The invention is related to an insulated fiber cement siding.
A new category of lap siding, made from fiber cement or composite wood materials, has been introduced into the residential and light commercial siding market during the past ten or more years. It has replaced a large portion of the wafer board siding market, which has been devastated by huge warranty claims and lawsuits resulting from delamination and surface irregularity problems.
Fiber cement siding has a number of excellent attributes which are derived from its fiber cement base. Painted fiber cement looks and feels like wood. It is strong and has good impact resistance and it will not rot. It has a Class 1(A) fire rating and requires less frequent painting than wood siding. It will withstand termite attacks. Similarly composite wood siding has many advantages.
Fiber cement is available in at least 16 different faces that range in exposures from 4 inches to 10.75 inches. The panels are approximately 5/16 inch thick and are generally 12 feet in length. They are packaged for shipment and storage in units that weigh roughly 5,000 pounds.
Fiber cement panels are much heavier than wood and are hard to cut requiring diamond tipped saw blades or a mechanical shear. Composite wood siding can also be difficult to work with. For example, a standard 12 foot length of the most popular 8¼ inch fiber cement lap siding weighs 20.6 pounds per piece. Moreover, installers report that it is both difficult and time consuming to install. Fiber cement lap siding panels, as well as wood composite siding panels, are installed starting at the bottom of a wall. The first course is positioned with a starter strip and is then blind nailed in the 1¼ inch high overlap area at the top of the panel (see
Current fiber cement lap siding has a very shallow 5/16 inch shadow line. The shadow line, in the case of this siding, is dictated by the 5/16 inch base material thickness. In recent years, to satisfy customer demand for the impressive appearance that is afforded by more attractive and dramatic shadow lines virtually all residential siding manufacturers have gradually increased their shadow lines from ½ inch and ⅝ inch to ¾ inch and 1 inch.
Disclosed herein are embodiments of foam backing panels for use with lap siding and configured for mounting on a building. One such embodiment of the foam backing panel comprises a rear face configured to contact the building, a front face configured for attachment to the lap siding, alignment means for aligning the lap siding relative to the building, means for providing a shadow line, opposing vertical side edges, a top face extending between a top edge of the front face and rear face and a bottom face extending between a bottom edge of the front face and rear face.
Also disclosed herein are embodiments of lap board assemblies. One such assembly comprises the foam backing panel described above, with the alignment means comprising alignment ribs extending a width of the front face, the alignment ribs spaced equidistant from the bottom edge to the top edge of the front face. A plurality of lap boards is configured to attach to the foam backing panel, each lap board having a top edge and a bottom edge, the top edge configured to align with one of the alignment ribs such that the bottom edge extends beyond an adjacent alignment rib.
Also disclosed herein are methods of making the backing and lap board. One such method comprises providing a lap board and joining a porous, closed cell foam to a substantial portion of a major surface of the fiber cement substrate, the foam providing a drainage path through cells throughout the foam.
The description herein makes reference to the accompanying drawings wherein like reference numerals refer to like parts throughout the several views, and wherein:
a is a portion of the installation board shown in
a is a sectional view of an upper ship lap joint;
b is a sectional view of a lower ship lap joint;
a is a sectional view of the fiber cement board of the prior art panel;
b-8d are sectional views of fiber cement boards having various sized shadow lines;
a shows the cement board in
b shows the cement board in
c shows the cement board in
The invention outlined hereinafter addresses the concerns of the aforementioned shortcomings or limitations of current fiber cement siding 10.
A shape molded, extruded or wire cut foam board 12 has been developed to serve as a combination installation/alignment tool and an insulation board. This rectangular board 12, shown in
With reference to
Typical fiber cement lap siding panels 10 are available in 12 foot lengths and heights ranging from 5¼ inches to 12 inches. However, the foam boards 12 are designed specifically for a given profile height and face such as, Dutch lap, flat, beaded, etc. Each foam board 12 generally is designed to incorporate between four and twelve courses of a given fiber cement lap siding 10. Spacing between alignment ribs 14 may vary dependent upon a particular fiber cement siding panel 10 being used. Further size changes will naturally come with market requirements. Various materials may also be substituted for the fiber cement lap siding panels 10.
One commercially available material is an engineered wood product coated with special binders to add strength and moisture resistance; and further treated with a zinc borate-based treatment to resist fungal decay and termites. This product is available under the name of LP SmartSide®. manufactured by LP Specialty Products, a unit of Louisiana-Pacific Corporation (LP) headquartered in Nashville, Tenn. Other substituted materials may include a combination of cellulose, wood and a plastic, such as polyethylene. Therefore, although this invention is discussed with and is primarily beneficial for use with fiber board, the invention is also applicable with the aforementioned substitutes and other alternative materials such as vinyl and rubber.
The foam boards 12 incorporate a contour cut alignment configuration on the front side 20, as shown in
To install the fiber cement siding, according to the present invention, the installer must first establish a chalk line 26 at the bottom of the wall 28 of the building to serve as a straight reference line to position the foam board 12 for the first course 15 of foam board 12, following siding manufacturer's instructions.
The foam boards 12 are designed to be installed or mated tightly next to each other on the wall 28, both horizontally and vertically. The first course foam boards 12 are to be laid along the chalk line 26 beginning at the bottom corner of an exterior wall 28 of the building (as shown
As the exterior wall 28 is covered with foam boards 12, it may be necessary to cut and fit the foam boards 12 as they mate next to doorways. windows, gable corners, electrical outlets, water faucets, etc. This cutting and fitting can be accomplished using a circular saw, a razor knife or a hot knife. The opening (not shown) should be set back no more than ⅛ inches for foundation settling.
Once the first course 15 has been installed, the second course 15′ of foam boards 12 can be installed at any time. The entire first course 15 on any given wall should be covered before the second course 15′ is installed. It is important to insure that each foam board 12 is fully interlocked and seated on the interlocking tabs 16 to achieve correct alignment.
The first piece of fiber cement lap siding 10 is installed on the first course 15 of the foam board 12 and moved to a position approximately ⅛ inches set back from the corner and pushed up against the foam board registration or alignment rib 14 (see
With reference to
Thereafter, a second course of fiber cement siding 10′ can be installed above the first course 10 by simply repeating the steps and without the need for leveling or measuring operation. When fully seated up against the foam board alignment rib 14, the fiber cement panel 10′ will project down over the first course 10 to overlap 34 by a desired 1¼ inches, as built into the system as shown in
The board 12, described above, will be fabricated from foam at a thickness of approximately 1¼ inch peak height. Depending on the siding profile, the board 12 should offer a system “R” value of 3.5 to 4.0. This addition is dramatic considering that the average home constructed in the 1960's has an “R” value of 8. An R-19 side wall is thought to be the optimum in thermal efficiency. The use of the foam board will provide a building that is cooler in the summer and warmer in the winter. The use of the foam board 12 of the present invention also increases thermal efficiency, decreases drafts and provides added comfort to a home.
In an alternate embodiment, a family of insulated fiber cement lap siding panels 100 has been developed, as shown in
The fiber cement composite siding panels 100 of the second preferred embodiment may be formed by providing appropriately configured foam backing pieces 132 which may be adhesively attached to the fiber cement siding panel 110.
The composite siding panels 100 according to the second preferred embodiment may be installed as follows with reference to
The new self-aligning, stack-on siding design of the present invention provides fast, reliable alignment, as compared to the time consuming, repeated face measuring and alignment required on each course with the present lap design.
The new foam backer 112 has significant flexural and compressive strength. The fiber cement siding manufacturer can reasonably take advantage of these attributes. The weight of the fiber cement siding 110 can be dramatically reduced by thinning, redesigning and shaping some of the profiles of the fiber cement 110.
The fiber cement siding panel may include a lip 144 which, when mated to another course of similarly configured composite fiber cement siding can give the fiber cement siding 110 the appearance of being much thicker thus achieving an appearance of an increased shadow line. Further, it is understood although not required, that the fiber cement siding panel 110 may be of substantially reduced thickness, as stated supra, compared to the 5/16″ thickness provided by the prior art. Reducing the thickness of the fiber cement siding panel 110 yields a substantially lighter product, thereby making it far easier to install. A pair of installed fiber cement composite panels having a thickness (D′) of 0.125″ or less is illustrated in
The present invention provides for an alternate arrangement of foam 112 supporting the novel configuration of fiber cement paneling. In particular, the foam may include an undercut recess 132 which is configured to accommodate an adjacent piece of foam siding. As shown in
No special tools or equipment are required to install the new insulated fiber cement lap siding 100. However, a new starter adapter or strip 150 has been designed for use with this system, as shown in
The siding job can be started at either corner 29. The siding is placed on the starter adapter or strip 150 and seated fully and positioned, leaving a gap 154 of approximately ⅛ inches from the corner 29 of the building. Thereafter, the siding 100 is fastened per the siding manufacturer's installation recommendations using a nail gun or hammer to install the fasteners 36. Thereafter, a second course of siding 115′ can be installed above the first course 115 by simply repeating the steps, as shown in
The lamination methods and adhesive system will be the same as those outlined in U.S. Pat. Nos. 6,019,415 and 6,195,952B1.
The insulated fiber cement stack-on sliding panels 100 described above will have a composite thickness of approximately 1¼ inches. Depending on the siding profile, the composite siding 100 should offer a system “R” value of 3.5 to 4.0. This addition is dramatic when you consider that the average home constructed in the 1960's has an “R” value of 8. An “R-19” side wall is thought to be the optimum in energy efficiency. A building will be cooler in the summer and warmer in the winter with the use of the insulated fiber cement siding of the present invention.
While the invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the fiber cement siding board disclosed in the invention can be substituted with the aforementioned disclosed materials and is not to be limited to the disclosed embodiments but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims, which scope is to be accorded the broadest interpretation so as to encompass all such modifications and equivalent structures as is permitted under the law.
This application is a continuation of U.S. patent application Ser. No. 13/186,520, filed Jul. 20, 2011, now U.S. Pat. No. 8,756,891, which is a continuation of U.S. patent application Ser. No. 12/817,313, filed on Jun. 17, 2010, which is a divisional of U.S. patent application Ser. No. 11/025,623, filed on Dec. 29, 2004, now U.S. Pat. No. 7,762,040, which claims priority to U. S. Provisional Patent Application Ser. No. 60/600,845 filed on Aug. 12, 2004. The disclosures of these applications are hereby fully incorporated by reference in their entirety.
Number | Date | Country | |
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60600845 | Aug 2004 | US |
Number | Date | Country | |
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Parent | 11025623 | Dec 2004 | US |
Child | 12817313 | US |
Number | Date | Country | |
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Parent | 13186520 | Jul 2011 | US |
Child | 14311665 | US | |
Parent | 12817313 | Jun 2010 | US |
Child | 13186520 | US |