A head guard is provided. The head guard includes one or more sensors as part of an sensory input and communications system. The head guard wirelessly communicates data to remote computing devices for intelligent data collection.

An electronic motorcycle helmet. The electronic motorcycle helmet includes a helmet having an aperture therein that can receive a head therethrough. A visor is disposed on a front side of the helmet and a display is disposed on an interior surface of the visor. A microprocessor, including a logic that receives a command input directed to one of a plurality of subsystems, toggles the subsystem between an activated state and a deactivated state, and displays a status window on the display corresponding to the subsystem. The plurality of subsystems includes a plurality of cameras disposed about the helmet, wherein each of the cameras is operably connected to the display and can apply a low-light filter for low-light conditions. Other subsystems include a wireless transmitter to wirelessly communicate with an external device, a GPS system, and a battery disposed at a lower edge of the rear side.

An electronic motorcycle helmet. The electronic motorcycle helmet includes a helmet having an aperture therein that can receive a head therethrough. A visor is disposed on a front side of the helmet and a display is disposed on an interior surface of the visor. A microprocessor, including a logic that receives a command input directed to one of a plurality of subsystems, toggles the subsystem between an activated state and a deactivated state, and displays a status window on the display corresponding to the subsystem. The plurality of subsystems includes a plurality of cameras disposed about the helmet, wherein each of the cameras is operably connected to the display and can apply a low-light filter for low-light conditions. Other subsystems include a wireless transmitter to wirelessly communicate with an external device, a GPS system, and a battery disposed at a lower edge of the rear side.

In one embodiment, an adapter for an audio component assembly of a helmet employing an apertured retention assembly. The adapter permits integration of audio components from an aftermarket headset, in place of one or more manufacturer-supplied audio components integrated into the helmet. The adapter includes a generally annular member adapted to retain an earpiece therein, and at least one flange disposed on an outer surface of the generally annular member. The at least one flange is adapted to retain the generally annular member by interference fit in an aperture formed in a retention assembly of the helmet.

In one embodiment, an adapter for an audio component assembly of a helmet employing an apertured retention assembly. The adapter permits integration of audio components from an aftermarket headset, in place of one or more manufacturer-supplied audio components integrated into the helmet. The adapter includes a generally annular member adapted to retain an earpiece therein, and at least one flange disposed on an outer surface of the generally annular member. The at least one flange is adapted to retain the generally annular member by interference fit in an aperture formed in a retention assembly of the helmet.

A user interface device for applying control signals to a communication system, comprising: at least one pressure-activated multidirectional tiltable/pushable plate with multiple pressureable areas, wherein each of said pressureable areas activates a corresponding pressure element that is located under said plate, wherein each activation of a specific pressure element defines an action which is respectively performed upon tilting-pressing of said plate towards the location of the respective pressure element.

The present disclosure relates to a visual communication system for a helmet comprising: an array of light emitting devices arranged inside the helmet in a manner such that light emitted by the light emitting device is visible by a user of the helmet; a data communication interface arranged to receive situational related data form one or more sources; and a processing module arranged to process the situational related data and generate a light signal providing driving or riding guidance to the user of the helmet.

The present disclosure relates to a visual communication system for a helmet comprising: an array of light emitting devices arranged inside the helmet in a manner such that light emitted by the light emitting device is visible by a user of the helmet; a data communication interface arranged to receive situational related data form one or more sources; and a processing module arranged to process the situational related data and generate a light signal providing driving or riding guidance to the user of the helmet.

The present invention relates to a helmet and a method for dealing with an accident using the helmet, which the helmet includes: a helmet body part made of a resin having a semi-spherical space for receiving the head of a wearer; a light part arranged in the front of the helmet body part having LEDs mounted on a substrate to provide the wearer with lighting; a metallic heat radiator extending from the front of the helmet body part to the back thereof along the upper central line of the helmet body part and partially contacting the back of the substrate to discharge heat; a communication device part received in the helmet body part for dealing with communication and emergency circumstances; and a battery received in the helmet body part for supplying power to the communication part and light part. According to the present invention, the metallic heat radiator is integrated with the resinous helmet body part by injection molding of different materials, so that the heat generated from the LEDs of the light part is discharged upwards from the top of the helmet, thus preventing the wearer from being subjected to the discomfort caused by the heat generated from the LEDs.

The present invention relates to a helmet and a method for dealing with an accident using the helmet, which the helmet includes: a helmet body part made of a resin having a semi-spherical space for receiving the head of a wearer; a light part arranged in the front of the helmet body part having LEDs mounted on a substrate to provide the wearer with lighting; a metallic heat radiator extending from the front of the helmet body part to the back thereof along the upper central line of the helmet body part and partially contacting the back of the substrate to discharge heat; a communication device part received in the helmet body part for dealing with communication and emergency circumstances; and a battery received in the helmet body part for supplying power to the communication part and light part. According to the present invention, the metallic heat radiator is integrated with the resinous helmet body part by injection molding of different materials, so that the heat generated from the LEDs of the light part is discharged upwards from the top of the helmet, thus preventing the wearer from being subjected to the discomfort caused by the heat generated from the LEDs.