1. Field of the Invention
The present invention relates to roofing systems, and particularly to a roofing system having shingles or other roof coverings attached to the roof without nails.
2. Description of the Related Art
As housing has evolved over the years, shingles have become the standard in protection of a house's roof. Shingles are generally typically laid onto roofs using thousands of nails for every one thousand square feet of coverage. This method requires that installers secure these thousands of nails to the roof, which involves an inordinate amount of effort. The use of nails also means that once a shingle is laid, it is difficult to remove it if it is damaged. Further, each nail translates into thousands of potential leaks in the roof.
Therefore, a method of affixing shingles to a roof that does away with the use of nails would save a great deal of time and potential roof damage. However, it is essential that any nailless shingle-mounting system provide a very secure way to affix the shingles to the house, because wind, inclement weather, tearing, or curling of the shingles will result in an unprotected roof.
Accordingly, there is a need for a roofing system that does not use nails, but additionally secures the shingles tightly to the roof and also to each other if necessary. Thus, a roofing system solving the aforementioned problems is desired.
The roofing system allows for numerous shingles to be attached to the roof of a house without using nails. The shingles are tightly affixed to the roof with a series of fasteners releasably interlocking the shingles to each other and also attaching the shingles to the surface of the roof.
The roofing system includes a single foundation layer of hook and loop fastening material and a plurality of shingles attached to the foundation layer. The foundation layer is attached to the roof either with an adhesive or with any other type of adherent. The foundation layer may be affixed to a water-resistant base sheet that is secured to the roof by adhesive or in any other manner. The shingles each have a roof attachment layer of hook and loop fastening material affixed to the entire bottom surface of the shingle. A first row of shingles is laid onto the foundation layer, securing the first row of shingles to the roof. On the upper portion of the top surface of each of the shingles is an overlap layer of hook and loop fastening material. The lower portion of the top surface of the shingle is, when laid, the exposed material that protects the roof, and may be made of asphalt, fiberglass or the like.
A second row of shingles is set onto the first row of shingles so that the lower portion of the roof attachment layer of each shingle in the second row secures to the overlap layer of a shingle in the first row of shingles. The upper portion of the roof attachment layer of each shingle in the second row attaches to the foundation layer, allowing the second row of shingles to affix both to the roof and to the first row of shingles. This process continues until the roof is completely covered with the shingles and only the exposed lower portions of each row is visible.
The shingles may include a lateral strip of hook and loop fastening material on the lateral edge of each shingle. When the shingles are laid next to each other, a first shingle partially overlaps the lateral edge of an adjacent shingle. The roof attachment layer of the first shingle mates with the lateral strip of hook and loop fastening material of the second shingle. Thus, the laterally adjacent shingles are releasably held to each other, providing a tighter hold to the roof.
By interlocking laterally adjacent shingles to each other and locking rows of shingles to subsequent rows, and additionally to the foundation layer, the roofing system provides a high level of resistance against wind, tearing, curling, and the like.
These and other features of the present invention will become readily apparent upon further review of the following specification and drawings.
Similar reference characters denote corresponding features consistently throughout the attached drawings.
The present invention is a roofing system that attaches shingles to a roof of a house without the use of nails. The roofing system, designated generally as 10 in the drawings, also interlocks the shingles to each other and to the roof surface.
Before the shingles 14 are laid, the foundation layer 12 is affixed directly onto the roof R. The foundation layer 12 may be attached to the roof R with an adhesive, stapling or any other nailless attachment device. Once a first row of shingles 14 is affixed to the foundation layer 12, a second row of shingles 14 is placed on top of the first row so that the rows overlap each other. The rows of shingles 14 are laid in such a way that the entire roof R is eventually covered by the shingles 14.
Turning now to
The roof attachment layer of hook and loop fastening material 28 covers the entire bottom surface 26 of the shingle 14, and therefore, when the shingle 14 is laid, provides a greater level of resistance against accidental tearing, inclement weather, and curling than if the bottom surface 26 had only a portion, e.g., the upper portion, covered with the hook and loop fastening material. Covering the entire bottom surface 26 of the shingle 14 with the roof attachment layer of hook and loop fastening material 28 provides a stronger hold against the roof R surface, and permits interlocking the shingles 14.
After the foundation layer 12 is set onto the roof R, a first row of shingles 14a is laid on the foundation layer 12. The roof attachment layer of hook and loop fastening material 28, attached to the entire bottom surface 26 of the shingle 14, mates with the foundation layer 12 to fasten the shingle 14 to the roof R. A second row of shingles 14b is then laid onto the first row of shingles 14a. The lower portion 18 of the roof attachment layer of hook and loop fastening material 28 of the second row shingles 14b mates with the overlap layer of hook and loop fastening material 24 affixed to the upper portion 16 of the top surface 20 of the first row shingles 14a. The upper portion 16 of the roof attachment layer 28 of the second row shingles 14b mates with the foundation layer of hook and loop fastening material 12, allowing the second set of shingles 14b to be releasably attached both to the roof R and to the first row of shingles 14a. Thus, there is greater reinforcement of the shingles 14a and 14b to the house. Layers of shingles 14 are continually laid, row upon row, until the roof R is entirely covered with the shingles 14.
Turning now to
Although one lateral strip is shown, a second lateral strip of hook and loop fastening material 50 may be affixed to the opposite lateral edge of the top surface of the shingle 14.
While hook and loop fasteners have been shown, any other nailless fastener may be used to mate the shingles to the roof and to one another, including opposing magnets or magnetic sheeting, snaps, rivets, porous contacts, nano products, clasps, zippers, suction devices, pins, ionized material, snap-rivets, tape, zip ties, twist ties, organic material, or any other suitable material.
It is to be understood that the present invention is not limited to the embodiment described above, but encompasses any and all embodiments within the scope of the following claims.