FIELD OF THE INVENTION
The invention relates to roof drip edge and coverings for fascia.
DESCRIPTION OF THE RELATED ART
Many buildings include a plurality of upstanding walls covered by a roof. The roof is typically downward sloping and covered by a plurality of shingles. The section of the wall near the roof is often covered by a fascia strip for protection and also to allow installation of a gutter to collect water and other debris that rolls off of the roof.
A disadvantage of such roof constructions is that water often seeps between the gutter inner wall and the fascia strip, causing rot and deterioration of the fascia strip. Moreover, in some types of construction, water can seep between the fascia and the side wall of the building, causing even more extensive damage. Water can also seep in between the roof shingles and the roof boards, causing rot and deterioration of these structural elements.
In an attempt to ameliorate these problems, drip edges are sometimes installed. A simple drip edge may be a planar sheet of plastic or metal inserted between the shingles and the roof which extends out over the edge of the roof, at the same downward slope as the roof. In this way, water and other debris from the roof is directed away from the building. Commonly, the water and other debris are directed into a gutter.
Heretofore, roof drip edges have been formed of aluminum or galvanized steel, and generally come in ten-foot lengths. Due to their length and material composition, such drip edges and fascia coverings are difficult to handle and to install and are also easily dented or bent. Such dented or bent edges when installed can be unattractive and can form undesirable gaps, which allow water to work its way back up under the roofing shingles. Roof drip edges of rigid plastic material have also been recently used in order to eliminate the denting and bending which occurs in metal edges. However, plastic is subject to buckling and puckering with changes in temperature, particularly where the material is vinyl.
There is a need for a means to install vinyl drip edge and fascia coverings that exactly match the color and material of commonly installed vinyl siding. There is also a need to enable covering pieces for fascia and drip edge to accommodate expansion and contraction of the material due to temperature changes.
SUMMARY OF THE INVENTION
A drip edge according to the invention is adapted to be mounted to a roof, and comprises a frontal piece and a mounting flange. The mounting flange has a flexible portion, and the frontal piece is formed of a polymer having more rigidity than the flexible portion. Thus, the frontal piece will be able to move relative to a roof to which it is mounted so that it will not buckle with thermal changes. Preferably, the drip edge is formed of vinyl.
The frontal piece is typically rigid enough to resist deflection under force. Preferably, the frontal piece is colored. Also, the flexible portion has a color that contrasts with the color of the frontal piece. The mounting flange and/or the frontal piece can have a strengthening portion. Further, the flexible portion can be disposed between the frontal piece and the strengthening portion. The flexible portion is preferably disposed about 1 inch from the frontal piece. The strengthening portion will comprise at least one strengthening rib.
In another aspect, the drip edge can be part of a system that can also have a face that covers a portion of a fascia cover when the drip edge and fascia system is mounted to a structure. Also, preferably, the thickness of each of the fontal piece and the mounting flange is in a range of 0.8 to 1.3 mm, and both parts can be but need not be the same thickness. The fascia cover is preferably mountable to a fascia cover mounting bracket by snap fit.
In another aspect of the invention, the drip edge and fascia system can include a drip edge mounting bracket adapted to be mounted to a roof, where the drip edge is mountable to the drip edge mounting bracket in a manner to be independently moveable relative to the drip edge mounting bracket. In this way, the drip edge will not buckle with thermal changes.
A further aspect of the invention is found in an improvement in a structure having a roof and a fascia board with a drip edge mounted to the roof, and a fascia cover for covering the fascia board. The improvement lies in the drip edge comprising a frontal piece and a mounting flange. The mounting flange has a flexible portion, and the frontal piece is formed of a polymer having more rigidity than the flexible portion. Thus, the frontal piece will be able to move relative to the roof so that it will not buckle with thermal changes.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is a cross sectional view of a drip edge and fascia system according to the invention.
FIG. 2 is a view showing how adjacent drip edge pieces are mounted end to end.
FIG. 3 is a view similar to FIG. 2 showing how adjacent fascia cover pieces are mounted end to end.
FIG. 4 is a cross sectional view of a drip edge mounting bracket according to the invention.
FIG. 5 is a cross sectional view of a fascia mounting bracket according to the invention.
FIG. 6 is a cross sectional view of a drip edge according to the invention.
FIG. 7 is a cross sectional view of a fascia cover according to the invention.
FIG. 8 is a cross sectional view of a second embodiment of a drip edge and fascia system according to the invention.
FIG. 9 is a view showing how adjacent drip edge pieces of FIG. 8 are mounted end to end.
FIG. 10 is a view similar to FIG. 9 showing how adjacent fascia cover pieces of the second embodiment are mounted end to end.
FIG. 11 is a cross sectional view of the drip edge mounting bracket of FIG. 8 according to the invention.
FIG. 12 is a cross sectional view of the fascia mounting bracket of FIG. 8 according to the invention.
FIG. 13 is a cross sectional view of the drip edge of FIG. 8 according to the invention.
FIG. 14 is a cross sectional view of the fascia cover of FIG. 8 according to the invention.
FIG. 15 is a third embodiment of a fascia covering system according to the invention.
FIG. 16 is a fourth embodiment of a drip edge and fascia system according to the invention.
FIG. 17 is view showing how adjacent drip edge pieces of FIG. 16 are mounted.
FIG. 18 is a cross sectional view of the drip edge of FIG. 16 according to the invention.
FIG. 19 is a cross sectional view of a fifth embodiment of a drip edge according to the invention.
FIG. 20 is a partial plan view of the drip edge of FIG. 19 taken along lines 20-20.
FIG. 21 is a cross sectional view of a fifth embodiment of a fascia mounting bracket according to the invention.
FIG. 22 is a cross sectional view of a fifth embodiment of a fascia cover according to the invention.
FIG. 23 is a cross sectional view of the fifth embodiment of the drip edge and fascia system comprising the elements of FIGS. 19-22.
DETAILED DESCRIPTION
Referring to FIG. 1, a first embodiment of a drip edge and fascia system 10 according to the invention is shown as being used with a building such as a home where roof sheathing 12 meets a vertical fascia board 14. Thus, the drip edge and fascia system 10 enables use of vinyl drip edge and fascia coverings, consistent in color and texture with vinyl siding that may be used on the home.
The drip edge and fascia system 10 comprises four separate components: a drip edge mounting bracket 16, a fascia cover mounting bracket 18, a drip edge 20, and a fascia cover 22. The drip edge mounting bracket 16 is best illustrated in FIGS. 1, 2, and 4. The drip edge mounting bracket 16 can be molded of the same color and texture material as vinyl siding used on the home. However, because the drip edge mounting bracket 16 will not be seen when installed, it can be made of any material sufficiently rigid to support and retain the drip edge 20. Such materials may include a rigid polymer such as ABS, aluminum, and galvanized metal or other material. It is important only that the drip edge mounting bracket 16 be capable of supporting and retaining the drip edge 20, and be corrosion resistant.
The drip edge mounting bracket 16 comprises a mounting flange 24 adapted to rest flat against the roof sheathing 12. The mounting flange 24 extends from a support channel 26. The support channel 26 comprises an upper arm 28, a bight section 30, and a lower arm 32. Preferably, the mounting flange 24 extends from the bight section 30 at the same angle as the pitch of the roof sheathing 12. The junction of the mounting flange 24 and the support channel 26 can be fixed, or it can be a flexible hinge to enable the drip edge mounting bracket 16 to be mounted to any roof, regardless of pitch. It will be understood that shingles (not shown) will be mounted to the roof over the sheathing 12 and the mounting flange 24.
One of the arms 28, 32 (here the lower arm 32) has a shoulder 34, which together with the bight section 30, defines a recess 35. Depending from the bight section 30 generally at a right angle to the support channel 26 is a guide channel 36, defined by a rearward arm 38 and a facing arm 40. The arms 38, 40 can be the same length as shown, or they can be different lengths to better accommodate receiving a fascia cover 22 as explained below. At least one end of the drip edge mounting bracket 16 has the support channel 26 and the guide channel 36 ending before the edge 37 of the mounting flange 24 and the rearward arm 38. Thus, an adjacent piece of drip edge mounting bracket 16 can overlap to inhibit migration of moisture between the drip edge mounting bracket and the roof sheathing 12 or fascia 14. If desired, a sealant can be interposed between overlapped portions.
The fascia cover mounting bracket 18 is best shown in FIGS. 1, 3, and 5. The fascia cover mounting bracket 18 can be molded of the same color and texture material as a vinyl siding used on the home. However, because the fascia cover mounting bracket 18 will not be seen when installed, it can be made of any material sufficiently rigid to support and retain the fascia cover 22. Such materials may include a rigid polymer such as ABS, aluminum, and galvanized metal or other material. It is important only that the fascia cover mounting bracket 18 be capable of supporting and retaining the fascia cover 22, and be corrosion resistant.
The fascia cover mounting bracket 18 comprises a mounting flange 42 extending at a right angle from a support flange 44. The mounting flange 42 is adapted to be nailed to the front of the fascia board 12. Depending from the support flange 44 is a support channel 46, defined by first and second arms 48, 50 spaced from each other. At a terminal end of each arm 48, 50, is an inwardly facing shoulder 52 which can be barbed as shown, or straight.
Both the drip edge mounting bracket 16 and the fascia cover mounting bracket 18 are preferably formed by extrusion. Because of the importance of inhibiting the intrusion of water from the roof to the sheathing beneath it or to the fascia, adjacent pieces of drip edge mounting bracket and the fascia cover mounting bracket are preferably overlapped.
The drip edge 20 is best illustrated in FIGS. 1, 2, and 6. The drip edge 20 comprises an upper flange 54 with a facing piece 56 depending therefrom. A mounting tab 58 extends rearwardly from the upper flange 54. The mounting tab 58 has a locking shoulder 60 at its distal edge. Looking now at FIGS. 1 and 2, it will be apparent that the drip edge 20 is mounted to the drip edge mounting bracket 16 by inserting the mounting tab 58 into the support channel 26 until the locking shoulder 60 snaps into the recess 35 behind the shoulder 34. The length of the mounting tab 58 is shorter than the length of the upper flange at one end to form a notch 62 at the end. Thus, adjacent pieces of drip edge can overlap when necessary. When the mounting tab 58 is secured in the support channel 26, the shoulder 34 prevents easy removal because the locking shoulder 60 abuts the shoulder 34. However, the mounting tab 58 remains slidable within the support channel 26. It is this slidability that enables the drip edge 20 to expand and contract with temperature changes, but without buckling.
The fascia cover 22 is best illustrated in FIGS. 1, 3, and 7. The fascia cover 22 comprises a front fascia cover plate 64 and a bottom fascia cover plate 66. The bottom fascia cover plate 66 extends rearwardly from a lower edge 68 of the front fascia cover plate 64. A tab 70 extends upwardly from the bottom fascia cover plate 66, and is spaced from the front fascia cover plate 64. A head 72 on the distal edge of the tab 70 can provide a T-shape, or it can be barbed. The head 72 is received within the support channel 46 in snap fit relation until it bears against the inwardly facing shoulder 52 to be retained therein. Simultaneously, an upper edge 74 of the front fascia cover plate 64 is received within the guide channel 36. It will be apparent that the fascia cover 22 will be slidable relative to the fascia cover mounting bracket 18 and the drip edge mounting bracket 16 so that it will not buckle with changes in temperature. The length of the tab 70 is shorter than the length of the front fascia cover plate 64 at one end to form a notch 74 at the end. Thus, adjacent pieces of the fascia cover 22 can overlap when necessary.
Preferably the drip edge 20 and the fascia cover 22 will be formed of the same material as the siding on the building to which it is installed. For example, the drip edge 20 and the fascia cover 22 can be formed of extruded vinyl with matching color. Similarly, they can be formed of aluminum if the house were to be sided with aluminum. When mounted, as shown in FIG. 1, it will be apparent that water coming off the roof is directed away from the fascia 14 by the drip edge 20. Moreover, any water that migrates down the drip edge facing piece 56 or even through the support channel 26 will be directed to the fascia cover 22, thereafter to be shed without contacting the fascia 14.
A second embodiment of a drip edge and fascia system 100 according to the invention is shown in FIGS. 8-13. As in the first embodiment, the drip edge and fascia system 100 comprises four separate components, a drip edge mounting bracket 102, a fascia cover mounting bracket 104, a drip edge 106, and a fascia cover 108. The drip edge mounting bracket 102 is best illustrated in FIGS. 8, 9, and 11. The drip edge mounting bracket 102 is preferably formed of the same color and texture material as siding used on the home, e.g., vinyl. However, because the drip edge mounting bracket 102 will not be seen when installed, it can be made of any material sufficiently rigid to support and retain the drip edge 106. Such materials may include a rigid polymer such as ABS, aluminum, and galvanized metal or other material. It is important only that the drip edge mounting bracket 102 be capable of supporting and retaining the drip edge 106, and be corrosion resistant.
The drip edge mounting bracket 102 comprises a mounting flange 110 adapted to rest flat against the roof sheathing 12. The mounting flange 110 extends from a support channel 112. The support channel 112 comprises an upper arm 114, a bight section 116, and a lower arm 118. Preferably, the mounting flange 110 extends from the bight section 116 at the same angle as the pitch of the roof sheathing 12. The junction of the mounting flange 110 and the support channel 112 can be fixed, or it can be a flexible hinge to enable the drip edge mounting bracket 102 to be mounted to any roof, regardless of pitch.
The upper arm 114 has a shoulder 120 that, together with the bight section 30 defines a recess 122 in the support channel 112, effectively making the support channel L-shaped in cross section. Depending from the intersection of the bight section 30 and the lower arm 118, at a right angle to the support channel 112, is a guide flange 124. An outwardly extending flare 126 is located at the distal edge of the guide flange 124.
The fascia cover mounting bracket 104 is best shown in FIGS. 8, 10, and 12. The fascia cover mounting bracket 104 is preferably formed of the same color and texture material as a siding used on the building, e.g., vinyl. However, because the fascia cover mounting bracket 104 will not be seen when installed, it can be made of any material sufficiently rigid to support and retain the fascia cover 108. Such materials may include a rigid polymer such as ABS, aluminum, and galvanized metal or other material. It is important only that the fascia cover mounting bracket 104 be capable of supporting and retaining the fascia cover 108, and be corrosion resistant
The fascia cover mounting bracket 104 comprises a mounting flange 130 extending at a right angle from a support flange 132. The mounting flange 130 is adapted to be nailed to the front of the fascia board 12. Depending from the support flange 132 is a support channel 134, defined by first and second arms 136, 138 spaced from each other. Here the second arm 138 is coplanar with the mounting flange 130 although it need not be. At a terminal end of each arm 136, 138, is an inwardly facing shoulder 140 which can be barbed as shown, or straight.
The drip edge 106 is best illustrated in FIGS. 8, 9 and 14. The drip edge 106 comprises an upper flange 142, L-shaped in cross section, with an upwardly extending facing piece 144 and rearwardly extending arm 146. Depending from a distal edge of the rearwardly extending arm 146 is a cover face 148, with a rearward flare 150 at the distal edge of the cover face 148. A mounting tab 152 extends rearwardly from the upwardly extending facing piece 144, generally parallel to and spaced above the rearwardly extending arm 146. The mounting tab 152 has a locking shoulder 154 at its distal edge.
Looking now at FIGS. 8 and 9, it will be apparent that the drip edge 106 is mounted to the drip edge mounting bracket 102 by inserting the mounting tab 152 into the support channel 112 until the locking shoulder 154 snaps into the recess 35 behind the shoulder 120. Note, however, that whereas the locking shoulder 154 effectively inhibits removal of the mounting tab 152 from the support channel 112, there is nothing to inhibit a longitudinal sliding motion of the mounting tab within the support channel. Indeed, it is this slidability that prevents the drip edge 106 from buckling due to temperature changes. The length of the mounting tab 152 is shorter than the length of the upwardly extending facing piece 144 at the ends thereof to form a notch 156 at each end. Thus, adjacent pieces of drip edge 106 can overlap when necessary.
The fascia cover 108 is best illustrated in FIGS. 8, 10, and 13. The fascia cover 108 comprises a front fascia cover plate 160 and a bottom fascia cover plate 162. The bottom fascia cover plate 162 extends rearwardly from a lower edge 164 of the front fascia cover plate 160. A tab 166 extends upwardly from the bottom fascia cover plate 162, and is spaced from the front fascia cover plate 160. A head 168 on the distal edge of the tab 166 can provide a T-shape in cross section, or it can be barbed. The head 168 is received within the support channel 134 in snap fit relation until it bears against the inwardly facing shoulders 140 to be retained therein. Simultaneously, as shown in FIG. 8, an upper edge 170 of the front fascia cover plate 160 is received between the fascia board 14 and the guide flange 124. It will be apparent that the fascia cover 108 will be slidable relative to the fascia cover mounting bracket 104 and the drip edge mounting bracket 102 so that it will not buckle with changes in temperature. The length of the tab 166 is shorter than the length of the front fascia cover plate 108 at one end to form a notch 172 at the end. Thus, adjacent pieces of the fascia cover 108 can overlap when necessary.
A third embodiment of a fascia cover mounting bracket 180 and the fascia cover 182 is shown in FIG. 15. Here the fascia cover mounting bracket 180 is similar to the fascia cover mounting bracket 104 in FIG. 12, except that instead of a support channel defined by a pair of arms, there is only a single arm 184 coplanar with the mounting flange 186. A terminal flange 188 extends rearwardly from a distal edge of the arm 184. The terminal flange 188 and the support flange 132 define a horizontal support channel 190. The fascia cover 182 is similar to the fascia cover 108 in FIG. 13, except that instead of a head on the tab 166, there is a forwardly extending mounting flange 192 extending from the distal edge of the tab 166. When the mounting flange 192 is received within the horizontal support channel 190, the terminal flange 188 is simultaneously received within the channel defined between the mounting flange 192 has support flange 132.
A fourth embodiment of a drip edge and fascia system 200 according to the invention is shown in FIGS. 16-18. Certain elements of this fourth embodiment are identical to those described above in earlier embodiments, and they will bear like numerals to those earlier described elements. More particularly, the fascia cover mounting bracket 104 and the fascia cover 108, together with their associated components, are unchanged in this fourth embodiment. The distinctive difference in the fourth embodiment lies in a single piece drip edge 202.
Looking first at FIG. 18, it can be seen that the drip edge 202 comprises a flexible mounting flange 204 and a more rigid frontal piece 206. The frontal piece includes a U-shaped edge 208 having a bight portion 210, an upper arm 212, and a lower arm 214. The upper arm 212 has a terminal edge 216 from which the mounting flange 204 extends. Preferably, the mounting flange 204 and the frontal piece 206 are formed by co-extruding PVC with differing formulations for each. The mounting flange 204 will have a formulation that, for example, includes softeners to enable the flange to be flexible. Color is immaterial to the mounting flange 204 so the formulation will likely include no coloration. On the other hand, the frontal piece 206 is more rigid than the mounting flange 204 and, because it will be visible, must have coloration that preferably matches or complements the coloring of the siding of the structure to which it is to be mounted. Thickness of both the mounting flange 204 and the frontal piece 206 will preferably be in a range of 0.8 to 1.3 mm. Ideally, both components will have the same thickness, although such is not critical to the invention.
Extending at a preferable 900 angle from the lower arm 214 is a face 218 from whose lower edge extends a flange 220 at an angle from the plane of the face. Looking now at FIG. 16, it can be seen that when installed, the mounting flange 204 is nailed to the roof sheathing 12 with the U-shaped edge 208 extending away from the roof edge and the face 218 depending generally parallel to the fascia board 14. The front fascia cover plate 160 of the fascia cover 108 has an upper portion thereof that extends between the fascia 14 and the face 218. More specifically, the upper edge 170 is received between the fascia board 14 and the face 218.
The ability of the fourth embodiment design to facilitate overlapping mounting of adjacent drip edge pieces 202a and 202b is best shown in FIG. 17. There is some flexibility in the U-shaped edges 208a and 208b (regardless of the rigidity of the frontal pieces 202a and 202b) by virtue of the structure. Thus, one drip edge piece 202b can overlap an adjacent drip edge piece 202a by having the U-shaped edges 208a and 208b nest in each other, while adjacent components such as the mounting flanges 204a and 204b, faces 218a and 218b, and flanges 220a and 220b lay one over the other. Preferably, the overlap will be about 2 inch to accommodate thermal expansion and contraction without losing overlap. Moreover, because the fascia cover 108 is not attached to the drip edge 202, it can move independently at a different thermal expansion or contraction rate and thereby minimize buckling.
FIGS. 19-23 illustrate a fifth embodiment of a drip and fascia cover system according to the invention. The fifth embodiment addresses some issues that have been discovered in earlier embodiments. Some installers are accustomed to the more rigid pieces of the prior art (e.g. those made of aluminum). In order to ease the handling characteristics of drip edge and fascia covers according to the present invention, rigidity has been added to some of the components. In addition, it will be appreciated that the drip edge and fascia cover system according to the present invention is not just for use on the eave edge as illustrated, but also for use on the rake of the roof. When drip edge is used on the rake, shingle nails not only fix the shingles to the roof, but they also fix the drip edge to the roof.
Looking now at FIGS. 19 and 23, it can be seen that the drip edge 300 comprises a flexible mounting flange 302 and a frontal piece 304. The frontal piece includes a U-shaped edge 306 having a bight portion 308, an upper arm 310, and a lower arm 312. The upper arm 310 has a terminal edge 313 from which the mounting flange 302 extends. A strengthening rib 314 runs parallel to the bight portion 308 adjacent to the terminal edge 313. Preferably, the upper arm 310 will extend from the bight portion 308 to the terminal edge 313 about 1 inch.
The mounting flange 302 comprises a flexible portion 315 extending away from the terminal edge 313, and a strengthening portion 316 extending from the flexible portion. The strengthening portion 316 includes one or more strengthening ribs 318 generally parallel to the strengthening rib 314. Two are shown in FIG. 19. A plurality of elongated slots 320 are spaced from each other in the strengthening portion 316, generally parallel to one of the strengthening ribs 318.
Preferably, the mounting flange 302 and the frontal piece 304 are formed by co-extruding one or more polymers. The flexible portion 315 will have a formulation that, for example, includes softeners to enable it to be flexible, whereas the frontal piece 304 and the strengthening portion 316 will typically have a formulation that is more rigid. Preferably, the more rigid formulation will be similar to that used for window vinyl trim, and be made of more virgin compounds than is typically used for vinyl siding.
Color is immaterial to the strengthening portion 316 so the formulation needs no coloration for the strengthening portion. On the other hand, the frontal piece 304 will be visible, and therefore will preferably have coloration that matches or complements the coloring of the siding of the structure to which it is to be mounted. In order to better identify the flexible portion 315, it will preferably have a contrasting color such as black if the strengthening portion 316 and the frontal piece 304 are lighter. Thickness of both the mounting flange 302 and the frontal piece 304 will preferably be in a range of 0.8 to 1.3 mm. Ideally, both components will have the same thickness, although such is not critical to the invention.
Extending at a preferable 900 angle from the lower arm 312 is a face 322 from whose lower edge extends a flange 324 at an angle from the plane of the face. Looking now at FIG. 23, it can be seen that when installed, the strengthening portion 316 is nailed to the roof sheathing 12 with nails 326 extending through the elongated slots 320. The U-shaped edge 306 extends away from the roof edge and the face 322 depends generally parallel to the fascia board 14.
When mounted on the rake, the drip edge 300 will typically be secured by shingle nails in the flexible portion 315 as the shingles are installed. The location of the flexible portion 314 relative to the U-shaped edge 306 is such that the shingle nails holding an edge of a shingle on the rake will also extend through the flexible portion. It will be understood that the flexible portion 315 (whether nailed or not) will still permit some movement of the frontal piece 304 that might occur due to thermal expansion and contraction, or other forces that might cause it to move relative to the roof.
Looking now at FIGS. 21-23, the fascia cover 320 and the fascia cover mounting bracket 322 are shown. The fascia cover mounting bracket 323 comprises a mounting flange 325 extending at a right angle from a support flange 326. The mounting flange 325 has one or more strengthening ribs 328, and is adapted to be nailed to the front of the fascia board 14. An arm 330 extends from the support flange 326, parallel thereto and toward the plane of the mounting flange 325, thereby defining a channel 332. Barbs 334 extend into the channel from the support flange 326 and the arm 330.
The fascia cover 320 comprises a front fascia cover plate 340 and a bottom fascia cover plate 342. The bottom fascia cover plate 342 extends rearwardly from a lower edge 344 of the front fascia cover plate 340. A tab 346 extends rearwardly from the front fascia cover plate 340 near the lower edge 344, and is spaced from the bottom fascia cover plate 342. Barbs 348 are disposed toward the distal edge of the tab 346. One or more strengthening ribs 350 are located on the front fascia cover plate 340, running generally parallel to the lower edge 344.
Looking at FIG. 23, the fascia cover 320 and the fascia cover mounting bracket 322 are mounted to the fascia as follows. The mounting flange 325 is a secured, preferably by nailing, to the front of the fascia board 14 with the support flange 326 disposed at the bottom of the fascia board. The tab 346 is received within the channel 332 in snap fit relation until the barbs 348 on the tab engage and lock with the barbs 334 extending into the channel. Simultaneously, an upper edge 352 of the front fascia cover plate is received between the fascia board 14 and the face 322. It will be ent that the fascia cover 320 will be slidable relative to the fascia cover ting bracket 322 and the drip edge 300 so that it will not buckle with es in temperature.
While the invention has been specifically described in connection certain specific embodiments thereof, it is to be understood that this is by f illustration and not of limitation, and the scope of the appended claims d be construed as broadly as the prior art will permit. For example, it will preciated that the drip edge 300 can be used with a traditional, non-vinyl a cover, and with non-vinyl siding.
Patent Application
20060080900
