Swimsuits are provided which include an outer shell made of a flexible stretchable fabric, a thoracic reinforced region arranged in an anterior thoracic region of a trunk portion of the swimsuit and having an anterior-downward converging shape, and an abdominal reinforced region arranged in a lower abdominal and hip region of the trunk portion and having an anterior-upward converging shape, two non-reinforced waist regions arranged in opposite lateral waist regions of the trunk portion and having both a medially converging shape, wherein the thoracic reinforced region, the abdominal reinforced region and the non-reinforced regions border in an X pattern in an anterior region of the trunk portion. Methods of making such swimsuits are also provided.

The present invention relates to a surface cover for a body which can be brought into contact with a liquid, comprising: a layer which at least partly contains gas and which is designed and arranged such that at least some sections of a layer face facing the liquid contacts the liquid; a gas-permeable layer which is arranged on the gas-containing layer on a face that faces the body and is opposite the face facing the liquid or which is integrally formed with the gas-containing layer; and a gas-supplying device which is connected to the gas-permeable layer such that gas can flow from the gas-supplying device to the gas-containing layer through the gas-permeable layer. The invention also relates to an arrangement and a use.

A method of constructing a reduced drag wing, including: providing a top wing surface panel; coupling a top surface external leading-edge panel to the external surface of the top wing surface panel, wherein the top surface external leading-edge panel extends forward from the top wing surface panel and extends rearward covering at least partially the top surface external leading-edge panel; coupling internal rib elements to the interior surface of the top wing surface panel; coupling the top surface external leading-edge panel to a sleeve element; coupling the rear sleeve element to a bottom wing surface panel; coupling the internal rib elements to the interior surface of the bottom wing surface panel; and coupling the top surface external leading-edge panel and the sleeve element to a releasable mechanical mechanism. A reduced drag wing for a wingsuit. A wingsuit including a reduced drag wing.

A suit wearable by a human user includes a torso section, two arm sections extending from an upper portion of the torso section, and two leg sections extending from a lower portion of the torso section. The suit further includes at least one seam that connects portions of the suit together and extends across a leg section, where the seam is asymmetrical in relation to a lengthwise dimension of the suit.

A hybrid article of apparel is provided. The article comprises a form-fitting inner layer and a looser, more freely-fitting outer layer joined together at various locations to provide an aerodynamic article with improved modesty, among other benefits.

Swimsuits are provided which include an outer shell made of a flexible stretchable fabric, a thoracic reinforced region arranged in an anterior thoracic region of a trunk portion of the swimsuit and having an anterior-downward converging shape, and an abdominal reinforced region arranged in a lower abdominal and hip region of the trunk portion and having an anterior-upward converging shape, two non-reinforced waist regions arranged in opposite lateral waist regions of the trunk portion and having both a medially converging shape, wherein the thoracic reinforced region, the abdominal reinforced region and the non-reinforced regions border in an X pattern in an anterior region of the trunk portion. Methods of making such swimsuits are also provided.

A ventilated jacket includes a body portion having a front side and a rear side, a sleeve portion extending from the body portion, and a ventilation system including a plurality of vent openings configured to allow airflow into and out of the jacket. The ventilation system includes an underarm vent having a first end and a second end, the underarm vent extends across a seam between the body portion and the sleeve portion. The jacket further includes a wing that follows a path established by a rear side of the underarm vent. The wing includes a first end adjacent the first end of the underarm vent and a second end adjacent the second end of the underarm vent. The wing extending outward from the underarm vent to channel oncoming air into the underarm vent when the sleeve portion is held in an extended orientation away from the body portion.

Articles of sports apparel may include elongate support elements. Particular examples provided are swimsuits and other sports apparel such as sports apparel for rugby football. An Article of sports apparel may include at least one base portion adapted to be arranged proximate a lower back of a user when worn, and at least three elongate support elements. The at least three elongate support elements may be arranged at the base portion such as to extend outwardly from a region at least partially encompassing the lower back of the user when worn.

An article of apparel may include a base layer and a cover layer. The cover layer may be stitchlessly-secured to an exterior surface of the base layer and positioned to extend along a side area and from a pelvic region to a leg region of the base layer. A width of the cover layer may be greater in the pelvic region than the first leg region. In some configurations, a frictional resistance of the exterior surface of the base layer may be greater than a frictional resistance of a surface of the cover layer.

An aerodynamic garment may comprise zones with applied textures. Each zone may be associated with properties and characteristics based on the movement of the garment associated with each zone through air during an athletic activity. The texture in each zone may be applied using a variety of methods such as printing. Terminal edges of the garment may be treated with silicone or other elastomers to prevent fraying, eliminate stitching, and provide a snug, aerodynamic fit. The resulting aerodynamic garment improves the performance of an athlete wearing the aerodynamic garment by reducing the aerodynamic drag experienced during the performance of the athletic activity.