Deck Surfacing
A deck surfacing system is installed over an existing surface. The deck surfacing system comprises a plurality of planks. Spacers are located between at least some of the planks. The planks have top, bottom, and side surfaces. The side surfaces of the planks have side recesses. When installed, portions of the spacers are embedded in the side recesses of the planks. In addition to spacing the planks horizontally, the spacers can resist vertical and/or lengthwise movement of adjacent planks.
There are many settings in which it is desirable to provide a deck surface. A deck surface is a surface made of a series of planks For example, decks for homes are popular deck surfaces. In another example, boardwalks are deck surfaces popular in parks and as sidewalks in public areas.
Deck surfaces can provide several attractive qualities. For example, deck surfaces can easily shed water because the water can drain off the deck surface between the planks In another example, deck surfaces can provide a more natural appearance than concrete or asphalt surfaces.
However, deck surfaces can have drawbacks. For example, deck surfaces can be difficult to install and maintain. In this example, wood planks can splinter, warp, or become discolored over time, necessitating replacement of the planks or the entire deck surface. In another example, the solid wood planks used in deck surfaces can be expensive.
SUMMARYIn one embodiment, a deck surface system is installed over an existing surface, such as an existing deck surface. The deck surface system comprises a plurality of planks and a plurality of spacers. Each of the planks has two side surfaces, a top surface, and a bottom surface. The side surfaces have recesses designed to receive portions of the spacers. During installation, the installer positions the spacers between the planks. The installer then places planks adjacent to one another such that the head portions of the spacers enter the recesses in the side surfaces of the planks.
The deck surfacing system 100 can be installed over various types of existing indoor or outdoor surfaces. For instance, in the example of
The deck surfacing system 100 comprises a plurality of planks 106. For visual clarity,
In various embodiments, the planks 106 can comprise various materials. For example, in some embodiments, the planks 106 substantially consist of an engineered wood. For instance, in this example, the planks 106 can entirely consist of the engineered wood. Alternatively, in this example, the planks 106 can consist of 90% or more of the engineered wood. Example types of engineered wood include particleboard, fiberboard, wood-plastic composite board, parallel strand lumber, veneer-based engineered wood, medium-density fiberboard, waferboard, glued laminated timber, laminated veneer lumber, or other types of product that are manufactured by binding the strands, particles, fibers, or veneers of wood together with adhesives. In some embodiments, the planks 106 in the deck surfacing system 100 comprise different materials or the composition of the materials in the planks 106 can differ.
As illustrated in the example of
In some embodiments, the height and the width of the plank 106 are substantially consistent along an entire length of the plank 106. For example, the height and the width of the plank 106 can be greater than 95% consistent along an entire length of the plank 106.
Furthermore, the plank 106 has a top surface 200, a bottom surface 202, and side surfaces 204A and 204B (collectively, “side surfaces 204”). The top surface 200 and the bottom surface 202 are located on opposite sides of the plank 106 from one another. The side surfaces 204 are located on opposite sides of the plank 106 from one another.
In some embodiments, the top surface 200 has a decorative pattern. For example, the top surface 200 can have a wood grain pattern. In this example, patterned indentations in the top surface 200 can enhance the aesthetic appearance of the wood grain pattern and can make the plank 106 less slippery.
In some embodiments, the top surface 200 has a non-slip coating. For example, the top surface 200 can have a rubberized coating. The non-slip coating serves to make the plank 106 less slippery. The non-slip coating may be advantageous in areas that are frequently wet, such as the areas around swimming pools, boardwalks, residential decks, outdoor exhibition platforms, and so on.
In the example of
In the example of
In some instances, the bottom recesses 206 can help to prevent the growth of mold between the bottom surface 202 of the plank 106 and the existing surface 102. The growth of mold between the bottom surface 202 of the plank 106 and the existing surface 102 can be undesirable because mold can generate allergens, bad odors, and can accelerate the decay of the existing surface 102. Mold frequently thrives in warm, moist environments. If freely-moving air was excluded from a sufficiently large area under the plank 106, water absorbed by the existing surface 102 would not be able to escape into the air. This effect could lead to a buildup of moisture, and consequently mold. The bottom recesses 206 decrease the area under the plank 106 excluded from freely-moving air, thereby allowing excess moisture to escape from the existing surface 102. Hence, the bottom recesses 206 can help prevent the growth of mold between the bottom surface 202 of the plank 106 and the existing surface 102.
The side surface 204A is shaped to define a side recess 208A. The side surface 204B is shaped to define a side recess 208B. This document can refer to the side recess 208A and the side recess 208B collectively as the “side recesses 208.” The side recesses 208 extend into the plank 106 from the side surfaces 204.
In the example of
In some embodiments, the side recesses 208 are continuous grooves that extend substantially an entire length of the plank 106. For example, the side recesses 208 can be grooves that extend an entire length of the plank 106. In another example, the side recesses 208 can be grooves that extend most of the length of the plank 106, except within a few inches of each end of the plank 106. In such embodiments, the side recesses 208 are substantially parallel to the top surface 200 of the plank 106. For example, the side recesses 208 can be parallel to the top surface 200 of the plank 106 within 5%.
In other embodiments, the side recesses 208 can be a series of discrete, discontinuous indentations disposed at various locations along the lengths of the side surfaces 204. For example, the side surfaces 204 can define the side recesses 208 at regular intervals (e.g., every six inches) along the lengths of the side surfaces 204. In this example, each of the side recesses 208 can have lengths of one inch.
In various embodiments, the side recesses 208 can have various heights. For example, in some embodiments, the side recesses 208 have heights of approximately 1/8 inch. In another example, the side recesses 208 can have heights of 5/16 inch.
During installation of the deck surfacing system 100, an installer installs the plank 106A over the existing surface 102. After the plank 106A is installed, the installer places the plank 106B adjacent to the plank 106A. The installer then places a spacer 300 between the plank 106A and the plank 106B. The installer can place several spacers similar to the spacer 300 between the plank 106A and the plank 106B. The number of spacers used can depend on the lengths of the planks 106 and/or the preference of the installer.
As illustrated in the example of
In the example of
In the example of
The head 400 of the spacer 300 overhangs the foot 402 of the spacer 300. In various embodiments, the head 400 overhangs the foot 402 by various amounts. For example, in some embodiments, a distance by which the head 400 overhangs the foot 402 is greater than the depths of the side recesses 208 of the planks 106. In this example, the head 400 can, for example, overhang the foot 402 by 1/8 inch and the side recesses 208 can have depths of 1/16 inch. In another example, the distance by which the head 400 overhangs the foot 402 is approximately the same as the depths of the side recesses 208 of the planks 106.
When an installer installs the spacer 300 between the plank 106A and the plank 106B, portions of the head 400 enter the side recesses 208 of the planks 106A, 106B. By entering the side recesses 208 of the planks 106A, 106B, the head 400 can, in some embodiments, provide mechanical resistance to the vertical movement of the planks 106A, 106B relative to one another.
In the example of
In various embodiments, the foot 402 can have various widths. For example, in some embodiments, the foot 402 can have a width of ¼ inch. In another example, the foot 402 can have a width of 3/8 inch.
In some embodiments, the foot 402 contacts the side surfaces 204 of the adjacent planks 106A, 106B after installation of the adjacent planks The example of
In the example of
In various embodiments, the central passage 406 can serve various purposes. For example, a manufacturer of the spacer 300 can conserve raw materials by forming the spacer 300 with the central passage 406. In other words, if the spacer 300 did not have the central passage 406, more materials would be needed to manufacture the spacer 300. In another example, the central passage 406 can act to reduce the visibility of the spacer 300 after installation of the deck surfacing system 100.
Furthermore, in the example embodiment of
In some embodiments, the width of the top of the lip 410 substantially corresponds to the width of the foot 402. The top of the lip 410 can thus help the installer visually determine whether the foot 402 contacts the side surfaces 204 of the planks 106A, 106B. For instance, when the installer views the spacer 300 from above, the installer is not able to see the foot 402. Thus, the installer cannot see whether the planks 106A, 106B are in contact with the foot 402. As mentioned above, in some embodiments, the planks 106 are properly installed when the planks 106 are in contact with the foot 402. By observing that the side surfaces 204 of the planks 106A, 106B are approximately aligned with the upper end of the lip 410, the installer can learn that the foot 402 is in contact with the side surfaces 204 of the adjacent planks 106A, 106B.
Furthermore, in some embodiments, the installer can insert a fastener, such as a screw or a nail, through the central passage 406 of the spacer 300. The fastener secures the spacer 300 to the existing surface 102. Securing the spacer 300 to the existing surface can help to prevent movement of the planks 106A, 106B. In such embodiments, the lip 410 can help guide the fastener into the central passage 406. In addition, the lip 410, in conjunction with a head of the fastener, can resist vertical movement of the spacer 300.
The cleats 404 project from the spacer 300 in a direction substantially perpendicular to the lengths of the planks 106. For example, the cleats 404 can project upward or downward from the head 400 at angles between 75 and 90 degrees. In the example of
In the example of
In various embodiments, the cleats 404 serve various purposes. For example, in some embodiments, the planks 106 tend to expand or contract lengthwise due to changes in temperature. Because different planks 106 in the deck surfacing system 100 are exposed to different temperatures (e.g., due to some of the planks 106 being in sunlight and other ones of the planks 106 being in shade) different planks 106 can expand or contract by different amounts. This effect can lead to the planks 106 moving lengthwise relative to one another. The movement of the planks 106 relative to one another is typically not desirable. When an installer installs the spacer 300 between the adjacent planks 106A, 106B, some or all of the cleats 404 become embedded in the side surfaces 204 of the planks 106A, 106B. Because the cleats 404 are embedded in the side surfaces 204 of the planks 106A, 106B, the cleats 404 provide mechanical resistance to the relative lengthwise motion of the planks 106A, 106B.
The installer then positions the first plank at an appropriate location over the existing surface 102 (504). In various embodiments, the installer positions the first plank at various locations over the existing surface 102. For example, where the existing surface 102 is a residential deck, the installer can position the first plank at one edge of the deck. In this example, the installer can install the deck surfacing system 100 by progressively installing the planks 106 to the left or right of the first plank. In another example, the installer can position the first plank at a given position on the existing surface 102 and build the deck surfacing system 100 outward from both sides of the first plank.
In some embodiments, there is only a side recess on one side surface of the first plank. In other embodiments, both side surfaces of the first plank have side recesses.
After the installer positions the first plank at the appropriate location, the installer secures the first plank to the existing surface 102 (506). In various embodiments, the installer secures the first plank to the existing surface 102 in various ways. For example, the installer can bolt, clamp, nail, glue, rivet, screw, or otherwise fasten the first plank to the existing surface 102.
If, at this point, a last plank in the deck surfacing system 100 has not yet been attached to an already-installed plank in the deck surfacing system 100 (“NO” of 508), the installer cuts a given plank to an appropriate length (510). Next, the installer positions the given plank next to a plank in the deck surfacing system 100 that has already been installed (512). The installer positions the given plank such that the lengthwise axis of the given plank is generally parallel to the lengthwise axis of the already-installed plank.
The installer then positions one or more spacers between the given plank and the already-installed plank (514). In some embodiments, the spacers are of the type illustrated in the examples of
After positioning the spacers, the installer attaches the given plank to the already-installed plank (516). The installer attaches the given plank to the already-installed plank such that the heads of the spacers enter the side recesses of the given plank and the already-installed plank. In some embodiments, the feet of the spacers contact the side surfaces of the given plank and the next plank when the installer attaches the given plank to the already-installed plank.
In various embodiments, the installer can perform various actions to attach the given plank to the already-installed plank. For example, the installer can use a hammer or similar tool to tap the side surface of the given plank opposite the spacers. The force exerted by the hammer moves the given plank toward the already-installed plank. Furthermore, the force exerted by the hammer causes the heads of the spacers to enter the side recesses of the given plank and the already-installed plank. In addition, the force exerted by the hammer causes the cleats of the spacers to become embedded in the given plank and the already installed plank.
After attaching the given plank to the already-installed plank, the installer determines again whether the last plank in the deck surfacing system 100 has already been attached to an installed plank in the deck surfacing system 100. If the installer has already attached the last plank to an already installed plank (“YES” of 508), the installer secures the last plank in position over the existing surface 102 (518). In various embodiments, the installer secures the last plank to the existing surface 102 in various ways. For example, the installer can bolt, clamp, nail, glue, rivet, screw, or otherwise fasten the last plank to the existing surface 102. The operation 500 to install the deck surfacing system 100 is then complete.
In some embodiments, the installer does not directly secure one or more interior planks to the existing surface 102. Interior planks are the planks 106 that are between two other planks 106 in the deck surfacing system 100. Exterior planks are the planks 106 that are only adjacent to one other plank in the deck surfacing system 100. For example, in some embodiments, the first and last planks can be exterior planks In some such embodiments, the installer only secures the first and last planks to the existing surface 102.
In some embodiments, there is only a side recess on one side surface of the last plank. In other embodiments, both side surfaces of the last plank have side recesses.
Referring now to
Referring now to
The various embodiments described above are provided by way of illustration only and should not be construed as limiting. Those skilled in the art will readily recognize various modifications and changes that may be made without following the example embodiments and applications illustrated and described herein. For example, operations shown in the Figures are examples. In various embodiments, similar operations can include more or fewer steps than those shown in the Figures. Furthermore, in other embodiments, similar processes can include the steps of the operations shown in the Figures in different orders.
Claims
1. A deck surfacing system:
- a plurality of planks, each of the planks comprising:
- a top surface;
- a first side surface;
- a second side surface, the second side surface disposed opposite to the first side surface, the first side surface and the second side surface shaped to define side recesses;
- a bottom surface, the bottom surface disposed opposite the top surface; and
- a plurality of spacers positioned between the planks, portions of each of the spacers disposed within the side recesses of adjacent ones of the planks.
2. The deck surfacing system of claim 1, wherein the planks include exterior planks and interior planks, each of the interior planks positioned between two or more of the planks, one or more of the interior planks not secured directly to an existing surface.
3. The deck surfacing system of claim 1, wherein one or more of the spacers comprises one or more cleats embedded in the planks, the cleats projecting from the spacers in a direction substantially perpendicular to lengths of the planks
4. The deck surfacing system of claim 3, wherein the cleats act to resist motion of adjacent ones of the planks relative to each other.
5. The deck surfacing system of claim 1, wherein the spacers include a given spacer and the planks include a given plank, the given spacer comprising a foot and a head, the head entering the side recess of the given plank, the foot having a height sufficient to align the head with the side recess of the given plank when the given spacer rests on the foot.
6. The deck surfacing system of claim 5, wherein prior to installation of the given plank, an amount by which the head overhangs the foot is greater than a depth of the side recess of the given plank.
7. The deck surfacing system of claim 6, wherein after installation of the given plank, the foot is in contact with the side surface of the given plank.
8. The deck surfacing system of claim 1, wherein the planks include a given plank, wherein the side recesses of the given plank comprise grooves that extend at least a portion of a length of the given plank.
9. The deck surfacing system of claim 1, wherein the planks include a given plank, the bottom surface of the given plank having a shape that defines a bottom recess, the bottom recess extending upward into the given plank, the bottom recess extending substantially an entire length of the given plank.
10. The deck surfacing system of claim 9, the bottom recess permitting airflow between the given plank and an existing surface on which the given plank is installed.
11. The deck surfacing system of claim 1, wherein the planks substantially consist of engineered wood.
12. A method for installing a deck surfacing system over an existing surface, the method comprising:
- positioning a first plank on the existing surface, the first plank having a top surface, a first side surface, a second side surface, and a bottom surface, the first side surface of the first plank opposite the second side surface of the first plank, the second side surface of the first plank shaped to define a first side recess;
- positioning a second plank on the existing surface adjacent to the first plank, the second plank having a top surface, a first side surface, a second side surface, and a bottom surface, the first side surface of the second plank opposite the second side surface of the second plank, the first side surface of the second plank shaped to define a second side recess;
- positioning a spacer on the existing surface between the first plank and the second plank; and
- attaching the first plank to the second plank such that portions of the spacer enter the first side recess and the second side recess.
13. The method of claim 12,
- wherein after attaching the first plank to the second plank, a head of the spacer is disposed within the first side recess and the second side recess; and
- wherein positioning the spacer comprises positioning the spacer such that the spacer rests upright on a foot of the spacer, the head of the spacer being approximately a same distance above the existing surface as the first and second side recesses are above the existing surface when the spacer rests upright on the foot of the spacer.
14. The method of claim 12,
- wherein after attaching the first plank to the second plank, a head of the spacer is disposed within the first side recess and the second side recess; and
- wherein after attaching the first plank to the second plank, cleats of the spacer are embedded in the first plank and the second plank, the cleats projecting substantially vertically from the head of the spacer.
15. The method of claim 14,
- wherein prior to attaching the first plank to the second plank, a distance by which the head of the spacer overhangs a foot of the spacer is greater than a depth of the first side recess;
- wherein prior to attaching the first plank to the second plank, the distance by which the head of the spacer overhangs the foot of the spacer is greater than a depth of the second side recess; and
- wherein after attaching the first plank to the second plank, the foot of the spacer contacts the first plank and the second plank.
16. The method of claim 14, wherein after attaching the first plank to the second plank, the second side surface of the first plank and the first side surface of the second plank are approximately aligned with an upper end of a lip of a passage that extends through the spacer along a central axis of the spacer.
17. The method of claim 12, when the existing surface is an existing deck.
18. The method of claim 12, further comprising securing the first plank to the existing surface and not securing the second plank to the existing surface.
19. The method of claim 12, wherein attaching the first plank to the second plank comprises using a hammer to force the second plank toward the first plank.
20. The method of claim 12, wherein the second side surface of the first plank is shaped to define a series of discontinuous side recesses.
Type: Application
Filed: Mar 15, 2013
Publication Date: Oct 3, 2013
Inventor: Paul Roger Borowick (Eau Claire, WI)
Application Number: 13/833,491
International Classification: E04F 15/02 (20060101);