The motorcycle helmet with camera mount is designed to mount a camera next to the chin of the user, and upon a helmet. The motorcycle helmet with camera mount comprises a base, a left wing, a right wing, and a plurality of adhesives.

An RFID tag assembly and method of use with a RFID tag assembly the RFID tag assembly includes an RFID tag having a mounting substrate having a spacer with a first surface and an opposing second surface, the spacer having a predetermined thickness, a mounting carrier with a substantially planar body with a first portion having first and second ends with two sides defined therebetween and has two or more second portions extending from the body forming free ends each and having selectively attachable adhesive on a portion of the bottom surface being deformably attached to the first portion and with second surface attached to the top surface of the first portion with the first planar surface with the RFID tag position parallel and set apart above the top surface of the carrier at a distance equal to or greater than the predetermined thickness.

An adaptor (1) for connecting a first object (2) to a second object (3). The adaptor having an elongate base (5) having a free end (5a) and a hinge end (5b), an elongate arm (10) having a free end (10a) and a hinge end (10b). The hinge end of said base hingedly connected to said hinge end of said arm so that said free end of said arm is moveable in use with respect to said free end of said base about a hinge defining a hinge axis (XX). The base having means (12) to connect said adaptor to said first object. The arm having means (14) to connect said adaptor to said second object. Whereby in use when said first and second objects are connected together a user can alter a position of said second object with respect to said first object without having to separate said objects.

An adaptor (1) for connecting a first object (2) to a second object (3). The adaptor having an elongate base (5) having a free end (5a) and a hinge end (5b), an elongate arm (10) having a free end (10a) and a hinge end (10b). The hinge end of said base hingedly connected to said hinge end of said arm so that said free end of said arm is moveable in use with respect to said free end of said base about a hinge defining a hinge axis (XX). The base having means (12) to connect said adaptor to said first object. The arm having means (14) to connect said adaptor to said second object. Whereby in use when said first and second objects are connected together a user can alter a position of said second object with respect to said first object without having to separate said objects.

A helmet including fit system straps with illuminable strips on them or woven into them and one or more light sources positioned adjacent the tops of the fit system straps on the helmet body to emit light toward the illuminable strips. The light sources may be connected directly to the illuminable strips to emit light into an end of the illuminable strips. The light sources may emit light from or near a lower surface of the helmet body toward the illuminable strips.

An adaptive lighting system for even illumination is provided. In an embodiment, multiple lamps illuminate light in different areas or zones of the surroundings. These lamps modulate their light output in a known (but imperceptible) pattern. One or more light detectors detects light from the surroundings. Light sourced from each lamp is disambiguated and one or more light time-of-flight delays are calculated for each lamp-light detector pair. Based on these calculated delays, illumination levels of the lights are adjusted so as to produce even illumination.

A helmet with an airbag assembly coupled to the shell of the helmet. The airbag assembly includes an airbag and an inflation device. The inflation device is configured to at least partially inflate the airbag upon deployment of the airbag assembly. The helmet also includes a processing circuit disposed at least partially within the shell. The processing circuit is configured to receive helmet data regarding a second helmet, transmit deployment data regarding inflation of the airbag assembly, and control operation of the inflation device to inflate the airbag based on the helmet data.

The present system provides a lightweight fire-resistant photoluminescent identifier system for firefighters, which is suitable for use on the firefighter's facemask, as well as other equipment. The system is lightweight and provides individual recognition of an individual firefighter. The identifier system lights up automatically in a low-light environment without batteries, yet prevents glare to the firefighter using the system. The components that comprise the system are fire-resistant to temperatures up to and exceeding 500 degrees Fahrenheit to facilitate personal recognition of the individual in dark and low-light areas.

A training system, kit, and method including a weighted wearable equipment, e.g. gloves, having a sensor (e.g. accelerometers, gyroscopes, photoelectric sensors, position sensors, tilt sensors, pressure sensors, temperature sensors, blood pressure sensors, heart rate monitors, and SpO2 sensors) and including a weight enhancement (e.g. weight bodies in closed pockets); a non-weighted wearable equipment of the same type as the weighted wearable equipment, the non-weighted wearable equipment having a sensor and. not including a weight enhancement; and a training application in functional communication with each of the weighted wearable equipment and the non-weighted wearable equipment and having a data processor that includes instructions for: analyzing data received from the sensor of each of the weighted wearable equipment and the non-weighted wearable equipment and generating predictive information derived from exercise training data from the sensors.

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.