US3277673A - Method for preparing knit fabrics - Google Patents
Method for preparing knit fabrics Download PDFInfo
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- US3277673A US3277673A US194029A US19402962A US3277673A US 3277673 A US3277673 A US 3277673A US 194029 A US194029 A US 194029A US 19402962 A US19402962 A US 19402962A US 3277673 A US3277673 A US 3277673A
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- D—TEXTILES; PAPER
- D04—BRAIDING; LACE-MAKING; KNITTING; TRIMMINGS; NON-WOVEN FABRICS
- D04B—KNITTING
- D04B27/00—Details of, or auxiliary devices incorporated in, warp knitting machines, restricted to machines of this kind
- D04B27/04—Sinkers
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- D—TEXTILES; PAPER
- D04—BRAIDING; LACE-MAKING; KNITTING; TRIMMINGS; NON-WOVEN FABRICS
- D04B—KNITTING
- D04B23/00—Flat warp knitting machines
- D04B23/08—Flat warp knitting machines with provision for incorporating pile threads
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- D—TEXTILES; PAPER
- D04—BRAIDING; LACE-MAKING; KNITTING; TRIMMINGS; NON-WOVEN FABRICS
- D04B—KNITTING
- D04B21/00—Warp knitting processes for the production of fabrics or articles not dependent on the use of particular machines; Fabrics or articles defined by such processes
- D04B21/02—Pile fabrics or articles having similar surface features
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- D—TEXTILES; PAPER
- D04—BRAIDING; LACE-MAKING; KNITTING; TRIMMINGS; NON-WOVEN FABRICS
- D04B—KNITTING
- D04B21/00—Warp knitting processes for the production of fabrics or articles not dependent on the use of particular machines; Fabrics or articles defined by such processes
- D04B21/14—Fabrics characterised by the incorporation by knitting, in one or more thread, fleece, or fabric layers, of reinforcing, binding, or decorative threads; Fabrics incorporating small auxiliary elements, e.g. for decorative purposes
- D04B21/18—Fabrics characterised by the incorporation by knitting, in one or more thread, fleece, or fabric layers, of reinforcing, binding, or decorative threads; Fabrics incorporating small auxiliary elements, e.g. for decorative purposes incorporating elastic threads
Definitions
- This invention relates to novel knitted fabrics and methods for making the same and more particularly the invention relates to knit fabrics having a raised nap or pile surface effect on one face thereof.
- knit fabrics having a pile or nap surface effect can be prepared by knitting a fabric with a large number of relatively long floats on the reverse side thereof, stretching the fabric lengthwise in such a manner as to result in slackening of the float yarns, and thereafter brushing the fabric with a stiff brush to result in raising of the float yarns and to provide a raised nap or pile effect. Because :of the two additional process steps which are necessary for making such fabrics and because of the care which must be exercised in performing these additional process steps, such fabrics are inherently quite expensive. Further, the originally formed flat lying floats in a knitted fabric have been caused to be raised by scouring the fabric, but such effects an uneven wavy raised float surface.
- the pile effect which can be obtained by such processes is quite limited ecause the loops formed by the float yarns are inherently quite open in nature and only a limited degree of slack can be introduced into the float yarns as a result of stretching the fabric.
- a knit fabric having a pile surface effect is produced by a process which includes knitting a two bar fabric from first and second warps, one of the warps being formed of yarns of relatively high elasticity (i.e., capable of from about 50% or more more elastic elongation before breaking) and being knitted under a relatively high tension such that stretched loops are pulled by the needles and small tight stitches are formed upon the retraction of the stretched elastic yarn loops formed of this yarn.
- the stitches from this highly tensioned warp in large measure, give the fabric its body and size, and carry the stress load when the fabric is placed under tension.
- the second warp is knitted under a relatively low tension and such that the length of the Warp yarn consumed in knitting the fabric is greater, and preferably at least about 40-50% or more greater, than would be required for knitting a balanced fabric of any given construction.
- balanced fabric is meant a fabric in which the amount of yarn fed to and lying in the fabric is the amount required to equally accommodate all of the movements of the yarn guides and needles during fabric formation. 'It is the laps of the stitches formed from the loosely tensioned warp that protrude from the small tight knit foundation of the fabric to produce a raised nap or pile effect. This pile effect may be accentuated by setting at a maximum, or
- FIGURE 1 is a schematic drawing showing the relative positions of one needle position of a conventional bearded needle tricot knitting machine after the overlap movement of the guides about the needles and the closing of the beard about the lapped yarn, with the next preceding fabric loops being landed onto the closed beards by the combined motion of the sinker bar and needles.
- FIGURES '2 and 3 are further schematic views similar to FIGURE 1, and illustrate the further steps of knockingover or casting off of the preceding tight elastic yarn loop (FIGURE 2) and the subsequent movement of the needle to the lowermost position thereof beneath the sinker throat to pull the loosely tensioned loop to a maximum length and to elastically stretch the highly tensioned elastic loop and also pull tighter the previously tight elastic loop.
- FIGURE 4 is a schematic representation of the sinker and needle of FIGURE 1, illustrating various distances between the needle and sinker throat.
- FIGURE 5 is a drawing of the back side (normally the face) of a two bar tricot knit fabric according to the invention and
- FIGURE 6 is a drawing of the face of the fabric of FIGURE 5 illustrating the raised lap portions of the stitches formed from the loosely knit warp which result in a pile effect.
- the invention may be practiced with a conventional warp knitting machine having two sets of yarn guides 11, 13, mounted on guide bars, not shown, arranged for swinging and lateral endwise movement with respect to a corresponding plurality of needles 15 mounted in a needle bar, not shown, which needles are movable up and down with respect to corresponding plurality of sinkers 17 which are moved in and out with respect to the needle 15 during the knitting cycle to effect the landing and knocking over of the loops.
- the needles may be of the bearded, latch, or tongue type, the instant example being illustrated with respect to a bearded needle arrangement employing a conventional presser 19, which is movable in and out to selectively close and open the beards 15a of the needles, as in the conventional knitting cycle of such machines.
- one warp of yarn X with a relatively high degree of elasticity is maintained under a relatively high tension, while the yarn Y of the other warp is held under relatively low tension, the tension differential being substantially greater than would be necessary to effect a balanced fabric of the two yarns.
- the stretched loop around each needle formed from a warp yarn under high tension tends to snap back and slide off of the needle appreciably before a loop around the same needle formed from an end of yarn from the warp under relatively low tension (see FIGURE 2), for the effective retracted length of the highly tensioned yarn forming the other loop for each needle is substantially less than the distance A between the throat and the head end of the needle at this lowermost position of the needle, wheras the amount of low tensioned warp yarn pulled into the loop during the loop forming portion of the needle travel (see FIGURE 3) is approximately equal to or more closely equal to tract to a substantially smaller effective length.
- the length and width dimensions of the fabric F are determined substantially by the stitches 31 formed from the retracted elastic warp yarns X which have been formed under a relatively high tension and the excess yarn in the stitches 33 formed from the warp Y under a relatively low knitting tension accumulates in the joining loop portions of the stitches and results in these portions of the stitches becoming raised from the surface of the fabric at the time of fabric formation.
- the raised pile or nap surface is formed by the stitches 33 of the yarn Y on the bottom side of the fabric, with the more highly tensioned elastic yarns X being more predominant in the foundation and on the upper side of the fabric.
- the knitting ma chine should be set such that the fronts of the needles 15 are disposed relatively close to the throats 17a of the respective sinkers 17 when the sinkers are in their most forward position, i.e., the distance corresponding to that indicated by the letter B in FIGURE 4 of the drawing should be relatively short, dependent upon the number of courses per inch being formed in the fabric, and may be as low as zero distance for a fabric of high course number (e.g., 70-80 courses per inch.) This is desirable in order to best accommodate the small tight knit stitches 31 formed by the highly tensioned elastic warp yarn as such stitches lie in the fabric and after retraction of the yarn X therein.
- the extent of raised pile effect may be accentuated by adjustment of the needle height with respect to the sinker throat when the needle is in its lowermost loop forming position. It is desirable to adjust the needle height such that the heads 15b of the needles 15 are almost even with but slightly above the bottoms of the sinkers 17 when the needles 15 are in their lowermost position in order to accentuate the pile effect to a maximum extent for a given tension differential. This serves both to pull a desirable large length of loop in each of the loosely tensioned warp yarns, while stretching the more highly tensioned elastic Warp yarn and thereby pulling more tightly the preceding stitch of highly tensioned elastic yarn, both of these results tending to increase the pile results.
- the needle height adjustment mentioned above is of importance largely because it permits a greater differential in the knitting tensions of the two warps, and it is the large difference in tensions under which the two warps are knitted and the elasticity of the higher tensioned warp yarns that are primarily responsible for the pile effect being obtained.
- the tension differential that is required is much larger than is normally encountered in an improperly adjusted machine on which an effort is being made to knit a balanced fabric, and for a fully satisfactory pile effect the tension difference should be at least 40% greater than would be required for forming a balanced fabric of the same construction, and preferably at least 50% more yarn is consumed in knitting the loose warp than would normally be used in knitting a balanced fabric of the same construction, although less tension differential and less excess yarn may be used if desired for a lesser degree of raised pile effect.
- the run-in or take-up length for one warp should be at least 40% longer than the run-in length for the other warp.
- the stitch pattern for the back warp is diferent from the stitch pattern for the front warp so that different amounts of the two warps are normally consumed in knitting a balanced fabric in order to accommodate the difference in warp yarns required for the balanced fabric
- the above can readily be employed as a guide to produce a satisfactory fabric by calculating the approximate warp length ratio necessary to give a balanced fabric of the selected pattern, if this is not already known, and determining the tension differential necessary to provide a run-in length for one warp at least 40% in excess of the approximate length which would normally be required.
- the tension differential would preferably be increased to about 60% or more according to this invention, and the normally fiat floats would be raised away from the more tight foundation stitches.
- the difference in tensions between the two warps except that dictated by the considerations that the tight warp must not be so tightly tensioned with respect to its stretchability that excessive yarn or needle breaks are encountered and that the slack warp must not be so loosely tensioned that the needle cannot be drawn free of the loops formed thereform.
- a fabric can be knit according to this invention on a three bar machine.
- the third warp can be knit such as to complement either the warp knit under high tension or the warp knit under relatively low tension, or the third warp can be simply floated into the fabric for additional effects.
- a two bar knitting machine is employed in the manufacture of fabrics according to this invention, for the reasons that only two warps are necessary to give the desired results, and two bar machines generally operate at higher speeds, and for the further reason that two bar machines are more commonly available.
- the yarns from the back bar guides 13 generally become disposed above the yarns fed from the front bar and since it is necessary for the loops in the yarns under a relatively high tension to be removed from the needles prior to the time that the loops formed from the warp under a relatively low tension are removed, less interference between the two yarns is encountered if the back guide bar is used for the high tension yarns and the front guide bar is used for the Warp yarns under a relatively low tension.
- the tighter tensioned warp must be formed of relatively elastic yarn (preferably capable of about 40 or 50% or more elastic elongation without breaking), continuous filament yarns generally being preferred and giving the most desirable results, although some staple yarns such as worsted yarns having a good elastic recovery after being stretched about -20% are usable to a degree as the more highly tensioned yarns.
- suitable yarns include 15 denier, 3 filament nylon, type 66; 40 denier, 13 filament nylon, type 6; 70 denier, 34 filament Dacron polyester yarn; and 100 denier, 40 filament Orlon acrylic yarn.
- the total denier of yarns employed according to this invention can range from 7 denier, for very sheer fabrics, to several thousand denier, for rugs or the like, and the denier per filament may range from about 0.8 to 20.
- Monofilament yarns also can be employed and interesting effects can be obtained with such yarns, particularly where the monofilaments have been processed to impart a crimped or exaggerated elastic nature thereto.
- the knitting pattern employed is of no great importance except that it is generally preferable to employ a pattern for the highly tensioned warp yarns which would not result in splitting even in the absence of the other warp.
- Excellent pile efiects can be obtained by the use of knitting patterns such as 1-0, 1-2 for the back warp knitted under high tension, and 1-2, 10 for the front warp knitted under low tension.
- more complicated patterns such as float forming patterns, can be employed, and examples of other suitable patterns include: l-O, 1-2 back; 23, 1-0 front: 1(), l-2 back; 3-4, 1-0 front: and 1-0, 1-2 back; 4-5, 1-0 front.
- Example I A 28 gauge Reiner Tricot machine adjusted such that the needles pass 60/1000 in. under and 8/1000 in. behind the throats of the sinker, is loaded with two denier, 7 filament nylon, type 66 warps.
- the pattern wheel for the front guide bar is set to knit a 2-3, 1-0 stitch and the pattern wheel for the rear guide bar is set to knit a 1-0, l-2 stitch.
- the tension is adjusted such that the back bar runner length is 30 inches per rack and the front bar runner length is 75 inches per rack. This results in a fabric of about 3 /2 inches quality that has, when finished, a beautiful suede appearance.
- Example II A 28 gauge Reiner Tricot machine adjusted as in the preceding example is loaded with two 40 denier, 13 filament nylon warps and the pattern wheel for the front 6 guide bar is set to knit 1-0, 4-5, and the pattern warp for the rear guide bar is set to knit 1-2, 1-0. The tension adjustments are then made such that the runner length for the back warp is 33 inches and the runner length for the front guide bar is 112 inches. The resulting fabric has a very noticeable pile effect which results in a very desirable appearance and feel.
- the method of forming a raised pile surface knitting fabric with a knitting machine having two guide bars and a needle bar comprising forming two loops from two yarns on each of a plurality of needles on said needle bar, one of said two yarns on each said needle being capable of substantial elastic elongation, stretching one loop formed of said one elastic yarn during loop formation on each of a plurality of needles while effecting substantially less stretch on the other said loop during loop formation, and permitting retraction of said substantially stretched loop after casting oif thereof to thereby form a raised pile surface of said other loops, with the stretched and retracted yarn loops binding said other loops in place, and permitting the stretching during formation of each succeeding stretched loop to pull the preceding retracted said one loop tighter to thereby force the preceding adjacent said other loop further away from the foundation plane of the fabric as formed by said retracted loop.
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Description
Oct. 11, 1966 B. G. LESLEY METHOD FOR PREPARING KNIT FABRICS 2 Sheets-Sheet 1 Filed May 11, 1962 34500 6'. zfyzfi INVENTOR.
Oct. 11, 1966 B. G. LESLEY 3,277,673
METHOD FOR PREPARING KNIT FABRICS Filed May 11, 1962 2 Sheets-Sheet 2 United States Patent 3,277,673 METHOD FOR PREPARING KNIT FABRICS Bascum G. Lesley, Pickens, S.C., assignor to Deering Milliken Research Corporation, Spartanburg, S.C., a corporation of Delaware Filed May 11, 1962, Ser. No. 194,029 4 Claims. (Cl. 66-86) This application is a continuation-in-part of my application Serial Number 804,418, filed April 6, 1959 (now abandoned).
This invention relates to novel knitted fabrics and methods for making the same and more particularly the invention relates to knit fabrics having a raised nap or pile surface effect on one face thereof.
It is known that knit fabrics having a pile or nap surface effect can be prepared by knitting a fabric with a large number of relatively long floats on the reverse side thereof, stretching the fabric lengthwise in such a manner as to result in slackening of the float yarns, and thereafter brushing the fabric with a stiff brush to result in raising of the float yarns and to provide a raised nap or pile effect. Because :of the two additional process steps which are necessary for making such fabrics and because of the care which must be exercised in performing these additional process steps, such fabrics are inherently quite expensive. Further, the originally formed flat lying floats in a knitted fabric have been caused to be raised by scouring the fabric, but such effects an uneven wavy raised float surface. In addition, the pile effect which can be obtained by such processes is quite limited ecause the loops formed by the float yarns are inherently quite open in nature and only a limited degree of slack can be introduced into the float yarns as a result of stretching the fabric.
It is an object of this invention to provide knit fabrics having more pronounced pile surface effects than were heretofore available.
It is another object of the invention to provide a simple, inexpensive method for producing knit fabrics having pile surface effects.
It is still another object of the invention to provide methods for producing knit fabrics With a wider variety of pile surface effects than can be produced by prior art procedures.
According to this invention, a knit fabric having a pile surface effect is produced by a process which includes knitting a two bar fabric from first and second warps, one of the warps being formed of yarns of relatively high elasticity (i.e., capable of from about 50% or more more elastic elongation before breaking) and being knitted under a relatively high tension such that stretched loops are pulled by the needles and small tight stitches are formed upon the retraction of the stretched elastic yarn loops formed of this yarn. The stitches from this highly tensioned warp, in large measure, give the fabric its body and size, and carry the stress load when the fabric is placed under tension. The second warp is knitted under a relatively low tension and such that the length of the Warp yarn consumed in knitting the fabric is greater, and preferably at least about 40-50% or more greater, than would be required for knitting a balanced fabric of any given construction. By the term balanced fabric is meant a fabric in which the amount of yarn fed to and lying in the fabric is the amount required to equally accommodate all of the movements of the yarn guides and needles during fabric formation. 'It is the laps of the stitches formed from the loosely tensioned warp that protrude from the small tight knit foundation of the fabric to produce a raised nap or pile effect. This pile effect may be accentuated by setting at a maximum, or
3,277,673 Patented Oct. 11, 1966 increasing, the distance from the sinker throat to the needle head at the bottom of the needle travel, in order both to increase the length of the loops which are thereby drawn of the loosely tensioned yarn and to pull the preceding tight elastic yarn loops tighter and thereby push the loose loops to a further protruded position relative to the foundation of tight small stitches.
The invention will now be explained in greater detail with reference to the accompanying drawings in which:
FIGURE 1 is a schematic drawing showing the relative positions of one needle position of a conventional bearded needle tricot knitting machine after the overlap movement of the guides about the needles and the closing of the beard about the lapped yarn, with the next preceding fabric loops being landed onto the closed beards by the combined motion of the sinker bar and needles.
FIGURES '2 and 3 are further schematic views similar to FIGURE 1, and illustrate the further steps of knockingover or casting off of the preceding tight elastic yarn loop (FIGURE 2) and the subsequent movement of the needle to the lowermost position thereof beneath the sinker throat to pull the loosely tensioned loop to a maximum length and to elastically stretch the highly tensioned elastic loop and also pull tighter the previously tight elastic loop.
FIGURE 4 is a schematic representation of the sinker and needle of FIGURE 1, illustrating various distances between the needle and sinker throat.
FIGURE 5 is a drawing of the back side (normally the face) of a two bar tricot knit fabric according to the invention and FIGURE 6 is a drawing of the face of the fabric of FIGURE 5 illustrating the raised lap portions of the stitches formed from the loosely knit warp which result in a pile effect.
The invention may be practiced with a conventional warp knitting machine having two sets of yarn guides 11, 13, mounted on guide bars, not shown, arranged for swinging and lateral endwise movement with respect to a corresponding plurality of needles 15 mounted in a needle bar, not shown, which needles are movable up and down with respect to corresponding plurality of sinkers 17 which are moved in and out with respect to the needle 15 during the knitting cycle to effect the landing and knocking over of the loops. The needles may be of the bearded, latch, or tongue type, the instant example being illustrated with respect to a bearded needle arrangement employing a conventional presser 19, which is movable in and out to selectively close and open the beards 15a of the needles, as in the conventional knitting cycle of such machines.
In knitting a fabric F in accordance with this invention, one warp of yarn X with a relatively high degree of elasticity is maintained under a relatively high tension, while the yarn Y of the other warp is held under relatively low tension, the tension differential being substantially greater than would be necessary to effect a balanced fabric of the two yarns. As a result of the difference intensions, the stretched loop around each needle formed from a warp yarn under high tension tends to snap back and slide off of the needle appreciably before a loop around the same needle formed from an end of yarn from the warp under relatively low tension (see FIGURE 2), for the effective retracted length of the highly tensioned yarn forming the other loop for each needle is substantially less than the distance A between the throat and the head end of the needle at this lowermost position of the needle, wheras the amount of low tensioned warp yarn pulled into the loop during the loop forming portion of the needle travel (see FIGURE 3) is approximately equal to or more closely equal to tract to a substantially smaller effective length.
d the distance A between the throat 17a of the sinker and the head b of the needle 15, the more highly tensioned elastic yarn being stretched a substantial amount to accommodate this descent of the needle, while upon upward movement and release of this loop the loop will re- The eifective stitch length of the stitches 31 formed from the highly tensioned elastic warp yarn X is much less upon retraction than the stitch length of the stitches 33 formed of the warp yarns of relatively low tension, due both to the difference in tension and the elasticity of the more highly tensioned yarns. The length and width dimensions of the fabric F are determined substantially by the stitches 31 formed from the retracted elastic warp yarns X which have been formed under a relatively high tension and the excess yarn in the stitches 33 formed from the warp Y under a relatively low knitting tension accumulates in the joining loop portions of the stitches and results in these portions of the stitches becoming raised from the surface of the fabric at the time of fabric formation. As illustrated in the schematic drawings of FIGURES 13, the raised pile or nap surface is formed by the stitches 33 of the yarn Y on the bottom side of the fabric, with the more highly tensioned elastic yarns X being more predominant in the foundation and on the upper side of the fabric.
In order to form the desired effectively small tight stitches 31 with the relatively elastic and highly tensioned warp yarns X it is desirable that the knitting ma chine should be set such that the fronts of the needles 15 are disposed relatively close to the throats 17a of the respective sinkers 17 when the sinkers are in their most forward position, i.e., the distance corresponding to that indicated by the letter B in FIGURE 4 of the drawing should be relatively short, dependent upon the number of courses per inch being formed in the fabric, and may be as low as zero distance for a fabric of high course number (e.g., 70-80 courses per inch.) This is desirable in order to best accommodate the small tight knit stitches 31 formed by the highly tensioned elastic warp yarn as such stitches lie in the fabric and after retraction of the yarn X therein.
The extent of raised pile effect may be accentuated by adjustment of the needle height with respect to the sinker throat when the needle is in its lowermost loop forming position. It is desirable to adjust the needle height such that the heads 15b of the needles 15 are almost even with but slightly above the bottoms of the sinkers 17 when the needles 15 are in their lowermost position in order to accentuate the pile effect to a maximum extent for a given tension differential. This serves both to pull a desirable large length of loop in each of the loosely tensioned warp yarns, while stretching the more highly tensioned elastic Warp yarn and thereby pulling more tightly the preceding stitch of highly tensioned elastic yarn, both of these results tending to increase the pile results. If less than the maximum possible raised pile height obtainable with this setting is desired, it can readily be obtained by decreasing the tension differential in the two warps. Normally, a pile effect of suitable intensity for any purpose can be readily achieved with the needle height adjusted as above described, but if an even more intense pile effect is desired, such can be obtained by equipping the knitting machine with deeper than normal sinkers and adjusting the needle height even lower than is possible with conventional sinkers.
It will be understood that the needle height adjustment mentioned above is of importance largely because it permits a greater differential in the knitting tensions of the two warps, and it is the large difference in tensions under which the two warps are knitted and the elasticity of the higher tensioned warp yarns that are primarily responsible for the pile effect being obtained. The tension differential that is required is much larger than is normally encountered in an improperly adjusted machine on which an effort is being made to knit a balanced fabric, and for a fully satisfactory pile effect the tension difference should be at least 40% greater than would be required for forming a balanced fabric of the same construction, and preferably at least 50% more yarn is consumed in knitting the loose warp than would normally be used in knitting a balanced fabric of the same construction, although less tension differential and less excess yarn may be used if desired for a lesser degree of raised pile effect. For example, when knitting a pattern for a balanced fabric which requires the same amount of yarn for the front and back warps, such as a 1-0, 12; 12, 10 pattern, the run-in or take-up length for one warp should be at least 40% longer than the run-in length for the other warp. When the stitch pattern for the back warp is diferent from the stitch pattern for the front warp so that different amounts of the two warps are normally consumed in knitting a balanced fabric in order to accommodate the difference in warp yarns required for the balanced fabric, the above can readily be employed as a guide to produce a satisfactory fabric by calculating the approximate warp length ratio necessary to give a balanced fabric of the selected pattern, if this is not already known, and determining the tension differential necessary to provide a run-in length for one warp at least 40% in excess of the approximate length which would normally be required. For instance, in a fabric with floats formed on one surface and requiring perhaps 20% tension differential merely to accommodate the guide bar movements in forming the floats, the tension differential would preferably be increased to about 60% or more according to this invention, and the normally fiat floats would be raised away from the more tight foundation stitches. There is no upper limit as to the difference in tensions between the two warps except that dictated by the considerations that the tight warp must not be so tightly tensioned with respect to its stretchability that excessive yarn or needle breaks are encountered and that the slack warp must not be so loosely tensioned that the needle cannot be drawn free of the loops formed thereform.
In some instances above only two warps have been mentioned, but it will be understood that a fabric can be knit according to this invention on a three bar machine. In some instances, the third warp can be knit such as to complement either the warp knit under high tension or the warp knit under relatively low tension, or the third warp can be simply floated into the fabric for additional effects. Normally, however, a two bar knitting machine is employed in the manufacture of fabrics according to this invention, for the reasons that only two warps are necessary to give the desired results, and two bar machines generally operate at higher speeds, and for the further reason that two bar machines are more commonly available.
It is possible to knit fabrics according to this invention with the warp under a relatively high tension fed to either the back or the front bar of a multi-bar knitting machine but it is generally preferred that the warp under a relatively high tension be fed through the guides 13 of the back bar and that the warp under a relatively low tension be fed through the guides 11 of the front bar. This is because as the loops are formed on the knitting needles, the yarns from the back bar guides 13 generally become disposed above the yarns fed from the front bar and since it is necessary for the loops in the yarns under a relatively high tension to be removed from the needles prior to the time that the loops formed from the warp under a relatively low tension are removed, less interference between the two yarns is encountered if the back guide bar is used for the high tension yarns and the front guide bar is used for the Warp yarns under a relatively low tension.
Almost any type of yarn can be employed as the lightly tensioned warp yarn forming the pile cover in the manufacture of fabrics according to this invention; however, the tighter tensioned warp must be formed of relatively elastic yarn (preferably capable of about 40 or 50% or more elastic elongation without breaking), continuous filament yarns generally being preferred and giving the most desirable results, although some staple yarns such as worsted yarns having a good elastic recovery after being stretched about -20% are usable to a degree as the more highly tensioned yarns. Examples of suitable yarns include 15 denier, 3 filament nylon, type 66; 40 denier, 13 filament nylon, type 6; 70 denier, 34 filament Dacron polyester yarn; and 100 denier, 40 filament Orlon acrylic yarn. The total denier of yarns employed according to this invention can range from 7 denier, for very sheer fabrics, to several thousand denier, for rugs or the like, and the denier per filament may range from about 0.8 to 20. Monofilament yarns also can be employed and interesting effects can be obtained with such yarns, particularly where the monofilaments have been processed to impart a crimped or exaggerated elastic nature thereto.
The knitting pattern employed is of no great importance except that it is generally preferable to employ a pattern for the highly tensioned warp yarns which would not result in splitting even in the absence of the other warp. Excellent pile efiects can be obtained by the use of knitting patterns such as 1-0, 1-2 for the back warp knitted under high tension, and 1-2, 10 for the front warp knitted under low tension. If desired, however, more complicated patterns, such as float forming patterns, can be employed, and examples of other suitable patterns include: l-O, 1-2 back; 23, 1-0 front: 1(), l-2 back; 3-4, 1-0 front: and 1-0, 1-2 back; 4-5, 1-0 front. Generally, it is desirable that both the high tension and the low tension warps be full but if area effects are desired, either one or, in some instances, both warps may be partial.
Conventional finishing procedures are suitable for fabrics made according to this invention and the usual steps are scouring, dyeing, and heat-setting. If desired, softening agents or other conventional processing agents can be applied. Likewise, if the fabric is knit partially or entirely from elasticized thermoplastic yarns, the fabric can be subjected to a conventional operation for intensifying the elastic nature of the yarn, and particularly the highly tensioned warp yarns.
The invention will now be illustrated by the following specific examples:
Example I A 28 gauge Reiner Tricot machine adjusted such that the needles pass 60/1000 in. under and 8/1000 in. behind the throats of the sinker, is loaded with two denier, 7 filament nylon, type 66 warps. The pattern wheel for the front guide bar is set to knit a 2-3, 1-0 stitch and the pattern wheel for the rear guide bar is set to knit a 1-0, l-2 stitch. The tension is adjusted such that the back bar runner length is 30 inches per rack and the front bar runner length is 75 inches per rack. This results in a fabric of about 3 /2 inches quality that has, when finished, a beautiful suede appearance.
Example II A 28 gauge Reiner Tricot machine adjusted as in the preceding example is loaded with two 40 denier, 13 filament nylon warps and the pattern wheel for the front 6 guide bar is set to knit 1-0, 4-5, and the pattern warp for the rear guide bar is set to knit 1-2, 1-0. The tension adjustments are then made such that the runner length for the back warp is 33 inches and the runner length for the front guide bar is 112 inches. The resulting fabric has a very noticeable pile effect which results in a very desirable appearance and feel.
Having thus described my invention, what I desire to claim and secure by Letters Patent is:
1. The method of forming a raised pile surface knitting fabric with a knitting machine having two guide bars and a needle bar, comprising forming two loops from two yarns on each of a plurality of needles on said needle bar, one of said two yarns on each said needle being capable of substantial elastic elongation, stretching one loop formed of said one elastic yarn during loop formation on each of a plurality of needles while effecting substantially less stretch on the other said loop during loop formation, and permitting retraction of said substantially stretched loop after casting oif thereof to thereby form a raised pile surface of said other loops, with the stretched and retracted yarn loops binding said other loops in place, and permitting the stretching during formation of each succeeding stretched loop to pull the preceding retracted said one loop tighter to thereby force the preceding adjacent said other loop further away from the foundation plane of the fabric as formed by said retracted loop.
2. The method according to claim 1 including maintaining the input tension of said one elastic yarn forming said one loop substantially above that of the yarn forming other said loop and substantially above the tension required for a balanced fabric construction.
3. The method according to claim 1 including permitting the feed of the other said yarn to form a loop thereof of a first size upon the completion of the loop-pulling portion of the needle stroke, While permitting the feed of said one elastic yarn to form a stretched loop thereof of size substantially equal to said first loop size but of substantially smaller effective loop size than said first loop size upon permissive retraction thereof after casting off.
4. The method of forming a knitted fabric having a raised nap surface, comprising successively pulling two yarns into loops on each of a plurality of needles and casting off said loops to form a knitted fabric, one of said yarns being elastically stretchable and being substantially stretched during loop formation while the other of said yarns is at a comparatively light tension and comparatively unstretched during loop formation, whereby the effective retracted length of such said one loop, after casting off, is substantially smaller than the effective length of each said other loop, to thereby yield an elastic foundation knit fabric having a raised nap surface formed of said other loops.
References Cited by the Examiner UNITED STATES PATENTS 1,475,325 11/1923 Springthorpe 66191 2,114,004 4/ 1938 Reinthal 66195 2,220,428 11/ 1940 Shager 66-194 2,267,578 12/ 1941 Schonfeld 66-86 2,435,897 2/ 1948 Newman 66-193 2,757,529 8/ 1956 Moore 66194 3,063,272 1 1/ 1962 Bolton 6686 FOREIGN PATENTS 226,299 12/1924 Great Britain.
MERVIN STEIN, Primary Examiner.
RUSSELL C. MADER, DONALD W. PARKER, J. H.
LACI-IEEN, P. C. PAW, Assistant Examiners,
Claims (1)
1. THE METHOD OF FORMING A RAISED PILE SURFACE KNITTING FABRIC WITH A KNITTING MACHINE HAVING TWO GUIDE BARS AND A NEEDLE BAR, COMPRISING FORMING TWO LOOPS FROM TWO YARNS ON EACH OF A PLURALITY OF NEEDLES ON SAID NEEDLE BAR, ONE OF SAID TWO YARSN ON EACH SAID NEEDLE BEING CAPABLE OF SUBSTANTIAL ELASTIC ELONGATION, STRETCHING ONE LOOP FORMED OF SAID ONE ELASTIC YARN DURING LOOP FORMATION ON EACH OF A PLURALITY OF NEEDLES WHILE EFFECTING SUBSTANTIALLY LESS STRETCH ON THE OTHER SAID LOOP DURING LOOP FORMATION, AND PERMITTING RETRACTION OF SAID SUBSTANTIALLY STRETCHED LOOP AFTER CASTING OFF THEREOF TO THEREBY FORM A RAISED PILE SURFACE OF SAID OTHER LOOPS WITH THE STRETCHES AND RETRACTED YARN LOOPS BINDING SAID OTHER LOOPS IN PLACE, AND PERMITTING THE STRETCHING DURING FORMATION OF EACH SUCCEEDING STRETCHED LOOP TO PULL THE PRECEDING RETRACTED SAID ONE LOOP TIGHTER TO THEREBY FORCE THE PRECEDING ADJACENT SAID OTHER LOOP FURTHER AWAY FROM THE FOUNDATION PLANE OF THE FABRIC AS FORMED BY SAID RETRACTED LOOP.
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US194029A US3277673A (en) | 1962-05-11 | 1962-05-11 | Method for preparing knit fabrics |
US420539A US3254510A (en) | 1962-05-11 | 1964-12-23 | Warp knit pile fabrics |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US194029A US3277673A (en) | 1962-05-11 | 1962-05-11 | Method for preparing knit fabrics |
Publications (1)
Publication Number | Publication Date |
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US3277673A true US3277673A (en) | 1966-10-11 |
Family
ID=22716012
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
US194029A Expired - Lifetime US3277673A (en) | 1962-05-11 | 1962-05-11 | Method for preparing knit fabrics |
Country Status (1)
Country | Link |
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US (1) | US3277673A (en) |
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---|---|---|---|---|
US4546026A (en) * | 1982-12-03 | 1985-10-08 | Guilford Kapwood Limited | Simulated cashmere fabric and method |
FR2636981A1 (en) * | 1988-09-27 | 1990-03-30 | Delcer Sa Textile | TWO-SIDED LOOP CHAIN KNIT AND MANUFACTURING METHOD THEREOF |
US6099932A (en) * | 1997-12-31 | 2000-08-08 | Gehring Textiles, Inc. | Loop fabric for hook and-loop type fastener and method of making the same |
US20110059288A1 (en) * | 2009-09-04 | 2011-03-10 | Shavel Jonathan G | Flannel sheeting fabric for use in home textiles |
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US1475325A (en) * | 1918-11-19 | 1923-11-27 | Springthorpe Textile Machine C | Knitted fabric and method for its production |
US2114004A (en) * | 1936-11-30 | 1938-04-12 | Bamberger Reinthal Company | Knitted fabric and method of producing same |
US2220428A (en) * | 1936-07-03 | 1940-11-05 | Samuel H Aibel | Knitted fabric |
US2267578A (en) * | 1941-12-23 | Production of warp fabric | ||
US2435897A (en) * | 1946-12-20 | 1948-02-10 | Newman Milton | Warp-knitted fabric |
US2757529A (en) * | 1955-06-07 | 1956-08-07 | Moore David Pelton | Double faced pile fabric |
US3063272A (en) * | 1957-02-11 | 1962-11-13 | A W Swann And Company Ltd | Methods of producing warp knitted fabrics |
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Publication number | Priority date | Publication date | Assignee | Title |
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GB226299A (en) * | ||||
US2267578A (en) * | 1941-12-23 | Production of warp fabric | ||
US1475325A (en) * | 1918-11-19 | 1923-11-27 | Springthorpe Textile Machine C | Knitted fabric and method for its production |
US2220428A (en) * | 1936-07-03 | 1940-11-05 | Samuel H Aibel | Knitted fabric |
US2114004A (en) * | 1936-11-30 | 1938-04-12 | Bamberger Reinthal Company | Knitted fabric and method of producing same |
US2435897A (en) * | 1946-12-20 | 1948-02-10 | Newman Milton | Warp-knitted fabric |
US2757529A (en) * | 1955-06-07 | 1956-08-07 | Moore David Pelton | Double faced pile fabric |
US3063272A (en) * | 1957-02-11 | 1962-11-13 | A W Swann And Company Ltd | Methods of producing warp knitted fabrics |
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Publication number | Priority date | Publication date | Assignee | Title |
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US4546026A (en) * | 1982-12-03 | 1985-10-08 | Guilford Kapwood Limited | Simulated cashmere fabric and method |
FR2636981A1 (en) * | 1988-09-27 | 1990-03-30 | Delcer Sa Textile | TWO-SIDED LOOP CHAIN KNIT AND MANUFACTURING METHOD THEREOF |
US6099932A (en) * | 1997-12-31 | 2000-08-08 | Gehring Textiles, Inc. | Loop fabric for hook and-loop type fastener and method of making the same |
US6854297B1 (en) * | 1997-12-31 | 2005-02-15 | Gehring Textiles, Inc. | Loop fabric for hook-and-loop type fastener and method of making the same |
US20110059288A1 (en) * | 2009-09-04 | 2011-03-10 | Shavel Jonathan G | Flannel sheeting fabric for use in home textiles |
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