This invention relates to a roofing drip edge device and methods of installing such a roofing drip edge device. A roofing drip edge device is provided that includes a metal edge secured (e.g., welded or pre-welded) to a flashing membrane (e.g., a TPO or PVC membrane) to offer labor savings, faster installation, and safety.
Currently, commercial roof contractors hand weld a roofing membrane with edge metal strips while standing at the edge of the roof at a job site to create a metal drip edge. This hand welding of the roofing membrane results in high inefficiency with respect to labor cost, safety, and ease of installation. There is thus a need for a roofing drip edge device and methods of installing such a roofing drip edge device that allows for a simple, easy to use, pre-fabricated product that will improve safety, decrease labor cost, and allow for ease in installation.
One embodiment of this invention pertains to a roofing drip edge device that includes (a) a drip edge comprising (i) an upper drip edge that is configured to be installed along an edge of a roofing surface, (ii) a lower drip edge that is approximately at a right angle to the upper drip edge, (iii) a first side edge, and (iv) a second side edge that is opposite to the first side edge, (b) a flashing strip member having (i) an upper edge, (ii) a lower edge that is opposite to the upper edge, (iii) a first side edge, and (iv) a second side edge that is opposite to the first side edge, wherein the flashing strip member is secured to the upper drip edge of the drip edge along at least the lower edge of the flashing strip member, such that the first side edge of the flashing strip member extends past the first side edge of the drip edge to provide a portion of the flashing strip member that overhangs the first side edge of the drip edge, and (c) a connecting member having (i) an upper edge, (ii) a lower edge, (iii) a first side edge, and (iv) a second side edge that is opposite to the first side edge, wherein at least a portion of the first side edge of the connecting member is secured to the drip edge along the second side edge of the drip edge, such that the second side edge of the connecting member extends past the second side edge of the drip edge to provide a portion of the connecting member that overhangs the second side edge of the drip edge.
In one embodiment, the portion of the flashing strip member that overhangs the first side edge of the drip edge is configured to be attached to a drip edge of another roofing drip edge device.
In one embodiment, the portion of the connecting member that overhangs the second side edge of the drip edge is configured to be attached to a drip edge of another roofing drip edge device.
In one embodiment, the drip edge includes a first bond breaker element that is attached to the first side edge of the drip edge. According to an embodiment, the first bond breaker element is configured to attach to a connecting member of another roofing drip edge device. In one embodiment, the first bond breaker element comprises at least one of foil tape or duct tape.
In one embodiment, the drip edge includes a second bond breaker element that is attached to the second side edge of the drip edge. According to an embodiment, the second bond breaker element is configured to attach to the connecting member of the roofing drip edge device. In one embodiment, the second bond breaker element comprises at least one of foil tape or duct tape.
In one embodiment, the upper edge of the flashing strip member extends past the upper drip edge of the drip edge to provide a portion of the flashing strip member that overhangs the upper drip edge of the drip edge. According to an embodiment, the portion of the flashing strip member that overhangs the upper drip edge of the drip edge is configured to be attached to the roofing surface. According to an embodiment, the portion of the flashing strip member that overhangs the upper drip edge of the drip edge is configured to be attached to the roofing surface via at least one of heat welding or robot welding. According to one embodiment, the robot welding can be conducted at 10-12 fpm.
In one embodiment, the upper edge of the flashing strip member extends past the upper drip edge of the drip edge by at least two inches.
In one embodiment, the portion of the flashing strip member that overhangs the upper drip edge of the drip edge extends from 2 inches to 4 inches past the upper drip edge of the drip edge.
In one embodiment, the first side edge of the flashing strip member extends past the first side edge of the drip edge by at least one inch.
In one embodiment, the portion of the flashing strip member that overhangs the first side edge of the drip edge extends from 2 inches to 4 inches past the first side edge of the drip edge.
In one embodiment, the upper drip edge of the drip edge includes (i) a top end that is not secured to the flashing strip member, and (ii) a bottom end that is secured to the lower edge of the flashing strip member. According to one embodiment, the flashing strip member is secured to the drip edge from the bottom end of the upper drip edge of the drip edge to a portion of the upper drip edge of the drip edge that is at least 2 inches from the top end of the upper drip edge of the drip edge.
In one embodiment, the upper edge of the connecting member extends past the upper drip edge of the drip edge to provide a portion of the connecting member that overhangs the upper drip edge of the drip edge. According to an embodiment, the portion of the connecting member that overhangs the upper drip edge of the drip edge is configured to be attached to the roofing surface. According to an embodiment, the portion of the connecting member that overhangs the upper drip edge of the drip edge is configured to be attached to the roofing surface via at least one of heat welding or robot welding. According to one embodiment, the robot welding can be conducted at 10-12 fpm.
In one embodiment, the upper edge of the connecting member extends past the upper drip edge of the drip edge by at least two inches.
In one embodiment, the portion of the connecting member that overhangs the upper drip edge of the drip edge extends from 1 inch to 4 inches past the upper drip edge of the drip edge.
In one embodiment, the second side edge of the connecting member extends past the second side edge of the drip edge by at least one inch.
In one embodiment, the portion of the connecting member that overhangs the second side edge of the drip edge extends from 1 inch to 4 inches past the second side edge of the drip edge.
In one embodiment, the drip edge is coated. In one embodiment, the drip edge comprises a metal. In another embodiment, the drip edge comprises a metal coated with at least one of a TPO membrane or a PVC membrane.
In one embodiment, the flashing strip member comprises at least one of a TPO membrane or a PVC membrane.
In one embodiment, the flashing strip member comprises (i) a six inch flashing strip member or (ii) an eight inch flashing strip member.
In one embodiment, the connecting member comprises at least one of a TPO membrane or a PVC membrane.
In one embodiment, the roofing surface comprises (i) a roof deck, (ii) roof insulation, (iii) a roofing membrane, or (iv) a combination of (i), (ii), and/or (iii).
In one embodiment, the lower drip edge of the drip edge is configured to be attached to a continuous hook strip that is installed onto the roofing surface.
Another embodiment of this invention pertains to a method of installing a roofing drip edge device on a roofing surface, with the method comprising obtaining a first roofing drip edge device that includes (a) a drip edge comprising (i) an upper drip edge that is configured to be installed along an edge of the roofing surface, (ii) a lower drip edge that is approximately at a right angle to the upper drip edge, (iii) a first side edge, and (iv) a second side edge that is opposite to the first side edge, (b) a flashing strip member having (i) an upper edge, (ii) a lower edge that is opposite to the upper edge, (iii) a first side edge, and (iv) a second side edge that is opposite to the first side edge, wherein the first side edge of the flashing strip member extends past the first side edge of the drip edge to provide a portion of the flashing strip member that overhangs the first side edge of the drip edge, and (c) a connecting member having (i) an upper edge, (ii) a lower edge, (iii) a first side edge, and (iv) a second side edge that is opposite to the first side edge, wherein the second side edge of the connecting member extends past the second side edge of the drip edge to provide a portion of the connecting member that overhangs the second side edge of the drip edge, attaching the first roofing drip edge device to the roofing surface, and attaching at least the upper edge of the flashing strip member to the roofing surface.
In one embodiment, the attaching of the at least the upper edge of the flashing strip member to the roofing surface is conducted via at least one of heat welding or robot welding. In another embodiment, the attaching of the flashing strip member to the roofing surface is conducted via robot welding at 10 to 12 fpm.
In one embodiment, the flashing strip member is secured to the upper drip edge of the drip edge along at least the lower edge of the flashing strip member.
In another embodiment, the flashing strip member is not secured to the drip edge.
In one embodiment, at least a portion of the first side edge of the connecting member is secured to the drip edge along the second side edge of the drip edge.
In another embodiment, the connecting member is not secured to the drip edge.
In one embodiment, the method further includes attaching at least the upper edge of the connecting member to the roofing surface. In one embodiment, the attaching of the at least the upper edge of the connecting member to the roofing surface is conducted via at least one of heat welding or robot welding. In another embodiment, the attaching of the at least the upper edge of the connecting member to the roofing surface is conducted via robot welding at 10 to 12 fpm.
In one embodiment, the method further includes attaching a continuous hook strip to the roofing surface, such that at least the lower drip edge of the drip edge of the roofing drip edge device attaches to the continuous hook strip.
In one embodiment, the attaching of the roofing drip edge device to the roofing surface is conducted by fastening the roofing drip edge device to the roofing surface with fasteners.
In one embodiment, the method further includes obtaining a second roofing drip edge device that includes (i) a drip edge, (ii) a flashing strip member, and (iii) a connecting member, attaching the second roofing drip edge device to the roofing surface, such that the second roofing drip edge device is positioned adjacent to the first roofing drip edge device, and attaching the portion of the flashing strip member that overhangs the first side edge of the drip edge of the first roofing drip edge device to the connecting member of the second roofing drip edge device.
In one embodiment, the method further includes attaching the connecting member of the second roofing drip edge device to the drip edge of the first roofing drip edge device.
In one embodiment, the flashing strip member of the second roofing drip edge device is secured to the drip edge of the second roofing drip edge device.
In another embodiment, the flashing strip member of the second roofing drip edge device is not secured to the drip edge of the second roofing drip edge device.
In one embodiment, the connecting member of the second roofing drip edge device is secured to the drip edge of the second roofing drip edge device.
In another embodiment, the connecting member of the second roofing drip edge device is not secured to the drip edge of the second roofing drip edge device.
In one embodiment, the attaching of the second roofing drip edge device to the roofing surface is conducted such that the second roofing drip edge device is positioned adjacent to the first roofing drip edge device with an expansion space provided between the first roofing drip edge device and the second roofing drip edge device. In one embodiment, the expansion space provided between the first roofing drip edge device and the second roofing drip edge device is less than 1 inch in length. In one embodiment, the expansion space provided between the first roofing drip edge device and the second roofing drip edge device is ¼ inch in length.
In one embodiment, the method further includes attaching at least an upper edge of the flashing strip member of the second roofing drip edge device to the roofing surface. In one embodiment, the attaching of the at least an upper edge of the flashing strip member of the second roofing drip edge device to the roofing surface is conducted via at least one of heat welding or robot welding. In another embodiment, the attaching of the at least an upper edge of the flashing strip member of the second roofing drip edge device to the roofing surface is conducted via robot welding at 10 to 12 fpm.
In one embodiment, the method further includes attaching at least an upper edge of the connecting member of the second roofing drip edge device to the roofing surface. In one embodiment, the attaching of the at least an upper edge of the connecting member of the second roofing drip edge device to the roofing surface is conducted via at least one of heat welding or robot welding. In another embodiment, the attaching of the at least an upper edge of the connecting member of the second roofing drip edge device to the roofing surface is conducted via robot welding at 10 to 12 fpm.
In one embodiment, the drip edge of the first roofing drip edge device includes a bond breaker element that is attached to the first side edge of the drip edge of the first roofing drip edge device. According to an embodiment, the method further includes attaching the bond breaker element of the drip edge of the first roofing drip edge device to the connecting member of the second roofing drip edge device. In one embodiment, the bond breaker element of the drip edge of the first roofing drip edge device comprises at least one of foil tape or duct tape.
In one embodiment, the drip edge of the second roofing drip edge device includes a bond breaker element that is attached to a side edge of the drip edge of the second roofing drip edge device. According to an embodiment, the method further includes attaching the bond breaker element of the drip edge of the second roofing drip edge device to the connecting member of the second roofing drip edge device. In one embodiment, the second bond breaker element comprises at least one of foil tape or duct tape.
In one embodiment, the drip edge is coated. In one embodiment, the drip edge comprises a metal. In another embodiment, the drip edge comprises a metal coated with at least one of a TPO membrane or a PVC membrane.
In one embodiment, the flashing strip member comprises at least one of a TPO membrane or a PVC membrane.
In one embodiment, the flashing strip member comprises (i) a six inch flashing strip member or (ii) an eight inch flashing strip member.
In one embodiment, the connecting member comprises at least one of a TPO membrane or a PVC membrane.
In one embodiment, the roofing surface comprises (i) a roof deck, (ii) roof insulation, (iii) a roofing membrane, or (iv) a combination of (i), (ii), and/or (iii).
Another embodiment of this invention pertains to a roofing drip edge device that includes (a) a coated drip edge comprising (i) an upper drip edge that is configured to be installed along an edge of a roofing surface, (ii) a lower drip edge that is approximately at a right angle to the upper drip edge, (iii) a first side edge, (iv) a second side edge that is opposite to the first side edge, and (v) a first bond breaker element that is attached to the first side edge of the coated drip edge, (b) a flashing strip member having (i) an upper edge, (ii) a lower edge that is opposite to the upper edge, (iii) a first side edge, and (iv) a second side edge that is opposite to the first side edge, wherein the flashing strip member is secured to the upper drip edge of the coated drip edge along at least the lower edge of the flashing strip member, such that the first side edge of the flashing strip member extends past the first side edge of the coated drip edge to provide a portion of the flashing strip member that overhangs the first side edge of the coated drip edge, and (c) a connecting member having (i) an upper edge, (ii) a lower edge, (iii) a first side edge, and (iv) a second side edge that is opposite to the first side edge, wherein at least a portion of the first side edge of the connecting member is secured to the coated drip edge along the second side edge of the coated drip edge, such that the second side edge of the connecting member extends past the second side edge of the coated drip edge to provide a portion of the connecting member that overhangs the second side edge of the coated drip edge.
Yet another embodiment of this invention pertains to a roofing drip edge device that includes (a) a drip edge comprising (i) an upper drip edge that is configured to be installed along an edge of a roofing surface, (ii) a lower drip edge that is approximately at a right angle to the upper drip edge, (iii) a first side edge, and (iv) a second side edge that is opposite to the first side edge, (b) a flashing strip member having (i) an upper edge, (ii) a lower edge that is opposite to the upper edge, (iii) a first side edge, and (iv) a second side edge that is opposite to the first side edge, wherein the first side edge of the flashing strip member extends past the first side edge of the drip edge to provide a portion of the flashing strip member that overhangs the first side edge of the drip edge, and (c) a connecting member having (i) an upper edge, (ii) a lower edge, (iii) a first side edge, and (iv) a second side edge that is opposite to the first side edge, wherein the second side edge of the connecting member extends past the second side edge of the drip edge to provide a portion of the connecting member that overhangs the second side edge of the drip edge.
In one embodiment, the flashing strip member is secured to the upper drip edge of the drip edge along at least the lower edge of the flashing strip member.
In another embodiment, the flashing strip member is not secured to the drip edge.
In one embodiment, at least a portion of the first side edge of the connecting member is secured to the drip edge along the second side edge of the drip edge.
In another embodiment, the connecting member is not secured to the drip edge.
Another embodiment of this invention pertains to kit comprising a plurality of roofing drip edge devices, each roofing drip edge device of the plurality of roofing drip edge devices including (a) a drip edge comprising (i) an upper drip edge that is configured to be installed along an edge of a roofing surface, (ii) a lower drip edge that is approximately at a right angle to the upper drip edge, (iii) a first side edge, and (iv) a second side edge that is opposite to the first side edge, (b) a flashing strip member having (i) an upper edge, (ii) a lower edge that is opposite to the upper edge, (iii) a first side edge, and (iv) a second side edge that is opposite to the first side edge, wherein the first side edge of the flashing strip member extends past the first side edge of the drip edge to provide a portion of the flashing strip member that overhangs the first side edge of the drip edge, and (c) a connecting member having (i) an upper edge, (ii) a lower edge, (iii) a first side edge, and (iv) a second side edge that is opposite to the first side edge, wherein the second side edge of the connecting member extends past the second side edge of the drip edge to provide a portion of the connecting member that overhangs the second side edge of the drip edge.
In one embodiment, the flashing strip member is secured to the upper drip edge of the drip edge along at least the lower edge of the flashing strip member.
In another embodiment, the flashing strip member is not secured to the drip edge.
In one embodiment, at least a portion of the first side edge of the connecting member is secured to the drip edge along the second side edge of the drip edge.
In another embodiment, the connecting member is not secured to the drip edge.
For a more complete understanding of the invention and the advantages thereof, reference is made to the following descriptions, taken in conjunction with the accompanying figures, in which:
Among those benefits and improvements that have been disclosed, other objects and advantages of this disclosure will become apparent from the following description taken in conjunction with the accompanying figures. Detailed embodiments of the present disclosure are disclosed herein; however, it is to be understood that the disclosed embodiments are merely illustrative of the disclosure that may be embodied in various forms. In addition, each of the examples given regarding the various embodiments of the disclosure are intended to be illustrative, and not restrictive.
Throughout the specification and claims, the following terms take the meanings explicitly associated herein, unless the context clearly dictates otherwise. The phrases “in one embodiment,” “in an embodiment,” and “in some embodiments” as used herein do not necessarily refer to the same embodiment(s), though they may. Furthermore, the phrases “in another embodiment” and “in some other embodiments” as used herein do not necessarily refer to a different embodiment, although they may. All embodiments of the disclosure are intended to be combinable without departing from the scope or spirit of the disclosure.
As used herein, the term “based on” is not exclusive and allows for being based on additional factors not described, unless the context clearly dictates otherwise. In addition, throughout the specification, the meaning of “a,” “an,” and “the” include plural references. The meaning of “in” includes “in” and “on.”
As used herein, terms such as “comprising,” “including,” and “having” do not limit the scope of a specific claim to the materials or steps recited by the claim.
As used herein, terms such as “consisting of” and “composed of” limit the scope of a specific claim to the materials and steps recited by the claim.
All prior patents, publications, and test methods referenced herein are incorporated by reference in their entireties.
As used herein, the term “roofing surface” includes, but is not limited to, a roof deck or substrate, roof insulation, a roofing membrane, e.g., waterproofing membranes, a continuous hook strip, cover board, underlayment, shingles, tiles, and combinations thereof.
As used herein, the term “TPO” means thermoplastic polyolefin.
As used herein, the term “PVC” means polyvinyl chloride.
As used herein, the term “fpm” means feet per minute.
As used herein, the terms “pre-welded” or “pre-fabricated” mean that a flashing strip member or membrane is welded or secured to a drip edge during manufacturing of the roofing drip edge device, such that the flashing strip member or membrane is welded or secured to the drip edge prior to installation of the drip edge on to a roofing surface.
As used herein, the term “secured” means welded (including pre-welded), adhered, attached, mechanically attached, fastened, or any other means to attach two components together.
As used herein, the terms “attaching” or “attached” means welding or welded, adhering or adhered, mechanically attaching or mechanically attached, fastening or fastened, or any other means to attach two components together.
As used herein, the term “approximately” means plus or minus ten degrees.
Currently, commercial roof contractors hand weld a roofing membrane with edge metal strips while standing at the edge of the roof at a job site to create a metal drip edge. For example, to achieve a commercial workmanship warranty, the contractor is required, at roof perimeters, to terminate the roof with ANSI/SPRI/FM 4435/ES-1 compliant details. (Sec, e.g., ES-1, “Wind Test Design Standard for Edge Systems Used with Low Slope Roofing Systems,” which is a standard addressing wind resistances testing of edge metal systems, except gutters, used to secure the perimeters of low-slope membrane roof systems.) Basically, the roofing membrane is required to wrap over the roof edge with an edge metal fastened over the top. This detail requires the edge metal to then be stripped in to waterproof the metal and fasteners. This can be done in a few different ways. One method is to use an adhered cover strip. Another method is to use TPO clad metal (on TPO systems) or PVC clad metal (for PVC systems) and heat weld a flashing strip to the metal and membrane. A few manufacturers allow the field membrane to be welded to the top of the clad metal, which is not ES-1 compliant. In that case, the roof perimeter is secured by only the bottom half of the membrane, which is not securing the reinforcing scrim layer. Thus, to achieve the ES-1 compliant details requires a considerable amount of labor by the installer, while working at the edge of the roof. This is tedious, slow, and dangerous. Accordingly, the current methods of creating a metal drip edge result in high inefficiency in labor cost, safety, and case of installation.
For example,
As further shown in
Thus, the purpose of the current invention is to offer a simple, easy to use, pre-fabricated product that will improve safety, labor cost, and case of installation in a significant way. In this regard, a new pre-fabricated product is proposed that provides a pre-welded or secured TPO/PVC membrane to edge metal that will offer labor savings, faster installation, and safety. Thus, the proposed pre-fabricated product will address the current methods of hand welding single-ply TPO or PVC membranes with edge metal at the job site, which results in unsafe conditions for the installers, high labor cost, and low productivity.
One embodiment of this invention pertains to a roofing drip edge device that includes (a) a drip edge comprising (i) an upper drip edge that is configured to be installed along an edge of a roofing surface, (ii) a lower drip edge that is approximately at a right angle to the upper drip edge, (iii) a first side edge, and (iv) a second side edge that is opposite to the first side edge, (b) a flashing strip member having (i) an upper edge, (ii) a lower edge that is opposite to the upper edge, (iii) a first side edge, and (iv) a second side edge that is opposite to the first side edge, wherein the first side edge of the flashing strip member extends past the first side edge of the drip edge to provide a portion of the flashing strip member that overhangs the first side edge of the drip edge, and (c) a connecting member having (i) an upper edge, (ii) a lower edge, (iii) a first side edge, and (iv) a second side edge that is opposite to the first side edge, wherein the second side edge of the connecting member extends past the second side edge of the drip edge to provide a portion of the connecting member that overhangs the second side edge of the drip edge.
In one embodiment, the flashing strip member is secured (e.g., welded or pre-welded) to the upper drip edge of the drip edge along at least the lower edge of the flashing strip member.
In another embodiment, the flashing strip member is not secured to the drip edge.
In one embodiment, at least a portion of the first side edge of the connecting member is secured (e.g., welded or pre-welded) to the drip edge along the second side edge of the drip edge.
In another embodiment, the connecting member is not secured to the drip edge.
In one embodiment, the lower drip edge 212 of the drip edge 210 is configured to be attached to a continuous hook strip that is installed onto the roofing surface (see, e.g., continuous hook strip 108 of
In one embodiment, the portion (see portion “A”) of the flashing strip member 230 that overhangs the first side edge 214 of the drip edge 210 is configured to be attached to a drip edge of another roofing drip edge device (not shown).
In one embodiment, the first side edge 235 of the flashing strip member 230 extends past the first side edge 214 of the drip edge 210 by at least ½ inch. In one embodiment, the first side edge 235 of the flashing strip member 230 extends past the first side edge 214 of the drip edge 210 by at least one inch. In one embodiment, the first side edge 235 of the flashing strip member 230 extends past the first side edge 214 of the drip edge 210 by at least two inches. In one embodiment, the first side edge 235 of the flashing strip member 230 extends past the first side edge 214 of the drip edge 210 by at least three inches. In one embodiment, the first side edge 235 of the flashing strip member 230 extends past the first side edge 214 of the drip edge 210 by at least four inches.
In one embodiment, the portion (see portion “A”) of the flashing strip member 230 that overhangs the first side edge 214 of the drip edge 210 extends from ½ inch to 4 inches past the first side edge 214 of the drip edge 210. In one embodiment, the portion (see portion “A”) of the flashing strip member 230 that overhangs the first side edge 214 of the drip edge 210 extends from 1 inch to 4 inches past the first side edge 214 of the drip edge 210. In one embodiment, the portion (see portion “A”) of the flashing strip member 230 that overhangs the first side edge 214 of the drip edge 210 extends from 2 inches to 4 inches past the first side edge 214 of the drip edge 210. In one embodiment, the portion (see portion “A”) of the flashing strip member 230 that overhangs the first side edge 214 of the drip edge 210 extends from 3 inches to 4 inches past the first side edge 214 of the drip edge 210. In one embodiment, the portion (see portion “A”) of the flashing strip member 230 that overhangs the first side edge 214 of the drip edge 210 extends from ½ inch to 3 inches past the first side edge 214 of the drip edge 210. In one embodiment, the portion (see portion “A”) of the flashing strip member 230 that overhangs the first side edge 214 of the drip edge 210 extends from 1 inch to 3 inches past the first side edge 214 of the drip edge 210. In one embodiment, the portion (see portion “A”) of the flashing strip member 230 that overhangs the first side edge 214 of the drip edge 210 extends from 2 inches to 3 inches past the first side edge 214 of the drip edge 210. In one embodiment, the portion (see portion “A”) of the flashing strip member 230 that overhangs the first side edge 214 of the drip edge 210 extends from ½ inch to 2 inches past the first side edge 214 of the drip edge 210. In one embodiment, the portion (see portion “A”) of the flashing strip member 230 that overhangs the first side edge 214 of the drip edge 210 extends from 1 inch to 2 inches past the first side edge 214 of the drip edge 210.
In one embodiment, the portion (see portion “C”) of the connecting member 220 (or membrane) that overhangs the second side edge 215 of the drip edge 210 is configured to be attached to a drip edge of another roofing drip edge device (not shown).
In one embodiment, the second side edge 226 of the connecting member 220 extends past the second side edge 215 of the drip edge 210 by at least ½ inch. In one embodiment, the second side edge 226 of the connecting member 220 extends past the second side edge 215 of the drip edge 210 by at least one inch. In one embodiment, the second side edge 226 of the connecting member 220 extends past the second side edge 215 of the drip edge 210 by at least two inches. In one embodiment, the second side edge 226 of the connecting member 220 extends past the second side edge 215 of the drip edge 210 by at least three inches. In one embodiment, the second side edge 226 of the connecting member 220 extends past the second side edge 215 of the drip edge 210 by at least four inches.
In one embodiment, the portion (see portion “C”) of the connecting member 220 that overhangs the second side edge 215 of the drip edge 210 extends from ½ inch to 4 inches past the second side edge 215 of the drip edge 210. In one embodiment, the portion (see portion “C”) of the connecting member 220 that overhangs the second side edge 215 of the drip edge 210 extends from 1 inch to 4 inches past the second side edge 215 of the drip edge 210. In one embodiment, the portion (see portion “C”) of the connecting member 220 that overhangs the second side edge 215 of the drip edge 210 extends from 2 inches to 4 inches past the second side edge 215 of the drip edge 210. In one embodiment, the portion (see portion “C”) of the connecting member 220 that overhangs the second side edge 215 of the drip edge 210 extends from 3 inches to 4 inches past the second side edge 215 of the drip edge 210. In one embodiment, the portion (see portion “C”) of the connecting member 220 that overhangs the second side edge 215 of the drip edge 210 extends from ½ inch to 3 inches past the second side edge 215 of the drip edge 210. In one embodiment, the portion (see portion “C”) of the connecting member 220 that overhangs the second side edge 215 of the drip edge 210 extends from 1 inch to 3 inches past the second side edge 215 of the drip edge 210. In one embodiment, the portion (see portion “C”) of the connecting member 220 that overhangs the second side edge 215 of the drip edge 210 extends from 2 inches to 3 inches past the second side edge 215 of the drip edge 210. In one embodiment, the portion (see portion “C”) of the connecting member 220 that overhangs the second side edge 215 of the drip edge 210 extends from ½ inch to 2 inches past the second side edge 215 of the drip edge 210. In one embodiment, the portion (see portion “C”) of the connecting member 220 that overhangs the second side edge 215 of the drip edge 210 extends from 1 inch to 2 inches past the second side edge 215 of the drip edge 210.
As further shown in
As also shown in the embodiment of
In one embodiment, the upper edge 232 of the flashing strip member 230 extends past the upper drip edge 211 of the drip edge 210 by at least ½ inch. In one embodiment, the upper edge 232 of the flashing strip member 230 extends past the upper drip edge 211 of the drip edge 210 by at least one inch. In one embodiment, the upper edge 232 of the flashing strip member 230 extends past the upper drip edge 211 of the drip edge 210 by at least two inches. In one embodiment, the upper edge 232 of the flashing strip member 230 extends past the upper drip edge 211 of the drip edge 210 by at least three inches. In one embodiment, the upper edge 232 of the flashing strip member 230 extends past the upper drip edge 211 of the drip edge 210 by at least four inches.
In one embodiment, the portion (see portion “B”) of the flashing strip member 230 that overhangs the upper drip edge 211 of the drip edge 210 extends from ½ inch to 4 inches past the upper drip edge 211 of the drip edge 210. In one embodiment, the portion (see portion “B”) of the flashing strip member 230 that overhangs the upper drip edge 211 of the drip edge 210 extends from 1 inch to 4 inches past the upper drip edge 211 of the drip edge 210. In one embodiment, the portion (see portion “B”) of the flashing strip member 230 that overhangs the upper drip edge 211 of the drip edge 210 extends from 2 inches to 4 inches past the upper drip edge 211 of the drip edge 210. In one embodiment, the portion (see portion “B”) of the flashing strip member 230 that overhangs the upper drip edge 211 of the drip edge 210 extends from 3 inches to 4 inches past the upper drip edge 211 of the drip edge 210. In one embodiment, the portion (see portion “B”) of the flashing strip member 230 that overhangs the upper drip edge 211 of the drip edge 210 extends from ½ inch to 3 inches past the upper drip edge 211 of the drip edge 210. In one embodiment, the portion (see portion “B”) of the flashing strip member 230 that overhangs the upper drip edge 211 of the drip edge 210 extends from 1 inch to 3 inches past the upper drip edge 211 of the drip edge 210. In one embodiment, the portion (see portion “B”) of the flashing strip member 230 that overhangs the upper drip edge 211 of the drip edge 210 extends from 2 inches to 3 inches past the upper drip edge 211 of the drip edge 210. In one embodiment, the portion (see portion “B”) of the flashing strip member 230 that overhangs the upper drip edge 211 of the drip edge 210 extends from ½ inch to 2 inches past the upper drip edge 211 of the drip edge 210. In one embodiment, the portion (see portion “B”) of the flashing strip member 230 that overhangs the upper drip edge 211 of the drip edge 210 extends from 1 inch to 2 inches past the upper drip edge 211 of the drip edge 210.
In one embodiment, as shown in
As further shown in the embodiment of
In one embodiment, the upper edge 222 of the connecting member 220 extends past the upper drip edge 211 of the drip edge 210 by at least ½ inch. In one embodiment, the upper edge 222 of the connecting member 220 extends past the upper drip edge 211 of the drip edge 210 by at least one inch. In one embodiment, the upper edge 222 of the connecting member 220 extends past the upper drip edge 211 of the drip edge 210 by at least two inches. In one embodiment, the upper edge 222 of the connecting member 220 extends past the upper drip edge 211 of the drip edge 210 by at least three inches. In one embodiment, the upper edge 222 of the connecting member 220 extends past the upper drip edge 211 of the drip edge 210 by at least four inches.
In one embodiment, the portion (see portion “D”) of the connecting member 220 that overhangs the upper drip edge 211 of the drip edge 210 extends from ½ inch to 4 inches past the upper drip edge 211 of the drip edge 210. In one embodiment, the portion (see portion “D”) of the connecting member 220 that overhangs the upper drip edge 211 of the drip edge 210 extends from 1 inch to 4 inches past the upper drip edge 211 of the drip edge 210. In one embodiment, the portion (see portion “D”) of the connecting member 220 that overhangs the upper drip edge 211 of the drip edge 210 extends from 2 inches to 4 inches past the upper drip edge 211 of the drip edge 210. In one embodiment, the portion (see portion “D”) of the connecting member 220 that overhangs the upper drip edge 211 of the drip edge 210 extends from 3 inches to 4 inches past the upper drip edge 211 of the drip edge 210. In one embodiment, the portion (see portion “D”) of the connecting member 220 that overhangs the upper drip edge 211 of the drip edge 210 extends from ½ inch to 3 inches past the upper drip edge 211 of the drip edge 210. In one embodiment, the portion (see portion “D”) of the connecting member 220 that overhangs the upper drip edge 211 of the drip edge 210 extends from 1 inch to 3 inches past the upper drip edge 211 of the drip edge 210. In one embodiment, the portion (see portion “D”) of the connecting member 220 that overhangs the upper drip edge 211 of the drip edge 210 extends from 2 inches to 3 inches past the upper drip edge 211 of the drip edge 210. In one embodiment, the portion (see portion “D”) of the connecting member 220 that overhangs the upper drip edge 211 of the drip edge 210 extends from ½ inch to 2 inches past the upper drip edge 211 of the drip edge 210. In one embodiment, the portion (see portion “D”) of the connecting member 220 that overhangs the upper drip edge 211 of the drip edge 210 extends from 1 inch to 2 inches past the upper drip edge 211 of the drip edge 210.
As discussed above, the roofing drip edge device 300 also includes a connecting member 320 (or membrane). According to the embodiment shown in
In one embodiment, the drip edge is coated. In one embodiment, the drip edge comprises a metal. In another embodiment, the drip edge comprises a metal coated with at least one of a TPO membrane or a PVC membrane. In one embodiment, the metal comprises galvanized steel, aluminum, or a combination thereof.
In one embodiment, the flashing strip member comprises at least one of a TPO membrane or a PVC membrane.
In one embodiment, the flashing strip member comprises (i) a six inch flashing strip member or (ii) an eight inch flashing strip member.
In one embodiment, the connecting member comprises at least one of a TPO membrane or a PVC membrane.
In one embodiment, the roofing surface comprises (i) a roof deck, (ii) roof insulation, (iii) a roofing membrane, or (iv) a combination of (i), (ii), and/or (iii).
In one embodiment, the upper drip edge of the drip edge extends at a right angle to the lower drip edge of the drip edge (see, e.g.,
Another embodiment of this invention pertains to a method of installing a roofing drip edge device on a roofing surface, with the method comprising obtaining a first roofing drip edge device that includes (a) a drip edge comprising (i) an upper drip edge that is configured to be installed along an edge of the roofing surface, (ii) a lower drip edge that is approximately at a right angle to the upper drip edge, (iii) a first side edge, and (iv) a second side edge that is opposite to the first side edge, (b) a flashing strip member having (i) an upper edge, (ii) a lower edge that is opposite to the upper edge, (iii) a first side edge, and (iv) a second side edge that is opposite to the first side edge, wherein the first side edge of the flashing strip member extends past the first side edge of the drip edge to provide a portion of the flashing strip member that overhangs the first side edge of the drip edge, and (c) a connecting member having (i) an upper edge, (ii) a lower edge, (iii) a first side edge, and (iv) a second side edge that is opposite to the first side edge, wherein the second side edge of the connecting member extends past the second side edge of the drip edge to provide a portion of the connecting member that overhangs the second side edge of the drip edge, attaching the first roofing drip edge device to the roofing surface, and attaching at least the upper edge of the flashing strip member to the roofing surface.
In one embodiment, the flashing strip member is secured to the upper drip edge of the drip edge along at least the lower edge of the flashing strip member.
In another embodiment, the flashing strip member is not secured to the drip edge.
In one embodiment, at least a portion of the first side edge of the connecting member is secured to the drip edge along the second side edge of the drip edge.
In another embodiment, the connecting member is not secured to the drip edge.
In one embodiment, the attaching of the at least the upper edge of the flashing strip member to the roofing surface is conducted via at least one of heat welding (e.g., hand and/or machine welding) or robot welding. According to one embodiment, the robot welding can be conducted at 10-12 fpm.
In one embodiment, the method further includes attaching at least the upper edge of the connecting member to the roofing surface. In one embodiment, the attaching of the at least the upper edge of the connecting member to the roofing surface is conducted via at least one of heat welding (e.g., hand and/or machine welding) or robot welding. According to one embodiment, the robot welding can be conducted at 10-12 fpm.
In one embodiment, the method further includes attaching a continuous hook strip to the roofing surface, such that at least the lower drip edge of the drip edge of the roofing drip edge device attaches to the continuous hook strip (see, e.g., continuous hook strip 408 of
In one embodiment, the attaching of the roofing drip edge device to the roofing surface is conducted by fastening the roofing drip edge device to the roofing surface with fasteners (see, e.g., fasteners 440 in
In one embodiment, the method further includes obtaining a second roofing drip edge device that includes (i) a drip edge, (ii) a flashing strip member that is secured or is not secured to the drip edge, and (iii) a connecting member that is secured or is not secured to the drip edge, attaching the second roofing drip edge device to the roofing surface, such that the second roofing drip edge device is positioned adjacent to the first roofing drip edge device, and attaching the portion of the flashing strip member that overhangs the first side edge of the drip edge of the first roofing drip edge device to the connecting member of the second roofing drip edge device.
In one embodiment, the method further includes attaching the connecting member of the second roofing drip edge device to the drip edge of the first roofing drip edge device.
In one embodiment, the attaching of the second roofing drip edge device to the roofing surface is conducted such that the second roofing drip edge device is positioned adjacent to the first roofing drip edge device with an expansion space provided between the first roofing drip edge device and the second roofing drip edge device (see e.g.,
In one embodiment, the method further includes attaching at least an upper edge of the flashing strip member of the second roofing drip edge device to the roofing surface. In one embodiment, the attaching of the at least an upper edge of the flashing strip member of the second roofing drip edge device to the roofing surface is conducted via at least one of heat welding (e.g., hand and/or machine welding) or robot welding. According to one embodiment, the robot welding can be conducted at 10-12 fpm.
In one embodiment, the method further includes attaching at least an upper edge of the connecting member of the second roofing drip edge device to the roofing surface. In one embodiment, the attaching of the at least an upper edge of the connecting member of the second roofing drip edge device to the roofing surface is conducted via at least one of heat welding (e.g., hand and/or machine welding) or robot welding. According to one embodiment, the robot welding can be conducted at 10-12 fpm.
According to embodiments of the invention described herein, a roofing edge metal piece is provided that is secured (e.g., welded or pre-welded) in a factory with either a TPO or PVC membrane.
According to embodiments of the invention described herein, a pre-made TPO or PVC clad roofing edge metal is provided that incorporates a flashing strip (e.g., an 8 inch wide flashing strip) and a bond-breaker detail or element. This pre-made roofing edge metal is able to save the contractor the labor of hand welding the flashing strip on the edge of the roof, as well as create a safer installation by minimizing the installer's time at the edge of the roof. This pre-made roofing edge metal will allow for the use of the bond-breaker detail or element to minimize membrane rupture due to expansion (e.g., thermal expansion) and contraction of the edge metal, resulting in a better roof.
Although the invention has been described in certain specific exemplary embodiments, many additional modifications and variations would be apparent to those skilled in the art in light of this disclosure. It is, therefore, to be understood that this invention may be practiced otherwise than as specifically described. Thus, the exemplary embodiments of the invention should be considered in all respects to be illustrative and not restrictive, and the scope of the invention to be determined by any claims supportable by this application and the equivalents thereof, rather than by the foregoing description.
This application claims the priority of U.S. provisional application Ser. No. U.S. 63/450,141 entitled “A Roofing Drip Edge Device And A Method Of Installing A Roofing Drip Edge Device” filed Mar. 6, 2023, which is incorporated herein by reference in its entirety for all purposes.
Number | Date | Country | |
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63450141 | Mar 2023 | US |