US3551265A - Dimensionally stable non-woven fabric - Google Patents

Description

Dec. 29, 1970 R. c. JACKSON 3,551,265

DIMENSIONALLY STABLE NON-WOVEN FABRIC Original Filed May 17, 1968 INVENTOR. ROBERT C. JACKSON ATTORNEY United States Patent DIMENSIONALLY STABLE NON-WOVEN FABRIC Robert Cheves Jackson, Dayton, Ohio, assignor to Monsanto Company, St. Louis, Mo., a corporation of Delaware Original application May 17, 1968, Ser. No. 730,033, now Patent No. 3,488,819, dated Jan. 13, 1970. Divided and this application May 7, 1969, Ser. No. 823,251

Int. Cl. B32b /12; D04h 5/02, 5/08 U.S. Cl. 161-57 3 Claims ABSTRACT OF THE DISCLOSURE A non-woven fabric which is comprised of a non-woven scrim having parallel longitudinal warp yarns, transversely continuous filament weft yarn and randomly laidfiller yarns which are mechanically interlocked into the scrim is manufactured by pneumatically depositing a continuous weft yarn onto a foraminous conveyor belt, laying a plurality of parallel warp yarn thereon and randomlydistributing a batt of filler yarns on top of the warp and weft yarns so that upon needle punching, a mechanically bonded fabric is produced which had good strength, drapeability and hand.

CROSS REFERENCES TO RELATED APPLICATIONS This application is a division of application Ser. No. 730,033, filed May 17, 1968, now Pat. No. 3,488,819.

BACKGROUND OF THE INVENTION (1) Field of the invention This invention relates to non-woven fabrics and, more particularly, to a fabric which is comprised of superposed planes formed of parallel yarns with the yarns in each plane being substantially parallel to each other and transverse to the yarns of the other plane and of randomly disposed filler yarns having been needle punched into the yarns comprising the superposed planes.

(2) Description of the prior art Needle punched fabrics which are reinforced with a woven scrim are relatively expensive due to the cost of weaving the scrim. However, a mechanically bound fabric offers advantages in hand and drapeability when compared to non-woven chemically bounded fabrics. Nonwoven chemically bonded fabrics have good dimensional stability but are boardy to the touch, lacking in bulk and generally have poor crease resistance and, resultingly, may be used in only limited applications.

While the prior art does show a non-woven scrim which includes fibers being parallel in the machine direction and a bank of fibers laid thereon which are parallel in the transverse direction, the prior art is silent as to how the fibers residing in the transverse plane may be deposited thereon except in banks of fibers such as shown in U.S. Pat. No. 2,341,620 or by means of a slow moving traversing mechanism such as shown in U.S. Pat. No. 2,704,- 734. To date, the art does not teach the formation of a non-woven scrim which is comprised of two planes of yarn, the yarns in each plane being parallel to each other with the direction of the yarns of one plane being transverse to the direction of the yarns of the other plane, the yarn forming the transverse plane being continuous, forming cycles and having straight lengths being parallel and adjacent each other.

SUMMARY OF THE INVENTION The apparatus of this invention includes an endless foraminous surface which may be mounted on a series of rollers which define a track for such endless motion, a suction box which is positioned beneath a length of the path defined by the foraminous surface, means such as the carrier yarns or elastomeric belts which are fed onto the foraminous surface and which provide a takeup means for the deposited yarns, a weft gun for depositing a continuous weft yarn in a direction being transverse to the direction of movement of the foraminous surface, a warp beam or creeled bobbins for depositing longitudinal warp yarns on top of the weft yarn, means for depositing a web of randomly laid filler yarn or fibers on the previously deposited reinforcing yarns, which may be one or more aspirator jets asshown or a means for laying down thereon a card web or other means as is well known to those skilled in the art, and a needle punching machine for incorporating the filler yarn into the warp and weft yarns and for mechanically bonding the warp and weft yarns together.

While the carrier yarns may be incorporated into the body of the fabric, it is contemplated that such yarns will be stripped from the fabric after the needle punching operation. If the warp yarn is to be laid onto the f0rami nous surface prior to the depositing of the weft yarn thereon, the carrier yarn is not needed. By means of the weft gun, the carrier yarns receive a layer of weft yarn, which is directed onto the carrier yarn in a manner so that the sections of the yarn residing between the sides of the foraminous surface are parallel to and substantially adjacent each other and are perpendicular to the direction of travel of the foraminous surface. The weft gun makes it possible to deposit the transverse yarns rapidly enough to make the process economical. The weft gun, as shown, is an aspirator having a diverging exit channel and oppositely disposed control porting in the diverging walls connected to a source of pressurized air. Due to the coanda effect of the aspirated jet stream, the jet and the entrained yarn will hug one side of the channel due to atmospheric pressure forcing the jet to a wall. The introduction of pressurized air into the corresponding control port overcomes the coanda effect causing the jet stream to be directed to the opposite diverging wall. The jet stream and the entrained yarn may be made to self-oscillate by interconnecting the oppositely disposed control ports, as by a tube of suitable length, whereby the self-induced oscillations of the jet occur at a frequency having a sound wave length equal to twice the length of the closed path between the control ports. Thus, the jet can be made to oscillate at the rate of several cycles per second, depositing two picks of yarn per cycle. By way of example, a 54- inch-wide fabric with 30 picks per inch of reinforcing yarn could be produced at the rate of one yard per minute by oscillating the weft gun at 9 cycles per second and feeding the weft gun with yarn at a rate of 1620 yards per minute.

With the weft yarn having been deposited on the carrier yarn, the foraminous surface advances to a position where parallel warp yarns are laid thereon in the machine direction. It can be seen that after the warp yarn is laid on the weft yarn, a non-woven scrim is formed which is comprised of a plane of parallel warp yarns aligned in the machine direction and a plane of weft yarns having yarn sections which are positioned parallel and transverse to the machine direction. The grid is then passed beneath a set of aspirators which randomly disperse filler yarns onto the top of the warp yarns. The carrier yarns then transport the matt of yarns to a needle punching machine where the filler yarns are needle punched into the warp and weft yarns to form a mechanically bonded fabric at a density of at least approximately 1000 punches per square inch. The carrier yarns are then removed by a simple stripping operation or may be left on the resulting fabric. The filler yarns of this invention include a plurality of filaments which are flared as they exit the aspirator jets to increase covering power. It is contemplated that the filler yarns may be comprised of continuous, zero twist filaments, a plurality of filaments which are freshly spun from a spinnerette, and a roving which may be broken down into individual filaments by the tension developed on it by the aspirator jet. As has previously been mentioned, a beam supporting a carded web may be used which lays the carded web comprised of filler filaments onto the non-woven scrim.

Therefore, an object of this invention is to provide an apparatus for forming a non-woven web having dimensional stability in the machine and transverse direction and having the characteristics of a non-woven fabrics.

Another object of this invention is to provide a process for forming an unbonded non-woven fabric having the properties of soft fluffy hand, good strength and adequate drapeability.

A further object of this invention is to provide an apparatus for laying weft yarn in parallel and being transverse to the machine direction at a speed adequate to insure a constant source of weft material for a needle punching operation.

These and other objects of this invention will become apparent when the detailed description is read in conjunction with the drawings in which:

DESCRIPTION OF THE DRAWINGS FIG. 1 is a pictorial view depicting the preferred embodiment of the unbonded non-woven fabric forming apparatus employed for carrying out the invention;

FIG. 2 is a section view taken along lines 2-2 of FIG. 1 showing the particular arrangement of elements comprising the combination aspirator and traverse mechamsm;

FIG. 3 is a bottom plan view of the combination aspirator and traverse mechanism taken along lines 33 of FIG. 1; and

FIG. 4 is an enlarged fragmentary view of the layers of yarn prior to needle punching showing the carrier yarn, the weft yarn, the warp yarn and the filling yarn.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT Referring to the drawings, foraminous conveyor belt is supported for endless movement by rollers 11, 12 and 13 which define a path endlessly followed by conveyor belt 10. Rollers 11, 12 and 13 are mounted in conventional bearings (not shown) and at least one of said rollers is positively driven by a motor means (not shown). The length of conveyor belt suspended between rollers 13 and 11 is maintained in a substantially horizontal position and is adapted to receive the various yarns deposited thereon by the apparatus of this invention. Suction box 15 is positioned directly beneath the portion of conveyor belt 10 spanning the distance between rollers 13 and 11. Suction box 15 encompasses an area at least equal to the total yarn lay down areas. The vacuum created in the suction box 15 is by any common vacuum inducing apparatus (not shown) and is connected to suetion box 15 by means of conduit 16.

A plurality of carrier yarns are drawn from a warp beam 21 or the like which is positioned rearwardly of roller 13 and across the horizontal surface of conveyor belt 10 in a manner to constitute the machine direction. Carrier yarns 20 are spaced from one-eighth to one-half inch apart and serve only to transport the deposited yarn from the area above suction box 15 to the needle punching machine (not shown). Carrier yarns 20 first receive a continuous length of weft yarn 35 from the combination aspirating and traversing mechanism 25. Aspirating and traversing mechanism 25 is provided with an annular chamber 26, a diverging chamber 27 and a passageway 28 which interconnects annular chamber 26 with diverging chamber 27. The vertical length of the diverging wall of chamber 27 is preferably approximately from 4 to 6 times the diameter of passageway 28. A hollow stem 29 extends vertically downwardly through the upper surface of mechanism 25 and into close proximity with the entrance of passageway 28 into chamber 26. The bottom portion of annular chamber 26 is convergingly flared where it joins passageway 28 and the tip of hollow stem 29 is positioned in the converging area so that as air moves under pressure from annular chamber 26 into passageway 28, a vacuum is created in hollow stem 29.

The aspirating medium, which may be pressurized air or the like, is introduced from a supply source (not shown) into annular chamber 26 by means of pipe 31 and passageway 32. The high velocity of the air entering passageway 28 engages weft yarn 35 with sufficient energy to draw weft yarn 35 from its source and forward the same through passageway 28 into diverging chamber 27, diverging chamber 35 comprising the traversing zone.

Traversing of the weft yarn 35 is accomplished by sequentially controlling the low pressure fluid medium such as air that is supplied to diverging chamber 27 from a source (not shown) by means of ports 36 and 37 and supply pipes 38 and 39 which are respectively in communication with ports 36 and 37. A programmed rotating valve 40 of a well known type may be advantageously utilized in series with pipes 38 and 39 to divert the controlling fluid in an alternating manner predescribed by the desired traversing frequency. Alternatively to utilizing the programmed rotary valve, a fluid oscillator of the type disclosed in US. Pat. No. 3,016,066 may be interconnected between ports 36 and 37 to generate self-excited oscillations which directly control the reciprocatory action of the jet stream. However, this necessitates different length tubes for different traverse frequencies but coincident therewith obviates the need for a separate source of supply of the control fluid medium. The included angle ,8 of diverging chamber 27 is approximately 60; however, angle 3 may be increased or decreased depending upon the traversing width desired and the distance which aspirating and traversing mechanism 25 is placed from the surface of conveyor belt 10.

Warp yarn is drawn from warp beam 46 which is rotatably mounted on shaft 47, shaft 47 being supported above conveyor belt 10 by any common means and perpendicular to the direction of travel of conveyor belt 10. Warp yarn 45 is drawn from warp beam 46 by means of lay down roller 48 which is rotatably mounted in any common support means (not shown) by shaft 50. Lay down roller 48 is in frictional contact with conveyor belt 10 so that a linear movement of conveyor belt 10 produces rotation in lay down roller 48. Thus, as conveyor belt 10 moves in the machine direction, lay down roller 48 pulls warp yarn 45 downwardly from warp beam 46 and lays the yarn 45 in parallel on weft yarn 35.

Filler yarns and 56 are pulled from a source (not shown) by means of aspirator jets 57 and 58, respectively. Aspirator jets 57 and 58 are constructed similar to aspirating and traversing mechanism 25 and function to flare the filaments comprising the filler yarns 55 and 56 and to randomly disperse the filaments onto the scrim formed by Weft yarn 35 and warp yarn 45. With the filler yarn having been laid on the warp and weft yarn, the web proceeds to a conventional needle punching machine (not shown) by means of carrier yarn 20.

It is to be understood that the invention is not to be restricted to the preferred embodiment described in the foregoing and as illustrated in the accompanying drawings since various changes and modifications are possible Without departing from the scope and spirit of the invention as defined in and by the appended claims.

What is claimed is:

1. A non-woven fabric having low extensibility in the machine and transverse direction comprising a continuous weft yarn having been cycled to form a plurality of substantially straight and parallel yarn lengths, each of said lengths residing adjacent at least one other of said lengths with all of said yarn lengths being capable of sharing a common plane, a plurality of parallel warp yarns residing in a common plane and being in contact with said weft yarn, said weft yarn plane and said warp yarn plane being parallel with said warp yarns being perpendicularly arranged with respect to said weft yarn lengths and filler filaments covering and being randomly disposed on said warp and weft yarns, said filler filaments being needle punched into said warp and weft yarns to mechanically bond the same.

2. The non-woven fabric of claim 1 wherein said filler filaments are in staple form.

3. The non-woven fabric of claim 1 wherein said filler filaments are continuous.

References Cited UNITED STATES PATENTS 3,230,599 1/1966 McKew et al. 28-722 3,377,231 4/1968 Newman 161154X 5 3,422,510 4/1969 Livingston et al 16l78X FOREIGN PATENTS 691,464 7/1964 Canada l56148 10 ROBERT F. BURNETT, Primary Examiner W. A. POWELL, Assistant Examiner US. Cl. X.R.

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