JP2008522059A - Baffle vent for S tile building - Google Patents

Abstract

  Air vents for tiled roofs are installed to ventilate through slits near the roof ridge. The vent has multiple layers of corrugated material that form multiple air passages for ventilation. In one embodiment, a baffle is attached to the vent member. In another embodiment, a plurality of vent members are attached to the upper panel. The top panel is formed from corrugated material and has a path that exposes the air passage for further ventilation, if desired. In these embodiments, a membrane may also be provided to prevent moisture, particles and insects from entering the roof. A cover member and / or a layer of cement material can also be used to further prevent unwanted moisture, particles or insect invasion. If used, the cover member is bonded to the lower panel in one embodiment, and is positioned below the baffle in another embodiment.

Description

Related Application This application claims the benefit of US Provisional Application No. 60 / 631,927, filed Nov. 30, 2004. This provisional application is incorporated herein by reference in its entirety.

The present invention relates to roof vents. More particularly, this invention relates to ridge vents for tiled roofs.

Background of the Invention In a properly ventilated roof, a constant air flow from the inside of the roof to the outside prevents moisture condensation inside the roof. On the other hand, if the roof is not well ventilated, at the persistent boundary between moist air and cold surfaces, for example the boundary between the decking inside the roof structure and the atmosphere. Condensation may occur. The condensed moisture often becomes a stain and damages the ceiling. In more serious cases, structural members such as beams and studs are always moist and as a result rotten. Furthermore, in a properly ventilated roof, the heated air from inside the roof is replaced with cooler air outside the roof. Thus, buildings with poorly ventilated roofs tend to get hot during the summer because the sun-heated air is trapped inside. These buildings are more expensive to maintain at a comfortable temperature than when the roof is properly ventilated.

SUMMARY OF THE INVENTION A vent system is provided and a method for making and using the vent system to allow ventilation in a tiled roof is provided.

  In one embodiment, the vent assembly of the present invention includes a vent member and a baffle attachable to the vent member. The vent member has a plurality of plies of corrugated material that form separate air passages or vents. The air passage is optional but extends substantially across the longitudinal axis of the vent member. The baffle has a first section and a second section, and the second section extends generally across the first section. The baffle is attached to the vent member. In use, at least a portion of the vent assembly is inserted into a slot near the tiled roof ridge and secured in place. A cover member having upper and lower concavo-convex portions extending from the upper surface can be used. The cover member is disposed such that the roof tile is received in the upper uneven portion, and the upper surface of the cover member is positioned below the second section of the baffle member. Instead of or in addition to the cover member, the solidified layer can be formed to seal the portion of the slot not occupied by the vent of the present invention.

  In another embodiment, the vent assembly of the present invention includes a vent, a membrane, and an adhesive member. The vent has an upper panel and at least one vent member. The upper panel and at least one vent member are formed from the corrugated material described above. The membrane is attached to the vent to prevent water, particles or insects from entering the roof through the vent. The adhesive member is attached to the lower surface of the vent so that the vent can be attached to the cover member described above.

A feature of this vent assembly is that it forms separate vents. The advantage of said feature is that separate vents efficiently promote ventilation between the inside and outside of the tile roof.
A feature of one embodiment of this vent assembly is that it has a plurality of plies of corrugated material that form a vent passage. An advantage of the above feature is that the vent assembly is efficiently formed by stacking the plies.

A feature of one embodiment of the vent assembly is that it has a baffle attached to the vent member. An advantage of this feature is that the baffle helps prevent water, particles or insects from entering the roof.
A feature of one embodiment of the present invention is that it has a breathable membrane attached to the vent. An advantage of the feature is that the membrane prevents intrusion into the roof through liquid moisture, particles and / or insect vents.

A feature of one embodiment of the present invention is that it has an adhesive member that can be attached to a vent. An advantage of the feature is that other devices can be attached to the adhesive member to prevent intrusion into the roof through liquid moisture, particles and / or insect vents.
These and other features and advantages of the present invention will become apparent from the following description when considered in conjunction with the accompanying drawings.
It will be appreciated that the drawings described above are merely illustrative of the invention and do not limit the invention.

DETAILED DESCRIPTION All dimensions and angles shown in connection with members of the accompanying drawings are not intended to depart from the design or intent of the embodiments of the invention without departing from or limiting the scope of the invention. It can be changed according to the intended use.

  A typical tiled roof is shown generally at 50 in FIG. The tiled roof 50 has a center beam 52 supported by rafters or cords 54 (when a truss is used). The rafter 54 is provided with a throwing or decking 56. Further, a cross member 58 is attached to the upper surface of the throwing tension 56. The S roof tile 60 is installed in a state supported by the cross member 58. In the ridge of the roof 50, that is, the top, the cap tile 62 is arranged so as to cover the last row of S tiles. As with all roofs, proper ventilation of tiled roofs is necessary for durability and functionality. However, many adverse effects occur when the roof 50 is not properly ventilated.

  When the present invention is suitably installed on the roof 50, a slit 64 is formed between the sacrificial tension 56 and the center beam 52. With reference to FIGS. 1-4, one embodiment of the vent assembly is generally designated 100 and includes a vent member 104 and a baffle 106. The vent member 104 then has at least one panel, eg, panels 110, 112, 114, 116. Panels 110 to 116 are made of a corrugated material made of synthetic resin. Suitable methods for forming this vent member are disclosed in US Pat. Nos. 5,947,817, 6,450,882 and 6,623,354. Each of these is incorporated herein by reference. One method is to score indented generally planar plies (described below) of sheets of corrugated material and fold along the notches to form separate connected panels. It is. In the illustrated embodiment, the air passage 118 is formed by the cooperation of a generally planar ply 120 and a curved ply 122 operatively disposed between the planar plies 120. .

  The vent assembly can be provided with a porous membrane that allows air to pass through. If provided, the membrane can be arranged in substantially the same manner as described in the previously referenced US Pat. No. 6,623,354. In the illustrated embodiment, the baffle 106 has first, second, and third sections 128, 130, and 132, respectively, that are separate or integrated. These sections are separated by first and second bends 134, 136. This vent assembly configuration is completed by securing the vent 104 to the first section 128 of the baffle 106 with adhesive, screws, rivets or other fasteners known in the art.

One material suitable for the vent member 104, high density polyethylene (e.g., 1,000 square feet (92.9m ²⁾ per 140-160 pounds (63.6-72.6 kg)) is a laminated board formed of a synthetic resin such as. In one embodiment, the vent member 104 is secured to the baffle 106 with an adhesive such as copolyamide. The baffle 106 is formed of a material such as a metal or a synthetic resin having necessary rigidity and elasticity.

  The vent is installed in a slot 64 formed in the roof, and then fixed to the headboard 52 by a fastener such as a nail or a screw. However, adhesives well known in the art can be used as well. When installed as shown and described herein, the second and third sections 130, 132 generally extend outward from the headboard 52. The cap roof 62 is then installed directly on the last row of S roof tiles. Alternatively, as shown in FIG. 4, the cover member 140 may be disposed on the S roof tile. One preferred embodiment of the cover member is described in US Pat. No. 6,598,353. This is hereby incorporated by reference. In one embodiment shown in FIGS. 5 and 6, the cover member 140 has alternating upper and lower concavo-convex portions 142, 144 extending from a generally straight upper surface 146. When placed as shown in FIG. 4, the upper surface 146 of the cover member 140 is inserted below the second and third sections 130, 132 of the baffle 106, with the upper concavo-convex portion on the roof tile. Is placed on and covers this. The cap roof tile 62 is then installed on the cover member 140. When arranged as shown in FIG. 4, the cover member 140 and the baffle 106 cooperate to seal the portion of the slit 64 not occupied by the vent member 104, thereby allowing moisture, particles and Prevent insects from entering.

  As shown in FIG. 3, another method of sealing the portion of the slit 64 that is not occupied by this vent is to pour a sealant such as mortar, grout, caulk, etc. into the seal 64 and unoccupy the sealant. It is to solidify in the part. The hardened mortar layer effectively prevents moisture, particles and insects from entering the interior of the roof of the present invention.

  When installed as shown, the vent assembly 100 allows air to circulate by allowing air to flow from the interior of the roof of the present invention to the exterior, where the air is vented as indicated by arrows 148. Flows through path 118.

  With reference to FIGS. 7-11, another embodiment of the vent assembly of the present invention is shown generally at 150. The vent assembly 150 includes a vent 152, a selectively provided membrane 154 and an adhesive member 156. The vent 152 also includes an upper panel 160 and at least one, for example, two vent members 162. Each vent member 162 has a plurality of vent panels 164. Referring to FIG. 11a, a path 168 is formed in the upper panel 160 in the vicinity of the inner surface 170 to further facilitate air flow. This is formed by the method as disclosed in US Pat. No. 6,623,354. This path 168 is generally coaxial with the top panel 160 as required. The path 168 is formed by removing a generally straight portion of the bottom ply 204 and at least a portion of the intermediate ply 206 located thereunder so that the path 168 passes through the bottom ply and into the middle ply. To the inner opening 208 of the additional air flow path 118.

  The membrane 154 is constructed from a filter cloth, such as polypropylene, as disclosed in US Pat. No. 6,623,354. However, suitable materials for other embodiments include moderately thin and breathable water resistant materials that are selectively formed into sheets. Woven and non-woven fabrics can be used in the same way as breathable and water-resistant membranes that are not fabrics. In one embodiment, the filter cloth of the present invention allows at least about 75% of the air that would otherwise flow through the filter to flow through the filter. Thus, the filter material or membrane includes a randomly placed synthetic polymer fiber spunbond nonwoven material. The breathable and water resistant woven or non-woven sheet of the present invention, or other membrane, can be applied to the bottom side of the vent. The filter fabric is bonded to the corrugated material near the peak of the vent and on the bottom surface of the stacked corrugated vent material. Alternatively, the filter fabric is bonded near the peak of the vent and inside or outside the stacked corrugated vent material so as to filter the air flow flowing through the vent member itself. When the ridge vent is applied to the roof ridge, the filter cloth forms a tent-like structure, so that accumulated rainwater is drained through the bottom layer of the stacked side vent portion of the ridge vent. The

  Referring to FIG. 11, this vent with a vent panel, or a vent with an upper panel and a vent panel, is formed from a sleep-resistant weathering material 200. This material has generally planar first and second plies 202, 204 and a curved (grooved) intermediate ply 206. The planar ply and intermediate ply are joined together to form an air passage 118 therebetween. Also, as shown in FIG. 12, another sleep lie material 210 has a plurality of cross walls or cross plies 212. These intersecting walls or plies generally extend generally across the planar plies 202, 204 to form an air passage 118 surrounded by the intersecting ply 212 and the planar plies 202, 204. FIG. 13 also shows how a two-ply material 220 having a generally planar ply 202 and a curved ply 206 is used. An air passage 118 is formed between the bent portion of the bent ply and the planar ply. When two or more layers of two-ply material are used, more air passages 118 'are formed between the contacting curved plies.

  In one embodiment, the top panel 160 and the vent panel 164 are formed in a manner substantially similar to that described above with respect to the panels 110-160 and the air passage 118. The upper panel 160 and the vent panel 164 are formed by a method called slit scoring, nick scoring and cutting. When slit scoring is used, scoring is performed in two opposing directions (FIG. 14). In the first orientation 250, the slit or score is extended through the upper planar ply and the intermediate ply below it. In the second orientation 252, the slit or notch extends through the lower planar ply and the intermediate ply above it. In the formation of the upper panel and the vent panel, the slit directions are staggered in the lateral direction so that the upper panel and the vent panel are clearly distinguished. These panels can be assembled as stacked vents by folding them into a Z-shape. For example, a slit in the first direction 250 is provided at each lateral edge of the upper panel 160, and a slit in the second direction 252 is provided laterally with respect to the slit in the first direction, whereby the first A pair of vent panels 164 are formed. The alternation of slit direction continues until all desired vent panels are formed. The first pair of vent panels 164 is folded below the upper panel 160 and folded above the second pair of vent panels 164 '.

  Alternatively, FIG. 15 shows nick scoring with a line 260 of perforations 262 to form the top panel and vent panel. The perforations extend through both the planar ply and the intermediate ply. The perforation line 260 is a series of these perforations 262. An unprocessed region 264 is provided between the perforations. In this way, the perforation line defines the upper panel and the vent panel, exposing the external opening to the air passage 118. When vents are formed using either slit scoring or nick scoring, by extending the fasteners into the adjacent and contacting upper panel and vent panel, the panel is secured to the desired assembly structure The assembly is completed.

  Referring to FIG. 16, the vent of the present invention is formed by cutting the upper panel 160 and the vent panel 164 and assembling them into a stacked structure by contacting them. If desired, a connector, such as staple 165, extends into the set of top panel and vent panel 164.

  The adhesive member 156 is adhered to the lower surface 174 of the lowermost vent panel 164 of each vent member 162. In other cases, the adhesive member 156 is adhered to the lower surface 174 of the vent panel 164 immediately prior to installation. As the adhesive member 156, there is an adhesive tape 178 having an adhesive on one side. The adhesive may also be covered with two strips 180 of release liner, for example. Each strip 180 longitudinally covers about half of the adhesive. When the adhesive member 156 is attached to the vent panel 164, one of the liner strips 180 is removed and, if necessary, the adhesive member is attached and the end 176 of the adhesive liner is the end of the top panel 160 and vent member 162. Aligned with the department. At the roof, the other liner strip is removed and the adhesive member is attached to the upper surface 146 of the cover member 140. Thereafter, the vent assembly 150 is installed. At this time, the vent member 162 is generally disposed so as to straddle the center beam 52, and the cover member is disposed so as to cover the S roof tile 60 as described above. After the vent assembly 150 is installed, the cap roof tile 62 is installed to rest on the vent assembly of the present invention. Ventilation between the inside of the roof 52 and the outside thereof is possible through vents formed in the vent panel 164 and the upper panel 160. The presence of the membrane 154 prevents moisture, particles and insects from entering, and furthermore, ventilation is hardly hindered.

  Since many modifications of the invention can be made without departing from the spirit of the invention, the scope of the invention is not limited to the illustrated and described embodiments. The scope of the invention is determined by the appended claims and their equivalents.

1 is a perspective view of one embodiment of a vent assembly according to the present invention. FIG. FIG. 2 is an end view of the baffle of the vent assembly of FIG. 1. It is sectional drawing of one side of the ridge of the tile roof in which the vent assembly of this invention was installed. It is sectional drawing of the ridge part of the tile roof in which the two vent assemblies of this invention were installed by another method. It is a perspective view of the cover member used as needed in the vent assembly of the present invention. It is a side view of the cover member of FIG. It is a perspective view of 2nd Embodiment of the vent assembly of this invention. FIG. 8 is a bottom view of the vent assembly of FIG. 7. FIG. 8 is a cross-sectional view of the vent assembly of FIG. 7 attached to the cover member of FIG. It is a fragmentary sectional view of a tile roof, and is a figure which shows a part of 2nd Embodiment of this vent assembly. FIG. 5 is a partial perspective view of a path formed in the upper panel of the vent of the present invention. 1 is a cross-sectional view of one embodiment of a weather resistant sleep lie material suitable for the vent of the present invention. FIG. FIG. 6 is a cross-sectional view of another embodiment of a weather resistant sleep lie material suitable for the vent of the present invention. FIG. 3 is a cross-sectional view of a weather resistant two-ply material suitable for the vent of the present invention. It is a side view which shows the vent of this invention of the state assembled after being formed by slit scoring. FIG. 4 is a perspective view showing the vent of the present invention in a state after being formed by nick scoring. It is a side view which shows the cut | disconnected vent member of the state assembled.

Claims (14)

A vent assembly for ventilating the roof,
A vent member having a longitudinal axis and having at least one layer of corrugated material;
A generally elastic baffle member attached to the vent member;
And a vent assembly having a pair of corrugated materials and a pair of first plies and at least one second ply disposed between the first plies to form a plurality of air passages.   The vent assembly of claim 1, wherein the first ply is generally planar.   3. A vent assembly according to claim 1 or claim 2, wherein the at least one second ply is generally curved.   At least one second ply is a plurality of intersecting walls extending across between the first plies, the at least one second ply extending between the first plies, preferably generally orthogonally; 3. A vent assembly according to claim 1 or claim 2.   The baffle member has a first section and a second section, the second section being formed from the first section by the first bend and extending generally laterally from the first section, wherein the baffle member first 5. A vent assembly according to any one of the preceding claims, wherein the two sections preferably extend away from the vent member.   The vent assembly of claim 5, wherein the baffle member further comprises a third section separated from the second section by a second bend.   6. The cover member of claim 5, further comprising a cover member installable on a lower side of the second section of the baffle member, the cover member having an upper surface and upper and lower uneven portions extending from the upper surface. Vent assembly. A vent assembly for ventilating the roof,
An upper panel having a longitudinal axis;
A pair of vent members attached to the lower surface of the upper panel;
A membrane attached to the upper panel or the vent member to prevent moisture ingress into the interior of the roof;
An adhesive member attached to the lower surface of each of the pair of vent members;
The upper panel is formed from a corrugated material and forms a plurality of air passages generally extending transversely to the longitudinal axis, each of the plurality of vent members being formed from a plurality of corrugated materials. A vent assembly having a panel, and the adhesive member generally having a flexible base, an adhesive provided on one surface of the base, and a release liner covering the adhesive.   The cover member further includes a cover member attached to each of the adhesive members, and the cover member preferably has an upper surface and upper and lower uneven portions extending from the upper surface, and the upper surface is the adhesive member. The vent assembly of claim 8, wherein the vent assembly is adhered to the member.   The corrugated material comprises a generally planar pair of first plies and at least one second ply disposed between the first plies, wherein the at least one second ply is preferably 10. A vent assembly according to claim 8 or claim 9, wherein the vent assembly is generally curved or has a plurality of intersecting walls that extend generally transverse to the first ply. A method for ventilating a roof having a ridge,
The roof is covered with tiles and has a slot formed in the vicinity of the ridge, the slot is in fluid communication between the inside and the outside of the roof, and the vent assembly according to any of the above claims, Arranged so that the air flowing out of the roof passes through the air passage, the method comprising:
Allowing the air to flow from the interior of the roof to the exterior of the roof via the vent passage of the vent assembly.   The method of claim 11, wherein a pair of slots are provided across the ridge, and air exiting from the interior of the roof flows through the vent passage of the vent assembly.   The method of claim 11, wherein the vent is at least partially disposed within the slot, or the vent is disposed over the slot. 14. The vent according to any one of claims 11 to 13, wherein the vent prevents moisture, particles or insects from entering the roof, and preferably a cover member, baffle or membrane prevents the penetration. Method.

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