Protective elements or materials that impart padding, cushioning, or otherwise attenuate impact forces are commonly incorporated into a variety of products. Athletic apparel, for example, often incorporates protective elements that shield the wearer from contact with other athletes, equipment, or the ground. More specifically, pads used in American football and hockey incorporate protective elements that provide impact protection to various parts of a wearer. Helmets utilized during American football, hockey, bicycling, skiing, snowboarding, and skateboarding incorporate protective elements that impart cushioning to the head during falls or crashes. Similarly, gloves utilized in soccer (e.g., by goalies) and hockey incorporate protective elements that provide protection to the hands of a wearer.
An article of apparel is disclosed below that includes a garment portion and at least one protective element. The garment portion and the protective element have a configuration that forms a gap, separation, or pleat structure. As an example, the gap, separation, or pleat structure may permit the protective element to move independent of other portions of the apparel at the joint, thereby enhancing a range of movement of the individual and the overall comfort of the apparel.
In one configuration, the garment portion is formed from a plurality of joined textile elements and has a first fold and a second fold that form a pleat structure, the first fold being located outward from the second fold. The protective element is at least partially located within the first fold and absent from an area within the second fold.
In another configuration, the garment portion is formed from at least a first textile element and a second textile element. The first textile element forms a first fold and a second fold that form a pleat structure, with the first fold being located outward from the second fold. The protective element is located within the first fold and has a first surface and an opposite second surface. The first surface is located outward from the second surface. Additionally, the first textile element is joined to the first surface and the second surface, and the second textile element is joined to the second surface.
In yet another configuration, the apparel includes a band for extending around a portion of a wearer, at least one textile element, and a protective element. The band is formed from a stretchable material and the textile element is joined to the band, with a portion of the textile element extending away from the band. The protective element is formed from a compressible material. A gap extends between the protective element and the portion of the textile element extending away from the band.
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 figures that describe and illustrate various configurations and concepts related to the invention.
The foregoing Summary and the following Detailed Description will be better understood when read in conjunction with the accompanying figures.
The following discussion and accompanying figures disclose various articles of apparel that incorporate protective elements. As discussed in greater detail below, the protective elements (e.g., foam pads, a plurality of foam elements) may bunch or otherwise compress to restrict movement of an individual wearing the apparel, particularly in the area of a joint (e.g., hip, knee, shoulder, elbow). A gap, separation, or pleat structure, for example, permits the protective element to move independent of other portions of the apparel at the joint, thereby enhancing a range of movement of the individual and the overall comfort of the apparel.
Apparel Configuration
With reference to
Apparel 100 is depicted individually in
Each of pelvic region 101 and leg regions 102 include a variety of textile elements (e.g., a base element 110, a cover element 120, a waistband 130, as discussed below) that effectively form a garment portion of apparel 100. That is, the textile elements are joined (e.g., at seams through stitching, adhesive bonding, or thermal bonding) to impart the configuration of the shorts-type garment to apparel 100. The textile elements also form areas for receiving various protective elements 200, which are incorporated into various areas of apparel 100 to impart padding, cushioning, or otherwise attenuate impact forces. When apparel 100 is worn during athletic activities, for example, protective elements 200 may protect individual 10 from contact with other athletes, equipment, or the ground. With regard to apparel 100, protective elements 200 are located in both of pelvic region 101 and leg regions 102 and are positioned, more specifically, to protect the hips, thighs, and tailbone of individual 10.
Protective Element Configuration
A portion of apparel 100 that includes one of protective elements 200 is depicted in
Base element 110 and cover element 120 cooperatively form an outer surface or covering for protective element 200. That is, base element 110 and cover element 120 cooperatively form a pocket or void, in which pad components 210 and frame component 220 are located. Whereas base element 110 is depicted as having a generally planar configuration, cover element 120 extends over pad components 210 and frame components 220 and also along sides of pad components 210 to join with base element 110 (e.g., through stitching, an adhesive, or thermal bonding). Although protective element 200 may be incorporated into apparel 100 in a variety of ways, cover element 120 may be positioned exterior of base element 110. An advantage to this configuration is that protective element 200 protrudes outward from apparel 100, rather than protruding inward and toward individual 10. In some configurations of apparel 100, however, protective element 200 may protrude inward.
Textile elements may be utilized for base element 110 and cover element 120 in many configurations of apparel 100. As examples, base element 110 and cover element 120 may be formed from knitted, woven, or non-woven textile elements that include rayon, nylon, polyester, polyacrylic, cotton, wool, or silk. Moreover, the textiles may be non-stretch, may exhibit one-directional stretch, or may exhibit multi-directional stretch, and the textiles may have a continuous configuration or may be mesh materials that define apertures. A variety of other materials may also be utilized for base element 110 and cover element 120, including various polymer sheets, leather, and synthetic leather, for example. Combinations of these materials (e.g., a polymer sheet bonded to a textile) may also be utilized for base element 110 and cover element 120. Although base element 110 and cover element 120 may be formed from the same material, each of base element 110 and cover element 120 may also be formed from different materials. Accordingly, a variety of materials are suitable for base element 110 and cover element 120.
Each of pad components 210 includes a first surface 211, an opposite second surface 212, and a side surface 213 that extends between surfaces 211 and 212. As discussed in greater detail below, protective element 200 includes an attached region 201 and a separated region 202, as identified in each of
Although the shapes of pad components 210 may vary significantly, each of surfaces 211 and 212 are depicted as having an elliptical or generally elongate shape with rounded end areas, and side surface 213 extends in a generally straight fashion between surfaces 211 and 212. Pad components 210 are spaced evenly from each other and arranged in offset rows. Given the shape of protective element 200, various pad components 210 adjacent to the periphery of protective element 200 exhibit a truncated or partial configuration. Although pad components 210 exhibit a common or equal thickness, various pad components 210 may have different thicknesses. For example, the pad components 210 located at the periphery may have lesser thickness than pad components 210 located in central areas. In general, the thickness of pad components 210 may range from 3 to 30 millimeters or more. As a related matter, pad components 210 are depicted as being a plurality of separate elements for purposes of example, but may be interconnected, may be a single element, or may have a variety of other conventional or non-conventional configurations.
A variety of materials may be utilized for pad components 210, including various polymer foam materials that return to an original shape after being compressed. Examples of suitable polymer foam materials for pad components 210 include polyurethane, ethylvinylacetate, polyester, polypropylene, and polyethylene foams. Moreover, both thermoplastic and thermoset polymer foam materials may be utilized. In some configurations of protective element 200, pad components 210 may be formed from a polymer foam material with a varying density, or solid polymer or rubber materials may be utilized. Also, different pad components 210 may be formed from different materials, or may be formed from similar materials with different densities. The polymer foam materials forming pad components 210 attenuate impact forces to provide cushioning or protection. By selecting thicknesses, materials, and densities for each of the various pad components 210, the degree of impact force attenuation may be varied throughout protective element 200 to impart a desired degree of cushioning or protection.
Within protective element 200, frame components 220 are located between each of base element 110 and cover element 120. In contrast with pad components 210, frame components 220 are unsecured to each of base element 110 and cover element 120, and frame components 220 are also unsecured to pad components 210. This configuration permits frame components 220 to float or otherwise move relative to base element 110, cover element 120, and pad components 210. Frame components 220 each have a first surface 221, an opposite second surface 222, and a side surface 223 extending between surfaces 221 and 222. Additionally, frame components 220 define a plurality of apertures 224 having the general shape of pad components 210. Given this configuration, frame components 220 extend around and between various pad components 210. In areas where frame components 220 are present, the combination of pad components 210 and frame components 220 effectively form a foam layer within protective element 200. Although the dimensions of apertures 224 may substantially match the dimensions of pad components 210, frame components 220 may also be formed such that a gap extends between edges of apertures 224 and side surfaces 213 of pad components 230. In some configurations, frame components 220 may be absent from protective element 200.
Frame components 220 are located in two areas (e.g., an upper area and a lower area) of protective element 200. As an alternative, one or both frame components 220 may extend (a) throughout protective element 200 and define apertures 224 that extend around all of pad components 210, (b) around only centrally-located pad components 210, or (c) around only peripherally-located pad components 210. Referring to the cross-sectional views of
Any of the variety of materials discussed above as being suitable for pad components 210 may also be utilized for frame components 220, including various polymer foam materials that return to an original shape after being compressed. Examples of suitable polymer foam materials for frame component 220 include polyurethane, ethylvinylacetate, polyester, polypropylene, and polyethylene foams. Moreover, both thermoplastic and thermoset polymer foam materials may be utilized. In some configurations of protective element 200, frame components 220 may be formed from solid polymer or rubber materials.
The compressible polymer foam materials forming pad components 210 and frame components 220 attenuate impact forces that compress or otherwise contact protective element 200. When incorporated into apparel 100 or another article of apparel, for example, the polymer foam materials of pad components 210 and frame components 220 may compress to protect a wearer from contact with other athletes, equipment, or the ground. Accordingly, Protective element 200 may be utilized to provide cushioning or protection to areas of a wearer that are covered by protective element 200.
In addition to attenuating impact forces, protective element 200 has an advantage of simultaneously providing one or more of breathability, flexibility, a relatively low overall mass, and launderability. When incorporated into an article of apparel, particularly apparel used for athletic activities, a wearer may perspire and generate excess heat. By utilizing a permeable textile for base element 110 and cover layer 120 and also forming gaps between adjacent pad components 210 and areas between pad components 210 and frame components 220, areas for air to enter the apparel and for moisture to exit the apparel are formed through protective element 200. More particularly, air and moisture may pass through base element 110 and cover layer 120, between pad components 210 in areas where frame components 220 are absent, and between pad components 210 and frame components 220 in areas where frame components 220 are present to impart breathability to areas of the apparel having protective element 200. Moreover, the materials and structure discussed above for protective element 200 impart flexibility and a low overall mass. Furthermore, the materials and structure discussed above permits protective element 200 to be laundered without significant shrinkage or warping, even when temperatures associated with commercial laundering processes are utilized. Accordingly, protective element 200 may simultaneously provide impact force attenuation, breathability, flexibility, a relatively low overall mass, and launderability to an article of apparel, such as apparel 100.
Pleat Structure
In separated region 202, apparel 100 has a configuration that permits protective element 200 to move independent of other portions of apparel 100 to enhance the range of movement of individual 10 and the overall comfort of apparel 100. Referring to
An upper edge of protective element 200 is located adjacent to waistband 130, which is formed of a stretchable material and extends around individual 10. Often, waistband 130 extends above the hip joint of individual 10, which places a portion of protective element 200 over the hip joint. More particularly, the portion of protective element 200 in separated region 202 is located over the hip joint, whereas the portion of protective element 200 in attached region 201 protects the hip and areas of the leg around the hip. A portion of cover element 120 is secured to waistband 130 and extends away from waistband 130. Although areas of cover element 120 are secured to surfaces 211 and 212 of pad components 210, the portion secured to waistband 130 and extending away from waistband 120 is unsecured to pad components 200.
The overall configuration discussed above forms pleat structure in apparel 100 that allows portions of protective element 200 to move independently. More particularly, the overall configuration of cover element 120 (i.e., through folds 121 and 122 and the configuration of cover element 120 discussed above) allows protective element 200 to move or flex in separated region 202. As a first example, which is depicted in
Further Configurations
Aspects of apparel 100 may vary depending upon the intended use for apparel 100 and the product in which cushioning element 200 is incorporated. Moreover, changes to the dimensions, shapes, and materials utilized within protective element 200 may vary the overall properties of protective element 200. That is, by changing the dimensions, shapes, and materials utilized within protective element 200, the compressibility, impact force attenuation, breathability, flexibility, and overall mass of protective element 200 may be tailored to specific purposes or products.
Further configurations of the portion of apparel 100 that includes protective element 200 are depicted in
The manner in which the pleat structure is formed may also vary in apparel 100. Referring to
The invention is disclosed above and in the accompanying figures with reference to a variety of configurations. 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 configurations described above without departing from the scope of the present invention, as defined by the appended claims.
Number | Name | Date | Kind |
---|---|---|---|
2016664 | Brewster | Oct 1935 | A |
2939462 | McClung | Jun 1960 | A |
3106717 | Cuvin | Oct 1963 | A |
3119904 | Anson | Jan 1964 | A |
3916900 | Breyer et al. | Nov 1975 | A |
4455686 | Zide | Jun 1984 | A |
4549317 | D'Ambrosio | Oct 1985 | A |
4982447 | Henson | Jan 1991 | A |
5423087 | Krent | Jun 1995 | A |
5689836 | Fee | Nov 1997 | A |
5940888 | Sher | Aug 1999 | A |
6654960 | Cho | Dec 2003 | B2 |
6743325 | Taylor | Jun 2004 | B1 |
7114189 | Kleinert | Oct 2006 | B1 |
7216370 | Warner et al. | May 2007 | B1 |
7234171 | Rowe et al. | Jun 2007 | B2 |
7993322 | Brud et al. | Aug 2011 | B2 |
20070000005 | Wang | Jan 2007 | A1 |
20070101474 | Skottheim et al. | May 2007 | A1 |
20080264557 | Kim | Oct 2008 | A1 |
20080290556 | Kim | Nov 2008 | A1 |
20090070911 | Chang | Mar 2009 | A1 |
20100129573 | Kim | May 2010 | A1 |
20100193117 | Kim | Aug 2010 | A1 |
20100205716 | Kim | Aug 2010 | A1 |
20100205722 | Kim | Aug 2010 | A1 |
20100206472 | Kim | Aug 2010 | A1 |
Number | Date | Country |
---|---|---|
2517311 | Feb 2007 | CA |
2457478 | Aug 2009 | GB |
Entry |
---|
International Search Report and Written Opinion, mailed Mar. 15, 2011 for PCT Application No. PCT/US2010/049589. |
Number | Date | Country | |
---|---|---|---|
20110067160 A1 | Mar 2011 | US |