(1) Field of the Invention
The present invention relates generally to weft-knit textile articles and, more particularly, to a double face, weft-knit textile garment having a first face having a printed portion; and a second face having a printed portion, wherein the fabric density of the fabric forming the garment is sufficient to substantially prevent grin through from at least one printed portion to the opposite face.
(2) Description of the Prior Art
Weft-knit fabrics are commonly used for a wide variety of purposes ranging from signage to apparel. Such fabrics are generally desirable because they are durable and easy to manufacture. They are also desirable because they can be manipulated through various knitting techniques. In terms of apparel, for example, they are often designed with increased wicking properties or increased breathability, or for increased comfort.
To achieve such objectives, weft-knit fabrics for apparel usually have two distinct sides. The side of the fabric for wearing against the body, or the inner side, may have a certain knit or may be knitted from a certain thread to alter the properties of the fabric. Athletic apparel, by way of example, may be knitted to maximize comfort, breathability, or wicking properties of the inner side of the fabric. Typically, because of knitting, cost, or function, the side opposite the inner side of the fabric, or the outer side, is not the same as the inner side. Because of these differences, weft-knit fabric is not typically used to make reversible garments.
Reversible garments can be desirable for any number of reasons, such as, for example, for color coordination of outfits; for providing various camouflage patterns; for providing optional high-visibility clothing; or for use in athletic competitions.
For example, a reversible garment, reversible between two distinct camouflage patterns, may be desirable for a soldier with limited carrying capacity. The solider may be limited to the single pattern on their person, when in fact, additional patterns may be beneficial. Using a reversible garment, the soldier could change between two patterns as needed, for example, the soldier could change between one pattern that provides maximum concealment in urban environments and another pattern that provides maximum concealment in forests, thereby increasing safety. In addition, reversible garments may be desirable for their ability to increase the wearer's visibility rather than decrease it.
Police and traffic officers, for example, commonly wear dark clothing during the day, which allows them to stand out from the general population. At night however such dark clothing becomes a safety hazard, particularly for officers who are on bicycles or who work around motor vehicles, because it decreases their ability to be seen. At night time, a more reflective or visible uniform is desirable. Using a reversible garment, officers could change uniforms as needed, for example, the officer on bicycle patrol could choose the dark side of a reversible uniform during the day, then switch to the more reflective side at night, thereby increasing job safety. Reversible garments may also be desirable in the athletic industry or for athletic competitions.
For most organized team sports, or team sporting events, members of one team have one colored jersey and members of the other team have another colored jersey. These different colored jerseys allow both players and spectators to differentiate between team members. At pickup sporting events, however, it is rare that participants with be aware of what other players will be wearing prior to the event, so any coordination of jersey color is difficult. Similarly, for some sporting events, such as pickup or celebrity basketball or soccer games for example, there may be frequent short games with players switching back and forth between teams. In such situations, players often switch jerseys, which may be undesirable because it increases the potential for transmission of blood, sweat, and bacteria. Alternatively, a player may be required to have two separate jerseys, one for each team, which is also undesirable because it necessitates having another jersey and keeping up with that other jersey during the game. By using a reversible jersey having, for example, a dark color and a light color, players could easily switch back and forth between teams.
Others have tried to developed reversible knit fabrics for use in various applications. For example, others have made reversible fabrics for use in textile articles by sandwiching two separate fabrics together or by knitting fabrics with different colored threads. Similarly, others have made reversible fabrics for textile articles out of simplex using warp knitting. Such fabrics are generally undesirable because of their cost or weight or because of the specificity in the manufacturing process. For various other reasons, these prior attempts have had various additional shortcomings.
Thus, there remains a need for a new and improved weft-knit textile garment which has a first face having a printed portion; and a second face having a printed portion, wherein the fabric density of the fabric forming the garment is sufficient to substantially prevent grin through from at least one printed portion to the opposite face while, at the same time, includes a plurality of openings are formed in both faces for breathability.
The present invention is directed to a double face, weft-knit textile garment. The garment includes: a first face having a printed portion; and a second face having a printed portion, wherein the fabric density of the fabric forming the garment is greater than about 5 oz. per square yard, thereby substantially preventing grin through from at least one printed portion to the opposite face. In one embodiment of the invention, a plurality of openings are formed in both faces for breathability. In addition, the garment may further include at least one body anchor for facilitating attachment of the garment to the wearer.
In one embodiment of the invention, the fabric is integrally knit on a double knit knitting machine. Also, the fabric is at least partially knitted of synthetic yarn and preferably is substantially 100% synthetic yarn such as polyester.
In one embodiment of the invention, the openings are substantially symmetrical. The openings are also spaced apart from one another, preferably horizontally and vertically spaced apart from one another. In one embodiment, the openings are substantially equally spaced in the horizontal direction and substantially equally spaced in the vertical direction at a different spacing. In another embodiment, the openings are substantially equally spaced apart and may form a diamond pattern motif. The diameter or distance across the opening at its widest point is preferably between about ½ mm and 3 mm.
The fabric is knitted of at least a first yarn and a second yarn. Preferably, the first yarn is a synthetic monofilament yarn having a substantially round cross-section and having a luster between about substantially clear to substantially semi-dull. In addition, the denier of the first yarn is between about 15 and 30 and preferably about 20. Preferably, the second yarn also is a textured yarn and preferably is a multifilament polyester yarn. In addition, the second yarn may have a luster between about substantially clear to full-dull, preferably semi-dull. Preferably, the second yarn has a round cross-section, yet others may prefer to use yarns with other cross sections, such as, for example, trilobal cross sections. Preferably, the denier of the second yarn is between about 100 and 200 and, preferably about 150.
In one embodiment of the invention, the first face and the second face are substantially identical meaning both faces are comprised of technical face needle loops. Preferably, the faces have a stitch density of between about 1300 and 1700 stitches per sq. inch, and even more preferably have a stitch density of about 1500 stitches per sq. inch. In one embodiment of the invention, the fabric density is between about 6 and 7 oz. per square yard and preferably between about 6.2 and 6.7 oz. per square yard and most preferably between about 6.3 and 6.6 oz. per square yard.
In one embodiment of the invention, the article is a garment further including a body anchor for facilitating attachment to the wearer. The body anchor may be a head opening for example for a poncho. The body anchor may be a torso opening for example for a pair of bottoms such as skirts, kilts, shorts and pants. The body anchor may include at least one arm opening for example for a shirt such as a long sleeve, short sleeve, jersey, vest, jacket, and coat.
The textile article may be reversible, such that either face of the article is capable of wearing against the body. Similarly, either face of the article, or both faces of the article, may be printed with a color or pattern. Grin-through or color transfer or color bleed through from the printed portion to the opposite face is substantially prevented.
The present invention also includes a fabric having a first face with a first printable portion and a second face with a second printable portion. The fabric of the present inventions may be knitted on a double knit machine using a variety of yarns. The fabric may have a plurality of openings through both faces, which may for example increase breathability and comfort.
Either face of the fabric, or both faces of the fabric, may be printed with a color or pattern. Grin-through or color transfer or color bleed through from the printed portion to the opposite face is substantially prevented.
Accordingly, one aspect of the present invention is to provide a double face, weft-knit textile article comprising: (a) a first face having a printed portion; and (b) a second face having a printed portion, wherein the fabric density of the fabric forming the textile article is greater than about 5 oz. per square yard, thereby substantially preventing grin through from at least one printed portion to the opposite face.
Another aspect of the present invention is to provide a double face, weft-knit fabric comprising: (a) a first face having a printable portion; (b) a second face having a printable portion, wherein the fabric density of the fabric is greater than about 5 oz. per square yard, thereby substantially preventing grin through from at least one printable portion to the opposite face; and (c) a plurality of openings formed in both faces for breathability.
Still another aspect of the present invention is to provide a double face, weft-knit textile garment comprising: (a) a first face having a printed portion; (b) a second face having a printed portion, wherein the fabric density of the fabric forming the garment is greater than about 5 oz. per square yard, thereby substantially preventing grin through from at least one printed portion to the opposite face; (c) a plurality of openings formed in both faces for breathability; and (d) a body anchor for facilitating attachment of the garment to the wearer.
These and other aspects of the present invention will become apparent to those skilled in the art after a reading of the following description of the preferred embodiment when considered with the drawings.
In the following description, like reference characters designate like or corresponding parts throughout the several views. Also in the following description, it is to be understood that such terms as “forward,” “rearward,” “left,” “right,” “upwardly,” “downwardly,” and the like are words of convenience and are not to be construed as limiting terms.
Referring now to the drawings in general and
The jersey 10 has a first face 12 with a first printable portion 16. The jersey 10 also has a second face 14, which in this figure, is the face that would be worn against the body. The second face 14 includes a second printable portion 20, which can be seen in this figure at the interior of the jersey 10. The first printable portion 16 could consist of the displayed text alone or could consist of the displayed text and any part of, or the entire, remaining first face 12 of the article.
The first face 12 and the second face 14 of the jersey 10 are substantially integrally formed and have a combined density greater than about 5 oz. per square yard which substantially prevents grin through from at least one printed portion to the opposite face. For example, by comparing the jersey 10 in
Those skilled in the art would recognize that a variety printing patterns, colors, or texts could be printed on the various embodiments of the present invention either before or after assembly of the article. Similarly, a variety of printing techniques could be used to print on the various embodiments either before or after assembly, all of which are in the scope of the present invention. Preferably, printing is performed using a stamping sublimination transfer print prior to assembly of the article.
Feed 1 forms the first course of the 20 feed knitting sequence using first yarn 220 as it is fed to the knitting elements between the dial and cylinder needle beds only to knit on every 1st long needle of the 12 needle repeat of the cylinder bed, while missing all long and short cylinder needles of the dial as well as missing 11 long and short cylinder needles within the 12 needle repeat. In this embodiment, the first yarn 220 is substantially transparent and relatively fine denier synthetic continuous monofilament polyester yarn, in a denier range of between about 15 and 30 denier. The most preferred embodiment uses a 20 denier clear or semi-dull luster in a round cross-section. Such a yarn is ideal for maximizing the ability to visually see through the fabric in selected locations, such as openings. Still others may prefer to use other natural or synthetic yarns, all of which would be within the scope of the present invention.
Feeds 2 and 3 are identical to each other and form the second and third courses of the knitting sequence using second yarn 240 as it is fed to the knitting elements essentially knitting on all long and short needles of the dial bed while tucking on the very same long needles of the cylinder, or on every 1st long needle of the 12 needle repeat that the previous feed 1 knitted to, and missing 11 long and short cylinder needles within the 12 needle repeat. In this embodiment, the second yarn 240 is preferably a substantially opaque heavier denier textured synthetic continuous multifilament polyester yarn in a range between 100 and 200 denier. More preferably the second yarn 240 is a 150 denier semi-dull round cross-section with a relatively high number of filaments in the yarn bundle in a range of between 68 and 216 filaments, preferably 100 to 136 filaments. This yarn is preferable for its increased ability to create high density fabric quality with a closed or tight fabric face so as to serve as a blocker to color transfer through the fabric to the reverse face surface when the fabric is sublimation printed. The higher filament count also increases the wicking properties of the fabric. Preferably, the fabric knitted using the described yarns will have a density of about at least 5 oz. per square yard. Others however may use other yarns, such as spandex, nylon, viscose, cotton or blends to achieve the present invention, all of which would be in the scope of the present invention.
Feed 4 forms the fourth course in the 20 feed knitting sequence using second yarn 240 and knits on all long and short needles of the cylinder while missing all long and short needles of the dial altogether.
Feed 5 forms the fifth course of the 20 feed knitting sequence using second yarn 240, as it is fed to the knitting elements essentially knitting on all long and short needles of the dial bed while tucking on the very same long needles of the cylinder, or on every 1st needle that the previous feeds 2 and 3 tucked to, and missing 11 long and short cylinder needles within the 12 needle repeat, and is identical to feeds 2 and 3.
Feed 6 forms the sixth course of the 20 feed knitting sequence using second yarn 240, as it is fed to the knitting elements essentially knitting on all long and short needles of the dial bed while knitting on the very same long needles of the cylinder, or on every 1st needle that the previous feeds 2, 3 and 5 tucked to, and missing 11 long and short cylinder needles within the 12 needle repeat.
Feed 7 forms the seventh course in the 20 feed knitting sequence using second yarn 240 and knits on all long and short needles of the cylinder while missing all long and short needles of the dial altogether and is identical to feed 4.
Feed 8 forms the eighth course in the 20 feed knitting sequence using second yarn 240 and knits on all long and short needles of the cylinder while missing all long and short needles of the dial altogether and in the same manner is identical to feeds 4 and 7.
Feed 9 forms the ninth course of the 20 feed knitting sequence using second yarn 240 and just like feeds 2, 3, and 5, is fed to the knitting elements essentially knitting on all long and short needles of the dial bed while tucking on only every 7th long needle of the cylinder in every 12 needle repeat, and compared to feeds 2, 3 and 5, is off-set by six needles, or exactly half way off-set in relation to the every 1st long needle that the previous feeds 2, 3 and 5 tucked to, and missing 11 long and short cylinder needles within the 12 needle repeat. This feed 9 of the 20 feed knitting sequence begins the formation of an opening that is off-setting the placement of the hole exactly centered in between the mesh openings that are formed by the previous feeds 1, 2, 3, 5, and 6.
The openings 44 are shown as substantially circular and are oriented in a staggered symmetrical opening placement; however, virtually any shaped opening and any opening orientation would be within the scope of the present invention. For example, the opening may be round, square, rectangular, hexagonal, tear drop, or pointelle. Similarly, other opening orientations with openings placed apart from each other, or horizontally and vertically spaced apart from one another, or equally spaced in the horizontal direction and substantially equally spaced in the vertical direction at a different spacing, or diamond patterned motifs are all within the scope of the present invention. While the above mentioned shapes and orientations are primarily substantially symmetrical, others of skill in the art may desire to knit openings with other symmetrical or non symmetrical shapes or orientations, all of which would also be within the scope of the present invention.
The openings 44 are preferably knitted to be greater than about ½ mm at their diameter or widest point. More preferably, the openings 44 are knitted to be between about ½ mm and 3 mm at their radius or widest point. Most preferably, the openings are knitted to be between about ⅔ mm and 1 1/2 mm at their radius or widest point. Further, the openings do not have to be true openings, that is, they may contain yarn, e.g. the first or second yarn, within the opening to facilitate the knit, or to help shape the opening. Preferably, if a yarn is within the opening, it is a yarn such as the first yarn, as described in the present embodiment, which is difficult to see.
Feed 10 forms the tenth course in the 20 feed knitting sequence using second yarn 240 and knits on all long and short needles of the cylinder while missing all long and short needles of the dial altogether and in the same manner is identical to feeds 4, 7, and 8.
Feed 11 forms the eleventh course of the 20 feed knitting sequence using first yarn 220 as it is fed to the knitting elements between the dial and cylinder needle beds only to knit on every 7th long needle within the 12 needle repeat of the cylinder needle bed, while missing all long and short cylinder needles of the dial as well as missing 11 long and short cylinder needles within the 12 needle repeat placing the first yarn 220 into the mesh opening in the now re-positioned offset hole. This feed is similar to Feed 1 with the main difference being the cylinder needle knitted to is exactly 6 needles offset from Feed 1, thereby offsetting the opening.
Feed 12 forms the twelfth course of the 20 feed knitting sequence using second yarn 240 and is identical to feed 9. Feed 12 is fed to the knitting elements essentially knitting on all long and short needles of the dial bed while tucking on only every 7th long needle of the cylinder in every 12 needle repeat, and compares to feeds 2, 3 and 5, but just like feed 9 it is off-set by six needles, or exactly half way off-set in relation to every 1st needle that the previous feeds 2, 3 and 5 tucked to, and missing 11 long and short cylinder needles within the 12 needle repeat.
Feed 13 forms the thirteenth course of the 20 feed knitting sequence using second yarn 240 and is identical to feed 12, and is fed to the knitting elements essentially knitting on all long and short needles of the dial bed while tucking on only every 7th long needle of the cylinder in every 12 needle repeat.
Feed 14 forms the fourteenth course in the 20 feed knitting sequence using second yarn 240 and knits on all long and short needles of the cylinder while missing all long and short needles of the dial altogether and in the same manner is identical to feeds 4, 7, 8, and 10.
Feed 15 forms the fifteenth course of the 20 feed knitting sequence using second yarn 240 and is identical to feed 12 and 13, and is fed to the knitting elements essentially knitting on all long and short needles of the dial bed while tucking on only every 7th long needle of the cylinder in every 12 needle repeat.
Feed 16 forms the sixteenth course of the 20 feed knitting sequence using second yarn 240 and is identical to feed 6, except it is offset by 6 needles in the 12 needle repeat. Second yarn 240 is fed to the knitting elements essentially knitting on all long and short needles of the dial bed while knitting on only every 7th long needle of the cylinder within every 12 needle repeat, and compares to feed 6, but just like feeds 11, 12, 13, and 15 it is off-set by six needles compared to Feed 6, or exactly half way off-set in relation to the every 1st needle that the previous feed 6 knitted to, and missing 11 long and short cylinder needles within the 12 needle repeat.
Feed 17 forms the seventeenth course in the 20 feed knitting sequence using second yarn 240 and knits on all long and short needles of the cylinder while missing all long and short needles of the dial altogether and in the same manner is identical to feeds 4, 7, 8, 10 and 14.
Feed 18 forms the eighteenth course in the 20 feed knitting sequence using second yarn 240 is identical to Feed 17, and knits on all long and short needles of the cylinder while missing all long and short needles of the dial altogether and in the same manner is identical to feeds 4, 7, 8, 10, 14 and 17.
Feed 19 forms the nineteenth course of the 20 feed knitting sequence using yarn 240, as it is fed to the knitting elements essentially knitting on all long and short needles of the dial bed while tucking on the very same long needles of the cylinder, or on every needle that the previous feeds 2, 3 and 5 tucked to, and missing 11 long and short cylinder needles within the 12 needle repeat, and is identical to feeds 2, 3 and 5. This feed 19 of the 20 feed knitting sequence begins the formation of the mesh opening that is off-setting the placement of the hole exactly centered in between the mesh openings that are formed by the previous feeds 9, 11, 12, 13, 15, and 16, thus producing the spaced symmetrical mesh hole placement that is illustrated in this preferred embodiment of the present invention.
Feed 20 forms the twentieth course in the 20 feed knitting sequence using second yarn 240 and knits on all long and short needles of the cylinder while missing all long and short needles of the dial altogether and in the same manner is identical to feeds 4, 7, 8, 10, 1417 and 18. This completes the 20 feed knit sequence and the subsequent knitting feeds positioned around the circular machine will repeat starting again with Feed 1. It is further understood by one skilled in the art that depending on the diameter of the knitting machine and the number of available feed positions on that machine, an even number of repeats of the 20 feed knitting sequence must be adhered to so as to produce a continuous uninterrupted pattern result. For example 20, 40, 60, 80, 100, 120, or 140 available feeds will be required to be divisible by the 20 feed repeat evenly.
Feed 1 forms the first course of the 20 feed knitting sequence using first yarn 220 as it is fed to the knitting elements between the dial and cylinder needle beds only to knit on every 1 long needle of the 6 needle repeat on the cylinder bed, while missing all long and short cylinder needles of the dial as well as missing 5 long and short cylinder needles within the 6 needle repeat. The first yarn 220 is described as a substantially transparent and relatively fine denier synthetic continuous monofilament polyester yarn. Preferably, the first yarn has a clear or semi-dull luster in a round cross-section, in denier range of between 15 and 30 denier. More preferably, the first yarn 220 is a 20 denier yarn, which maximizes opening structure and visibility through the opening. Others may prefer other yarns, which are within the scope of the present invention.
Feeds 2 and 3 are identical to each other and form the second and third courses of the knitting sequence using second yarn 240. Second yarn 240 is fed to the knitting elements essentially knitting on all long and short needles of the dial bed while tucking on the very same long needles of the cylinder, or on every 1st long needle of the 6 needle repeat that the previous feed 1 knitted to, and missing 5 long and short cylinder needles within the 6 needle repeat. The second yarn 240 is described as a substantially opaque heavier denier textured synthetic continuous multifilament polyester yarn in a range between 100 and 200 denier such as 150 denier semi-dull round cross-section with a relatively high number of filaments in the yarn bundle in a range of between 68 and 216 filaments, preferably 100 to 136 filaments, and chosen for reasons of creating a high density fabric quality with a closed or tight fabric face so as to serve as a blocker to color transfer through the fabric to the reverse face surface when the fabric is sublimation printed. The higher filament count also increases the wick ability of perspiration to be transported away from the body skin surface of the wearer of a garment comprised of the present invention, and moves the moisture to the outer surface of the garment. Still, others may prefer other deniers or other filament counts, which would be within the scope of the present invention.
Feed 4 forms the fourth course in the 20 feed knitting sequence using second yarn 240 and knits on all long and short needles of the cylinder while missing all long and short needles of the dial altogether.
Feed 5 forms the fifth course of the 20 feed knitting sequence using second yarn 240, as it is fed to the knitting elements essentially knitting on all long and short needles of the dial bed while tucking on the very same long needles of the cylinder, or on every 1st long needle of the 6 needle repeat that the previous feeds 2 and 3 tucked to, and missing 5 long and short cylinder needles within the 6 needle repeat, and is identical to feeds 2 and 3.
Feed 6 forms the sixth course of the 20 feed knitting sequence using second yarn 240, as it is fed to the knitting elements essentially knitting on all long and short needles of the dial bed while knitting on the very same long needles of the cylinder, or on every 1st long needle of the 6 needle repeat that the previous feeds 2, 3 and 5 tucked to, and missing 5 long and short cylinder needles within the 6 needle repeat.
Feed 7 forms the seventh course in the 20 feed knitting sequence using second yarn 240 and knits on all long and short needles of the cylinder while missing all long and short needles of the dial altogether and is identical to feed 4.
Feed 8 forms the eighth course in the 20 feed knitting sequence using second yarn 240 and knits on all long and short needles of the cylinder while missing all long and short needles of the dial altogether and in the same manner is identical to feeds 4 and 7.
Feed 9 forms the ninth course of the 20 feed knitting sequence using second yarn 240 and is fed to the knitting elements essentially knitting on all long and short needles of the dial bed, while missing all long and short needles of the cylinder.
Feed 10 forms the tenth course in the 20 feed knitting sequence using second yarn 240 and knits on all long and short needles of the cylinder while missing all long and short needles of the dial altogether and in the same manner is identical to feeds 4, 7, and 8.
Feed 11 forms the eleventh course in the 20 feed knitting sequence using second yarn 240 and knits on all long and short needles of the cylinder while missing all long and short needles of the dial altogether and in the same manner is identical to feeds 4, 7, 8 and 10.
Feed 12 forms the twelfth course of the 20 feed knitting sequence using second yarn 240 and is fed to the knitting elements essentially knitting on all long and short needles of the dial bed, while missing all long and short needles of the cylinder, and is identical to Feed 9.
Feed 13 forms the thirteenth course of the 20 feed knitting sequence using second yarn 240 and is identical to feeds 9 and 12, and is fed to the knitting elements essentially knitting on all long and short needles of the dial bed while missing all long and short needles of the cylinder.
Feed 14 forms the fourteenth course in the 20 feed knitting sequence using second yarn 240 and knits on all long and short needles of the cylinder while missing all long and short needles of the dial altogether and in the same manner is identical to feeds 4, 7, 8, 10, and 11.
Feed 15 forms the fifteenth course of the 20 feed knitting sequence using second yarn 240 and is identical to feeds 9, 12 and 13, and is fed to the knitting elements essentially knitting on all long and short needles of the dial bed while missing all long and short needles of the cylinder.
Feed 16 forms the sixteenth course of the 20 feed knitting sequence using second yarn 240 and is identical to feeds 9, 12, 13, and 15, and is fed to the knitting elements essentially knitting on all long and short needles of the dial bed while missing all long and short needles of the cylinder.
Feed 17 forms the seventeenth course in the 20 feed knitting sequence using second yarn 240 and knits on all long and short needles of the cylinder while missing all long and short needles of the dial altogether and in the same manner is identical to feeds 4, 7, 8, 10, 11 and 14.
Feed 18 forms the eighteenth course in the 20 feed knitting sequence using second yarn 240 is identical to Feed 17, and knits on all long and short needles of the cylinder while missing all long and short needles of the dial altogether and in the same manner is identical to feeds 4, 7, 8, 10, 11, 14 and 17.
Feed 19 forms the nineteenth course of the 20 feed knitting sequence using second yarn 240, as it is fed to the knitting elements essentially knitting on all long and short needles of the dial bed while tucking on the very same long needles of the cylinder, or on every 1st needle within the 6 needle repeat that the previous feeds 2, 3 and 5 tucked to, and missing 5 long and short cylinder needles within the 6 needle repeat, and is identical to feeds 2, 3 and 5. This feed 19 of the 20 feed knitting sequence begins the formation of the mesh opening that is formed by the previous feeds 1, 2, 3, 5, and 6, thus producing the spaced symmetrical mesh hole placement that is illustrated in this alternate embodiment of the present invention.
Feed 20 forms the twentieth course in the 20 feed knitting sequence using second yarn 240 and knits on all long and short needles of the cylinder while missing all long and short needles of the dial altogether and in the same manner is identical to feeds 4, 7, 8, 10, 11, 14, 17, and 18. This completes the 20 feed knit sequence and the subsequent knitting feeds positioned around the circular machine will repeat starting again with Feed 1.
Certain modifications and improvements will occur to those skilled in the art upon a reading of the foregoing description. By way of example, those skilled in the art may desire to increase the number or frequency of openings to further increase comfort or breathability. Such modifications may reduce fabric weight. Such modifications may also allow for the use of heavier denier yarns. Further, coarser gauge or open fabric structures could be used to minimize fabric weight. Also, finer denier yarns could be used in a tighter fabric structure or with finer gauges, such as 28 or 32 gauges. Such modifications may allow for fabric density sufficient to achieve printing without color grin-through. It should be understood that all such modifications and improvements have been deleted herein for the sake of conciseness and readability but are properly within the scope of the following claims.
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