Abstract: An attachment system for a graduation cap includes a headband and a securing assembly. The cap includes an inner upper surface. The headband is sized and shaped to be secured to the head of a person. The securing assembly, removably secured to the headband, includes a base, a spring clip, and adhesive material. The base includes an integral projection extending from a lateral side surface. The spring clip, unitary with the projection, is adapted for removably securing the base to the headband. The adhesive material, fixed to an upper surface of the base, is present in an amount effective for securing the base to the inner upper surface of a cap.

Abstract: A head cap with a removable back strap, comprising a crown, a visor, a back strap, one or more fastening mechanisms, and one or more stretchable components. The crown partly covers the head on the front side and includes one panel or multiple panels attached together in a preconfigured pattern. The back strap includes a first end and a second end, and is removably attached to the crown using the fastening mechanism that facilitates attaching and removing the back strap to the crown. Moreover, this two-part design allows for the interchangeability of headcaps (Part 1) with backstraps (Part 2) thus facilitating the use of an appropriate logo for the occasion. When reversed on the head, this head cap can appear as, and can become, a “bandana”.

Abstract: A wearable wafer turn clip may selectably connect a device and/or device mount to an article, such as an operator's clothing. The wearable wafer turn clip may include a body ring forming a partial annulus, a grip ring forming a flange extending outwardly of the body ring, and an inner section extending inwardly from the body ring into a center area of the annulus of the body ring. The wearable wafer turn clip may have a mounting portion that is a channel between the body ring and at least a portion of the inner section. The mounting portion may accept the article and guide it along an arcuate path inwardly and into a deflection channel. The deflection channel may be disposed at an inward terminus of the mount acceptance channel and extend radially outward from the mount acceptance channel.