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Publication numberUS3235933 A
Publication typeGrant
Publication dateFeb 22, 1966
Filing dateSep 14, 1962
Priority dateSep 14, 1962
Publication numberUS 3235933 A, US 3235933A, US-A-3235933, US3235933 A, US3235933A
InventorsEugene Cohn, Frank Catallo, Joseph Cohn
Original AssigneeCompax Corp
Export CitationBiBTeX, EndNote, RefMan
External Links: USPTO, USPTO Assignment, Espacenet
Method for compacting fabric
US 3235933 A
Abstract  available in
Images(1)
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Claims  available in
Description  (OCR text may contain errors)

Feb. 22, 1966 F. CATALLO ETAL 3,235,933

METHOD FOR GOMPACTING- FABRIC Filed Sept. 14, 1962 INVENTORS FRANK C LLO JOSEPH H BY EUGENE cor-m rORNEYs United States Patent 3,235,933 METHOD FOR COMPACTING FABRIC Frank Catallo, Elmont, Joseph Colin, New York, and Eugene Cohn, Great Neck, N.Y., assignors to Compax Corp., Woodside, N.Y., a corporation of New York Filed Sept. 14, 1962, Ser. No. 223,700 5 Claims. (Cl. 26-18.6)

The present invention relates to the treatment of fabric, and more particularly to an improved method and means for treating fabric by compacting the fabric lengthwise, to preshrink or otherwise condition the material. The invention is particularly suited for the preshrinking or compacting of tubular knit fabric, but is useful for treating fabric in other ways, and for treating web material of various types, including web material not strictly falling within the definition of fabric.

This invention is related to other inventions described and claimed in our copending applications Ser. No. 638,154, filed February 4, 1957, Ser. No. 707,814, filed January 8, 1958, and Ser. No. 707,803, filed January 8, 1958, now United States Patents No. 3,015,145, No. 3,083,435, and No. 3,015,146, respectively. In this respect, the present invention involves the treatment of web material by feeding the material at a first speed toward a treating zone of limited size, and carrying the material away from the treating zone at a reduced speed. In the zone, the material is compacted or otherwise treated in a desired manner, determined by the relative speeds of feeding and removing and the dimensions of the treating zone.

According to our prior inventions, web material is fed to a treating zone by means of a feeding roll and is carried away from the zone by a retarding roll travelling at a lower peripheral speed. A nip, formed by the feeding and retarding rolls, defines one end of the treating zone-the exit endwhile the entrance end of the zone is formed by a blade-like member spaced a short distance in advance of the nip. The present invention is similar in its fundamental theory to our prior inventions, but differs therefrom in certain substantial respects, particularly with regard to the manner in which the web material is carried toward and away from the treating zone and in the manner in which the treating zone is formed.

Thus, in accordance with the present invention, web material is conveyed to and away from the treating zone by means of travelling belts which grip the material across its width, advantageously over a substantial lengthwise extent. The belts may be arranged to grip one side only of the web material, in which case pressure means may be provided for urging the material into gripping contact with the belts. Alternatively, pairs of belts may be provided, with both belts of a pair travelling at the same speed, so that the material may be gripped on both surfaces, between a pair of belts, and carried to and away from the treating zone. The alternative arrangement may be used to particular advantage in connection with the treatment of tubular knitted material, for example, which is conventionally treated in flat, doubled form.

In accordance with one of the important features of the invention, the fabric conveying belts are disposed along the conveying path up to a point immediately adjacent the treating zone. The belts then extend sharply away from the conveying path, advantageously at about right angles thereto. Thus, the point at which the feeding belt disengages the fabric may be very close to the point at which the fabric first engages the removing or retarding belt. The treating zone may be formed at least in part by the belts themselves. When only two belts are used, a pressure plate advantageously spans the feed- "ice ing and retarding belts and provides a smooth, flat surface along which the web material may move from one belt to the other. The belts are advantageously very thin, usually having a thickness less than that of the material treated, so that the belts may readily be caused to travel about a sharp, right angular corner. The small space defined by the spanning pressure plate and the adjacent corners of the belt paths forms the treating zone, in which the material is relatively unconfined in its thickness direction, accommodating compacting, pleating or other treatment of the mate-rial in the desired manner.

In the alternate form of the invention, the belts are arranged in symmetrical pairs and one set of feeding and retarding belts takes the place of the pressure plate used in the above-described form of the invention. In the alternative arrangement, the treating zone is defined by the corner areas of the four belts, which are disposed symmetrically about the treating area.

Advantageously, the feeding and retarding belts are driven by rollers positioned remotely from the treating zone and the belts are passed about stationary supports adjacent the zone, which have right angularly related surfaces about which the belts pass. The right angle corners are slightly rounded to avoid excessive wear on the belts. The guiding surfaces of the supports may be disposed at acute angles, for example, if desired. However, right angularly related surfaces are usually more advantageous, as they result in less wear on the belts.

For a better understanding of the invention, reference should be made to the following detailed description and to the accompanying drawing, in which:

FIG. 1 is a longitudinal, cross-sectional view of a simplified form of the apparatus of the invention utilizing a single feeding belt and a single retarding belt, with a pressure plate spanning the two belts;

FIG. 2 is a fragmentary, top plan view of the apparatus of FIG. 1;

FIG. 3 is a greatly enlarged, fragmentary view of the apparatus of FIG. 1, showing details of the treating zone; and

FIG. 4 is a simplified representation of an alternative form of the new apparatus, utilizing pairs of feeding and retarding belts.

Referring now to the drawing, and initially to FIGS. 13 thereof, the reference numerals 10, 11 designate spaced rollers which are engaged by appropriate drive means (not specifically illustrated) and arranged to be driven at different speeds. The roller 10, which'rnay be considered the feeding roller is arranged to be driven at a speed higher than the roller 11, which may be considered the retarding roller. Advantageously, both rollers are driven from a single drive source, and adjustable means is provided in the drive system for at least one of the rollers, whereby the relative speeds of the rollers may be adjusted. Any suitable mechanism may be utilized for this purpose, and reference may be made to the previously identified applications for illustrative examples thereof.

Between the rollers 10, 11 are support members 12, 13, which are mounted in normally fixed relation by spaced frame plates 14, with suitable means 15-17 being provided for effecting limited adjustment. In accordance with the invention, the supports 12, 13 have upper surfaces 12a, 13a which are tangent to the upper surfaces of the rollers 10, 11, respectively. Advantageously, the parts are so arranged that a single plane is defined by the rollers 10, 11 and the surfaces 12a, 13a, substantially as shown in FIG. 1.

The supports 12, 13 are also provided with vertical surfaces 12b, 13b disposed substantially at right angles to the surfaces 12a, 13a and merging into generally rounded surfaces adjacent the bottoms of the supports. In accordance with the invention, feeding and retarding belts 18, 19 are trained about the rollers 10, 11 and the respective supports 12, 13 associated therewith. The arrangement is such that the belts are driven by the rollers 10, 11 at speeds determined by the rotation of the rollers and through paths determined in part by the surfaces 12a, 12b and 13a, 13b of the supports. The belts 18, 19, are advantageously as thin as practicable, so that extraordinary stresses are not imparted thereto as the belts travel through angular paths formed by the supports 12, 13.

As shown best in FIG. 3, the adjacent upper corners 12c, 130 of the supports 12, 13 are rounded very slightly to facilitate the travel of the belts 18, 19 about the fixed supports. Generally speaking, the radii of the corners 12c, 130 should be quite small, usually not substantially greater than that necessary to avoid excessive wear on the belts.

Disposed above the feeding and retarding belts 18, 19 is a pressure plate 20, which extends across the full width of the belts and slightly beyond the edges thereof. The plate 20 spans the recess between the supports 12, 13 and extends longitudinally a substantial distance over the tops of the supports. In the illustrated apparatus, the pressure plate 20 extends longitudinally beyond both of the supports 12, 13 and is secured to lugs 21, 22 at the edges of the supports, by means of bolts 23 and springs 24. With proper adjustment of the bolts 23, the springs 24 urge the plate 20 downwardly, to apply pressure in desired, predetermined amounts.

One or all of the support members 12, 13 and the pressure plate 20 are provided with heating means and, ad-

vantageously, each of these members is provided separately with heating means, so that uniform, controllable heat is supplied to the treating area. In the illustrated apparatus, the pressure plate 20 is provided with an electrical heating element 25, portions of which are disposed on opposite sides of a reinforcing rib 26. The electrical element 2-5 is thermostatically controlled by any means suitable for the purpose. The supports 12, 13 of the illustrated apparatus are provided with internal chambers 27, 28, which are supplied with steam from lines 29, 30. Advantageously, the rollers 10, 11 are also heated, usually by steam, although it may be less important to heat the rollers than the areas surrounding the treating zone.

In the operation of the apparatus of FIGS. 13, web material 31, which may be tubular knit fabric, for example, is fed onto the upper surface of the feeding belt 18, which is driven at a predetermined speed. The belt 18 feeds the web material between the pressure plate 20 and the support 12, the belt 18 having a substantial grip on the material by reason of the pressure applied between the plate 20 and the support 12. The web material 31 is fed to and across the small gap formed between the supports 12, 13, at which point the material is gripped between the pres sure plate 20 and the retarding belt 19. In accordance with the invention, the retarding belt 19 is travelling at a speed somewhat slower than the belt 18, so that the web material is abruptly decelerated from the higher to the lower speed. This, of course, occurs uniformly across the width of the material, since the material is gripped across its entire width by the belts 18, 19.

Advantageously, the pressure plate 20 is so adjusted with respect to the supports 12, 13 that little, if any, slippage occurs between the web material 31 and the respective feeding and retarding belts 18, 19. Accordingly, deceleration of the moving web material from the feeding to the retarding speed takes place in the short interval or space in which the web material is unconfined laterally in travelling from one belt to the other. This area, in which the material is decelerated, may be referred to as the treating zone.

As explained in somewhat more detail in our before identified, copending applications, the web material may be compacted in the treating Zone, by causing the fibers 7 4, t to be shortened lengthwise, and, for'this purpose, the length of the treating-zone, measured longitudinally of the fabric, is advantageously such that no buckling of the fabric or fibers occurs, substantially as described in the United States Patents Nos. 2,765,513 and 2,765,514 to Richard R. Walton. On the other hand, it may be desirable, in certain instances, to effect a crimping or pleating of the material, in which case the longitudinal dimension of the treating zone is desirably of such magnitude, in relation to the relative speeds of the feeding and retarding belts 18, 19, that the material is caused to bunch up and form folds or pleats. In either case, the treatment of the fabric is given a substantial degree of permanency by means of the heated surfaces surrounding the treating zone, between which the material is gripped under pressure. In this respect, there is usually, if not always, a certain amount of residual moisture in the fabric, so that the fabric is, in effect, steamed and set during the treatment.

Of course, it will be understood that web material other than fabric may be treated by the described apparatus and in accordance with the described method to achieve various desirable results, such as creping, pleating, etc.

A modified form of the new apparatus is illustrated in FIG. 4. In the modified apparatus, the feeding and retarding belts are arranged in pairs. Thus, feeding belts 40, 41 are trained about driven feeding rollers 42, 43 and fixed supports 44, 45. Likewise, retarding belts 46, 47 are trained about driven retarding rollers 48, 49 and about fixed supports 50, 51. The lower set of feeding and retarding belts, and the elements related thereto, may be substantially the same as those described in connection with the apparatus of FIGS. 1-3. The upper set of belts and elements is advantageously symmetrical to the lower set, although it will be understood that the various components need not be of identical size, as illustrated. In the modified apparatus, the feeding belts 40, 41 are driven at equal speeds, and grip the'web material 52 on its opposite surfaces. The material, thus gripped across its entire width, is fed-"to atreating zone formed by the small open space defined bythe innermost corners of the supports 44, 45 and 50, 51. The material passing through the treating zone is engaged on its opposite surfaces by the retarding belts 46, 47, travelling at a slower speed, and is controllably conveyed away from the zone.

Fundamentally, the treatment of the fabric in the modified apparatus of FIG. 4 is substantially the same as the treatment of the material in the apparatus of FIGS. 1-3. However, the modified apparatus may be advantageous in certain instances, as it assures greater uniformity of treatment on' the opposite surfaces of the web material. Such an advantage may be particularly desirable in connection with the treatment of tubular knit material.

The new apparatus and method enables web material to be treated in an improved manner and results in a treated material having improved and novel characteristics. The apparatus is of a generally simplified nature, capable of economical manufacture, yet provides for superior control of the material during the treatment thereof, so that highly uniform and advantageous treating characteristics are realized.

It should be understood, however, that the specific forms of the invention herein illustrated and described are intended to be representative only, as certain changes may be made therein without departing from the clear teachings of the disclosure. Accordingly, reference should be made to the following appended claims in determining the full scope of the invention.

We claim:

1. The method of treating web material to reduce its length which comprises gripping the material across its width by a moving belt, advancing the gripped material at a first speed toward a treating zone, slidably supporting and guiding the belt across its width and over an edge in the immediate region of the treating zone to abruptly disengage the belt from the web material and cause the material to travel through the treating zone, and abruptly gripping the material across its width by a second belt moving at a speed slower than the first belt, said second belt being slid-ably guided across its Width and over an edge in the region of said treating zone to abruptly engage and grip the web material at the exit side of said treating zone, said treating zone being defined on at least one side of the web material solely by said belts, said web material being shortened in length as a function of the relative speeds of the first and second belts.

2. The method of claim 1, further characterized by heating the web material adjacent the treating zone.

3. The method of claim 1, further characterized by gripping and advancing the material toward the treating zone and removing the same therefrom by pairs of belts acting upon opposite surfaces of the material, said treating zone being defined on both sides of said Web material by said belts.

4. The method of claim 1, further characterized by holding the material in pressure contact With the belts on opposite sides of the treating Zone.

5. The method of claim 1, further characterized by guiding the material to travel substantially in a single plane while gripped by the belts and passing through the treating zone.

References Cited by the Examiner UNITED STATES PATENTS 1,837,408 12/1931 Cluett M 2618.6 2,263,712 11/1941 Wrigley et al. 26-18.6 2,522,663 9/1950 Chatfield 2618.6 2,765,513 10/1956 Walton 2618.6 2,765,514 10/1956 Walton 2618.6 3,007,223 11/1961 Wehrmann 26-18.6 3,012,923 12/1961 Slayter 156183 X 3,100,925 8/1963 Messinger 2618.6

DONALD W. PARKER, Primary Examiner.

RUSSELL C. MADER, Examiner.

Patent Citations
Cited PatentFiling datePublication dateApplicantTitle
US1837408 *Apr 18, 1930Dec 22, 1931Cluett Sanford LMethod of shrinking fabrics
US2263712 *Mar 16, 1940Nov 25, 1941Bradford Dyers Ass LtdProcess of and apparatus for shrinking fabrics and yarns
US2522663 *Jun 7, 1948Sep 19, 1950Trustees Of The Redman TrustApparatus for condensing fabrics
US2765513 *Dec 9, 1954Oct 9, 1956Richard R WaltonMethod of treating textile materials
US2765514 *Jul 28, 1955Oct 9, 1956Richard R WaltonApparatus for treating textile materials
US3007223 *May 29, 1958Nov 7, 1961L & L Mfg IncProcess and apparatus for controlling shrinkage in and otherwise improving the characteristics of tubular fabrics
US3012923 *Sep 30, 1957Dec 12, 1961Owens Corning Fiberglass CorpFibrous products and method and apparatus for producing same
US3100925 *Dec 2, 1960Aug 20, 1963Du PontApparatus for compressional finishing of fabrics
Referenced by
Citing PatentFiling datePublication dateApplicantTitle
US3390218 *Oct 6, 1964Jun 25, 1968Johnson & JohnsonMethod of pleating sheet materials
US3438106 *Aug 17, 1966Apr 15, 1969Compax CorpMethod of producing shrink-free knitted fabric having characteristics of elastic restorability
US3471907 *Jul 19, 1965Oct 14, 1969Beckers GustavApparatus for continuously and mechanically compacting webs of fibrous material
US3484839 *Nov 15, 1968Dec 16, 1969Heinz NeumannMethod of producing crinkly corrugations in a sheet of synthetic plastic material
US4363161 *Oct 8, 1980Dec 14, 1982Frank CatalloMethod and apparatus for the compressive treatment of fabric
US4882819 *Apr 6, 1989Nov 28, 1989Compax Corp.Method for compressively shrinking of tubular knitted fabrics and the like
US5582892 *Apr 8, 1994Dec 10, 1996Minnesota Mining And Manufacturing CompanyDimensionally stable particle-loaded PTFE web
US5669123 *Jul 22, 1996Sep 23, 1997Minnesota Mining And Manufacturing CompanyMethod of making a dimensionally stable particle-loaded PTFE web
WO1981001427A1 *Nov 14, 1980May 28, 1981F CatalloMethod and apparatus for the compressive treatment of fabric
Classifications
U.S. Classification26/18.6, 162/111, 264/282
International ClassificationD06C21/00
Cooperative ClassificationD06C21/00
European ClassificationD06C21/00