The invention relates to storage sheds and other building structures and more particularly to an improved roof assembly method and apparatus.
There are many different roofing constructions in existence today that utilize different materials and construction methodologies. The most common roofing construction is to nail or screw fasteners perpendicularly through the roof cladding or panels and into the roof framing members. With this design it is possible for the fasteners to pull out of the frame. Moreover, with most roof constructions it is necessary for the person installing the roof to be outside on top of the roof. This presents a health and safety risk to the person installing the roof. This risk may be even greater in do-it-yourself applications where the person is relatively inexperienced.
Thus, an improved roof construction is desired.
A frame is constructed to support a roof. A plurality of panels can be slid into position on the frame from the ground. A mating channel joint is formed between adjacent panels that allows one panel to be slid over the adjacent panel into the proper position. The panels engage frame members to properly position the panels on the roof. The roof panels are formed with mounting structures located on the interior surface thereof. The mounting structures include holes or other receptacles for receiving a rigid connector member. The frame members are also provided with receptacles for receiving the connector member. The roof panels are located on the frame members such that the mounting structure of one roof panel is aligned with the mounting structure of the adjacent panel and both mounting structures are aligned with a receptacle formed on the framing member. The connector member may be inserted through the first mounting structure, through the receptacle in the frame member and through the mounting structure of the adjacent panel. The connector member can be inserted through the panels and frame member from the interior of the structure such that the installer does not have to be on the roof during installation.
The roof assembly of the invention is shown generally at 1 in the figures and consists of a plurality of roof panels 2a through 2n. In one embodiment the roof panels may be constructed of blow-molded plastic. Such a roof construction is commonly used in pre-fabricated storage sheds. While the construction method of the invention has particular use in such sheds it will be appreciated that the roof assembly method and apparatus of the invention has utility in any structure or building having an installed roof. While the panel has been described as being constructed of blow-molded plastic it could be made of other materials including extruded plastic, polymer composite, wood, steel, fiberglass or any other suitable roofing material.
The roof sections are supported and separated by a ridge cap 3 at the top of the roof. Corner caps 5 separate and support the roof at each of the hip joints. While a hip roof is illustrated it is to be understood that the method and apparatus of the invention may be used on roofs having different configurations.
Referring to
Panel 2b is formed with a downwardly extending protrusion 18 that properly positions the roof panel on the frame member 20. Panel 2b has a chamfered downwardly extending protrusion 22 that also properly positions the roof panel on frame member 20. The protrusions 18 and 22 may extend for the length of the panel or may extend for a portion of the length of the panel including being arranged in segments.
The frame members 20 have a generally T-shaped cross-section where the panels rest on the top of the frame members. The frame members 20 extend along the seams between adjacent panels in the assembled roof and extend between the ridge cap 3 or corner cap 5 and the side walls 35 of the structure to support the roof panels. The frame members 20 may have a cross-section other than the illustrated T-shape. The frame members 20 may be made of extruded aluminum or polymer, pultruded polymer, wood or other rigid material.
To join the components, a first mounting structure 25 is located on the bottom surface of the panel and extends from panel 2b toward the interior of the building such that it is located under the panel when the panel is in place on the roof. The mounting structure may be formed integrally with the panel or it may be formed as a separate component such as a bracket secured to the panel. A through hole 26 is formed in mounting structure 25. A second mounting structure 27 extends from panel 2c toward the interior of the building such that it is located under the panel when the panel is in place on the roof. The mounting structure may be formed integrally with the panel or it may be formed as a separate component such as a bracket secured to the panel. A through hole 28 is formed in mounting structure 27. Through holes 26 and 28 are aligned with one another when the panels are properly positioned on the frame member 20. A through hole 30 is formed on frame member 20 that is aligned with through holes 26 and 28 when the panels are properly positioned on the frame member 20.
A rigid member such as a polymer or aluminum pin or rod 32 is inserted through holes 26, 28 and 30 to connect these members together. In one embodiment the pin 32 is retained in the through holes by a tight friction fit. The pin 32 may be coined or flattened at one end to increase the engagement by deforming slightly the material of the panels and/or frame member. Other mechanisms for securing the pin 32 in the panels and frame member may also be used such as forming screwthreads on the end of the pin that are engaged by mating nuts, using separate fasteners to engage the pin such as cotter pins, using a snap fit, deforming the pin or the like.
Once the pin 32 is inserted into the panels and frame member, separate fasteners 33 may be used to further secure these elements together. For example the fasteners may comprise self-threading machine screws that are driven up through the frame 20 and into the panels.
As is evident from the foregoing all of the structure required to secure the roof panels 2a through 2n to one another and to the frame members 20 is located interior of the building. As a result it is not necessary for the installer to climb onto the roof, or, depending on the height of the roof, even onto a high ladder, to install the roof panels. The system of the invention has particular application in storage sheds, storage buildings and other similar structures where the height of the roof in the assembled structure may be about eight feet. While the system of the invention has particular applicability in such structures it may be used in any structure.
Referring to
The engagement of the panel with corner cap 5 is shown in greater detail in
Flange 6 of panel 2a sits on the frame member 20 as previously described with the upper edge 36 of the panel trapped in the corner cap 5. It will be appreciated that flange 6 of panel 2a is supported on top of a frame member 20 such that the frame member that supports panel 2a is not visible in
After panel 2a is properly located on the frame, panel 2b is slid into position. Specifically, flange 10 of panel 2b rests on and slides over flange 6 of panel 2a. Flange 6 of panel 2b rests on and slides over frame member 20. Panel 2b is slid towards the top of the structure in the direction of arrow A until the top edge 43 of panel 2b fits into ridge cap 3 and the edge 41 fits into corner cap 5.
A more detailed view of the ridge cap 3 is shown in
Because the panels span the entire distance between the lower edge of the roof and either the ridge cap 3 and/or corner cap 5, the panels can be pushed into place by a person from the outside of the building. Most people will be able to push the panels in place while standing on the ground or on a low ladder or step stool such that it is not required for a person to be on top of the roof to install the panels.
The panels are secured together using the pin and mounting structure as previously described with respect to
While the illustrated embodiment shows a particular size roof, it will be understood that the structure could be made larger or smaller by adding roof sections. The illustrated roof shows features such as a dormer 42 and skylight 44. These features are built into the panel before the roof is assembled such that the features can be added without changing the assembly steps of the roof. In the illustrated embodiment the features are mounted to a single roof panel.
While embodiments of the invention are disclosed herein, various changes and modifications can be made without departing from the spirit and scope of the invention. One of ordinary skill in the art will recognize that the invention has other applications in other environments. Many embodiments are possible. The following claims are in no way intended to limit the scope of the invention to the specific embodiments described above.
This application claims the benefit of priority under 35 U.S.C. §119(e) to the filing date of U.S. Provisional Application No. 60/808,402 filed on May 25, 2006, which is incorporated herein by reference in its entirety.
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