A toy gun capable of illuminating soft projectile being ejected therefrom, comprising a gun body, a grip assembly is fixedly attached to the gun body, and a trigger assembly mounted on the grip assembly. The gun body has a power source, a motor, a launch assembly with a launch tube, a light source and a light reflecting unit. When the trigger assembly of the toy gun is actuated, the power source activates the motor and switches on the light source. The activated motor causes the launch assembly to discharge a soft projectile in the launch tube and the light emitted from the light source is reflected by the light reflecting unit onto the soft projectile once it is discharged, thereby illuminating the soft projectile.

A toy gun capable of illuminating soft projectile being ejected therefrom, comprising a gun body, a grip assembly is fixedly attached to the gun body, and a trigger assembly mounted on the grip assembly. The gun body has a power source, a motor, a launch assembly with a launch tube, a light source and a light reflecting unit. When the trigger assembly of the toy gun is actuated, the power source activates the motor and switches on the light source. The activated motor causes the launch assembly to discharge a soft projectile in the launch tube and the light emitted from the light source is reflected by the light reflecting unit onto the soft projectile once it is discharged, thereby illuminating the soft projectile.

A self-glowing solid material comprises a man-made metal mixture containing at least one rare earth metal and an oxide of iron. The material is inducible by flame initiation to self-glow with yellow-to-red colors (577-to-700 nanometer wavelengths). A stealth tracer ammunition comprises a projectile body having a tip and a base, and a solid pellet disposed in the base. The pellet may be made from the above-mentioned self-glowing solid material or another suitable material. The pellet becomes incandescent as a result of being heated when the ammunition is fired. The incandescent pellet emits a glow observable only from behind when the ammunition travels downrange after being fired. An illuminant comprises a bimodal blend of a man-made metal mixture containing at least one rare earth metal and an oxide of iron. The bimodal blend is a blend of smaller-sized fragments and larger-sized pellets. The illuminant is capable of ignition and dispersion in response to ballistic energy to create illumination. An illumination device comprises a body having an interior cavity, the body configured to be launched as a projectile or configured to contain projectiles. An illuminant is disposed in the cavity, the illuminant comprising a bimodal blend of a suitable illuminant material. The illuminant is capable of ignition and dispersion in response to ballistic energy to create illumination.

A self-glowing solid material comprises a man-made metal mixture containing at least one rare earth metal and an oxide of iron. The material is inducible by flame initiation to self-glow with yellow-to-red colors (577-to-700 nanometer wavelengths). A stealth tracer ammunition comprises a projectile body having a tip and a base, and a solid pellet disposed in the base. The pellet may be made from the above-mentioned self-glowing solid material or another suitable material. The pellet becomes incandescent as a result of being heated when the ammunition is fired. The incandescent pellet emits a glow observable only from behind when the ammunition travels downrange after being fired. An illuminant comprises a bimodal blend of a man-made metal mixture containing at least one rare earth metal and an oxide of iron. The bimodal blend is a blend of smaller-sized fragments and larger-sized pellets. The illuminant is capable of ignition and dispersion in response to ballistic energy to create illumination. An illumination device comprises a body having an interior cavity, the body configured to be launched as a projectile or configured to contain projectiles. An illuminant is disposed in the cavity, the illuminant comprising a bimodal blend of a suitable illuminant material. The illuminant is capable of ignition and dispersion in response to ballistic energy to create illumination.

A de-escalation device has vehicle mount and an elongate arm connected to the vehicle mount. An expandable hook toward the end of the elongate arm is adjustable between a contracted position and an expanded position. The de-escalation device is configured to form a first opening in a wall structure by puncturing the end of the elongate arm through the wall structure while the hook is contracted and subsequently form a second, larger opening by withdrawing the elongate arm while the hook is expanded. The elongate arm can have proximal and distal arm sections that are rotatably adjustable with respect to the vehicle mount and one another. One or more remotely controllable de-escalation tools can be deployed from the end portion of the elongate arm.

A de-escalation device has vehicle mount and an elongate arm connected to the vehicle mount. An expandable hook toward the end of the elongate arm is adjustable between a contracted position and an expanded position. The de-escalation device is configured to form a first opening in a wall structure by puncturing the end of the elongate arm through the wall structure while the hook is contracted and subsequently form a second, larger opening by withdrawing the elongate arm while the hook is expanded. The elongate arm can have proximal and distal arm sections that are rotatably adjustable with respect to the vehicle mount and one another. One or more remotely controllable de-escalation tools can be deployed from the end portion of the elongate arm.

The present invention relates generally to the field of arrows. More specifically, the present invention relates to an arrow tracking device that provides a mechanism for a user to locate an arrow after it is fired. The device comprises at least one arrow, which is further comprised of an arrowhead, shaft, nock, and fletching. The shaft features a GPS transmitter, while the nock features an LED. The arrowhead may be unscrewed from the shaft to reveal a USB port, which, in turn, may be plugged into a charging base to recharge the device. The device may further comprise a mobile application so that a user can utilize and customize the electronic functions of the device. Accordingly, the present disclosure makes specific reference thereto. Nonetheless, it is to be appreciated that aspects of the present invention are also equally applicable to other like applications, devices and methods of manufacture.

A chemiluminescent projectile having multi-spectral output, including daytime viewable, nighttime viewable and thermal outputs. The chemiluminescent projectile has a payload that permits the visualization of the fired projectile using a variety of detecting methods including human vision, night vision equipment/infrared devices, and thermal detecting devices during day and night conditions. The chemiluminescent projectile comprises a body having reagents that produce both chemiluminescent and exothermic reactions that generate light and heat sufficient to act as a visual and thermal marker.

A chemiluminescent projectile having multi-spectral output, including daytime viewable, nighttime viewable and thermal outputs. The chemiluminescent projectile has a payload that permits the visualization of the fired projectile using a variety of detecting methods including human vision, night vision equipment/infrared devices, and thermal detecting devices during day and night conditions. The chemiluminescent projectile comprises a body having reagents that produce both chemiluminescent and exothermic reactions that generate light and heat sufficient to act as a visual and thermal marker.

An arrow includes an arrowhead, a shaft, a nock, and an internal cavity. The internal cavity includes a camera.