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Publication numberUS3503106 A
Publication typeGrant
Publication dateMar 31, 1970
Filing dateJun 27, 1968
Priority dateJun 27, 1968
Also published asDE1932021A1
Publication numberUS 3503106 A, US 3503106A, US-A-3503106, US3503106 A, US3503106A
InventorsMorton I Port, Bernard L Schwartz
Original AssigneeAvisun Corp
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Continuous techniques for making flat woven synthetic fabrics
US 3503106 A
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Description  (OCR text may contain errors)

March 31, 1970 RT ET AL 3,503,106

CONTINUOUS TECHNIQUES FOR MAKING FLAT WOVEN SYNTHETIC FABRICS Filed June 2'7, 1968 llo Ti/5.4..

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Sr/eETcm/ve mm 09/64 122) lz/ea 54/276 NECAW/V/SM INVENTORS fi Pro/Y O P7- BY M410 Z. Seawrz ATTOPAEJ/ United States Patent US. CI. 28-72 Claims ABSTRACT OF THE DISCLOSURE A continuous technique for manufacturing flat woven fabrics wherein thermoplastic material is extruded into a web which is stretch-oriented to increase its tensile strength, the web being slit before or after orientation to produce individual strips that are folded into narrow ribbons in which the cut edges of the strips are concealed, the ribbons being directly supplied into a loom where they are woven into a fiat fabric.

RELATED APPLICATION This application is a continuation-in-part of our application Ser. No. 378,179, filed June 26, 1964, now Patent 3,398,220.

This invention relates generally to a technique for making a fiat fabric, and more particularly to a continuous process wherein a web of synthetic material is converted into ribbon-like yarns which are supplied directly into a weaving loom to produce a flat fabric.

Many uses exist for flat fabrics formed by interwoven ribbons of synthetic plastic material, such as polypropylene. Such woven fiat fabrics serve, for example, as primary backings for tufted rugs in which pile yarns are needled into the backing. These sheet-like fabrics are also widely used for plastic bags and bales. When laminated to a thin film, a reinforced light-weight material is produced having exceptionally high tensile and tear strength, this material being useful for tarpaulins and for many other purposes.

The conventional technique for producing ribbon-like, synthetic yarns to be Woven into a flat fabric involves extruding the synthetic material into a web which is oriented and slit into individual ribbons. These ribbons are then Wound on a beam for use as warp yarns or onto suitable packages for use as filling yarns. In weaving operations, the ribbon yarns are thereafter unwound from the beam and the packages. Hence existing techniques involve discontinuous winding and unwinding operations, as well as transfer operations which add materially to the over-all cost of production.

Another drawback to existing techniques is that in slitting an oriented web to produce ribbons of yarn size, the slitting action tends to roughen or fibrillate the edges of the ribbon, as a consequence of which the edges are not smooth but exhibit fine fibrils. In weaving, such fibrils tend to interfere with the proper functioning of the loom and may result in a break-down, particularly in high speed weaving operations.

Accordingly, it is the main object of this invention to provide a novel technique for continuously producing flat fabric by converting a web of synthetic material into strips which are folded into narrow ribbons, the ribbons being directly woven into a fiat fabric.

A significant feature of the invention is that it eliminates such conventional operations as packaging and 3,503,106 Patented Mar. 31, 1970 p CC beaming, thereby effecting significant production economies.

Another object of the invention is to provide a continuous technique of the above type in which the folding serves to conceal the cut edges of the strips, thereby facilitating proper weaving operations, the folding serving to improve the edge tear-strength and hence the tear values of the resultant fabric.

Also an object of the invention is to provide a low-cost, sheet-like woven fabric whose structural characteristics are superior to those heretofore produced at higher cost.

Briefly stated, these objects are attained in a technique wherein molten thermoplastic material, such as polypropylene, is continuously extruded into a film-like web which is stretch-oriented to increase its tensile strength, the web being slit before or after orientation to produce individual strips which are then folded with the cut edges thereof turned inwardly to provide relatively narrow ribbons having smooth folded edges, which ribbons are fed directly into a loom where they are interwoven to form a flat fabric. Thus the process'in accordance with the invention transforms molten raw material into a woven fabric in a rapid, uninterrupted, sequential operation.

For a better undestanding of the invention, as well as other objects and further features thereof, reference is made to the following detailed description to be read in conjunction with the accompanying drawing, wherein:

FIG. 1 schematically shows a system for carrying out a continuous technique for producing a sheet-like woven fabric in accordance with the invention;

FIG. 2 is a perspective view of one of the folding units;

FIG. 3 is a side view of the folding unit and of the associated calender rolls.

FIG. 4 is a transverse section taken through a ribbon produced by folding a strip; and

FIG. 5 is a plan view of the sheet-like fabric produced by the weaving operation.

The raw material used to make fabric in accordance with the invention may be any known form of molecularly orientatable, thermoplastic polymeric material such as polyethylene, polypropylene, polyamide, polyester. Polymers are synthetic substances composed of large molecules that have been formed by the union of a group of single molecules with one another.

As shown in FIG. 1, the selected raw material is rendered molten and extruded through a suitable extruder assembly 10 to form a film-like web 11. The manner in which the raw material is converted into Web-form is entirely conventional, and any standard equipment may be used for this purpose.

Web 11 is pulled from extruder 10- by feed rolls 12, the Web being cooled before it reaches these rolls, so that it is below its softening point. Longitudinal orientation is then effected by the process of drawing to irreversibly stretch the web and thereby increase its tensile strength considerably. This is accomplished by cooled draw rolls 13, the peripheral speed of which is greater than that of heated feed rolls 12, the ratio between the two rolls being termed the draw ratio.

The stretch-oriented web 14 emerging from draw rolls 13 is conveyed into a slitter mechanism 15 Where it is divided by rotary blades or equivalent means into a multiplicity of individual flat strips S to S Alternatively, slitting may be effected prior to orientation. Because orientation imparts to the material a tendency to fibrillate at the edges when subjected to stresses, strips S to S emerging from the slitter have somewhat rough edges containing fine fibrils.

Each strip is conveyed through a folding unit (F to P which, as shown separately in FIG. 2, may take the form of a conical sleeve 16 having a tapered bore 17 therein with an oblong cross-section of progressively diminishing dimensions. Thus the edges E and E, of Strip S entering the input side of the folding unit at which the bore has its largest dimension, engage the wall of the bore and are caused thereby to fold over as the bore dimensions become smaller, so that the strip emerges from the output side of the bore with the edges E and E, folded over, as shown in FIG. 4.

The folded-over edges are pressed down by calender rolls 18, as shown separately in FIG. 3, to form fiat and relatively narrow ribbons R and R,,, the creased edges of the ribbons being the folded-over edges of the strip. Hence the creased edges of the ribbon present a smooth surface. The width of the strip is such that when folded over as described above, the resultant ribbon constitutes a yarn of the desired denier.

Ribbons R to R are then fed into a standard loom 19 for weaving man-made yarns, such a a Draper loom, the ribbons being interwoven to form a fabric having a flat surface, as shown in FIG. 5. In practice, where it is desired that the fiat yarn have, say, a two-mil thickness, the strips are made in a one-mil thickness to produce folded-over ribbons or flat yarn of two-mil thickness.

It is also possible to carry out the process in accordance with the invention by commencing with a commercial roll of oriented or unoriented synthetic thermoplastic material. Where the roll is formed of oriented film, the web thereof, as it is unwound from the roll, is fed into the slitter, the resultant strips being first folded and then fed directly into the loom in the manner previously described. But should the web be of nnoriented film, the orientation may be etfected in the course of feeding the folded ribbons into the loom by means of stretch rolls. In either case, the strips are so folded as to present smooth edges to facilitate weaving.

While there has been described and shown preferred techniques in accordance with the invention, it will be appreciated that many changes and modifications may be made therein without, however, departing from the essential spirit of the invention as defined in the annexed claims.

What we claim is:

1. A continuous technique for producing a flat fabric, comprising the steps of:

(a) extruding raw material formed of an orientatable synthetic thermoplastic material selected from the class consisting of polypropylene and polyethylene into a film-like web,

(b) orienting the web to increase the tensile strength of the material to a point at which fibrils are formed at the edgesof individual strips subsequently derived from the web by slitting,

(c) slitting the web into individual strips,

(d) folding each strip with its fibrillated edges folded in to produce relatively narrow ribbons and then calendering the ribbons to press in the folds thereof to produce yarn-like ribbons having smooth creased edges; and

(e) interweaving said yarn-like ribbons directly into a flat fabric.

2. A technique as set forth in claim 1, wherein said slitting is effected before orientation.

3. A technique as set forth in claim 1, wherein said slitting is eifected after orientation.

References Cited UNITED STATES PATENTS 2,960,725 11/ 1960 Lefevre. 2,985,503 5/1961 Becker 264-147 X 3,110,905 11/1963 Rhodes 139-420 X 3,193,904 7/1965 Evans et al. 57-31 X 3,253,072 5/1966 Scragg et a1. 264147 3,327,468 6/1967 Page 57140 3,336,645 8/1967 Mirsky 13911 X 3,398,220 8/1968 Port et a1. 264147 3,439,865 4/1969 Port et a1. 1'393'89 X FOREIGN PATENTS 180,540 12/ 1954 Austria. 702,381 1/ 1965 Canada.

12,462 of 1913 Great Britain. 1,035,227 7/1966 Great Britain.

98,780 10/1961 Norway.

JAMES KEE CHI, Primary Examiner US. Cl. X.R.

Patent Citations
Cited PatentFiling datePublication dateApplicantTitle
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Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US3645299 *Dec 16, 1969Feb 29, 1972Chemiefaser Lenzing AgProcess for the production of foil ribbon fabrics and apparatus for carrying out this process
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Classifications
U.S. Classification264/103, 28/170, 28/166, 57/907, 264/147, 139/11, 139/420.00R, 264/DIG.470
International ClassificationD03D25/00
Cooperative ClassificationD03D2700/0151, D03D25/00, Y10S57/907, Y10S264/47
European ClassificationD03D25/00