SELF-SPACING LAP SIDING PRODUCT

Abstract

A lap siding product with a unique shiplap joint that spaces abutting pieces of siding correctly from each other without installer measurements. The shiplap joint comprises a bottom element and a top element. A lap siding panel or board has a bottom element shiplap joint at one end, and a top elements shiplap joint at the other end. The corresponding ends of two lap siding panels or boards (i.e., one bottom element and one top element) together form the unique shiplap joint of the present invention. An engineered stop on the underside of the top element spaces the pieces of siding correctly, without requiring measurement during installation. This also eliminates the need for caulk, pan flashing or joint covers in the joint between the pieces of siding or cladding. The shape of the joint also reduces the intrusion of water, and re-directs water down and out from behind the siding.

Claims

1. A lap siding system, comprising: a pair of lap siding panels, each panel comprising an outer face, an inner face, a first end and a second end, wherein the first end of one panel is configured to meet with and form a shiplap joint with the second end of the other panel; wherein the first end comprises a stop element disposed on the inner face configured to position a corresponding second end at a pre-determined spacing distance when forming the shiplap joint.

2. The lap siding system of claim 1, wherein the first end of each panel comprises a top shiplap joint element, and the second end of each panel comprises a bottom shiplap joint element, wherein the top shiplap joint element overlaps in whole or in part the corresponding bottom shiplap joint element when forming the shiplap joint.

3. The lap siding system of claim 2, wherein the top shiplap joint element and the bottom shiplap joint element are equal in thickness.

4. The lap siding system of claim 2, wherein the top shiplap joint element is thicker than the bottom shiplap joint element.

5. The lap siding system of claim 2, wherein the top shiplap joint element is thinner than the bottom shiplap joint element.

6. The lap siding system of claim 1, wherein the stop element is configured to break off when the pair of panels expand.

7. The lap siding system of claim 2, wherein the stop element extends longitudinally parallel to an inner face of the top shiplap joint element

8. The lap siding system of claim 2, wherein the stop element extends perpendicularly from the top shiplap joint element

9. The lap siding system of claim 2, further comprising one or more drainage grooves or channels in the top or bottom shiplap joint element, or both.

10. The lap siding system of claim 2, further comprising a visual indexing spacing feature in the bottom shiplap joint element.

11. The lap siding system of claim 2, wherein the visual indexing spacing feature in the bottom shiplap joint element also comprises a drainage groove or channel.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0005] FIG. 1 shows a cross-section view of a lap siding product in accordance with an embodiment of the present invention.

[0006] FIG. 2 shows another view of a lap siding product in accordance with another embodiment of the present invention.

[0007] FIG. 3 shows yet another view of a lap siding product in accordance with another embodiment of the present invention.

[0008] FIG. 4 shows a cross-section view of the lap siding product of FIG. 1 with an integrated water drainage channel and visual indexing line.

[0009] FIG. 5 shows a cross-section view of the lap siding product of FIG. 1 with integrated water drainage channels.

DETAILED DESCRIPTION OF EXEMPLARY EMBODIMENTS

[0010] In various exemplary embodiments, as seen in FIGS. 1-5, the present invention comprises a lap siding product with a unique shiplap joint 10 that spaces abutting pieces of lap siding 2, 4 correctly from each other without measurements taken or needed by the installer. The shiplap joint 10 comprises a bottom element 2a and a top element 4a, each extending from the respective piece of lap siding 2, 4. A piece of lap siding panel or board has a bottom element 2a for a shiplap joint at one end, and a top element 4a for a shiplap joint at the other end. The corresponding ends of two abutting lap siding panels or boards (i.e., one providing a bottom element, and the other providing a top element) together form the unique shiplap joint of the present invention.

[0011] A stop 20a, b, c is engineered on or adjacent to the underside of the top element to spaces the pieces of siding correctly, without requiring measurement during installation. The stop may form an angled wedge or triangular section 20a (see FIG. 1) or a rectilinear section or tab 20b (see FIG. 2) extending from the lower portion of the lap siding in or near the corner with the top element. The stop also may form a wedge, triangular or rectilinear section or tab 20c extending from the underside of the top element, as seen in FIG. 3. The stop may be a section of wood (or whatever material is used for the siding panels) cut-out, engineered, or otherwise integrated with the corresponding piece of siding, although in some embodiment, the stop may be added to the siding in the proper position.

[0012] The length or location of the stop serves as a stop point for the end of the lap siding with the bottom element to rest against. The stop is strong enough to allow proper placement of the two pieces of siding at the proper distance (as indicate by the front-side spacing 30 between the siding pieces) during installation. As described below in more detail, post-installation, as the siding pieces expand or elongate length-wise, the stop is pushed against and either moved, deflected or broken off if expansion and/or elongation is large enough.

[0013] As seen in FIGS. 1-3, the abutting lap siding products can be equal or approximately equal in thickness. In one exemplary embodiment, the lap siding panel total thickness ranges from to 1, while the stop is located or is long enough to provide 1/16 to spacing. The relative thicknesses of the bottom and top shiplap joint elements may vary, but as shown in the figures, together equal the lap siding panel thickness. In one embodiment, the bottom element shiplap thickness ranges from approximately 20% to approximately 80% of the lap siding panel thickness, while the top element shiplap thickness is equal to the lap siding panel thickness less the bottom element shiplap thickness (i.e., the corresponding bottom or top element comprises the remaining percentage of that thickness).

[0014] The stop can extend for the width of the siding or cladding, or only part of the width. For example, a line of periodic stops may extend across the width of the siding or cladding.

[0015] As seen in FIG. 4, a groove or channel 50 may be machined or cut into the outer/upper face of the bottom element (this feature can be used with any version of the stop). This groove or channel serves as an integrated water drainage channel helping to prevent water or moisture from migrating through the joint itself behind the siding panels (i.e., water traveling from the exterior migrates to the channel, where it then travels down the channel and out). As seen in FIG. 4, the groove or channel may be located appropriately to also serve as a visual indexing line for proper gapping of the siding panels during installation. The location of the groove or channel can be elsewhere on the face of the bottom element (or even on the underside of the top element) if use as a visual indexing line is not required.

[0016] In several embodiments, as seen in FIG. 5, multiple grooves or channels 50 may be provided. If multiples are provided, one may be positioned to serve as a visual indexing line, as described above. The groove(s) or channel(s) may be of any suitable size or configuration (e.g., to 3/16 wide by up to in depth, in the embodiment shown). They may extend straight across the width of the siding panel, or form a sine wave, alternating angles, or other patterns. Where multiple grooves or channels are used, they may not intersect, or some or all may intersect to form various grids or patterns. They also may all be of the same size or configuration, or may vary (i.e., different widths and depths).

[0017] After installation, as the pieces of siding expand or contract upon exposure to various weather conditions, the siding panels often will expand or elongate length-wise. In a prior art joint, this expansion would often lead to buckling or distortion in the siding panels, and in the joints. With the present invention, the stop is pushed against and either moved, deflected or broken off if expansion and/or elongation is large enough, thereby allowing expanding or elongation in the pieces of siding through the joint without resulting or causing buckling or distortion in the siding panels themselves or in their joints.

[0018] The present invention also eliminates the need for caulk, pan flashing or joint covers in the joint between the pieces of siding or cladding, as the design of the joint addresses weather-relation buckling and expansion and water intrusion. The shape of the joint reduces the intrusion of water, and re-directs water down and out from behind the siding.

[0019] The siding or cladding may be manufactured from a variety of materials utilized for such purposes, including, but not limited to, wood, engineered wood composites, and cellulose fiber cement.

[0020] Thus, it should be understood that the embodiments and examples described herein have been chosen and described in order to best illustrate the principles of the invention and its practical applications to thereby enable one of ordinary skill in the art to best utilize the invention in various embodiments and with various modifications as are suited for particular uses contemplated. Even though specific embodiments of this invention have been described, they are not to be taken as exhaustive. There are several variations that will be apparent to those skilled in the art.