Methods and apparatus for restoring, repairing, reinforcing and/or protecting structures using concrete
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
E02D-037/00
E04G-023/00
E04G-023/02
출원번호
US-0794607
(2010-06-04)
등록번호
US-8943774
(2015-02-03)
발명자
/ 주소
Richardson, George David
Krivulin, Semion
Rosas-Gracida, Jorge Ricardo
Fang, Zi Li
출원인 / 주소
CFS Concrete Forming Systems Inc.
대리인 / 주소
Oyen Wiggs Green & Mutala LLP
인용정보
피인용 횟수 :
2인용 특허 :
76
초록▼
Methods are provided for repairing an existing structure to cover at least a portion of the existing structure with a repair structure. Such methods comprise mounting one or more standoff retainers to the existing structure; coupling one or more standoffs to the standoff retainers such that the stan
Methods are provided for repairing an existing structure to cover at least a portion of the existing structure with a repair structure. Such methods comprise mounting one or more standoff retainers to the existing structure; coupling one or more standoffs to the standoff retainers such that the standoffs extend away from the existing structure; coupling one or more cladding panels to the standoffs such that the panels are spaced apart from the structure to provide a space therebetween; and introducing a curable material to the space between the panels and the existing structure, the panels acting as at least a portion of a formwork for containing the curable material until the curable material cures to provide a repair structure cladded, at least in part, by the panels. Corresponding apparatus for effecting such methods are also provided.
대표청구항▼
1. An apparatus for repairing an existing structure to cover at least a portion of the existing structure with a repair structure, the apparatus comprising: one or more standoff retainers mounted to the existing structure;one or more standoffs coupled to the standoff retainers, the standoffs extendi
1. An apparatus for repairing an existing structure to cover at least a portion of the existing structure with a repair structure, the apparatus comprising: one or more standoff retainers mounted to the existing structure;one or more standoffs coupled to the standoff retainers, the standoffs extending away from the existing structure;one or more panels coupled to the standoffs at one or more locations spaced apart from the existing structure to provide a space between the panels and the existing structure;wherein:curable material is introduced to the space between the panels and the existing structure and the panels, retained from moving outwardly relative to the existing structure by the coupling of the panels to the standoffs, the coupling of the standoffs to the standoff retainers and the mounting of the standoff retainers to the existing structure, act as at least a portion of a formwork for containing the curable material until the curable material cures to provide a repair structure cladded, at least in part, by the panels;the existing structure comprises a concrete structure;wherein the standoff retainers comprise: rebar; anda plurality of rebar retainers formed separately from the existing structure, each rebar retainer comprising a structure-engaging feature coupled to the existing structure and a rebar-engaging feature; andwherein the one or more standoffs are coupled to the standoff retainers by the rebar which is engaged in the rebar-engaging features of two or more of the rebar retainers and which extends in directions generally aligned with a surface of the portion of the existing structure and through apertures in the standoffs. 2. An apparatus according to claim 1 the standoffs comprise one or more interior standoffs, each interior standoff coupled to one corresponding panel at a location away from edges of the corresponding panel. 3. An apparatus according to claim 1 wherein the standoffs comprises one or more edge-connecting standoffs, each edge connecting standoff coupled to one panel connector component on a first edge of a first panel and coupled to one panel connector component on a second edge of a second panel such that the first and second panels are connected, via the edge-connecting standoff, in edge-adjacent relationship. 4. An apparatus according to claim 1 comprising an edge formwork component comprising a mounting flange, an edge component that extends away from the mounting flange and a beveled brace that extends between: a location of the edge component spaced apart from the mounting flange and a location of the mounting flange spaced apart from the edge component, the edge formwork component coupled to the existing structure at a location aligned with an edge of the one or more panels such that the mounting flange abuts against a surface of the portion of the existing structure and the edge component extends away from the structure to engage the edge of the one or more panels. 5. An apparatus according to claim 4 wherein the edge formwork component comprises an overlap flange that extends away from the edge component and abuts against an edge of the one or more panels. 6. An apparatus according to claim 1 wherein the one or more panels are coupled to one or more the standoffs by one or more panel connector components located entirely between an outer surface of the existing structure and an outer surface of the panels, the outer surface of the panels opposed to the outer surface of the existing structure. 7. An apparatus according to claim 6 wherein the one or more panel connector components are located on an interior surface of the panels, the interior surface of the panels opposed to the outer surface of the panels. 8. An apparatus according to claim 6 wherein each of the one or more panel connector components is elongated in at least one dimension and wherein the one or more panels are coupled to the one or more standoffs by at least one connection formed between the one or more standoffs and the one or more panel connector components, the at least one connection elongated in the at least one dimension, the at least one dimension oriented generally parallel to the outer surface of the existing structure. 9. An apparatus according to claim 8 wherein the one or more panels are coupled to the one or more standoffs by an array comprising plurality of connections formed between the one or more standoffs and the one or more panel connector components, each of the plurality of connections in the array elongated in the at least one dimension, the at least one dimension oriented generally parallel to the outer surface of the existing structure and generally parallel to the at least one dimension of other connections in the array. 10. An apparatus according to claim 6 wherein each of the standoffs comprise one or more standoff connector components at or near an outer edge thereof for engaging one or more corresponding ones of the panel connector components and thereby coupling the one or more panels to the standoffs. 11. An apparatus according to claim 10 wherein the standoffs comprise one or more interior standoffs, each interior standoff coupled to one corresponding panel at a location away from edges of the panel. 12. An apparatus according to claim 11 wherein the standoffs comprise one or more edge-connecting standoffs, each edge connecting standoff coupled to one panel connector component on a first edge of a first panel and coupled to one panel connector component on a second edge of a second panel such that the first and second panels are connected, via the edge-connecting standoff, in edge-adjacent relationship. 13. An apparatus according to claim 10 wherein the standoffs comprise one or more edge-connecting standoffs, each edge connecting standoff coupled to one panel connector component on a first edge of a first panel and coupled to one panel connector component on a second edge of a second panel such that the first and second panels are connected, via the edge-connecting standoff, in edge-adjacent relationship. 14. An apparatus according to claim 10 wherein the one or more panels define an outer surface comprising one or more corners. 15. An apparatus according to claim 10 wherein the existing structure has a generally rectangular cross-section and wherein the one or more panels coupled to the one or more standoffs surround a generally rectangular cross-sectional periphery of the existing structure. 16. An apparatus according to claim 15 wherein the outer surface of the panels has a generally rectangular cross-section. 17. An apparatus according to claim 16 wherein each of the one or more panel connector components is elongated in at least one dimension and wherein the one or more panels are coupled to the one or more standoffs by at least one connection formed between the one or more standoffs and the one or more panel connector components, the at least one connection elongated in the at least one dimension, the at least one dimension oriented generally parallel to the outer surface of the existing structure and generally orthogonal to the generally rectangular cross-section of the existing structure. 18. An apparatus according to claim 6 comprising an edge formwork component comprising a mounting flange, an edge component that extends away from the mounting flange and a beveled brace that extends between: a location of the edge component spaced apart from the mounting flange and a location of the mounting flange spaced apart from the edge component, the edge formwork component coupled to the existing structure at a location aligned with an edge of the one or more panels such that the mounting flange abuts against a surface of the portion of the existing structure and the edge component extends away from the structure to engage the edge of the one or more panels. 19. An apparatus according to claim 18 wherein the edge formwork component comprises an overlap flange that extends away from the edge component and abuts against an edge of the one or more panels. 20. An apparatus according to claim 1 comprising one or more anodic corrosion control components mounted in contact with the rebar of the standoff retainers. 21. An apparatus according to claim 1 wherein the rebar-engaging features comprise one or more of: an aperture through the rebar retainers; and a concavity in the rebar retainers. 22. An apparatus according to claim 1 wherein the structure-engaging features comprise concrete anchors which extend into the concrete of the existing structure for coupling the rebar retainers to the existing structure. 23. An apparatus according to claim 1 wherein the one or more standoffs coupled to the one or more standoff retainers constrain movement of the standoffs to a region defined by an ability of the rebar to move within the apertures in the standoffs through which the rebar extends. 24. A method for repairing an existing structure by covering at least a portion of the existing structure with a repair structure, the method comprising: mounting one or more standoff retainers to the existing structure;coupling one or more standoffs to the standoff retainers, the standoffs extending away from the existing structure;coupling one or more panels to the standoffs at one or more corresponding locations spaced apart from the existing structure to provide a space between the panels and the existing structure;introducing a curable material to the space between the panels and the existing structure, the panels, retained from moving outwardly relative to the existing structure by the coupling of the panels to the standoffs, the coupling of the standoffs to the standoff retainers and the mounting of the standoff retainers to the existing structure, acting as at least a portion of a formwork for containing the curable material until the curable material cures to provide a repair structure cladded, at least in part, by the panels;wherein the existing structure comprises a concrete structure;wherein the standoff retainers comprise: rebar; and a plurality of rebar retainers formed separately from the existing structure, each rebar retainer comprising a structure-engaging feature and a rebar-engaging feature; andwherein mounting the one or more standoff retainers to the existing structure comprises coupling the structure-engaging feature of each rebar retainer to the existing structure; andwherein coupling the one or more standoffs to the standoff retainers comprises engaging the rebar in the rebar-engaging features of two or more of the rebar retainers and extending the rebar in directions generally aligned with a surface of the portion of the existing structure and through apertures in the standoffs. 25. A method according to claim 24 wherein each of the standoffs comprise one or more standoff connector components at or near an outer edge thereof for engaging one or more complementary panel connector components on the panels, wherein the standoffs comprise one or more interior standoffs and wherein coupling one or more panels to the standoffs comprises coupling the one or more standoff connector components to the one or more complementary panel connector components by coupling each interior standoff to one corresponding panel at a location away from edges of the panel. 26. A method according to claim 24 wherein each of the standoffs comprise one or more standoff connector components at or near an outer edge thereof for engaging one or more complementary panel connector components on the panels, wherein the standoffs comprise one or more edge-connecting standoffs and wherein coupling one or more panels to the standoffs comprises coupling the one or more standoff connector components to the one or more complementary panel connector components by coupling each edge connecting standoff to one panel connector component on a first edge of a first panel and one panel connector component on a second edge of a second panel such that the first and second panels are connected, via the edge-connecting standoff, in edge-adjacent relationship. 27. A method according to claim 24 comprising: providing an edge formwork component comprising a mounting flange, an edge component that extends away from the mounting flange and a beveled brace that extends between: a location of the edge component spaced apart from the mounting flange and a location of the mounting flange spaced apart from the edge component; and coupling the edge formwork component to the existing structure at a location aligned with an edge of the one or more panels such that the mounting flange abuts against a surface of the portion of the existing structure and the edge component extends away from the structure to engage the edge of the one or more panels. 28. A method according to claim 27 wherein the edge formwork component comprises an overlap flange that extends away from the edge component and wherein coupling the edge formwork component to the existing structure comprises abutting the overlap flange against an edge of the one or more panels. 29. A method according to claim 24 wherein the panels are coupled to the standoffs by one or more panel connector components located entirely between an outer surface of the existing structure and an outer surface of the panels, the outer surface of the panels opposed to the outer surface of the existing structure. 30. A method according to claim 29 wherein the one or more panel connector components are located on an interior surface of the panels, the interior surface of the panels opposed to the outer surface of the panels. 31. A method according to claim 29 wherein each of the one or more panel connector components is elongated in at least one dimension and wherein coupling the one or more panels to the one or more standoffs comprises forming at least one connection between the one or more standoffs and the one or more panel connector components, the at least one connection elongated in the at least one dimension, the at least one dimension oriented generally parallel to the outer surface of the existing structure. 32. A method according to claim 31 wherein coupling the one or more panels to the one or more standoffs comprises forming an array comprising a plurality of connections between the one or more standoffs and the one or more panel connector components, each of the plurality of connections in the array elongated in the at least one dimension, the at least one dimension oriented generally parallel to the outer surface of the existing structure and generally parallel to the at least one dimension of other connections in the array. 33. A method according to claim 29 wherein each of the standoffs comprise one or more standoff connector components at or near an outer edge thereof for engaging one or more corresponding ones of the panel connector components and wherein coupling the one or more panels to the one or more standoffs comprises coupling the one or more standoff connector components to the one or more corresponding ones of the panel connector components. 34. A method according to claim 33 wherein the standoffs comprise one or more interior standoffs and coupling the one or more standoff connector components to the one or more corresponding ones of the panel connector components comprises coupling each interior standoff to one corresponding panel at a location away from edges of the panel. 35. A method according to claim 34 wherein the standoffs comprise one or more edge-connecting standoffs and coupling the one or more standoff connector components to the one or more corresponding ones of the panel connector components comprises coupling each edge connecting standoff to one panel connector component on a first edge of a first panel and one panel connector component on a second edge of a second panel such that the first and second panels are connected, via the edge-connecting standoff, in edge-adjacent relationship. 36. A method according to claim 33 wherein the standoffs comprise one or more edge-connecting standoffs and coupling the one or more standoff connector components to the one or more corresponding ones of the panel connector components comprises coupling each edge connecting standoff to one panel connector component on a first edge of a first panel and one panel connector component on a second edge of a second panel such that the first and second panels are connected, via the edge-connecting standoff, in edge-adjacent relationship. 37. A method according to claim 33 wherein the one or more panels define an outer surface comprising one or more corners. 38. A method according to claim 33 wherein the existing structure has a generally rectangular cross-section and coupling the one or more panels to the one or more standoffs comprises coupling the one or more panels such that the one or more panels surround a generally rectangular cross-sectional periphery of the existing structure. 39. A method according to claim 38 wherein the outer surface of the panels has a generally rectangular cross-section. 40. A method according to claim 38 wherein each of the one or more panel connector components is elongated in at least one dimension and wherein coupling the one or more panels to the one or more standoffs comprises forming at least one connection between the one or more standoffs and the one or more panel connector components, the at least one connection elongated in the at least one dimension, the at least one dimension oriented generally parallel to the outer surface of the existing structure and generally orthogonal to the generally rectangular cross-section of the existing structure. 41. A method according to claim 29 comprising: providing an edge formwork component comprising a mounting flange, an edge component that extends away from the mounting flange and a beveled brace that extends between: a location of the edge component spaced apart from the mounting flange and a location of the mounting flange spaced apart from the edge component; and coupling the edge formwork component to the existing structure at a location aligned with an edge of the one or more panels such that the mounting flange abuts against a surface of the portion of the existing structure and the edge component extends away from the structure to engage the edge of the one or more panels. 42. A method according to claim 41 wherein the edge formwork component comprises an overlap flange that extends away from the edge component and wherein coupling the edge formwork component to the existing structure comprises abutting the overlap flange against an edge of the one or more panels. 43. A method according to claim 24 wherein the rebar-engaging features comprise one or more of: an aperture through the rebar retainers; and a concavity in the rebar retainers. 44. A method according to claim 24 the structure-engaging features comprise concrete anchors and wherein coupling the structure-engaging feature of each rebase retainer to the existing structure comprises extending the concrete anchor into the concrete of the existing structure. 45. A method according to claim 24 wherein coupling the one or more standoffs to the one or more standoff retainers comprises constraining movement of the standoffs to a region defined by an ability of the rebar to move within the apertures in the standoffs through which the rebar extends.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (76)
Abusleme Julio A. (Saronno ITX) Maccone Patrizia (Milan ITX) Colaianna Pasqua (Milan ITX), (Co)polymerization process in aqueous emulsion of fluorinated olefinic monomers.
Kotani Akio,JPX ; Amidaiji Katsuyoshi,JPX ; Senba Masatoshi,JPX ; Morimoto Koji,JPX, Antifouling wall structure for use in pipe and method of constructing the antifouling wall therefor.
Trousilek Jan P. V. (9 Guerney Ct. Newport RI 02540), Form for use in fabricating wall structures and a wall structure fabrication system employing said form.
Guarriello Theodore J. (Warminster PA) Guarriello ; Jr. Henry J. (Richboro PA) Guarriello Joseph A. (Upper Wakefield PA), Plastic forms for poured concrete.
Colbert Ervin A. (Centralia IL) Mann Richard J. (Centralia IL) Phillips Robert W. (Centralia IL), Repair sleeve for a marine pile and method of applying the same.
Shvakhman Lidia (c/o 19 Holling Dr. Buffalo NY 14216) Agro Ignatius T. (492 West Ave. Buffalo NY 14213) Chiusolo Louis L. (230 Glenwood Cres. Oshawa ; Ontario CAX), Waterproofing unit.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.