Fabric (woven – knitted – or nonwoven textile or cloth – etc.) – Woven fabric – Woven fabric has an elastic quality
Reexamination Certificate
2001-01-05
2003-05-20
Juska, Cheryl A. (Department: 1771)
Fabric (woven, knitted, or nonwoven textile or cloth, etc.)
Woven fabric
Woven fabric has an elastic quality
C442S182000, C442S183000, C442S328000, C442S329000, C442S366000
Reexamination Certificate
active
06566285
ABSTRACT:
CROSS-REFERENCE TO RELATED APPLICATIONS
Not Applicable.
BACKGROUND OF THE INVENTION
(1) Field of the Invention
The present invention relates to a method of imparting a desired shape to a piece of fabric and also relates to a resulting fabric composite and to items manufactured therefrom. The composites according to the invention are intended to be made up into such items as waistbands and collars, but the invention is not limited to any particular garment part.
(2) Description of Related Art
Curved waistbands are desirable for the manufacture of certain items of clothing where the waistband is to be sewn to a shaped garment top, but hitherto it has not been possible to manufacture such a curved waistband in a single piece—conventional methods include manufacturing the waistband from several, usually four to six separate pieces sewn together, which is clearly disadvantageous as regards labour and manufacturing costs. Likewise, conventional collars for tailored jackets are manufactured in a number of different pieces to impart the required shape, which is expensive and time-consuming, and, in the case of collars cut on the bias, wasteful of fabric.
BRIEF SUMMARY OF THE INVENTION
It is therefore the aim of the present invention to provide an improved fabric composite and manufacturing method therefor, which overcomes these and other disadvantages.
According to a first aspect of the present invention there is provided a method of imparting a desired shape to a fabric composite, the method including the step of affixing to a fabric backing material an interlining (or interlining composite) having extensibility in the longitudinal direction wherein the method includes the further step of selectively controlling the longitudinal extensibility across the width of the composite in such a manner as to permit the composite to assume, or be formed into, a desired shape.
The term “extensibility” is to be interpreted as meaning the degree to which the interlining or composite may be permanently lengthened (for example by pressing) relative to its original (pre-pressed) length. In this sense, when the longitudinal extensibility is selectively controlled according to the invention, certain areas may subsequently be extended to a greater degree than other areas, resulting in formation of the desired shape.
The manner in which the extensibility is selectively controlled across the composite width is determined by the intended use of the composite.
For example, where the composite is intended to be made into a waistband the area of the composite which will form the upper edge of the waistband is, according to the invention, the area of lower extensibility relative to the area which will form the lower edge of the waistband (to be sewn to the body of the garment), which has higher extensibility. Thus, when the composite so treated is pressed it readily assumes a permanent curved shape in which the lower edge is longer than the upper edge.
On the other hand when the composite is intended to be made into a collar (or collar facing), the area of relatively lower extensibility is in the centre region, with the areas to either side (across the width) having relatively higher extensibility, the composite thus assuming, when pressed, a shape which has longer inner and outer edges relative to the centre region, allowing the inner edge of the collar to be sewn to the garment and the outer edge of the collar when the latter is turned over to lie flat against the garment body.
According to the first aspect of the present invention there is further provided a fabric composite manufactured according to the method of the fourth paragraph hereof.
According to the first aspect of the present invention there is still further provided a collar and/or collar facing manufactured from a fabric composite according to the preceding paragraph.
There are several different ways of achieving the selectively controlled extensibility—one way is to use a single interlining which has the selective control “built in”.
According to a second aspect of the present invention there is provided an interlining having indeterminate longitudinal dimension and a width defined by first and second edges, the interlining having extensibility in the longitudinal dimension, wherein the longitudinal extensibility of the interlining varies from the first edge to the second edge. For the manufacture of waistbands, the interlining would be in strip form, in various different widths.
In the case where the interlining strip is of the type having a number of elastic, eg “LYCRA” (Registered Trade Mark) threads running longitudinally, the variation in extensibility is preferably achieved by progressively removing some of the strands, such that the resultant degree of extensibility close to one of the edges is considerably different to that close to the other edge. Alternatively, the interlining could be specifically manufactured to have different densities of such elastic threads across the width of the strip. A further alternative would be to progressively reduce the elastic deniers across the width.
For the avoidance of confusion, the term “elastic” is to be interpreted as meaning the degree of resistance to extensibility, such that high elasticity is to be equated with low extensibility—in the case of the elastic interlining referred to in the preceding paragraph the higher elasticity of one edge resists extension whilst the lower elasticity of the opposite edge allows extension. The term “elastic recovery” refers to the degree to which the composite returns to its relaxed length upon removal of the extending force.
When the interlining is attached to the fabric backing material, typically by conventional fusing methods, the result is a composite strip which has a high degree of elastic recovery at the uppermost edge of the interlining, and a low degree of elastic recovery at the lowermost edge of the interlining, such that the composite assumes, or is made to assume, a curved shape.
During the process of attaching the composite strip to the garment top, the strip may be tensioned through a folding machine such that as the garment emits from the puller feed at the back of the machine the top “high recovery” edge of the resultant waistband recovers, i.e reduces back to its relaxed length prior to tensioning, whilst the lowermost edge of the waistband, which conforms to the shape of the garment top, is unable to recover due to the low elasticity of the interlining in this region, and curvature results, giving a shaped waistband. Steam pressing may be required at this stage to maximise the effect.
According to the second aspect of the present invention there is provided a fabric composite comprising a fabric backing material having affixed thereto an interlining having indeterminate longitudinal dimension and a width defined by first and second edges, the interlining having extensibility in the longitudinal dimension, wherein the longitudinal extensibility of the interlining varies from the first edge to the second edge.
According to the second aspect of the present invention there is further provided a waistband composed of a composite fabric strip comprising a fabric backing material having affixed thereto an interlining of width defined by first and second edges, the interlining having extensibility in the longitudinal dimension, wherein the longitudinal extensibility of the interlining varies from the first edge to the second edge.
Particular advantages ensue if the present invention if the fabric backing material is first subjected to the fabric treatment process described in Applicants' own PCT Patent Application published under number WO 94/28227, according to which a woven fabric is subjected to heat and pressure such that the yarn strands substantially across the width of the fabric are forced closer together, thus imparting a degree of extensibility into the fabric.
In the case where a fabric having very little or no elasticity is used as the backing material, this “pre-treatment” process imparts the necessary degree of stretch, wherea
Horsfield Michael
Morris Paul
Howard & Howard
Juska Cheryl A.
Pro-fit International Limited
Salvatore Lynda
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