An Internet of Things (IoT) Automated Intelligence Module (AIM) (or sensor module) is mounted on a firearm to gather weapons intelligence data (including video/audio data) when a critical event, such as the firearm un-holstering, and/or discharge, as well as emergency situation, is (are) detected. The IoT sensor module is capable of immediate detection of un-holstering of the firearm, firearm discharge(s), the number of the discharges, as well as 3-D positioning of the firearm at the time of discharge, and notification alerts to designated recipients (i.e., computer aided dispatch, commanders, supervisors, superintendents, etc.) of the firearm status change or critical events in the field. The captured video/audio and the weapon's intelligence data are transmitted to end-users' application desktops, mobile devices, and/or web-based interfaces to provide the designated recipients with situational awareness of personnel in the field and crucial information that can be used for post crime scene analysis.

A method of installing a safety selector in a firearm includes inserting the safety selector into an opening in the firearm, aligning a hole extending through the safety selector with a cavity extending transversely from the opening, inserting a spring through the hole and into the cavity, inserting a detent plunger through the hole and at least partially into the cavity, thereby compressing the spring, and moving the safety selector within the opening transversely to the cavity so as to capture the detent plunger at least partially within the cavity. The invention also encompasses a method of removing the safety selector.

The invention relates to a device for storing portable firearms, in particular handguns, such as pistols and revolvers, in a housing, which device comprises a rod that can be inserted into the barrel of the portable firearm. Furthermore, a pin is provided, which can be advanced through the trigger guard to a position in front of the trigger of the portable firearm. The advanced pin prevents the portable firearm from being removed from the housing and prevents the trigger from being pulled. Finally, a securing means for preventing the pin from being pushed back without authorization is provided, which securing means comprises an apparatus for entering a security code and/or an apparatus for identifying biometric features, such as fingerprints, faces or eyes, in particular the iris. A sensor, which senses the presence of a portable firearm arranged on the rod, activates the securing means.

A system for alerting a user to a state of a weapon includes a safety assembly, operably coupled to the weapon and operable to selectively render the weapon into either a safe mode or a firing mode. A motor is carried by the weapon and is operably coupled to the safety assembly so as to be engaged when the weapon is in the firing mode. The motor is operable to impart vibratory motion to the weapon of sufficient magnitude that a wielder of the weapon can tactilely sense the vibratory motion without visually inspecting the weapon to thereby sense that the weapon is in the firing mode without visually inspecting the weapon.

An air-soft gun includes a grip; a high-pressure air canister disposed in the grip; and a remaining compressed air release device including a channel member threadedly secured to an end of the air canister and including an axial channel and a sealing ring; a rotatable cap releasably secured to the channel member; a biasing member fastened between the cap and the channel member; a striker including a needle on a first end, an internal passageway, an inlet proximate the needle and communicating with the passageway, an outlet proximate a second end and communicating with the passageway, internal threads on the passageway proximate the second end, and a threaded fastener driven through the cap into the internal threads to secure the cap to the striker. The inlet is blocked by the sealing ring in an inoperative position.

The present invention provides a system for autonomously conveying and loading a shell into a fixed gun, the system including an autonomous conveyance device configured to autonomously travel and move according to an autonomous driving program from a shell storage location to a fixed gun fixed to a gun mount that is a destination, an automatic loading device configured to hold a testing shell and automatically load the testing shell into a cartridge chamber of the fixed gun, and a shell lifting device mounted on an upper surface of the autonomous conveyance device and a lower surface of the automatic loading device and configured to move the automatic loading device upward or downward. According to the present invention, a process of conveying and loading the shell into the testing fixed gun may be autonomously performed in an unmanned manner.

Workpieces for producing a firearm have an elongated body defined within a cross-sectional profile with a first elongated passage configured to receive the upper portion of the bolt, and with a second elongated passage configured to receive the lower portion of the bolt, and the elongated body having a separator between the first elongated passage and the second elongated passage and configured to prevent installation of the bolt assembly when the separator is present, and to enable installation of the bolt assembly when the separator is absent. The cross-sectional profile may be along the entire length of the elongated body. The cross-sectional profile may fully encompass the first elongated passage. The first elongated passage may be open only at the ends of the elongated body. The cross-sectional profile may have a U-shaped cross-section.

A handgun safety device comprising a safety element with a firing interrupting element configured for snug projection between a face of a duty cartridge and a fore end of a functional firing element, said safety element being articulated at a first end of a cord having a full length, with a second end configured for attaching to an article worn by a user.

A handgun safety device comprising a safety element with a firing interrupting element configured for snug projection between a face of a duty cartridge and a fore end of a functional firing element, said safety element being articulated at a first end of a cord having a full length, with a second end configured for attaching to an article worn by a user.

A firearm is proposed, with an optical safety marking (9.1, 9.2, 9.3, 9.4, 9.5, 9.6) provided on the firearm (1) for clearly indicating the safety state of the firearm (1). In order to increase the safety of the firearm (1), it is proposed for the safety marking (9.1, 9.2, 9.3, 9.4, 9.5, 9.6) to be embodied as phosphorescent and/or fluorescent and/or radioluminescent and/or bioluminescent.