Second layer roofing drip edge with protruding edge

Abstract

Hereby is disclosed a second layer roofing drip edge with a protruding edge. The drip edge covers an existing drip edge and shingles at the eave and rake prior to the installation of the next roofing system. The protruding edge may be notched on one section and not the other section as they abut. The protruding edge bottom fold or bottom face of the drip edge may be fabricated with a groove or projection preventing capillary action of water across the plane and dropping behind the gutter.

Claims

1. A drip edge comprising: a planar nail flange configured to be laid-up on a roof, the planar nail flange comprising a first edge configured to be located, following its installation, on a roofing surface and a second, protruding edge configured to, following its installation, protrude off of a rake or eave of a roof; a substantially planar, flat face extending substantially perpendicularly from a bottom side of said planar nail flange, adjacent said second, protruding edge, configured to be positioned below said planar nail flange following the drip edge's installation on a roof; a substantially planar, flat bottom face configured to extend, following the drip edge's installation on a roof, substantially perpendicularly from said substantially planar, flat face and towards a fascia; a kick configured to extend, following the drip edge's installation on a roof, at, approximately, a 45 degree angle from said substantially planar, flat bottom face, away from the fascia; and a projection or groove located in a bottom-facing portion of said drip edge, wherein the projection or groove is configured to be weather-exposed following installation of the drip edge.

2. The drip edge of claim 1, further comprising a series of divots positioned on said planar nail flange.

3. The drip edge of claim 2, wherein said series of divots positioned on said planar nail flange are arranged in a line parallel to said first and second edges.

4. The drip edge of claim 3, wherein said series of divots positioned on said planar nail flange are uniformly spaced.

5. The drip edge of claim 1, further comprising a series of markings positioned on said planar nail flange.

6. The drip edge of claim 5, wherein said series of markings positioned on said planar nail flange are arranged in a line parallel to said first and second edges.

7. The drip edge of claim 6, wherein said series of markings positioned on said planar nail flange are uniformly spaced.

8. The drip edge of claim 7, wherein said second, protruding edge comprises a closed hem.

9. The drip edge of claim 8, wherein said drip edge comprises a notch configured to allow for joining of one section drip edge to another.

10. The drip edge of claim 1, wherein said drip edge comprises a notch configured to allow for joining of one section drip edge to another.

11. The drip edge of claim 1, wherein said second, protruding edge comprises a closed hem.

12. The drip edge of claim 11, wherein the groove or projection is located in a bottom-facing portion of said closed hem.

13. The drip edge of claim 12, wherein said groove or projection is aligned substantially parallel with said second protruding edge.

14. The drip edge of claim 1, wherein the projection or groove is located in said substantially planar, flat bottom face.

15. The drip edge of claim 14 wherein said projection or groove is positioned adjacent said flat face and substantially parallel thereto.

16. A method of waterproofing a building enveloped comprising: using the drip edge of claim 1: aligning said drip edge with a roof such that the second, protruding edge thereof is substantially parallel to a rake or eave of the roof and extending therefrom, while the nailing flange is substantially located on existing shingles; nailing the drip edge to the building envelope through the nail flange; and applying an overlying course of roofing material on top of the drip edge.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is an upper-right, perspective view of a prior art second layer drip edge laid-up on a roof, covering a previous drip edge;

(2) FIG. 2 is an upper-right, perspective view of second layer drip edge configured in accordance with embodiments of the present invention;

(3) FIG. 3 is an upper-right, perspective view of second layer drip edge laid-up on a roof, covering a previous drip edge, in accordance with embodiments of the present invention;

(4) FIG. 4 is an upper-right, perspective view of second layer drip edge featuring a notch, in accordance with embodiments of the present invention;

(5) FIG. 5 is an upper-right, perspective view of second layer drip edge featuring divots, in accordance with embodiments of the present invention;

(6) FIG. 6 is an upper-right, perspective view of second layer drip edge featuring a groove, in accordance with embodiments of the present invention;

(7) FIG. 7 is an upper-right, perspective view of second layer drip edge featuring a projection, in accordance with embodiments of the present invention;

(8) FIG. 8 is an upper-right, perspective view of second layer drip edge featuring a groove, in accordance with embodiments of the present invention; and

(9) FIG. 9 is an upper-right, perspective view of second layer drip edge featuring a projection, in accordance with embodiments of the present invention.

DETAILED DESCRIPTION

(10) We herein disclose a roof drip edge having a protruding leading edge useful for second layer roof applications. As shown in FIG. 2, the drip edge comprises a nailing flange 1 that becomes a protruding edge 2. In embodiments, the protruding edge is a closed hem 3 having a top fold 2a and bottom fold 3a. The bottom fold, in embodiments, is bent at approximately 90 degrees, creating a substantially flat face 4. The flat face is then bent again, in embodiments, at an angle of approximately 90 degrees to create a bottom face 5 that is essentially perpendicular to the nail flange 1. The bottom face 5 terminates with a kick 6, which may be positioned at approximately a 45 degree angle with respect to the bottom face 5.

(11) Now referring to FIG. 3, a drip edge is depicted as installed on a roof. The protruding edge 202 of this design adds rigidity to the drip edge, preventing a roofer from unintentionally flexing the nail flange 203, and thereby maintaining a near 90 degree angle 204 between the drip edge face 205 and nail flange 203. The maintenance of a true drip edge face 205 along with the installation of a protruding edge 202 moves water into the gutter 206 and prevents water from running down the face 205 of the drip edge much more effectively than the design shown in FIG. 1. This protruding edge 202 also largely eliminates oil canning (see FIG. 1 105) and the problems associated with water infiltration at the interface of the drip edge and the underlying roof.

(12) Furthermore, the protruding edge 202 of the drip edge ensures a true point at the peak of a roof, resulting in a uniform appearance.

(13) Still further, the resulting protruding edge 202 maintains a stiff, straight line 207 for the finished roofing material to follow. On metal roofing applications the protruding edge 202 also permits for metal panel and shingle securement.

(14) The metal mills or gages of the second layer drip edges may, in embodiments, be thicker or heavier, as the drip edge face 205 is not in contact with the fascia 102 itself. This adds strength to the detail and prevents additional twisting tendencies. We recommend fabricating the disclosed drip edge from 24-27 gage steel or 0.032 aluminum.

(15) As depicted in FIG. 4, the drip edge of embodiments may be notched to allow for joining of one section to the next. More specifically, the notch permits one section of metal to overlap another section of metal while maintaining a straight line 207 along the 202 protruding edge. The notch may be straight and parallel with the protruding edge 202 or may be slightly angled to ensure a tight fit without creating a gap between the sections.

(16) The notch may be made on-site using tin snips or during the manufacturing process, by punching out the required material. The length of the notch is typically the length of the blade on a pair of snips, to ensure consistent overlap from section to section.

(17) On standing seam and metal shingle applications, the drip edge should be of a heavier gage or thickness. In such instances, embodiments include divots for fastener placement. On these systems, screws are typically used to fasten the nail flange 1 to the underlying roof or substrate. Since a screw rotates when being installed through the nail flange 1, it will tend to wander across the flat surface thereof. The divots prevent the screw from walking across the surface of the nail flange 1 during installation, ensuring proper alignment. A divot will let the screw grab the nail flange metals, due to its countersunk nature. The placement of the divots further permits the panel manufacturer to call-out the specific rate and placement of fasteners to prevent wind uplift at critical perimeter locations and improve compliance with manufacturer recommendations and code requirements.

(18) The drip edge, in embodiments, is fastened through the nail flange 1 at rates consistent with performance requirements for wind uplift. To provide for consistent fastener placement, a series of divots can be placed at a specific rate into the nail flange. By manufacturing only a divot, as opposed to a hole through the entire nail flange, creating a point of water entry should the feature not be utilized is avoided.

(19) It has also been discovered that, on occasions, capillary action can occur with some metals and profiles that direct the water coming off the roof to a specific area of the drip edge. This phenomena is exacerbated on shingle installation work where starter shingles are used and installed onto the drip edge.

(20) Starter shingles typically come in 36 or 39 lengths and abut each other. This abutment of the starter shingle to starter shingle can capture and channel water to a specific location on the drip edge. This effect, in addition to capillary action, releases water at specific locations onto the underlying drip edge.

(21) The cohesive properties of water in relation to the volume of water being released at specific areas on the drip edge can cause moisture to track along the face 205 and the underside of the drip edge 208 bypassing any gutters 206. As such, it has been discovered that, as highlighted in FIG. 6. that a groove or, as disclosed in FIG. 7 a projection, on the bottom face 5 of the drip edge inhibits the water from flowing across the bottom face 5 of the drip edge toward its kick 6 on the drip edge.

(22) Furthermore, it has been discovered that a groove, as shown in FIG. 8, or a projection, as shown in FIG. 9, on the bottom fold of the protruding edge inhibits water flowing across the bottom fold of the protruding edge across the bottom face 5 and reaching the kick 6.

(23) On asphalt shingle applications, it would be desirable to have the groove of FIG. 8 or projection of FIG. 9 on the bottom fold of the protruding edge. When installing metal roofing systems that wrap around the protruding edge, it would be desirable to have the groove of FIG. 6 or projection of FIG. 7 on the bottom face 5, so as not to impede metal being bent around the protruding edge.

(24) The encouragement of second layer roof applications remains a green alternative. There is a substantial movement towards shingle recycling and keeping the existing shingles on the roof through another roofing cycle, as more communities come on board with shingle recycling efforts. In addition, second layer applications are cleaner, saves the owner money and the roofing contractor time.

(25) The foregoing description of the embodiments of the invention has been presented for the purposes of illustration and description. It is not intended to be exhaustive or to limit the invention to the precise form disclosed. Many modifications and variations are possible in light of this disclosure. It is intended that the scope of the invention be limited not by this detailed description, but rather by the claims appended hereto.