximately 0.022 - 0.028 inch thick. Below sheet metal layer 205 there are provided foam panels 214 of foam panel layer 213, with foam panels 214 in the embodiment shown in Figures 4 and 5 being EPS foam for example approximately 7.125 inches thick. Below foam panel layer 213 there is provided sheet metal layer 216 of second structural layer 215, with sheet metal layer 216 being 24 gauge galvanized steel approximately 0.022 - 0.028 inch thick. Below sheet metal layer 216 of second structural layer 215, there are provided building panels 219 of protective layer 218, with building panels 219 being MgO board approximately 0.25 inch (6 mm) thick.

[0073] The perimeter of roof component 400 is generally provided with exterior edge reinforcement. As exterior edge reinforcement for the embodiment of roof component 400 shown in Figures 4 and 5, a first shoulder beam 435 (visible edge-on in Figure 4) is positioned at the first longitudinal roof edge 406 of roof component 400, a second shoulder beam 435 (visible edge-on in Figure 5) is positioned at the first transverse roof edge 408 of roof component 400, a third shoulder beam 435 (visible edge-on in Figure 5) is positioned at the second transverse roof edge 410 of roof component 400, and a fourth shoulder beam 435 (visible edge-on in Figure 4) is positioned at the second longitudinal roof edge 416 of roof component 400. In addition to protecting the exterior edges of foam panel material, the exterior edge reinforcement provided by shoulder beams 435 assists in resisting vertical loads and transferring such loads to lower floors through underlying wall components 200 supporting roof component 400, and then to the foundation of the structure 150. Such exterior edge reinforcement can also provide a region for fastening like regions of abutting enclosure components 155 (underlying and any overlying). Shoulder beams 435 of roof component 400 can be fabricated from laminated strand lumber board 7.125” deep and 1.5” thick.

B. Roof Partitioning

[0074] The roof component 400 of structure 150 is partitioned into roof portions 400a, 400b and 400c. Figure 1 shows roof portions 400a, 400b and 400c in perspective view, and Figure 4 shows roof portions 400a, 400b and 400c in section view, edge-on.

[0075] Each of the roof portions 400a, 400b and 400c is a planar generally rectangular structure, with roof portion 400a adjoining roof portion 400b, and roof portion 400b adjoining roof portion 400c. Interior edge 412c of roof component 400c abuts a first interior edge 412b of roof component 400b, as shown in Figure 4. For interior edge reinforcement, a reinforcing board 437 is positioned adjacent interior edge 412c, and a reinforcing board 437 is positioned against first interior edge 412b. Interior edge 412a of roof portion 400a abuts a second interior edge 412b of roof portion 400b, as shown in Figure 4. For interior edge reinforcement, a reinforcing board 437 is positioned adjacent interior edge 412a, and a reinforcing board 437 is positioned against second interior edge 412b. Additional structural members, such as beams and/or joists, can be utilized within the perimeter of one or more of roof portions 400a, 400b and 400c, as is deemed appropriate to the specific design of structure 150 and roof component 400, to assist in the transfer of vertical loads to one or more shoulder beams 435.

[0076] Referring to structure 150 shown in Figure 4, roof portion 400a is fixed in position relative to first wall portion 200s- 1, third wall portion 200s-3 and wall component 200R. Roof portion 400a is joined to roof portion 400b with hinge structures provided between interior edge 412a of roof portion 400a and second interior edge 412b of roof portion 400b. Such hinge structures are adapted to permit roof portion 400b to pivot through up to one hundred and eighty degrees (180°) of arc about a horizontal axis 405a, located proximate the top of roof component 400 and shown in Figure 4, between the fully folded position shown in Figure 3, where roof portion 400b lies flat against roof portion 400a, and the fully unfolded position shown in Figure 4.

[0077] In turn, roof portion 400b is joined to roof portion 400c with hinge structures provided between first interior edge 412b of roof portion 400b and interior edge 412c of roof portion 400c. Such hinge structures are adapted to permit roof portion 400c to pivot through up to one hundred and eighty degrees (180°) of arc about a horizontal axis 405b, located proximate the bottom of roof component 400 and shown in Figure 4, between the folded position shown in Figure 3, where roof portion 400c lies flat against roof portion 400b (when roof portion 400b is positioned to lie flat against roof portion 400a), and the fully unfolded position shown in Figure 4.

[0078] The hinge structures joining roof portions 400a, 400b and 400c can be surface mounted or recessed, and of a temporary or permanent nature. Suitable hinge structures can be fabricated for example of ferrous or non-ferrous metal, plastic or leather material. The interior edge reinforcement provided by reinforcing boards 437 of roof portions 400a, 400b and 400c can provide a region for mounting hinge structures, in addition to protecting the edges of foam panel material. Reinforcing boards 437 can be fabricated from laminated strand lumber board 7.125” deep and 1.5” thick.

Enclosure Component Sealing Systems

[0079] Structure 150 can utilize the enclosure component sealing systems described below to limit or prevent the ingress of rain water, noise and outside air into the interior of structure 150.

A. General Description

[0080] The enclosure component sealing systems for structure 150 utilize the sealing structures described below. Except for I-beam end cap 221, which functions to seal the edges of select enclosure components 155, the enclosure component sealing systems comprise in general terms two enclosure component sealing structures, paired in in pressing contact in different combinations, to seal the junctions between different regions of the enclosure components 155 found in structure 150. These junctions consist of either two interior edges of adjacent enclosure component portions, positioned edge-to-edge when structure 150 is unfolded, or an exterior edge of an enclosure component 155 which abuts an interior surface of another enclosure component 155. Where an enclosure component sealing structure is positioned on an interior or exterior edge of an enclosure component 155, there can respectively be provided interior edge reinforcement or exterior edge reinforcement between the sealing structure and the respective interior or exterior edge of the foam panel layer 213 in the case where the multi-layered, laminate design depicted in Figure 7 is utilized (such that the enclosure component sealing structure is positioned proximate to the interior or exterior edge, as the case may be, of the foam panel layer 213). The specific enclosure component sealing structures described below are I-beam end cap 221; wall vertical interlock 245; wall end cap 246; I-beam interlock A 250; I-beam interlock B 251 ; floor top plate 252 ; roof bottom plate 255 ; floor top interlock 261; wall end interlock A 262; and wall end interlock B 263. Excepting I-beam end cap 221, each of the foregoing enclosure component sealing structures utilizes either two or more compression seals 230, or one shear seal 260, which are also described below. Exemplary placements of the enclosure component sealing structures described herein are found in Subsections B. through J. below and also in the Section below entitled “Enclosure Component Sealing Structure Exemplary Placements”.

[0081] The current inventions include two closure boards, namely perimeter board 310 and roof skirt board 280. These closure boards, which are described below, are utilized in conjunction with I-beam end cap 221 to provide additional sealing, as well as to realize additional benefits.

B. I-Beam End Cap (221)

[0082] I-beam end cap 221, shown in cross-section in Figure 10, is a rigid elongate member that is fastened to the periphery of select enclosure components 155, preferably the exterior edges of floor component 300 and roof component 400. I-beam end cap 221 constitutes an edge seal that performs a sealing function against water ingress into and environmental exposure of the edge of the enclosure component 155 to which it is secured, and imparts impact resistance to that edge.

[0083] Figure 10 shows an exemplary installation of I-beam end cap 221 secured to the edge of a schematic representation of floor portion 300a. In particular, I-beam end cap 221 has an elongate seal plate 223 with seal plate 223 having an elongate interior face 226 and an opposing elongate planar exterior face 227. I-beam end cap 221 has a length and width the same, or substantially the same, as the length and width of the exterior edge of floor portion 300a, so as to cover the entirety, or substantially the entirety, of the exterior edge of floor portion 300a.

[0084] At the mid-point of the interior face 226 of seal plate 223, there is provided an elongate key 222, which is rectangular in cross section (as shown in Figure 10), and has a length the same, or substantially the same, as the length of I-beam end cap 221. Key 222 is received in a corresponding slot formed in the exterior edge reinforcement positioned on the exterior edge of the enclosure component 155 to which I-beam end cap 221 is secured.

Thus for example, Figure 9 depicts key 222 of an I-beam end cap 221 received in slot 422 of a shoulder beam 435 of roof portion 400a. Each of the top and bottom edges of I-beam end cap 221 define locating slots 229. In the case where the enclosure component 155 utilizes the enclosure component laminate design shown in Figure 7, locating slots 229 receive the edge portions 207 of metal sheets 206 and 217 (of sheet metal layers 205 and 216 respectively), bent down at a ninety degree (90°) angle, as shown in Figure 9.

[0085] Still referring to Figure 10, the exterior face 227 of seal plate 223 of I-beam end cap 221 includes an elongate accessory slot 224, which is rectangular in cross section and has a length the same, or substantially the same, as the length of the exterior face 227 of I-beam end cap 221. The exterior face 227 further includes a plurality of elongate fastener locating grooves 225, each of which has a length the same, or substantially the same, as the length of seal plate 223. I-beam end cap 221 can be secured to an exterior edge of an enclosure component 155, such as the roof portion 400a shown in Figure 9 and the floor portion 300a shown in Figure 10, for example by adhesive applied to interior face 226, or by fasteners, such as screw or nail fasteners, spaced apart along the length of I-beam end cap 221 and driven through the exterior face 227, or by utilizing a combination of adhesive and fasteners. Locating grooves 225 assist in accurate positioning of such fasteners.

C. Compression Seal (230)

[0086] A number of the enclosure component sealing systems described herein and utilized in structure 150 include a compression seal system. An element of that compression seal system is a compression seal 230. [0087] Compression seal 230, which is shown in cross-section in Figure 11 A, is an elongate member having in cross-section an elongate base 231 with an elongate arched portion 232 that is flanked by two elongate winglets 233. At the intersection of the arched portion 232 of base 231 and each of the winglets 233, there are provided two opposed elongate seal walls 234, joined to and extending away from base 231 in a diverging relationship at a divergence angle 0, where 0 < 180°, for example 0 < 90° or in the range of 40° < 0 < 50°. It is most preferred that 0 be the same, or nearly so, as the divergence angle s of the slot walls 244 described below. Thus as shown in Figure 11 A, the ends of the seal walls 234 distal from base 231 are further apart than the ends of the seal walls proximate to base 231.

[0088] At the ends of the seal walls 234 distal from base 231, each seal wall 234 is joined to an elongate arcuate buttress 235. The end of each arcuate buttress 235, distal from the seal wall 234 to which it is joined, is in turn joined to a respective planar elongate seal surface 236; thus there are two planar seal surfaces 236 in compression seal 230. The planar seal surfaces 236 extend away from the seal walls 234 in a converging relationship at a convergence angle 6, where 6 < 180°, for example 90°. Thus the ends of seal surfaces 236 distal from arcuate buttresses 235 are closer together than the ends of seal surfaces 236 proximate to arcuate buttresses 235. The ends of seal surfaces 236 distal from arcuate buttresses 235 are joined by an elongate seal closure 237. The base 231, seal walls 234, arcuate buttresses 235, seal surfaces 236 and seal closure 237 thereby define a hollow elongate seal chamber 238, as shown in Figure 11 A. Seal closure 237 is curved in shape toward seal chamber 238, such as to assume a cupped appearance.

[0089] Seal 230 is intended to be received in an elongate seal slot 240, shown for example in Figure 1 IB. Slot 240 in general has a dovetail shape, with an elongate planar floor 241 flanked by two elongate lateral grooves 242, and with an elongate planar slot wall 244 abutting and extending from each groove 242 toward an elongate shoulder 243 at the surface of the slot 240. Thus there are two opposed shoulders 243 in seal slot 240. The planar slot walls 244 extend away from grooves 242 in a diverging relationship at a divergence angle s, where s < 180° (for example s < 90° or in the range of 40° < s < 50°), such that the edges of slot walls 244 coincident with shoulders 243 are further apart than the edges of slot walls 244 abutting grooves 242. Compression seal 230 is dimensioned to snugly fit within slot 240, as shown in Figure 11B, such that winglets 233 are received in grooves 242 and the arched portion 232 of base 231 is compressed sufficiently to provide a resilient force that urges winglets 233 into grooves 242 and causes seal 230 to be retained in its proper position in slot 240 during fabrication and following fabrication of the enclosure component 155.

[0090] When two enclosure components 155 on which are mounted two paired enclosure component sealing structures, one of which bears a compression seal 230, are appropriately positioned and pressed together, compression seal 230 will be squeezed against the planar exterior face 227 of the opposed seal plate 223, which causes seal closure 237 and arcuate buttresses 235 to be urged into seal chamber 238. This permits the two planar exterior faces 227 of the pressed-together seal plates 223 of the paired sealing structures to come into full contact. At the same time, arcuate buttresses 235 rotate down and seal surfaces 236 are urged into a generally coplanar relationship (with arcuate buttresses 238 functioning as hinges) with the opposing planar exterior face 227 pressing against it, to create two lines of sealing.

[0091] Compression seal 230 can be fabricated from a resilient material, such as rubber or plastic, for example polyurethane. Particular embodiments of enclosure component sealing structures utilizing the foregoing compression sealing system are described below.

D. Wall Vertical Interlock (245), Wall End Cap (246) Sealing System

[0092] Figure 12 depicts in exploded form the junction between a wall vertical interlock 245 and a wall end cap 246. The particular junction is shown for illustrative purposes between wall portion 200s- 1 and 200s-2, with wall vertical interlock 245 positioned on the interior vertical edge of wall portion 200s-2 (interior vertical edge 192-2 shown in Figure 2) and wall end cap 246 positioned on the interior vertical edge of wall portion 200s- 1 (interior vertical edge 192-1 shown in Figure 2). In structure 150, wall vertical interlock 245 and wall end cap 246 shown in Figure 12 are vertically-oriented.

[0093] In particular, wall vertical interlock 245 is a rigid elongate member that has an elongate seal plate 223 with an elongate interior face 226 and an opposing elongate planar exterior face 227. The exterior face 227 preferably is hard and smooth to provide a good sealing surface. Seal plate 223 has a length and width the same, or substantially the same, as the length and width of the interior edge of wall portion 200s-2, so as to cover the entirety, or substantially the entirety, of that interior edge of wall portion 200s-2.

[0094] As shown in Figure 12, at the mid-point of the interior face 226 of wall vertical interlock 245 there is provided an elongate key 222, which is rectangular in cross section has a length the same, or substantially the same, as the length of seal plate 223. Key 222 is received in a corresponding elongate slot formed in the interior edge reinforcement positioned on the interior vertical edge of wall portion 200s-2, to which wall vertical interlock 245 is secured. Each of the top and bottom edges of wall vertical interlock 245 define elongate locating slots 229 for receiving the edge portions of sheet metal layers 205 and 216, when bent down at a ninety degree (90°) angle. In addition, the edge of one of the slots 229 abutting the interior face 226 of wall vertical interlock 245 is terminated an inset distance “I” from the opposing edge of that slot, where I is the thickness of the protective layer 218, such as magnesium oxide (MgO) board.

[0095] Still referring to Figure 12, at the mid-point of the exterior face 227 of seal plate 223 of wall vertical interlock 245 there is provided an elongate interlock slot 228, which is rectangular in cross-section and has a length the same, or substantially the same, as the length of the exterior face 227 of wall vertical interlock 245. Two elongate seal slots 240 are defined on the exterior face 227 of wall vertical interlock 245, one above interlock slot 228 and the other below interlock slot 228, as shown in Figure 12. Each slot 240 has a length the same, or substantially the same, as the length of wall vertical interlock 245.

[0096] Wall vertical interlock 245 can be secured to the vertical edge of wall portion 200s -2 shown in Figure 12 for example by adhesive applied to interior face 226, or by fasteners, such as screw or nail fasteners, spaced apart along the length of wall vertical interlock 245 and driven through the exterior face 227, or by utilizing a combination of adhesive and fasteners.

[0097] Figure 12 additionally depicts a wall end cap 246. Wall end cap 246 shown in Figure 12 is a rigid elongate member that is defined by an elongate seal plate 223 having an elongate interior face 226 and an opposing elongate planar exterior face 227. The exterior face 227 preferably is hard and smooth to provide a good sealing surface. Seal plate 223 has a length and width the same, or substantially the same, as the length and width of the exterior edge of wall portion 200s- 1, so as to cover the entirety, or substantially the entirety, of the vertical edge of wall portion 200s- 1 shown in in Figure 12.

[0098] At the mid-point of the interior face 226 of wall end cap 246 show in in Figure 12 there is provided an elongate key 222, which is rectangular in cross-section and has a length the same, or substantially the same, as the length of seal plate 223. Key 222 of wall end cap 246 is received in a corresponding elongate slot formed in the interior edge reinforcement, positioned on the interior vertical edge of wall portion 200s- 1, to which wall end cap 246 is secured. Each of the top and bottom edges of wall end cap 246 define elongate locating slots 229 for receiving the edge portions of sheet metal layers 205 and 216, when bent down at a ninety degree (90°) angle. In addition, the edge of one of the slots 229 abutting the interior face 226 of wall end cap 246 is terminated an inset distance “I” from the opposing edge of that slot, where I is the thickness of the protective layer 218, such as magnesium oxide (MgO) board.

[0099] Wall end cap 246 can be secured to the vertical edge of wall portion 200s-l shown in Figure 12 for example by adhesive applied to interior face 226, or by fasteners, such as screw or nail fasteners, spaced apart along the length of wall end cap 246 and driven through the exterior face 227, or by utilizing a combination of adhesive and fasteners.

[00100] In Figure 12, wall vertical interlock 245 mates with wall end cap 246. For this purpose, at the mid-point of the exterior face 227 of seal plate 223 of wall end cap 246 there is provided an elongate interlock key 247, which is rectangular in cross-section and has a length the same, or substantially the same, as the length of the exterior face 227 of wall end cap 246. Interlock key 247 mates with interlock slot 228 when wall vertical interlock 245 and wall end cap 246 are pressed together. Additionally, the two edges of wall end cap 246 are provided with elongate coupling ridges 248 which mate with elongate coupling insets 249 located at the edges of wall vertical interlock 245. Coupling ridges 248 and coupling insets 249 can have the same, or approximately the same, lengths as wall end cap 246 and wall vertical interlock 245 respectively.

[00101] Prior to mating wall vertical interlock 245 with wall end cap 246, a compression seal 230 is placed in each of the two seal slots 240 of wall vertical interlock 245, with each seal 230 having the same, or approximately the same, length as the slot 240 in which it is inserted. When wall vertical interlock 245 with wall end cap 246 are pressed together in a mating relationship, the two compression seals 230 are deformed in the manner described previously to provide four lines of sealing between wall vertical interlock 245 and wall end cap 246.

E. I-Beam Interlock A (250), I-Beam Interlock B (251) Sealing System

[00102] Figure 14 depicts in exploded form the junction between an I-beam interlock A 250 and an I-beam interlock B 251, each shown in cross-section. The particular junction is shown for illustrative purposes between roof portion 400b and roof portion 400c, with I-beam interlock A 250 positioned on the interior edge 412c of roof portion 400c, and with I-beam interlock B 251 positioned on first interior edge 412b of roof portion 400b. In structure 150, I-beam interlock A 250 and I-beam interlock B 251 shown in Figure 14 are horizontally-oriented.

[00103] In particular, I-beam interlock A 250 is a rigid elongate member that is defined by an elongate seal plate 223 having an elongate interior face 226 and an opposing elongate planar exterior face 227. The exterior face 227 preferably is hard and smooth to provide a good sealing surface. Seal plate 223 has a length and width the same, or substantially the same, as the length and width of the interior edge 412c of roof portion 400c shown in Figure 14, so as to cover the entirety, or substantially the entirety, of that interior edge.

[00104] As shown in Figure 14, at the mid-point of the interior face 226 of I-beam interlock A 250 there is provided an elongate key 222, which has a rectangular cross-section and a length the same, or substantially the same, as the length of I-beam interlock A 250. Key 222 is received in a corresponding elongate slot formed in the interior edge reinforcement positioned on the horizontal edge of roof portion 400c, to which I-beam interlock A 250 is secured. Each of the top and bottom edges of I-beam interlock A 250 define elongate locating slots 229 for receiving the edge portions of sheet metal layers 205 and 216, bent down at a ninety degree (90°) angle. In addition, the edge of one of the slots 229 abutting the interior face 226 of I-beam interlock A 250 is terminated an inset distance “I” from the opposing edge of that slot, where I is the thickness of the protective layer 218, such as magnesium oxide (MgO) board.

[00105] Still referring to Figure 14, in the lower half of the exterior face 227 of seal plate 223 of I-beam interlock A 250 there is provided an elongate interlock slot 228, which has a rectangular cross-section and a length the same, or substantially the same, as the length of the exterior face 227 of I-beam interlock A 250. Three elongate seal slots 240 are defined on the exterior face 227 of I-beam interlock A 250, two above interlock slot 228 and one below interlock slot 228, as shown in Figure 14. Each seal slot 240 has a length the same, or substantially the same, as the length of I-beam interlock A 250.

[00106] I-beam interlock A 250 can be secured to the interior edge 412c of roof portion 400c shown in Figure 14 for example by adhesive applied to interior face 226, or by fasteners, such as screw or nail fasteners, spaced apart along the length of I-beam interlock A 250 and driven through the exterior face 227, or by utilizing a combination of adhesive and fasteners.

[00107] Figure 14 additionally depicts an I-beam interlock B 251. I-beam interlock B 251 is a rigid elongate member that is defined by an elongate seal plate 223 having an elongate interior face 226 and an opposing elongate planar exterior face 227. The exterior face 227 preferably is hard and smooth to provide a good sealing surface. Seal plate 223 has a length and width the same, or substantially the same, as the length and width of the first interior edge 412b of roof portion 400b, so as to cover the entirety, or substantially the entirety, of that interior edge.

[00108] At the mid-point of the interior face 226 of I-beam interlock B 251 shown in in Figure 14 there is provided an elongate key 222, which has a rectangular cross-section and a length the same, or substantially the same, as the length of I-beam interlock B 251. Key 222 of I-beam interlock B 251 is received in a corresponding elongate slot formed in the exterior edge reinforcement positioned on first interior edge 412b of roof portion 400b, to which I-beam interlock B 251 is secured. Each of the top and bottom edges of I-beam interlock B 251 define elongate locating slots 229 for receiving the edge portions of sheet metal layers 205 and 216, bent down at a ninety degree (90°) angle. In addition, the edge of one of the slots 229 abutting the interior face 226 of wall end cap 246 is terminated an inset distance “I” from the opposing edge of that slot, where I is the thickness of the protective layer 218, such as magnesium oxide (MgO) board.

[00109] I-beam interlock B 251 can be secured to the first interior edge 412b of roof portion 400b for example by adhesive applied to interior face 226, or by fasteners, such as screw or nail fasteners, spaced apart along the length of I-beam interlock B 251 and driven through the exterior face 227, or by utilizing a combination of adhesive and fasteners.

[00110] In Figure 14, I-beam interlock A 250 mates with I-beam interlock B 251. For this purpose, in the lower half of the exterior face 227 of seal plate 223 of I-beam interlock B 251 there is provided an elongate interlock key 247, which has a rectangular cross-section and a length the same, or substantially the same, as the length of I-beam interlock B 251. Interlock key 247 mates with interlock slot 228 when I-beam interlock A 250 and I-beam interlock B 251 are pressed together. Additionally, the exterior edges of I-beam interlock B 251 are provided with elongate coupling ridges 248 which mate with elongate coupling insets 249 located at the exterior edges of I-beam interlock A 250. Coupling ridges 248 and coupling insets 249 can have the same, or approximately the same, lengths as I-beam interlock A 250 and I-beam interlock B 251 respectively.

[00111] Prior to mating I-beam interlock A 250 with I-beam interlock B 251, a compression seal 230 is placed in each of the three seal slots 240 of I-beam interlock A 250, with each seal 230 having the same, or approximately the same, length as the slot 240 in which it is inserted. When I-beam interlock A 250 and I-beam interlock B 251 are pressed together in a mating relationship, the three compression seals 230 are deformed in the manner described previously to provide six lines of sealing between I-beam interlock A 250 and I-beam interlock B 251.

F. Floor Top Plate (252), Wall End Cap (246) Sealing System

[00112] Figure 15 depicts in exploded form the junction between a floor top plate 252 and a wall end cap 246, each shown in cross-section. The particular junction is shown for illustrative purposes between wall component 200R and floor portion 300a, with floor top plate 252 positioned along the upper surface of floor portion 300a adjacent second longitudinal floor edge 119, and with wall end cap 246 positioned on the bottom edge of wall component 200R. In structure 150, wall 200R shown in Figure 15 is vertically oriented and floor portion 300a is horizontally oriented.

[00113] In particular, floor top plate 252 in Figure 15 is a rigid elongate member that has an elongate seal plate 223 with an elongate interior face 226 and an opposing elongate planar exterior face 227. The exterior face 227 preferably is hard and smooth to provide a good sealing surface. Seal plate 223 has a length the same, or substantially the same, as the length of second longitudinal floor edge 119, so as to cover the top edge of floor portion 300a proximate to second longitudinal floor edge 119. Seal plate 223 of floor top plate 252 has a width the same, or substantially the same, as the width of wall component 200R. The floor top plate 252 preferably has a thickness “J” sufficient to accommodate the thickness of any protective layer 218 and/or flooring used to surface floor portion 300a, such as stone, wood or carpeting.

[00114] As shown in Figure 15, at the exterior edge of the interior face 226 of floor top plate 252, proximate to second longitudinal floor edge 119, there is provided a series of elongate stepped locating ridges 254. These stepped locating ridges, which have a length the same, or substantially the same, as the length of floor top plate 252, mesh with the corresponding stepped locating ridges 253 shown on I-beam end cap 221 depicted in Figure 10 and with dashed lines in Figure 15.

[00115] Still referring to Figure 15, at the mid-point of the exterior face 227 of seal plate 223 of floor top plate 252 there is provided an elongate interlock slot 228, which has a rectangular cross-section and a length the same, or substantially the same, as the length of floor top plate 252. Two elongate seal slots 240 are defined on the exterior face 227 of floor top plate 252, one on each side of interlock slot 228, as shown in Figure 15. Each slot 240 has a length the same, or substantially the same, as the length of floor top plate 252.

[00116] Floor top plate 252 can be secured to the top edge of floor portion 300a proximate to second longitudinal floor edge 119 shown in Figure 15 for example by adhesive applied to interior face 226, or by fasteners, such as screw or nail fasteners, spaced apart along the length of floor top plate 252 and driven through the exterior face 227, or by utilizing a combination of adhesive and fasteners.

[00117] Figure 15 additionally depicts a wall end cap 246 positioned along the bottom edge of wall component 200R. The design of wall end cap 246 was previously described in connection with Figure 12. The seal plate 223 of wall end cap 246 shown in Figure 15 has a length and width the same, or substantially the same, as the length and width of the bottom edge of wall component 200R, so as to cover the entirety, or substantially the entirety, of the bottom edge of wall component 200R shown in in Figure 15. [00118] Wall end cap 246 can be secured to the bottom edge of wall component 200R shown in Figure 15 for example by adhesive applied to interior face 226, or by fasteners, such as screw or nail fasteners, spaced apart along the length of wall end cap 246 and driven through the exterior face 227, or by utilizing a combination of adhesive and fasteners.

[00119] In Figure 15, floor top plate 252 mates with wall end cap 246. For this purpose, the interlock key 247 of wall end cap 246 is provided with a length the same, or substantially the same, as the length of the exterior face 227 of floor top plate 252. That interlock key 247 mates with the interlock slot 228 of floor top plate 252 when floor top plate 252 and wall end cap 246 are pressed together, with the elongate coupling ridges 248 of wall end cap 246 mating with the elongate coupling insets 249 of floor top plate 252. Coupling ridges 248 and coupling insets 249 can have the same, or approximately the same, lengths as wall end cap 246 and floor top plate 252 respectively.

[00120] Prior to mating wall end cap 246 and floor top plate 252, a compression seal 230 is placed in each of the two seal slots 240 of floor top plate 252, with each seal 230 having the same, or approximately the same, length as the seal slot 240 in which it is inserted. When wall vertical interlock 245 and wall end cap 246 are pressed together in a mating relationship, the two compression seals 230 are deformed in the manner described previously to provide four lines of sealing between wall end cap 246 and floor top plate 252.

G. Roof Bottom Plate (255), Wall End Cap (246) Sealing System

[00121] Figure 13 depicts in exploded form the junction between a roof bottom plate 255 and a wall end cap 246, each shown in cross-section. The particular junction shown for illustrative purposes is between wall component 200R and roof portion 400a, with roof bottom plate 255 positioned along the lower face of roof portion 400a adjacent second longitudinal roof edge 416, and wall end cap 246 positioned on the top edge of wall component 200R. In structure 150, wall component 200R in Figure 13 is vertically oriented and roof portion 400a is horizontally oriented.

[00122] The design of roof bottom plate 255 shown in Figure 13 is substantially the same as floor top plate 252 shown in Figure 15, except that roof bottom plate 255 is thinner because it need not accommodate the thickness of any flooring; for example, roof bottom plate 255 can have a thickness “I”, equal to the thickness of an abutting protective layer 218, such as MgO board. Roof bottom plate 255 in Figure 13 is a rigid elongate member that has an elongate seal plate 223 with an elongate planar interior face 226 and an opposing elongate planar exterior face 227. The exterior face 227 preferably is hard and smooth to provide a good sealing surface. Seal plate 223 of roof bottom plate 255 has a length the same, or substantially the same, as the length of second longitudinal roof edge 416, so as to cover the bottom edge of roof portion 400a proximate to second longitudinal roof edge 416. Seal plate 223 of roof bottom plate 255 has a width the same, or substantially the same, as the width of wall component 200R.

[00123] As shown in Figure 13, at the exterior edge of the interior face 226 of roof bottom plate 255, proximate to second longitudinal roof edge 416, there is provided a series of elongate stepped locating ridges 254. These stepped locating ridges, which have a length the same, or substantially the same, as the length of roof bottom plate 255, mesh with the corresponding stepped locating ridges 253 of wall end cap 221 depicted in Figure 10 and with dashed lines in Figure 13, and positioned at the exterior edge of roof portion 400a.

[00124] Still referring to Figure 13, at the mid-point of the exterior face 227 of seal plate 223 of roof bottom plate 255 there is provided an elongate interlock slot 228, which has a rectangular cross-section and a length the same, or substantially the same, as the length of roof bottom plate 255. There are two elongate seal slots 240 defined on the exterior face 227 of roof bottom plate 255, one on each side of interlock slot 228, as shown in Figure 13. Each seal slot 240 has a length the same, or substantially the same, as the length of roof bottom plate 255.

[00125] Roof bottom plate 255 can be secured to the bottom face of roof portion 400a shown in Figure 13 for example by adhesive applied to interior face 226, or by fasteners, such as screw or nail fasteners, spaced apart along the length of roof bottom plate 255 and driven through the exterior face 227, or by utilizing a combination of adhesive and fasteners.

[00126] Figure 13 additionally depicts a wall end cap 246 positioned along the top edge of wall component 200R. The design of wall end cap 246 was previously described in connection with Figure 12. The seal plate 223 of wall end cap 246 shown in Figure 13 has a length and width the same, or substantially the same, as the length and width of the top edge of wall component 200R, so as to cover the entirety, or substantially the entirety, of the top edge of wall component 200R. Wall end cap 246 can be fastened to that top edge for example by adhesive applied to its interior face 226, or by fasteners, such as screw or nail fasteners, spaced apart along the length of wall end cap 246 and driven through its exterior face 227, or by utilizing a combination of adhesive and fasteners.

[00127] In Figure 13, roof bottom plate 255 mates with wall end cap 246. For this purpose, the interlock key 247 of wall end cap 246 is provided with a length the same, or substantially the same, as the length of roof bottom plate 255. That interlock key 247 mates with the interlock slot 228 of roof bottom plate 255 when roof bottom plate 255 and wall end cap 246 are pressed together, with the elongate coupling ridges 248 of wall end cap 246 mating with elongate coupling insets 249 of roof bottom plate 255. Coupling ridges 248 and coupling insets 249 can be the same, or approximately the same, as the lengths of wall end cap 246 and roof bottom plate 255 respectively.

[00128] Prior to mating wall end cap 246 and roof bottom plate 255, a compression seal 230 is placed in each of the two seal slots 240 of roof bottom plate 255, with each seal 230 having the same, or approximately the same, length as the slot 240 in which it is inserted. When roof bottom plate 255 and wall end cap 246 are pressed together in a mating relationship, the two compression seals 230 are deformed in the manner described previously to provide four lines of sealing between roof bottom plate 255 and wall end cap 246.

H. Shear Seal (260)

[00129] A number of the enclosure component sealing systems described herein and utilized in structure 150 include a shear seal system. An element of that shear seal system is a shear seal 260.

[00130] Shear seal 260, which is shown in cross-section in Figure 16A, is an elongate member having a planar elongate base 231 flanked by two elongate winglets 233. At the intersection of base 231 and each of the winglets 233, there is provided two opposed elongate seal walls 234 (individually referred to as seal walls 234A, 234B), joined to and extending away from base 231 in a diverging relationship at a divergence angle 7. where 7. < 180°, for example 7. < 90° or in the range of 40° < 7. < 50°. It is most preferred that 7. be the same, or nearly so, as the divergence angle s of the slot walls 244 shown in Figure 11B. Thus as shown in Figure 16 A, the ends of the seal walls 234 distal from base 231 are further apart than the ends of the seal walls 234 proximate to base 231.

[00131] At the end of seal wall 234B distal from base 231, seal wall 234B is joined to an elongate seal closure 237, a planar surface oriented at an upward angle a (relative to the planar orientation of base 231) away from seal wall 234B in a direction toward an elongate seal support 239, described below, with a < 90°. A planar cantilevered seal surface 257 is joined to the edge of seal closure 237 that is distal from seal wall 234B, as shown in Figure 16A.

[00132] At the end of seal wall 234A distal from base 231, seal wall 234A is joined to the elongate seal support 239. Proximate to seal wall 234A, seal support 239 comprises an elongate planar region oriented parallel to base 231. Distal from seal wall 234 A, seal support 239 comprises an elongate arcuate buttress region. The edge of the arcuate buttress region of seal support 239, which is distal from seal wall 234A, joins cantilevered seal surface 257 proximate to the junction of cantilevered seal surface 257 and seal closure 237 to define a hollow seal chamber 238. Planar cantilevered seal surface 257 is oriented at an upward angle P away from the junction of arcuate buttress 235 and seal closure 237 and terminates at a free end 258, with < 90°, for example P > a.

[00133] Shear seal 260 is intended to be received in an elongate seal slot 240, shown for example in Figure 16B, which has the same geometry as the seal slots 40 utilized to receive compression seals 230. Shear seal 260 is dimensioned to snugly fit within slot 240, such that winglets 233 of seal 260 are received in grooves 242 of slot 240. An exemplary placement of a shear seal 260 is depicted in Figure 16B, which shows a shear seal 260 placed within the slot 240 of a wall end interlock A 262, described further below. As can be seen, when shear seal 260 is properly positioned in slot 240, both seal wall 234A and seal wall 234B terminate below the level of exterior face 227 of wall end interlock A 262, with seal wall 234A (underlying planar cantilevered seal surface 257) terminating below the level at which seal wall 234B terminates.

[00134] Shear seal 260 is preferably utilized where two enclosure components 155 are laterally moved during unfolding, one over the other. In such an instance, the two enclosure components 155 are provided with paired enclosure component sealing structures, with one enclosure component sealing structure mounted on one of the enclosure components 155 (such as on an exterior edge), and the other enclosure component sealing structure mounted on the other of the enclosure component structures 155 (such as on an interior face). Each of the paired enclosure component sealing structures has a shear seal 260, with the two shear seals 260 being oppositely oriented; that is to say, the cantilevered seal surface 257 of each is oriented away from the cantilevered seal surface 257 of the other, and each is oriented in the direction of relative movement. Thus in the case of each of the two shear seals 260, the lateral movement of one enclosure component 155, relative to the other, is in the direction from seal wall 234B toward seal wall 234A. This lateral movement flattens the cantilevered seal surface 257, as well as the seal closure 237, and squeezes down each shear seal 260, such that its seal closure 237 and seal support 239 are urged into seal chamber 238. This permits the opposing planar exterior faces 227 of each of the two enclosure component sealing structures to come into full contact. At the same time, the cantilevered seal surface 257 and seal closure 237 of each shear seal 260 are urged into a generally coplanar relationship, with the planar exterior face 227 of the opposing enclosure component seal structure pressing against them, to create an elongate area of sealing.

[00135] Shear seal 260 can be fabricated from a resilient material, such as rubber or plastic, for example polyurethane. Particular embodiments of enclosure component sealing structures utilizing the foregoing compression sealing system are described below.

I. Wall End Interlock A (262), Floor Top Interlock (261) Sealing System

[00136] Figure 17 depicts in exploded form the junction between a floor top interlock 261 and a wall end interlock A 262, each shown in cross-section. The particular junction is shown for illustrative purposes between wall portion 200s-2 and floor portion 300b, with floor top interlock 261 positioned along the upper face of floor portion 300b adjacent first transverse floor edge 120, and with wall end interlock A 262 positioned on the bottom edge of wall portion 200s-2. In structure 150, wall portion 200s-2 in Figure 17 is vertically oriented and floor portion 300b is horizontally oriented.

[00137] In particular, floor top interlock 261 shown in Figure 17 is a rigid elongate member that has an elongate seal plate 223 with an interior face 226 and an opposing planar exterior face 227. The exterior face 227 preferably is hard and smooth to provide a good sealing surface. Seal plate 223 has a length the same, or substantially the same, as the dimension of floor portion 300b coinciding with first transverse floor edge 120, so as to cover the top edge of floor portion 300b proximate to first transverse floor edge 120. Seal plate 223 of floor top interlock 261 has a width the same, or substantially the same, as the width of wall portion 200s-2. The floor top interlock 261 preferably has a thickness “J” at its interior edge, as shown in Figure 17, sufficient to accommodate the thickness of any protective layer 218 and/or flooring used to surface floor portion 300b, such as stone, wood or carpeting.

[00138] As shown in Figure 17, at the exterior edge of the interior face 226 of floor top interlock 261, adjacent first transverse floor edge 120, there is provided a series of elongate stepped locating ridges 254. These stepped locating ridges 254, which have a length the same, or substantially the same, as the length of floor top interlock 261, mesh with the corresponding stepped locating ridges 253. shown on the wall end cap 221 depicted in Figure 10. Such a wall end cap 221 is located at the exterior edge of wall portion 300b, as indicated in Figure 17 by dashed lines.

[00139] Still referring to Figure 17, an elongate seal slot 240 is defined on the exterior face 227 of floor top interlock 261, proximate to the exterior edge of floor portion 300b (such exterior edge coincides with first transverse floor edge 120). Seal slot 240 has a length the same, or substantially the same, as the length of floor top interlock 261.

[00140] Floor top interlock 261 can be secured to the top edge of floor portion 300b at first transverse floor edge 120 shown in Figure 17 for example by adhesive applied to interior face 226, or by fasteners, such as screw or nail fasteners, spaced apart along the length of floor top interlock 261 and driven through the exterior face 227, or by utilizing a combination of adhesive and fasteners.

[00141] Wall end interlock A 262, also shown in Figure 17, is a rigid elongate member that has an elongate seal plate 223 with an interior face 226 and an opposing exterior face 227. The exterior face 227 preferably is hard and smooth to provide a good sealing surface. The seal plate 223 of wall end interlock A 262 has a length and width the same, or substantially the same, as the length and width of the bottom edge of wall portion 200s-2, so as to cover the entirety, or substantially the entirety, of the bottom edge of wall portion 200s-2, as shown in in Figure 17. [00142] At the mid-point of the interior face 226 of seal plate 223 of wall end interlock A 262, there is provided an elongate key 222, which has a rectangular cross section and a length the same, or substantially the same, as the length of wall end interlock A 262. Key 222 is received in a corresponding elongate slot formed in the exterior edge reinforcement positioned on the bottom edge of the wall portion 200s-2 to which wall end interlock A 262 is secured.

[00143] Again referring to Figure 17, an elongate seal slot 240 is defined on the exterior face 227 of wall end interlock A 262, toward the interior edge of wall end interlock A 262 (distal from first transverse floor edge 120). This seal slot 240 has a length the same, or substantially the same, as the length of wall end interlock A 262. Additionally, each of the interior and exterior edges of wall end interlock A 262 define locating slots 229. In the case where the enclosure component 155, in this case wall portion 200s-2, utilizes the enclosure component laminate design shown in Figure 7, locating slots 229 receive the edge portions of sheet metal layers 205 and 216, bent down at a ninety degree (90°) angle.

[00144] Wall end interlock A 262 can be fastened to the bottom edge of wall portion 200s-2 for example by adhesive applied to its interior face 226, or by fasteners, such as screw or nail fasteners, spaced apart along the length of wall end interlock A 262 and driven through its exterior face 227, or by utilizing a combination of adhesive and fasteners.

[00145] In Figure 17, floor top interlock 261 mates with wall end interlock A 262. Prior to mating, a shear seal 260 is placed in the seal slot 240 of floor top interlock 261, and a shear seal 260 is placed in the seal slot 240 of wall end interlock A 262. The shear seals 260 placed in the seals slots 240 of floor top interlock 261 and wall end interlock A 262 each has the same, or approximately the same, length as the slot 240 in which it is inserted.

[00146] Mating of floor top interlock 261 with wall end interlock A 262 occurs by the bottom edge of wall portion 200s-2 moving over the top surface of floor portion 300b, from a folded position to an unfolded position. Thus in the arrangement shown in Figure 17, such mating will correspond to a movement of wall portion 200s-2 from the right-hand side of the figure toward the left, with wall end interlock A 262 sliding over floor top interlock 261 until the fully unfolded position is reached. In that fully unfolded position, the shear seal 260 in floor top interlock 261, and particularly its seal surface 257, will be in pressing contact with the exterior face 227 of wall end interlock A 262; and the shear seal 260 in wall end interlock A 262, and particularly its seal surface 257, will be in pressing contact with the exterior face 227 of floor top interlock 261. Consistent with this movement, the shear seal 260 placed in seal slot 240 of floor top interlock 261 is preferably oriented so that the free end 258 of its cantilevered seal surface 257 is directed toward the exterior edge of floor top interlock 261 (toward first transverse floor edge 120), and the shear seal 260 placed in the seal slot 240 of wall end interlock A 262 is preferably oriented so that the free end 258 of its cantilevered seal surface 257 is directed toward the interior edge of wall end interlock A 262 (away from first transverse floor edge 120).

[00147] To facilitate mating, it is preferred that planar exterior face 227 of floor top interlock 261 not be parallel to the interior face 226 of floor top interlock 261, or to the top face of wall portion 300b, but rather be inclined downward, in the direction moving away from first transverse floor edge 120 at an angle y, as shown in Figure 17. Likewise, it is preferred that planar exterior face 227 of wall end interlock A 262 be inclined upward, in the direction moving toward first transverse floor edge 120, at the same angle y, as shown in Figure 17. Accordingly, when bottom edge of wall portion 200s-2 moves over the top surface of floor portion 300b, from a folded position to an unfolded position, the shear seals 260 located in slots 240 of floor top interlock 261 and wall end interlock A 262 will be compressed by the sliding movement of wall end interlock A 262 to provide two elongate sealing areas between floor portion 300b and wall portion 200s-2. Also to facilitate mating, there is shown in Figure 17 a step-down 268 on the exterior face 227 of wall end interlock A 262. Step-down 268 is an abrupt reduction in the thickness of wall end interlock A 262, in the direction moving from the inside edge of wall end interlock A 262 toward the outside edge of wall end interlock A 262, which outside edge in the case of the junction depicted in Figure 17 is proximate first transverse floor edge 120 when wall portion 200s-2 is in the fully unfolded position. Step-down 268 is located between the slot 240 and the outside edge of wall end interlock A 262. There is also shown in Figure 17 a corresponding step-up 269 on the exterior face 227 of floor top interlock 261. Step-up 269 is an abrupt increase in the thickness of floor top interlock 261, in the direction moving from the inside edge of floor top interlock 261 toward the outside edge of floor top interlock 261, which outside edge in the case of the junction depicted in Figure 17 is proximate first transverse floor edge 120 when floor portion 300b is in the fully unfolded position. Step-up 269 is located between the slot 240 and the inside edge of floor top interlock 261 (distal from first transverse floor edge 120). Step-down 268 and step-up 269 are appropriately located to act as a “stop” and insure correct alignment of wall end interlock A 262 with floor top interlock 261 as wall end interlock A 262 slides over floor top interlock 261.

J. Wall End Interlock B (263), Wall End Interlock A (262) Sealing System

[00148] Figure 18 depicts in exploded form the junction between a wall end interlock B 263 and a wall end interlock A 262, each shown in cross-section. The particular junction is shown for illustrative purposes between wall portion 200s-2 and wall component 200P, with wall end interlock B 263 positioned on the interior edge of wall component 200P proximate first transverse edge 108 and wall end interlock A 262 positioned on the vertical edge of wall portion 200s-2 proximate first longitudinal edge 106. In structure 150, wall portion 200s-2 depicted in Figure 18 is vertically oriented and wall component 200P is vertically oriented.

[00149] In particular, wall end interlock B 263 in Figure 18 is an elongate member that has an elongate seal plate 223 with an elongate interior face 226 and an opposing elongate planar exterior face 227. The exterior face 227 preferably is hard and smooth to provide a good sealing surface. Seal plate 223 has a length the same, or substantially the same, as the height of wall component 200P when unfolded, so as to cover the interior edge of wall component 200P proximate to first transverse edge 108. Seal plate 223 of wall end interlock B 263 has a width the same, or substantially the same, as the width of wall portion 200s-2. In general terms, the design of wall end interlock B 263 is substantially the same as floor top interlock 261 depicted in Figure 17, except wall end interlock B 263 is thinner because it need not accommodate any flooring; for example, wall end interlock B 263 can have a thickness “I” (not shown in Figure 18) at its interior edge equal to the thickness of an abutting protective layer 218, such as MgO board.

[00150] Still referring to Figure 18, an elongate seal slot 240 is defined on the exterior face 227 of wall end interlock B 263, proximate the interior edge of wall component 200P positioned adjacent to first longitudinal edge 106. Seal slot 240 has a length the same, or substantially the same, as the length of wall end interlock B 263. [00151] Wall end interlock B 263 can be secured to the interior edge of wall component 200P as shown in Figure 18 for example by adhesive applied to interior face 226, or by fasteners, such as screw or nail fasteners, spaced apart along the length of wall end interlock B 263 and driven through the exterior face 227, or by utilizing a combination of adhesive and fasteners.

[00152] Figure 18 additionally shows a wall end interlock A 262 positioned along the depicted vertical edge of wall portion 200s-2. The design of wall end interlock A 262 was previously disclosed in connection with Figure 17. The seal plate 223 of the wall end interlock A 262 shown in Figure 18 has a length and width the same, or substantially the same, as the length and width of the depicted vertical edge of wall portion 200s-2, so as to cover the entirety, or substantially the entirety, of that vertical edge of wall portion 200s-2, as shown in in Figure 18. The elongate rectangular key 222 of wall end interlock A 262 shown in Figure 18 has a length the same, or substantially the same, as the length of that wall end interlock A 262. Key 222 is received in a corresponding elongate slot formed in the exterior edge reinforcement positioned on the vertical edge of the wall portion 200s-2 to which wall end interlock A 262 is secured. The seal slot 240 of wall end interlock A 262 shown in Figure 18 has a length the same, or substantially the same, as the length of that wall end interlock A 262. In the case where the enclosure component 155, in this case wall portion 200s-2, utilizes the enclosure component laminate design shown in Figure 7, the locating slots 229 of wall end interlock A 262 shown in Figure 18 receive the edge portions of sheet metal layers 205 and 216, bent down at a ninety degree (90°) angle.

[00153] Wall end interlock A 262 can be secured to the vertical edge of wall portion 200s-2 shown in Figure 18 for example by adhesive applied to its interior face 226, or by fasteners, such as screw or nail fasteners, spaced apart along the length of wall end interlock A 262 and driven through its exterior face 227, or by utilizing a combination of adhesive and fasteners.

[00154] In Figure 18, wall end interlock A 262 mates with a wall end interlock B 263. Prior to mating, a shear seal 260 is placed in the seal slot 240 of wall end interlock A 262, and a shear seal 260 is placed in the seal slot 240 of wall end interlock B 263. Each of the shear seals 260 placed in the seals slots 240 of wall end interlock A 262 and a wall end interlock B 263 has the same, or approximately the same, length as the slot 240 in which it is inserted.

[00155] Mating of wall end interlock A 262 and a wall end interlock B 263 occurs by the vertical edge of wall portion 200s-2 depicted in Figure 18 swinging toward and across the interior surface of wall component 200P, as wall portion 200s-2 moves from a folded position to an unfolded position. Thus in the arrangement shown in Figure 18, such mating will correspond to a movement of wall portion 200s-2 from the top of the figure toward the bottom, with wall end interlock A 262 sliding across wall end interlock B 263 until the fully unfolded position is reached. In that fully unfolded position, the shear seal 260 in wall end interlock A 262, and particularly its seal surface 257, will be in pressing contact with the exterior face 227 of wall end interlock B 263; and the shear seal 260 in wall end interlock B 263, and particularly its seal surface 257, will be in pressing contact with the exterior face 227 of wall end interlock A 262. Consistent with this movement, the shear seal 260 placed in seal slot 240 of floor top interlock B 263 is preferably oriented so that the free end 258 of its cantilevered seal surface 257 is directed toward the exterior edge of wall end interlock B 263 (toward first transverse edge 108), and the shear seal 260 placed in the seal slot 240 of wall end interlock A 262 is preferably oriented so that the free end 258 of its cantilevered seal surface 257 is directed toward the interior edge of wall end interlock A 262 (away from first transverse edge 108).

[00156] To facilitate mating, it is preferred that planar exterior face 227 of wall end interlock B 263 not be parallel to the interior face 226 of wall end interlock B or to the interior face of wall component 200P, but rather be inclined at an angle y, as shown in Figure 17, so that seal plate 223 of wall end interlock B 263 becomes progressively thinner moving away from first transverse edge 108. Likewise, it is preferred that planar exterior face 227 of wall end interlock A 262 be inclined at the same angle y, as shown in Figure 17, so that seal plate 223 of wall end interlock A 262 becomes progressively thicker moving away from first transverse edge 108. Accordingly, when vertical edge of wall portion 200s- 2 swings toward and across the interior surface of wall component 200P, from a folded position to an unfolded position, the shear seals 260 located in slots 240 of floor end interlock A 262 and wall end interlock B 263 will be compressed by the sliding movement of wall end interlock A 262 to provide two elongate sealing areas between wall component 200P and wall portion 200s-2. Also to facilitate mating, as previously described a stepdown 268 is provided on the exterior face 227 of wall end interlock A 262. Step-down 268 is an abrupt reduction in the thickness of wall end interlock A 262, in the direction moving from the inside edge of wall end interlock A 262 toward the outside edge of wall end interlock A 262, which outside edge in the case of the junction depicted in Figure 18 is proximate first transverse edge 108 when wall portion 200s-2 is in the fully unfolded position. Step-down 268 is positioned between the slot 240 and the outside edge of wall end interlock A 262 (proximate transverse edge 108), as depicted in Figure 18. Also as depicted in Figure 18, a corresponding step-up 269 is provided on the exterior face 227 of wall end interlock B 263. Step-up 269 is an abrupt increase in thickness of wall end interlock B 263, in the direction moving from the inside edge of wall end interlock B 263 toward the outside edge of wall end interlock B 263, which outside edge in the case of the junction depicted in Figure 18 is proximate first transverse edge 108. Step-up 269 is positioned between the slot 240 and the inside edge of wall end interlock B 263 (distal from first transverse edge 108). Step-down 268 and step-up 269 are appropriately located to act as a “stop” and insure correct alignment of wall end interlock A 262 with wall end interlock B 263 as wall end interlock A 262 slides across wall end interlock B 263.

K. Closure Boards

[00157] The two closure boards of these inventions, namely perimeter board 310 and roof skirt board 280, are described below.

[00158] Perimeter Board (310). The exterior edges of floor component 300, or portions thereof, are optionally provided with a perimeter board 310.

[00159] Figure 19A depicts in cross section an exemplary positioning of perimeter board 310. In particular, perimeter board 310 is designed to be positioned against an I-beam end cap 221, in this instance the I-beam end cap 221 located on an exterior edge of floor portion 300a. Perimeter board 310 includes an elongate seal plate 223 with an interior face 226 and an opposing exterior face 227. Perimeter board 310 has such length as is desired, such as to span the entirety of the exterior edge of floor portion 300a. As shown in Figure 19A, the width of perimeter board 310 can be sufficient to capture the thickness of the floor component 300a, or floor portion thereof against which it is positioned, plus a portion of the abutting wall component 200 or wall component portion. [00160] The interior face 226 of perimeter board 310 includes an elongate locating key 264, which is rectangular in cross section and dimensioned to be received in accessory slot 224 of I-beam end cap 221. Locating key 264 can be the same length as the perimeter board 310, or can comprise space apart discrete segments. The interior face 226 of perimeter board 310 in Figure 19A also includes a plurality of elongate clearance slots 266, rectangular in cross section in the embodiment shown, and having a length the same as, or substantially the same as, the length of perimeter board 310. Clearance slots 266 are preferably located so as to be positioned over locating grooves 225 of I-beam end cap 221 when locating key 264 is received in accessory slot 224. When so located, clearance slots 266 provide space for fastener heads driven into locating grooves 225 of I-beam end cap 221 so that perimeter board 310 can be snugly positioned against I-beam end cap 221.

[00161] The exterior face 227 of perimeter board 310 depicted in Figure 19 A includes two elongate fastener slots 265, each of which has a dovetail shape in cross section in the embodiment shown, and a length the same as, or substantially the same as, the length of perimeter board 310. A locating groove 225 is provided in each fastener slot 265, so as to facilitate the accurate positioning of nails or other fasteners utilized to secure perimeter board 310 to abutting components.

[00162] Figure 19B depicts in cross section the positioning of I-beam end cap 221, floor top plate 252, wall end cap 246 and perimeter board 310 relative to each other at a junction between wall component 200R and floor portion 300a. As can be seen, perimeter board 310 masks this junction from external view to achieve a more attractive appearance, as well as providing an additional barrier against the ingress of soil, dust, rain and the like. A resilient strip 267, such as those shown in Figure 19B, can be snapped into each of the fastener slots 265 to cover any nail or fastener heads exposed in those slots.

[00163] Roof Skirt Board. The exterior edges of roof component 400, or portions thereof, are optionally provided with a roof skirt board 280.

[00164] Figure 20 depicts in cross section an exemplary positioning of roof skirt board 280. In particular, roof skirt board 280 is designed to be positioned against an I-beam end cap 221, in this instance the I-beam end cap 221 located on an exterior edge of roof portion 400a. Roof skirt board 280 includes an elongate seal plate 223 with an interior face 226 and an opposing exterior face 227. Roof skirt board 280 has such length as is desired, such as to span the entirety of the exterior edge of roof portion 400a. As shown in Figure 20, the width of roof skirt board 280 can be sufficient to capture the thickness of the roof component 400, or portion thereof against which it is positioned, plus a portion of the abutting wall component 200 or wall portion.

[00165] The interior face 226 of roof skirt board 280 includes an elongate cinch key 278, which is preferably serpentine in cross section and dimensioned to be received in accessory slot 224 of I-beam end cap 221. Cinch key 278 can be the same length as the perimeter board 310, or can comprise space apart discrete segments. In turn, the exterior face 227 of roof skirt board 280 includes an elongate fastener slot 265 positioned over cinch key 278. Fastener slot 265 has a dovetail shape in cross section in the embodiment shown, and a length the same as, or substantially the same as, the length of roof skirt board 280. An elongate locating groove 225 is provided in the fastener slot 265 of roof skirt board 280, and provides a visual indication of where to place fasteners during construction.

[00166] Roof skirt board 280 facilitates the securing of roofing material, such as thermoplastic polyolefin membrane, to wall components 200. After fully unfolding the roof portions, such roofing material is optionally used to cover the top of roof component 400. The roofing material extending beyond roof component 400 is then folded down to extend between exterior face 227 of I-beam end cap 221 of roof portion 400a shown in Figure 20 and interior face 226 of roof skirt board 280. After the roofing material is so positioned, nails or other fasteners are driven at spaced intervals along locating groove 225, to press roof skirt board 280 against the roofing material and secure the roofing material in place between roof skirt board 280 and I-beam end cap 221. Cinch key 278, if provided with a serpentine or like cross section, provides additional area so as to better capture the roofing material. An elongate resilient strip 267, such as the one shown in Figure 20, can be snapped into fastener slot 265 to cover any nail or fastener heads exposed in this slot.

Enclosure Component Sealing Structure Materials

[00167] The enclosure component sealing structures described herein can be fabricated from a number of materials, such as wood, aluminum, plastics and the like. It is preferred to fabricate the enclosure component sealing structures from foamed polyvinyl chloride (PVC), particularly Celuka foamed PVC. This material provides a strong, impact and crack-resistant lightweight material with a hard attractive exterior, which, in addition to contributing a sealing function, additionally contributes to the structural rigidity of the enclosure components 155.

Enclosure Component Sealing Structure Exemplary Placements

[00168] The exploded views in Figures 8A and 8B of structure 150 depicted in Figure 1 provide exemplary placements of the enclosure component sealing structures described herein. For illustrative purposes to better understand some of these exemplary placements, certain of the enclosure component sealing structures shown in Figures 8A and 8B are shown slightly separated from the enclosure component 155 to which they are fastened.

[00169] Referring to Figure 8 A, I-beam end caps 221 can be utilized to seal the horizontal exterior edges of floor portion 300a (three placements), floor portion 300b (three placements), roof portion 300a (three placements), roof portion 300b (two placements) and roof portion 300c (three placements). Further, as shown in Figure 8B and in detail in Figure 12, the hinged junction between wall portion 200s- 1 and 200s-2 can be sealed by positioning a wall end cap 246 on the vertical edge of wall portion 200s- 1 and a wall vertical interlock 245 on the vertical edge of wall portion 200s-2. Likewise, the hinged vertical junction between wall portion 200s-3 and 200s-4 can be sealed as shown in Figure 8B by positioning a wall end cap 246 on the hinged vertical edge of wall portion 200s-3 and a wall vertical interlock 245 on the hinged vertical edge of wall portion 200s-4.

[00170] In addition, as shown in Figures 8 A and 8B, and in detail in Figure 13, the horizontal junction between wall component 200R and roof portion 400a can be sealed by positioning a roof bottom plate 255 on the bottom face of roof portion 400a overlying wall component 200R and by positioning a wall end cap 246 on the horizontal edge of wall component 200R, which supports roof portion 400a. A like seal arrangement can be used to seal the horizontal junctions between roof portions 400a, 400b and 400c, and wall portions 200s- 1 through 200s -4 (unfolded roof portion 400b will rest on unfolded wall portion 200s-2 and also on a section of wall portion 200s-l, as can be appreciated from Figure 3), as well as to seal the horizontal junction between roof portion 400c and wall component 200P. The two vertical exterior edges of wall component 200R can each be sealed by positioning on each of them a wall end cap 246. [00171] In a comparable manner, as shown in Figures 8 A, 8B and in detail in Figure 15, the horizontal junction between wall component 200R and floor portion 300a can be sealed by positioning a wall end cap 246 on the horizontal edge of wall component 200R resting on floor portion 300a and by positioning on the top face of floor portion 300a underlying wall component 200R a floor top plate 252. A like seal arrangement can be used to seal the horizontal junctions between floor portion 300b and wall component 200P, and between floor portion 300a and wall portions 200s-l and 200s-3, up to the point where wall portion 200s- 1 meets wall portion 200s-2, and up to the point where wall portion 200s-3 meets wall portion 200s-4. The two vertical exterior edges of wall component 200P can be sealed by positioning on each of them a wall end cap 246.

[00172] Furthermore, the hinged horizontal junction between roof portion 400b and roof portion 400c, as shown in Figure 8A and in detail in Figure 14, can be sealed by positioning an I-beam interlock A 250 on interior edge 412c of roof portion 400c, and an I-beam interlock B 251 on first interior edge 412b of roof portion 400b. Similarly, the hinged horizontal junction between roof portion 400a and roof portion 400b shown in Figure 8 A can be sealed by positioning an I-beam interlock A 250 on second interior edge 412b of roof portion 400b, and an I-beam interlock B 251 on interior edge 412a of roof portion 400a. In like manner, the hinged horizontal junction between floor portion 300a and floor portion 300b can be sealed by positioning an I-beam interlock A 250 on the interior edge 301b of floor portion 300b and an I-beam interlock B 251 on the interior edge 301a of floor portion 300a.

[00173] Referring now to Figures 8A, 8B and in detail to Figure 17, the horizontal junction between wall portion 200s-2 and floor portions 300a and 300b can be sealed by positioning a wall end interlock A 262 on the bottom edge of wall portion 200s-2 and a floor top interlock 261 on the regions of the upper face of floor portions 300a and 300b underlying wall portion 200s-2 when wall portion 200s-2 is in its fully unfolded position. The horizontal junction between wall portion 200s-4 and floor portions 300a and 300b when wall portion 200s-4 in its fully unfolded position can be sealed similarly.

[00174] Finally, referring to Figure 8B and in detail to Figure 18, the vertical junction between wall portion 200s-2 and wall component 200P can be sealed by positioning a wall end interlock A 262 on the vertical edge of wall portion 200s-2 that is adjacent to wall component 200P when both wall portion 200s-2 and wall component 200P are in their fully unfolded positons, and by positioning a wall end interlock B 263 on the region of the interior face of wall component 200P that is adjacent wall portion 200s-2 when both wall portion 200s-2 and wall component 200P are in their fully unfolded positions. The vertical junction between wall portion 200s-4 and wall component 200P can be sealed in like manner.

Enclosure Component Manufacture

[00175] For enclosure components 155 having the construction disclosed herein in reference to Figure 7, the metal sheets 206 and 217 that can be used to form first structural layer 210 and second structural layer 215 respectively can be entirely flat and juxtaposed in a simple abutting relationship. Optionally, metal sheets 206 and 217 can be provided with edge structures that facilitate placement of sheets and panels during manufacture.

[00176] Particular edge structure designs for metal sheets 206 and 217 are described in U.S. Nonprovisional Patent Application No. 17/504,883 entitled “Sheet/Panel Design for Enclosure Component Manufacture,” having the same inventors as the inventions described herein and filed on October 19, 2021. The contents of U.S. Nonprovisional Patent Application No. 17/504,883 entitled “Sheet/Panel Design for Enclosure Component Manufacture,” having the same inventors as the inventions described herein and filed on October 19, 2021, are incorporated by reference as if fully set forth herein, particularly including the exterior and interior edge structure designs described for example at paragraphs 00187-00205 and 00212 and in Figures 8, 9A-9C, 23A-23J and 24A-24B thereof.

[00177] A facility suitable for manufacturing the enclosure components 155 of the present invention, as well as exemplary manufacturing steps, are also described in U.S. Nonprovisional Patent Application No. 17/504,883 entitled “Sheet/Panel Design for Enclosure Component Manufacture,” having the same U.S. Nonprovisional Patent Application No. 17/504,883 entitled “Sheet/Panel Design for Enclosure Component Manufacture,” having the same inventors as the inventions described herein and filed on October 19, 2021, are incorporated by reference as if fully set forth herein, particularly including the facility suitable for manufacturing the enclosure components 155 of the present invention, as well as exemplary manufacturing steps, described for example at paragraphs 00178-00186 and 00206-00222, and in Figures 22, 23A-23J and 24A-24B.

Enclosure Component Relationships and Assembly for Transport

[00178] For ease of transport and maximum design flexibility, it is preferred that there be a specific dimensional relationship among enclosure components 155.

[00179] Figure 2 shows a top schematic view of structure 150 shown in Figure 1, and includes a geometrical orthogonal grid for clarity of explaining the preferred dimensional relationships among its enclosure components 155. The basic length used for dimensioning is indicated as “E” in Figure 2; the orthogonal grid overlaid in Figure 2 is 8E long and 8E wide; notably, the entire structure 150, including perimeter boards 310, preferably is bounded by this 8E by 8E orthogonal grid.

[00180] Roof portions 400a, 400b and 400c each can be identically dimensioned in the transverse direction. Alternatively, referring to Figure 3, roof portion 400c (which is stacked upon roof portions 400a and 400b when roof portions 400b, 400c are fully folded) can be dimensioned to be larger than either of roof portion 400a and roof portion 400b in the transverse direction for example, by ten to fifteen percent, or by at least the aggregate thickness of roof components 400a and 400b. This transverse direction dimensional increase is to reduce the chances of binding during the unfolding of roof portions 400b, 400c. In addition, as described in U.S. Nonprovisional Patent Application No. 16/786,315, entitled “Equipment and Methods for Erecting a Transportable Foldable Building Structure,” and filed on February 10, 2020, friction-reducing components can be used to facilitate unfolding roof component 400, such as by positioning a first wheel caster at the leading edge of roof portion 400c proximate to the comer of roof portion 400c that is supported by wall portion 200s-2 as roof portion 400c is deployed, and by positioning a second similar wheel caster at the leading edge of roof portion 400c proximate to the corner of roof portion 400c that is supported by wall portion 200s-4 as roof portion 400c is deployed. In such a case, roof portion 400c can be dimensioned larger than either of roof portions 400a and 400b in the transverse direction by at least the aggregate thickness of roof components 400a and 400b, less the length of the first or second wheel caster. [00181] In Figure 2, the four wall components 200 are each approximately 8E long, and each of roof portions 400a and 400b is approximately 8E long and 2.5E wide. Roof portion 400c is approximately 8E long and 2.9E wide. In Figures 2 and 3, each of floor components 300a and 300b is 8H long; whereas floor component 300a is just over 3E wide and floor component 300b is just under 5E wide.

[00182] The shipping module 100 shown edge-on in Figure 3 includes a fixed space portion 102 defined by roof component 400a, floor component 300a, wall component 200R, wall portion 200s- 1 and wall portion 200s-3. As shown in Figure 2, second wall portion 200s-2 is folded inward and positioned generally against fixed space portion 102, and fourth wall portion 200s-4 is folded inward and positioned generally against second wall portion 200s -2 (wall portions 200s -2 and 200s -4 are respectively identified in Figure 2 as portions 200s-2f and 200s-4f when so folded and positioned). The three roof components 400a, 400b and 400c are shown unfolded in Figure 1 and shown folded (stacked) in Figure 3, with roof component 400b stacked on top of roof component 400a, and roof component 400c stacked on top of the roof component 400b. Wall component 200P, shown in Figures 2 and 3, is pivotally secured to floor portion 300b at the location of axis 105, and is vertically positioned against the outside of wall portions 200s-2 and 200s-4. In turn, floor portion 300b is vertically positioned proximate fixed space portion 102, with wall component 200P pending from floor portion 300b between floor portion 300b and wall portions 200s-2 and 200s-4.

[00183] Sizing the enclosure components 155 of structure 150 according to the dimensional relationships disclosed above yields a compact shipping module 100, as can be seen from the figures. Thus shipping module 100 depicted in Figure 3, when dimensioned according to the relationships disclosed herein using an “E” dimension (see Figure 2) of approximately 28.625 inches (72.7 cm), and when its components are stacked and positioned as shown in Figure 3, has an overall length of approximately 19 feet (5.79 m), an overall width of approximately 8.5 feet (2.59 meters) and an overall height of approximately 12.7 feet (3.87 meters). These overall dimensions are less than a typical shipping container.

[00184] It is preferred that the fixed space portion 102 be in a relatively finished state prior to positioning (folding) together of the all other wall, roof and floor portions as described above. In the embodiment shown in Figures 1 and 2, wall components 200 are fitted during manufacture and prior to shipment with all necessary door and window assemblies, with the enclosure components 155 being pre-wired, and fixed space portion 102 is fitted during manufacture with all mechanical and other functionality that structure 150 will require, such as kitchens, bathrooms, closets and other interior partitions, storage areas, corridors, etc. Carrying out the foregoing steps prior to shipment permits the builder, in effect, to erect a largely finished structure 150 simply by “unfolding” (deploying) the positioned components of shipping module 100.

[00185] Each of the wall, floor and roof components 200, 300 and 400, and/or the portions thereof, can be sheathed in protective film 177 during fabrication and prior to forming the shipping module 100. Alternatively or in addition, the entire shipping module 100 can be sheathed in a protective film. Such protective films can remain in place until after the shipping module 100 is at the construction site, and then removed as required to facilitate enclosure component deployment and finishing.

Shipping Module Transport

[00186] The shipping module 100 is shipped to the building site by appropriate transport means. One such transport means is disclosed in U.S. Patent No. 11,007,921, issued May 18, 2021; the contents of which are incorporated by reference as if fully set forth herein, particularly as found at paragraphs 0020-0035 and in Figures 1A-2D thereof. As an alternative transport means, shipping module 100 can be shipped to the building site by means of a conventional truck trailer or a low bed trailer (also referred to as a lowboy trailer), and in the case of over-the-water shipments, by ship.

Structure Deployment and Finishing

[00187] At the building site, shipping module 100 is positioned over its desired location, such as over a prepared foundation; for example, a poured concrete slab, a poured concrete or cinder block foundation, sleeper beams or concrete posts or columns. This can be accomplished by using a crane, either to lift shipping module 100 from its transport and move it to the desired location, or by positioning the transport means over the desired location, lifting shipping module 100, then moving the transport means from the desired location, and then lowering shipping module 100 to a rest state at the desired location. Particularly suitable equipment and techniques for facilitating the positioning of a shipping module 100 at the desired location are disclosed in U.S. Nonprovisional Patent Application No. 16/786,315, entitled “Equipment and Methods for Erecting a Transportable Foldable Building Structure,” and filed on February 10, 2020. The contents of that U.S.

Nonprovisional Patent Application No. 16/786,315, entitled “Equipment and Methods for Erecting a Transportable Foldable Building Structure,” and filed on February 10, 2020, are incorporated by reference as if fully set forth herein, particularly including the equipment and techniques described for example at paragraphs 00126-00128 and in connection with Figures 11A and 11B thereof.

[00188] Following positioning of shipping module 100 at the building site, the appropriate portions of wall, floor and roof components 200, 300 and 400 are “unfolded” (i.e., deployed) to yield structure 150. Unfolding occurs in the following sequence: (1) floor portion 300b is pivotally rotated about horizontal axis 305 (shown in Figures 3 and 4) to an unfolded position, (2) wall component 200P is pivotally rotated about horizontal axis 105 (shown in Figure 3 behind perimeter board 312) to an unfolded position, (3) wall portions 200s-2 and 200s-4 are pivotally rotated about vertical axes 192 and 194 (shown in Figure 2) respectively to unfolded positions, and (4) roof portions 400b and 400c are pivotally rotated about horizontal axes 405 a and 405b (shown in Figures 3 and 4) respectively to unfolded positions.

[00189] A mobile crane can be used to assist in the deployment of certain of the enclosure components 155, specifically roof portions 400b and 400c, floor portion 300b, as well as the wall component 200P pivotally secured to floor portion 300b. Alternatively, particularly suitable equipment and techniques for facilitating the deployment of enclosure components 155 are disclosed in U.S. Nonprovisional Patent Application No. 16/786,315, entitled “Equipment and Methods for Erecting a Transportable Foldable Building Structure,” and filed on February 10, 2020. The contents of that U.S. Nonprovisional Patent Application No. 16/786,315, entitled “Equipment and Methods for Erecting a Transportable Foldable Building Structure,” and filed on February 10, 2020, are incorporated by reference as if fully set forth herein, particularly including the equipment and techniques described for example at paragraphs 00132-00145 and depicted in Figures 12A-14B thereof. [00190] After unfolding, the enclosure components 155 are secured together to finish the structure 150 that is shown in Figure 1. Perimeter board 312 and roof skirt board 280 provide structures for securing wall, floor and roof components in their deployed positions. If any temporary hinge structures have been utilized, then these temporary hinge structures can be removed if desired and the enclosure components 155 can be secured together.

During or after unfolding and securing of the enclosure components 155, any remaining finishing operations are performed, such as addition of roofing material, and making hookups to electrical, fresh water and sewer lines to complete structure 150, as relevant here.

[00191] This disclosure should be understood to include (as illustrative and not limiting) the subject matter set forth in the following numbered clauses:

Clause 1. An end cap for securing to an edge of a building structure enclosure component comprising:

(a) a planar elongate seal plate having an interior face, an opposed exterior face, a first edge, an opposed second edge and a thickness, the interior face adapted to be secured to the edge of the enclosure component;

(b) an elongate key on the interior face of the seal plate;

(c) an elongate accessory slot defined in the exterior face of the seal plate of a depth less than the thickness of the seal plate;

(d) a first locating slot extending from the first edge of the seal plate inwardly into the thickness of the seal plate toward the second edge; and

(e) a second locating slot extending from the second edge of the seal plate inwardly into the thickness of the seal plate toward the first edge.

Clause 2. The end cap of clause 1, wherein the exterior face defines at least one elongate locating groove positioned between the elongate accessory slot and the first edge or the second edge.

Clause 3. The end cap of either clause 1 or 2, further comprising a first locating ridge at the first edge of the seal plate proximate to the first locating slot.

Clause 4. The end cap of clause 3, further comprising a second locating ridge at the second edge of the seal plate proximate to the second locating slot. Clause 5. The end cap of any one of clause 1, 2, 3 or 4, wherein an edge of the first locating slot proximate the interior face of the seal plate terminates an inset distance from the first edge of the seal plate.

Clause 6. The end cap of any one of clause 1, 2, 3, 4 or 5, wherein the seal plate is foamed polyvinyl chloride.

Clause 7. An enclosure component comprising:

(a) a planar laminate having an elongate edge and including (i) a planar foam panel layer having a first face and an opposed second face, (ii) a planar first metal layer bonded to the first face of the planar foam panel layer, and (iii) a planar second metal layer bonded to the second face of the planar foam panel layer;

(b) a planar elongate edge reinforcement having an interior face positioned on the edge of the planar laminate and an opposed exterior face in which is defined an elongate slot;

(c) a planar elongate seal plate having an interior face, an opposed exterior face, a first edge, an opposed second edge and a thickness, the interior face of the seal plate positioned proximate to the exterior face of the edge reinforcement, with an elongate key on the interior face of the seal plate positioned in the elongate slot of the edge reinforcement; and

(d) an elongate accessory slot defined in the exterior face of the seal plate of a depth less than the thickness of the seal plate.

Clause 8. The enclosure component of clause 7, further comprising:

(e) a first locating slot extending from the first edge of the seal plate inwardly into the thickness of the seal plate toward the second edge; and

(f) a second locating slot extending from the second edge of the seal plate inwardly into the thickness of the seal plate toward the first edge.

Clause 9. The enclosure component of either clause 7 or clause 8, wherein the exterior face of the seal plate defines at least one elongate locating groove positioned between the accessory slot and the first edge or the second edge.

Clause 10. The enclosure component of any one of clause 7, 8 or 9, further comprising a first locating ridge at the first edge of the seal plate proximate to the first locating slot. Clause 11. The enclosure component of clause 10, further comprising a second locating ridge at the second edge of the seal plate proximate to the second locating slot.

Clause 12. The enclosure component of any one of clause 7, 8, 9, 10 or 11, wherein the edge reinforcement is selected from the group consisting of laminated strand lumber board and wooden board and the seal plate is foamed polyvinyl chloride.

Clause 13. A perimeter board comprising:

(a) a planar elongate perimeter plate having an interior face, an opposed first exterior face, a first edge and an opposed second edge;

(b) an elongate key on the interior face of the perimeter plate adapted to be received in an elongate accessory slot defined in an exterior face of an elongate seal plate;

(c) an elongate clearance slot defined in the interior face of the perimeter plate positioned between the key and the first edge, or between the key and the second edge; and

(d) an elongate fastener slot defined in the first exterior face of the perimeter plate.

Clause 14. The perimeter board of clause 13, wherein there is an elongate locating groove defined in the portion of the exterior face of the first seal plate defining the fastener slot.

Clause 15. The perimeter board of clause 13, wherein the fastener slot is dovetail shaped in cross section.

Clause 16. The perimeter board of clause 14, wherein the fastener slot is dovetail shaped in cross section.

Clause 17. The perimeter board of clause 13, further comprising an elongate resilient strip snapped into the fastener slot.

Clause 18. The perimeter board of either of clause 14 or clause 15, further comprising an elongate resilient strip snapped into the fastener slot.

Clause 19. The perimeter board of clause 16, further comprising an elongate resilient strip snapped into the fastener slot.

Clause 20. The perimeter board of any one of clause 13, 14, 15, 16, 17, 18 or 19, wherein the perimeter plate is foamed polyvinyl chloride.

Clause 21. A perimeter seal assembly comprising: (a) an end cap comprising:

(i) a planar elongate seal plate having a first interior face, an opposed first exterior face, a first edge and an opposed second edge, the first interior face adapted to be secured to an edge of an enclosure component;

(ii) an elongate seal key on the first interior face of the seal plate; and

(iii) an elongate accessory slot defined in the first exterior face; and

(b) a perimeter board comprising:

(i) a planar elongate perimeter plate having a second interior face and an opposed second exterior face;

(ii) the second interior face positioned proximate to the first exterior face, with an elongate accessory key on the second interior face received in the accessory slot defined in the first exterior face;

(iii) an elongate fastener slot defined in the second exterior face; and

(d) an elongate clearance slot defined in the second interior face of the perimeter plate positioned between the accessory key and the first edge, or between the accessory key and the second edge.

Clause 22. The perimeter seal assembly of clause 21, wherein the first exterior face defines at least one elongate locating groove positioned between the accessory slot and the first edge or the second edge.

Clause 23. The perimeter seal assembly of clause 22, wherein the clearance slot defined in the second interior face is positioned over the locating groove defined in the first exterior face.

Clause 24. The perimeter seal assembly of any one of clause 21, 22 or 23, wherein one or both of the end cap and perimeter board is foamed polyvinyl chloride.

Clause 25. A roof skirt board comprising:

(a) a planar elongate skirt plate having a first interior face and an opposed first exterior face;

(b) an elongate cinch key positioned on the first interior face of the skirt plate and adapted to be received in an elongate accessory slot defined in a second exterior face of a planar elongate seal plate, with the cinch key having a serpentine cross section; and (c) a portion of the first exterior face of the skirt plate defining a fastener slot that is positioned proximate to the cinch key positioned on the first interior face.

Clause 26. The roof skirt board of clause 25, wherein there is an elongate locating groove defined in the portion of the first exterior face of the skirt plate defining the fastener slot.

Clause 27. The roof skirt board of either of clause 25 or 26, wherein the fastener slot is dovetail shaped in cross section.

Clause 28. The roof skirt board of any one of clause 25, 26 or 27, further comprising an elongate resilient strip snapped into the fastener slot.

Clause 29. The roof skirt board of any one of clause 25, 26, 27 or 28, wherein the first seal plate is foamed polyvinyl chloride.

Clause 30. A roof seal assembly comprising:

(a) an end cap comprising:

(i) a planar elongate seal plate having a first interior face and an opposed first exterior face, the first interior face adapted to be secured to an edge of an enclosure component;

(ii) an elongate seal key on the first interior face; and

(iii) an elongate accessory slot defined in the first exterior face; and

(b) a roof skirt board comprising:

(i) a planar elongate skirt plate having a second interior face and an opposed second exterior face;

(ii) the second interior face positioned proximate to the first exterior face, with an elongate cinch key on the second interior face of the skirt plate received in the accessory slot defined in the first exterior face of the seal plate, and with the cinch key having a serpentine cross section; and

(iii) an elongate fastener slot defined in the second exterior face of the skirt plate positioned proximate to the cinch key positioned on the second interior face.

Clause 31. The roof seal assembly of claim 30 where one or both of the end cap and roof skirt board is foamed polyvinyl chloride. Clause 32. A sealing system for abutting regions of building structure enclosure components, comprising:

(a) a planar elongate first seal plate having a first interior face and an opposed first exterior face, the first interior face adapted to be secured to an enclosure component, and the first exterior face defining an elongate seal slot;

(b) the first seal plate adapted to mate with a planar elongate second seal plate, with the first exterior face positioned in proximity with a second exterior face of the second seal plate;

(c) an elongate resilient compression seal positioned in the elongate seal slot, the elongate resilient compression seal having a hollow seal chamber and comprising:

(1) an elongate base;

(2) an elongate first seal wall joined to the base, and an opposed elongate second seal wall joined to the base, the first and second seal walls extending away from the base in a diverging relationship;

(3) an elongate first arcuate buttress joined to an end of the first seal wall distal from the base, and an elongate second arcuate buttress joined to an end of the second seal wall distal from the base;

(4) an elongate planar first seal surface joined to an end of the first arcuate buttress distal from the first seal wall, and an elongate planar second seal surface joined to an end of the second arcuate buttress distal from the second seal wall, the first seal surface and the second seal surface each extending away at an angle from the first arcuate buttress and the second arcuate buttress respectively in a converging relationship; and

(5) an elongate seal closure having a first closure end joined to an end of the first seal surface distal from the first arcuate buttress and a second closure end joined to an end of the second seal surface distal from the second arcuate buttress; and wherein the base, the first and second seal walls, the first and second arcuate buttresses, the first and second seal surfaces and the seal closure define the hollow seal chamber.

Clause 33. The sealing system of clause 32, wherein the base of the compression seal has an arched section arched inwardly toward the seal chamber. Clause 34. The sealing system of clause 33, wherein the arched section of the base has a first end and an opposed second end, and the base further comprises an elongate first winglet extending from the first end of the arched section and an elongate second winglet extending from the second end of the arched section.

Clause 35. The sealing system of any one of clause 32, 33 or 34, wherein the first and second seal walls extend away from the base at a divergence angle 0, where 0 < 90°.

Clause 36. The sealing system of clause 35, wherein the divergence angle 0 is in the range of 40° < 0 < 50°.

Clause 37. The sealing system of any one of clause 32, 33, 34, 35 or 36, wherein the first and second seal surfaces extend away from the first arcuate buttress and the second arcuate buttress respectively at a convergence angle 6 of about 90°.

Clause 38. The sealing system of any one of clause 32, 33, 34, 35, 36 or 37, wherein the seal slot has an elongate planar floor section with a first end and an opposed second end, with a first lateral groove extending away from the first end of the seal slot and a second lateral groove extending away from the second end of the seal slot.

Clause 39. The sealing system of clause 34, wherein the seal slot has an elongate planar floor section with a first end and an opposed second end, a first lateral groove extends away from the first end of the seal slot, a second lateral groove extends away from the second end of the seal slot, the first winglet is positioned in the first lateral groove and the second winglet is positioned in the second lateral groove.

Clause 40. The sealing system of clause 32, wherein the seal slot is further defined by an elongate first slot wall extending away from the floor section from a first location, an elongate second slot wall extending away from the floor section from an opposed second location, and the first and second slot walls extend away from the floor section in a diverging relationship.

Clause 41. The sealing system of clause 40, wherein the first and second slot walls extend away from the floor section at a divergence angle s, where s < 90°.

Clause 42. The sealing system of clause 41, wherein the divergence angle s is in the range of 40° < s < 50°. Clause 43. The sealing system of clause 35, wherein the seal slot is further defined by an elongate first slot wall extending away from the floor section from a first location, an elongate second slot wall extending away from the floor section from an opposed second location, and the first and second slot walls extend away from the floor section at a divergence angle s equal to the divergence angle 0.

Clause 44. The sealing system of any one of clause 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42 or 43, wherein the seal closure is curved in shape inwardly toward the seal chamber.

Clause 45. The sealing system of any one of clause 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43 or 44, wherein the first seal plate is foamed polyvinyl chloride.

Clause 46. A seal assembly for abutting regions of building structure enclosure components, comprising:

(a) a planar elongate first seal plate having a first interior face, an opposed first exterior face, a first edge and an opposed second edge, the first interior face being adapted to be secured to a first enclosure component, with (i) an elongate first seal slot defined in the first exterior face, and (ii) an elongate interlock slot defined in the first exterior face and positioned distal from the first and second edges;

(b) a planar elongate second seal plate having a second interior face and an opposed second exterior face, a first edge and an opposed second edge, the second interior face being adapted to be secured to a second enclosure component, the second seal plate adapted to mate with the first seal plate with the second exterior face in proximity with the first exterior face of the first seal plate; the second seal plate including an elongate interlock key on the second exterior face which is adapted to be received in the interlock slot defined in the first exterior face of the first seal plate when the first and second seal plates mate; and

(c) an elongate resilient first compression seal positioned in the elongate first seal slot and adapted to be in pressing contact with the second exterior face of the second seal plate when the first and second seal plates mate, the first compression seal having a hollow seal chamber.

Clause 47. The seal assembly of clause 46, wherein the first compression seal (c) comprises:

(1) an elongate base; (2) an elongate first seal wall joined to the base, and an opposed elongate second seal wall joined to the base, the first and second seal walls extending away from the base in a diverging relationship;

(3) an elongate first buttress joined to an edge of the first seal wall distal from the base, and an elongate second buttress joined to an edge of the second seal wall distal from the base;

(4) an elongate planar first seal surface joined to an edge of the first buttress distal from the first seal wall, and an elongate planar second seal surface joined to an edge of the second buttress distal from the second seal wall, the first seal surface and the second seal surface each extending away at an angle from the first buttress and the second buttress respectively in a converging relationship; and

(5) an elongate seal closure having a first edge joined to an edge of the first seal surface distal from the first arcuate buttress and a second edge joined to an edge of the second seal surface distal from the second buttress; wherein the base, the first and second seal walls, the first and second buttresses, the first and second seal surfaces and the seal closure define the hollow seal chamber.

Clause 48. The sealing system of either of clause 46 or 47, wherein the first exterior face further defines an elongate second seal slot, with the interlock slot positioned between the first seal slot and the second seal slot, and further comprising an elongate resilient second compression seal positioned in the elongate second seal slot and adapted to be in pressing contact with the second exterior face of the second seal plate when the second exterior face is in proximity with the first exterior face, the second compression seal having a hollow seal chamber.

Clause 49. The sealing system of any one of clause 46, 47 or 48, further comprising an elongate coupling inset defined in the first exterior face at each of the first and second edges of the first seal plate, an elongate coupling ridge extending from the second exterior face at each of the first and second edges of the second seal plate, the coupling inset at the first edge of the first seal plate adapted to mate with the coupling ridge at the first edge of the second seal plate, and the coupling inset at the second edge of the first seal plate adapted to mate with the coupling ridge at the second edge of the second seal plate, when the first and second seal plates mate. Clause 50. The sealing system of any one of clause 46, 47, 48 or 49, further comprising a series of elongate stepped locating ridges extending from the first interior face at the first edge of the first seal plate.

Clause 51. The sealing system of clause 48, wherein the first exterior face of the first seal plate further defines an elongate third seal slot, with the third seal slot positioned between the interlock slot and the second seal slot, and further comprising an elongate resilient third compression seal positioned in the elongate third seal slot and adapted to be in pressing contact with the second exterior face of the second seal plate when the first and second seal plates mate, the third compression seal having a hollow seal chamber.

Clause 52. The sealing system of any one of clause 46, 47, 48, 49, 50 or 51, wherein each of the first and second seal plates is foamed polyvinyl chloride.

Clause 53. An enclosure component assembly comprising:

(a) a first planar laminate having an elongate edge, a first face and an opposed second face;

(b) a planar elongate first seal plate having an interior face, an opposed exterior face, a first edge and an opposed second edge, with an elongate interlock slot defined in the first exterior face and positioned distal from the first and second edges; and

(c) the interior face of the first seal plate secured to the first face of the planar laminate proximate the edge.

Clause 54. The enclosure component assembly of clause 53, further comprising flooring having a flooring thickness disposed on the first face of the first planar laminate, and wherein the first seal plate has a thickness at least equal to the flooring thickness.

Clause 55. The enclosure component assembly of clause 53, further comprising:

(d) a second planar laminate have an elongate edge, a first face and an opposed second face;

(e) a planar elongate second seal plate having a second interior face and an opposed second exterior face, a first edge and an opposed second edge, the second interior face secured to the edge of the second planar laminate and including an interlock key;

(f) the first seal plate mating with the second seal plate, with the second exterior face in proximity with the first exterior face and the interlock key received in the interlock slot. Clause 56. The enclosure component assembly of clause 55, further comprising an elongate seal slot defined in the first exterior face of the first seal plate between the interlock slot and the first edge, and an elongate resilient compression seal positioned in the first seal slot in pressing contact with the second exterior face of the second seal plate, the compression seal having a hollow seal chamber.

Clause 57. The enclosure component assembly of either of clause 55 or 56, in which either or both of the first and second seal plates is foamed polyvinyl chloride.

Clause 58. A folded building structure transportable to a site at which the folded building structure is to be erected, comprising: a fixed space portion defined by (i) a first floor portion, (ii) a first wall component, (iii) a planar fixed wall portion of a second wall component adjoining the first floor portion and the first wall component, the fixed wall portion having a fixed wall portion top edge, and (iii) a first roof portion adjoining the first wall component and the fixed wall portion; a second roof portion horizontally stacked in a second roof portion folded position on the first roof portion and pivotally connected thereto to permit the second roof portion to pivot, about a first horizontal axis relative to the first roof portion, from the second roof portion folded position to a second roof portion unfolded position, the second roof portion having a planar interior surface; a third roof portion horizontally stacked in a third roof portion folded position on the second roof portion and pivotally connected thereto to permit the third roof portion to pivot, about a second horizontal axis relative to the second roof portion, from the third roof portion folded position to a third roof portion unfolded position, the third roof portion having a planar interior surface; a second floor portion vertically positioned in a second floor portion folded position opposite to the first wall component and pivotally connected to the first floor portion to permit the second floor portion to pivot, about a third horizontal axis relative to the first floor portion, from the second floor portion folded position to a second floor portion unfolded position; a third wall component vertically positioned in a third wall component folded position against the second floor portion, the third wall component pivotally connected to the second floor portion to permit the third wall portion to pivot, about a fourth horizontal axis relative to the second floor portion, from the third wall component folded position to a third wall component unfolded position; the second wall component additionally including a planar pivoting wall portion with a pivoting portion top edge, the pivoting wall portion (i) disposed in a pivoting portion folded position against the third wall component in the third wall component folded position and (ii) pivotally connected to the fixed wall portion of the second wall component to permit the pivoting wall portion to pivot, about a vertical axis relative to the fixed wall portion of the second wall component, from the pivoting portion folded position to a pivoting portion unfolded position in which the pivoting portion top edge is positioned under the interior surfaces of the second and third roof portions when the second and third roof portions are in their unfolded positions; a planar elongate first seal plate having a first interior face, an opposed first exterior face, a first edge and an opposed second edge, with an elongate first seal slot defined in the first exterior face, an elongate resilient first compression seal with a hollow seal chamber positioned in the first seal slot, and an elongate first interlock slot defined in the first exterior face and positioned distal from the first and second edges; a planar elongate second seal plate having a second interior face and an opposed second exterior face, and an elongate first interlock key on the second exterior face adapted to be received in the first interlock slot defined in the first exterior face of the first seal plate; one of the first interior face of the first seal plate and the second interior face of the second seal plate secured to the pivoting portion top edge; the other of the first interior face of the first seal plate and the second interior face of the second seal plate secured to the interior surface of the second roof portion at a position so that when the pivoting wall portion and the second roof portion are in their respective unfolded positions, the first seal plate mates with the second seal plate, with the first interlock key received in the first interlock slot, and the first compression seal in pressing contact with the second exterior face of the second seal plate.

Clause 59. The folded building structure of clause 58, wherein the first seal slot defined in the first exterior face is positioned between one of the first interlock slot and the first edge, and the first interlock slot and the second edge, and wherein the first exterior face further defines an elongate second seal slot positioned between the other of the first interlock slot and the first edge, and there is an elongate resilient second compression seal with a hollow seal chamber positioned in the second seal slot, so that when the first seal plate mates with the second seal plate, the second compression seal is in pressing contact with the second exterior face of the second seal plate.

Clause 60. The folded building structure of clause 58, wherein the second interior face of the second seal plate is secured to the pivoting portion top edge, and the folded building structure further comprises: a planar elongate third seal plate having a third interior face, an opposed third exterior face, and an elongate second interlock key on the second exterior face adapted to be received in the first interlock slot defined in the first exterior face of the first seal plate; the fixed wall portion of the first wall component having a fixed wall portion top edge that is positioned under the interior surface of the second roof portion when the second roof portion is in the second roof portion unfolded position; the third interior face of the third seal plate secured to the fixed wall portion top edge; and the first interior face of the first seal plate secured to the interior surface of the second roof portion at a position so that when the second roof portion is in the second roof portion unfolded position, the third seal plate mates with the first seal plate, with the second interlock key received in the first interlock slot and the first compression seal in pressing contact with the third exterior face of the third seal plate.

Clause 61. The folded building structure of clause 58, wherein the second interior face of the second seal plate is secured to the pivoting portion top edge, and the folded building structure further comprises: a planar elongate fourth seal plate having a fourth interior face, an opposed fourth exterior face, a third edge and an opposed fourth edge, with an elongate second seal slot defined in the fourth exterior face, an elongate resilient second compression seal with a hollow seal chamber positioned in the second seal slot, and an elongate second interlock slot defined in the fourth exterior face and positioned distal from the third and fourth edges; the fourth interior face of the fourth seal plate secured to the interior surface of the third roof portion at a position so that when the pivoting wall portion and the third roof portion are in their respective unfolded positions, the fourth seal plate mates with the second seal plate, with the first interlock key received in the second interlock slot, and the second compression seal in pressing contact with the second exterior face of the second seal plate.

Clause 62. The folded building structure of clause 58, further comprising: a planar elongate fifth seal plate having a fifth interior face, an opposed fifth exterior face, a fifth edge and an opposed sixth edge, with an elongate third seal slot defined in the fifth exterior face, an elongate resilient third compression seal with a hollow seal chamber positioned in the third seal slot, and an elongate third interlock slot defined in the fifth exterior face and positioned distal from the fifth and sixth edges; a planar elongate sixth seal plate having a sixth interior face and an opposed sixth exterior face, and an elongate third interlock key on the sixth exterior face adapted to be received in the third interlock slot defined in the fifth exterior face of the fifth seal plate; the third wall component having a third wall component top edge; the sixth interior face of the sixth seal plate secured to the third wall component top edge; the fifth interior face of the fifth seal plate secured to the interior surface of the third roof portion at a position so that when the second floor portion, the third wall component and the third roof portion are in their respective unfolded positions: (i) the fifth seal plate mates with the sixth seal plate, (ii) the third interlock key is received in the third interlock slot, and (iii) the third compression seal is in pressing contact with the sixth exterior face of the sixth seal plate.

Clause 63. A folded building structure transportable to a site at which the folded building structure is to be erected, comprising: a fixed space portion defined by (i) a floor portion, (ii) a first wall component, (iii) a planar fixed wall portion of a second wall component adjoining the floor portion and the first wall component, and (iii) a first roof portion adjoining the first wall component and the fixed wall portion, the first roof portion having a first interior edge; a second roof portion having a second interior edge and an opposed third interior edge, the second roof portion horizontally stacked in a second roof portion folded position on the first roof portion and pivotally connected between the second and first interior edges thereof to permit the second roof portion to pivot, about a first horizontal axis relative to the first roof portion, from the second roof portion folded position to a second roof portion unfolded position; a third roof portion having a fourth interior edge, the third roof horizontally stacked in a third roof portion folded position on the second roof portion and pivotally connected between the fourth and third interior edges thereof to permit the third roof portion to pivot, about a second horizontal axis relative to the second roof portion, from the third roof portion folded position to a third roof portion unfolded position, the third roof portion having a planar interior surface; the second wall component additionally including a planar pivoting wall portion with a pivoting portion top edge, the pivoting wall portion (i) disposed in a pivoting portion folded position opposite to the first wall component, and (ii) pivotally connected to the fixed wall portion of the second wall component to permit the pivoting wall portion to pivot, about a vertical axis relative to the fixed wall portion of the second wall component, from the pivoting portion folded position to a pivoting portion unfolded position in which the pivoting portion top edge is positioned under the interior surfaces of the second and third roof portions when the second and third roof portions are in their unfolded positions; a planar elongate first seal plate having a first interior face, an opposed first exterior face, a first edge and an opposed second edge, with an elongate first seal slot defined in the first exterior face, an elongate resilient first compression seal with a hollow seal chamber positioned in the first seal slot, and an elongate first interlock slot defined in the first exterior face and positioned distal from the first and second edges; a planar elongate second seal plate having a second interior face and an opposed second exterior face, and an elongate first interlock key on the second exterior face adapted to be received in the first interlock slot defined in the first exterior face of the first seal plate; the first interior face of the first seal plate secured to one of the first and second interior edges; the second interior face of the second seal plate secured to the other of the first and second interior edges so that when the second roof portion is in the unfolded position, the first seal plate mates with the second seal plate, with the first interlock key received in the first interlock slot, and the first compression seal in pressing contact with the second exterior face of the second seal plate. Clause 64. The folded building structure of clause 63, further comprising: a planar elongate third seal plate having a third interior face, an opposed third exterior face, a third edge and an opposed fourth edge, with an elongate second seal slot defined in the third exterior face, an elongate resilient second compression seal with a hollow seal chamber positioned in the second seal slot, and an elongate second interlock slot defined in the third exterior face and positioned distal from the third and fourth edges; a planar elongate fourth seal plate having a fourth interior face and an opposed fourth exterior face, and an elongate second interlock key on the fourth exterior face adapted to be received in the second interlock slot defined in the third exterior face of the third seal plate; the third interior face of the third seal plate secured to one of the third and fourth interior edges; the fourth interior face of the fourth seal plate secured to the other of the third and fourth interior edges so that when the third roof portion is in the unfolded position, the third seal plate is mates with the fourth seal plate, with the second interlock key received in the second interlock slot, and the second compression seal in pressing contact with the fourth exterior face of the fourth seal plate.

Clause 65. The folded building structure of either of clause 63 or 64, wherein the first seal slot defined in the first exterior face is positioned between one of the first interlock slot and the first edge, and the first interlock slot and the second edge, and wherein the first exterior face further defines an elongate third seal slot and an elongate fourth seal slot, each of the third and fourth seal slots is positioned between the other of the first interlock slot and the first edge, and the first interlock slot and the second edge, an elongate resilient third compression seal with a hollow seal chamber positioned in the third seal slot, and an elongate resilient fourth compression seal with a hollow seal chamber positioned in the fourth seal slot, so that when the second roof portion is in the unfolded position the third and fourth compression seals are in pressing contact with the second exterior face of the second seal plate.

Clause 66. The folded building structure of clause 64, wherein the second seal slot defined in the third exterior face is positioned between one of the second interlock slot and the third edge, and the second interlock slot and the fourth edge, and wherein the third exterior face further defines an elongate fifth seal slot and an elongate sixth seal slot, each of the fifth and sixth seal slots is positioned between the other of the second interlock slot and the third edge, and the second interlock slot and the fourth edge, an elongate resilient fifth compression seal with a hollow seal chamber positioned in the fifth seal slot, and an elongate resilient sixth compression seal with a hollow seal chamber positioned in the sixth seal slot, so that when the third roof portion is in the unfolded position the fifth and sixth compression seals are in pressing contact with the fourth exterior face of the fourth seal plate.

Clause 67. A folded building structure transportable to a site at which the folded building structure is to be erected, comprising: a fixed space portion defined by (i) a floor portion, (ii) a first wall component, (iii) a planar fixed wall portion of a second wall component adjoining the first floor portion and the first wall component, the fixed wall portion having a fixed wall portion interior edge, and (iii) a roof portion adjoining the first wall component and the fixed wall portion; the second wall component additionally including a planar pivoting wall portion with a pivoting portion interior edge, the pivoting wall portion (i) disposed in a pivoting portion folded position opposite to the first wall component, and (ii) pivotally connected to the fixed wall portion of the second wall component to permit the pivoting wall portion to pivot, about a vertical axis relative to the fixed wall portion of the second wall component, from the pivoting portion folded position to a pivoting portion unfolded position; a planar elongate first seal plate having a first interior face, an opposed first exterior face, a first edge and an opposed second edge, with an elongate first seal slot defined in the first exterior face, an elongate resilient first compression seal with a hollow seal chamber positioned in the first seal slot, and an elongate first interlock slot defined in the first exterior face and positioned distal from the first and second edges; a planar elongate second seal plate having a second interior face and an opposed second exterior face, and an elongate first interlock key on the second exterior face adapted to be received in the first interlock slot defined in the first exterior face of the first seal plate; the second interior face of the second seal plate secured to one of the fixed portion interior edge and the pivoting portion interior edge; the first interior face of the first seal plate secured to the other of the fixed portion interior edge and the pivoting portion interior edge so that when the pivoting wall portion is in its unfolded position, the first seal plate mates with the second seal plate, with the first interlock key received in the first interlock slot, and the first compression seal in pressing contact with the second exterior face of the second seal plate.

Clause 68. The folded building structure of clause 67, wherein the first seal slot defined in the first exterior face is positioned between one of the first interlock slot and the first edge, and the first interlock slot and the second edge, and wherein the first exterior face further defines an elongate second seal slot positioned between the other of the first interlock slot and the first edge, and there is an elongate resilient second compression seal with a hollow seal chamber positioned in the second seal slot, so that when the pivoting portion is in the unfolded position the second compression seal is in pressing contact with the second exterior face of the second seal plate.

Clause 69. A folded building structure transportable to a site at which the folded building structure is to be erected, comprising: a fixed space portion defined by (i) a first floor portion, (ii) a first wall component, (iii) a planar fixed wall portion of a second wall component adjoining the first floor portion and the first wall component, and (iii) a first roof portion adjoining the first wall component and the fixed wall portion; a second floor portion vertically positioned in a second floor portion folded position opposite to the first wall component and pivotally connected to the first floor portion to permit the second floor portion to pivot, about a first horizontal axis relative to the first floor portion, from the second floor portion folded position to a second floor portion unfolded position, the second floor portion including an interior surface; a third wall component having a third wall component lower edge and vertically positioned in a third wall component folded position against the second floor portion, the third wall component pivotally connected to the second floor portion proximate to the third wall component lower edge to permit the third wall portion to pivot, about a second horizontal axis relative to the second floor portion, from the third wall component folded position to a third wall component unfolded position; a planar elongate first seal plate having a first interior face, an opposed first exterior face, a first edge and an opposed second edge, with an elongate first seal slot defined in the first exterior face, an elongate resilient first compression seal with a hollow seal chamber positioned in the first seal slot, and an elongate first interlock slot defined in the first exterior face and positioned distal from the first and second edges; a planar elongate second seal plate having a second interior face and an opposed second exterior face, and an elongate first interlock key on the second exterior face adapted to be received in the first interlock slot defined in the first exterior face of the first seal plate; one of the first interior face of the first seal plate and the second interior face of the second seal plate secured to the third wall component lower edge; the other of the first interior face of the first seal plate and the second interior face of the second seal plate secured to the interior surface of the second floor portion at a position so that when the second floor portion and the third wall component are in their respective unfolded positions, the first seal plate mates with the second seal plate, with the first interlock key received in the first interlock slot, and the first compression seal in pressing contact with the second exterior face of the second seal plate.

Clause 70. The folded building structure of clause 69, wherein the first seal slot defined in the first exterior face is positioned between one of the first interlock slot and the first edge, and the first interlock slot and the second edge, and wherein the first exterior face further defines an elongate second seal slot positioned between the other of the first interlock slot and the first edge, and there is an elongate resilient second compression seal with a hollow seal chamber positioned in the second seal slot, so that when the pivoting portion is in the unfolded position the second compression seal is in pressing contact with the second exterior face of the second seal plate.

Clause 71. A folded building structure transportable to a site at which the folded building structure is to be erected, comprising: a fixed space portion defined by (i) a first floor portion, (ii) a first wall component, (iii) a planar fixed wall portion of a second wall component adjoining the first floor portion and the first wall component, and (iii) a first roof portion adjoining the first wall component and the fixed wall portion; a second roof portion horizontally stacked in a second roof portion folded position on the first roof portion and pivotally connected thereto to permit the second roof portion to pivot, about a first horizontal axis relative to the first roof portion, from the second roof portion folded position to a second roof portion unfolded position, the second roof portion having a planar interior surface; third roof portion horizontally stacked in a third roof portion folded position on the second roof portion and pivotally connected thereto to permit the third roof portion to pivot, about a second horizontal axis relative to the second roof portion, from the third roof portion folded position to a third roof portion unfolded position, the third roof portion having a planar interior surface; a second floor portion vertically positioned in a second floor portion folded position opposite to the first wall component and pivotally connected to the first floor portion to permit the second floor portion to pivot, about a third horizontal axis relative to the first floor portion, from the second floor portion folded position to a second floor portion unfolded position, the second floor portion including an interior surface; a third wall component having a third wall component lower edge and an opposed third wall component upper edge and vertically positioned in a third wall component folded position against the second floor portion, the third wall component pivotally connected to the second floor portion proximate to the third wall component lower edge to permit the third wall portion to pivot, about a fourth horizontal axis relative to the second floor portion, from the third wall component folded position to a third wall component unfolded position; a planar elongate first seal plate having a first interior face, an opposed first exterior face, a first edge and an opposed second edge, with an elongate first seal slot defined in the first exterior face, an elongate resilient first compression seal with a hollow seal chamber positioned in the first seal slot, and an elongate first interlock slot defined in the first exterior face and positioned distal from the first and second edges; a planar elongate second seal plate having a second interior face and an opposed second exterior face, and an elongate first interlock key on the second exterior face adapted to be received in the first interlock slot defined in the first exterior face of the first seal plate; one of the first interior face of the first seal plate and the second interior face of the second seal plate secured to the third wall component upper edge; the other of the first interior face of the first seal plate and the second interior face of the second seal plate secured to the interior surface of the third roof portion at a position so that when the second floor portion, the third wall component and the third roof portion are in their respective unfolded positions, the first seal plate mates with the second seal plate, with the first interlock key received in the first interlock slot, and the first compression seal in pressing contact with the second exterior face of the second seal plate.

Clause 72. The folded building structure of clause 71, wherein the first seal slot defined in the first exterior face is positioned between one of the first interlock slot and the first edge, and the first interlock slot and the second edge, and wherein the first exterior face further defines an elongate second seal slot positioned between the other of the first interlock slot and the first edge, and there is an elongate resilient second compression seal with a hollow seal chamber positioned in the second seal slot, so that when the first seal plate mates with the second seal plate, the second compression seal is in pressing contact with the second exterior face of the second seal plate.

Clause 73. A folded building structure transportable to a site at which the folded building structure is to be erected, comprising: a fixed space portion defined by (i) a first floor portion having a first floor portion interior edge, (ii) a first wall component, (iii) a planar fixed wall portion of a second wall component adjoining the first floor portion and the first wall component, and (iii) a first roof portion adjoining the first wall component and the fixed wall portion; a second floor portion having a second floor portion interior edge and vertically positioned in a second floor portion folded position opposite to the first wall component, the second floor portion pivotally connected to the first floor portion between the first floor portion interior edge and the second floor portion interior edge to permit the second floor portion to pivot, about a horizontal axis relative to the first floor portion, from the second floor portion folded position to a second floor portion unfolded position; a planar elongate first seal plate having a first interior face, an opposed first exterior face, a first edge and an opposed second edge, with an elongate first seal slot defined in the first exterior face, an elongate resilient first compression seal with a hollow seal chamber positioned in the first seal slot, and an elongate first interlock slot defined in the first exterior face and positioned distal from the first and second edges; a planar elongate second seal plate having a second interior face and an opposed second exterior face, and an elongate first interlock key on the second exterior face adapted to be received in the first interlock slot defined in the first exterior face of the first seal plate; the second interior face of the second seal plate secured to one of the first floor portion interior edge and the second floor portion interior edge; the first interior face of the first seal plate secured to the other of the first floor portion interior edge and the second floor portion interior edge so that when the second floor portion is in its unfolded position, the first seal plate mates with the second seal plate, with the first interlock key received in the first interlock slot, and the first compression seal in pressing contact with the second exterior face of the second seal plate.

Clause 74. The folded building structure of clause 73, wherein the first seal slot defined in the first exterior face is positioned between one of the first interlock slot and the first edge, and the first interlock slot and the second edge, and wherein the first exterior face further defines an elongate third seal slot and an elongate fourth seal slot, each of the third and fourth seal slots positioned between the other of the first interlock slot and the first edge, and the first interlock slot and the second edge, with an elongate resilient third compression seal with a hollow seal chamber positioned in the third seal slot, and an elongate resilient fourth compression seal with a hollow seal chamber positioned in the fourth seal slot, so that when the first seal plate mates with the second seal plate the third and fourth compression seals are in pressing contact with the second exterior face of the second seal plate.

Clause 75. A sealing system for abutting regions of enclosure components for a building structure, comprising:

(a) a planar elongate first seal plate having a first interior face and an opposed first exterior face, the first interior face being adapted to be secured to a first enclosure component, and the first exterior face defining an elongate seal slot; the first seal plate adapted to mate with a planar elongate second seal plate by lateral movement of a second exterior face of the second seal plate relative to the first exterior face of the first seal plate;

(c) an elongate resilient shear seal positioned in the elongate seal slot, the elongate resilient shear seal having a hollow seal chamber and comprising:

(1) an elongate base;

(2) an elongate first seal wall joined to the base, and an opposed elongate second seal wall joined to the base, the first and second seal walls extending away from the base in a diverging relationship; (3) an elongate seal support having an arcuate region joined to an end of the first seal wall distal from the base;

(4) an elongate planar seal closure joined to an end of the second seal wall distal from the base;

(5) an elongate planar cantilevered seal surface joined to the seal closure distal from the second seal wall at a shear seal junction, the cantilevered seal surface oriented at an upward angle P relative to the base and terminating at a free end; and

(6) an end of the seal support distal from the first seal wall joined either to the shear seal junction, or to the elongate planar cantilevered seal surface proximate to the shear seal junction, thereby defining the hollow seal chamber.

Clause 76. The sealing system of clause 75, wherein the base of the shear seal is planar.

Clause 77. The sealing system of either of clause 75 or 76, wherein the base has a first end and an opposed second end, and there is an elongate first winglet extending from the first end of the base and an elongate second winglet extending from the second end of the base.

Clause 78. The sealing system of any one of clause 75, 76 or 77, wherein the first and second seal walls extend away from the base at a divergence angle Z, where Z < 90°.

Clause 79. The sealing system of clause 78, wherein the divergence angle Z is in the range of 40° < Z < 50°.

Clause 80. The sealing system of clause 76, wherein the seal closure is oriented at an angle of inclination a relative to the planar base.

Clause 81. The sealing system of clause 80, wherein > a.

Clause 82. The sealing system of any one of clause 75, 76, 77, 78, 79, 80 or 81, wherein the seal slot has an elongate planar floor section with a first end and an opposed second end, a first lateral groove extends away from the first end of the seal slot and a second lateral groove extends away from the second end of the seal slot.

Clause 83. The sealing system of clause 77, wherein the seal slot has a elongate planar floor section with a first end and an opposed second end, a first lateral groove extends away from the first end of the seal slot, a second lateral groove extends away from the second end of the seal slot, the first winglet is positioned in the first lateral groove and the second winglet is positioned in the second lateral groove.

Clause 84. The sealing system of any one of clause 75, 76, 77, 78, 79, 80 or 81, wherein the seal slot has an elongate floor section, and the seal slot is further defined by a first elongate slot wall extending away from the floor section from a first location, a second elongate slot wall extending away from the floor section from an opposed second location, and the first and second slot walls extend away from the floor section in a diverging relationship.

Clause 85. The sealing system of clause 84, wherein the first and second slot walls extend away from the floor section at a divergence angle s, where s < 90°.

Clause 86. The sealing system of clause 85, wherein the divergence angle s is in the range of 40° < s < 50°.

Clause 87. The sealing system of clause 78, wherein the seal slot has an elongate floor section, and the seal slot is further defined by a first elongate slot wall extending away from the floor section from a first location, a second elongate slot wall extending away from the floor section from an opposed second location, and the first and second slot walls extend away from the floor section at a divergence angle s equal to the divergence angle Z.

Clause 88. The sealing system of any one of clause 75, 76, 77, 78, 79, 80, 81, 82, 83, 84, 85, 86 or 87, wherein the seal plate is foamed polyvinyl chloride.

Clause 89. An interlock seal component comprising:

(a) a planar elongate first seal plate having a first interior face, an opposed first exterior face, a first edge and an opposed second edge, the first interior face adapted to be secured to an enclosure component;

(b) an elongate key on the interior face of the seal plate; and

(c) the exterior face being inclined at an angle relative to the interior face.

Clause 90. The interlock seal component of clause 89, further comprising an elongate first seal slot defined in the first exterior face of the seal plate proximate the first edge. Clause 91. The interlock seal component of clause 90, further comprising a stepdown, in the direction moving from the first edge to the second edge, on the first exterior face between the first seal slot and the second edge.

Clause 92. An interlock seal component comprising:

(a) a planar elongate first seal plate having a first interior face, an opposed first exterior face, a first edge and an opposed second edge, the first interior face being adapted to be secured to a first enclosure component;

(b) an elongate first seal slot defined in the first exterior face of the seal plate proximate the first edge; and

(c) the first exterior face being inclined at an angle relative to the interior face.

Clause 93. The interlock seal component of clause 92, further comprising one of a step-up and a step-down on the first exterior face positioned between the first seal slot and the second edge.

Clause 94. An interlock seal assembly comprising:

(a) a planar elongate first seal plate having a first interior face, an opposed first exterior face, a first edge, an opposed second edge and a first thickness, the first interior face being adapted to be secured to a first enclosure component;

(b) an elongate first seal slot defined in the first exterior face of the first seal plate proximate the first edge; and

(c) the first exterior face being inclined at an angle y relative to the first interior face so that the first thickness decreases with increasing distance from the first edge;

(d) a planar elongate second seal plate having a second interior face, an opposed second exterior face, a third edge, an opposed fourth edge and a second thickness, the second interior face being adapted to be secured to a second enclosure component;

(e) an elongate second seal slot defined in the second exterior face of the second seal plate proximate the fourth edge;

(f) the second exterior face being inclined at the angle y relative to the second interior face so that the second thickness increases with increasing distance from the third edge; and

(g) the first seal plate adapted to mate with the second seal plate by lateral movement of the first exterior face relative to the second exterior face so that when mated the first exterior face is in proximity with the second exterior face, with the first edge proximate to the third edge and the second edge proximate to the fourth edge.

Clause 95. The interlock seal assembly of clause 94, further comprising:

(h) a first shear seal having a hollow seal chamber and a first cantilevered seal surface, the first shear seal positioned in the first seal slot;

(i) a second shear seal having a hollow seal chamber and a second cantilevered seal surface, the second shear seal positioned in the second seal slot; and

(j) the first and second shear seals respectively positioned in the first and second seal slots so that the first and second cantilevered seal surfaces are oppositely oriented away from each other.

Clause 96. The interlock seal assembly of either of clause 94 or 95, further comprising a step-down, in the direction moving from the first edge to the second edge, on the first exterior face, in proximity to a step-up, in the direction moving from the third edge to the fourth edge, on the second exterior face.

Clause 97. An enclosure component assembly comprising:

(a) a first planar laminate having an elongate laminate edge, a first face and an opposed second face;

(b) a planar elongate first seal plate having a first interior face, an opposed first exterior face, a first edge, an opposed second edge and a first thickness;

(c) the first exterior face being inclined at an angle y relative to the first interior face so that the first thickness increases with increasing distance from the first edge; and

(d) the first interior face of the first seal plate secured to the first face of the planar laminate parallel to the laminate edge, with the second edge proximate to the laminate edge.

Clause 98. The enclosure component assembly of clause 97, further comprising:

(e) a second planar laminate have an elongate edge, a first face and an opposed second face;

(f) a planar elongate second seal plate having a second interior face and an opposed second exterior face, a third edge and an opposed fourth edge, the second interior face secured to the edge of the second planar laminate, the first and second seal plates mated with the first exterior face in proximity with the second exterior face, the first edge proximate the third edge and the second edge proximate the fourth edge; and (g) the second exterior face being inclined at the angle y relative to the second interior face so that the second thickness increases with increasing distance from the fourth edge.

Clause 99. The enclosure component assembly of clause 98, further comprising flooring having a flooring thickness disposed on the first face of the first planar laminate, and wherein the first seal plate has a thickness at least equal to the flooring thickness.

Clause 100. The enclosure component assembly of either of clause 98 or 99, further comprising:

(g) an elongate first seal slot defined in the first exterior face of the first seal plate proximate the second edge; and

(h) an elongate second seal slot defined in the second exterior face of the second seal plate proximate the third edge.

Clause 101. The enclosure component assembly of clause 100, further comprising:

(i) a first shear seal having a hollow seal chamber and a first cantilevered seal surface, the first shear seal positioned in the first seal slot;

(j) a second shear seal having a hollow seal chamber and a second cantilevered seal surface, the second shear seal positioned in the second seal slot; and

(k) the first and second shear seals respectively positioned in the first and second seal slots so that the first and second cantilevered seal surfaces are oppositely oriented away from each other.

Clause 102. The enclosure component assembly of any one of clause 98, 99, 100 or 101, having a step-up, in the direction moving from the first edge to the second edge, on the first exterior face in proximity with a step-down on the second exterior face, in the direction moving from the third edge to the fourth edge.

Clause 103. The enclosure component assembly of clause 102, wherein the step-up is positioned between the first seal slot and the first edge, and the step-down is positioned between the second seal slot and the fourth edge.

Clause 104. The enclosure component assembly of any one of clause 98, 99, 100, 101, 102 or 103, wherein either or both of the first and second seal plates is foamed polyvinyl chloride. Clause 105. A folded building structure transportable to a site at which the folded building structure is to be erected, comprising: a fixed space portion defined by (i) a first floor portion, (ii) a first wall component, (iii) a planar fixed wall portion of a second wall component adjoining the first floor portion and the first wall component, the fixed wall portion having a fixed wall portion top edge, and (iii) a first roof portion adjoining the first wall component and the fixed wall portion; a second floor portion vertically positioned in a second floor portion folded position opposite to the first wall component and pivotally connected to the first floor portion to permit the second floor portion to pivot, about a horizontal axis relative to the first floor portion, from the second floor portion folded position to a second floor portion unfolded position, the second floor portion having an interior surface and the first and second floor portions defining an exterior floor edge when the second floor portion is in the second floor portion unfolded position; the second wall component additionally including a planar pivoting wall portion with a pivoting portion bottom edge, the pivoting wall portion (i) disposed in a pivoting portion folded position against the third wall component in the third wall component folded position and (ii) pivotally connected to the fixed wall portion of the second wall component to permit the pivoting wall portion to pivot, about a vertical axis relative to the fixed wall portion of the second wall component, from the pivoting portion folded position to a pivoting portion unfolded position in which at least a segment of the pivoting portion bottom edge is positioned over a select region of the interior surface of the second floor portion proximate to the exterior floor edge when the second floor portion is in the second floor portion unfolded position; a planar elongate first seal plate having a first interior face, an opposed first exterior face, a first thickness, a first edge and an opposed second edge, with an elongate first seal slot defined in the first exterior face proximate to the first edge; a planar elongate second seal plate having a second interior face, an opposed second exterior face, a second thickness, a third edge and an opposed fourth edge, with an elongate second seal slot defined in the second exterior face proximate to the fourth edge; an elongate resilient first shear seal having a hollow seal chamber and an elongate first cantilevered seal surface terminating at a free end, the first shear seal positioned in the first seal slot, with the first cantilevered seal surface oriented toward the first edge, and an elongate resilient second shear seal having a hollow seal chamber and an elongate second cantilevered seal surface terminating at a free end, the second shear seal positioned in the second seal slot, with the second cantilevered seal surface oriented toward the fourth edge; the second interior face of the second seal plate secured to the select region of the interior surface of the second floor portion, with the fourth edge of the second seal plate proximate to the exterior floor edge when the second floor portion is in the second floor portion unfolded position; the first interior face of the first seal plate secured to the pivoting portion bottom edge with the second edge proximate to the exterior floor edge when the second floor portion is in the second floor portion unfolded position and the pivoting wall portion is in the pivoting wall portion unfolded position, so that when the second floor portion and the pivoting wall portion are in their respective unfolded positions, the first seal plate mates with the second seal plate, with the first edge being proximate to the third edge, the first cantilevered seal surface in pressing contact with the exterior face of the second seal plate, and the second cantilevered seal surface in pressing contact with the exterior face of the first seal plate.

Clause 106. The folded building structure of clause 105, wherein a segment of the pivoting wall portion is positioned over a select region of the interior surface of the first floor portion proximate to the exterior floor edge when the pivoting wall portion is in the pivoting wall portion unfolded position and the second floor portion is in the second floor portion unfolded position, and the folded building structure further comprises: a planar elongate third seal plate having a third interior face, an opposed third exterior face, a third thickness, a fifth edge and an opposed sixth edge, with an elongate third seal slot defined in the third exterior face proximate to the sixth edge; an elongate resilient third shear seal having a hollow seal chamber and a third cantilevered seal surface terminating at a free end, the third shear seal positioned in the third seal slot, with the third cantilevered seal surface oriented toward the sixth edge; the third interior face of the third seal plate secured to the select region of the interior surface of the first floor portion so that when the pivoting wall portion is in the pivoting wall portion unfolded position, the fifth edge is proximate to the first edge, and the third seal plate mates with the first seal plate, with the third cantilevered seal surface in pressing contact with the first exterior face of the first seal plate. Clause 107 The folded building structure of either of clause 105 or 106, wherein the first exterior face is inclined at an angle y relative to the first interior face so that the first thickness increases with increasing distance from the first edge, and the second exterior face being inclined at the angle y relative to the second interior face so that the second thickness decreases with increasing distance from the fourth edge.

Clause 108. The folded building structure of any one of clause 105, 106 or 107, where the first and second cantilevered seal surfaces are each oriented at an upward angle p.

Clause 109. The folded building structure of clause 106, wherein the first exterior face is inclined at an angle y relative to the first interior face so that the first thickness decreases with increasing distance from the first edge, the second exterior face being inclined at the angle y relative to the second interior face so that the second thickness increases with increasing distance from the third edge, and the third exterior face being inclined at the angle y relative to the third interior face so that the third thickness increases with increasing distance from the fifth edge.

Clause 110. The folded building structure of clause 106, wherein the first and second cantilevered seal surfaces are each oriented at an upward angle .

Clause 111. The folded building structure of either of clause 106 or 110, wherein the third cantilevered seal surface is oriented at the upward angle p.

Clause 112. The folded building structure of clause 105, wherein there is a stepdown, in the direction moving from the first edge to the second edge, on the first exterior face which is in proximity with a step-up, in the direction moving from the third edge to the fourth edge, on the second exterior face when the pivoting wall portion is in the pivoting portion unfolded position.

Clause 113. A folded building structure transportable to a site at which the folded building structure is to be erected, comprising: a fixed space portion defined by (i) a first floor portion, (ii) a first wall component, (iii) a planar fixed wall portion of a second wall component adjoining the first floor portion and the first wall component, and (iii) a roof portion adjoining the first wall component and the fixed wall portion; a second floor portion vertically positioned in a second floor portion folded position opposite to the first wall component and pivotally connected to the first floor portion to permit the second floor portion to pivot, about a first horizontal axis relative to the first floor portion, from the second floor portion folded position to a second floor portion unfolded position; a third wall component vertically positioned in a third wall component folded position against the second floor portion, the third wall component pivotally connected to the second floor portion to permit the third wall portion to pivot, about a second horizontal axis relative to the second floor portion, from the third wall component folded position to a third wall component unfolded position, the third wall component having an interior surface and an exterior wall edge; the second wall component additionally including a planar pivoting wall portion with a pivoting portion vertical edge, the pivoting wall portion (i) disposed in a pivoting portion folded position against the third wall component in the third wall component folded position and (ii) pivotally connected to the fixed wall portion of the second wall component to permit the pivoting wall portion to pivot, about a vertical axis relative to the fixed wall portion of the second wall component, from the pivoting portion folded position to a pivoting portion unfolded position in which the pivoting portion vertical edge is positioned adjacent to a select region of the interior surface of the third wall component proximate to the exterior wall edge when the second floor portion and the third call components are in their unfolded positions; a planar elongate first seal plate having a first interior face, an opposed first exterior face, a first thickness, a first edge and an opposed second edge, with an elongate first seal slot defined in the first exterior face proximate to the first edge; a planar elongate second seal plate having a second interior face, an opposed second exterior face, a second thickness, a third edge and an opposed fourth edge, with an elongate second seal slot defined in the second exterior face proximate to the fourth edge; an elongate resilient first shear seal having a hollow seal chamber and an elongate first cantilevered seal surface terminating at a free end, the first shear seal positioned in the first seal slot, with the first cantilevered seal surface oriented toward the first edge, and an elongate resilient second shear seal having a hollow seal chamber and an elongate second cantilevered seal surface terminating at a free end, the second shear seal positioned in the second seal slot, with the second cantilevered seal surface oriented toward the fourth edge; the second interior face of the second seal plate secured to the select region of the interior surface of the third wall component, with the fourth edge of the second seal plate proximate to the exterior wall edge of the third wall component; the first interior face of the first seal plate secured to the pivoting portion vertical edge with the second edge proximate to the exterior wall edge of the third wall component when the second floor portion is in the second floor portion unfolded position, the third wall component is in the third wall component unfolded position and the pivoting wall portion is in the pivoting wall portion unfolded position, so that when the second floor portion, the third wall component and the pivoting wall portion are in their respective unfolded positions, the first seal plate mates with the second seal plate, with the first edge being proximate to the third edge, the first cantilevered seal surface in pressing contact with the exterior face of the second seal plate, and the second cantilevered seal surface in pressing contact with the exterior face of the first seal plate.

Clause 114. The folded building structure of clause 113, wherein the first exterior face is inclined at an angle y relative to the first interior face so that the first thickness increases with increasing distance from the first edge, and the second exterior face being inclined at the angle y relative to the second interior face so that the second thickness decreases with increasing distance from the fourth edge.

Clause 115. The folded building structure of clause 113, wherein the first and second cantilevered seal surfaces are each oriented at an upward angle .

Clause 116. The folded building structure of clause 113, wherein there is a stepdown, in the direction moving from the first edge to the second edge, on the first exterior face which is in proximity with a step-up, in the direction moving from the third edge to the fourth edge, on the second exterior face when the pivoting wall portion is in the pivoting portion unfolded position.

Clause 117. The folded building structure of any one of Clauses 58-74, wherein the first compression seal comprises:

(1) an elongate base;

(2) an elongate first seal wall joined to the base, and an opposed elongate second seal wall joined to the base, the first and second seal walls extending away from the base in a diverging relationship; (3) an elongate first arcuate buttress joined to an end of the first seal wall distal from the base, and an elongate second arcuate buttress joined to an end of the second seal wall distal from the base;

(4) an elongate planar first seal surface joined to an end of the first arcuate buttress distal from the first seal wall, and an elongate planar second seal surface joined to an end of the second arcuate buttress distal from the second seal wall, the first seal surface and the second seal surface each extending away at an angle from the first arcuate buttress and the second arcuate buttress respectively in a converging relationship; and

(5) an elongate seal closure having a first closure end joined to an end of the first seal surface distal from the first arcuate buttress and a second closure end joined to an end of the second seal surface distal from the second arcuate buttress; and wherein the base, the first and second seal walls, the first and second arcuate buttresses, the first and second seal surfaces and the seal closure define the hollow seal chamber.

Clause 118. The folded building structure of clause 117, wherein the base of the first compression seal has an arched section arched inwardly toward the seal chamber.

Clause 119. The folded building structure of clause 117-118, wherein the base of the first compression seal has a first end and an opposed second end, and the base further comprises an elongate first winglet extending from the first end of the base and an elongate second winglet extending from the second end of the base.

Clause 120. The folded building structure of clause 119, wherein the first seal slot has an elongate planar floor section with a first end and an opposed second end, a first lateral groove extends away from the first end of the first seal slot, a second lateral groove extends away from the second end of the first seal slot, the first winglet is positioned in the first lateral groove and the second winglet is positioned in the second lateral groove.

Clause 121. The folded building structure of clause 120, wherein the first seal slot is further defined by an elongate first slot wall extending away from the floor section from a first location, an elongate second slot wall extending away from the floor section from an opposed second location, with the first and second slot walls extending away from the floor section in a diverging relationship. Clause 122. The folded building structure of any one of Clauses 105, 106, 107, 109, 112, 113, 114 and 116, wherein the first and second shear seals each comprises:

(1) an elongate base;

(2) an elongate first seal wall joined to the base, and an opposed elongate second seal wall joined to the base, the first and second seal walls extending away from the base in a diverging relationship;

(3) an elongate seal support having an arcuate region joined to an end of the first seal wall distal from the base;

(4) an elongate planar seal closure joined to an end of the second seal wall distal from the base;

(5) the cantilevered seal surface being joined to the seal closure distal from the second seal wall at a shear seal junction, the cantilevered seal surface oriented at an upward angle relative to the base; and

(6) an end of the seal support distal from the first seal wall joined either to the shear seal junction, or to the cantilevered seal surface proximate to the shear seal junction, thereby defining the hollow seal chamber.

Clause 123. The folded building structure of clause 122, wherein the base of each of the first and second shear seals is planar.

Clause 124. The folded building structure of either of clause 122 or 123, wherein the base of each of the first and second shear seals has a first end and an opposed second end, and there is an elongate first winglet extending from the first end of the base and an elongate second winglet extending from the second end of the base.

Clause 125. The folded building structure of clause 124, wherein each of the first seal slot and the second seal slot has an elongate planar floor section with a first end and an opposed second end, a first lateral groove extends away from the first end of the first seal slot, a second lateral groove extends away from the second end of the first seal slot, the first winglet is positioned in the first lateral groove and the second winglet is positioned in the second lateral groove.

Clause 126. The folded building structure of clause 125, wherein each of the first seal slot and the second seal slot is further defined by an elongate first slot wall extending away from the floor section from a first location, an elongate second slot wall extending away from the floor section from an opposed second location, with the first and second slot walls extending away from the floor section in a diverging relationship.

Clause 127. The folded building structure of any one of clauses 122-126, wherein the cantilevered seal surface of either or both of the first and second shear seals is planar.

Claims

- 86 - WHAT IS CLAIMED IS:

1. An end cap for securing to an edge of a building structure enclosure component comprising:

(a) a planar elongate seal plate having an interior face, an opposed exterior face, a first edge, an opposed second edge and a thickness, the interior face adapted to be secured to the edge of the enclosure component;

(b) an elongate key on the interior face of the seal plate;

(c) an elongate accessory slot defined in the exterior face of the seal plate of a depth less than the thickness of the seal plate;

(d) a first locating slot extending from the first edge of the seal plate inwardly into the thickness of the seal plate toward the second edge; and

(e) a second locating slot extending from the second edge of the seal plate inwardly into the thickness of the seal plate toward the first edge.

2. The end cap of claim 1, wherein the exterior face defines at least one elongate locating groove positioned between the elongate accessory slot and the first edge or the second edge.

3. The end cap of claim 1, further comprising a first locating ridge at the first edge of the seal plate proximate to the first locating slot.

4. The end cap of claim 3, further comprising a second locating ridge at the second edge of the seal plate proximate to the second locating slot.

5. The end cap of claim 1, wherein an edge of the first locating slot proximate the interior face of the seal plate terminates an inset distance from the first edge of the seal plate.

6. The end cap of claim 1 where the seal plate is foamed polyvinyl chloride.

7. An enclosure component comprising:

(a) a planar laminate having an elongate edge and including (i) a planar foam panel layer having a first face and an opposed second face, (ii) a planar first metal layer bonded to the first face of the planar foam panel layer, and (iii) a planar second metal layer bonded to the second face of the planar foam panel layer; - 87 -

(b) a planar elongate edge reinforcement having an interior face positioned on the edge of the planar laminate and an opposed exterior face in which is defined an elongate slot;

(c) a planar elongate seal plate having an interior face, an opposed exterior face, a first edge, an opposed second edge and a thickness, the interior face of the seal plate positioned proximate to the exterior face of the edge reinforcement, with an elongate key on the interior face of the seal plate positioned in the elongate slot of the edge reinforcement; and

(d) an elongate accessory slot defined in the exterior face of the seal plate of a depth less than the thickness of the seal plate.

8. The enclosure component of claim 7, further comprising:

(e) a first locating slot extending from the first edge of the seal plate inwardly into the thickness of the seal plate toward the second edge; and

(f) a second locating slot extending from the second edge of the seal plate inwardly into the thickness of the seal plate toward the first edge.

9. The enclosure component of claim 7, wherein the exterior face of the seal plate defines at least one elongate locating groove positioned between the accessory slot and the first edge or the second edge.

10. The enclosure component of claim 7, further comprising a first locating ridge at the first edge of the seal plate proximate to the first locating slot.

11. The enclosure component of claim 10, further comprising a second locating ridge at the second edge of the seal plate proximate to the second locating slot.

12. The enclosure component of claim 7, wherein the edge reinforcement is selected from the group consisting of laminated strand lumber board and wooden board and the seal plate is foamed polyvinyl chloride.

13. A perimeter board comprising :

(a) a planar elongate perimeter plate having an interior face, an opposed first exterior face, a first edge and an opposed second edge;

(b) an elongate key on the interior face of the perimeter plate adapted to be received in an elongate accessory slot defined in an exterior face of an elongate seal plate; - 88 -

(c) an elongate clearance slot defined in the interior face of the perimeter plate positioned between the key and the first edge, or between the key and the second edge; and

(d) an elongate fastener slot defined in the first exterior face of the perimeter plate.

14. The perimeter board of claim 13, wherein there is an elongate locating groove defined in the portion of the exterior face of the first seal plate defining the fastener slot.

15. The perimeter board of claim 13, wherein the fastener slot is dovetail shaped in cross section.

16. The perimeter board of claim 14, wherein the fastener slot is dovetail shaped in cross section.

17. The perimeter board of claim 13, further comprising an elongate resilient strip snapped into the fastener slot.

18. The perimeter board of claim 15, further comprising an elongate resilient strip snapped into the fastener slot.

19. The perimeter board of claim 16, further comprising an elongate resilient strip snapped into the fastener slot.

20. The perimeter board of claim 13, wherein the perimeter plate is foamed polyvinyl chloride.

21. A perimeter seal assembly comprising:

(a) an end cap comprising:

(i) a planar elongate seal plate having a first interior face, an opposed first exterior face, a first edge and an opposed second edge, the first interior face adapted to be secured to an edge of an enclosure component;

(ii) an elongate seal key on the first interior face of the seal plate; and

(iii) an elongate accessory slot defined in the first exterior face; and

(b) a perimeter board comprising:

(i) a planar elongate perimeter plate having a second interior face and an opposed second exterior face; - 89 -

(ii) the second interior face positioned proximate to the first exterior face, with an elongate accessory key on the second interior face received in the accessory slot defined in the first exterior face;

(iii) an elongate fastener slot defined in the second exterior face; and

(d) an elongate clearance slot defined in the second interior face of the perimeter plate positioned between the accessory key and the first edge, or between the accessory key and the second edge.

22. The perimeter seal assembly of claim 21, wherein the first exterior face defines at least one elongate locating groove positioned between the accessory slot and the first edge or the second edge.

23. The perimeter seal assembly of claim 22, wherein the clearance slot defined in the second interior face is positioned over the locating groove defined in the first exterior face.

24. The perimeter seal assembly of claim 21 wherein one or both of the end cap and perimeter board is foamed polyvinyl chloride.

25. A roof skirt board comprising:

(a) a planar elongate skirt plate having a first interior face and an opposed first exterior face;

(b) an elongate cinch key positioned on the first interior face of the skirt plate and adapted to be received in an elongate accessory slot defined in a second exterior face of a planar elongate seal plate, with the cinch key having a serpentine cross section; and

(c) a portion of the first exterior face of the skirt plate defining a fastener slot that is positioned proximate to the cinch key positioned on the first interior face.

26. The roof skirt board of claim 25, wherein there is an elongate locating groove defined in the portion of the first exterior face of the skirt plate defining the fastener slot.

27. The roof skirt board of claim 26, wherein the fastener slot is dovetail shaped in cross section. - 90 -

28. The roof skirt board of claim 27, further comprising an elongate resilient strip snapped into the fastener slot.

29. The roof skirt board of claim 25 where the first seal plate is foamed polyvinyl chloride.

30. A roof seal assembly comprising:

(a) an end cap comprising:

(i) a planar elongate seal plate having a first interior face and an opposed first exterior face, the first interior face adapted to be secured to an edge of an enclosure component;

(ii) an elongate seal key on the first interior face; and

(iii) an elongate accessory slot defined in the first exterior face; and

(b) a roof skirt board comprising:

(i) a planar elongate skirt plate having a second interior face and an opposed second exterior face;

(ii) the second interior face positioned proximate to the first exterior face, with an elongate cinch key on the second interior face of the skirt plate received in the accessory slot defined in the first exterior face of the seal plate, and with the cinch key having a serpentine cross section; and

(iii) an elongate fastener slot defined in the second exterior face of the skirt plate positioned proximate to the cinch key positioned on the second interior face.

31. The roof seal assembly of clam 30 where one or both of the end cap and roof skirt board is foamed polyvinyl chloride.

32. A sealing system for abutting regions of building structure enclosure components, comprising:

(a) a planar elongate first seal plate having a first interior face and an opposed first exterior face, the first interior face adapted to be secured to an enclosure component, and the first exterior face defining an elongate seal slot; - 91 -

(b) the first seal plate adapted to mate with a planar elongate second seal plate, with the first exterior face positioned in proximity with a second exterior face of the second seal plate;

(c) an elongate resilient compression seal positioned in the elongate seal slot, the elongate resilient compression seal having a hollow seal chamber and comprising:

(1) an elongate base;

(2) an elongate first seal wall joined to the base, and an opposed elongate second seal wall joined to the base, the first and second seal walls extending away from the base in a diverging relationship;

(3) an elongate first arcuate buttress joined to an end of the first seal wall distal from the base, and an elongate second arcuate buttress joined to an end of the second seal wall distal from the base;

(4) an elongate planar first seal surface joined to an end of the first arcuate buttress distal from the first seal wall, and an elongate planar second seal surface joined to an end of the second arcuate buttress distal from the second seal wall, the first seal surface and the second seal surface each extending away at an angle from the first arcuate buttress and the second arcuate buttress respectively in a converging relationship; and

(5) an elongate seal closure having a first closure end joined to an end of the first seal surface distal from the first arcuate buttress and a second closure end joined to an end of the second seal surface distal from the second arcuate buttress; and wherein the base, the first and second seal walls, the first and second arcuate buttresses, the first and second seal surfaces and the seal closure define the hollow seal chamber.

33. The sealing system of claim 32, wherein the base of the compression seal has an arched section arched inwardly toward the seal chamber.

34. The sealing system of claim 33, wherein the arched section of the base has a first end and an opposed second end, and the base further comprises an elongate first winglet extending from the first end of the arched section and an elongate second winglet extending from the second end of the arched section.

35. The sealing system of claim 32, wherein the first and second seal walls extend away from the base at a divergence angle 0, where 0 < 90°. - 92 -

36. The sealing system of claim 35, wherein the divergence angle 0 is in the range of 40° < 0 < 50°.

37. The sealing system of claim 32, wherein the first and second seal surfaces extend away from the first arcuate buttress and the second arcuate buttress respectively at a convergence angle 6 of about 90°.

38. The sealing system of claim 32, wherein the seal slot has an elongate planar floor section with a first end and an opposed second end, with a first lateral groove extending away from the first end of the seal slot and a second lateral groove extending away from the second end of the seal slot.

39. The sealing system of claim 34, wherein the seal slot has an elongate planar floor section with a first end and an opposed second end, a first lateral groove extends away from the first end of the seal slot, a second lateral groove extends away from the second end of the seal slot, the first winglet is positioned in the first lateral groove and the second winglet is positioned in the second lateral groove.

40. The sealing system of claim 32, wherein the seal slot is further defined by an elongate first slot wall extending away from the floor section from a first location, an elongate second slot wall extending away from the floor section from an opposed second location, and the first and second slot walls extend away from the floor section in a diverging relationship.

41. The sealing system of claim 40, wherein the first and second slot walls extend away from the floor section at a divergence angle s, where s < 90°.

42. The sealing system of claim 41, wherein the divergence angle s is in the range of 40° < s < 50°.

43. The sealing system of claim 35, wherein the seal slot is further defined by an elongate first slot wall extending away from the floor section from a first location, an elongate second slot wall extending away from the floor section from an opposed second location, and the first and second slot walls extend away from the floor section at a divergence angle s equal to the divergence angle 0. - 93 -

44. The sealing system of claim 32, wherein the seal closure is curved in shape inwardly toward the seal chamber.

45. The sealing system of claim 32, wherein the first seal plate is foamed polyvinyl chloride.

46. A seal assembly for abutting regions of building structure enclosure components, comprising:

(a) a planar elongate first seal plate having a first interior face, an opposed first exterior face, a first edge and an opposed second edge, the first interior face being adapted to be secured to a first enclosure component, with (i) an elongate first seal slot defined in the first exterior face, and (ii) an elongate interlock slot defined in the first exterior face and positioned distal from the first and second edges;

(b) a planar elongate second seal plate having a second interior face and an opposed second exterior face, a first edge and an opposed second edge, the second interior face being adapted to be secured to a second enclosure component, the second seal plate adapted to mate with the first seal plate with the second exterior face in proximity with the first exterior face of the first seal plate; the second seal plate including an elongate interlock key on the second exterior face which is adapted to be received in the interlock slot defined in the first exterior face of the first seal plate when the first and second seal plates mate; and

(c) an elongate resilient first compression seal positioned in the elongate first seal slot and adapted to be in pressing contact with the second exterior face of the second seal plate when the first and second seal plates mate, the first compression seal having a hollow seal chamber.

47. The seal assembly of claim 46, wherein the first compression seal (c) comprises:

(1) an elongate base;

(2) an elongate first seal wall joined to the base, and an opposed elongate second seal wall joined to the base, the first and second seal walls extending away from the base in a diverging relationship; (3) an elongate first buttress joined to an edge of the first seal wall distal from the base, and an elongate second buttress joined to an edge of the second seal wall distal from the base;

(4) an elongate planar first seal surface joined to an edge of the first buttress distal from the first seal wall, and an elongate planar second seal surface joined to an edge of the second buttress distal from the second seal wall, the first seal surface and the second seal surface each extending away at an angle from the first buttress and the second buttress respectively in a converging relationship; and

(5) an elongate seal closure having a first edge joined to an edge of the first seal surface distal from the first arcuate buttress and a second edge joined to an edge of the second seal surface distal from the second buttress; wherein the base, the first and second seal walls, the first and second buttresses, the first and second seal surfaces and the seal closure define the hollow seal chamber.

48. The sealing system of claim 46, wherein the first exterior face further defines an elongate second seal slot, with the interlock slot positioned between the first seal slot and the second seal slot, and further comprising an elongate resilient second compression seal positioned in the elongate second seal slot and adapted to be in pressing contact with the second exterior face of the second seal plate when the second exterior face is in proximity with the first exterior face, the second compression seal having a hollow seal chamber.

49. The sealing system of claim 46, further comprising an elongate coupling inset defined in the first exterior face at each of the first and second edges of the first seal plat, an elongate coupling ridge extending from the second exterior face at each of the first and second edges of the second seal plate, the coupling inset at the first edge of the first seal plate adapted to mate with the coupling ridge at the first edge of the second seal plate, and the coupling inset at the second edge of the first seal plate adapted to mate with the coupling ridge at the second edge of the second seal plate, when the first and second seal plates mate.

50. The sealing system of claim 49, further comprising a series of elongate stepped locating ridges extending from the first interior face at the first edge of the first seal plate.

51. The sealing system of claim 48, wherein the first exterior face of the first seal plate further defines an elongate third seal slot, with the third seal slot positioned between the interlock slot and the second seal slot, and further comprising an elongate resilient third compression seal positioned in the elongate third seal slot and adapted to be in pressing contact with the second exterior face of the second seal plate when the first and second seal plates mate, the third compression seal having a hollow seal chamber.

52. The sealing system of claim 46, wherein each of the first and second seal plates is foamed polyvinyl chloride.

53. An enclosure component assembly comprising:

(a) a first planar laminate having an elongate edge, a first face and an opposed second face;

(b) a planar elongate first seal plate having an interior face, an opposed exterior face, a first edge and an opposed second edge, with an elongate interlock slot defined in the first exterior face and positioned distal from the first and second edges; and

(c) the interior face of the first seal plate secured to the first face of the planar laminate proximate the edge.

54. The enclosure component assembly of claim 53, further comprising flooring having a flooring thickness disposed on the first face of the first planar laminate, and wherein the first seal plate has a thickness at least equal to the flooring thickness.

55. The enclosure component assembly of claim 53, further comprising:

(d) a second planar laminate have an elongate edge, a first face and an opposed second face;

(e) a planar elongate second seal plate having a second interior face and an opposed second exterior face, a first edge and an opposed second edge, the second interior face secured to the edge of the second planar laminate and including an interlock key;

(f) the first seal plate mating with the second seal plate, with the second exterior face in proximity with the first exterior face and the interlock key received in the interlock slot.

56. The enclosure component assembly of claim 55, further comprising an elongate seal slot defined in the first exterior face of the first seal plate between the interlock slot and the first edge, and an elongate resilient compression seal positioned in the first seal - 96 - slot in pressing contact with the second exterior face of the second seal plate, the compression seal having a hollow seal chamber.

57. The enclosure component assembly of claim 55, in which either or both of the first and second seal plates is foamed polyvinyl chloride.

58. A folded building structure transportable to a site at which the folded building structure is to be erected, comprising: a fixed space portion defined by (i) a first floor portion, (ii) a first wall component, (iii) a planar fixed wall portion of a second wall component adjoining the first floor portion and the first wall component, the fixed wall portion having a fixed wall portion top edge, and (iii) a first roof portion adjoining the first wall component and the fixed wall portion; a second roof portion horizontally stacked in a second roof portion folded position on the first roof portion and pivotally connected thereto to permit the second roof portion to pivot, about a first horizontal axis relative to the first roof portion, from the second roof portion folded position to a second roof portion unfolded position, the second roof portion having a planar interior surface; a third roof portion horizontally stacked in a third roof portion folded position on the second roof portion and pivotally connected thereto to permit the third roof portion to pivot, about a second horizontal axis relative to the second roof portion, from the third roof portion folded position to a third roof portion unfolded position, the third roof portion having a planar interior surface; a second floor portion vertically positioned in a second floor portion folded position opposite to the first wall component and pivotally connected to the first floor portion to permit the second floor portion to pivot, about a third horizontal axis relative to the first floor portion, from the second floor portion folded position to a second floor portion unfolded position; a third wall component vertically positioned in a third wall component folded position against the second floor portion, the third wall component pivotally connected to the second floor portion to permit the third wall portion to pivot, about a fourth horizontal axis relative to the second floor portion, from the third wall component folded position to a third wall component unfolded position; - 97 - the second wall component additionally including a planar pivoting wall portion with a pivoting portion top edge, the pivoting wall portion (i) disposed in a pivoting portion folded position against the third wall component in the third wall component folded position and (ii) pivotally connected to the fixed wall portion of the second wall component to permit the pivoting wall portion to pivot, about a vertical axis relative to the fixed wall portion of the second wall component, from the pivoting portion folded position to a pivoting portion unfolded position in which the pivoting portion top edge is positioned under the interior surfaces of the second and third roof portions when the second and third roof portions are in their unfolded positions; a planar elongate first seal plate having a first interior face, an opposed first exterior face, a first edge and an opposed second edge, with an elongate first seal slot defined in the first exterior face, an elongate resilient first compression seal with a hollow seal chamber positioned in the first seal slot, and an elongate first interlock slot defined in the first exterior face and positioned distal from the first and second edges; a planar elongate second seal plate having a second interior face and an opposed second exterior face, and an elongate first interlock key on the second exterior face adapted to be received in the first interlock slot defined in the first exterior face of the first seal plate; one of the first interior face of the first seal plate and the second interior face of the second seal plate secured to the pivoting portion top edge; the other of the first interior face of the first seal plate and the second interior face of the second seal plate secured to the interior surface of the second roof portion at a position so that when the pivoting wall portion and the second roof portion are in their respective unfolded positions, the first seal plate mates with the second seal plate, with the first interlock key received in the first interlock slot, and the first compression seal in pressing contact with the second exterior face of the second seal plate.

59. The folded building structure of claim 58, wherein the first seal slot defined in the first exterior face is positioned between one of the first interlock slot and the first edge, and the first interlock slot and the second edge, and wherein the first exterior face further defines an elongate second seal slot positioned between the other of the first interlock slot and the first edge, and there is an elongate resilient second compression seal with a hollow - 98 - seal chamber positioned in the second seal slot, so that when the first seal plate mates with the second seal plate, the second compression seal is in pressing contact with the second exterior face of the second seal plate.

60. The folded building structure of claim 58, wherein the second interior face of the second seal plate is secured to the pivoting portion top edge, and the folded building structure further comprises: a planar elongate third seal plate having a third interior face, an opposed third exterior face, and an elongate second interlock key on the second exterior face adapted to be received in the first interlock slot defined in the first exterior face of the first seal plate; the fixed wall portion of the first wall component having a fixed wall portion top edge that is positioned under the interior surface of the second roof portion when the second roof portion is in the second roof portion unfolded position; the third interior face of the third seal plate secured to the fixed wall portion top edge; and the first interior face of the first seal plate secured to the interior surface of the second roof portion at a position so that when the second roof portion is in the second roof portion unfolded position, the third seal plate mates with the first seal plate, with the second interlock key received in the first interlock slot and the first compression seal in pressing contact with the third exterior face of the third seal plate.

61. The folded building structure of claim 58, wherein the second interior face of the second seal plate is secured to the pivoting portion top edge, and the folded building structure further comprises: a planar elongate fourth seal plate having a fourth interior face, an opposed fourth exterior face, a third edge and an opposed fourth edge, with an elongate second seal slot defined in the fourth exterior face, an elongate resilient second compression seal with a hollow seal chamber positioned in the second seal slot, and an elongate second interlock slot defined in the fourth exterior face and positioned distal from the third and fourth edges; the fourth interior face of the fourth seal plate secured to the interior surface of the third roof portion at a position so that when the pivoting wall portion and the third roof - 99 - portion are in their respective unfolded positions, the fourth seal plate mates with the second seal plate, with the first interlock key received in the second interlock slot, and the second compression seal in pressing contact with the second exterior face of the second seal plate.

62. The folded building structure of claim 58, further comprising: a planar elongate fifth seal plate having a fifth interior face, an opposed fifth exterior face, a fifth edge and an opposed sixth edge, with an elongate third seal slot defined in the fifth exterior face, an elongate resilient third compression seal with a hollow seal chamber positioned in the third seal slot, and an elongate third interlock slot defined in the fifth exterior face and positioned distal from the fifth and sixth edges; a planar elongate sixth seal plate having a sixth interior face and an opposed sixth exterior face, and an elongate third interlock key on the sixth exterior face adapted to be received in the third interlock slot defined in the fifth exterior face of the fifth seal plate; the third wall component having a third wall component top edge; the sixth interior face of the sixth seal plate secured to the third wall component top edge; the fifth interior face of the fifth seal plate secured to the interior surface of the third roof portion at a position so that when the second floor portion, the third wall component and the third roof portion are in their respective unfolded positions: (i) the fifth seal plate mates with the sixth seal plate, (ii) the third interlock key is received in the third interlock slot, and (iii) the third compression seal is in pressing contact with the sixth exterior face of the sixth seal plate.

63. A folded building structure transportable to a site at which the folded building structure is to be erected, comprising: a fixed space portion defined by (i) a floor portion, (ii) a first wall component, (iii) a planar fixed wall portion of a second wall component adjoining the floor portion and the first wall component, and (iii) a first roof portion adjoining the first wall component and the fixed wall portion, the first roof portion having a first interior edge; a second roof portion having a second interior edge and an opposed third interior edge, the second roof portion horizontally stacked in a second roof portion folded position on - 100 - the first roof portion and pivotally connected between the second and first interior edges thereof to permit the second roof portion to pivot, about a first horizontal axis relative to the first roof portion, from the second roof portion folded position to a second roof portion unfolded position; a third roof portion having a fourth interior edge, the third roof horizontally stacked in a third roof portion folded position on the second roof portion and pivotally connected between the fourth and third interior edges thereof to permit the third roof portion to pivot, about a second horizontal axis relative to the second roof portion, from the third roof portion folded position to a third roof portion unfolded position, the third roof portion having a planar interior surface; the second wall component additionally including a planar pivoting wall portion with a pivoting portion top edge, the pivoting wall portion (i) disposed in a pivoting portion folded position opposite to the first wall component, and (ii) pivotally connected to the fixed wall portion of the second wall component to permit the pivoting wall portion to pivot, about a vertical axis relative to the fixed wall portion of the second wall component, from the pivoting portion folded position to a pivoting portion unfolded position in which the pivoting portion top edge is positioned under the interior surfaces of the second and third roof portions when the second and third roof portions are in their unfolded positions; a planar elongate first seal plate having a first interior face, an opposed first exterior face, a first edge and an opposed second edge, with an elongate first seal slot defined in the first exterior face, an elongate resilient first compression seal with a hollow seal chamber positioned in the first seal slot, and an elongate first interlock slot defined in the first exterior face and positioned distal from the first and second edges; a planar elongate second seal plate having a second interior face and an opposed second exterior face, and an elongate first interlock key on the second exterior face adapted to be received in the first interlock slot defined in the first exterior face of the first seal plate; the first interior face of the first seal plate secured to one of the first and second interior edges; the second interior face of the second seal plate secured to the other of the first and second interior edges so that when the second roof portion is in the unfolded position, the - 101 - first seal plate mates with the second seal plate, with the first interlock key received in the first interlock slot, and the first compression seal in pressing contact with the second exterior face of the second seal plate.

64. The folded building structure of claim 63, further comprising: a planar elongate third seal plate having a third interior face, an opposed third exterior face, a third edge and an opposed fourth edge, with an elongate second seal slot defined in the third exterior face, an elongate resilient second compression seal with a hollow seal chamber positioned in the second seal slot, and an elongate second interlock slot defined in the third exterior face and positioned distal from the third and fourth edges; a planar elongate fourth seal plate having a fourth interior face and an opposed fourth exterior face, and an elongate second interlock key on the fourth exterior face adapted to be received in the second interlock slot defined in the third exterior face of the third seal plate; the third interior face of the third seal plate secured to one of the third and fourth interior edges; the fourth interior face of the fourth seal plate secured to the other of the third and fourth interior edges so that when the third roof portion is in the unfolded position, the third seal plate is mates with the fourth seal plate, with the second interlock key received in the second interlock slot, and the second compression seal in pressing contact with the fourth exterior face of the fourth seal plate.

65. The folded building structure of claim 63, wherein the first seal slot defined in the first exterior face is positioned between one of the first interlock slot and the first edge, and the first interlock slot and the second edge, and wherein the first exterior face further defines an elongate third seal slot and an elongate fourth seal slot, each of the third and fourth seal slots is positioned between the other of the first interlock slot and the first edge, and the first interlock slot and the second edge, an elongate resilient third compression seal with a hollow seal chamber positioned in the third seal slot, and an elongate resilient fourth compression seal with a hollow seal chamber positioned in the fourth seal slot, so that when the second roof portion is in the unfolded position the third and fourth compression seals are in pressing contact with the second exterior face of the second seal plate. - 102 -

66. The folded building structure of claim 64, wherein the second seal slot defined in the third exterior face is positioned between one of the second interlock slot and the third edge, and the second interlock slot and the fourth edge, and wherein the third exterior face further defines an elongate fifth seal slot and an elongate sixth seal slot, each of the fifth and sixth seal slots is positioned between the other of the second interlock slot and the third edge, and the second interlock slot and the fourth edge, an elongate resilient fifth compression seal with a hollow seal chamber positioned in the fifth seal slot, and an elongate resilient sixth compression seal with a hollow seal chamber positioned in the sixth seal slot, so that when the third roof portion is in the unfolded position the fifth and sixth compression seals are in pressing contact with the fourth exterior face of the fourth seal plate.

67. A folded building structure transportable to a site at which the folded building structure is to be erected, comprising: a fixed space portion defined by (i) a floor portion, (ii) a first wall component, (iii) a planar fixed wall portion of a second wall component adjoining the first floor portion and the first wall component, the fixed wall portion having a fixed wall portion interior edge, and (iii) a roof portion adjoining the first wall component and the fixed wall portion; the second wall component additionally including a planar pivoting wall portion with a pivoting portion interior edge, the pivoting wall portion (i) disposed in a pivoting portion folded position opposite to the first wall component, and (ii) pivotally connected to the fixed wall portion of the second wall component to permit the pivoting wall portion to pivot, about a vertical axis relative to the fixed wall portion of the second wall component, from the pivoting portion folded position to a pivoting portion unfolded position; a planar elongate first seal plate having a first interior face, an opposed first exterior face, a first edge and an opposed second edge, with an elongate first seal slot defined in the first exterior face, an elongate resilient first compression seal with a hollow seal chamber positioned in the first seal slot, and an elongate first interlock slot defined in the first exterior face and positioned distal from the first and second edges; a planar elongate second seal plate having a second interior face and an opposed second exterior face, and an elongate first interlock key on the second exterior face adapted to be received in the first interlock slot defined in the first exterior face of the first seal plate; - 103 - the second interior face of the second seal plate secured to one of the fixed portion interior edge and the pivoting portion interior edge; the first interior face of the first seal plate secured to the other of the fixed portion interior edge and the pivoting portion interior edge so that when the pivoting wall portion is in its unfolded position, the first seal plate mates with the second seal plate, with the first interlock key received in the first interlock slot, and the first compression seal in pressing contact with the second exterior face of the second seal plate.

68. The folded building structure of claim 67, wherein the first seal slot defined in the first exterior face is positioned between one of the first interlock slot and the first edge, and the first interlock slot and the second edge, and wherein the first exterior face further defines an elongate second seal slot positioned between the other of the first interlock slot and the first edge, and there is an elongate resilient second compression seal with a hollow seal chamber positioned in the second seal slot, so that when the pivoting portion is in the unfolded position the second compression seal is in pressing contact with the second exterior face of the second seal plate.

69. A folded building structure transportable to a site at which the folded building structure is to be erected, comprising: a fixed space portion defined by (i) a first floor portion, (ii) a first wall component, (iii) a planar fixed wall portion of a second wall component adjoining the first floor portion and the first wall component, and (iii) a first roof portion adjoining the first wall component and the fixed wall portion; a second floor portion vertically positioned in a second floor portion folded position opposite to the first wall component and pivotally connected to the first floor portion to permit the second floor portion to pivot, about a first horizontal axis relative to the first floor portion, from the second floor portion folded position to a second floor portion unfolded position, the second floor portion including an interior surface; a third wall component having a third wall component lower edge and vertically positioned in a third wall component folded position against the second floor portion, the third wall component pivotally connected to the second floor portion proximate to the third wall component lower edge to permit the third wall portion to pivot, about a second - 104 - horizontal axis relative to the second floor portion, from the third wall component folded position to a third wall component unfolded position; a planar elongate first seal plate having a first interior face, an opposed first exterior face, a first edge and an opposed second edge, with an elongate first seal slot defined in the first exterior face, an elongate resilient first compression seal with a hollow seal chamber positioned in the first seal slot, and an elongate first interlock slot defined in the first exterior face and positioned distal from the first and second edges; a planar elongate second seal plate having a second interior face and an opposed second exterior face, and an elongate first interlock key on the second exterior face adapted to be received in the first interlock slot defined in the first exterior face of the first seal plate; one of the first interior face of the first seal plate and the second interior face of the second seal plate secured to the third wall component lower edge; the other of the first interior face of the first seal plate and the second interior face of the second seal plate secured to the interior surface of the second floor portion at a position so that when the second floor portion and the third wall component are in their respective unfolded positions, the first seal plate mates with the second seal plate, with the first interlock key received in the first interlock slot, and the first compression seal in pressing contact with the second exterior face of the second seal plate.

70. The folded building structure of claim 69, wherein the first seal slot defined in the first exterior face is positioned between one of the first interlock slot and the first edge, and the first interlock slot and the second edge, and wherein the first exterior face further defines an elongate second seal slot positioned between the other of the first interlock slot and the first edge, and there is an elongate resilient second compression seal with a hollow seal chamber positioned in the second seal slot, so that when the pivoting portion is in the unfolded position the second compression seal is in pressing contact with the second exterior face of the second seal plate.

71. A folded building structure transportable to a site at which the folded building structure is to be erected, comprising: a fixed space portion defined by (i) a first floor portion, (ii) a first wall component, (iii) a planar fixed wall portion of a second wall component adjoining the first floor portion - 105 - and the first wall component, and (iii) a first roof portion adjoining the first wall component and the fixed wall portion; a second roof portion horizontally stacked in a second roof portion folded position on the first roof portion and pivotally connected thereto to permit the second roof portion to pivot, about a first horizontal axis relative to the first roof portion, from the second roof portion folded position to a second roof portion unfolded position, the second roof portion having a planar interior surface; third roof portion horizontally stacked in a third roof portion folded position on the second roof portion and pivotally connected thereto to permit the third roof portion to pivot, about a second horizontal axis relative to the second roof portion, from the third roof portion folded position to a third roof portion unfolded position, the third roof portion having a planar interior surface; a second floor portion vertically positioned in a second floor portion folded position opposite to the first wall component and pivotally connected to the first floor portion to permit the second floor portion to pivot, about a third horizontal axis relative to the first floor portion, from the second floor portion folded position to a second floor portion unfolded position, the second floor portion including an interior surface; a third wall component having a third wall component lower edge and an opposed third wall component upper edge and vertically positioned in a third wall component folded position against the second floor portion, the third wall component pivotally connected to the second floor portion proximate to the third wall component lower edge to permit the third wall portion to pivot, about a fourth horizontal axis relative to the second floor portion, from the third wall component folded position to a third wall component unfolded position; a planar elongate first seal plate having a first interior face, an opposed first exterior face, a first edge and an opposed second edge, with an elongate first seal slot defined in the first exterior face, an elongate resilient first compression seal with a hollow seal chamber positioned in the first seal slot, and an elongate first interlock slot defined in the first exterior face and positioned distal from the first and second edges; - 106 - a planar elongate second seal plate having a second interior face and an opposed second exterior face, and an elongate first interlock key on the second exterior face adapted to be received in the first interlock slot defined in the first exterior face of the first seal plate; one of the first interior face of the first seal plate and the second interior face of the second seal plate secured to the third wall component upper edge; the other of the first interior face of the first seal plate and the second interior face of the second seal plate secured to the interior surface of the third roof portion at a position so that when the second floor portion, the third wall component and the third roof portion are in their respective unfolded positions, the first seal plate mates with the second seal plate, with the first interlock key received in the first interlock slot, and the first compression seal in pressing contact with the second exterior face of the second seal plate.

72. The folded building structure of claim 71, wherein the first seal slot defined in the first exterior face is positioned between one of the first interlock slot and the first edge, and the first interlock slot and the second edge, and wherein the first exterior face further defines an elongate second seal slot positioned between the other of the first interlock slot and the first edge, and there is an elongate resilient second compression seal with a hollow seal chamber positioned in the second seal slot, so that when the first seal plate mates with the second seal plate, the second compression seal is in pressing contact with the second exterior face of the second seal plate.

73. A folded building structure transportable to a site at which the folded building structure is to be erected, comprising: a fixed space portion defined by (i) a first floor portion having a first floor portion interior edge, (ii) a first wall component, (iii) a planar fixed wall portion of a second wall component adjoining the first floor portion and the first wall component, and (iii) a first roof portion adjoining the first wall component and the fixed wall portion; a second floor portion having a second floor portion interior edge and vertically positioned in a second floor portion folded position opposite to the first wall component, the second floor portion pivotally connected to the first floor portion between the first floor portion interior edge and the second floor portion interior edge to permit the second floor - 107 - portion to pivot, about a horizontal axis relative to the first floor portion, from the second floor portion folded position to a second floor portion unfolded position; a planar elongate first seal plate having a first interior face, an opposed first exterior face, a first edge and an opposed second edge, with an elongate first seal slot defined in the first exterior face, an elongate resilient first compression seal with a hollow seal chamber positioned in the first seal slot, and an elongate first interlock slot defined in the first exterior face and positioned distal from the first and second edges; a planar elongate second seal plate having a second interior face and an opposed second exterior face, and an elongate first interlock key on the second exterior face adapted to be received in the first interlock slot defined in the first exterior face of the first seal plate; the second interior face of the second seal plate secured to one of the first floor portion interior edge and the second floor portion interior edge; the first interior face of the first seal plate secured to the other of the first floor portion interior edge and the second floor portion interior edge so that when the second floor portion is in its unfolded position, the first seal plate mates with the second seal plate, with the first interlock key received in the first interlock slot, and the first compression seal in pressing contact with the second exterior face of the second seal plate.

74. The folded building structure of claim 73, wherein the first seal slot defined in the first exterior face is positioned between one of the first interlock slot and the first edge, and the first interlock slot and the second edge, and wherein the first exterior face further defines an elongate third seal slot and an elongate fourth seal slot, each of the third and fourth seal slots positioned between the other of the first interlock slot and the first edge, and the first interlock slot and the second edge, with an elongate resilient third compression seal with a hollow seal chamber positioned in the third seal slot, and an elongate resilient fourth compression seal with a hollow seal chamber positioned in the fourth seal slot, so that when the first seal plate mates with the second seal plate the third and fourth compression seals are in pressing contact with the second exterior face of the second seal plate.

75. A sealing system for abutting regions of enclosure components for a building structure, comprising: - 108 -

(а) a planar elongate first seal plate having a first interior face and an opposed first exterior face, the first interior face being adapted to be secured to a first enclosure component, and the first exterior face defining an elongate seal slot; the first seal plate adapted to mate with a planar elongate second seal plate by lateral movement of a second exterior face of the second seal plate relative to the first exterior face of the first seal plate;

(c) an elongate resilient shear seal positioned in the elongate seal slot, the elongate resilient shear seal having a hollow seal chamber and comprising:

(1) an elongate base;

(2) an elongate first seal wall joined to the base, and an opposed elongate second seal wall joined to the base, the first and second seal walls extending away from the base in a diverging relationship;

(3) an elongate seal support joined to an end of the first seal wall distal from the base;

(4) an elongate planar seal closure joined to an end of the second seal wall distal from the base;

(5) an elongate planar cantilevered seal surface joined to an end of the seal closure distal from the second seal wall at a shear seal junction, the cantilevered seal surface oriented at an upward angle relative to the base and terminating at a free end; and

(б) an end of the seal support distal from the first seal wall joined either to the shear seal junction, or to the elongate planar cantilevered seal surface proximate to the shear seal junction, thereby defining the hollow seal chamber.

76. The sealing system of claim 75, wherein the base of the shear seal is planar.

77. The sealing system of claim 76, wherein the base has a first end and an opposed second end, and there is an elongate first winglet extending from the first end of the base and an elongate second winglet extending from the second end of the base.

78. The sealing system of claim 75, wherein the first and second seal walls extend away from the base at a divergence angle Z, where Z < 90°.

79. The sealing system of claim 78, wherein the divergence angle Z is in the range of 40° < Z < 50°.

80. The sealing system of claim 76, wherein the seal closure is oriented at an angle of inclination a relative to the planar base. - 109 -

81. The sealing system of claim 80, wherein > a.

82. The sealing system of claim 75, wherein the seal slot has an elongate planar floor section with a first end and an opposed second end, a first lateral groove extends away from the first end of the seal slot and a second lateral groove extends away from the second end of the seal slot.

83. The sealing system of claim 77, wherein the seal slot has a elongate planar floor section with a first end and an opposed second end, a first lateral groove extends away from the first end of the seal slot, a second lateral groove extends away from the second end of the seal slot, the first winglet is positioned in the first lateral groove and the second winglet is positioned in the second lateral groove.

84. The sealing system of claim 75, wherein the seal slot has an elongate floor section, and the seal slot is further defined by a first elongate slot wall extending away from the floor section from a first location, a second elongate slot wall extending away from the floor section from an opposed second location, and the first and second slot walls extend away from the floor section in a diverging relationship.

85. The sealing system of claim 84, wherein the first and second slot walls extend away from the floor section at a divergence angle s, where s < 90°.

86. The sealing system of claim 85, wherein the divergence angle s is in the range of 40° < s < 50°.

87. The sealing system of claim 78, wherein the seal slot has an elongate floor section, and the seal slot is further defined by a first elongate slot wall extending away from the floor section from a first location, a second elongate slot wall extending away from the floor section from an opposed second location, and the first and second slot walls extend away from the floor section at a divergence angle s equal to the divergence angle Z.

88. The sealing system of claim 75, wherein the seal plate is foamed polyvinyl chloride.

89. An interlock seal component comprising: - 110 -

(a) a planar elongate first seal plate having a first interior face, an opposed first exterior face, a first edge and an opposed second edge, the first interior face adapted to be secured to an enclosure component;

(b) an elongate key on the interior face of the seal plate; and

(c) the exterior face being inclined at an angle relative to the interior face.

90. The interlock seal component of claim 89, further comprising an elongate first seal slot defined in the first exterior face of the seal plate proximate the first edge.

91. The interlock seal component of claim 90, further comprising a step-down, in the direction moving from the first edge to the second edge, on the first exterior face between the first seal slot and the second edge.

92. An interlock seal component comprising:

(a) a planar elongate first seal plate having a first interior face, an opposed first exterior face, a first edge and an opposed second edge, the first interior face being adapted to be secured to a first enclosure component;

(b) an elongate first seal slot defined in the first exterior face of the seal plate proximate the first edge; and

(c) the first exterior face being inclined at an angle relative to the interior face.

93. The interlock seal component of claim 92, further comprising one of a step-up and a step-down on the first exterior face positioned between the first seal slot and the second edge.

94. An interlock seal assembly comprising:

(a) a planar elongate first seal plate having a first interior face, an opposed first exterior face, a first edge, an opposed second edge and a first thickness, the first interior face being adapted to be secured to a first enclosure component;

(b) an elongate first seal slot defined in the first exterior face of the first seal plate proximate the first edge; and

(c) the first exterior face being inclined at an angle y relative to the first interior face so that the first thickness decreases with increasing distance from the first edge; - Il l -

(d) a planar elongate second seal plate having a second interior face, an opposed second exterior face, a third edge, an opposed fourth edge and a second thickness, the second interior face being adapted to be secured to a second enclosure component;

(e) an elongate second seal slot defined in the second exterior face of the second seal plate proximate the fourth edge;

(f) the second exterior face being inclined at the angle y relative to the second interior face so that the second thickness increases with increasing distance from the third edge; and

(g) the first seal plate adapted to mate with the second seal plate by lateral movement of the first exterior face relative to the second exterior face so that when mated the first exterior face is in proximity with the second exterior face, with the first edge proximate to the third edge and the second edge proximate to the fourth edge.

95. The interlock seal assembly of claim 94, further comprising:

(h) a first shear seal having a hollow seal chamber and a first cantilevered seal surface, the first shear seal positioned in the first seal slot;

(i) a second shear seal having a hollow seal chamber and a second cantilevered seal surface, the second shear seal positioned in the second seal slot; and

(j) the first and second shear seals respectively positioned in the first and second seal slots so that the first and second cantilevered seal surfaces are oppositely oriented away from each other.

96. The interlock seal assembly of claim 95, further comprising a step-down, in the direction moving from the first edge to the second edge, on the first exterior face, in proximity to a step-up, in the direction moving from the third edge to the fourth edge, on the second exterior face.

97. An enclosure component assembly comprising:

(a) a first planar laminate having an elongate laminate edge, a first face and an opposed second face;

(b) a planar elongate first seal plate having a first interior face, an opposed first exterior face, a first edge, an opposed second edge and a first thickness; - 112 -

(c) the first exterior face being inclined at an angle y relative to the first interior face so that the first thickness increases with increasing distance from the first edge; and

(d) the first interior face of the first seal plate secured to the first face of the planar laminate parallel to the laminate edge, with the second edge proximate to the laminate edge.

98. The enclosure component assembly of claim 97, further comprising:

(e) a second planar laminate have an elongate edge, a first face and an opposed second face;

(f) a planar elongate second seal plate having a second interior face and an opposed second exterior face, a third edge and an opposed fourth edge, the second interior face secured to the edge of the second planar laminate, the first and second seal plates mated with the first exterior face in proximity with the second exterior face, the first edge proximate the third edge and the second edge proximate the fourth edge; and

(g) the second exterior face being inclined at the angle y relative to the second interior face so that the second thickness increases with increasing distance from the fourth edge.

99. The enclosure component assembly of claim 98, further comprising flooring having a flooring thickness disposed on the first face of the first planar laminate, and wherein the first seal plate has a thickness at least equal to the flooring thickness.

100. The enclosure component assembly of claim 98, further comprising:

(g) an elongate first seal slot defined in the first exterior face of the first seal plate proximate the second edge; and

(h) an elongate second seal slot defined in the second exterior face of the second seal plate proximate the third edge.

101. The enclosure component assembly of claim 100, further comprising:

(i) a first shear seal having a hollow seal chamber and a first cantilevered seal surface, the first shear seal positioned in the first seal slot;

(j) a second shear seal having a hollow seal chamber and a second cantilevered seal surface, the second shear seal positioned in the second seal slot; and - 113 -

(k) the first and second shear seals respectively positioned in the first and second seal slots so that the first and second cantilevered seal surfaces are oppositely oriented away from each other.

102. The enclosure component assembly of claim 101, having a step-up, in the direction moving from the first edge to the second edge, on the first exterior face in proximity with a step-down on the second exterior face, in the direction moving from the third edge to the fourth edge.

103. The enclosure component assembly of claim 102, wherein the step-up is positioned between the first seal slot and the first edge, and the step-down is positioned between the second seal slot and the fourth edge.

104. The enclosure component assembly of claim 98, wherein either or both of the first and second seal plates is foamed polyvinyl chloride.

105. A folded building structure transportable to a site at which the folded building structure is to be erected, comprising: a fixed space portion defined by (i) a first floor portion, (ii) a first wall component, (iii) a planar fixed wall portion of a second wall component adjoining the first floor portion and the first wall component, the fixed wall portion having a fixed wall portion top edge, and (iii) a first roof portion adjoining the first wall component and the fixed wall portion; a second floor portion vertically positioned in a second floor portion folded position opposite to the first wall component and pivotally connected to the first floor portion to permit the second floor portion to pivot, about a horizontal axis relative to the first floor portion, from the second floor portion folded position to a second floor portion unfolded position, the second floor portion having an interior surface and the first and second floor portions defining an exterior floor edge when the second floor portion is in the second floor portion unfolded position; the second wall component additionally including a planar pivoting wall portion with a pivoting portion bottom edge, the pivoting wall portion (i) disposed in a pivoting portion folded position against the third wall component in the third wall component folded position and (ii) pivotally connected to the fixed wall portion of the second wall component to permit the pivoting wall portion to pivot, about a vertical axis relative to the fixed wall portion of - 114 - the second wall component, from the pivoting portion folded position to a pivoting portion unfolded position in which at least a segment of the pivoting portion bottom edge is positioned over a select region of the interior surface of the second floor portion proximate to the exterior floor edge when the second floor portion is in the second floor portion unfolded position; a planar elongate first seal plate having a first interior face, an opposed first exterior face, a first thickness, a first edge and an opposed second edge, with an elongate first seal slot defined in the first exterior face proximate to the first edge; a planar elongate second seal plate having a second interior face, an opposed second exterior face, a second thickness, a third edge and an opposed fourth edge, with an elongate second seal slot defined in the second exterior face proximate to the fourth edge; an elongate resilient first shear seal having a hollow seal chamber and an elongate first cantilevered seal surface terminating at a free end, the first shear seal positioned in the first seal slot, with the first cantilevered seal surface oriented toward the first edge, and an elongate resilient second shear seal having a hollow seal chamber and an elongate second cantilevered seal surface terminating at a free end, the second shear seal positioned in the second seal slot, with the second cantilevered seal surface oriented toward the fourth edge; the second interior face of the second seal plate secured to the select region of the interior surface of the second floor portion, with the fourth edge of the second seal plate proximate to the exterior floor edge when the second floor portion is in the second floor portion unfolded position; the first interior face of the first seal plate secured to the pivoting portion bottom edge with the second edge proximate to the exterior floor edge when the second floor portion is in the second floor portion unfolded position and the pivoting wall portion is in the pivoting wall portion unfolded position, so that when the second floor portion and the pivoting wall portion are in their respective unfolded positions, the first seal plate mates with the second seal plate, with the first edge being proximate to the third edge, the first cantilevered seal surface in pressing contact with the exterior face of the second seal plate, and the second cantilevered seal surface in pressing contact with the exterior face of the first seal plate. - 115 -

106. The folded building structure of claim 105, wherein a segment of the pivoting wall portion is positioned over a select region of the interior surface of the first floor portion proximate to the exterior floor edge when the pivoting wall portion is in the pivoting wall portion unfolded position and the second floor portion is in the second floor portion unfolded position, and the folded building structure further comprises: a planar elongate third seal plate having a third interior face, an opposed third exterior face, a third thickness, a fifth edge and an opposed sixth edge, with an elongate third seal slot defined in the third exterior face proximate to the sixth edge; an elongate resilient third shear seal having a hollow seal chamber and a third cantilevered seal surface terminating at a free end, the third shear seal positioned in the third seal slot, with the third cantilevered seal surface oriented toward the sixth edge; the third interior face of the third seal plate secured to the select region of the interior surface of the first floor portion so that when the pivoting wall portion is in the pivoting wall portion unfolded position, the fifth edge is proximate to the first edge, and the third seal plate mates with the first seal plate, with the third cantilevered seal surface in pressing contact with the first exterior face of the first seal plate.

107. The folded building structure of claim 105, wherein the first exterior face is inclined at an angle y relative to the first interior face so that the first thickness increases with increasing distance from the first edge, and the second exterior face being inclined at the angle y relative to the second interior face so that the second thickness decreases with increasing distance from the fourth edge.

108. The folded building structure of claim 105, wherein the first and second cantilevered seal surfaces are each oriented at an upward angle .

109. The folded building structure of claim 106, wherein the first exterior face is inclined at an angle y relative to the first interior face so that the first thickness decreases with increasing distance from the first edge, the second exterior face being inclined at the angle y relative to the second interior face so that the second thickness increases with increasing distance from the third edge, and the third exterior face being inclined at the angle y relative to the third interior face so that the third thickness increases with increasing distance from the fifth edge. - 116 -

110. The folded building structure of claim 106, wherein the first and second cantilevered seal surfaces are each oriented at an upward angle p.

111. The folded building structure of claim 110, wherein the third cantilevered seal surface is oriented at the upward angle .

112. The folded building structure of claim 105, wherein there is a step-down, in the direction moving from the first edge to the second edge, on the first exterior face which is in proximity with a step-up, in the direction moving from the third edge to the fourth edge, on the second exterior face when the pivoting wall portion is in the pivoting portion unfolded position.

113. A folded building structure transportable to a site at which the folded building structure is to be erected, comprising: a fixed space portion defined by (i) a first floor portion, (ii) a first wall component, (iii) a planar fixed wall portion of a second wall component adjoining the first floor portion and the first wall component, and (iii) a roof portion adjoining the first wall component and the fixed wall portion; a second floor portion vertically positioned in a second floor portion folded position opposite to the first wall component and pivotally connected to the first floor portion to permit the second floor portion to pivot, about a first horizontal axis relative to the first floor portion, from the second floor portion folded position to a second floor portion unfolded position; a third wall component vertically positioned in a third wall component folded position against the second floor portion, the third wall component pivotally connected to the second floor portion to permit the third wall portion to pivot, about a second horizontal axis relative to the second floor portion, from the third wall component folded position to a third wall component unfolded position, the third wall component having an interior surface and an exterior wall edge; the second wall component additionally including a planar pivoting wall portion with a pivoting portion vertical edge, the pivoting wall portion (i) disposed in a pivoting portion folded position against the third wall component in the third wall component folded position and (ii) pivotally connected to the fixed wall portion of the second wall component to permit - 117 - the pivoting wall portion to pivot, about a vertical axis relative to the fixed wall portion of the second wall component, from the pivoting portion folded position to a pivoting portion unfolded position in which the pivoting portion vertical edge is positioned adjacent to a select region of the interior surface of the third wall component proximate to the exterior wall edge when the second floor portion and the third call components are in their unfolded positions; a planar elongate first seal plate having a first interior face, an opposed first exterior face, a first thickness, a first edge and an opposed second edge, with an elongate first seal slot defined in the first exterior face proximate to the first edge; a planar elongate second seal plate having a second interior face, an opposed second exterior face, a second thickness, a third edge and an opposed fourth edge, with an elongate second seal slot defined in the second exterior face proximate to the fourth edge; an elongate resilient first shear seal having a hollow seal chamber and an elongate first cantilevered seal surface terminating at a free end, the first shear seal positioned in the first seal slot, with the first cantilevered seal surface oriented toward the first edge, and an elongate resilient second shear seal having a hollow seal chamber and an elongate second cantilevered seal surface terminating at a free end, the second shear seal positioned in the second seal slot, with the second cantilevered seal surface oriented toward the fourth edge; the second interior face of the second seal plate secured to the select region of the interior surface of the third wall component, with the fourth edge of the second seal plate proximate to the exterior wall edge of the third wall component; the first interior face of the first seal plate secured to the pivoting portion vertical edge with the second edge proximate to the exterior wall edge of the third wall component when the second floor portion is in the second floor portion unfolded position, the third wall component is in the third wall component unfolded position and the pivoting wall portion is in the pivoting wall portion unfolded position, so that when the second floor portion, the third wall component and the pivoting wall portion are in their respective unfolded positions, the first seal plate mates with the second seal plate, with the first edge being proximate to the third edge, the first cantilevered seal surface in pressing contact with the exterior face of the second seal plate, and the second cantilevered seal surface in pressing contact with the exterior face of the first seal plate. - 118 -

114. The folded building structure of claim 113, wherein the first exterior face is inclined at an angle y relative to the first interior face so that the first thickness increases with increasing distance from the first edge, and the second exterior face being inclined at the angle y relative to the second interior face so that the second thickness decreases with increasing distance from the fourth edge.

115. The folded building structure of claim 113, wherein the first and second cantilevered seal surfaces are each oriented at an upward angle .

116. The folded building structure of claim 113, wherein there is a step-down, in the direction moving from the first edge to the second edge, on the first exterior face which is in proximity with a step-up, in the direction moving from the third edge to the fourth edge, on the second exterior face when the pivoting wall portion is in the pivoting portion unfolded position.