The present invention relates to the field of roof ventilation.
Most occupied buildings require venting. The type of venting employed depends on the kind of enclosure to be vented. For example, bathrooms containing showers typically have active vents with fans to vent steam outside. Other types of enclosures, such as attics, include a passive vent to allow for air flow from the enclosure to the atmosphere, to prevent moisture build-up. It is advantageous if the vent allows for the flow of air through the passage, without permitting moisture, such as rain or snow, to enter the enclosure through the passage. Structures are known that achieve this goal, but they can be relatively costly.
Forming one aspect of the invention is a cover for a tubular duct extending outwardly from a planar roof surface. This cover comprises a cap portion, a peripheral outer skirt and a closure element. The cap portion is disposed, in use, in outwardly spaced relation to said tubular duct, to define a headspace outside said tubular duct and an annular space surrounding the headspace. The peripheral outer skirt extends in use from the rim of the cap portion in surrounding, spaced relation to said duct. The closure element extends in use from the terminus of the outer skirt to said duct and is disposed in spaced relation to said roof surface. The peripheral outer skirt and the closure element have vanes formed therein, the vanes being oriented such that: precipitation driven by wind through the outer skirt into the interior of the cap portion is directed, as it passes through the outer skirt, towards the roof; and precipitation driven by wind through the closure element into the interior of the cap portion is directed, as it passes through the closure element, away from the duct.
According to other aspects of the invention: the closure element can include an annular bottom portion which extends to the terminus of the outer skirt and an inner skirt which extends in use from the duct to the inner periphery of the annular bottom portion; and the outer skirt can flare outwardly as it extends from the rim of the cap portion and the inner skirt flares outwardly as it extends to the annular bottom portion.
According to another aspect of the invention, the annular bottom portion of the closure element can be substantially planar and orientated substantially parallel to said roof surface in use.
According to another aspect of the invention, the vanes on the outer skirt can define air passages which are orientated substantially normally to the roof surface in use.
According to another aspect of the invention, the vanes on the annular bottom portion and on the inner skirt can define air passages which are orientated at approximately 60° to the roof surface in use.
According to other aspects of the invention: the cap portion, in plan view, can take the shape of a polygon selected from the group consisting of triangle, square, rectangle, pentagon, hexagon, heptagon and octagon; the cap portion can be molded, with the closure element, as a single piece of plastic, with the closure element being defined by a plurality of screen segments provided one for each side of said polygon, each segment extending from a respective side of the outer skirt and joined thereto along a respective fold line; and, in manufacture of the cap portion, the screen segments can be pivoted about the fold lines into position.
According to another aspect of the invention, the cap portion can include a plurality of studs to which the segments are snap-fitted during assembly of the cap portion.
According to other aspects of the invention: the polygon can be a rectangle; one of the sides of the outer skirt can be imperforate and the other three sides and the closure element can be substantially entirely defined by vanes; and, in use, the cover can be mounted with the one side of the skirt defining the top of the skirt and the other three sides of the outer skirt defining the bottom and sides of the outer skirt.
According to another aspect of the invention, the cover can form part of a roof vent which comprises, in addition to the cover, a base member. This roof vent is for use with a roof having an aperture formed in a surface thereof. The base member includes: a tubular part disposed atop said roof surface in use to lead into said aperture; and a substantially planar part extending peripherally around and from said tubular part and sealingly mounted in use to said roof surface to seal the tubular part to said roof; and The tubular part of the base member defines the tubular duct with which the cover is used.
According to another aspect of the invention, the base member can have, for each stud of the cap portion, a receiver, to which said each stud is engaged in snap-fit relation in use, to secure the cover to the base member.
According to another aspect of the invention, the tubular part of the base member can be a tube of rectangular cross-section.
According to another aspect of the invention, the roof vent can form part of a roof vent assembly, for use with a roof having an aperture formed in a surface thereof, the roof further having a pipe stack protruding at least toward said aperture. In addition to said roof vent, this roof vent assembly comprises an adapter. The adapter includes a body and a flapper. The body is disposed in use in snap-fit engagement with the base member to define a conduit leading through the tubular part, the conduit being adapted to receive said pipe stack. The flapper is operatively mounted to the body to allow said pipe stack to vent to atmosphere through the roof vent and to restrict flow through the conduit in the other direction.
The adapter itself forms another aspect of the invention.
According to another aspect of the invention, the body of the adapter can be adapted to receive, in snug-fitting relation, a 6″ diameter vent tube.
According to another aspect of the invention, the roof vent assembly can further comprise a coupler which is received in snug-fitting relation by the body in use and which is adapted to receive, in snug-fitting relation, a 4″ diameter vent tube.
The coupler itself can form another aspect of the invention.
According to another aspect of the invention: the body can include a planar structure which is orientated substantially coplanar with the planar part of the base member and occludes the end of the tubular part. As well, the snap-fit engagement can be provided by: one or more spring fingers which extend from the planar structure into and beyond the tubular part of the base member in use, the spring fingers being resiliently compressible, to enable the body to be fitted into the base member, and having detents which engage the lip of the tubular part at the operative position of the body; and backer flanges, which extend from the planar structure in substantially coplanar relation thereto and, in use, in overlying relation to the planar part of the base member, to lock the adapter in the operative position thereof in combination with the spring fingers.
A roof vent system forms yet another aspect of the invention. This system comprises base members, covers, adapter and covers.
Each base member includes: a tubular part disposed in use atop a roof surface to lead into an aperture defined in said roof surface; and a substantially planar part extending peripherally around and from said tubular part and sealingly mounted in use to said roof surface to seal the tubular part to said roof.
Each cover has: a cap portion disposed, in use, in outwardly spaced relation to a tubular part of a base member, to define a headspace outside said tubular part and an annular space surrounding the headspace; a peripheral outer skirt extending in use from the rim of the cap portion in surrounding, spaced relation to said tubular part; and a closure element which extends in use from the terminus of the outer skirt to said tubular part and is disposed in spaced relation to said roof surface. The peripheral outer skirt and the closure element have vanes formed therein, the vanes being oriented such that: precipitation driven by wind through the outer skirt into the interior of the cap portion is directed, as it passes through the outer skirt, towards the roof; and precipitation driven by wind through the closure element into the interior of the cap portion is directed, as it passes through the closure element, away from the tubular part.
Each adapter includes: a body disposed in use in snap-fit engagement with a respective base member to define a conduit leading through the tubular part of the base member; and a flapper operatively mounted to the body to define a flapper valve which allows flow to atmosphere and restricts opposing flow.
Each coupler has one end disposed, in use, in snug-fitting relation with a respective adapter body, and another end adapted to receive a stack.
Other advantages, features and characteristics of the present invention, as well as methods of operation and functions of the related elements of the structure, and the combination of parts and economies of manufacture, will become more apparent upon consideration of the following detailed description and the appended claims with reference to the accompanying drawings, the latter being briefly described hereinafter.
With general reference to
With regard to the base member 26 and cover 28, these are shown in
With reference to
Adjacent each corner of the tube 30 is a receiver 36. The receiver 36 is described fully below. The planar part 32 extends peripherally around and from said tubular part 30 and is sealingly mounted to said roof surface 24 to seal the tubular part 30 to said roof 22. The planar part 32 is sealed to the roof 22 in a conventional manner, as shown in
The cover 28 comprises a cap portion 38, a peripheral outer skirt 40 and a closure element 42.
Cap portion 38 includes a body 44 which is polygonal, specifically, rectangular in shape in plan, and also includes, for each receiver, a stud 46, shown in phantom in
The outer skirt 40 extends in use from the rim 52 of the cap portion 38 in surrounding, spaced relation to said duct 30, and flares outwardly as it so extends.
The closure element 42 is disposed in spaced relation to the planar part 32/roof surface 24 in use and includes an annular bottom portion 54 and an inner skirt 56. The bottom portion 54 is substantially planar and orientated substantially parallel to said roof surface 24/planar part 32 in use and extends to the terminus 58 of outer skirt 40.
The inner skirt 56 extends in use from the duct 30 to the inner periphery 60 of the annular bottom portion 54 and flares outwardly as it so extends.
Vanes 62 are defined in the outer skirt 40 and in the closure element 42. More particularly, one of the sides 40A of the outer skirt 40 is imperforate and the other three sides 40B,40C,40D of the outer skirt 40 and the closure element 42 are substantially entirely defined by vanes 62; stiffening ribs 64 define the balance of these structures and securely hold the vanes 62 together.
In use, the one side 40A defines the top of the outer skirt 40 and the other three sides 40B,40C,40D define the bottom and sides of the outer skirt 40. With general reference to FIGS. 7,8, the vanes 62 on the outer skirt 40 define air passages 66 which are orientated substantially perpendicular to the roof surface 24 in use. The vanes 62 on the bottom portion 54 and on the inner skirt 56 define air passages 68 which are orientated at approximately 60° to the roof surface 24 in use.
This orientation is such that: precipitation driven by wind through outer skirt 40 into the interior of the cap 38 is directed, as it passes through the outer skirt 40, downwardly towards the roof 22, as indicated by arrow A in
Without intending to be bound by theory, the combination of airflow towards the roof on the outer periphery of the cap, with the upward, radially outward airflow in the inner periphery, is believed to provides conditions conducive for an eddy flow to direct precipitation away from the duct notwithstanding that the vent itself may be employed in passive manner, i.e. with no fan positively driving airflow through the duct to the outside.
The one (top) side 40A of the outer skirt is substantially shielded from the wind, in that it faces generally towards the peak (not shown) of the roof 22. For this reason, there exists little likelihood of in-blown precipitation. The greatest risk of water infiltration in this region is through splashing, and for this reason, this side 40A of the outer skirt is made imperforate, to serve as an extended overhang.
To allow for the preform 70 to be conveniently released from the mold (not shown) without the need for removable cores, etc., and to avoid the need for sonic welding or the like, the closure element is defined by a plurality of segments 42A,42B,42C,42D provided one for each side of said polygon/rectangle and each including a pair of flaps. The flaps take two forms 72A and 72B.
Each segment 42A,42B,42C,42D extends from a respective side 40A,40B,40C,40D of the outer skirt and is joined thereto along a respective fold zone hinge 74A,74B,74C,74D such that, in manufacture of the apparatus, the segments 42A,42B,42C,42D are pivoted about the fold zones 74A,74B,74C,74D and snap-fit into position, by engagement of the flaps 72A and 72B into notches formed in studs 46. The different forms of flaps, i.e. 72A and 72B, allow for engagement with the notches notwithstanding the varied orientations of the studs 46.
Turning now to the adapter 80, this will be seen in
This specific arrangement permits the roof vent 20 of
Turning now finally to the coupler 82 and with reference to FIGS. 16,17, this will be seen to include one end 102 which, in use, is received in snug-fitting relation by the body 84, and another end 104 which is adapted to receive, in snug-fitting relation, a 4″ diameter vent tube 106 (shown in phantom in
While but various embodiments of the present invention have been herein shown and described, it will be understood that various changes in size and shape of parts may be made.
Firstly, whereas the illustrated cap portion is generally in the shape of a rectangle, the cap portion, in plan view, can take other shapes, for example, any polygon selected from the group consisting of triangle, square, rectangle, pentagon, hexagon, heptagon and octagon.
Further, whereas the tubular part of the base is rectangular in cross-section, other shapes may be used.
As well, whereas the roof vent of the illustrated embodiment includes a base member which defines a duct with which the apparatus is used, it will be evident that the base member is not strictly necessary; the apparatus according to the exemplary embodiment could, for example, be employed with a rectangular duct that protruded through a roof and which was sealed, by example, by flashing and tar.
Further, whereas the skirt portion illustrated departs at a substantial angle from the body of the cap portion, other geometries are contemplated. As well, whereas the illustrated cap portion is substantially rectilinear, this is also not necessary; bowl-shaped cap portions could also be used.
Accordingly, it should be understood that invention is to be limited only by the claims appended hereto, purposively construed.
This application is related to, and claims the benefit of priority from, U.S. Provisional Application Ser. No. 61/159,927, filed Mar. 13, 2009, and U.S. Provisional Application Ser. No. 61/267,891, filed Dec. 9, 2009, the disclosures of which is incorporated herein by reference in their entireties.
Number | Date | Country | |
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61159927 | Mar 2009 | US | |
61267891 | Dec 2009 | US |