A protective helmet comprising a head mountable shell (10) and a transparent visor (24), the head mountable shell defining a rear portion and an opposing front portion (12) when oriented for use, the front portion being recessed, the helmet further comprising a cover portion (16) mountable over the recessed front portion so as to define a cavity, the transparent visor being pivotally mounted across the recessed front portion by means of a pair of pivot mechanisms (28), the pivot mechanisms being located at opposing sides of the recessed front portion and substantially wholly within the cavity, and configured to enable the transparent visor to be pivoted from a first position substantially within the cavity to a second, operable position generally perpendicular to a user's eyeline.

A safety hat assembly for enhancing safety and comfort of a user includes a hat that is selectively sizable to a head of a user and which has a brim coupled thereto. The hat is positionable on the head of the user with the brim extending over a forehead of the user. A pair of safety glasses is slidably engaged to the hat and is selectively positionable in a stowed configuration within the hat and a deployed configuration to protect eyes of the user. An earplug is engaged to and selectively extendible from the hat to allow insertion into a respective ear canal of the user to protect hearing of the user. A set of pads is engaged to and positioned within the hat to cushion the head of the user.

A magnetic mechanical latching attachment for connecting goggles to a helmet includes a goggle attachment portion configured to mechanically and magnetically attach to a helmet attachment portion. The goggle attachment portion and helmet attachment portion include complimentary interlocking features that mechanically lock the portions together when attached and magnetic features that assist engagement of the complimentary interlocking features in a locked position. A related method of coupling goggles to a helmet, as well as a helmet-goggle attachment system, is provided.

A system is provided for use by athletes and their coaches during practice. The system includes an electronic system configured for inclusion in a helmet. The electronic system includes a transparent display screen coupled to the helmet, a processor coupled to the transparent display screen, a camera coupled to the processor and a first wireless transceiver coupled to the processor. The system also includes a handheld processing device. The handheld processing device includes a second wireless transceiver configured to communicate video content with the first wireless transceiver, an interactive display screen configured to display the first video and a video editing application configured to edit the first video to generate a second video including a simulated player technique superimposed in the first video. The second video is communicated from the handheld processing device to the electronic system for display to the athlete via the transparent display screen.

An eyeshield assembly is configured to couple to a brim of a head covering. The eyeshield assembly includes a base that is configured to couple to the brim of the head covering. A connector detachably couples to the base, and an eyeshield couples to the connector. A connecting structure detachably couples the connector to the base. The connecting structure includes a cantilevered tooth coupled to one of the base and the connector and a socket coupled to the other of the base and the connector. The socket selectively receives the cantilevered tooth to secure the connector to the base.

Disclosed herein are sports helmets having modular components. A modular component includes an eyewear adapter that is releasably attachable to the helmet and configured to interface with corresponding eyewear in an orientation that permits a wearer of the helmet to see through the eyewear. The eyewear adapter is configured such that, in use, the eyewear adapter enhances the fit or function of the eyewear relative to the use of the helmet and the eyewear without the eyewear adapter. A modular component includes electronics modules that can be mechanically and electrically coupled to the helmet. A modular component includes other functional modules that affect the aerodynamics of the helmet, the air flow of the helmet, the fit of the helmet, or the look of the helmet.

Disclosed are an anti-off device and a protective hat having the anti-off device. The protective hat includes a hat body, protective goggles, a binding strap and an anti-off device. The hat body has a slot; the protective goggles and the binding strap are bundled altogether with the hat body; the anti-off device includes an anti-off body and snap arm. The anti-off body has a passage; a snap arm integrally coupled to the anti-off body, and the snap arm is inserted into the slot and the snap body is detachably engaged with the hat body, and the binding strap is disposed in the passage, such that when the protective goggles are moved upward or downward, the binding strap is still limited by passage to achieve the anti-off effect.

A goggle retaining apparatus to secure a pair of goggles having a goggle strap to a helmet. The apparatus having a first and second retaining component affixed to the sides of the helmet at a position substantially in line with the goggle strap when the pair of goggles is placed over the eyes of a wearer. The retaining components have a base member being secured to the side of the helmet and a retaining member secured to the base member. The retaining member is configured to receive the goggle strap when the pair of goggles is placed over the eyes of the wearer. The retaining component is configured to engage the goggle strap when the pair of goggles is moved upward from the eyes of the wearer such that the rear portion of the goggle strap located to the rear of the retaining component remains at a position substantially in line with the position of the goggle strap when the pair of goggles is placed over the eyes of a wearer. A stopping member is affixed to the crown of the helmet at approximately an equal distance between the retaining components and proximate to the front of the helmet. The stopping member has an elongated body extending away from the helmet such that the pair of goggles is engaged against the elongated body when the pair of goggles is moved upward from the eyes of the wearer.

The present invention relates to an articulated mounting for a visor. The articulated mounting supports spectacles. The articulated mounting has a first arm and a second arm connected together at a first pivot; a first end of the first arm is pivotally connected to a second pivot which is connected to a base that is attached to the visor; a second end of the second arm is pivotally connected to a third pivot which is connected to a spectacle connector. The mounting includes a resistance means to assist with maintaining the spectacles on a wearer whilst the visor is displaced. The mounting includes at least one limiting means to restrict range of movement about at least one pivot.

An improvement of current lens roll-off systems is provided. The improvement embodies a goggle module operatively associated with a remote module by way of a wireless signal transmitted by a user engaging a remote button of the remote module, wherein the remote module may be removably connected along handlebars of the vehicle. The goggle module has an upper arm and lower arm, wherein the upper arm confirms the presence of the supply cannister of the lens roll-off system, and wherein the lower arm engages a pull cord of the lens roll-off systems. The wireless signal urges the pull cord by way of the lower arm, thereby the rider can automatically operate the lens roll-off system hands-free.