Systems for restoring, repairing, reinforcing, protecting, insulating and/or cladding structures with locatable stand-off components
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
E04G-023/02
E04B-002/86
출원번호
US-0063189
(2016-03-07)
등록번호
US-9784005
(2017-10-10)
발명자
/ 주소
Richardson, George David
Krivulin, Semion
Fang, Zi Li
출원인 / 주소
CFS Concrete Forming Systems Inc.
대리인 / 주소
Rattray, Todd A.
인용정보
피인용 횟수 :
0인용 특허 :
110
초록▼
Apparatus covering at least a portion of a surface of an existing structure with a repair structure comprise: a plurality of longitudinally and transversely extending panels connected to one another in edge-adjacent relationship; and a plurality of standoffs connected to the panels and extending fro
Apparatus covering at least a portion of a surface of an existing structure with a repair structure comprise: a plurality of longitudinally and transversely extending panels connected to one another in edge-adjacent relationship; and a plurality of standoffs connected to the panels and extending from the panels toward the existing structure. Each panel comprises a panel connector component which extends longitudinally along the panel and from an interior surface of the panel toward the existing structure, and each standoff comprises a standoff connector component complementary to the panel connector component. The connector components are shaped such that a connection formed therebetween comprises deformation of at least one of the panel connector component and the standoff connector component and creates corresponding restorative deformation forces that prevent relative movement between the panel and the standoff under the force of gravity.
대표청구항▼
1. An apparatus for covering at least a portion of a surface of an existing structure with a repair structure, the apparatus comprising: a plurality of longitudinally and transversely extending panels connected to one another in edge-adjacent relationship; anda plurality of standoffs connected to th
1. An apparatus for covering at least a portion of a surface of an existing structure with a repair structure, the apparatus comprising: a plurality of longitudinally and transversely extending panels connected to one another in edge-adjacent relationship; anda plurality of standoffs connected to the panels and extending from the panels toward the existing structure; wherein: each panel comprises an exterior surface and an opposing interior surface on a side of the panel closer to the existing structure;each panel comprises a panel connector component which extends longitudinally along the panel and from the interior surface of the panel toward the existing structure, and each standoff comprises a standoff connector component complementary to the panel connector component, the panel and standoff connector components shaped such that a connection formed therebetween comprises deformation of at least one of the panel connector component and the standoff connector component;the panel connector component and standoff connector component are shaped such that the connection is formed therebetween by force directed to create relative movement between the standoff and the panel in a direction generally orthogonal to the interior surface of the panel at the location of the panel connector component;each of the plurality of panel connector components comprises a pair of panel hooked arms which extend away from the interior surface of the panel and which curve back toward the interior surface of the panel at distal ends of the panel hooked arms to provide corresponding panel hook concavities; andeach of the plurality of standoff connector components comprises a pair of standoff hooked arms which extend away from a shaft of the standoff and which curve back toward the shaft of the standoff at distal ends of the standoff hooked arms to provide corresponding standoff hook concavities. 2. An apparatus according to claim 1 wherein each connection between a corresponding panel connector component and a corresponding standoff connector component comprises at least one of the pair of panel hooked arms extending into and terminating in the standoff hook concavity of a corresponding one of the pair of standoff hooked arms and the corresponding one of the pair of standoff hooked arms extending into and terminating in the panel hook concavity of the at least one of the pair of panel hooked arms. 3. An apparatus according to claim 1 wherein the standoff connector components comprise beveled standoff surfaces which extend transversely toward one another as the beveled standoff surface extend toward the shaft of the standoff and wherein the panel connector components comprise beveled panel surfaces which extend transversely toward one another as the beveled panel surfaces extend away from the interior surface of the panel. 4. An apparatus according to claim 3 wherein, upon application of the force directed to create relative movement between the standoff and the panel in the direction generally orthogonal to the interior surface of the panel, abutment between the beveled standoff surfaces and the beveled panel surfaces and causes the deformation of at least one of the panel connector component and the standoff connector component. 5. An apparatus according to claim 3 wherein: for each panel connector component, the pair of panel hooked arms is shaped to provide the beveled panel surfaces; and, for each standoff connector component, the pair of standoff hooked arms is shaped to provide the beveled standoff surfaces. 6. An apparatus according to claim 1 comprising curable material introduced into a space between the interior surface of the panels and the existing structure and permitted to cure to provide the repair structure cladded at least in part by the panels. 7. An apparatus according to claim 6 wherein the standoffs are shaped to extend into the space into which the curable material is introduced for anchoring the panels to the curable material as it cures to thereby provide the cladding. 8. An apparatus according to claim 1 wherein the deformation of the at least one of the panel connector component and the standoff connector component for each connection therebetween results in restorative deformation forces that prevent relative movement between the panel and the standoff under the force of gravity. 9. An apparatus according to claim 1 wherein, for each standoff connector component, the pair of standoff hooked arms are transversely spaced apart from one another and wherein, for each connection between the corresponding panel connector component and the corresponding standoff connector component, the deformation of the at least one of the panel connector component and the standoff connector component comprises deformation of the standoff connector component and deformation of the standoff connector component comprises deformation of the pair of standoff hooked arms transversely apart from one another and then at least partial restoration of the pair of standoff hooked arms transversely toward one another. 10. An apparatus for covering at least a portion of a surface of an existing structure with a repair structure, the apparatus comprising: a plurality of longitudinally and transversely extending panels connected to one another in edge-adjacent relationship; anda plurality of standoffs connected to the panels and extending from the panels toward the existing structure; wherein: each panel comprises an exterior surface and an opposing interior surface on a side of the panel closer to the existing structure;each panel comprises a panel connector component which extends longitudinally along the panel and from the interior surface of the panel toward the existing structure, and each standoff comprises a standoff connector component complementary to the panel connector component, the panel and standoff connector components shaped such that a connection formed therebetween comprises deformation of at least one of the panel connector component and the standoff connector component;the panel connector component and standoff connector component are shaped such that the connection is formed therebetween by force directed to create relative movement between the standoff and the panel in a direction generally orthogonal to the interior surface of the panel at the location of the panel connector component;each of the plurality of panel connector components comprises a pair of panel hooked arms which extend away from the interior surface of the panel and which curve back toward the interior surface of the panel at distal ends of the panel hooked arms to provide corresponding panel hook concavities;each of the plurality of standoff connector components comprises a pair of standoff hooked arms which extend away from a shaft of the standoff and which curve back toward the shaft of the standoff at distal ends of the standoff hooked arms to provide corresponding standoff hook concavities; andwherein, for each panel connector component, the pair of panel hooked arms are transversely spaced apart from one another and wherein, for each connection between a corresponding panel connector component and a corresponding standoff connector component, the deformation of the at least one of the panel connector component and the standoff connector component comprises deformation of the panel connector component and deformation of the panel connector component comprises deformation of the pair of panel hooked arms transversely toward one another and then at least partial restoration of the pair of panel hooked arms transversely away from one another. 11. An apparatus for covering at least a portion of a surface of an existing structure with a repair structure, the apparatus comprising: a plurality of longitudinally and transversely extending panels connected to one another in edge-adjacent relationship; anda plurality of standoffs connected to the panels and extending from the panels toward the existing structure; wherein: each panel comprises an exterior surface and an opposing interior surface on a side of the panel closer to the existing structure;each panel comprises a panel connector component which extends longitudinally along the panel and from the interior surface of the panel toward the existing structure, and each standoff comprises a standoff connector component complementary to the panel connector component, the panel and standoff connector components shaped such that a connection formed therebetween comprises deformation of at least one of the panel connector component and the standoff connector component;the panel connector component and standoff connector component are shaped such that the connection is formed therebetween by force directed to create relative movement between the standoff and the panel in a direction generally orthogonal to the interior surface of the panel at the location of the panel connector component;each of the plurality of panel connector components comprises a pair of panel hooked arms which extend away from the interior surface of the panel and which curve back toward the interior surface of the panel at distal ends of the panel hooked arms to provide corresponding panel hook concavities;each of the plurality of standoff connector components comprises a pair of standoff hooked arms which extend away from a shaft of the standoff and which curve back toward the shaft of the standoff at distal ends of the standoff hooked arms to provide corresponding standoff hook concavities; andwherein, for each standoff connector component, the pair of standoff hooked arms are transversely spaced apart from one another and wherein, for each connection between a corresponding panel connector component and a corresponding standoff connector component, the deformation of the at least one of the panel connector component and the standoff connector component comprises deformation of the panel connector component and deformation of the panel connector component comprises deformation of the pair of standoff hooked arms transversely apart from one another and then at least partial restoration of the pair of standoff hooked arms transversely toward one another. 12. A method for covering at least a portion of a surface of an existing structure with a repair structure, the method comprising: connecting a plurality of longitudinally and transversely extending panels to one another in edge-adjacent relationship;connecting a plurality of standoffs to the panels such that the standoffs extend from the panels toward the existing structure;introducing a curable material into a space between the panels and the existing structure, the curable material providing a repair structure cladded at least in part by the panels once cured;wherein connecting the plurality of standoffs to the panels comprises, for each connection, connecting a panel connector component of a corresponding panel and a standoff connector component of a corresponding standoff, wherein connecting the panel and standoff connector components comprises deforming at least one of the panel connector component and the standoff connector component;wherein connecting the panel and standoff connector components comprises exerting a force directed to create relative movement between the corresponding standoff and the corresponding panel in a direction generally orthogonal to the interior surface of the corresponding panel at the location of the panel connector component;wherein connecting the panel and standoff connector components comprises: providing each of the plurality of panel connector components with a pair of panel hooked arms which extend away from the interior surface of the panel and which curve back toward the interior surface of the panel at distal ends of the panel hooked arms to provide corresponding panel hook concavities;providing each of the plurality of standoff connector components with a pair of standoff hooked arms which extend away from a shaft of the standoff and which curve back toward the shaft of the standoff at distal ends of the standoff hooked arms to provide corresponding standoff hook concavities; andfor each connection, engaging at least one of the pair of panel hooked arms of the corresponding panel connector component with at least one of the pair of standoff hooked arms of the corresponding standoff connector component. 13. A method according to claim 12, wherein, for each connection, engaging at least one of the pair of panel hooked arms of the corresponding panel connector component with at least one of the pair of standoff hooked arms of the corresponding standoff connector component comprises extending the at least one of the pair of panel hooked arms into the standoff hook concavity of the at least one of the pair of standoff hooked arms to terminate therein and extending the at least one of the pair of standoff hooked arms into the panel hook concavity of the at least one of the pair of panel hooked arms to terminate therein. 14. A method according to claim 12 comprising shaping the standoff connector components to provide beveled standoff surfaces which extend transversely toward one another as the beveled standoff surface extend toward the shaft of the standoff and shaping the panel connector components to provide beveled panel surfaces which extend transversely toward one another as the beveled panel surfaces extend away from the interior surface of the panel. 15. A method according to claim 14 wherein, for each connection, exerting the force directed to create relative movement between the corresponding standoff and the corresponding panel in the direction generally orthogonal to the interior surface of the panel comprises abutting the beveled standoff surfaces against the beveled panel surfaces and thereby causing the deformation of at least one of the panel connector component and the standoff connector component. 16. A method according to claim 14 wherein shaping the standoff connector components to provide the beveled standoff surfaces comprises shaping the standoff hooked arms to provide the beveled standoff surfaces and wherein shaping the panel connector components to provide the beveled panel surfaces comprises shaping the panel hooked arms to provide the beveled panel surfaces. 17. A method according to claim 12 comprising extending the standoffs into the space into which the curable material is introduced prior to the introduction of curable material, such that the standoffs anchor the panels to the curable material as it cures to thereby provide the cladding. 18. A method according to claim 12 wherein, for each connection, deforming at least one of the panel connector component and the standoff connector component comprises creating restorative deformation forces that prevent relative movement between the panels and the standoff under the force of gravity. 19. A method for covering at least a portion of a surface of an existing structure with a repair structure, the method comprising: connecting a plurality of longitudinally and transversely extending panels to one another in edge-adjacent relationship;connecting a plurality of standoffs to the panels such that the standoffs extend from the panels toward the existing structure;introducing a curable material into a space between the panels and the existing structure, the curable material providing a repair structure cladded at least in part by the panels once cured;wherein connecting the plurality of standoffs to the panels comprises, for each connection, connecting a panel connector component of a corresponding panel and a standoff connector component of a corresponding standoff, wherein connecting the panel and standoff connector components comprises deforming at least one of the panel connector component and the standoff connector component;wherein connecting the panel and standoff connector components comprises exerting a force directed to create relative movement between the corresponding standoff and the corresponding panel in a direction generally orthogonal to the interior surface of the corresponding panel at the location of the panel connector component;wherein connecting the panel and standoff connector components comprises: providing each of the plurality of panel connector components with a pair of panel hooked arms which extend away from the interior surface of the panel and which curve back toward the interior surface of the panel at distal ends of the panel hooked arms to provide corresponding panel hook concavities;providing each of the plurality of standoff connector components with a pair of standoff hooked arms which extend away from a shaft of the standoff and which curve back toward the shaft of the standoff at distal ends of the standoff hooked arms to provide corresponding standoff hook concavities;for each connection, engaging at least one of the pair of panel hooked arms of the corresponding panel connector component with at least one of the pair of standoff hooked arms of the corresponding standoff connector component; andfor each panel connector component, shaping the pair of panel hooked arms to be transversely spaced apart from one another and wherein, for each connection, deforming at least one of the panel connector component and the standoff connector component comprises deforming the panel connector component and deforming the panel connector component comprises deforming the pair of panel hooked arms transversely toward one another and then allowing at least partial restoration of the pair of panel hooked arms transversely away from one another. 20. A method for covering at least a portion of a surface of an existing structure with a repair structure, the method comprising: connecting a plurality of longitudinally and transversely extending panels to one another in edge-adjacent relationship;connecting a plurality of standoffs to the panels such that the standoffs extend from the panels toward the existing structure;introducing a curable material into a space between the panels and the existing structure, the curable material providing a repair structure cladded at least in part by the panels once cured;wherein connecting the plurality of standoffs to the panels comprises, for each connection, connecting a panel connector component of a corresponding panel and a standoff connector component of a corresponding standoff, wherein connecting the panel and standoff connector components comprises deforming at least one of the panel connector component and the standoff connector component;wherein connecting the panel and standoff connector components comprises exerting a force directed to create relative movement between the corresponding standoff and the corresponding panel in a direction generally orthogonal to the interior surface of the corresponding panel at the location of the panel connector component;wherein connecting the panel and standoff connector components comprises: providing each of the plurality of panel connector components with a pair of panel hooked arms which extend away from the interior surface of the panel and which curve back toward the interior surface of the panel at distal ends of the panel hooked arms to provide corresponding panel hook concavities;providing each of the plurality of standoff connector components with a pair of standoff hooked arms which extend away from a shaft of the standoff and which curve back toward the shaft of the standoff at distal ends of the standoff hooked arms to provide corresponding standoff hook concavities;for each connection, engaging at least one of the pair of panel hooked arms of the corresponding panel connector component with at least one of the pair of standoff hooked arms of the corresponding standoff connector component; andfor each standoff connector component, shaping the pair of standoff hooked arms to be transversely spaced apart from one another and wherein, for each connection, deforming at least one of the panel connector component and the standoff connector component comprises deforming the standoff connector component and deforming the standoff connector component comprises deforming the pair of standoff hooked arms transversely apart from one another and then allowing at least partial restoration of the pair of standoff hooked arms transversely toward one another.
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