This invention relates generally to carpet tiles and a method of designing carpet tiles having patterns and color schemes that allow for placement of the carpet tiles in any orientation with respect to adjacent carpet tiles while still achieving the appearance of broadloom carpet.
Traditionally, proper placement of carpet tiles has been necessary to give the appearance of seamless broadloom carpet or at least the appearance of a carpet tile installation in which tiles are not out of place or misplaced. Conventional carpet tiles, particularly including tufted, fusion bonded, or woven face carpet tiles, normally have a “direction” as a result of (1) the pattern on the tiles and/or (2) the manufacturing process.
After the carpet web is cut into the tiles, the tiles must be oriented on the floor so that their pattern aligns with the patterns on adjacent tiles or with the appearance of adjacent tiles. Most carpet tiles are square. If a first carpet tile is placed on the floor, a second tile may be placed in four different positions relative to each side of the first tile by rotating the second tile in 90 degree increments relative to the first carpet tile and by placing the second tile adjacent to each of the four sides of the first tile. In only one of the second tile's four rotational positions is the second tile oriented in the same “direction” as the first tile, so that both tiles are in the same rotational orientation as they were relative to each other in the carpet web from which they were cut or as they came off of the carpet producing machine. Moreover, some patterns used on carpet tiles require that the second tile be placed only adjacent to a particular side or sides of the first tile, rather than adjacent to any of the four sides of the first tile.
Furthermore, because of the manufacturing process, even solid color tiles without any pattern usually have a nap orientation or “direction.” Additionally, minor variations in color require that carpet tiles in a particular installation all use yarn dyed in the same dye lot to avoid visually discernable differences between adjacent carpet tiles resulting from variations in dying.
Therefore, not only must the patterns of adjacent tiles be aligned, adjacent tiles must be placed so that the nap is oriented in the same direction, and it is frequently necessary to insure that adjacent tiles, and sometimes all tiles in a particular installation, were dyed or have fiber dyed at the same time. If one carpet tile in an installation is oriented improperly with respect to adjacent carpet tiles, it is usually readily apparent that the tile has been misplaced, thereby destroying the appearance of continuity of pattern, nap, and color of the entire carpet tile installation. The carpet installer, therefore, must spend valuable time during installation ensuring proper orientation of the tiles.
This invention addresses the above-described problems by providing carpet tiles and a method of making carpet tiles having patterns and color schemes that obviate the need to orient the tiles (with respect to pattern or nap) relative to each other and that generally eliminate the need to match tiles as to dye lot. Instead, the tiles exhibit orthogonal ambiguity, meaning that tiles may be laid in any side-by-side orientation with respect to adjacent tiles without looking out of place to the ordinary viewer and thereby still achieving an appearance of continuity across the entire installation as if the tiles were part of a broadloom web.
“Orthogonally ambiguous” tiles must be positioned in one of sixteen positions relative to each other tile. Such positioning is achieved by rotating adjacent tiles in ninety degree increments relative to each other. A “rotational position indeterminate” carpet web pattern can be imaged in which any tile can be cut from the web in any rotational position relative to any other tile cut from the web, including a rotational position displaced by other than ninety degree increments (e.g. forty-five degrees). However, cutting tiles from a web at such orientations would generally produce substantial waste and be impractical.
The orthogonally ambiguous tiles of this invention are produced by first producing a carpet web having a pattern exhibiting the characteristics described herein and then cutting the web into tiles in the conventional ways that tiles are typically cut from a carpet web produced for that purpose. The web has a pattern of shapes having at least some straight edges that will parallel the tile edges but that appear to be randomly oriented and positioned within the pattern. The shapes are formed from a color or combination of colors so that adjacent shapes on each tile have at least one color in common. Furthermore, each tile always has at least one color in common with every other tile, so that when the tiles are laid, the colors on adjacent tiles coordinate. All of the colors typically should have similar intensities so that no one color significantly stands out from the other colors.
Because the pattern on each tile appears random, placement of the tiles on the floor in any orientation simply creates a larger, apparently random pattern, rendering it impossible for any tile to look out of place. Such randomness masks the visual effects of having adjacent carpet tiles with misaligned or differently-oriented naps and also masks slight color variations resulting from dye lot differences. The presence, within the pattern, of shapes with edges parallel to the edges of the tile insures that, if the shapes are partitioned when the web is cut into tiles, the partitioned shapes will not appear out of place, since the shapes of the pattern already include elements, having straight edges parallel to at least one of the tile edges, similar to the partitioned shapes, which have a straight edge defined by the straight edge of a panel. Given the apparent randomness of the pattern and color scheme, worn or soiled tiles in a particular installation may easily be replaced with an unused tile without the new tile looking as dramatically different from the remaining tiles as often results with tiles with conventional patterns.
It is thus an object of this invention to provide carpet tiles that may be laid in any orientation with respect to each other and still achieve the appearance of a continuous piece of broadloom carpet.
The file of this patent contains at least one drawing executed in color. Copies of this patent with color drawing(s) will be provided by the Patent and Trademark Office upon request and payment of the necessary fee.
The pattern produced on web 22 produces tiles with shapes that appear randomly positioned on the tile. Only shapes having certain characteristics are usable. First, at least some of the shapes must have straight sides parallel to the “machine” and “cross-machine” direction of the web 22, and therefore parallel to the tile edges. For instance, shape 32 in
Size of the shapes within the pattern is also important, as is lateral position of the shapes within the web. The shapes must generally be small enough so that several shapes will end up positioned within each tile. Otherwise, the fraction or fractions of larger shapes falling on a particular carpet tile would potentially look odd. Shapes should be positioned laterally within the web so that longitudinal partition lines 24, 25, and 26 do not partition a shape so that an oddly narrow portion falls on one of the tiles.
Each tile preferably has the same background color. At least one color, different from the background color, is used to form the shapes on the tile. Regardless of how many colors are used, all of the colors should have similar intensities so that no one color significantly stands out from the other colors. Note that multiple shapes may be, and preferably should be, formed on each tile. It is important, however, that each shape have at least one color in common with adjacent shapes on the tile. Use of multiple shapes and colors contributes to the apparent random quality of the pattern, thereby making an installation of such tiles appear to be continuous without regard to the orthogonal orientation of the tiles within the installation.
While the adjacent shapes of each tile have at least one color in common, additionally, each tile preferably has at least one color in common (in addition to the background color) with every other tile, so that when the tiles are laid, the colors on adjacent tiles will coordinate.
Because the pattern on each tile appears random, placement of the tiles on the floor in any orientation simply creates a larger, apparently random pattern, rendering it impossible for any tile to look out of place. Such apparent randomness obviates the need to align the nap or “direction” of adjacent tiles, as misaligned naps further enhance the random appearance of the carpeting. Such randomness also masks color variation resulting from dye lot differences.
In summary, the “rules” for creating a pattern in accordance with this invention are:
The carpet web 22 shown in
For ease of manufacture, in the embodiment shown in
The background color A (in this instance, yellow) is tufted over the entirety of the carpet web 22. The patterns of the outer portions BC of the web 22 are further formed from alternating colors B and C (light green and dark green, respectively, in this embodiment). As explained above, the color of the yarn that is tufted with the greatest tuft height in the finished carpet tile is the more predominant color to the ordinary observer. Thus, creating patterns with colors B and C requires that the yarn be tufted so that the height of the yarn tufts of colors B and C varies with respect to each other. In other words, if a shape of color B is desired, then the yarn of color B is tufted to form yarn tufts that are higher than the surrounding yarn tufts formed by yarn of color C so that color B is more predominant than color C and thereby forms the pattern shape. Directly adjacent the outer portions BC, the patterns of middle portions CD are further formed from alternating colors C and D (dark green and blue, respectively, in this embodiment). Finally, the patterns of center portion DE are further formed from alternating colors D and E (blue and purple, respectively, in this embodiment).
While the carpet web 22 may be divided into any number of tiles, the carpet web 22 of
Moreover, adjacent tiles have at least one color in common (in addition to the background color). For example, tile 1 and tile 2 have both color C and color D in common. When the tiles are placed on the floor, therefore, the colors on these adjacent tiles blend to facilitate the appearance of continuity.
The foregoing is provided for the purpose of illustrating, explaining and describing embodiments of the present invention. Further modifications and adaptations to these embodiments will be apparent to those skilled in the art and may be made without departing from the spirit of the invention or the scope of the following claims. For instance, different shapes and sizes of shapes than those illustrated can be used. Similarly, a wide variety of color combinations are possible. Furthermore, while the embodiment described above is tufted, the face fabric could also be woven on a conventional or computer controlled Jacquard or other loom, and the face fabric could be fusion bonded or formed in other manners. This invention could also be used for modular flooring or surface covering materials other than carpet tile, such as vinyl tile.
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20020136855 A1 | Sep 2002 | US |