A brim shade has a shade element, a clip, and a hinge that joins the shade element and the clip to make the brim shade. The shade element and the hinge combine to create a shade that does not allow the light to get past the brim shade. The brim shade can be adjusted through 360 degree rotation and along the side of a hat to provide protection to the wearer.

The invention relates to an armrest (10) for a seat, in particular for a vehicle seat, having a base (11) to which at least one container (18) having a cavity (27) is allocated, having an arm support (12) that is pivotable relative to the container (18) between a lower end position and an upper end position, having an arm support face (13), wherein at least one housing wall (19a, 19b, 19c) is allocated to the arm support (12), said housing wall (19a, 19b, 19c) being connected to the arm support (12) so as to move therewith in such a way that it closes an intermediate space arising between a stop face (25) of the arm support (12) and a support face (26) on the base part (11) when the arm support (12) pivots up, wherein the arm support (12) comprises an opening (16) through which access to the interior space (27) is possible.

An improved system and method for an eye patch can comprise a patch and a pad. The patch can be substantially flat and flexible. Furthermore, the patch can comprise a bottom surface, a top surface, and a concave edge. The bottom surface can comprise an adhesive capable of temporarily attaching to a skin. The concave edge can be on one side of the patch. Additionally, the concave edge can substantially match the anatomical curve of a human's eye socket. The pad can be a raised portion on the patch that can be capable of pushing upper natural eyelashes upward when a client closes her eyes. The pad can be attachable along the concave edge.

A visor and protective face shield apparatus having a transparent or non-transparent visor and a transparent face shield. The visor and face shield can be assembled from separate components or from a unitary blank using improved tabs and slots such that the face shield is supported by the visor.

A lens is provided that has an improved optical configuration in order to provide enhanced off-axis optical performance by tending to reduce, eliminate, or minimize first order optical distortion. Embodiments may be used in non-corrective or corrective unitary or dual lens eyewear, for example in combination with a frame to support the lens in a path of a straight ahead line of sight forming a center axis of an eye of a typical wearer. The lens may comprise a lens body. The lens body may comprise a surface having a spheric, toric, cylindrical or freeform geometry and another surface having a freeform geometry. A lens thickness is defined between the surfaces. A prismatic power of the lens is improved, particularly for off-axis viewing angles.

A flexible band for a medical headgear comprises an inner surface, an opposite outer surface, and a non-stretch central portion having a friction pad disposed on the inner surface. The friction pad is formed from a grip or tacky material and is disposed at least partially between the inner surface and the outer surface of the non-stretch central portion in a solidified state of the friction pad.

Disclosed herein are systems for minimizing the risk of transmission of SARS-CoV-2 and/or other infectious diseases between individuals in close proximity to one another. Said systems may comprise a substantially transparent shield component, a chamber component, and a suctioning component. The systems of the present disclosure are intended to remove any SARS-CoV-2 virus and/or other infectious agents that may be travelling within aerosols.

Disclosed herein are systems and methods for minimizing the risk of transmission of SARS-CoV-2 and/or other infectious diseases between individuals in close proximity to one another. The systems described herein may comprise a substantially transparent shield component, a chamber component, and a suctioning component. The systems and associated methods of the present disclosure are intended to remove any SARS-CoV-2 virus and/or other infectious agents that may be travelling within aerosols.

Disclosed herein are protective apparatuses, and associated systems, for minimizing the risk of transmission of SARS-CoV-2 and/or other infectious diseases between individuals in close proximity to one another including, for example, transmission through droplets projecting from the mouth or nasal region of an infected individual. Said apparatuses may comprise a substantially transparent shield component and a handle component comprising a connecting aspect. The protective apparatuses may comprise light emitting diodes and associated control means. The protective apparatuses of the present disclosure may further comprise a camera communicatively connected to a display screen.

A facial shield for a protective headgear system includes a polymeric sheet having an upper portion configured to be coupled to a support and a lower portion having a lower extremity, wherein the upper portion includes a first hole, a second hole, and a third hole, each one of the first, second, and third holes laterally spaced from the other two of the first, second, and third holes, and the first hole including a first section having a first hole gap and a second section laterally adjacent the first section and having a second hole gap, wherein the first hole gap of the first hole is greater than or equal to the maximum vertical dimension of a first hook of the support, and wherein the second hole gap of the first hole is greater than a vertical base thickness of a base of the first hook and is less than the maximum vertical dimension of the first hook.