Abstract: A weapon accessory integrates multiple illumination sources and a mechanism for dispensing a chemical irritant within a single housing for attachment as a fore grip to a firearm. The weapon accessory has selectable microprocessor-controlled multi-modes of operation for providing illumination, sighting or target debilitation. Switches on the outside of the housing enable user setting and control of the multiple modes of operation, which include one or a combination of (i) activating high intensity light emitting diodes (LEDs) to illuminate an object or human subject with either visible or infrared light, (ii) activating a visible or infrared laser for sighting a target, (iii) activating a frequency modulation mode that alternates pulsing white and blue LEDs at three superimposed frequencies to temporarily disable, distract and degrade the vision of a human subject, and (iv) activating the chemical irritant dispenser.
Abstract: A weapon accessory integrates multiple illumination sources and a mechanism for dispensing a chemical irritant within a single housing for attachment as a fore grip to a firearm. The weapon accessory has selectable microprocessor-controlled multi-modes of operation for providing illumination, sighting or target debilitation. Switches on the outside of the housing enable user setting and control of the multiple modes of operation, which include one or a combination of (i) activating high intensity light emitting diodes (LEDs) to illuminate an object or human subject with either visible or infrared light, (ii) activating a visible or infrared laser for sighting a target, (iii) activating a frequency modulation mode that alternates pulsing white and blue LEDs at three superimposed frequencies to temporarily disable, distract and degrade the vision of a human subject, and (iv) activating the chemical irritant dispenser.
Abstract: A hand-held apparatus for directing the flow of traffic is disclosed. The palm side of a glove includes multiple high intensity red light emitting diodes (LEDs), and the back side of the glove includes multiple high intensity green LEDs. A control circuit coupled to the red and green high intensity LEDs periodically monitors the state of a motion and position sensor. When the state of the motion and position sensor corresponds to the palm side of the glove being in a vertical position with multiple fingers of the glove pointing skyward to within an acceptance angle of vertical relative to the ground, the control circuit illuminates the high intensity red LEDs. When the state of the motion and position sensor corresponds to the palm side of the glove not being in a vertical position relative to the ground, the control circuit illuminates the high intensity green LEDs.
Abstract: A hand-held apparatus for directing the flow of traffic is disclosed. The palm side of a glove includes multiple high intensity red light emitting diodes (LEDs), and the back side of the glove includes multiple high intensity green LEDs. A control circuit coupled to the red and green high intensity LEDs periodically monitors the state of a motion and position sensor. When the state of the motion and position sensor corresponds to the palm side of the glove being in a vertical position with multiple fingers of the glove pointing skyward to within an acceptance angle of vertical relative to the ground, the control circuit illuminates the high intensity red LEDs. When the state of the motion and position sensor corresponds to the palm side of the glove not being in a vertical position relative to the ground, the control circuit illuminates the high intensity green LEDs.