A tear-off capture system includes an eye protector with a base lens. The eye protector has a retention mechanism mounted on one side, and a support mechanism that supports the eye protector on the head of a wearer. A two-tabbed stack of laminated tear-off lenses mounts to the eye protector via an adhesive. The stack mounts so that the first tab of the stack aligns with the first side of the eye protector and the second tab engages with the retention mechanism. Via the second tab and the retention mechanism, released tear-off layers are directed toward the second side of the eye protector away from the base lens. A capturer helps hold the initially released tear-off layer to the eye protector. An exposed tacky surface on each released tear-off helps hold the subsequently removed tear-off layers.

The present invention relates to goggles, in particular radiation protection goggles, for receiving at least one radiation protection material which protects the eyes of a patient from radiation being harmful to the eyes, in particular -radiation and/or x-ray radiation and/or gamma radiation. The goggles comprise: two goggle frames, each having a continuously circumferential side wall structure completely enclosing an area around the respective eye of the patient, a length-adjustable connection element between the two goggle frames in the area of the patient's nose in order to change the distance between the two goggle frames relative to one another, and at least one length-adjustable holding element for fixing the two goggle frames at the patient's head. The side wall structures are configured for receiving at least one radiation protection material substantially completely around its circumference.

A pair of goggles includes a flexible body, a lens assembly, and a quick release system configured to removably couple the lens assembly to the flexible body.

A pair of eye goggles is described. The eye googles include a three axial adjustable nosepiece that can be fit over a wearer's nose including a plurality of unequal length strands on each side of the nosepiece with the strands comprising resilient properties different from the resilient properties included in the other strands in the plurality of strands on that side. The eye goggles also include a strap that can be fit removably around the wearer's head, and a pair of eyepieces. Each eyepiece includes a transparent lens that can be fit over one of the wearer's eyes, and a frame that surrounds the transparent lens to which the nosepiece and the strap are attached. The eye goggles also include a sealing pad formed on an inside-facing edge of the frame.

Goggles are described as including an outrigger, an elastic band, and one or more cages. The elastic band is coupled to the cage, which may then be disposed within an opening of the outrigger. Thus, the elastic band may be coupled to the outrigger and, accordingly, to the goggle frame, through the cage. Such a configuration may allow for the elastic band to have a stronger and more compact coupling to the outrigger and/or goggle frame. The cage may comprise metal or another material stronger than the material of the goggle frame and/or the outrigger. Furthermore, the cage may be more compact (e.g., narrower) than a typical connection while maintaining or improving strength.

A head-mounted fixing device includes: a head frame including two side frame portions, and a front frame portion located between the two side frame portions and connected to the two side frame portions, and the two side frame portions and the front frame portion being made of rigid materials; an elastic piece including one end connected to the front frame portion; a headgear including an arc portion and a top portion, wherein two ends of the arc portion are respectively connected to the two side frame portions, one end of the top portion is connected to another end of the elastic piece, and another end of the top portion is connected to the arc portion; it is characterized in that the front frame portion is used to abut against a user's forehead to provide a fulcrum.

A facial cushion for a goggle may have a plurality of layers which provide cushioning, cooling and ergonomic fit functions. The top layer which contacts the wearer's face may have an embossed pattern which creates an air space between the wearer's face and the top layer for providing a cooling function. The embossed top layer also increases the total surface area of the top layer thereby increasing its wicking ability and reduces the total skin contact surface area of the top layer reducing heat. Additionally, the cushion may be thicker at left and right end portions to maintain contact with the wearer's face despite pulling of the left and right ends of the goggle when the goggle is worn with a helmet.

A tear-off capture system includes an eye protector with a base lens. The eye protector has a retention mechanism mounted on one side, and a support mechanism that supports the eye protector on the head of a wearer. A two-tabbed stack of laminated tear-off lenses mounts to the eye protector via an adhesive. The stack mounts so that the first tab of the stack aligns with the first side of the eye protector and the second tab engages with the retention mechanism. Via the second tab and the retention mechanism, released tear-off layers are directed toward the second side of the eye protector away from the base lens. A capturer helps hold the initially released tear-off layer to the eye protector. An exposed tacky surface on each released tear-off helps hold the subsequently removed tear-off layers.

A multi-thickness lens for a goggle may be disclosed in accordance with various embodiments. The multi-thickness lens may include a portion of a first thickness and a portion of a second thickness. In particular, the multi-thickness lens may be inserted into a goggle, including goggles configured to receive standard lenses. Further, the goggle may include features that may allow the multi-thickness lens to distribute forces and/or stresses to the goggle and/or may include features and/or components adapting the goggle to receive a multi-thickness lens.

Eye protection goggles for protecting a person undergoing treatment from electromagnetic radiation comprise two eye protection caps. Each eye protection cap comprises a basic protective body with a free edge for protecting from electromagnetic radiation and a cover protective body detachable from the respective basic protective body for protecting from frontal electromagnetic radiation. The free edge is designed for placing on the face of the person undergoing treatment. The eye protection goggles also have a connecting web connecting the cover protective bodies. The cover protective bodies are connected non-detachably in one piece to one another. The connecting web comprises an in particular rectangular first cross section (2a) extending longitudinally in a width direction of the eye protective goggles for displacing the connecting web relative to the eye protection caps essentially perpendicular to a line of vision of the eye protective goggles in a vertical direction thereof.