Abstract: This application relates to a headgear that provides a moisture wicking mechanism. In various embodiments, a headgear may include a crown with a top, a bottom, a front, a rear, and two sides. In various embodiments, the top, front, rear and two sides may enclose an interior space, open at the bottom. In various embodiments, the bottom may include a perimeter, and the crown may include an outer surface and an inner surface, with the inner surface facing the interior space. In some embodiments, the crown may include multiple sections joined at seams, and the seams may form a convergence at the top of the crown. In some embodiments, a dome comprised of wicking material may at least partially cover the top of the crown, may have a wicking element comprised of wicking material, and may extend through the convergence of seams into the interior space of the crown.
Abstract: The present invention relates to a headgear that provides a moisture wicking mechanism. It includes a visor with multiple soft absorbing sections for rapid drainage and evaporation of the moisture; wicking regions on the crown; a sweatband that comfortably secures the headgear to the head, and may further facilitate absorption of moisture; a protective shield that protects the skin of the head from chafing due to embroidery or lapel pins, where such embroidery may be added after the manufacturing process; a sweat dome on the crown that absorbs the moisture from the top of the head; and a visor insert that stays firm and durable when subjected to repeated washing. These features may appear independently, or in any combination in any given embodiment of the headgear. This invention helps to keep the head dry and cool, increases the comfort of the wearer, and decreases perspiration, odor, especially for bald persons.
Abstract: An electrode holder is adapted for cooperating with a strap applied to a body part of a patient to hold a surface electrode to the skin. The electrode holder includes a base and a post projecting from the base. The post is adapted for extending through the strap and into a cavity formed with the electrode. The electrode holder is releasably attached to the strap by mating hook and loop fasteners. Once attached, the post of the holder secures the electrode in position thereby reducing motion artifacts caused by disturbance of the electrode after placement against the skin of the patient.