Ember-resistant and flame-resistant roof ventilation system
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
A62C-002/06
F24F-011/00
E04D-013/17
F24F-013/08
F24F-007/02
E04D-001/30
F24F-011/33
출원번호
US-0688847
(2015-04-16)
등록번호
US-10105559
(2018-10-23)
발명자
/ 주소
Daniels, Gregory S.
출원인 / 주소
Daniels, Gregory S.
대리인 / 주소
Knobbe, Martens, Olson & Bear, LLP
인용정보
피인용 횟수 :
0인용 특허 :
114
초록▼
This application relates to ventilation systems, more particularly to roof ventilation systems that help to protect buildings against fires. The roof vent has an ember impedance structure that impedes the entry of flames and embers or other floating burning materials while still permitting sufficien
This application relates to ventilation systems, more particularly to roof ventilation systems that help to protect buildings against fires. The roof vent has an ember impedance structure that impedes the entry of flames and embers or other floating burning materials while still permitting sufficient air flow to adequately ventilate a building. Several configurations of vents employing baffle members and fire-resistant mesh material are described, which can substantially prevent the ingress of floating embers and flames.
대표청구항▼
1. A roof field vent, comprising: a first vent member comprising a first opening that permits air flow between a region below a roof and a region above the first vent member;a second vent member adapted to be in fluid communication with the region above the first vent member, the second vent member
1. A roof field vent, comprising: a first vent member comprising a first opening that permits air flow between a region below a roof and a region above the first vent member;a second vent member adapted to be in fluid communication with the region above the first vent member, the second vent member comprising a second opening permitting air flow between regions above and below the second vent member; andan ember and/or flame impedance structure connected to one of the first and second vent members so that air flowing through one of the first and second openings flows through the ember and/or flame impedance structure, the ember and/or flame impedance structure comprising: a first elongated upper baffle member comprising a top portion and at least one downwardly extending edge portion connected to the top portion, the top portion and the at least one downwardly extending edge portion being extended along a first longitudinal axis to form the upper baffle member;a second elongated upper baffle member; andan elongated lower baffle member comprising a bottom portion and at least one upwardly extending edge portion connected to the bottom portion, the bottom portion and the at least one upwardly extending edge portion being extended along a second longitudinal axis to form the lower baffle member;wherein the first and second longitudinal axes are substantially parallel to one another, and the edge portions of the upper and lower baffle members overlap by a distance L1 to form a narrow passage therebetween, such that at least some of the air that flows through the ember and/or flame impedance structure traverses a circuitous path partially formed by the narrow passage, wherein L1 is within a range of approximately 0.375 to 2.4 inches;wherein the at least one downwardly extending edge portion of the first upper baffle member comprises a pair of downwardly extending edge portions connected at opposing sides of the top portion;the at least one upwardly extending edge portion of the lower baffle member comprises a pair of upwardly extending edge portions connected at opposing sides of the bottom portion;wherein the second elongated upper baffle member comprises a top portion and a pair of downwardly extending edge portions connected to the top portion of the second upper baffle member, the top portion and edge portions of the second upper baffle member being extended along a third longitudinal axis to form the second upper baffle member, the first and third longitudinal axes being substantially parallel to one another;wherein one of the edge portions of the first upper baffle member and a first of the edge portions of the lower baffle member overlap to form said narrow passage therebetween; andone of the edge portions of the second upper baffle member and a second of the edge portions of the lower baffle member overlap to form a second narrow passage therebetween, such that at least some of the air flowing through the ember and/or flame impedance structure traverses a circuitous path partially formed by the second narrow passage. 2. The roof field vent of claim 1, wherein the longitudinal axes are each configured to be substantially parallel to a roof field when the vent is installed within the roof field. 3. The roof field vent of claim 1, wherein the narrow passages extend throughout a length of one of the upper and lower baffle members. 4. The roof field vent of claim 1, wherein at least one of the narrow passages has a width less than or approximately equal to 2.0 cm and greater than or approximately equal to 1.7 cm. 5. The roof field vent of claim 1, wherein: the lower baffle member comprises a first lower baffle member;the ember and/or flame impedance structure further comprising a second elongated lower baffle member comprising a bottom portion and a pair of upwardly extending edge portions connected to the bottom portion of the second lower baffle member, the bottom portion and edge portions of the second lower baffle member being extended along a fourth longitudinal axis to form the second lower baffle member, the second and fourth longitudinal axes being substantially parallel to one another;one of the edge portions of the first lower baffle member and a first of the edge portions of the upper baffle member overlap to form said narrow passage therebetween; andone of the edge portions of the second lower baffle member and a second of the edge portions of the upper baffle member overlap to form a second narrow passage therebetween, such that at least some of the air flowing through the ember and/or flame impedance structure traverses a circuitous path partially formed by the second narrow passage. 6. A roof field vent, comprising: a first vent member comprising a first opening that permits air flow between a region below a roof and a region above the first vent member;a second vent member adapted to be in fluid communication with the region above the first vent member, the second vent member comprising a second opening permitting air flow between regions above and below the second vent member; andan ember and/or flame impedance structure connected to one of the first and second vent members so that air flowing through one of the first and second openings flows through the ember and/or flame impedance structure, the ember and/or flame impedance structure comprising: an elongated upper baffle member comprising a top portion and at least one downwardly extending edge portion connected to the top portion, the top portion and the at least one downwardly extending edge portion being extended along a first longitudinal axis to form the upper baffle member;a first elongated lower baffle member comprising a bottom portion and at least one upwardly extending edge portion connected to the bottom portion, the bottom portion and the at least one upwardly extending edge portion being extended along a second longitudinal axis to form the first elongated lower baffle member; anda second elongated lower baffle member;wherein the first and second longitudinal axes are substantially parallel to one another, and the edge portions of the upper baffle member and first lower baffle member overlap by a distance L1 to form a narrow passage therebetween, such that at least some of the air that flows through the ember and/or flame impedance structure traverses a circuitous path partially formed by the narrow passage, wherein L1 is within a range of approximately 0.375 to 2.4 inches;wherein the at least one upwardly extending edge portion of the first lower baffle member comprises a pair of upwardly extending edge portions connected at opposing sides of the bottom portion;the at least one downwardly extending edge portion of the upper baffle member comprises a pair of downwardly extending edge portions connected at opposing sides of the top portion;the second elongated lower baffle member comprising a bottom portion and a pair of upwardly extending edge portions connected to the bottom portion of the second lower baffle member, the bottom portion and edge portions of the second lower baffle member being extended along a fourth longitudinal axis to form the second lower baffle member, the second and fourth longitudinal axes being substantially parallel to one another;wherein one of the edge portions of the first lower baffle member and a first of the edge portions of the upper baffle member overlap to form said narrow passage therebetween; andone of the edge portions of the second lower baffle member and a second of the edge portions of the upper baffle member overlap to form a second narrow passage therebetween, such that at least some of the air flowing through the ember and/or flame impedance structure traverses a circuitous path partially formed by the second narrow passage. 7. A roof field vent, comprising: a first vent member comprising a first opening that permits air flow between a region below a roof and a region above the first vent member;a second vent member adapted to be in fluid communication with the region above the first vent member, the second vent member comprising a second opening permitting air flow between regions above and below the second vent member; andan ember and/or flame impedance structure connected to one of the first and second vent members so that air flowing through one of the first and second openings flows through the ember and/or flame impedance structure, the ember and/or flame impedance structure comprising: a first elongated upper baffle member comprising a top portion and at least one downwardly extending edge portion connected to the top portion, the top portion and the at least one downwardly extending edge portion being extended along a first longitudinal axis to form the upper baffle member;a second elongated upper baffle member; andan elongated lower baffle member comprising a bottom portion and at least one upwardly extending edge portion connected to the bottom portion, the bottom portion and the at least one upwardly extending edge portion being extended along a second longitudinal axis to form the lower baffle member;wherein the first and second longitudinal axes are substantially parallel to one another, and the edge portions of the upper and lower baffle members overlap by a distance L1 to form a narrow passage therebetween, such that at least some of the air that flows through the ember and/or flame impedance structure traverses a circuitous path partially formed by the narrow passage;wherein the at least one downwardly extending edge portion of the first upper baffle member comprises a pair of downwardly extending edge portions connected at opposing sides of the top portion;the at least one upwardly extending edge portion of the lower baffle member comprises a pair of upwardly extending edge portions connected at opposing sides of the bottom portion;wherein the second elongated upper baffle member comprises a top portion and a pair of downwardly extending edge portions connected to the top portion of the second upper baffle member, the top portion and edge portions of the second upper baffle member being extended along a third longitudinal axis to form the second upper baffle member, the first and third longitudinal axes being substantially parallel to one another;wherein one of the edge portions of the first upper baffle member and a first of the edge portions of the lower baffle member overlap to form said narrow passage therebetween; andone of the edge portions of the second upper baffle member and a second of the edge portions of the lower baffle member overlap to form a second narrow passage therebetween, such that at least some of the air flowing through the ember and/or flame impedance structure traverses a circuitous path partially formed by the second narrow passage;at least one of the upper and lower baffle members configured to include at least one of the following:the top portion of the upper baffle members comprises a V-shape;the bottom portion of the lower baffle member comprises a V-shape;the upper baffle members comprising a downwardly facing inverted V-shape, and the lower baffle member comprising an upwardly facing V-shape; andthe downwardly extending edge portions of each of the upper baffle members connected to the corresponding top portion of each of the upper baffle members at an angle of approximately 90 degrees, and the upwardly extending edge portion of the lower baffle member connected to the bottom portion of the lower baffle member at an angle of approximately 90 degrees. 8. The roof field vent of claim 7, at least one of the narrow passages having a width less than or approximately equal to 2.0 cm. 9. The roof field vent of claim 8, wherein the width is greater than or approximately equal to 1.7 cm. 10. The roof field vent of claim 7, each of the narrow passages having a width less than or approximately equal to 2.0 CM. 11. The roof field vent of claim 10, wherein each of the narrow passages has a width greater than or approximately equal to 1.7 cm and less than or approximately equal to 2.0 cm. 12. The roof field vent of claim 7, wherein the vent provides a net free ventilating area with between about 15% and about 18% open area. 13. The roof field vent of claim 7, wherein the second member is configured to simulate an appearance of one or more roof tiles. 14. The roof field vent of claim 7, wherein the upper and lower baffle members, and the first and second vent members are configured to be oriented substantially parallel to the roof field when the vent is installed in the roof field. 15. The roof field vent of claim 7, wherein the baffle members substantially prevent the ingress of flames. 16. A building, comprising a roof having the roof field vent of claim 7. 17. A roof field vent, comprising: a first vent member comprising a first opening that permits air flow between a region below a roof and a region above the first vent member;a second vent member adapted to be in fluid communication with the region above the first vent member, the second vent member comprising a second opening permitting air flow between regions above and below the second vent member; andan ember and/or flame impedance structure connected to one of the first and second vent members so that air flowing through one of the first and second openings flows through the ember and/or flame impedance structure, the ember and/or flame impedance structure comprising: an elongated upper baffle member comprising a top portion and at least one downwardly extending edge portion connected to the top portion, the top portion and the at least one downwardly extending edge portion being extended along a first longitudinal axis to form the upper baffle member;a first elongated lower baffle member comprising a bottom portion and at least one upwardly extending edge portion connected to the bottom portion, the bottom portion and the at least one upwardly extending edge portion being extended along a second longitudinal axis to form the first elongated lower baffle member; anda second elongated lower baffle member;wherein the first and second longitudinal axes are substantially parallel to one another, and the edge portions of the upper baffle member and first lower baffle member overlap by a distance L1 to form a narrow passage therebetween, such that at least some of the air that flows through the ember and/or flame impedance structure traverses a circuitous path partially formed by the narrow passage;wherein the at least one upwardly extending edge portion of the first lower baffle member comprises a pair of upwardly extending edge portions connected at opposing sides of the bottom portion;the at least one downwardly extending edge portion of the upper baffle member comprises a pair of downwardly extending edge portions connected at opposing sides of the top portion;the second elongated lower baffle member comprising a bottom portion and a pair of upwardly extending edge portions connected to the bottom portion of the second lower baffle member, the bottom portion and edge portions of the second lower baffle member being extended along a fourth longitudinal axis to form the second lower baffle member, the second and fourth longitudinal axes being substantially parallel to one another;wherein one of the edge portions of the first lower baffle member and a first of the edge portions of the upper baffle member overlap to form said narrow passage therebetween; andone of the edge portions of the second lower baffle member and a second of the edge portions of the upper baffle member overlap to form a second narrow passage therebetween, such that at least some of the air flowing through the ember and/or flame impedance structure traverses a circuitous path partially formed by the second narrow passage;at least one of the upper and lower baffle members configured to include at least one of the following:the top portion of the upper baffle members comprises a V-shape;the bottom portion of the lower baffle member comprises a V-shape;the upper baffle members comprising a downwardly facing inverted V-shape, and the lower baffle member comprising an upwardly facing V-shape; andthe downwardly extending edge portions of each of the upper baffle members connected to the corresponding top portion of each of the upper baffle members at an angle of approximately 90 degrees, and the upwardly extending edge portion of the lower baffle member connected to the bottom portion of the lower baffle member at an angle of approximately 90 degrees. 18. A roof segment comprising: a portion of a roof deck comprising at least one roof deck opening;a first vent member installed in the roof deck at the roof deck opening, the first vent member comprising a first opening that permits air flow through the roof deck opening between a region below the roof deck and a region above the first vent member;a layer of roof cover elements positioned above the roof deck and engaging one another in a repeating pattern;a second vent member in fluid communication with the region above the first vent member, the second vent member comprising a second opening permitting air flow between regions above and below the second vent member, wherein the second vent member is positioned substantially within the layer of roof cover elements; andan ember and/or flame impedance structure connected to one of the first and second vent members so that air flowing through one of the first and second openings flows through the ember and/or flame impedance structure, the ember and/or flame impedance structure comprising: a first elongated upper baffle member comprising a top portion and at least one downwardly extending edge portion connected to the top portion, the top portion and the at least one downwardly extending edge portion being extended along a first longitudinal axis to form the upper baffle member;a second elongated upper baffle member; andan elongated lower baffle member comprising a bottom portion and at least one upwardly extending edge portion connected to the bottom portion, the bottom portion and the at least one upwardly extending edge portion being extended along a second longitudinal axis to form the lower baffle member;wherein the first and second longitudinal axes are substantially parallel to one another, and the edge portions of the upper and lower baffle members overlap by a distance L1 to form a narrow passage therebetween, such that at least some of the air that flows through the ember and/or flame impedance structure traverses a circuitous path partially formed by the narrow passage;wherein the at least one downwardly extending edge portion of the first upper baffle member comprises a pair of downwardly extending edge portions connected at opposing sides of the top portion;the at least one upwardly extending edge portion of the lower baffle member comprises a pair of upwardly extending edge portions connected at opposing sides of the bottom portion;wherein the second elongated upper baffle member comprises a top portion and a pair of downwardly extending edge portions connected to the top portion of the second upper baffle member, the top portion and edge portions of the second upper baffle member being extended along a third longitudinal axis to form the second upper baffle member, the first and third longitudinal axes being substantially parallel to one another;wherein one of the edge portions of the first upper baffle member and a first of the edge portions of the lower baffle member overlap to form said narrow passage therebetween; andone of the edge portions of the second upper baffle member and a second of the edge portions of the lower baffle member overlap to form a second narrow passage therebetween, such that at least some of the air flowing through the ember and/or flame impedance structure traverses a circuitous path partially formed by the second narrow passage, the first and second elongated upper baffle members, and the elongated lower baffle member being oriented substantially parallel to the roof deck. 19. The roof segment of claim 18, wherein the second vent member takes the place of one or more of the roof cover elements and engages surrounding roof cover elements in accordance with the repeating pattern. 20. The roof segment of claim 18, wherein the second vent member is positioned to cover the first opening. 21. The roof segment of claim 18, wherein the second vent member is laterally displaced with respect to the first vent member. 22. The roof segment of claim 18, wherein the region above the first vent member and the region below the second vent member are substantially open to a cavity between the roof cover elements and the roof deck. 23. The roof segment of claim 18, further comprising a third vent member positioned substantially within the roof deck, the third vent member comprising a third opening that permits air flow between the region below the roof and a region above the third vent member, the second vent member being in fluid communication with the region above the third vent member. 24. The roof segment of claim 18, further comprising a roof deck protective layer positioned between the roof deck and the roof cover elements, the protective layer comprising a protective layer opening substantially overlying the roof deck opening, the protective layer being formed of a fire resistant material. 25. The roof segment of claim 18, further comprising at least one support for the roof cover elements positioned below the roof cover elements, the support providing an air gap between the roof cover elements and the roof deck. 26. The roof segment of claim 25, wherein the at least one support is formed of a fire resistant material. 27. The roof segment of claim 25, wherein air traveling from the roof deck opening to the second opening flows through the air gap. 28. A roof segment comprising: a portion of a roof deck comprising at least one roof deck opening;a first vent member installed in the roof deck at the roof deck opening, the first vent member comprising a first opening that permits air flow through the roof deck opening between a region below the roof deck and a region above the first vent member;a layer of roof cover elements positioned above the roof deck and engaging one another in a repeating pattern;a second vent member in fluid communication with the region above the first vent member, the second vent member comprising a second opening permitting air flow between regions above and below the second vent member, wherein the second vent member is positioned substantially within the layer of roof cover elements; andan ember and/or flame impedance structure connected to one of the first and second vent members so that air flowing through one of the first and second openings flows through the ember and/or flame impedance structure, the ember and/or flame impedance structure comprising: an elongated upper baffle member comprising a top portion and at least one downwardly extending edge portion connected to the top portion, the top portion and the at least one downwardly extending edge portion being extended along a first longitudinal axis to form the upper baffle member;a first elongated lower baffle member comprising a bottom portion and at least one upwardly extending edge portion connected to the bottom portion, the bottom portion and the at least one upwardly extending edge portion being extended along a second longitudinal axis to form the first elongated lower baffle member; anda second elongated lower baffle member;wherein the first and second longitudinal axes are substantially parallel to one another, and the edge portions of the upper baffle member and first lower baffle member overlap by a distance L1 to form a narrow passage therebetween, such that at least some of the air that flows through the ember and/or flame impedance structure traverses a circuitous path partially formed by the narrow passage;wherein the at least one upwardly extending edge portion of the first lower baffle member comprises a pair of upwardly extending edge portions connected at opposing sides of the bottom portion;the at least one downwardly extending edge portion of the upper baffle member comprises a pair of downwardly extending edge portions connected at opposing sides of the top portion;the second elongated lower baffle member comprising a bottom portion and a pair of upwardly extending edge portions connected to the bottom portion of the second lower baffle member, the bottom portion and edge portions of the second lower baffle member being extended along a fourth longitudinal axis to form the second lower baffle member, the second and fourth longitudinal axes being substantially parallel to one another;wherein one of the edge portions of the first lower baffle member and a first of the edge portions of the upper baffle member overlap to form said narrow passage therebetween; andone of the edge portions of the second lower baffle member and a second of the edge portions of the upper baffle member overlap to form a second narrow passage therebetween, such that at least some of the air flowing through the ember and/or flame impedance structure traverses a circuitous path partially formed by the second narrow passage, the first and second elongated lower baffle members, and the elongated upper baffle member being oriented substantially parallel to the roof deck.
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