Rapidly deployable prefabricated folding building system
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
E02D-027/02
E04B-001/348
E04B-001/19
E04B-001/24
E04B-001/344
E02D-027/50
E04B-001/343
E04H-001/12
출원번호
US-0820341
(2017-11-21)
등록번호
US-10260211
(2019-04-16)
발명자
/ 주소
Peterson, Elliot
출원인 / 주소
Peterson, Elliot
대리인 / 주소
Keith L. Jenkins, Registered Patent Attorney LLC
인용정보
피인용 횟수 :
0인용 특허 :
17
초록▼
A fully recoverable modular steel footing and beam system that allows installation of the rapidly deployable prefabricated folding building system on a wide variety of substrates, including bare earth, existing asphalt, and existing concrete. The substrate may show deviation from level and still be
A fully recoverable modular steel footing and beam system that allows installation of the rapidly deployable prefabricated folding building system on a wide variety of substrates, including bare earth, existing asphalt, and existing concrete. The substrate may show deviation from level and still be accommodated. The invention also includes three-part folding haunch and ridge braces allowing braces to ship attached to building panels resulting in minimal handling, reduced weights, and ability to install roof and walls separately. Roof weight is reduced and so can be handled with a forklift or telehandler, as the only heavy equipment needed to erect the building. Flashings are insulated, factory cut, and drilled for bolts, in alignable pattern to bolt-receiving rivets installed in the corrugated siding and roofing. Bolts and bolt installation locations are color coded.
대표청구항▼
1. A rapidly deployable prefabricated folding building comprising: a. a steel bearing plate;b. a T-shaped building attachment plate: i. supported above, and vertically spaced apart from, a top surface of said steel bearing plate by a plurality of vertical support plates; andii. having a horizontal s
1. A rapidly deployable prefabricated folding building comprising: a. a steel bearing plate;b. a T-shaped building attachment plate: i. supported above, and vertically spaced apart from, a top surface of said steel bearing plate by a plurality of vertical support plates; andii. having a horizontal stem and crossbar; andc. first and second anchor adapter plates releasably attached to said top surface of said steel bearing plate on opposed sides of said T-shaped building attachment plate. 2. The building of claim 1, comprising first and second building attachment plate connecting beam bolt holes in first and second support plates of said plurality of support plates spaced apart extending downward from respective first and second sides of said stem to said bearing plate. 3. The building of claim 2, comprising a connecting beam further comprising: a. an elongated steel I-beam with first and second ends;b. first and second end plates fixed to respective said first and second ends of said elongated steel I-beam and closing off said first and second ends of said elongated steel I-beam on both sides of a web of said I-beam; andc. first and second vertical slots centered on each said connecting beam end plate side alignable to respective said first and second connecting beam bolt holes. 4. The building of claim 3, comprising: a. an aligned, spaced apart, linear array of a plurality of said steel bearing plates, wherein said array includes at least two spaced apart rows;b. a plurality of connecting beams extending between each two neighboring said building attachment plates in each row of said aligned, spaced apart, linear array of a plurality of said steel bearing plates; andc. wherein each said connecting beam of said plurality of said connecting beams is releasably attached via first and second bolts through said first and second slots and through said first and second supporting plate connecting beam bolt holes, respectively, of first and second said neighboring building attachment plates, respectively. 5. The building of claim 4, wherein each said connecting beam in one said row is aligned to a common level over a substrate that is not level. 6. The building of claim 1, comprising first and second anchors releasably and directly attached to said first and second anchor adapter plates, respectively, and operable to extend into a substrate to secure said steel bearing plate to said substrate. 7. The building of claim 4, comprising a plurality of prefabricated wall panels each having: a. first and second spaced-apart opposed C-channel columns; andb. at least one wall material extending between said first and second columns;c. first and second releasably stowable haunch brace column arms having respective first and second first ends pivotally secured to said first and second columns, respectively;d. first and second releasably stowable haunch brace coupling sleeves enclosing respective said first and second haunch brace column arms;e. a first pivot bolt hole proximate a top end of each said column; andf. first and second footings, each adapted to attach to one of: i. said building attachment plate; andii. a shim attached to said building attachment plate. 8. The building of claim 7, comprising first and second temporary kick braces connectable to said first and second columns, respectively, and to respective first and second support footings. 9. The building of claim 7, comprising a plurality of said first and second prefabricated roof panel pairs, each prefabricated roof panel in each said roof panel pair having: a. first and second spaced-apart parallel opposed C-channel rafters; andb. at least one roof material extending between said first and second rafters;c. first and second releasably stowable haunch brace rafter arms, proximate the lower end of said roof panel, having respective first and second first ends pivotally secured to said first and second said rafters, respectively;d. first and second releasably stowable ridge brace rafter arms, proximate the upper end of each said roof panel, having respective first and second first ends pivotally secured to said first and second rafters, respectively;e. wherein first and second said ridge brace rafter arms are supported during deployment by first and second releasably stowable support filaments connected between respective said first and second rafters and respective said first and second ridge brace rafter arms;f. a pivot bolt flange, having a second pivot bolt hole, extending proximate a lower end of each said rafter; andg. said first and second rafters each comprise an adaption to attach to a five-hole ridge plate. 10. The building of claim 9, comprising: a. first and second releasably stowable haunch brace coupling sleeves enclosing respective said first and second ridge brace rafter arms of one of said first and second roof panels of one said pair of roof panels of said plurality of roof panel pairs;b. a corrugated metal exterior panel on each said wall panel and each said roof panel and further comprising first and second linear arrays of screw holes proximate first and second side edges, respectively, of said corrugated metal exterior panel;c. a first plurality of seams between adjacent said columns and adjacent said rafters, when said rapidly deployable prefabricated folding building has a plurality of said sections installed in adjacent linear side-by-side array;d. said first plurality of flashing sections having a second plurality of predetermined lengths; ande. predrilled screw holes in each said flashing section of said first plurality of flashing sections, in first and second linear arrays of said screw holes proximate first and second side edges of said flashing section, respectively, and corresponding to said first and second linear arrays of screw holes proximate said first and second side edges, respectively, of said corrugated metal exterior panels. 11. The building of claim 10, comprising color-coded said bolts and said screws corresponding to color-coded said bolt holes and said screw holes, respectively. 12. A rapidly deployable prefabricated folding building comprising: a. a steel bearing plate;b. a T-shaped building attachment plate: i. supported above, and vertically spaced apart from, a top surface of said steel bearing plate via a plurality of vertical support plates; andii. having a horizontal stem and crossbar;c. first and second anchor adapter plates releasably attached to said top surface of steel bearing plate on opposed sides of said T-shaped building attachment plate; andd. first and second building attachment plates having first and second connecting beam bolt holes in first and second support plates, wherein said first and second support plates extend downward from respective opposed spaced apart sides of said stem to said bearing plate. 13. The building of claim 12, comprising a connecting beam further comprising: a. an elongated steel I-beam with first and second ends;b. first and second end plates fixed to said first and second ends of said elongated steel I-beam and closing off said first and second ends of said elongated steel I-beam on both sides of a web of said I-beam;c. first and second vertical slots in each said connecting beam end plate side alignable to said first and second connecting beam bolt holes. 14. The building of claim 13, comprising: a. an aligned, spaced apart, linear array of a plurality of said steel bearing plates, wherein said array includes at least two spaced apart rows;b. a plurality of connecting beams extending between each two neighboring said building attachment plates in each said row of said aligned, spaced apart, linear array of a plurality of said steel bearing plates;c. wherein each said connecting beam of said plurality of said connecting beams is releasably attached via first and second bolts through said first and second slots and through said first and second supporting plate connecting beam bolt holes, respectively, of first and second said neighboring building attachment plates, respectively;d. first and second anchors releasably attachable to said first and second anchor adapter plates, respectively, and operable to extend into a substrate to secure said steel bearing plate to said substrate. 15. The building of claim 14, wherein each said connecting beam in one said row is alignable to a common level over a substrate that is not level. 16. The building of claim 14, comprising: a. a plurality of prefabricated wall panels each having: i. first and second spaced-apart opposed parallel C-channel columns; andii. at least one wall material extending between said first and second columns;iii. first and second releasably stowable haunch brace column arms having respective first and second first ends pivotally secured to said first and second columns, respectively;iv. first and second releasably stowable haunch brace coupling sleeves enclosing respective said first and second haunch brace column arms;v. a first pivot bolt hole proximate a top end of each said column;vi. an adaption to attach to one of: 1. said building attachment plate; and2. a shim attached to said building attachment plate; andvii. first and second temporary kick braces connectable to said first and second columns, respectively, and connectable to first and second support footings, respectively;b. a plurality of said first and second prefabricated roof panel pairs, each prefabricated roof panel having: i. first and second spaced-apart parallel opposed C-channel rafters;ii. at least one roof material extending between said first and second rafters;iii. first and second releasably stowable haunch brace rafter arms, proximate the lower end of said roof panel, having respective first and second first ends pivotally secured to said first and second said rafters, respectively;iv. first and second releasably stowable ridge brace rafter arms, proximate the upper end of each said roof panel, having respective first and second first ends pivotally secured to said first and second rafters, respectively;v. wherein first and second said ridge brace rafter arms are supported during deployment by first and second releasably stowable support filaments connected between respective said first and second rafters and respective said first and second ridge brace rafter arms;vi. a pivot bolt flange, having a second pivot bolt hole, extending proximate a lower end of each said rafter; andvii. an adaption to assist in attachment to a five-hole ridge plate to said first and second rafters. 17. The building of claim 16, comprising: a. first and second releasably stowable haunch brace coupling sleeves enclosing respective first and second said first ridge brace rafter arms on one said roof panel of one said pair of roof panels;b. corrugated metal exterior panels attached to each said wall panel and each said roof panel and further comprising first and second linear arrays of bolt holes proximate first and second side edges, respectively, of said corrugated metal exterior panels;c. a first plurality of seams between adjacent said columns and adjacent said rafters, when said rapidly deployable prefabricated folding building has a plurality of said sections installed in adjacent linear array;d. said first plurality of flashing sections having a second plurality of predetermined lengths; ande. said first plurality of flashing sections having predrilled screw holes in each said flashing section arranged as first and second linear arrays of screw holes proximate first and second side edges of each said flashing section, respectively, and corresponding to said first and second linear arrays of screw holes proximate said first and second side edges, respectively, of said corrugated metal exterior panels. 18. The building of claim 17, comprising color-coded said bolts and said screws corresponding to color-coded said bolt holes and said screw holes. 19. A rapidly deployable prefabricated folding building comprising: a. a steel bearing plate;b. a T-shaped building attachment plate: i. supported above a top surface of said steel bearing plate via a plurality of vertical support plates; andii. having a horizontal stem and crossbar;c. first and second anchor adapter plates releasably attached to said top surface of steel bearing plate over first and second openings in said bearing plate on opposed sides of said T-shaped building attachment plate;d. first and second building attachment plate connecting beam bolt holes in first and second support plates of said plurality of support plates extending from respective first and second sides of said stem to said bearing plate;e. a connecting beam further comprising: i. an elongated steel I-beam with first and second ends;ii. first and second end plates fixed to said first and second ends of said elongated steel I-beam and closing off said first and second ends of said elongated steel I-beam on both sides of a web of said I-beam;iii. first and second vertical slots in each said connecting beam end plate side alignable to said first and second connecting beam bolt holes;f. an aligned, spaced apart, linear array of a plurality of said steel bearing plates, wherein said array includes at least two spaced apart rows;g. a plurality of connecting beams extending between each two neighboring said building attachment plates in each said row of said aligned, spaced apart, linear array of said plurality of steel bearing plates;h. wherein said first and second ends of each said connecting beam of said plurality of said connecting beams is releasably attached via first and second bolts through said first and second slots in said first and second end plates and through said first and second building support plate connecting beam bolt holes, respectively, of first and second said neighboring building attachment plates, respectively;i. first and second anchors releasably attachable to said first and second anchor adapter plates, respectively, and operable to extend into a substrate to secure said steel bearing plate to said substratej. wherein each said connecting beam in one said row is alignable to a common level over a substrate that is not level;k. a plurality of prefabricated wall panels each having: i. first and second spaced-apart opposed C-channel columns; andii. at least one wall material extending between said first and second columns;iii. first and second releasably stowable haunch brace column arms having respective first and second first ends pivotally secured to said first and second columns, respectively;iv. first and second releasably stowable haunch brace coupling sleeves enclosing said first and second haunch brace column arms, respectively;v. a first pivot bolt hole proximate a top end of each said column; andvi. an adaption to attach to one of: 1. said building attachment plate; and2. a shim attached to said building attachment plate;vii. first and second temporary kick braces connectable to said first and second columns, respectively, and to a support footing; and1. a plurality of said first and second prefabricated roof panel pairs, each prefabricated roof panel having: i. first and second spaced-apart parallel opposed C-channel rafters;ii. at least one roof material extending between said first and second rafters;iii. first and second releasably stowable haunch brace rafter arms, proximate the lower end of said roof panel, having respective first and second first ends pivotally secured to said first and second said rafters, respectively;iv. first and second releasably stowable ridge brace rafter arms, proximate the upper end of each said roof panel, having respective first and second first ends pivotally secured to said first and second rafters, respectively;v. wherein first and second said ridge brace rafter arms are supported during deployment by first and second releasably stowable support filaments connected between respective said first and second rafters and respective said first and second ridge brace rafter arms;vi. a pivot bolt flange, having a second pivot bolt hole, extending proximate a lower end of each said rafter; andvii. an adaption to attach said first and second rafters to a five-hole ridge plate. 20. The building of claim 19, comprising: a. first and second releasably stowable haunch brace coupling sleeves enclosing respective first and second said ridge brace rafter arms on one said roof panel of each said roof panel pair;b. corrugated metal exterior panels on each said wall panel and each said roof panel further comprising first and second linear arrays of bolt holes proximate first and second side edges, respectively, of said corrugated metal exterior panels;c. a first plurality of seams between adjacent said columns and adjacent said rafters, when said rapidly deployable prefabricated folding building has a plurality of said sections installed in adjacent linear array;d. said first plurality of flashing sections having a second plurality of predetermined lengths;e. said first plurality of flashing sections having predrilled screw holes in each said flashing section arranged as first and second linear arrays of screw holes proximate first and second side edges of each said flashing section, respectively, and corresponding to said first and second linear arrays of screw holes proximate said first and second side edges, respectively, of said corrugated metal exterior panels; andf. color-coded said bolts and said screws corresponding to color-coded said bolt holes and said screw holes, respectively.
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이 특허에 인용된 특허 (17)
James Oliver ; Evon L. Oliver, Anchor strap frame clamp.
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