A customizable oven mitt is provided. The customizable oven mitt includes a front panel and a rear panel joined to form a mitt having a wrist opening, a closed ended thumb pocket, and a closed ended finger pocket. The mitt is composed of a heat resistant material that protects the wearer from hot objects. The exterior of the mitt includes a plurality of hook and loop fasteners or similar fasteners that allow decorative accessory components to be secured to the mitt. Additionally, the mitt includes an internal battery power supply operably connected to a temperature sensor and a speaker. When the temperature sensor detects the mitt contacting an object that is above a threshold temperature, the speaker emits an audible alert, notifying the wearer and surrounding individuals.

A voltage sensing glove assembly includes a glove that is wearable on a user's hand. The glove is comprised of an electrically insulating material to facilitate the user to grasp exposed electrical wires without risk of electrical shock. A plurality of voltage sensors is each coupled to the glove and each of the voltage sensors is in electrical communication with the exposed electrical wires when the user grasps the exposed electrical wires. Respective ones of the voltage sensors are turned on when the voltage sensors senses electrical voltage in any of the exposed electrical wires. An alert unit is coupled to the glove and the alert unit is in electrical communication with each of the voltage sensors. The alert unit emits an alert when any of the voltage sensors is turned on to alert the user that electrical voltage has been sensed in the exposed electrical wires.

A glove having a palm section, a dorsal section and an electrical device including at least one first component, one second component and a signal line. The first component is provided on the dorsal section and the second component is provided on a section of the glove that is different to the dorsal section. The signal line connects the components to each other electrically and includes a flexible printed circuit board with at least one conductor. The third component is provided on the palm section, on the dorsal section or on a lateral section of the glove, and the second component is provided at the location of the glove that rests on the index finger or the metacarpophalangeal joint of the index finger of a user's hand in the worn condition of the glove. The conductor is designed redundantly. A system including a glove and a functional unit.

The deterrent and electrical pulse-applying glove device includes a palm side and a back-of-the-hand side with an external face and an internal face respectively external and internal to the glove device. The outer face of the palm side has installed on it at least two application contacts to be connected, by way of electrical connection devices. The electrical connection devices include at least one contactor, to an electric power source. The two application contacts are installed on the outer face on the palm side at a distance from one another so as to generate an electric arc between said contacts, when they are connected to the electric power source through the contactor to be actuated from the internal side internal to the glove device.

Gloves including one or more layers having at least one radar detectable mark disposed on the surface thereof are provided.

Gloves including one or more layers having at least one radar detectable mark formed of radar detectable material and/or an infrared detectable mark formed of infrared absorbing ink disposed on the surface thereof are provided.

The present application relates to a control stick for a military aircraft, a system for managing health information regarding a pilot, a military aircraft, and a simulator for a military aircraft. According to the control stick for a military aircraft, the system for managing health information regarding a pilot, the military aircraft, the military aircraft, and the simulator for a military aircraft of the present application, health information regarding a pilot may be continuously monitored, and flight accidents such as personal damage and material damage may be prevented via the collection of the health information.

The inventive glove provides a work glove that detects the presence of AC voltage without compromising its usability as a work glove. Embodiments of the inventive glove include monopole aerials extending into the fingers of the glove. A thin flexible dielectric layer sits between the aerials and inside of the glove, acting as an electrical barrier between the aerials and the user's hand. The aerials are connected to conventional voltage detector circuitry on a circuit board located on the back of the glove. The circuit board is grounded to the user's wrist, which enhances the circuitry's ability to detect the presence of nearby AC voltage at a safe distance.

A hand interface device is provided comprising: A glove portion to be worn on top of a user's hand, including a plurality of anchoring finger caps circumscribed around the extremities of the user's fingers and thumb; at least one haptic actuator housed within each of the anchoring finger caps; a housing structure attached to the forearm; and a plurality of wires running between at least one haptic actuator and the housing structure.

Embodiments generally relate to personal protective equipment (PPE) (such as gloves, shoes/boots, hoods, protective clothing, etc.) for industrial applications. More specifically, the invention relates to using magnetic particles (e.g. incorporated within or attached/affixed to the PPE) so that a magnetic scan may be run to determine a change (e.g. decrease) in initial magnetic field signature (MFS) for the PPE). The change in MFS is used to determine end of service life of the PPE (such that the protective equipment should be retired or repaired).