U.S. patent application number 15/088835 was filed with the patent office on 2016-07-28 for double image overprint carpet components and methods of making same.
The applicant listed for this patent is Mohawk Carpet Distribution, Inc.. Invention is credited to Clyde Ray Burgess, Paul Matthew Dabrowa.
Application Number | 20160215426 15/088835 |
Document ID | / |
Family ID | 55859805 |
Filed Date | 2016-07-28 |
United States Patent
Application |
20160215426 |
Kind Code |
A1 |
Burgess; Clyde Ray ; et
al. |
July 28, 2016 |
DOUBLE IMAGE OVERPRINT CARPET COMPONENTS AND METHODS OF MAKING
SAME
Abstract
Various embodiments of the present invention are directed to
carpet components and methods of making the carpet components. In
one embodiment, a carpet component is provided. The carpet
component includes a carpet substrate having a texture comprising a
pattern, wherein the pattern comprises a plurality of adjoining
design elements each defining a design and a boundary and wherein
the design elements are arranged so that the design of one design
element is not predictable from the design of an adjoining design
element; and an overprint disposed onto the carpet substrate
wherein the overprint comprises a plurality of adjoining design
elements each defining a design and a boundary and wherein the
design elements are arranged so that the design of at least one
design element is predictable from the design of an adjoining
design element.
Inventors: |
Burgess; Clyde Ray; (Dalton,
GA) ; Dabrowa; Paul Matthew; (Rocky Face,
GA) |
|
Applicant: |
Name |
City |
State |
Country |
Type |
Mohawk Carpet Distribution, Inc. |
Calhoun |
GA |
US |
|
|
Family ID: |
55859805 |
Appl. No.: |
15/088835 |
Filed: |
April 1, 2016 |
Related U.S. Patent Documents
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Application
Number |
Filing Date |
Patent Number |
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12364419 |
Feb 2, 2009 |
9332870 |
|
|
15088835 |
|
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61025693 |
Feb 1, 2008 |
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Current U.S.
Class: |
1/1 |
Current CPC
Class: |
A47G 27/02 20130101;
D05C 17/02 20130101; A47G 27/025 20130101; D05C 15/04 20130101;
D06N 7/0065 20130101; Y10T 428/23936 20150401; A47G 27/0243
20130101; B44F 5/00 20130101; D06N 2209/0815 20130101; D06Q 1/00
20130101; D05C 17/026 20130101; D06N 2209/083 20130101; A47G
27/0275 20130101; D05C 15/26 20130101; D06N 2209/0823 20130101 |
International
Class: |
D05C 17/02 20060101
D05C017/02; A47G 27/02 20060101 A47G027/02; B44F 5/00 20060101
B44F005/00 |
Claims
1. A carpet component comprising: a carpet substrate having a
texture comprising a pattern, wherein the pattern comprises a
plurality of adjoining design elements each defining a design and a
boundary and wherein the design elements are arranged so that the
design of one design element is not predictable from the design of
an adjoining design element; and an overprint disposed onto the
carpet substrate wherein the overprint comprises a plurality of
adjoining design elements each defining a design and a boundary and
wherein the design elements are arranged so that the design of at
least one design element is predictable from the design of an
adjoining design element.
2. The carpet component of claim 1, wherein the pattern and the
overprint design are offset relative to one another within the
carpet component.
3. The carpet component of claim 1, wherein the pattern comprises a
plurality of blocks of substantially the same size and wherein each
block defines at least one design element and the blocks are
arranged so that the design elements in one block are not
predictable from design elements in adjoining blocks.
4. The carpet component of claim 1, wherein the texture comprises
the pattern repeated in at least one linear direction within the
carpet substrate.
5. The carpet component of claim 4, wherein the overprint design
has a repeating design size and the pattern has a repeating pattern
size and wherein the repeating design size is different from the
repeating pattern size.
6. The carpet component of claim 4, wherein the overprint design
has a repeating design size and the pattern has a repeating pattern
size and wherein the repeating design size is offset relative to
the pattern size.
7. The carpet component of claim 1, wherein the pattern comprises
tufts having different heights.
8. The carpet component of claim 1, wherein the pattern formed in
the carpet substrate is formed by one of (a) different loop height,
(b) different cut pile height, (c) selective cut and uncut tufts or
a plurality of different yarn types.
9. The carpet component of claim 8, wherein the plurality of
different yarn types comprises a sulfonated cationic dyeable fiber
and a non-sulfonated cationic dyeable fiber.
10. A floor covering comprising: a plurality of carpet components
positioned in to define abutting portions, wherein each of the
carpet components comprises: a carpet substrate having a texture
comprising a pattern, wherein the pattern comprises a plurality of
adjoining design elements each defining a design and a boundary and
wherein the design elements are arranged so that the design of one
design element is not predictable from the design of an adjoining
design element; and an overprint disposed onto the carpet substrate
wherein the overprint comprises a plurality of adjoining design
elements each defining a design and a boundary and wherein the
design elements are arranged so that the design of at least one
design element is predictable from the design of an adjoining
design element, and wherein the overprint of adjacent carpet
components are in alignment along at least some of the abutting
portions of the carpet components.
11. The carpet component of claim 10, wherein the pattern formed in
the carpet substrate is formed by one of (a) different loop height,
(b) different cut pile height, or (c) selective cut and uncut
tufts.
12. The carpet component of claim 10, wherein the carpet substrate
comprises a plurality of different yarn types.
13. The carpet component of claim 12, wherein the plurality of
different yarn types comprises a sulfonated cationic dyeable fiber
and a non-sulfonated cationic dyeable fiber.
14. The carpet component of claim 10, wherein the pattern comprises
a plurality of blocks of substantially the same size randomly
arranged wherein each of the blocks defines a predictable
pattern.
15. The carpet component of claim 10, wherein the texture comprises
the pattern repeated in a linear direction within the carpet
substrate.
16. The carpet component of claim 15, wherein the overprint design
has a repeating design size and the pattern has a repeating pattern
size and wherein the repeating design size is different from the
repeating pattern size.
17. A method for creating a carpet component comprising the steps
of: creating a pattern having an unpredictable combination of
design elements; tufting yarn into a primary backing and creating a
carpet substrate having a texture defined by a plurality of repeats
of the pattern; and overprinting a design onto the carpet
substrate, wherein the design comprises a predictable combination
of design elements, and wherein the design and the pattern of the
carpet substrate are not registered.
18. The method of claim 17, wherein the step of creating a pattern
further comprises the steps of: dividing a design having a
predictable arrangement of design elements into a plurality blocks
having substantially similar shapes; and rearranging the blocks in
an unpredictable manner to create the pattern wherein at least some
of the design elements are discontinuous at a boundary between
individual blocks.
19. The method of claim 18, wherein the step of rearranging the
blocks includes varying the orientation of individual blocks.
20. The method of claim 17, wherein the step of creating a pattern
further comprises the steps of: dividing a design having a
predictable arrangement of design elements into a plurality blocks
having substantially similar shapes; and arranging at least some of
the blocks in an unpredictable manner to create the pattern.
21. The method of claim 17, wherein the step of creating a carpet
substrate having a texture comprises one of the follow: (a) forming
loops in the carpet substrate of differing heights, (b) forming a
pile surface of differing height, (c) selectively cutting at least
some tufts formed in the carpet substrate or (d) creating a carpet
substrate using a plurality of yarn types.
Description
CROSS-REFERENCE TO RELATED APPLICATIONS
[0001] This application is a continuation of U.S. patent
application Ser. No. 12/364,419, filed Feb. 2, 2009, which claims
the benefit of U.S. Provisional Application No. 61/025,693, filed
Feb. 1, 2008, which is incorporated by reference herein in its
entirety.
BACKGROUND OF THE INVENTION
[0002] A common challenge faced by the carpet industry is to
minimize the appearance of imperfections at the seams between
carpet sections when multiple carpet components are needed to cover
a particular area (e.g., multiple breadth and modular carpeting
installations). This issue can be compounded when design elements
within a single carpet component (e.g., broadloom carpet, a roll of
tufted carpet, and the like) are duplicated in adjacent carpet
components and/or extend into adjacent carpet components. If those
design elements are not perfectly duplicated within each carpet
component, the region around the seam can become visually obtrusive
and can draw attention to any imperfections, such as mismatched
color or misaligned design elements.
[0003] One known strategy for minimizing the appearance of
imperfections at the seams is to print a pattern onto individual
carpet components that provides such visual variety across the
installation as a whole that any variations at the transitions
between individual adjacent carpet components is less noticeable.
This technique uses busy, non-regular color patterns which visually
overwhelm the discontinuities at the boundaries. The carpet
components typically have a non-repeating design that shares common
colors and design elements among adjacent carpet components.
Although this strategy can be used, it becomes difficult to
maintain the non-repeating nature of the design as the number of
carpet components needed for a particular application increases.
Moreover, this technique limits a customer's design choices to
non-regular patterns. Accordingly, there is a need for improved
carpet components and designs thereof, which can minimize the
appearance of imperfections between adjacent carpet components
while increasing the design options for customers.
BRIEF SUMMARY OF THE INVENTION
[0004] Various embodiments of the present invention provide
improved carpet components and methods of making carpet components.
In one embodiment, a carpet component is provided. The carpet
component includes a carpet substrate having a texture comprising a
pattern, wherein the pattern comprises a plurality of adjoining
design elements each defining a design and a boundary and wherein
the design elements are arranged so that the design of one design
element is not predictable from the design of an adjoining design
element; and an overprint disposed onto the carpet substrate
wherein the overprint comprises a plurality of adjoining design
elements each defining a design and a boundary and wherein the
design elements are arranged so that the design of at least one
design element is predictable from the design of an adjoining
design element.
[0005] In a further embodiment, a floor covering is provided. The
floor covering includes a plurality of carpet components positioned
in to define abutting portions. Each of the carpet components
includes a carpet substrate having a texture comprising a pattern,
wherein the pattern comprises a plurality of adjoining design
elements each defining a design and a boundary and wherein the
design elements are arranged so that the design of one design
element is not predictable from the design of an adjoining design
element; and an overprint disposed onto the carpet substrate
wherein the overprint comprises a plurality of adjoining design
elements each defining a design and a boundary and wherein the
design elements are arranged so that the design of at least one
design element is predictable from the design of an adjoining
design element. The overprint of adjacent carpet components are in
alignment along at least some of the abutting portions of the
carpet components.
[0006] In another embodiment, a method for creating a carpet
component is provided. The method includes the steps of: creating a
pattern having an unpredictable combination of design elements;
tufting yarn into a primary backing and creating a carpet substrate
having a texture defined by a plurality of repeats of the pattern;
and overprinting a design onto the carpet substrate, wherein the
design comprises a predictable combination of design elements, and
wherein the design and the pattern of the carpet substrate are not
registered.
BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWING(S)
[0007] Having thus described the invention in general terms,
reference will now be made to the accompanying drawings, which are
not necessarily drawn to scale, and wherein:
[0008] FIGS. 1A-C is a schematic diagram illustrating a method of
creating an unpredictable pattern according to an embodiment of the
present invention.
[0009] FIGS. 2-5 are unpredictable patterns created using the
method illustrated in FIG. 1 in accordance with embodiments of the
present invention.
[0010] FIG. 6 is pictorial view of a carpet component having a
pattern formed in the substrate and an overprint design disposed
thereon in accordance with an embodiment of the present
invention.
DETAILED DESCRIPTION OF THE INVENTION
[0011] The present invention will now be described more fully
hereinafter with reference to the accompanying drawings, in which
some, but not all embodiments of the inventions are shown. Indeed,
these inventions may be embodied in many different forms and should
not be construed as limited to the embodiments set forth herein;
rather, these embodiments are provided so that this disclosure will
satisfy applicable legal requirements. Like numbers refer to like
elements throughout. In the following description, various
components may be identified as having specific values or
parameters, however, these items are provided as exemplary
embodiments. Indeed, the exemplary embodiments do not limit the
various aspects and concepts of the present invention as many
comparable parameters, sizes, ranges, and/or values may be
implemented. The terms "first," "second," and the like, "primary,"
"secondary," and the like, do not denote any order, quantity, or
importance, but rather are used to distinguish one element from
another. Further, the terms "a", "an", and "the" do not denote a
limitation of quantity, but rather denote the presence of "at least
one" of the referenced item.
[0012] Various embodiments of the present invention provide
improved carpet components and methods of making carpet components.
The carpet components may include a tufted carpet substrate or
print-base that has a traditional texture pattern (e.g., weave, cut
pile, "frieze") or a texture including a randomized pattern (e.g.,
unpredictable pattern), which may or may not be repeated to cover
the entire carpet component. A design or designs are then
overprinted on the patterned carpet substrate. The overprinted
designs can be any traditional design, which might be more
appropriate for broadloom installations, or any "scrambled"
designs, which might be more appropriate for modular installations.
The overprinted designs may be related or independent of the
pattern on the carpet substrate. In various embodiments, the
pattern in the carpet substrate is not registered with the
overprint disposed thereon.
[0013] Random or randomized, as used herein, is to be broadly
interpreted to encompass disjointed patterns that may or may not
repeat. A random or disjointed pattern is an unpredictable
combination of design elements, where the design elements have a
design and a boundary such as curves, lines, blocks or other
shapes. The unpredictability may take the form of a substantial
portion of the boundaries of the design elements are discontinuous.
In some embodiments, the pattern includes a plurality of adjoining
design elements in which each design element has a design and a
boundary. The design elements may be arranged so that the design of
one design element is not predictable from the design of adjoining
design elements.
[0014] FIGS. 1A-C illustrate a method of creating an unpredictable
pattern in accordance with various embodiments of the present
invention. The method starts with a pattern 10 that comprises a
predictable combination of design elements. The design 10 has a
width "w" and a length "1."
[0015] To create an unpredictable design, the design 10 may be
divided into a plurality of blocks of substantially uniform size to
create the divided design 20 illustrated in FIG. 1B. Some or all of
the blocks may then be rearranged to form the unpredictable pattern
30 as illustrated in FIG. 1C. For explanation purposes only, the
design elements within each of the blocks of the divided design 20
shown in FIG. 1B have been replaced by associated letters A-L in
FIG. 1C to illustrate the rearrangement of the design elements to
create the unpredictable pattern 30. Rearranging the blocks may
include changing the relative position of the block and/or the
relative orientation of the block. As a result of the
rearrangement, the design elements defined within the individual
blocks are no longer predictable from the design elements of
adjoining blocks. Each block in the illustrated embodiment has been
used once to form the unpredictable design 30, and the two designs,
i.e. the coherent design 10 and the unpredictable design 30, have
the same overall size.
[0016] FIG. 2 illustrates an unpredictable pattern 40 created using
the foregoing technique. Lines 41-46 have been added to illustrate
the boundaries between the individual blocks. As can be seen, the
rearrangement of the blocks creates discontinuities in at least
some of the design elements at the boundaries of the blocks.
Additionally, the rearrangement of the blocks results in the
designs of one design element within a particular block not being
predictable from the design of adjoining design elements in
adjoining blocks. FIGS. 3-5 are further examples of unpredictable
patterns created using this technique. In further embodiments, some
of the blocks from the original design may be used multiple times
or omitted, and the final unpredictable design may have a different
overall size than the original. Furthermore, the blocks and/or the
pattern may be scaled to produce a larger or smaller overall
design.
[0017] Although the illustrated designs use rectangular blocks,
other shapes such as squares, triangles, pentagons, octagons, or
other substantially uniform shapes could be used to create an
unpredictable design in conjunction with the present invention. It
should be understood that unpredictable or random patterns may be
created using any known or developed technique.
[0018] The unpredictable patterns shown in FIGS. 2-5 have a length
and width and may be repeated to form a texture across the carpet
substrate's width and length. In some embodiments, the width of the
carpet substrate is a multiple of the width of the unpredictable
pattern.
[0019] Embodiments of the present invention will now be described
wherein the carpet component includes a texture which is defined at
least in part by a pattern. The pattern includes a plurality of
adjoining design elements in which each design element has a design
and a boundary. The design elements are arranged so that the design
of one design element is not predictable from the design of
adjoining design elements. The overprint also defines a plurality
of adjoining design elements in which each design element has a
design and a boundary. However, these design elements are arranged
so that the design of one design element is predictable from the
design of adjoining design elements. It should be understood,
however, that other embodiments may include a predictable pattern
on the carpet substrate and an overprinted design that is an
unpredictable combination of design elements.
[0020] In further embodiments, both the carpet substrate pattern
and the overprint design include a plurality of adjoining design
elements in which each design element has a design and a boundary.
The design elements are arranged so that the design of one design
element is not predictable from the design of adjoining design
elements. These design elements may or may not be the same between
the texture and the overprint in this embodiment.
Carpet Substrate
[0021] The carpet substrate may be formed in a conventional manner
by stitching a plurality of yarns through a primary backing thereby
forming loops. The loops create the wear surface of the carpet
substrate. In some embodiment, the loops may be cut to form a pile
surface. Tufting machines typically have one or more needle bars
with a plurality of needles threaded with individual yarns. The
needle bars reciprocate to pass the needles carrying the yarn
through a moving primary backing substrate to form loops. Yarn is
fed to the needle bars from yarn feed rolls, which are typically
controlled by clutches or servomotors. Different tuft heights,
whether loop or cut, may be formed by controlling the clutches or
servomotors to feed more or less yarn to the needle bars. An
example of a textured surface having tufted pattern effects is
disclosed in U.S. Pat. Nos. 5,383,415 and 5,549,064, which are
incorporated herein by reference. In those patents, the feed of the
yarns to the needles of the needle bar is controlled to provide
selected high or low tufts in warpwise and weftwise adjacent
stitches.
[0022] In addition to patterns created by differences in loop or
pile height, patterns may also be formed by selectively cutting
specific loops while leaving other loops intact (i.e., cut and loop
construction). For example, a cut and loop construction can be
prepared such that the pile height is identical to the loop height.
Thus, the surface of the base layer has a uniform height, but is
still textured. Any combination of height-based and
non-height-based texture can be used to introduce the pattern in
the surface of the carpet substrate.
[0023] Returning to FIGS. 2-5, the light and dark sections of the
patterns may represent changes in texture to form the pattern. In
some embodiments, the light sections may represent a first pile
height and the dark sections may represent a second pile height
where the two heights are different. In other embodiments, the
light sections may represent a cut loop having a first height and
the dark sections may represent a non-cut loop having the same
height or a different height. It should be understood that any
combination of heights or textures may be used to implement the
unpredictable pattern.
[0024] Generally any fibers or yarns may be used to form the carpet
substrates. In some embodiments, the substrate includes
acid-dyeable fibers as well as sulfonated cationic dyeable fibers
(e.g., polyamide 6, polyamide 6.6, or the like). These fibers may
have varying luster levels. The use of these types of fibers allows
for multiple color shades to be observed in the overprint design
layer. By using two different types of fibers which have varying
luster levels or affinities for particular types of dyes,
additional patterns may be introduced into the carpet
substrate.
[0025] Additionally, the density or weight density of the carpet
substrate can be varied depending on the application. Once the
textured surface has been formed, it can be back-coated or
otherwise treated before applying the overprint design.
Overprint Design
[0026] As described above, various embodiments of the carpet
components generally have a patterned carpet substrate and an
overprinted design. The overprint design is disposed on the
patterned surface of the carpet substrate to form the carpet
component. In various embodiments, the overprint design is not
registered with the underlying carpet substrate pattern and has a
different pattern repeat size than the carpet substrate pattern.
Moreover, the carpet may shift width-wise (i.e. weft-wise) and may
stretch length-wise (i.e. warp-wise) as the carpet substrate is
overprinted and thus the relationship between the carpet substrate
texture and the overprinted design may be continually altered.
[0027] The overprint design can be produced using controlled dye
injection, screen printing, heat transfer printing, or other
processes. In various embodiments, a "ChromoJet" process is used to
inject dye into the carpet substrate. ChromoJets generally function
by injecting dye into the surface of the carpet substrate. The
process is similar to an office ink jet printer. The various jets
are arranged in groups, mounted on a print-head, which traverses
the carpet substrate. The computer-controlled jets open and close,
for example, up to 400 times per second. The color pressure injects
dye deep into the surface of the carpet substrate without any
machine parts touching the carpet substrate. In embodiments where
there is height-based texture in the carpet substrate, the color
pressure in the jets may be increased to color the side walls of
the higher pile.
[0028] Pre-metallized dyes may be used in some embodiments for
printing the overprint design layer(s). Using pre-metallized dyes
with a combination of sulfonated and non-sulfonated fibers can
produce different color shades because the two different types of
fiber have different affinities for pre-metallized dyes. This can
add a further pattern to the carpet component. Pre-metallized dyes
also have the benefit of excellent color fastness properties for
the overall carpet components. Still further, the use of sulfonated
cationic yarns imparts anionic-based stain resistance to the carpet
components. In some embodiments, sulfonated and non-sulfonated
yarns are alternated to create a pin-striping effect. Of course,
multiple different types of yarn may be use in any arrangement in
conjunction with embodiments of the present invention. Moreover,
any type of dye may be used as well.
[0029] Once the printed design has been added to the patterned
surface of the carpet substrate, the carpet component may be
steamed and washed in order to affix the color to the fibers and
remove any excess dyes and chemicals. Subsequently, the carpet
component may be subjected to additional printing steps wherein the
additional design components are printed on the first printed
patterned layer. Between each successive optional printing step,
the carpet component may be steamed and washed so as to prevent
bleeding of the colors from various layers of color or between
fibers. In some embodiments, the additional design layers are
superimposed or overlaid on the first overprint design layer to
form a single customized pattern montage. In other embodiments the
additional design layers may simply provide additional colors to
the first overprint design.
[0030] After the final steaming, washing and extraction processes
are administered to the printed substrate, the carpet component can
be treated with various topical agents to modify the surface
properties thereof. For example, the surface of the printed carpet
component can be treated with fluorochemicals and/or stainblockers
to provide soil and stain blocking capabilities. The specific
fluorochemicals/stainblockers and amounts to be applied would be
readily determinable by those skilled in the art to which this
disclosure pertains. Other compounds can be applied to the surface
of the printed carpet component to impart antibacterial,
antifungal, and antimicrobial characteristics. Similarly, the
specific antibacterial, antifungal, and antimicrobial compositions
and amounts to be applied would be readily determinable by those
skilled in the art to which this disclosure pertains. The resulting
carpet components, depending on particular application, can have a
variety of dimensions. Other than machine limitations, there is no
limit on the widths of the carpet components. For example, the
carpet component can have a width of 6 feet for modular carpeting
installations, or about 8 to about 15 feet for multiple breadth
installations.
[0031] FIG. 6 illustrates a portion of a carpet component 50 that
includes a texture defined by a pattern, where the pattern is
created using cut and uncut loops as well has height differences.
The texture includes an uncut loop portion 54 and a cut loop
portion 52. The overprint design includes different types of leaves
56 (e.g., design elements) and is disposed onto the textured carpet
substrate. Line 60 illustrates a possible seam location.
Floor Covering
[0032] Depending on the application, a floor covering may include a
plurality of carpet components in an abutted arrangement to cover a
desired area. When abutting the carpet components, an installer
will align the coherent overprint design between adjacent carpet
components. Alignment, as used to describe the relationship between
adjacent carpet components, means aligned within acceptable
industry standards and does not require perfect overprint design
alignment. Although the unpredictable pattern on the carpet
substrate is not aligned, its unpredictable nature may minimize the
visual effect of imperfections or variations in the overprint
design between adjacent carpet components.
[0033] The embodiments of the present invention are not limited to
the particular formulations, process steps, and materials disclosed
herein as such formulations, process steps, and materials may vary
somewhat. Moreover, the terminology employed herein is used for the
purpose of describing exemplary embodiments only and the
terminology is not intended to be limiting since the scope of the
various embodiments of the present invention will be limited only
by the appended claims and equivalents thereof.
[0034] Many modifications and other embodiments of the inventions
set forth herein will come to mind to one skilled in the art to
which these inventions pertain having the benefit of the teachings
presented in the foregoing descriptions and the associated
drawings. Therefore, it is to be understood that the inventions are
not to be limited to the specific embodiments disclosed and that
modifications and other embodiments are intended to be included
within the scope of the appended claims. Although specific terms
are employed herein, they are used in a generic and descriptive
sense only and not for purposes of limitation.
* * * * *