An active-insulation paneling component and garments including an active-insulation paneling component are disclosed. The active-insulation paneling component includes insulated panels separated by gussets. The gussets are configured to expand upon an outward pulling force to allow the active-insulation paneling component and/or garment to expand even where the active-insulation paneling component and/or garment are not manufactured from elastic materials.

The present invention is a fistula sleeve for covering and protecting a fistula on the inside of an arm. The sleeve grips the wrist and adjustably and snuggly fits around the wider contours of the arm without imparting pressure on the fistula. The sleeve partially opens to expose the fistula for dialysis and daily care. A narrower wrist region secures around the wrist. An elongated forearm region wraps around the forearm, and a smooth central region covers the fistula. The wrist and forearm regions are independently secured. Securement strips have semi-rigid backings that stiffen the side portions of the sleeve help secure and remove the sleeve with one hand, and form a spine to help maintain the alignment of the sleeve on the arm. A double layer of material is stitched together along its perimeter, while the inner layer is free to slide relative to the outer layer in the smooth central area that engages the fistula. The sleeve stretches laterally to grip and secure around the wrist, while allowing the forearm portion to snuggly fit around the contours of the forearm and accommodate the fistula in a non-pressure generating manner.

The present invention is a fistula sleeve for covering and protecting a fistula on the inside of an arm. The sleeve grips the wrist and adjustably and snuggly fits around the wider contours of the arm without imparting pressure on the fistula. The sleeve partially opens to expose the fistula for dialysis and daily care. A narrower wrist region secures around the wrist. An elongated forearm region wraps around the forearm, and a smooth central region covers the fistula. The wrist and forearm regions are independently secured. Securement strips have semi-rigid backings that stiffen the side portions of the sleeve help secure and remove the sleeve with one hand, and form a spine to help maintain the alignment of the sleeve on the arm. A double layer of material is stitched together along its perimeter, while the inner layer is free to slide relative to the outer layer in the smooth central area that engages the fistula. The sleeve stretches laterally to grip and secure around the wrist, while allowing the forearm portion to snuggly fit around the contours of the forearm and accommodate the fistula in a non-pressure generating manner.

Ballistic and athletic personal protective equipment utilizing rigid panel(s) featuring designs for improved cooling employing “stack effect” airflow in combination with optimized wearer contact surface geometry. Improved ballistic and athletic personal protective equipment designs contain rigid panel(s) for protection of wearer from impacts, ballistic threats and the like. The equipment is provided with spacers arranged to provide a stack effect powered airflow between rigid panel(s) and wearer, cooling the same. The spacers are further designed, dimensioned and arranged to provide optimal heat transfer and mass transfer efficiency from wearer to cooling air within the protective equipment system, providing optimal cooling effects. The system is simple, light, and inexpensive, providing improved wearer comfort and safety from hyperthermia for optimal performance at elevated temperatures.

Disclosed herein is an athletic apparel with a pouch for carrying a removable hydration pack. The athletic apparel may have a hydration pack that is fluidly connected to a channel for hydration during exercise. The athletic apparel may use a fastener to secure the removable hydration pack within the pouch and a fastener to secure the fluid channel to the apparel. The pouch may be opened to remove the hydration pack.

A weight lifting support shirt comprises a chest support portion (CSP), a first arm support portion (FASP), a second arm support portion (SASP), a neck relief portion (NRP), a torso support portion (TSP), a first lateral extension (FLE), and a second lateral extension (SLE). The CSP extends across a chest portion of lifter from a first end to a second end of CSP. The FASP extends from first end of CSP, and SASP extends from second end of CSP. The NRP is attached to an upper boundary of CSP. The NRP connects FASP to SASP. The TSP is in communication with and extends below CSP. FLE extends from FASP and a first lateral side of TSP. SLE extends from SASP and a second lateral side of TSP. The FLE wraps around a first shoulder and a back of lifter and SLE wraps around a second shoulder and back of lifter.

Issue

To make available clothing that supports the wearer's muscles to enable capacity for and flexibility in movement to be improved in situations such as during sports, during heavy lifting, or being under nursing care.

Resolution Means

Clothing 100 involving the present invention is furnished with an upper-body piece 10 for covering at least a portion of the upper half of the body, and an upper-body support unit 20 formed on the upper-body piece 10. The upper-body support unit 20 includes an upper-body first support section 21 situated in sites following at least a portion of the psoas major muscles (901), an upper-body second support section 22 situated in sites following the supraspinatus muscles (903), and an upper-body third support section 23 situated in sites following the teres major muscles (904).

Aspects herein are directed to an apparel layer system configured to provide variable levels of insulation, warming, or air permeability. The apparel layer system comprises a first layer of material and a second layer of material both extending in a first planar direction. A third layer of material is positioned between the first and the second layers of material and is selectively affixed thereto. An adjustment mechanism coupled to the second layer of material can be mechanically manipulated to shift the second layer of material between different positions or states to achieve variable levels of offset between the first and second layers of material in the first planar direction and in a second direction perpendicular to the first planar direction.

Aspects herein are directed to an apparel layer system configured to provide variable levels of insulation, warming, or air permeability. The apparel layer system comprises a first layer of material and a second layer of material both extending in a first planar direction. A third layer of material is positioned between the first and the second layers of material and is selectively affixed thereto. An adjustment mechanism coupled to the second layer of material can be mechanically manipulated to shift the second layer of material between different positions or states to achieve variable levels of offset between the first and second layers of material in the first planar direction and in a second direction perpendicular to the first planar direction.

A wearable, torso-worn, hands free multi-illumination system having a fabric harness worn over the shoulders and adjacent the chest and back of a user. The fabric harness has an adjustable aperture to receive the head of the user, and a fastener along the rim of the aperture, where the fastener adjusts the size of the aperture. The fabric harness includes a front panel and a rear panel, with an ambient light and a light sensor mounted on the front panel. An electronic control system is mounted on the fabric harness, including a control board, LEDs, and light sensor. The ambient light and the light sensor are electrically connected to the control board. Switches are mounted to the front panel, and are electrically connected to the control board. An electric power source is removably mounted on the rear panel, and the power source is electrically connected to the control board.