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Número de publicaciónUS2331321 A
Tipo de publicaciónConcesión
Fecha de publicación12 Oct 1943
Fecha de presentación21 Mar 1942
Fecha de prioridad28 Feb 1941
Número de publicaciónUS 2331321 A, US 2331321A, US-A-2331321, US2331321 A, US2331321A
InventoresWalter H Heaton
Cesionario originalBeckwith Mfg Co
Exportar citaBiBTeX, EndNote, RefMan
Enlaces externos: USPTO, Cesión de USPTO, Espacenet
Process of making composite fabric
US 2331321 A
Resumen  disponible en
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0% 12, 1943- w. H. HEATON PROCESS OF MAKING COMPOSITE FABRIC Original Filed Feb. 28, 1941 R m V N Z/Mr 7% WELL/M.

latentecl Oct. 12, 1943 2,331,321 PROCESS OF MAKING COMPOSITE FABRIC Walter H. Heaton, Franklin, Mass.,

Beckwith Manufacturing Company, N. IL, a corporation of New Hampshire assignor to Dover,

' Original application February 28, 1941, Serial No.

381,044. Divided an 21, 1942, Serial No.

5 Claims.

The present invention consists in a novel selfbinding fabric having a woven or knitted base and a body of mixed fusible and non-fusible fibres. The invention includes within its scope the novel process herein disclosed of making such fabric, while the fabric itself is the subject 381,044, fiiled February 28, 1941 of which this application is a division.

Many attempts have been made to produce felt or pile fabrics having a woven base and a fibrous body united thereto by needle punching, that is to say, by superposing over the base ply a bat composed of hair or wool or other mixed fibres and then partially driving or punching the fibres of the bat through the interstices of the base or web by a needle loom. The fibres of the bat are thus projected through the bottom face of the base ply and are loosely held in place by frictional engagement with the underlying web. In order to anchor the fibres of the bat so that in wear they may not be pulled out of the base ply it has been necessary heretofore to saturate or coat the base ply or the assembled plies on one or both sides with various compounds of rubber, asphalt or emulsified compounds and such treatment limits the field of use and increases the cost of the fabric.

Another approach to the problem has been by combining thermoplastic fibres, for example. of

such material as cellulose acetate, with nonthermoplastic fibres and then creating a bonded web in the homogenous mixture of fibres by subjectingthem to heat and pressure. In practice extreme heat and pressure have been employed,

requiring presses capable of exerting many tons pressure. The final product resembles a thin felt or structureless fabric having fibres in no set arrangement or pattern and while the resulting felt-like or paper-like sheet is useful in some 11 this application March 435,748

' matter of my copending application Ser. No.

fields it: has definite limitations, notably it lacks the tensile strength of products which include a woven base.

In accordance with the present invention it is proposed to utilize the step of mixing thermoplastic and non-thermoplastic fibres, but to depart from the prior practice and produce a new self-binding fabric having a wide and economical field of use. More specifically in carrying out the present invention I blend on a carding machine or garnett a mixture of different kinds of cut fibres within certain limiting proportions. The percentage of thermoplastic fibre to nonthermoplastic fibre may be widely varied, the low limit being determined by the minimum amount that will satisfactorily bond the non-thermoplastic fibres, and the high limit being reached when the final product loses its character as the fibre becomes in effect a texture of fused fibres of thermoplastic compound wherein the nonintegrated plies.

thermoplastic fibressubstantially lose their fibrous nature.

To illustrate, I have found that the following fibre mixture gives excellent results:

Per cent by weight Cellulose acetate fibre 15 Cotton fibre 15 Jute fibre 70 Such a furnish is carded or otherwise combed into a bat with the various fibres intermingled and uniformly distributed therein. (Simple extraction of the thermoplastic fibre by a suitable solvent readily proves that a substantially uniform distribution may be brought about in this manner.) The bat thus prepared is now fed on to a pre-woven fabric base. Cotton textile material such as print cloth, sheeting or osnaberg is suitable, although for a heavier product a woven burlap fabric may be employed as a base ply. In any event the bat superimposed on the prewoven base is now passed through a standard needle loom and pricked or punched so that the bat becomes integrated with the base ply.

When the entanglement of the mixed fibres of the bat with the pre-woven base ply is accomplished the composite sheet is subjected to heat and pressure, as by being passed through heated rolls, and in this step of the process the fibres are flattened and firmly pressed against the base ply. At the same time the thermoplastic fibres are caused to fuse wherever they may contact in and on the interstices of the woven base and upon both surfaces thereof. The entire fibrous mixture is thus securely bonded by an internal web of fused thermoplastic fibres. The fused fibres in some instances surround the strands of the woven base, in some instances form fused nubs that cannot be drawn through the interstices of the base, and in other instances surround or are inextricably entangled with the non-thermoplastic fibres. The resultant fabric is self-binding in that it requires no extraneous binding material to anchor the mixed fibres supplied in the bat to the fabric base, but because of the continuous internal thermoplastic web or net which is formed in the process, presents permanently The fabric, moreover, has as a whole all the strength of the woven base with the surface appearance and body of felt or pile fabric.

The fabric thus produced may be employed advantageously and economically as a base for use in manufacturing shoe stiifeners, such as box toes, deriving sufiicient strength to withstand the lasting strains on account of its woven base ply.v

It may be also employed advantageously for rug .underlays. It is particularly useful as an underlay in clothing because it may be conformed to shape by hot pressing and is thereafter impervious to moisture so that it tends to preserve its original shape in wear.

These and other features of the invention will be best understood and appreciated from the following description of one specific manner in which it may be carried out as illustrated in the accompanying drawing, in which Fig. 1 is a plan view of a fragment of the fibrous bat assembled on an underlying woven ply,

Fig. 2 is a diagrammatic sectional view on a greatly enlarged scale suggesting the needle punching operation of uniting the bat and the base ply,

Fig. 3 is a fragmentary diagrammatic view suggesting the step of hot pressing the assembled plies of the fabric, and

Fig. 4 is a view corresponding to Fig. 2 suggesting diagrammatically the structure of the finished fabric.

In Fig. 1 the woven base ply l may represent osnaberg woven of cotton, approximately 4 yards to the pound which is obtainable in 40 width and accordingly supplies a woven web of very appreciable tensile strength.

The bat i2 is herein shown as comprising cut jute fibres which may average 2" in length and which can be economically secured from picked burlap bags. Mixed with the jute fibre which comprises 70% of the averaging perhaps 1' in length and thermoplastic fibres of Vinyon or Tenite averaging perhaps in length. The cotton fibres may comprise about of the whole and the thermoplastic fibres theremaining 15%. In Fig. 2Jtl1e thermoplastic fibres H are represented in solid black, the cotton fibres l3 shOW as a twist, and the jute. fibres M are represented in double lines. The bat l2 superposed uponthe osnaberg i0 is passed through a needle loom'having needles 15,

a few of which are shown in Fig. 2. In this operation some fibres of the bat are carried through the interstices of the osnaberg so that some of them project a short distance below its lower surface. After the bat and its woven base have been preliminarily united as suggested in Fig. 2 they may be passed between heated rolls l6 and in this process the bat is compressed, its fibres are flattened and the thermoplatic fibres II are fused wherever they cross or touch each other and thus a self-combining fabric is produced.

As already intimated the composition of the bat may be varied within wide limits and in some instances the cottom fibres may be omitted although they help in the carding to retain the shorter thermoplastic fibres in the mixture. However, I contemplate that for some purposes a bat comprising 15% thermoplastic fibres and 85% jute may be successfully used.

The thermoplastic or thermo-reactive fibres are preferably of cellulose acetate although any equivalent fibres may be used and merely by way of example I suggest fibres made from the conjoint polymer of vinyl chloride and vinyl acetate or polymerized vinyl acetate alone. These colloidal and synthetic resinous fibres are readily obtainable in the market as Tenite and Vinyon. The fabric of my invention may be advantageously employed as already noted in many fields as an economical and structurally satisfactory substitute for good grades of felt. It may also be finished as a pile fabric by combing and trimming the composite body of the bonded fibres.

It will be understood that the formula suggested herein above is merely typical and the best now known to me. I have referred to the total are cotton fibres Jute and cotton fibres, but contemplate the employment of any vegetable fibre which may be best suited or most economically procured under current conditions. The fibre bat may also include a small admixture of wool or other animal fibre if desired although this will not usually by necessary. Further, while I have suggested heated rolls for applying pressure and heat to the united plies of the material they represent only one convenient instrumentality and any adequate form of hot pressing would be within the scope of the present'invention. As already noted one important field of use is in the manufacture of shoe stiffeners such as box toe blanks and where self-binding fabric of my invention is used for that purpose it is saturated in a suitable molten mixture of wax, resin and rubber which hardens when cool and converts the fabric into a stiff sheet which is then died out and sklved and so converted into blanks ready for the shoemakers use.

Having thus disclosed my invention and described an: illustrative embodiment thereof, I claim as new and desire to secure by Letters Patent,

1. The process of making self-binding fabric having a woven textile base, which consists in mixing non-fusible and fusiblefibres into a bat, needle punching the bat upon a textile base, and then subjecting the two plies thus formed to heat and pressure to fuse the latter fibres into an anchoring web on both sides of, the textile base.

2."The process of making a pile fabric having a textile base, which consists in mixing vegetable fibres and resinous fibres into .,a=bat,fneedle punching the. bat upon atextile base, subjecting the two plies thus preliminarily united to heat and pressure to fuse the resinous fibres into an anchoring web preliminarily connecting the two piles, and then combing and finishing the mixed fibre surface.

3. The process of making composite sheet fabric for shoe stiffeners, which consists in mixing cotton fibres, jute fibres and fibres of cellulose acetate into a bat, needle punching the bat upon a textile base, and then compressing and heating the two united plies to fuse the cellulose acetate fibres into an anchoring web which is engaged with the said textile base.

4. The process of making a composite sheet fabric having a woven base, which is characterized by the steps of mixing vegetable fibres with shorter fibres of a synthetic resin to form a substantially homogeneous bat, needle punching the bat upon a woven base and thereby carrying some of the mixed fibres through the base, and then heating and compressing the plies thus united to fuse the resinous fibres together in and on the interstices of the woven base.

5. Process of making a composite sheet fabric having a woven base, which is characterized by the steps of mixing jute fibres in approximately 2" lengths and substantially of the mixture, cotton fibres in approximately 1" lengths and substantially 15% of the mixture, and cellulose acetate fibres in approximately /2" lengths and substantially 15% of the mixture, to form a bat in which the mixed fibres are uniformly distributed, needle punching the bat upon a woven base and thereby carrying some of the mixed fibres through the base, and then heating and compressing the plies thus united to fuse the cellulose fibres together into an anchoring web.


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US2444115 *31 Ene 194429 Jun 1948Kendail CompanyTextile fabrics
US2464301 *18 Dic 194315 Mar 1949American Viscose CorpTextile fibrous product
US2475241 *1 Feb 19455 Jul 1949Hermanson William AHeat sealed bag
US2483405 *20 Nov 19434 Oct 1949American Viscose CorpFibrous products and textiles produced therewith
US2528183 *30 Dic 194731 Oct 1950Borg George W CorpMethod of making abrasive pads
US2543101 *20 Jul 194427 Feb 1951American Viscose CorpComposite fibrous products and method of making them
US2588228 *16 Ene 19484 Mar 1952Drycor Felt CompanyIndustrial and papermakers' felt and method of producing the same
US2762323 *20 Oct 195211 Sep 1956Bernard Silvere Serge LouisDevice for assembling fabrics of synthetic material such as superpolyamide
US2766158 *28 Dic 19549 Oct 1956Franz G RineckerInsole
US2840881 *13 May 19551 Jul 1958Du PontArticle of manufacture and process of making same
US3022813 *24 Jul 195827 Feb 1962Marshall Glover BenjaminMethod of making bonded non-woven fabric from textile fibers
US3046173 *14 Dic 196024 Jul 1962Sackuer Products IncEmbossed plastic sheets and method of making same
US3085309 *9 Mar 196016 Abr 1963Kendall & CoThrowaway diaper
US3197355 *20 Abr 196127 Jul 1965Sackner Prod IncMethod of making a pattern coated backing and product
US3257259 *9 Jun 196521 Jun 1966Fieldcrest Mills IncMethod of making non-woven fabrics
US3287474 *20 Ago 196322 Nov 1966Eastman Kodak CoMethod of preparing non-woven fabrics
US3324609 *11 Ago 196413 Jun 1967Norton CoNon-woven webs
US3329554 *24 Jul 19624 Jul 1967Hencken Harold GFabric bearing material
US3347736 *27 Nov 196417 Oct 1967British Nylon Spinners LtdReinforced needleed pile fabric of potentially adhesive multi-component fibers and method of making the same
US3348993 *27 Nov 196424 Oct 1967British Nylon Spinners LtdFabrics
US4243446 *8 Dic 19786 Ene 1981Allibert Exploitation, Societe AnonymeMethod of making a luffa composite
US4258093 *26 Abr 197924 Mar 1981Brunswick CorporationMolding nonwoven, needle punched fabrics into three dimensional shapes
US4258094 *26 Abr 197924 Mar 1981Brunswick CorporationMelt bonded fabrics and a method for their production
US4439476 *21 Dic 198227 Mar 1984Don Brothers, Buist P.L.C.Tufted fabrics and method of making
US4840832 *23 Jun 198720 Jun 1989Collins & Aikman CorporationMolded automobile headliner
US5536551 *18 Jul 199416 Jul 1996Jps AutomotiveMethod for binding tufts
US6048809 *3 Jun 199711 Abr 2000Lear Automotive Dearborn, Inc.Vehicle headliner formed of polyester fibers
US6124222 *8 Jul 199726 Sep 2000Lear Automotive Dearborn, Inc.Multi layer headliner with polyester fiber and natural fiber layers
US675633211 Jun 200129 Jun 2004Jason IncorporatedVehicle headliner and laminate therefor
US20010036788 *11 Jun 20011 Nov 2001Sandoe Michael D.Vehicle headliner and laminate therefor
DE1155086B *22 Sep 19593 Oct 1963Bigelow Sanford Carpet CoPolsterteppich und Verfahren zum Herstellen desselben
EP0160039A1 *19 Oct 19846 Nov 1985Huyck CorporationPapermaker's felt
EP0160039A4 *19 Oct 198418 Mar 1986Huyck CorpPapermaker's felt.
Clasificación de EE.UU.156/62.2, 264/122, 28/112, 264/DIG.750, 36/77.00M, 156/148, 28/159, 264/112
Clasificación internacionalD04H13/00
Clasificación cooperativaD04H13/003, Y10S264/75
Clasificación europeaD04H13/00B3