Mounting arrangement for panel veneer structures
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
E04B-001/38
E04C-005/00
E04B-001/41
출원번호
US-0798722
(2013-03-13)
등록번호
US-8839587
(2014-09-23)
발명자
/ 주소
Hohmann, Jr., Ronald P.
출원인 / 주소
Columbia Insurance Company
대리인 / 주소
Silber & Fridman
인용정보
피인용 횟수 :
15인용 특허 :
123
초록▼
A high-strength panel anchoring system for use in a cavity wall. A wall anchor is fixedly attached to an inner wythe. The wall anchor includes a set of pronged legs for insertion through insulation and securement against the inner wythe and a plate connecting the set of pronged legs and maintaining
A high-strength panel anchoring system for use in a cavity wall. A wall anchor is fixedly attached to an inner wythe. The wall anchor includes a set of pronged legs for insertion through insulation and securement against the inner wythe and a plate connecting the set of pronged legs and maintaining the legs at substantially right angles from the plate. The plate has an aperture to receive a fastener. A U-shaped separator is adjacent the wall anchor. A split veneer tie is adjacent the separator and opposite the wall anchor. The veneer tie includes a backplate having an aperture to receive a fastener and an insertion portion having a cavity end contiguous with the backplate and set at a substantially right angle thereto. The insertion portion has an insertion end having two legs set at opposite substantially right angles for interconnection with a plurality of panels forming an outer wythe.
대표청구항▼
1. A high-strength panel anchoring system for use in a cavity wall, said cavity wall having a wallboard inner wythe and insulation thereon and an outer wythe in a spaced apart relationship the one with the other and having a cavity therebetween, said outer wythe being formed from a plurality of pane
1. A high-strength panel anchoring system for use in a cavity wall, said cavity wall having a wallboard inner wythe and insulation thereon and an outer wythe in a spaced apart relationship the one with the other and having a cavity therebetween, said outer wythe being formed from a plurality of panels, said anchoring system comprising: a wall anchor fixedly attachable to said inner wythe, said wall anchor further comprising: a set of pronged legs for insertion through said insulation and securement against said inner wythe; and,a plate connecting said set of pronged legs and maintaining said legs at substantially right angles from said plate, said plate having an aperture to receive a fastener;a separator adjacent said wall anchor, said separator being substantially U-shaped;a split veneer tie adjacent said separator and opposite said wall anchor, said veneer tie further comprising: a backplate having an aperture to receive a fastener; and,an insertion portion having a cavity end contiguous with said backplate and set at a substantially right angle from said backplate and an insertion end for interconnection with said panels, said insertion end having two legs set at opposite substantially right angles from said cavity end and dimensioned for interconnection with said panels; and,a fastener for interconnection with said inner wythe. 2. A high-strength panel anchoring system of claim 1, wherein said insertion end legs are configured for insertion into notches in the panels to restrain the panels from lateral movement. 3. A high-strength panel anchoring system of claim 2, wherein the wall anchor, separator, and veneer tie are configured for use with panels selected from a group consisting of stone, composites, polymers, and metal. 4. A high-strength panel anchoring system of claim 3, wherein said separator is thermally-isolating and constructed of compressible nonconductive material. 5. A high-strength panel anchoring system of claim 1, wherein said fastener further comprises: a fastener head dimensioned to be larger than said backplate aperture;a fastener shaft contiguous with said fastener head; and,a fastener tip contiguous with said fastener shaft and opposite said fastener head. 6. A high-strength panel anchoring system of claim 5, wherein said fastener is self-tapping. 7. A high-strength panel anchoring system of claim 1, wherein said veneer tie and anchor are formed from sheetmetal selected from the group consisting of hot dipped galvanized steel, stainless steel and bright basic steel. 8. A high-strength panel anchoring system as set forth in claim 1, wherein the separator is constructed for fitting between and engaging both the wall anchor and the veneer tie to form a thermal barrier between the wall anchor and the veneer tie. 9. A high-strength panel anchoring system for use in a high-span cavity wall, said cavity wall having a wallboard inner wythe and insulation thereon and an outer wythe in a spaced apart relationship the one with the other and having a cavity in excess of four inches therebetween, said outer wythe formed from a plurality of panels, said anchoring system comprising: a sheetmetal wall anchor fixedly attachable to said inner wythe, said wall anchor further comprising: a set of pronged legs for insertion through said insulation and securement against said inner wythe; and,a plate connecting said set of pronged legs and maintaining said legs at substantially right angles from said plate, said plate having an aperture to receive a fastener, said aperture being an elongated slot;a separator adjacent said wall anchor, said separator substantially U-shaped;a split sheetmetal veneer tie adjacent said separator and opposite said wall anchor, said veneer tie further comprising: a backplate having an aperture to receive a fastener; and,an insertion portion having a cavity end contiguous with said backplate and set at a substantially right angle from said backplate and an insertion end for interconnection with said panels, said insertion end having two legs set at opposite substantially right angles from said cavity end and dimensioned for interconnection with said panels, said veneer tie dimensioned to limit movement of the outer wythe; and,a fastener for interconnection with said inner wythe. 10. A high-strength panel anchoring system of claim 9, wherein said insertion end legs are configured for insertion into notches in the panels to restrain the panels from lateral movement. 11. A high-strength panel anchoring system of claim 10, wherein the wall anchor, separator, and veneer tie are configured for use with panels selected from a group consisting of stone, composites, polymers, and metal. 12. A high-strength panel anchoring system of claim 11, wherein said separator is thermally-isolating and constructed of compressible nonconductive material. 13. A high-strength panel anchoring system of claim 9, wherein said fastener further comprises: a fastener head dimensioned to be larger than said backplate aperture;a fastener shaft contiguous with said fastener head; and,a fastener tip contiguous with said fastener shaft and opposite said fastener head. 14. A high-strength panel anchoring system of claim 13, wherein said anchoring system is configured for use with insulation is over three inches thick. 15. A high-strength panel anchoring system of claim 9, wherein said veneer tie and anchor are formed from a material selected from the group consisting of hot dipped galvanized steel, stainless steel and bright basic steel. 16. A high-strength panel anchoring system as set forth in claim 9, wherein the separator is constructed for fitting between and engaging both the wall anchor and the veneer tie to form a thermal barrier between the wall anchor and the veneer tie. 17. A high-strength panel anchoring system for use in a cavity wall, said cavity wall having a masonry inner wythe and insulation thereon and an outer wythe in a spaced apart relationship the one with the other and having a cavity therebetween, said outer wythe formed from a plurality of panels, said anchoring system comprising: a folded sheetmetal wall anchor fixedly attachable to said inner wythe, said wall anchor further comprising: a first pronged leg for insertion through said insulation and securement against said inner wythe;a second pronged leg for insertion through said insulation and securement against said inner wythe, said second pronged leg being substantially parallel to said first pronged leg; and,an apertured plate set at a substantially right angle from said first pronged leg and said second pronged leg, said plate joining said first pronged leg and said second pronged leg, said aperture being an elongated slot;a thermally-isolating separator set adjacent said wall anchor, said separator being substantially U-shaped and dimensioned to straddle said aperture;a split sheetmetal veneer tie adjacent said separator and opposite said wall anchor, said veneer tie further comprising: a backplate having an aperture to receive a fastener; and,an insertion portion having a cavity end contiguous with said backplate and set at a substantially right angle from said backplate and an insertion end for interconnection with said panels, said insertion end having two legs set at opposite substantially right angles from said cavity end and dimensioned for interconnection with said panels, said veneer tie being dimensioned to limit movement of the outer wythe; and,a fastener for interconnection with said inner wythe. 18. A high-strength panel anchoring system of claim 17, wherein said insertion end legs are configured for insertion into notches in the panels to restrain the panels from lateral movement. 19. A high-strength panel anchoring system of claim 18, wherein the anchoring system is configured for use with panels selected from a group consisting of stone, composites, polymers, and metal. 20. A high-strength panel anchoring system of claim 19, wherein said separator is constructed of compressible nonconductive material. 21. A high-strength panel anchoring system of claim 17, wherein said fastener further comprises: a fastener head dimensioned to be larger than said backplate aperture;a fastener shaft contiguous with said fastener head; and,a fastener tip contiguous with said fastener shaft and opposite said fastener head. 22. A high-strength panel anchoring system of claim 17, wherein said veneer tie and anchor are formed from a material selected from the group consisting of hot dipped galvanized steel, stainless steel and bright basic steel. 23. A high-strength panel anchoring system as set forth in claim 17, wherein the separator is constructed for fitting between and engaging both the wall anchor and the veneer tie to form a thermal barrier between the wall anchor and the veneer tie.
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