The present invention generally relates to siding materials for use on exterior walls of houses and other structures. More particularly, the invention is directed toward panels of siding having indicia defining a zone into which a fastener should be placed to install the panel.
The exterior surfaces of houses and other structures are often protected by exterior siding products made from wood, vinyl, aluminum, bricks, stucco, fiber-cement, and other materials. Wood and fiber-cement siding products, for example, are generally panels, planks, or shakes that are “hung” on plywood or composite walls. Although wood siding products are popular, wood siding can become unsightly or even defective because it may rot, warp, or crack. Wood siding products are also highly flammable and subject to insect damage. Therefore, wood siding products have several drawbacks.
Fiber-cement siding products are relatively new and offer several advantages compared to other types of siding materials. Fiber-cement siding is generally a composite material composed of cement, silica sand, cellulose, and binders. To form fiber-cement siding panels and planks, a liquid fiber-cement composite is rolled or pressed into the shape of the panels or planks, and then the fiber-cement composite is cured. Fiber-cement siding is advantageous because it is nonflammable, weatherproof, and relatively inexpensive to manufacture. Moreover, fiber-cement siding does not rot and insects do not consume the fiber-cement composites.
Fiber-cement siding products are typically installed by a builder, a siding contractor at a particular job site, or a modular home manufacturer in a factory. To install fiber-cement siding panels, for example, the panels are cut to a desired length and then nailed to plywood or wood-composite panels in a manner similar to hanging panels of cedar siding. Some fiber-cement siding panels include a single embossed, horizontal line to assist the installer with the alignment and overlap distance of adjacent panels. Trim materials can be attached to the structure before or after the fiber-cement siding is installed. The fiber-cement siding and the trim materials are subsequently painted.
One concern with fiber-cement siding is that some installers do not or cannot read the installation instructions, and consequently fail to attach the fiber-cement siding to the structure properly, such as nailing the siding in an improper location. More specifically, installers sometimes place nails at a position that is either too high or too low on a panel when attaching the panel to a wall. When fiber-cement siding is installed using the blind nail method, nails that are placed too low on the panel will be visible even after the overlying panel of fiber-cement siding is attached. Alternatively, if the nail is placed too high on the panel, the bottom edge of an overlying panel may not lay against the top surface of the underlying panel. Consequently, the overlying panel may rattle when windows or doors in the structure are closed or in high winds. Moreover, a high nail on an overlying panel of fiber-cement siding may cause the panel to appear to be warping or buckling even though fiber-cement panels cannot warp or buckle because they are inert. This appearance creates a poor image for fiber-cement sidings, and consumers are very sensitive to siding failures. Furthermore, improperly installed siding can void the warranty and be costly to repair. Therefore, there is a significant need to assist installers in properly attaching fiber-cement siding to structures.
The present invention is directed toward siding materials having indicia defining a zone into which fasteners should be placed, and methods for manufacturing and installing these panels. In one embodiment, the siding panel includes a panel of siding material having a first edge extending along a first dimension, a second edge spaced apart from the first edge a first distance, and a first side with indicia. The indicia define a zone into which at least one fastener should be placed to install the panel. The zone extends along the first dimension and has a width of approximately 0.2 inch to approximately 0.3 inch. The zone has a center line spaced apart from the first edge a second distance of approximately 7 percent to approximately 22 percent of the first distance. The siding material is composed of a continuous, single fiber-cement compound including cement, silica, and cellulose fiber. In a further aspect of this embodiment, the indicia can include marks embossed and/or printed on the first side of the panel. The indicia can also include a first line and a second line spaced apart from the first line. In another aspect of this embodiment, the zone is a first zone, the indicia are first indicia, and the panel further includes second indicia defining a second zone that is spaced apart from the first zone.
In another embodiment of the invention, a siding panel includes a first longitudinal edge extending along a longitudinal dimension, a second longitudinal edge spaced apart from the first longitudinal edge by a first width transverse to the longitudinal dimension, and indicia. The indicia define a zone into which at least one fastener should be placed to install the panel. The zone extends along the longitudinal dimension and has a second width of approximately 0.2 inch to approximately 0.3 inch. The zone includes a center line that is spaced apart from the first longitudinal edge a first distance of approximately 0.7 inch to approximately 1.3 inches.
Another embodiment of the invention is directed to a method of manufacturing siding panels. The method includes forming indicia indicating a zone into which fasteners should be placed on a first side of the siding panel. The panel has a first edge extending along a first dimension and a second edge opposite the first edge. The zone extends along the first dimension and has a width of approximately 0.2 inch to 0.3 inch. The zone is also spaced apart from the first edge a distance of approximately 0.7 inch to approximately 1.3 inches. In a further aspect of this embodiment, forming indicia can include embossing, stamping, printing, and/or molding.
The following disclosure describes several embodiments of siding panels having indicia defining a fastening zone and methods for manufacturing and installing siding panels having indicia defining a fastening zone. The term “panel” is used throughout to include planks, shakes, and other siding materials. The term “fastener” is used throughout to include nails, screws, staples, adhesive, and any other fastening device or medium. Several embodiments of the invention are set forth in
A. Siding Panels
The panel 100 also includes a first side 110 having indicia 132 indicating a zone 130 into which at least one fastener should be placed to install the panel 100. The indicia 132 can include a first line 134a extending generally parallel to the upper longitudinal edge 112 and a second line 134b spaced apart from the first line 134a by a zone width W2. In one embodiment, the zone width W2 can be approximately 0.2 inch to approximately 0.3 inch; in a further aspect of this embodiment, the zone width W2 can be approximately 0.25 inch. In other embodiments, the zone width W2 can be greater than 0.3 inch or less than 0.2 inch. The first and second lines 134a and 134b can be solid or dashed lines that are embossed, stamped, printed, marked, molded or otherwise formed on the first side 110 of the panel 100. In the illustrated embodiment, the first and second lines 134a and 134b define the zone 130, which extends from the first end 116 to the second end 118. The zone 130 includes a center line 136 equidistant from the first and second lines 134a and 134b. The center line 136 can be spaced apart from the upper longitudinal edge 112 by a distance D1 of approximately 1 inch to approximately 1.3 inches; in a further aspect of this embodiment, the distance D1 can be approximately 1.125 inches. In other embodiments, the distance D1 can be greater than 1.3 inches or less than 1 inch. In additional embodiments, the distance D1 can be from approximately 7 percent to approximately 22 percent of the width W1 of the panel 100. In other embodiments, such as those described below with reference to
B. Methods for Installing Siding Panels
One advantage of the panels illustrated in
C. Methods for Manufacturing Siding Panels
D. Other Siding Panels
From the foregoing, it will be appreciated that specific embodiments of the invention have been described herein for purposes of illustration, but that various modifications may be made without deviating from the spirit and scope of the invention. Accordingly, the invention is not limited except as by the appended claims.
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Number | Date | Country | |
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20040107663 A1 | Jun 2004 | US |