US3342153A - Tufted fabric having pile composed of roving or roping - Google Patents

Tufted fabric having pile composed of roving or roping Download PDF

Info

Publication number
US3342153A
US3342153A US497591A US49759165A US3342153A US 3342153 A US3342153 A US 3342153A US 497591 A US497591 A US 497591A US 49759165 A US49759165 A US 49759165A US 3342153 A US3342153 A US 3342153A
Authority
US
United States
Prior art keywords
pile
strands
needles
tufting
yarn
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US497591A
Inventor
Joe T Short
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Callaway Mills Co
Original Assignee
Callaway Mills Co
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Callaway Mills Co filed Critical Callaway Mills Co
Priority to US497591A priority Critical patent/US3342153A/en
Application granted granted Critical
Publication of US3342153A publication Critical patent/US3342153A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • DTEXTILES; PAPER
    • D05SEWING; EMBROIDERING; TUFTING
    • D05CEMBROIDERING; TUFTING
    • D05C17/00Embroidered or tufted products; Base fabrics specially adapted for embroidered work; Inserts for producing surface irregularities in embroidered products
    • D05C17/02Tufted products
    • D05C17/026Tufted products characterised by the tufted pile surface
    • DTEXTILES; PAPER
    • D10INDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
    • D10BINDEXING SCHEME ASSOCIATED WITH SUBLASSES OF SECTION D, RELATING TO TEXTILES
    • D10B2321/00Fibres made from polymers obtained by reactions only involving carbon-to-carbon unsaturated bonds
    • D10B2321/10Fibres made from polymers obtained by reactions only involving carbon-to-carbon unsaturated bonds polymers of unsaturated nitriles, e.g. polyacrylonitrile, polyvinylidene cyanide

Definitions

  • This invention relates to tufting, and more particularly, to the use of bulky and/or low-strength filamentary material as the tuft forming components of pile fabrics.
  • the formation of the pile tufts is accomplished through the interaction of needle and looper components disposed on opposite sides of the path of the backing to which the tufts are to be applied.
  • Each of the needles has an eye near the end thereof disposed closest to the path of the backing, and a pile strand is threaded through such eye.
  • the eye When a threaded need-1e is reciprocated to project its end through the backing, the eye carries a loop of the pile strand through the backing into a position where the loop may be engaged bythe looper element. After the looper element has engaged the loop, the needle is withdrawn from the fabric.
  • the pile strands are subjected to stresses of some severity. A-brading forces of substantial magnitudes are applied to the strands when they are rubbed against the edges of the openings formed by the needles as they move through the backing.
  • the tensions in the pile strands vary greatly in different portions of the machine cycle. At times large tensionin g forces are applied to the strands. At other times the strands passing to the needles are slack. In a typical yardage machine where hundreds of pile strands pass to the needles in side by side relation, this irregularity in tension sometimes gives rise to entanglement of adjacent strands and similar problems that adversely alfect performance of the equipment.
  • the present invention seeks to minimize these limita tions and difficulties.
  • One of its objects is to provide new fabrics having distinctive pile surfaces.
  • Another object is to provide improved tufting apparatus and methods that will permit more effective handling of the pile strands during tufting.
  • An example of a fabric embodying principles of the invention is a tufted pile fabric in which the pile tufts are formed from generally untwisted yarns having low tensile strength.
  • a yarn can comprise yarns as weak as roping or roving or a weak synthetic yarn.
  • the term roping is commonly used to define the sliver delivered by the tape condenser at the front of a wool card. Roping is wound on jack spools which go directly to the spinning machine.
  • the term roving is commonly used to define the continuous, soft, slightly twisted strand of fibers, as of cotton, rayon staple, etc., the product of a roving frame. Roving is made from sliver or other roving and usually used to produce yarn.
  • the amount of twist imparted to roving is usually just enough to permit it to be withdrawn from a package and supplied to a spinning machine where it is made into yarn.
  • the soft bulky texture of the weaker, untwisted yarns, especially roping and roving gives the fabric pleasing surface characteristics not possessed by the tufted pile fabrics known heretofore.
  • the low tensile strengths of the weaker yarns make a fabric of this type particularly suitable for later napping operations, and it is contemplated that the fabric may be an intermediate product in the manufacture of napped articles such as blankets.
  • each of the pile strands is fed to a hollow tufting needle in which air is caused to flow spirally about the axis of the strand.
  • the forces applied to the strands by the airstreams tend to twist the strands and also to deliver the strands from the discharge ends of the needles.
  • FIGURE 1 is a diagrammatic view of a tufting machine constructed in accordance with the invention.
  • FIGURE 2 is a fragmentary detail view of a portion of the top of the needle carrier of the machine depicted in FIGURE 1, the view being taken along the lines 2-2 in FIGURE 1;
  • FIGURE 3 is an enlarged vertical cross sectional view illustrating the construction of one of the tufting needles and its relation to the needle carrier;
  • FIGURE 4 is an enlarged horizontal cross sectional view of one of the tufting needles, the view being taken along the line 4-4 in FIGURE 3;
  • FIGURES 5 and 6 are schematic views illustrating the effects produced by applying twisting forces in accordance with the invention to a pair of pile strands that pass together through a single tufting needle;
  • FIGURE 7 is a schematic view illustrating the twist effects that result from use of the invention in making of cut pile fabrics.
  • the frame of the machine illustrated in FIGURE 1 includes a base portion 2 and an upper housing unit 4 extending from one side of the machine to the other.
  • Uprights 6 located at the ends of the machine support the upper housing unit 4 in spaced relation to the base portion 2 of the frame, and suitable fabric feeding and guiding means, including sets of rollers 8 and 10, advance a backing 12 across the base portion 2 in the zone between the uprights 6 in a conventional manner.
  • the backing 12 As the backing 12 is advanced, it moves through a tufting zone where pile loops 14 are inserted therethrough. In this zone, the backing 12 is supported from below by a plurality of thin metal strips or tines 16 secured to the base portion 2 of the machine, and it is held against substantial upward movements by a presser member or foot 18 carried by bracket means 20 secured to the upper housing 4.
  • the presser member 18 is provided with openings 22 in vertical alignment with the spaces between adjacent ones of the tines 16 and also in vertical alignment with the needles 24 of the machine.
  • the needles 24 are hollow and are mounted on a needle carrier 26 which is moved up and down cyclically to periodically project the lower end portions of the needles 24 through the backing 12.
  • the drive for the needle carrier 26 may include an eccentric 28 rotatable with a driven shaft '30 within a bearing member 32.
  • the bearing member 32 is pivotally connected at 34 to the upper end of a push rod 36 mounted for vertical sliding movement in a bearing sleeve 38 carried by the upper housing unit 4 of the machine.
  • the lower end of the push rod 36 is connected rigidly to the needle carrier 26 so that the needle carrier 26 will reciprocate vertically as the eccentric 28 rotates about the axis of the shaft 36.
  • the needle carrier 26 may require support at a number of points along its length.
  • the machine may be provided with as many eccentrics 28, push rods 36, and associated parts, as may be necessary.
  • Pile strands 40 for forming the loops 14 may be supplied from any suitable source, such as a conventional creel 42 illustrated schematically in FIGURE 1.
  • the movements of the pile strands 40 from the strand packages 44 on the creel 42 to the tufting needles 24 must be controlled, and such control may be exercised by any one of many types of mechanisms.
  • a more elaborate mechanism such as a notched bar feed for controlling the advance of the pile strands 40.
  • the needle carrier 26 is a hollow structure having an air chamber 48 on the interior thereof. Pressurized air from a suitable source, represented diagrammatically by the distributor tank 50 in FIGURE 1, is supplied to the chamber 48 through flexible hose means 52 connected to suitable fittings 54 and 56 on the tank 50 and the needle carrier 26, respectively. In machines of substantial width, it is preferred that there be a plurality of flexible hoses 52 spaced at intervals along across the width of the machine so that the air pressure in the chamber 48 will be generally the same along its entire length.
  • each of the tufting needles 24 extends vertically through the needle carrier 26, so that the central portions of all the needles are exposed to the high pressure existing in the chamber 48.
  • Each of the needles 24 is so shaped that it may be inserted through the top wall 58 of the needle carrier 26. After insertion, it is held in place by a suitable set screw means 60 hearing against a flat 62 milled on an upper portion of its surface.
  • Flexible O-ring seals 64 and 66 are provided for preventing the escape of air between the top and bottom walls 58 and 68 of the needle carrier 26 and the exterior surfaces of the needles 24 where the needles pass through these walls.
  • each of the needles 24 has two of the flats 62 milled on its upper end portion.
  • the set screws 60 for alternate ones of the needles pass through the top wall 58 of the needle carrier from the front edge thereof rather than from the rear edge.
  • FIGURE 2 Such an arrangement is suggested in FIGURE 2 for purposes of illustration even though the needles there shown are not particularly close together.
  • the yarn passageway through the needle 24 is designated generally by the reference numeral 70. It extends vertically through the entire length of the needle. Air is admitted to an intermediate portion of the yarn passageway 70 through small air passages 72 each of which has an inlet opening 74 in communication with the air chamber 48 in the needle carrier 26 and an outlet opening 76 in communication with the yarn passageway 70.
  • each air passage 72 is located below the inlet opening 74 and is also displaced about the axis of the yarn passageway 70 from the inlet opening 74.
  • the air passages 72 are directed downwardly and circumferentially with respect to the yarn passageway 70. Air flowing from the high pressure air chamber 48 through the passages 72 attains a high velocity and issues from the outlet openings 76 in the form of jets directed spirally about the axis of the yarn assageway 70.
  • the swirling air flow downwardly through the yarn passageway 70 tends to twist the strand about its axis and also feed the strand out of the lower end of the needle 24.
  • the operation of the tufting machine is cyclical.
  • the backing 12 advances through a distance corresponding to the longitudinal spacing between adjacent points where the pile loops 14 project through the backing 12
  • the needle carrier 26 goes through a complete reciprocation, and the peripheries of the strand feeding rollers 46 move through a distance equal the length of pile strand in a single stitch.
  • the needles 24 move downwardly to penetrate the backing 12
  • the lower ends of the yarn passageways 70 in the needles are exposed below the lower surface of the backing 12 and the air streams flowing through these yarn passageways 70 feed the pile strands 40 downwardly to form the loops 14.
  • the air streams will operate to deliver from a yarn passageway 70 the entire length of pile strand 40 made available to the needle during that portion of the machine cycle when the lower end of the passageway 70 is in fluid communication with the underside of the backing 12.
  • the height of a loop 14 is controlled by the movements of the feed rollers 46 rather than by the depth of penetration of the needle 24.
  • rollers 46 may be advanced at different rates during diflerent parts of the cycle if desired. For example, where long pile loops are to be formed, it may be desirable to impart an irregular motion to the rollers 46, so that most of the strand length delivered to the needle during a cycle will be made available during that portion of the cycle when the tip of the nedle is below the backing 12.
  • FIGURES 5, 6 and 7. The effects produced by the twisting forces applied to the strands by the swirling air flow are indicated in the diagrams designated FIGURES 5, 6 and 7.
  • the reference characters applied to the components illustrated schematically in these views are the same as the reference numerals applied to the corresponding parts of FIGURE 1, except that the letter a" has been added.
  • the reference characters 44a are applied to strand packages, 46a to strand feed rollers, 24a to tufting needles of the type shown in FIGURE 3, and 12a to a backing.
  • FIGURES 5 and 6 rfelate to the making of a fabric in which two pile strands 78 and 80 runs together through each of the tufting needles for simultaneous insertion through the backing so as to form pairs of pile loops of the same height at each point of penetration of the needles.
  • a floor covering fabric of this general construction wherein the strands 78 and 80 are yarns of different colors, has an attractive surface appearance. For example, the use of black and white yarns in combination gives the fabric surface a mottled texture that is pleasing to the eye. Similar fabrics made by conventional techniques have been sold in large quantities in recent years.
  • the procedure used commercially prior the present invention in producing such fabrics involved a doubling operation prior to tufting.
  • the pile strands were prepared by passing the yarns of different colors through suitable twisting apparatus for forming a lightly twisted two ply yarn, and then this play yarn was supplied to the tufting machine.
  • the present invention makes the doubling operation entirely unnecessary.
  • the swirling air stream in the tufting needle 24a twists the two strands 7 8and 80 together so that they will pass to the needle in the form of a unitary body.
  • twisting action of the air stream is a false twisting action.
  • the application of twisting forces to the middle of a length of yarn does not impart permanent twist to the yarn. This is ideal for the operation suggested in FIGURES 5 and 6. It is desirable that the two yarns 78 and 80 be twisted together to a very substantial degree in the zone between the feed rollers 46a and the tufting needles 24a, but they should not be twisted tightly together in the tufted product. In the product itself, two distinct loops 14a should be present at each point where a needle penetrates the backing 12a.
  • twist conditions suggested in FIGURES 5 and 6 are those that exist after the machine has been in operation for a few cycles.
  • the material Will be twisted in opposite directions on different sides of the zone of application of the twisting forces.
  • the twist in the portion of the strand below the zone of application of the twisting forces will have been relieved or taken up, so that the only substantial twist remaining in the strand is that which runs back from the needle 24a to the feed rollers 46a.
  • Such novel products includes a loop pile fabric in which the pile loops are formed from roving or roping, as previously described.
  • the stresses applied to pile yarns in conventional tufting operations have been so great that it has not been possible to use roping or any weaker yarn, as the pile strands.
  • the pile strands are handled gently. Any strand that has suflicient tensile strength to permit its being withdrawn from a package by feed means should not break during the tufting operation.
  • these low-strength strands may be handled by tufting needles that have air passages for directing fluid along the strands without any pronounced swirling motion. That is to say, the inlet and outlet openings of the air passages may be located in the same vertical planes.
  • many of these low-strength strands have substantial bulk, so that the application of twisting forces may provide definite advantages as far as the delivery of these strands to the needles is concerned.
  • a loop pile fabric in accordance with this invention is a fabric in which the pile is formed from rovings of staple length synthetic textile fibers.
  • the fibers are formed from a polymer of acrylonitrile containing at least 80% by weight of acrylonitrile in the polymer molecule.
  • Such fibers are available commercially under the designation Acrilan.
  • the individual fibers have deniers in the range of from 2.5 to 3.0, and their staple lengths are approximately 1.81 inches.
  • the roving has a twist of about three-quarters of a turn per inch, and a 727 yard length thereof weighs approxione pound (.886 hank roving in the cotton system).
  • Loop pile fabrics embodying low-strength pile strands may also be used as intermediate products in the manufacture of other types of fabrics.
  • attention is invited to United States Patent No. 3,034,194, granted to Priester et al., which patent relates to napped tufted fabrics.
  • the napping operations required for products of this type may be carried out with a minimum expenditure of energy and without subjecting the fibers to unnecessarily high stresses.
  • FIGURE 7 This view shows a needle 24a at a point in the cycle when the tip of the needle is exposed below the backing 12a. 'It also indicates that the pile loop extending from the needle has just been cut, leaving an end 82 of the pile yarn in alignment with the yarn passageway through the needle. After a loop has been cut, the cut end of the pile strand is free to rotate in response to the forces applied by the swirling air streams.
  • the twist in the pile strand 84 will run all the way from the rollers 46a to the end 82, and the twist will be of the same direction throughout the twisted length.
  • a tufted fabric comprising a backing material having a plurality of rows of openings extending therethrough, a plurality of tufts defining a soft, luxurious pile surface formed by low strength, unspun yarn extending through said openings, said yarn having a soft, bulky texture and a tensile strength sufiicient to permit its being withdrawn from a package by feed means and moved by streams of fluid through hollow tufting needles but insufiicient to withstand the stress which would be imposed upon the yarn by conventional tufting operations wherein yarn is pulled by the eye of a needle through a backing material and engaged by a looper element.
  • a tufted fabric according to claim 2 wherein at least some of said rows of openings have a pair of tufts formed through each opening by a pair of continuous rovings.
  • a tufted fabric according to claim 1 wherein said yarn comprises a plurality of ropings.

Landscapes

  • Engineering & Computer Science (AREA)
  • Textile Engineering (AREA)
  • Automatic Embroidering For Embroidered Or Tufted Products (AREA)

Description

Sept. 19, 1967 J. T. SHORT 3,342,153
TUFTED FABRIC HAVING PILE GOMPOSED 0F ROVING OR ROPING Filed Oct. 4, 1965 a sheets-sheet 1 52 45 Ill INVENTOR JOE T SHORT BY 3M5 DwwBsmM wla jgggf g Sept. 19, 1967 J. T. SHORT TUFTED FABRIC HAVING FILE COMPOSED OF ROVING OR ROPING Filed Oct. 4, 1965 3 Sheets-Sheet 2 \"M "Kl 4 INVENTOR JOE 7. SHORT Sept. 19, 1967 J, -r SHORT 3,342,153
TUFTEDFABRIC HAVING PILE COMPOSED OF ROVING OR ROPING Filed Oct. 4, 1965 3 Sheets-Sheet 3 INVENTOR JOE T SHORT My) mdiw V ATTORNEYS United States Patent 3,342,153 TUFTED FABRIC HAVING PILE COMPOSED OF ROVING 0R ROPING Joe T. Short, West Point, Ga., assignor to Callaway Mills Company, La Grange, Ga., a corporation of Georgia Filed Oct. 4, 1965, Ser. No. 497,591 7 Claims. (Cl. 112-410) This application is a continuation-in-part of my copending application, Ser. No. 243,309, filed Dec. 10, 1962, for Tufting, now abandoned.
This invention relates to tufting, and more particularly, to the use of bulky and/or low-strength filamentary material as the tuft forming components of pile fabrics.
In the tufting machines that have been used extensively in recent years for commercially producing pile fabrics, the formation of the pile tufts is accomplished through the interaction of needle and looper components disposed on opposite sides of the path of the backing to which the tufts are to be applied. Each of the needles has an eye near the end thereof disposed closest to the path of the backing, and a pile strand is threaded through such eye. When a threaded need-1e is reciprocated to project its end through the backing, the eye carries a loop of the pile strand through the backing into a position where the loop may be engaged bythe looper element. After the looper element has engaged the loop, the needle is withdrawn from the fabric.
During these manipulations, the pile strands are subjected to stresses of some severity. A-brading forces of substantial magnitudes are applied to the strands when they are rubbed against the edges of the openings formed by the needles as they move through the backing. The tensions in the pile strands vary greatly in different portions of the machine cycle. At times large tensionin g forces are applied to the strands. At other times the strands passing to the needles are slack. In a typical yardage machine where hundreds of pile strands pass to the needles in side by side relation, this irregularity in tension sometimes gives rise to entanglement of adjacent strands and similar problems that adversely alfect performance of the equipment.
The range of fabric products that could be manufactured by conventional tufting procedures also was limited. particularly in connection with the strands from which the pile tufts are formed. For example, it was not feasible to employ pile strands that did not have substantial tensile strength, and the products produced heretofore have incorporated twisted yarns or assemblies of continuous filaments as the pile strands.
The present invention seeks to minimize these limita tions and difficulties. One of its objects is to provide new fabrics having distinctive pile surfaces. Another object is to provide improved tufting apparatus and methods that will permit more effective handling of the pile strands during tufting.
An example of a fabric embodying principles of the invention is a tufted pile fabric in which the pile tufts are formed from generally untwisted yarns having low tensile strength. Such a yarn can comprise yarns as weak as roping or roving or a weak synthetic yarn. The term roping is commonly used to define the sliver delivered by the tape condenser at the front of a wool card. Roping is wound on jack spools which go directly to the spinning machine. The term roving is commonly used to define the continuous, soft, slightly twisted strand of fibers, as of cotton, rayon staple, etc., the product of a roving frame. Roving is made from sliver or other roving and usually used to produce yarn. The amount of twist imparted to roving is usually just enough to permit it to be withdrawn from a package and supplied to a spinning machine where it is made into yarn. The soft bulky texture of the weaker, untwisted yarns, especially roping and roving, gives the fabric pleasing surface characteristics not possessed by the tufted pile fabrics known heretofore. Moreover, the low tensile strengths of the weaker yarns make a fabric of this type particularly suitable for later napping operations, and it is contemplated that the fabric may be an intermediate product in the manufacture of napped articles such as blankets.
The methods of this invention arecliaracterized in general by the application of yielding twisting forces to the pile strands during tufting. In one embodiment, each of the pile strands is fed to a hollow tufting needle in which air is caused to flow spirally about the axis of the strand.
The forces applied to the strands by the airstreams tend to twist the strands and also to deliver the strands from the discharge ends of the needles.
A more complete understanding of the invention will be gained from a consideration of the accompanying drawings, in which:
FIGURE 1 is a diagrammatic view of a tufting machine constructed in accordance with the invention;
FIGURE 2 is a fragmentary detail view of a portion of the top of the needle carrier of the machine depicted in FIGURE 1, the view being taken along the lines 2-2 in FIGURE 1;
FIGURE 3 is an enlarged vertical cross sectional view illustrating the construction of one of the tufting needles and its relation to the needle carrier;
FIGURE 4 is an enlarged horizontal cross sectional view of one of the tufting needles, the view being taken along the line 4-4 in FIGURE 3;
FIGURES 5 and 6 are schematic views illustrating the effects produced by applying twisting forces in accordance with the invention to a pair of pile strands that pass together through a single tufting needle; and
FIGURE 7 is a schematic view illustrating the twist effects that result from use of the invention in making of cut pile fabrics.
The frame of the machine illustrated in FIGURE 1 includes a base portion 2 and an upper housing unit 4 extending from one side of the machine to the other. Uprights 6 located at the ends of the machine support the upper housing unit 4 in spaced relation to the base portion 2 of the frame, and suitable fabric feeding and guiding means, including sets of rollers 8 and 10, advance a backing 12 across the base portion 2 in the zone between the uprights 6 in a conventional manner.
As the backing 12 is advanced, it moves through a tufting zone where pile loops 14 are inserted therethrough. In this zone, the backing 12 is supported from below by a plurality of thin metal strips or tines 16 secured to the base portion 2 of the machine, and it is held against substantial upward movements by a presser member or foot 18 carried by bracket means 20 secured to the upper housing 4. The presser member 18 is provided with openings 22 in vertical alignment with the spaces between adjacent ones of the tines 16 and also in vertical alignment with the needles 24 of the machine.
The needles 24 are hollow and are mounted on a needle carrier 26 which is moved up and down cyclically to periodically project the lower end portions of the needles 24 through the backing 12. The drive for the needle carrier 26 may include an eccentric 28 rotatable with a driven shaft '30 within a bearing member 32. The bearing member 32 is pivotally connected at 34 to the upper end of a push rod 36 mounted for vertical sliding movement in a bearing sleeve 38 carried by the upper housing unit 4 of the machine. The lower end of the push rod 36 is connected rigidly to the needle carrier 26 so that the needle carrier 26 will reciprocate vertically as the eccentric 28 rotates about the axis of the shaft 36.
Since the needle carrier 26 extends across the entire width of the tufting zone, it may require support at a number of points along its length. To this end, the machine may be provided with as many eccentrics 28, push rods 36, and associated parts, as may be necessary.
Pile strands 40 for forming the loops 14 may be supplied from any suitable source, such as a conventional creel 42 illustrated schematically in FIGURE 1. The movements of the pile strands 40 from the strand packages 44 on the creel 42 to the tufting needles 24 must be controlled, and such control may be exercised by any one of many types of mechanisms. Where it is desired to make a fabric in which all of the pile loops 14 are of the same height or length, it is suflicient to provide the machine with a single set of driven feed rollers 46 for drawing all of the strands 49 from the creel 42 and releasing them in a controlled manner to the needles 24. Where complex patterns of high and low pile loops are desired, it is necessary to provide a more elaborate mechanism such as a notched bar feed for controlling the advance of the pile strands 40. These mechanisms are well known in the art and they need not be described here in detail.
The needle carrier 26 is a hollow structure having an air chamber 48 on the interior thereof. Pressurized air from a suitable source, represented diagrammatically by the distributor tank 50 in FIGURE 1, is supplied to the chamber 48 through flexible hose means 52 connected to suitable fittings 54 and 56 on the tank 50 and the needle carrier 26, respectively. In machines of substantial width, it is preferred that there be a plurality of flexible hoses 52 spaced at intervals along across the width of the machine so that the air pressure in the chamber 48 will be generally the same along its entire length.
As shown best in FIGURE 3, each of the tufting needles 24 extends vertically through the needle carrier 26, so that the central portions of all the needles are exposed to the high pressure existing in the chamber 48. Each of the needles 24 is so shaped that it may be inserted through the top wall 58 of the needle carrier 26. After insertion, it is held in place by a suitable set screw means 60 hearing against a flat 62 milled on an upper portion of its surface. Flexible O- ring seals 64 and 66 are provided for preventing the escape of air between the top and bottom walls 58 and 68 of the needle carrier 26 and the exterior surfaces of the needles 24 where the needles pass through these walls.
It will be observed that each of the needles 24 has two of the flats 62 milled on its upper end portion. In installations where adjacent ones of the needles 24 are quite close together, it is sometimes desirable that the set screws 60 for alternate ones of the needles pass through the top wall 58 of the needle carrier from the front edge thereof rather than from the rear edge. Such an arrangement is suggested in FIGURE 2 for purposes of illustration even though the needles there shown are not particularly close together.
The yarn passageway through the needle 24 is designated generally by the reference numeral 70. It extends vertically through the entire length of the needle. Air is admitted to an intermediate portion of the yarn passageway 70 through small air passages 72 each of which has an inlet opening 74 in communication with the air chamber 48 in the needle carrier 26 and an outlet opening 76 in communication with the yarn passageway 70.
The outlet opening 76 of each air passage 72 is located below the inlet opening 74 and is also displaced about the axis of the yarn passageway 70 from the inlet opening 74. Hence, it will be seen that the air passages 72 are directed downwardly and circumferentially with respect to the yarn passageway 70. Air flowing from the high pressure air chamber 48 through the passages 72 attains a high velocity and issues from the outlet openings 76 in the form of jets directed spirally about the axis of the yarn assageway 70. When a pile strand 40 is located in the passageway 70 of a needle 24, the swirling air flow downwardly through the yarn passageway 70 tends to twist the strand about its axis and also feed the strand out of the lower end of the needle 24.
The operation of the tufting machine is cyclical. During one cycle, the backing 12 advances through a distance corresponding to the longitudinal spacing between adjacent points where the pile loops 14 project through the backing 12, the needle carrier 26 goes through a complete reciprocation, and the peripheries of the strand feeding rollers 46 move through a distance equal the length of pile strand in a single stitch. When the needles 24 move downwardly to penetrate the backing 12, the lower ends of the yarn passageways 70 in the needles are exposed below the lower surface of the backing 12 and the air streams flowing through these yarn passageways 70 feed the pile strands 40 downwardly to form the loops 14.
The air streams will operate to deliver from a yarn passageway 70 the entire length of pile strand 40 made available to the needle during that portion of the machine cycle when the lower end of the passageway 70 is in fluid communication with the underside of the backing 12. Hence, the height of a loop 14 is controlled by the movements of the feed rollers 46 rather than by the depth of penetration of the needle 24.
Although satisfactory results can be achieved where the rate of movement of the fed rollers 46 is uniform throughout a machine cycle, it is evident that these rollers may be advanced at different rates during diflerent parts of the cycle if desired. For example, where long pile loops are to be formed, it may be desirable to impart an irregular motion to the rollers 46, so that most of the strand length delivered to the needle during a cycle will be made available during that portion of the cycle when the tip of the nedle is below the backing 12.
It is feasible also to vary the rate at which air is supplied to the chamber 48 in the needle carrier 26, if desired. Since the projection of loops 14 through the backing occurs during only a portion of the machine cycle, the flow air through the passageways 70 in the needles 24 may be restricted substantially to this portion of the cycle.
The effects produced by the twisting forces applied to the strands by the swirling air flow are indicated in the diagrams designated FIGURES 5, 6 and 7. The reference characters applied to the components illustrated schematically in these views are the same as the reference numerals applied to the corresponding parts of FIGURE 1, except that the letter a" has been added. Thus, the reference characters 44a are applied to strand packages, 46a to strand feed rollers, 24a to tufting needles of the type shown in FIGURE 3, and 12a to a backing.
FIGURES 5 and 6 rfelate to the making of a fabric in which two pile strands 78 and 80 runs together through each of the tufting needles for simultaneous insertion through the backing so as to form pairs of pile loops of the same height at each point of penetration of the needles. A floor covering fabric of this general construction, wherein the strands 78 and 80 are yarns of different colors, has an attractive surface appearance. For example, the use of black and white yarns in combination gives the fabric surface a mottled texture that is pleasing to the eye. Similar fabrics made by conventional techniques have been sold in large quantities in recent years.
The procedure used commercially prior the present invention in producing such fabrics involved a doubling operation prior to tufting. The pile strands were prepared by passing the yarns of different colors through suitable twisting apparatus for forming a lightly twisted two ply yarn, and then this play yarn was supplied to the tufting machine. The present invention makes the doubling operation entirely unnecessary. The swirling air stream in the tufting needle 24a twists the two strands 7 8and 80 together so that they will pass to the needle in the form of a unitary body.
It should be noted also that the twisting action of the air stream is a false twisting action. As is well known, the application of twisting forces to the middle of a length of yarn does not impart permanent twist to the yarn. This is ideal for the operation suggested in FIGURES 5 and 6. It is desirable that the two yarns 78 and 80 be twisted together to a very substantial degree in the zone between the feed rollers 46a and the tufting needles 24a, but they should not be twisted tightly together in the tufted product. In the product itself, two distinct loops 14a should be present at each point where a needle penetrates the backing 12a.
The twist conditions suggested in FIGURES 5 and 6 are those that exist after the machine has been in operation for a few cycles. When twisting forces are initially applied to strand material extending from the feed rollers 46a to the backing 12a, the material Will be twisted in opposite directions on different sides of the zone of application of the twisting forces. However, after a few cycles of the machine, the twist in the portion of the strand below the zone of application of the twisting forces will have been relieved or taken up, so that the only substantial twist remaining in the strand is that which runs back from the needle 24a to the feed rollers 46a.
The false twisting effects which result from the application of swirling air streams to the pile strands during the manufacture of loop pile products are, of course, of interest in connection with the manufacture of products other than ones having groups of difierently colored pile yarns. This particular embodiment has been illustrated in FIGURES 5 and 6 merely by way of example. The twisting forces may be applied advantageously in the manufacture of novel products which cannot be made on the conventional tufting machines in commercial use prior to the present invention.
Such novel products includes a loop pile fabric in which the pile loops are formed from roving or roping, as previously described. Ordinarily, the stresses applied to pile yarns in conventional tufting operations have been so great that it has not been possible to use roping or any weaker yarn, as the pile strands. However, where air streams are employed to feed the pile strands through hollow needles into the desired positional relationships with respect to a backing, the pile strands are handled gently. Any strand that has suflicient tensile strength to permit its being withdrawn from a package by feed means should not break during the tufting operation.
Usually these low-strength strands may be handled by tufting needles that have air passages for directing fluid along the strands without any pronounced swirling motion. That is to say, the inlet and outlet openings of the air passages may be located in the same vertical planes. However, many of these low-strength strands have substantial bulk, so that the application of twisting forces may provide definite advantages as far as the delivery of these strands to the needles is concerned.
An example of a loop pile fabric in accordance with this invention is a fabric in which the pile is formed from rovings of staple length synthetic textile fibers. In this embodiment, the fibers are formed from a polymer of acrylonitrile containing at least 80% by weight of acrylonitrile in the polymer molecule. Such fibers are available commercially under the designation Acrilan. The individual fibers have deniers in the range of from 2.5 to 3.0, and their staple lengths are approximately 1.81 inches. The roving has a twist of about three-quarters of a turn per inch, and a 727 yard length thereof weighs approxione pound (.886 hank roving in the cotton system). There are approximately six rows of pile loops per inch across the width of the fabric and about six pile loops per inch along each of the rows. The pile loops themselves extend from the backing about five-sixteenths of an inch. This fabric has a soft luxurious pile surface. It is pleasing to the sense of touch and it is attractive in appearance. This novel texture opens up new fields for the utilization of tufted fabric products.
Loop pile fabrics embodying low-strength pile strands may also be used as intermediate products in the manufacture of other types of fabrics. In this connnection, attention is invited to United States Patent No. 3,034,194, granted to Priester et al., which patent relates to napped tufted fabrics. Where the pile surface is made up of rovings, the napping operations required for products of this type may be carried out with a minimum expenditure of energy and without subjecting the fibers to unnecessarily high stresses.
Although the swirling air streams in the needles 24a apply false twist to the pile strands when pile loops are being formed, these air streams may apply real or permanent twist to the pile strands during the formation of cut pile fabrics. This change in the action of the air streams is suggested in FIGURE 7. This view shows a needle 24a at a point in the cycle when the tip of the needle is exposed below the backing 12a. 'It also indicates that the pile loop extending from the needle has just been cut, leaving an end 82 of the pile yarn in alignment with the yarn passageway through the needle. After a loop has been cut, the cut end of the pile strand is free to rotate in response to the forces applied by the swirling air streams. As indicated in FIGURE 7, the twist in the pile strand 84 will run all the way from the rollers 46a to the end 82, and the twist will be of the same direction throughout the twisted length. When tufting operations are carried out in accordance with this embodiment of the invention, it may be possible to eliminate some of the yarn processing steps that have been required heretofore in the preparation of tufting yarns.
The foregoing description of various embodiments of the invention is exemplary only. Still other variations and modification will be apparent to persons skilled in the art. It is intended, therefore, that the scope of the invention be ascertained from the following claims.
What is claimed as invention is:
1. A tufted fabric comprising a backing material having a plurality of rows of openings extending therethrough, a plurality of tufts defining a soft, luxurious pile surface formed by low strength, unspun yarn extending through said openings, said yarn having a soft, bulky texture and a tensile strength sufiicient to permit its being withdrawn from a package by feed means and moved by streams of fluid through hollow tufting needles but insufiicient to withstand the stress which would be imposed upon the yarn by conventional tufting operations wherein yarn is pulled by the eye of a needle through a backing material and engaged by a looper element.
2. A tufted fabric according to claim 1 wherein said yarn comprises a plurality of rovings;
3. A tufted fabric according to claim 2 wherein said rovings contain approximately by weight of acrylonitrile with fibers having deniers in the range of from .5 to 3.0 and staple lengths of approximately 1.8 inches, said rovings having a twist of approximately turn per inch of length.
4. A tufted fabric according to claim 3 wherein said fibers have a denier of about 2.75 and said rovings have a weight of about pounds per yard.
5. A tufted fabric according to claim 2 wherein at least some of said rows of openings have a pair of tufts formed through each opening by a pair of continuous rovings.
6. A tufted fabric according to claim 1 wherein said yarn comprises a plurality of ropings.
7. A tufted fabric according to claim 6 wherein at least some of said rows of openings have a pair of tufts 7 8 formed through each opening by a pair of continuous 3,089,442 5/1963 Short 112--79 ropings. 3,096,561 7/1963 McNally et -al. 16164 R fer n Cited 3,184,367 5/1965 White 112 410 X UNITED STATES PATENTS 2,429,486 10/1947 Reinhardt 2872.2X 5 JORDAN FRANKLINPWW'Y Examme" 3,034,194 5/ 1962 Priester et al. J. R. BOLER, Assistant Examiner.
3,040,412 6/196 Russell.
US497591A 1965-10-04 1965-10-04 Tufted fabric having pile composed of roving or roping Expired - Lifetime US3342153A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
US497591A US3342153A (en) 1965-10-04 1965-10-04 Tufted fabric having pile composed of roving or roping

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US497591A US3342153A (en) 1965-10-04 1965-10-04 Tufted fabric having pile composed of roving or roping

Publications (1)

Publication Number Publication Date
US3342153A true US3342153A (en) 1967-09-19

Family

ID=23977492

Family Applications (1)

Application Number Title Priority Date Filing Date
US497591A Expired - Lifetime US3342153A (en) 1965-10-04 1965-10-04 Tufted fabric having pile composed of roving or roping

Country Status (1)

Country Link
US (1) US3342153A (en)

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3430590A (en) * 1966-11-07 1969-03-04 Glenn Looper Pneumatically fed tufted textile machine
US4154176A (en) * 1977-06-30 1979-05-15 Eiland P Frank Tufting needle bar and needle bar assembly

Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2429486A (en) * 1944-12-23 1947-10-21 Bigelow Sanford Carpet Co Inc Punched felt floor covering and process of making the same
US3034194A (en) * 1957-11-04 1962-05-15 Callaway Mills Co Method for producing a tufted fabric having a deep fleecelike surface and the resulting product
US3040412A (en) * 1955-12-27 1962-06-26 Owens Corning Fiberglass Corp Method of making porous fibrous sheet material
US3089442A (en) * 1962-05-03 1963-05-14 Internat Leasing Corp Tufting method and apparatus
US3096561A (en) * 1959-12-14 1963-07-09 Collins & Aikman Corp Tufted pile fabric and method
US3184367A (en) * 1963-05-08 1965-05-18 Collins & Aikman Corp Tufted pile fabric and method of making same

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2429486A (en) * 1944-12-23 1947-10-21 Bigelow Sanford Carpet Co Inc Punched felt floor covering and process of making the same
US3040412A (en) * 1955-12-27 1962-06-26 Owens Corning Fiberglass Corp Method of making porous fibrous sheet material
US3034194A (en) * 1957-11-04 1962-05-15 Callaway Mills Co Method for producing a tufted fabric having a deep fleecelike surface and the resulting product
US3096561A (en) * 1959-12-14 1963-07-09 Collins & Aikman Corp Tufted pile fabric and method
US3089442A (en) * 1962-05-03 1963-05-14 Internat Leasing Corp Tufting method and apparatus
US3184367A (en) * 1963-05-08 1965-05-18 Collins & Aikman Corp Tufted pile fabric and method of making same

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3430590A (en) * 1966-11-07 1969-03-04 Glenn Looper Pneumatically fed tufted textile machine
US4154176A (en) * 1977-06-30 1979-05-15 Eiland P Frank Tufting needle bar and needle bar assembly

Similar Documents

Publication Publication Date Title
US3164882A (en) Apparatus and method for crimping of natural and synthetic textile material
US4114549A (en) Pile fabric
DE1410636A1 (en) Process for making an alternating twist yarn
US3089442A (en) Tufting method and apparatus
US3752094A (en) Strand delivery means
US3827113A (en) Process for simultaneously texturizing a plurality of yarns
US3152381A (en) Method for producing fabric
US3220371A (en) Method of making textiles
US3116589A (en) Process for forming a slub yarn
EP0026251B1 (en) Twisted singles carpet yarn, carpet or rug having tufts thereof, and process for heatsetting a twisted singles yarn
US3479810A (en) Process for the preparation of yarns for pile fabrics
US3402548A (en) Process for fracturing flat ribbons and the product thereof
US3338198A (en) Pile fabric
US3251097A (en) Methods for producing blended yarn
US3174271A (en) Variable denier multifilament yarn having random slubs in a broad distribution of sizes
US3342153A (en) Tufted fabric having pile composed of roving or roping
US3303640A (en) Method of producing composite elastic yarn
US4487040A (en) Spun polyester warp knit
US3356049A (en) Fluid flow method and apparatus for applying twist to strand material
US3452561A (en) Novelty yarns as sewing threads in stitch bonded fabrics
US3035404A (en) Process for making yarn of varying colour character
US3263631A (en) Tufting machine having fluid yarn feeding means
US4403470A (en) Process for making composite yarn of continuous filaments and staple fibers
US3511064A (en) Manufacture of slub effect fabrics
US4408446A (en) Singles carpet yarn