An augmented reality display device, includes: a display unit including a thermal camera configured to capture image frames, an image projector, and a display screen; a processing unit including processing structure in communication with the thermal camera and the image projector, the processing structure being configured to process the captured image frames and output processed image frames to the image projector, and a battery; and a strap connecting the display unit and the processing unit.

The present invention proposes a multi-featured miniature camera. The components of the camera mainly comprise of an image capturing means, multiple activating means, an infrared radiating means, a microphone, multiple Bluetooth connection means, an identification chip means, a wireless power charging means, a wireless data transfer means, an image processing means and a location determination means. The camera provides wireless power and data transfer, image recognition, Push-To-Talk (PTT) function, multiple Bluetooth communication etc. This multi-featured camera is mounted on different application areas such as on the helmet of police officers, sport players, firefighters etc. The camera body is designed in such a way, that it easily fits on the helmet.

An impact diffusing system for protecting a user's head includes a headpiece cage coupled to a thoracic framework. In one aspect, the headpiece cage includes at least two support bars, a plurality of rigid bars surrounding at least a portion of the forehead, top, and sides of the head, and a face mask that encloses at least a portion the user's face. The thoracic framework covers at least a portion of a chest, upper back, and shoulders of the user, and the thoracic framework is attached to the support bars of the headpiece cage in a manner that prevents movement of the headpiece cage relative to the thoracic framework. In another aspect, the system includes a helmet component (formed of e.g., carbon fiber) coupled to a thoracic cage, wherein the helmet component is a solid, unitary piece that surrounds the top, back, and sides of the user's head.

Provided is a head protection device with multiple face shields, where the head protection device is configured to be able to provide a flow of air to a user of the head protection device. The air flow may be provided by an external air providing device.

A surgical garment for use with a helmet, wherein the garment comprises a shell, a transparent face shield, and an attachment element coupled to the transparent face shield. The garment may be configured to define a barrier between the wearer and the environment. The attachment element configured to removably couple with a coupling member of the helmet, wherein the attachment element and coupling member comprise complementary coupling surfaces. The attachment element comprises a head having a distal surface and a proximal surface, and defining a coupling recess, the coupling recess is defined in the proximal surface of the head. The garment may comprise a first and second attachment element, with the first attachment element being coupled to upper portion of the transparent face shield and the second attachment element being coupled to lower portion of the transparent face shield.

A hardhat with a protected overhead cooling fan comprises: a main hardhat body component having an upper aperture through which air is drawn and pulled down into a battery powered cooling fan; a fan cover component spaced at least about ¼ inch from and permanently adhered to the main hardhat body with a plurality of linear ridges; a battery pack for the cooling fan; and a plurality of connecting wires. A method of use is also disclosed.

Disclosed is a protective helmet, surgical garment, and positive pressure air filter apparatus. The helmet is adapted to fit on the head of a medical practitioner and includes a filtered air inlet located near the crown of the practitioner's head, one or more air flow ducts, and one or more outlets located near the practitioner's face. The garment fits over the helmet and provides an air-impermeable barrier to prevent airborne contaminants from entering the space around the practitioner's head. A motorized filter unit is adapted to be worn near the waist of the practitioner. A tube connects the output of the filter unit with the air inlet of the helmet to provide a filtered air supply to the practitioner. One or more filter elements are provided at the input of the filter unit. The filter elements remove contaminants, including bacteria, viruses, vapors, and gasses from ambient air drawn into the filter unit to generate filtered air that is delivered to the practitioner.

A device for reducing traumatic brain injury comprises a first sensor, a first linkage element, and a processing element. The first sensor is coupled to a head component and configured to measure an acceleration of a user's head and to generate a sequence of real-time measured samples. The first linkage element is configured to connect the head component to a body component and is able to switch between a first state in which it is relatively flexible and a second state in which it is relatively rigid. The first linkage element is switched from its first state to its second state by a locking signal. The processing element is configured to receive the real-time measured samples and to generate the locking signal when each of a portion of the real-time measured samples is greater than one of a corresponding portion of a plurality of dynamic concussion thresholds.

A helmet including a lighting system integrated into said helmet, the lighting system comprising a first layer; light emitting means mounted to said first layer; controller means mounted to said first layer for controlling said light emitting means; wiring means for linking said light emitting means to said controller means; a second layer fixably attached to said first layer thereby providing an area between said first and second layer for said light emitting means, controller means, and wiring means; power means fixably attached to said second layer for powering said controller and light emitting means; and operating means functionally linked to said controller means for operating said controller means. The application also discloses lighting system contained in a shell that that can be attached to an existing helmet. This application also discloses a lighting system contained in a flexible material that can be fitted onto an existing helmet.

Disclosed is a monocular display module including a first coupling portion that is coupled to a safety helmet, a display unit that provides augmented reality or virtual reality to a left-eye or a right-eye of a user through an LCOS micro display, and a body portion that is coupled to the first coupling portion and the display unit, wherein respective center regions of the first coupling portion, the display unit, and the body portion are positioned in a straight line.