A firearm including a barrel coupled to an upper receiver of the firearm, a removable handguard formed as a solid unit, wherein the removable handguard is securely interlocked with the upper receiver, wherein achieving a secure interlocking includes use of extrusions on the handguard that slide in grooves formed by teeth extending from the upper receiver or vice versa, and wherein the handguard is configured to be quickly removed by pressing on a linear operated release button of a locking mechanism that is part of the firearm or upper receiver.
A deflection element and a protective suit incorporating such are provided. The deflection element including an upper arc; and a lower arc, wherein each of the upper arc and the lower arc include a solid flexible arc shaped layer, a soft padding layer on an inner side of the upper arc and on a matching side of the lower arc, a material forming an encasement around the solid arc shaped layer and the soft padding layer; and wherein the encasement of the upper arc at each end is connected to the encasement of the lower arc with the inner side of the upper arc facing the lower arc.
A pistol slide, including an upper part configured to guide a barrel of the pistol, a lower part configured to guide a recoil spring guide rod and a recoil spring, wherein the upper part and lower part are manufactured independently and coupled together to serve as the pistol slide.
A grenade launcher, including: a barrel for launching a projectile at a real target and a sight coupled to the barrel, the sight including: a display that displays an aiming indicator and is configured to display a representative target representing the real target: a sensor configured to track motion of the barrel and accordingly the representative target is moved on the display; and wherein when the display of the representative target coincides with the aiming indicator, the launcher is aimed to launch the projectile to hit the real target.
A handgun, including a safety lever for disengaging a sear, the safety lever located under a slide of the handgun and extending along a longitudinal axis within a body of the handgun, wherein the safety lever includes a) a sear switch located external to the body of the handgun, and is configured to be positioned by a user in one of at least two positions along the longitudinal axis of the handgun and configured to move the safety lever with the sear switch to an elected position; (b) a sear tab at a rear end of the safety lever near a sear of the handgun, wherein when the sear switch is in a first position the sear tab does not interfere with the action of the sear and when in a second position the sear tab causes the sear to tilt so that the sear is disengaged and cannot come in contact with a striker of the handgun to fire a bullet.
F41A 17/30 - Multiple safeties, i.e. safeties acting on at least one element of the firing mechanism and at least one other element of the gun, e.g. the moving barrel
F41A 17/56 - Sear safeties, i.e. means for rendering ineffective an intermediate lever transmitting trigger movement to firing pin, hammer, bolt or sear
09 - Scientific and electric apparatus and instruments
Goods & Services
Ballistic resistant and blast resistant body armor and clothing; Protective head and body armor, namely, helmets with full faceguards and eye protection; armor for the chest, neck, torso, shoulders, and forearms; codpieces in the nature of body armor; Head and body protective equipment in the nature of body armor, namely, protective combat helmets, face-protection shields, mandible protectors, neck protectors, and ballistic body armor protection; Ballistic body armor protection in the nature of body armor; Protective Supplemental Equipment, namely, Gas mask, Uniforms and Tactical gloves; Protective body armor, namely, ballistic, bullet, blast, slash and stab resistant vests.
09 - Scientific and electric apparatus and instruments
Goods & Services
Ballistic resistant and blast resistant body armor and clothing; Protective body armor; armor for the chest, neck, torso, shoulders, and forearms; codpieces in the nature of body armor; Body protective equipment in the nature of body armor, namely, mandible protectors, neck protectors, and ballistic body armor protection; Ballistic body armor protection in the nature of body armor; Protective body armor, namely, ballistic, bullet, blast, slash and stab resistant vests
8.
FIREARM WITH AUTOMATIC TARGET ACQUIRING AND SHOOTING
A firearm that automatically controls the release of bullets, including one or more sensors that provide real-time sensor data of the view in front of the firearm, a computer that identities legitimate targets in the real-time sensor data, without user intervention, a trigger sensor that determines directly or indirectly if the trigger is engaged, wherein as long as the trigger is engaged, the firearm is configured to continuously acquire real-time sensor data, identify legitimate targets and automatically release bullets when the firearm is directed toward the identified targets.
A firing control apparatus and method for installing in a firearm, the apparatus comprising: an energy storing mechanism configured to store mechanical energy which is produced by a mechanical system, upon firing the firearm or by manual operation of the firearm, an electromagnet configured to control the energy storing mechanism, wherein the energy storing mechanism holds or releases the mechanical energy to prevent or enable the firearm from firing, and a processor or an electro-mechanical switch configured to activate or deactivate the electromagnet to control the operation of the energy storing mechanism according to preselected rules.
A method of controlling the release of bullets from a firearm by user behavior, including monitoring the spatial orientation of a virtual vector representing the orientation of a barrel of the firearm by receiving measurements from sensors installed in or on the firearm, engaging a trigger of the firearm to release a first bullet to a first direction, while the trigger is engaged continuously analyzing the measurements to identify preconfigured motion patterns, releasing bullets automatically responsive to identifying the preconfigured motion patterns, wherein the preconfigured motion patterns include identifying that the user is stabilizing the firearm toward a target that is in a direction that is distinct from the first direction.
A firing control apparatus and method for installing in a firearm, the apparatus comprising: an energy storing mechanism configured to store mechanical energy which is produced by a mechanical system, upon firing the firearm or by manual operation of the firearm, an electromagnet configured to control the energy storing mechanism, wherein the energy storing mechanism holds or releases the mechanical energy to prevent or enable the firearm from firing, and a processor or an electro-mechanical switch configured to activate or deactivate the electromagnet to control the operation of the energy storing mechanism according to preselected rules.
A slideable ejection port cover having at least two configurations, an open configuration in which shell ejection via the ejection port is enabled, and a closed configuration in which the ejection port is substantially immovably covered; the ejection port cover comprising a shutter operatively connected to a locking component, the shutter slideable along a longitudinal axis of the receiver; wherein the locking component comprises a spring configured, at such times as the ejection port cover is in the closed configuration, to hold the locking component in a pressure-applying mode against the receiver, the pressure-applying mode being a default mode, thereby immobilizing the shutter relative to the receiver, and the locking component configured to compress the spring when pulled manually away from the receiver, thereby enabling reversible transformation of the ejection port cover from the closed configuration to the open configuration.
Firearms; automatic rifles; rifles; component parts for rifles; guns. Toys, namely, soft air gun replicas; toy guns; toys weapons, namely, model and replica weapons, their parts and accessories.
Firearms; automatic rifles; rifles; component parts for rifles; guns. Toys, namely, soft air gun replicas; toy guns; toys weapons, namely, model and replica weapons, their parts and accessories.
The subject matter discloses a fire improving hit probability apparatus for reducing misfire of a firearm, comprising a trigger unit to detect when a trigger of the firearm is engaged; a detection unit to collect direction data of a direction at which the firearm is directed when the trigger of the firearm is engaged; a firing processor to improve accuracy of a shooter firing the firearm, wherein the firing processor designates a target sample when the firing processor receives a signal from the trigger unit that the trigger is engaged, wherein the target sample comprises the direction data; a storage for storing an orientation sample designated by the firing processor; an electromagnet to control functions of a sear of the firearm; wherein the firing processor designates a target orientation data according to orientation data collected when the trigger is engaged, said target orientation data is compared to a real time orientation data; wherein the firing processor enables the firing processor the firearm to fire a round when the real time orientation data matches the target orientation data.
A round counter, comprising a detection unit to detect energy pulses resulting from an impact to a firearm; a round counter processor to analyze data obtained by the detection unit to count a number of rounds fired from the firearm; the round counter processor is configured to designate a time window data that is substantially a time length of an energy pulse; wherein the round counter processor compares the time window data to a firing window, the firing window is a predetermined time length required for discharging a round from the firearm; the time window has a substantial time span of firing at least two rounds; a firing counter increases the count when the round counter processor determines the time window data is larger than the firing window and transfers a command to the firing counter to increase the count of the firing counter.
Firearms; Automatic rifles; Rifles and parts thereof; Guns [ Toys, namely, soft air gun replicas; toy guns; toys weapons, namely, model and replica weapons, their parts and accessories ]
Firearms; Automatic rifles; Rifles and parts thereof; Guns; all included in class 13. Toys, namely soft air gun replicas; toy guns; model and replica weapons, their parts and accessories; all included in class 28.
Firearms; Automatic rifles; Rifles and parts thereof; Guns Toys, namely, soft air gun replicas; scale model and toy replica weapons, their parts and accessories thereof
cutlery not made from or coated with precious metal; knives, namely sporting, utility and military knives; knife blades, namely blades for sporting, utility and military knives flashlights toys, namely, soft air gun replicas; toy guns
09 - Scientific and electric apparatus and instruments
28 - Games; toys; sports equipment
41 - Education, entertainment, sporting and cultural services
Goods & Services
Measuring, sighting or simulating apparatus and instruments for shooting, recorded video games, automatic and coin operated machines, apparatus for games and entertainment adapted for use with television receivers only. Model and replica weapons, their constituent parts (except sighting telescopes), projectiles and ammunition for these models and replica. Communications by computer terminals.