Window sill flashing

Abstract

The present invention is directed towards a window sill flashing comprising a base having a substantially rectangular shape. A front flange projects perpendicularly downward from a front edge of the base and at least one side flange extends vertically from a side edge of the base. The side flange includes a front surface. The window sill flashing is made from a rigid homopolymer vinyl film.

Description

TECHNICAL FIELD

The present invention generally relates to building materials and more particularly relates to window sill flashing for a window frame to prevent the ingress of water.

BACKGROUND OF THE INVENTION

Typical wall construction techniques include forming a rough opening from framing members such that a window opening is formed. The bottom portion of the window opening (called the sill) is susceptible to rotting if water is not prevented from penetrating from around the window perimeter. Additionally, adjacent ceilings, plastered walls, and the like are susceptible to damage if rain-water infiltrates under the window sill.

Many systems are used to solve the problem of water intrusion. One method includes providing a means to collect and control the water that does infiltrate the window perimeter. Alternatively, surface sealing agents, such as caulk, expanding foam, and the like are used as filling agents to fill openings between the periphery of the window and the adjacent, wall surfaces. However, over time, the filling agents have a tendency to dry, crack and shrink, thereby exposing gaps which provide a passageway for water to infiltrate the window perimeter.

SUMMARY OF THE INVENTION

The present invention is directed towards a window sill flashing comprising a base having a substantially rectangular shape. A front flange projects perpendicularly downward from a front edge of the base and at least one side flange extends vertically from a side edge of the base. The side flange includes a front surface. The window sill flashing is made from a vacuum formed, rigid homopolymer vinyl film.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is an isometric view of a wall having a window opening and a flashing according to an embodiment of the present invention.

FIG. 2 is an isometric view of a flashing and window assembly according to an embodiment of the present invention.

FIG. 3 is a cross-sectional view taken along line 3-3 of FIG. 2.

FIG. 4 is an isometric view of the flashing and window assembly according to an alternate embodiment of the present invention.

FIG. 5 is a cross-sectional view taken along line 5-5 of FIG. 4.

FIG. 6 is a isometric view of the flashing according to yet another alternate embodiment of the present invention.

FIG. 7 is a cross-sectional view taken along line 7-7 of FIG. 6.

FIG. 8 is an isometric view of the flashing according to still yet another alternate embodiment of the present invention.

FIG. 9 is a cross-sectional view taken along line 9-9 of FIG. 8.

FIG. 10 is a perspective view of a wall having a window opening covered with housewrap.

FIG. 11 is a perspective view of a wall having a window opening with the housewrap folded to the proper positions for window installation.

FIG. 12 is a perspective view of a wall having a window opening with a first portion of the flashing of the present invention installed.

FIG. 13 is a perspective view of a wall having a window opening with a second portion of the flashing installed.

FIG. 14 is a perspective view of a wall having a window opening with two flashing portions taped according to an embodiment of the present invention.

DETAILED DESCRIPTION

Referring to FIG. 1, a window sill flashing (hereinafter referred to as “flashing”) 10 is generally shown according to an embodiment of the present invention. The flashing 10 is formed to fit within and snugly conform to a bottom portion 12 of a window opening 14 of a wall 15. Window opening 14 has a width W and is adapted to accept a window assembly 13. As illustrated, the face portion (or flange) 22 of flashing 10 is generally U-shaped and constructed as one piece. The flashing 10 comprises a base 16, a first side flange 18 integrally formed with base 16 at one end, a second side flange 20 integrally formed with base 16 at an opposite end, and a front flange 22 integrally formed with base 16. Preferably base 16, side flanges 18, 20 and front flange 22 are all vacuum formed from, a common sheet. Front (U-shaped) flange 22 extends perpendicularly downward from an edge of base 16. First side flange 18 includes a front surface 18a and second side flange 20 includes a front surface 20a. The flashing 10 is glued, calked, taped, or otherwise permanently secured within window opening 14. It is contemplated that flashing 10 of FIG. 1 is formed in various standard size lengths and widths to accommodate various standard window openings 14 and wall thicknesses.

FIGS. 2 and 3 illustrate a first alternative embodiment of the flashing of FIG. 1, wherein like features are indicated by the same reference number. Flashing 10a is fabricated as two separate portions 10a′ and 10a″. Portions 10a′ and 10a″ form the left and right side of flashing 10. Alternatively, flashing 10a is fabricated as a one piece member with a length (prior to cutting) that spans beyond the width W of window opening 14. Prior to installation of flashing 10a into window opening 14, flashing 10a is cut, resulting in portions of flashings 10a′ and 10a″. It can be appreciated that flashing 10a may be cut at any point along its length, so long as flashings 10a′ and 10a″ fit within window opening 14. Thereafter, portions 10a′ and 10a″ are placed so that they partially overlap one another in a region 24 producing flashing 10a having length L that is generally equal to the width W of window opening 14. FIG. 3 is a cross-sectional view of the overlap region 24 of portions 10a′ and 10a″. One advantage of flashing 10a is that flashing 10a may be cut to size in the field to accommodate any width W of window opening 14.

FIGS. 4 and 5 illustrate a further alternate embodiment of the flashing of the present invention. Flashing 10b is similar to flashing 10 and flashing 10a, except portions of flashing 10b′ and 10b″ do not overlap at region 24, Instead, portions 10b′ and 10b″ are separated by a gap 26. As illustrated, gap 26 is narrow relative to the width W of window opening 14. However, it can be appreciated that gap 26 may be any desired length. For instance, gap 26 may expose a substantial portion of width W of window opening 14. Further, gap 26 may be optionally covered with a sill flashing cap 28.

FIGS. 6 and 7 illustrate a further embodiment of the flashing of the present invention. Flashing 10c is substantially similar to flashing 10a; however, flashing 10c includes a rear, vertical rising wall 30 to further impede the ingress of water. Rear, vertical rising wall 30 is located along an edge of base 16, opposite of front flange 22 and extends perpendicularly upward from base 16.

FIGS. 8 and 9 illustrate yet another embodiment of the flashing of the present invention. Flashing 10d is substantially similar to flashing 10b; however, flashing 10b includes rear, vertical rising wall 30.

FIGS. 10-14 illustrate the steps for installing flashing 10 within window opening 14. Initially, the window opening 14 is covered with housewrap 32. Housewrap 32 is then cut along perforated lines 34. Perforated lines 34 divide housewrap 32 into upper section 32a, lower section 32b, left side 32c and right side 32d. The lower section 32b and left and right sides 32c, 32d of housewrap 32 are folded inwardly, towards the interior surface of wall 15. Upper section 32a is rolled up towards the exterior of wall 15, in the direction of arrows A (see FIG. 11). Thereafter, flashing 10 or portions of flashing 10a″, 10b″, 10c″ or 10d″ are placed on top of bottom portion 12 of window opening 14 (see FIG. 12). FIG. 13 illustrate flashing portions 10a′, 10b′, 10c′, or 10d′ being placed along bottom portion 12. Finally, flashing 10 is secured to bottom portion 12. FIG. 14 illustrates flashing 10 being secured to bottom portion 12 with adhesive tape 36. Adhesive tape 36 is also used to seal the seam created by the overlap 24 between right and left portions of the flashing 10. Where there is no overlap 24, adhesive tape 36 may be used to cover the bottom portion 12 of window opening 14. Thereafter, a window 13 is installed within window opening 14.

The flashing 10 of the present invention is preferably manufactured from sheets of thermoforming film, such as a rigid homopolymer vinyl film, or polyvinyl chloride (PVC), or the like. The preferable material properties for flashing 10 are listed in the table below:

Property	Units	Value
Gauge Range	Mils	7.5-35
Gauge Tolerance	%	±5
Specific Gravity	—	1.33
Material Yield (Nominal)	in.2/lb.	2770 (7.5 mil)
		2080 (10.0 mil)
		1390 (15.0 mil)
		1040 (20.0 mil)
Tensile Strength (Yield)	lb./in.2	6600
Elongation (Break)	%	180
Tensile Impact Strength	ft-lb./in.2	275
Cold Break Temperature	° C.	−30
Heat Deflection Temperature at 264 psi	° F.	162
Gloss	%	115

It can be appreciated that the flashing 10 may be covered with a silicone coating for ease of manufacturing and separation of the flashing 10 and for ease in installation of window assembly 13. Flashing 10 is preferably fabricated using vacuum forming techniques. Vacuum forming flashing 10 from thin gage material allows the first and second side flanges 18, 20 to be substantially perpendicular to base 16. The material properties, including the material thickness, provides flexibility to flashing 10, thus allowing the vacuum forming dies to separate from the flashing 10 once the vacuum forming process is completed. Additionally, vacuum forming flashing 10 allows the material to have a minimum thickness (as thin as 7.5 mils). Therefore, when portions of flashing 10 overlap, the resultant gap under the flashing 10 is minimal and does not allow water intrusions.

Due to the geometry and thinness of flashing 10, flashing 10 cannot be manufactured using an injection molding process. If flashing 10 were to be manufactured by injection molding, the minimum thickness feasible for flashing 10 is 40 mm, significantly higher than the practical thickness of flashing 10 formed by the vacuum forming process. Moreover, to maintain the perpendicularity of surfaces 16, 18, 20 and 22 over the depth of base 16, flashing 10 would require ribs, or support struts, to be molded into base 16. These ribs would detract from the functionality of flashing 10. Furthermore, it would be necessary to include ports along base 16 to ensure that sufficient material flows across and covers the entire base 16. These ports would give rise to dimples, or other imperfections in the surface of base 16. The imperfections could create gaps or openings along the window sill, thereby comprising the water impermeability of flashing 10. Even with the use of ports along base 16, obtaining complete flow coverage of injected material is problematic because the preferred depth of base 16 is in the range of 1 inches to 3¼ inches.

The embodiments disclosed herein have been discussed for the purpose of familiarizing the reader with novel aspects of the invention. Although preferred embodiments of the invention have been shown and described, many changes, modifications and substitutions may be made by one having ordinary skill in the art without necessarily departing from the spirit and scope of the invention as described in the following claims.

Claims

1. A method of forming a window frame assembly for a building, the method including the steps of: forming an opening in a wall for receiving a window assembly, the opening being defined to include a left bottom corner opposing a right bottom corner located at opposite sides of the opening;covering the opening in the wall with a housewrap having perforated lines which divide the housewrap into a plurality of sections including a left side and a right side;cutting the housewrap along the perforated lines into the plurality of sections;folding inwardly the right side and the left side towards an interior surface of the wall;providing a first one piece sill flashing that includes: i. a base having a substantially rectangular shape;ii. a front flange projecting perpendicularly downward from a front edge of the base;iii. at least one side flange extending vertically from a side edge of the base, the at least one side flange including a front surface, the front surface being coplanar with the front flange and extending perpendicularly from the at least one side flange;iv. wherein the first one piece sill flashing is made from a common sheet of thermoforming film;providing a second one piece sill flashing that includes: i. a base having a substantially rectangular shape;ii. a front flange projecting perpendicularly downward from a front edge of the base;iii. at least one side flange extending vertically from a side edge of the base, the at least one side flange including a front surface, the front surface being coplanar with the front flange and extending perpendicularly from the at least one side flange;iv. wherein the second one piece sill flashing is made from a common sheet of thermoforming film;wherein the first one piece sill flashing is configured to fit in the left bottom corner of the opening, and the second one piece sill flashing is configured to fit in the right bottom corner of the opening;placing the first one piece sill flashing in the left bottom corner of the opening onto the housewrap;placing the second one piece sill flashing in the right bottom corner of the opening and partially overlapping the first one piece sill flashing; andwherein each of the first one piece sill flashing and the second one piece sill flashing are sufficiently thin that the first one piece sill flashing and the second one piece sill flashing cannot be manufactured using an injection molding process.

2. The method of claim 1, wherein the first one piece sill flashing and the second one piece sill flashing consist of a thin gauge material having a thickness in a range of 7.5-35 mils.

3. The method of claim 2, wherein the base of each of the first one piece sill flashing and the second one piece sill flashing has a rear wall that extends perpendicularly upward along a rear edge of the base.

4. The method of claim 1, wherein the base of each of the first one piece sill flashing and the second one piece sill flashing has a rear wall that projects vertically upward from a rear edge of the base.

5. The method of claim 1, wherein the first one piece sill flashing and the second one piece sill flashing are covered with a silicone coating.

6. The method of claim 1, wherein the method includes applying adhesive tape to seal a seam created by an overlap between the first one piece sill flashing and the second one piece sill flashing.

7. The method of claim 6, wherein the first one piece sill flashing and the second one piece sill flashing consist of a thin gauge material having a thickness in a range of 7.5-35 mils.

8. The method of claim 7, wherein the base of each of the first one piece sill flashing and the second one piece sill flashing has a rear wall that extends perpendicularly upward along a rear edge of the base.

9. The method of claim 6, wherein the base of each of the first one piece sill flashing and the second one piece sill flashing has a rear wall that extends perpendicularly upward along a rear edge of the base.

10. The method of claim 1, wherein the method includes adhering the first one piece sill flashing and the second one piece sill flashing with an adhesive tape to a bottom portion of the opening.