Water shorts incorporating a stretch textile

Abstract

An article of apparel, which may be a pair of water shorts, includes a first textile and a second textile. The first textile forms a majority of an exterior surface and an opposite interior surface of the apparel, and the first textile exhibits at least thirty percent stretch prior to tensile failure. The second textile is located around a waistband portion of the apparel, and the second textile exhibits less than ten percent stretch prior to tensile failure.

Description

BACKGROUND

Various types of swimwear are worn during aquatic activities, including swimming, diving, surfing, water skiing, and scuba diving. As an example of one type of swimwear, racing suits are commonly worn when engaging in competitive swimming or diving. Racing suits are generally formed from stretch knitted textiles (e.g., knitted textiles that incorporate spandex and stretch more than ten percent prior to tensile failure) that provides a tight-fitting configuration to reduce drag. Although some racing suits only cover the pelvic region of an individual, other racing suits cover a majority of the torso and may extend over arms and legs of the individual. As an example of a second type of swimwear, water shorts are commonly worn while surfing or engaging in recreational swimming. In contrast with the stretch knitted textiles of racing suits, water shorts are generally formed from non-stretch woven textiles (e.g., woven textiles that stretch less than ten percent prior to tensile failure) and exhibit a loose-fitting configuration. Although water shorts may be relatively tight around the waist of an individual, water shorts are generally loose-fitting in the pelvic region and the leg regions of the individual.

Stretch knitted textiles and non-stretch woven textiles react differently when immersed in water or otherwise saturated with water. More particularly, stretch knitted textiles may stretch or otherwise deform when exposed to fluid flow or subjected to the additional weight of being saturated with water. When pre-stretched to impart the tight-fitting configuration of racing suits (i.e., when a racing suit is worn), however, tension in the stretch knitted textiles is generally sufficient to overcome the deformation that occurs as a result of being saturated with water. In contrast with stretch knitted textiles, non-stretch woven textiles are dimensionally-stable. Given the loose-fitting configuration of water shorts, non-stretch woven textiles are generally utilized in order to reduce deformation that occurs when the water shorts are exposed to fluid flow or subjected to the additional weight of being saturated with water. That is, the non-stretch woven textiles utilized in water shorts remain dimensionally-stable when exposed to water.

Two common techniques for manufacturing textiles are knitting and weaving. Knitting involves the formation of a plurality of columns of intermeshed loops to form a knitted textile. Many stretch textiles are manufactured through knitting because relatively large spaces between yarns in the knitted textiles enhance stretch. For this reason, the stretch textiles utilized in racing suits are often knitted textiles. The relatively large spaces between yarns in knitted textiles also tend to hold a relatively large quantity of water, thereby increasing the deformation that occurs as a result of being saturated with water. Weaving involves intersecting yarns that cross each other at right angles to form a woven textile. Many non-stretch textiles are manufactured through weaving because the longitudinally-extending yarns and relatively small spaces between the yarns in the woven textiles provide lesser stretch than knitted textiles. For this reason, the non-stretch textiles utilized in water shorts are often woven textiles. The relatively small spaces between yarns in woven textiles also tend to hold a relatively small quantity of water, thereby decreasing the deformation (in comparison with knit textiles) that occurs as a result of being saturated with water.

Knitted textiles and woven textiles, whether of stretch or non-stretch types, also differ in terms of durability and permanent deformation. In comparison with woven textiles, knitted textiles may be less abrasion resistant and may snag more easily. When formed from similar materials, therefore, the overall durability of woven textiles may be greater than knitted textiles. In addition, knitted textiles may permanently deform more easily than woven textiles when subjected to tensile forces (i.e., when stretched). More particularly, the yarns forming loops in the knitted textiles may slide relative to each other and cause the knitted textiles to permanently remain in a stretched state, whereas woven textiles are less likely to become permanently stretched when subjected to tensile forces.

SUMMARY

Features of a pair of water shorts disclosed below relates to a first woven textile and a second woven textile. The first woven textile forms a majority of an exterior surface and an opposite interior surface of the water shorts, and the first woven textile exhibits at least thirty percent stretch prior to tensile failure. The second woven textile is located around a waistband portion of the water shorts, for example, and the second woven textile exhibits less than ten percent stretch prior to tensile failure.

The advantages and features of novelty characterizing aspects of the invention are pointed out with particularity in the appended claims. To gain an improved understanding of the advantages and features of novelty, however, reference may be made to the following descriptive matter and accompanying drawings that describe and illustrate various embodiments and concepts related to the invention.

FIGURE DESCRIPTIONS

The foregoing Summary of the Invention and the following Detailed Description of the Invention will be better understood when read in conjunction with the accompanying drawings.

FIG. 1 is a front elevational view of an individual wearing an article of apparel.

FIG. 2 is a front elevational view of the article of apparel.

FIG. 3 is a rear elevational view of the article of apparel.

FIG. 4 is a first side elevational view of the article of apparel.

FIG. 5 is a second side elevational view of the article of apparel.

FIGS. 6A and 6B are cross-sectional views of the article of apparel, as defined in FIG. 2.

FIG. 7A and 7B are cross-sectional views corresponding with FIG. 6B and depicting further configurations of the article of apparel.

FIG. 8 is a plan view of a portion of a woven textile that may be incorporated into the article of apparel.

DETAILED DESCRIPTION

The following discussion and accompanying figures disclose an article of apparel 10 having a configuration of a pair of water shorts. Although the structure of apparel 10 and the materials incorporated into apparel 10 are suitable for use during a variety of aquatic activities (e.g., swimming, diving, surfing, water skiing, and scuba diving), apparel 10 may also be worn while engaging in land-based activities. Accordingly, apparel 10 may be suitable for a variety of aquatic and non-aquatic activities.

With reference to FIG. 1, apparel 10 is depicted as being worn by an individual 100 with a torso region 110, a pelvic region 120, a pair of upper leg regions 130, and a pair of lower leg regions 140. In addition, various views of apparel 10 in the absence of individual 100 are provided in FIGS. 2-5. A pelvic area 20 of apparel 10 substantially extends around and covers pelvic region 120 of individual 100, and a pair of leg areas 30 of apparel 10 substantially extend around and cover upper leg regions 130 of individual 100. Areas 20 and 30 are not intended to demarcate precise areas of apparel 10. Rather, areas 20 and 30 are intended to represent general areas of apparel 10 that provide a frame of reference during the following discussion. Pelvic area 20 defines an upper opening 21 in apparel 10 out of which torso region 110 extends. Similarly, each of leg areas 30 define a pair of lower openings 31 out of which lower leg regions 140 extend.

Pelvic area 20 includes a waistband 22 that extends around apparel 10 adjacent to upper opening 21. A lace 23 extends through various apertures in a front area of waistband 22, and lace 23 crosses between the apertures. Although a fly portion of pelvic area 20, which includes lace 23 and a portion of waistband 22, may have a variety of configurations, the fly portion is depicted as having a configuration disclosed in U.S. Pat. No. 6,199,215 to Biggerstaff. When apparel 10 is worn by individual 100, lace 23 may be utilized in a conventional manner to adjust the circumference of waistband 22. That is, lace 23 may be tensioned and tied to secure apparel 10 to individual 100, and lace 23 may be untied and loosened to assist in removing apparel 10 from individual 100. Although lace 23 is depicted as extending through the apertures in waistband 22, lace 23 may alternately extend around the circumference of waistband 22. That is, lace 23 may extend through a channel formed in waistband 22 so as to extend entirely around pelvic region 120 of individual 100. Lace 23 may also be absent such that a zipper, snap, button, or hook and loop fastener, for example, is utilized.

With the exception of waistband 22, a majority of apparel 10 has a loose-fitting configuration. That is, apparel 10 is generally structured to be spaced from individual 100 or in loose contact with individual 100 when worn, rather than in tight-fitting contact with individual 100. As discussed in the Background section above, many pairs of water shorts are primarily formed from non-stretch woven textiles. In contrast, apparel 10 may be primarily formed from a stretch woven textile 11. That is, a relatively large portion of the woven textiles utilized in apparel 10 are stretch woven textiles.

Stretch woven textile 11 forms both an exterior surface 13 and an opposite interior surface 14 of apparel 10 in a majority of apparel 10. Referring to FIG. 6A, a cross-section through a portion of apparel 10 is depicted. As shown in the cross-section, stretch woven textile 11 forms both exterior surface 13 and interior surface 14. Although the cross-section is shown through one of leg areas 30, stretch woven textile 11 also forms both exterior surface 13 and interior surface 14 in a majority of pelvic area 20. In some configurations of apparel 10, various appliqués, transfers, patches, indicia, tags, pulls, or other aesthetic or functional features of apparel 10 may also form a portion of either of surfaces 13 and 14. A majority of exterior surface 13 and interior surface 14, however, is formed from stretch woven textile 11.

One area where stretch woven textile 11 may not form both of surfaces 13 and 14 is in waistband 22. Referring to FIG. 6B, a cross-section through a portion of waistband 22 is depicted. As shown in the cross-section, stretch woven textile 11 forms exterior surface 13, but a non-stretch woven textile 12 forms interior surface 14. That is, waistband 22 has a layered configuration wherein stretch woven textile 11 forms an exterior layer that defines exterior surface 13 and non-stretch woven textile 12 forms an interior layer that defines interior surface 14. Whereas stretch woven textile 11 has a stretch configuration, non-stretch woven textile 12 has a substantially non-stretch configuration. As noted above, a majority of apparel 10 has a loose-fitting configuration, with the exception of waistband 22, which is tightened to secure apparel 10 to individual 100. By forming a portion of waistband 22 from non-stretch woven textile 12, tensioning lace 23 may effectively induce tension in waistband 22 and assist with securing apparel to individual 100. Although non-stretch woven textile 12 extends around substantially all of waistband 22, non-stretch woven textile 12 may extend around only a portion of waistband 22 in some configurations of apparel 10. That is, non-stretch woven textile 12 may be limited to side and rear portions of waistband 22, or non-stretch woven textile 12 may be absent from the side areas, for example.

The locations of woven textiles 11 and 12 depicted in FIG. 6B provide an example of a suitable configuration for waistband 22. In another configuration, which is depicted in FIG. 7A, non-stretch woven textile 12 is located within stretch woven textile 11. That is, stretch woven textile 11 wraps around non-stretch woven textile 12 to locate non-stretch woven textile 12 in an interior portion of waistband 22. As another example of a configuration of waistband 22, non-stretch woven textile 12 may be located on the exterior of apparel 10, thereby forming a portion of exterior surface 13, as depicted in FIG. 7B.

Yarns within stretch woven textile 11 may be at least partially formed from any of polyamide, polyester, nylon, spandex, wool, silk, or cotton materials, for example. More particularly, the yarns may be eighty percent polyamide and twenty percent spandex in some configurations. When formed from a combination of polyamide and spandex, for example, stretch woven textile 11 may exhibit at least thirty percent stretch prior to tensile failure, but may also exhibit at least fifty percent or at least eighty percent stretch prior to tensile failure. In some configurations of apparel 10, the stretch in stretch woven textile 11 may equal or exceed one-hundred-twelve percent. An advantage of the stretch properties of stretch woven textile 11 relates to comfort. More particularly, stretch woven textile 11 will stretch to conform with movements of individual 100 during aquatic or land-based activities, thereby providing less restriction and a greater freedom of movement during the activities.

In comparison with some knit textiles, stretch woven textile 11 may have a relatively dense structure. That is, the spaces between adjacent yarns may be relatively small in stretch woven textile 11. An advantage of this configuration is that stretch woven textile 11 may be relatively thin and lightweight. Another advantage is that the relatively small spaces between the yarns in stretch woven textile 11 tend to hold a relatively small quantity of water and exhibit relatively little deformation as a result of being saturated with water. While prior pairs of water shorts were formed from a non-stretch woven textile to limit excess weight and deformation when saturated with water, apparel 10 may overcome these issues while being formed from stretch woven textile 11. That is, despite being a stretch textile, stretch woven textile 11 is suitable for apparel 10 having the configuration of a pair of water shorts. In addition, a further advantage of utilizing stretch woven textile 11 relates to relatively high durability and a relatively low tendency to permanently deform when subjected to tensile forces (i.e., when stretched).

Yarns within non-stretch woven textile 12 may be at least partially formed from any of polyamide, polyester, nylon, spandex, wool, silk, or cotton materials, for example. Depending upon the materials selected for the yarns, non-stretch woven textile 12 may exhibit less than ten percent stretch prior to tensile failure, but may also exhibit less than five percent stretch or less than three percent stretch prior to tensile failure. Accordingly, the structure, materials, and properties of non-stretch woven textile 12 may vary significantly.

As discussed in the Background section above, many pairs of conventional water shorts are primarily formed from non-stretch woven textiles. That is, the pelvic area (including the waistband) and the leg areas of conventional water shorts are formed from non-stretch woven textiles. Each area of conventional water shorts, therefore, are primarily formed from materials that are substantially non-stretch. In contrast, apparel 10 utilizes woven textiles with different stretch properties in different areas. More particularly, a portion of waistband 22 is formed from non-stretch woven textile 12, whereas other portions of pelvic area 20 and leg areas 30 is formed from stretch woven textile 11. Accordingly, the stretch properties of the woven textiles forming apparel 10 vary in different areas of apparel 10.

A plurality of different elements of each of stretch woven textile 11 and non-stretch woven textile 12 may be joined to form apparel 10. That is, apparel 10 may have various seams 15 that are stitched or glued, for example, to join the various elements of stretch woven textile 11 and non-stretch woven textile 12 together. As depicted in both of FIGS. 6A and 6B, edges of the various elements of stretch woven textile 11 and non-stretch woven textile 12 may be folded inward and secured with additional seams 15 to limit fraying and impart a finished aspect to apparel 10. In addition, further elements of either of stretch woven textile 11 and non-stretch woven textile 12 may be utilized to form a pocket 16 within apparel 10 or impart adjustability to the fly area of apparel 10.

Many prior pairs of water shorts were manufactured through a traditional construction method that utilized a size 604 polyester thread to form felled seam stitches at nine stitches per inch. In apparel 10, however, a size 502 nylon thread may be utilized to form seams 15 to be triple coverstitch seams at seven to eight stitches per inch. That is, triple coverstitch seams may join the various elements (pieces) of stretch woven textile 11 at seams 15. Accordingly, the construction method (i.e., thread size and stitch configuration) for apparel 10 may vary from the traditional construction method utilized in many prior pairs of water shorts.

The configuration of apparel 10 depicted in FIGS. 1-6B provides an example of a suitable structure for a pair of water shorts. In another configuration, portions of leg areas 30 or other portions of pelvic areas 20 may be partially formed from non-stretch woven textile 12. For example, strips of non-stretch woven textile 12 may extend along side areas of apparel 10 to limit stretch in these areas. As another example, non-stretch woven textile 12 may be located adjacent to lower openings 31 to limit stretch in these areas. In yet another configuration, the length of leg areas may be increased or decreased to cover different areas of leg regions 130 and 140. Accordingly, apparel 10 may incorporate a variety of structural changes that depart from the specific configuration depicted in the figures.

The invention is disclosed above and in the accompanying drawings with reference to a variety of embodiments. The purpose served by the disclosure, however, is to provide an example of the various features and concepts related to the invention, not to limit the scope of the invention. One skilled in the relevant art will recognize that numerous variations and modifications may be made to the embodiments described above without departing from the scope of the present invention, as defined by the appended claims.

Claims

1. Water shorts comprising: a pelvic area for covering a pelvic region of the wearer, wherein the pelvic area includes a first portion forming a waistband for extending around a waist of the wearer and a second portion that is disposed adjacent the first portion;a pair of leg areas for covering at least a portion of legs of the wearer, the pair of leg areas being disposed adjacent the second portion of the pelvic area and the second portion of the pelvic area extending from the waistband to the pair of leg areas;wherein the pelvic area and the pair of leg areas are together formed from at least two pieces of a first woven textile joined together through triple coverstitch seams, the first woven textile having more than fifty percent stretch prior to tensile failure, andwherein the at least two pieces of the first woven textile form a first layer of the waistband and the waistband has a second layer made of a second woven textile with less stretch than the first woven textile, wherein the second layer of the waistband is the innermost layer and the second layer of the waistband has a top edge and a bottom edge opposite the top edge and wherein both the top edge and the bottom edge of the second layer are fixedly attached to the first laver.

2. The water shorts recited in claim 1, wherein the first woven textile exhibits more than sixty percent stretch prior to tensile failure.

3. The water shorts recited in claim 1, wherein the first woven textile is at least partially formed from polyamide and spandex materials.

4. The water shorts recited in claim 1, wherein the second woven textile is stitched to the first woven textile in the waistband.

5. The water shorts recited in claim 1, wherein a lace extends through a plurality of apertures in the waistband.

6. The water shorts recited in claim 5, wherein the apertures extend through the first layer and the second layer.

7. The water shorts recited in claim 1, wherein the at least two pieces of the first woven textile form a majority of both an exterior surface and an opposite interior surface of the water shorts.

8. The water shorts recited in claim 7, wherein the first layer of the waistband forms a portion of the exterior surface.

9. The water shorts recited in claim 1, wherein the second woven textile extends around substantially all of waistband.

10. The water shorts recited in claim 1, wherein the first woven textile forms an exterior surface of the water shorts in the pair of leg areas and an interior surface of the water shorts in the pair of leg areas; wherein the first woven textile forms an interior surface of the water shorts in at least a portion of the pelvic area and a majority of an exterior surface of the water shorts in the pelvic area; andwherein the second woven textile forms an interior surface of the water shorts in the waistband and the first textile forms a majority of an exterior surface of the water shorts in the waistband.

11. The water shorts recited in claim 1, wherein at least one of the at least two pieces of the first woven textile extends from the waistband in the pelvic area to an opening disposed in one of the pair of leg areas.