초록

Systems and methods providing a modular building having pre-fabricated panel wall components are easily assembled to form a predetermined structure including energy efficient corner modular components that provide for seamless, energy-efficient corners with structural strength.

대표청구항 ▼

1. A modular building system for creating an energy-efficient structure comprising: a multiplicity of pre-fabricated unitary, integral single molded panel wall components, each of said pre-fabricated panel wall components having a face side and a back side and four edges including friction-based loc

1. A modular building system for creating an energy-efficient structure comprising: a multiplicity of pre-fabricated unitary, integral single molded panel wall components, each of said pre-fabricated panel wall components having a face side and a back side and four edges including friction-based locking connector components for securely attaching the wall components together along the edges to form seams, each seam having a double tongue and groove configuration, each edge of the seam having a tongue and a groove; andwherein at least one of the unitary, integral single molded wall components includes and is integral with a modular seamless corner component that includes at least one corner angle wherein the wall components further include embedded mechanical locking components; wherein the friction-based locking unitary, integral single molded wall components include mating, dual-track alignment edges and each of the mechanical locking components includes a cam-based connector that extends between a first unlocked position and a second locked position, wherein the edges are first aligned by the mating, dual-track alignment seams when the cam-based connector is in the first position and then the connector is moved to the second position to lock the wall components together, thereby providing an energy efficient seam where the unitary, integral single molded wall components are connected, aligned, and locked together. 2. The system of claim 1, wherein the tongue and groove is an orthogonal configuration. 3. The system of claim 1, wherein the wall components are attachable by aligning the dual-track alignment seams from two wall components with each other and locking them together mechanically. 4. The system of claim 1, wherein the wall components are assembled at mating edges that provide for aligned and locked seams. 5. The system of claim 1, wherein the modular seamless corner component is shaped to provide a corner for a rectangular structure. 6. The system of claim 1, wherein the modular corner component includes more than two segments extending outwardly from a corner point. 7. The system of claim 1, wherein the modular corner component is molded to form a T cross-section. 8. The system of claim 1, wherein the modular corner component is molded to form a cross-section. 9. The system of claim 1, wherein the modular wall panel components include insulation between the face side and the back side. 10. The system of claim 1, wherein energy efficiency rating of the modular wall panel component exceeds the ratings for a stick-built construction. 11. The system of claim 1, wherein the system further includes components selected from the group consisting of at least one window, electrical conduit, electrical wiring, switches, outlets, lighting fixtures, plumbing, plumbing elements, and combinations thereof. 12. A method for providing a modular building structure comprising the steps of: providing a containerized kit wherein the kit is sized and configured to be enclosed by a housing and includes therewithin a modular building system further comprising a predetermined number of unitary, integral single molded modular wall components with friction-based locking seams, each seam having a double tongue and groove configuration, each edge of the seam having a tongue and a groove;including unitary, integral single molded seamless modular corner components, a roof system, and at least one door; andproviding instructions for assembling the modular building system for forming a complete building unit, including aligning the modular wall components along opposite edges via connectors to form stable, energy efficient seams when modular wall components are joined; wherein the wall components further include embedded mechanical locking components; and wherein friction-based locking unitary, integral single molded wall components include mating, dual-track alignment edges and the mechanical locking component includes a cam-based connector that extends between a first unlocked position and a second locked position, wherein the edges are first aligned by the mating, dual-track alignment seams when the cam-based connector is in the first position and then the connector is moved to the second position to lock the wall components together, thereby providing an energy efficient seam where the unitary, integral single molded wall components are connected, aligned, and locked together. 13. The method of claim 12, wherein the modular components are lockable to form a predetermined structure using a connector system that provides for mating alignment and locking of the modular components with each other along adjoining edges to form energy efficient seams. 14. A system for a modular building comprising: structural prefabricated unitary, integral single molded wall panel components that are constructed and configured to be juxtapositioned, aligned, interconnected, and secured along their edges to form friction-based locking joints or seams, each seam having a double tongue and groove configuration, each edge of the seam having a tongue and a groove;wherein the wall components are assembled and secured in place by the joints without requiring additional locking mechanism; andwherein the wall components further include unitary, integral single molded seamless, modular corner components with at least two wall panels extending outwardly therefrom, thereby forming an energy efficient and stable modular building including energy efficient seams; wherein the wall components further include embedded mechanical locking components; and wherein the friction-based locking unitary, integral single molded wall components include mating, dual-track alignment edges and the mechanical locking component includes a cam-based connector that extends between a first unlocked position and a second locked position, wherein the edges are first aligned by the mating, dual-track alignment seams when the cam-based connector is in the first position and then the connector is moved to the second position to lock the wall components together, thereby providing an energy efficient seam where the unitary, integral single molded wall components are connected, aligned, and locked together. 15. The system of claim 14, wherein the edges include interacting protruding rail systems that provide for simultaneous alignment and friction-based securement of the panels at the joints. 16. The system of claim 15, wherein the alignment and interconnection of the wall panel components is provided by at least two mating vertically oriented rail systems that are connected to and protrude from and extend along the length of an edge of the wall panel components and wherein two wall panels are connectable by aligning the edges of the two panels and then interconnecting the rail systems, thereby providing the alignment and securement of the wall panel components at the edges or seams formed at the joined edges of two wall panel components. 17. The system of claim 14, further including at least two vertically oriented spaced apart rail systems disposed along the edges of the wall panel components, and wherein the spaced apart rail systems matingly correspond to receptive cavities in a mating panel edge, so that when the two wall panel components are aligned, connected and joined at the edges, the rail systems provide for mating securement of the wall panel components. 18. The system of claim 14, wherein the tongue and groove is an orthogonal configuration.