A solid core less-lethal projectile is a frangible projectile (10) which generally includes a hollow body (12), a solid core (14), a support structure (18), and a payload material (16). The hollow body (12) defines a closed interior cavity in which the core (14) is contained. The support structure (18) is disposed inside the cavity. The support structure (18) can be a plurality of ribs configured to confine the core at a center of the cavity and space the core (14) from the sidewalls of the hollow body (12). The ribs can protrude from an interior surface the hollow body (12) to the core (14). The ribs (18) can extend centripetally from the interior surface to the core (14). The payload material (16) substantially fills the cavity around the core (14) and the ribs (18). The core (14) stabilizes the projectile (10) during flight toward a target.
F42B 12/46 - Projectiles, missiles or mines characterised by the warhead, the intended effect, or the material characterised by the warhead or the intended effect for dispensing materialsProjectiles, missiles or mines characterised by the warhead, the intended effect, or the material characterised by the warhead or the intended effect for producing chemical or physical reactionProjectiles, missiles or mines characterised by the warhead, the intended effect, or the material characterised by the warhead or the intended effect for signalling for dispensing gases, vapours, powders or chemically-reactive substances
Airsoft guns for recreational use; ammunition for airsoft guns for recreational use; component parts for airsoft guns for recreational use; replacement parts for airsoft guns for recreational use Air guns being air pistols and air rifles and replacement parts thereof; airsoft guns not for recreational use and replacement parts thereof
Airsoft guns for recreational use; ammunition for airsoft guns for recreational use; component parts for airsoft guns for recreational use; replacement parts for airsoft guns for recreational use Air guns being air pistols and air rifles and replacement parts thereof; airsoft guns not for recreational use and replacement parts thereof
Airsoft guns for recreational use; ammunition for airsoft guns for recreational use; component parts for airsoft guns for recreational use; replacement parts for airsoft guns for recreational use Air guns being air pistols and air rifles and replacement parts thereof; airsoft guns not for recreational use and replacement parts thereof
Airsoft guns for recreational use; ammunition for airsoft guns for recreational use; component parts for airsoft guns for recreational use; replacement parts for airsoft guns for recreational use Air guns being air pistols and air rifles and replacement parts thereof; airsoft guns not for recreational use and replacement parts thereof
A solid core less-lethal projectile is a frangible projectile which generally includes a hollow body, a solid core, a support structure, and a payload material. The hollow body can be formed by two hollow hemispherical bodies that are joined. The hollow body defines a closed interior cavity in which the core is contained. The support structure is disposed inside the cavity. The support structure can be a plurality of ribs configured to confine the core at a center of the cavity and space the core from the sidewalls of the hollow body. The ribs can protrude from an interior surface the hollow body to the core. The ribs can extend centripetally from the interior surface to the core. The payload material substantially fills the cavity around the core and the ribs. The core is configured to stabilize the projectile during flight toward a target. The core can be a spherical metallic ball.
F42B 12/46 - Projectiles, missiles or mines characterised by the warhead, the intended effect, or the material characterised by the warhead or the intended effect for dispensing materialsProjectiles, missiles or mines characterised by the warhead, the intended effect, or the material characterised by the warhead or the intended effect for producing chemical or physical reactionProjectiles, missiles or mines characterised by the warhead, the intended effect, or the material characterised by the warhead or the intended effect for signalling for dispensing gases, vapours, powders or chemically-reactive substances
A dynamic sealing chamber magazine (11b) for an air gun (105) carries multiple projectiles (5) for the air gun (105) and sequentially places each projectile (5) in line with the gun bore 109 while serving as a chamber (101) for the projectile (5). Each chamber (101) of the magazine (11b) is configured to temporarily seal to an air orifice and barrel bore (502, 504) of the air gun. Each chamber (101) includes a hole and two tubular sleeves (202, 204) disposed therein. Pressurized gas released into a chamber (101) aligned with the air orifice and barrel bore (502, 504) pushes the sleeves (202, 204) apart from inside the chamber (101) and compresses the sleeves (202, 204) into sealing engagement with opposing breech surfaces of the gun 502, 504 surrounding the air orifice and barrel bore. The sleeves (202, 204) retract as the pressure in the aligned chamber (101) decreases.
F41B 11/55 - Magazines for compressed-gas gunsArrangements for feeding or loading projectiles from magazines the projectiles being stored in stacked order in a removable box magazine, rack or tubular magazine
A dynamic sealing chamber magazine for an air gun carries multiple projectiles for the air gun and sequentially places each projectile in line with the bore of the gun while serving as a chamber for the projectile and gun. Each chamber of the magazine is configured to temporarily seal to an air orifice and barrel bore of the air gun upon firing. Each chamber includes a hole and two tubular sleeves therein. A pressurized gas released into a chamber when the chamber is aligned with the air orifice and barrel bore and the gun is fired pushes the sleeves apart from inside the chamber and compresses the sleeves into sealing engagement with opposing breech surfaces of the gun surrounding the air orifice and barrel bore. The sleeves decompress, unseal, and retract to a static position when the gas pressure decreases below the elastic potential energy of the sleeves.
F41B 11/55 - Magazines for compressed-gas gunsArrangements for feeding or loading projectiles from magazines the projectiles being stored in stacked order in a removable box magazine, rack or tubular magazine
Air guns being air pistols and parts thereof; air soft guns not for recreational use and parts thereof Air soft guns for recreational use and parts thereof
A solid core less-lethal projectile is a frangible projectile which generally includes a hollow body, a solid core, a support structure, and a payload material. The hollow body can be formed by two hollow hemispherical bodies that are joined. The hollow body defines a closed interior cavity in which the core is contained. The support structure is disposed inside the cavity. The support structure can be a plurality of ribs configured to confine the core at a center of the cavity and space the core from the sidewalls of the hollow body. The ribs can protrude from an interior surface the hollow body to the core. The ribs can extend centripetally from the interior surface to the core. The payload material substantially fills the cavity around the core and the ribs. The core is configured to stabilize the projectile during flight toward a target. The core can be a spherical metallic ball.
F42B 12/46 - Projectiles, missiles or mines characterised by the warhead, the intended effect, or the material characterised by the warhead or the intended effect for dispensing materialsProjectiles, missiles or mines characterised by the warhead, the intended effect, or the material characterised by the warhead or the intended effect for producing chemical or physical reactionProjectiles, missiles or mines characterised by the warhead, the intended effect, or the material characterised by the warhead or the intended effect for signalling for dispensing gases, vapours, powders or chemically-reactive substances
Air guns being air pistols and air rifles, and parts thereof; air soft guns not for recreational use and parts thereof Air soft guns for recreational use and parts thereof
A dynamic sealing chamber magazine for an air gun carries multiple projectiles for the air gun and sequentially places each projectile in line with the bore of the gun while serving as a chamber for the projectile and gun. Each chamber of the magazine is configured to temporarily seal to an air orifice and barrel bore of the air gun upon firing. Each chamber includes a hole and two tubular sleeves therein. A pressurized gas released into a chamber when the chamber is aligned with the air orifice and barrel bore and the gun is fired pushes the sleeves apart from inside the chamber and compresses the sleeves into sealing engagement with opposing breech surfaces of the gun surrounding the air orifice and barrel bore. The sleeves decompress, unseal, and retract to a static position when the gas pressure decreases below the elastic potential energy of the sleeves.
F41B 11/55 - Magazines for compressed-gas gunsArrangements for feeding or loading projectiles from magazines the projectiles being stored in stacked order in a removable box magazine, rack or tubular magazine
Firearms; pistols; guns; rifles; revolvers; small arms; sporting rifles; sporting pistols; starter pistols; blank firing guns, namely, guns for use with non-projectile ammunition for pyrotechnic, emergency, non-lethal deterrent, and training purposes; air guns; air rifles; air pistols; compressed air pistols not for recreational use; compressed air rifles not for recreational use; hunting firearms; compressed gas pistols not for recreational use; compressed gas rifles not for recreational use; weapons designed to fire tear gas projectiles; flare guns; flare rifles; airsoft guns not for recreational purposes; weapons for shooting rubber balls; weapons for shooting pepper ammunitions; paintball guns not for recreational purposes; ammunition; holsters; case covers for firearms; rifle cases; non-telescopic aiming sights for weapons; sights, other than telescopic sights, for firearms; firearm attachments, namely modular external rail systems for firearms; safety catches for firearms; firearm magazine speedloader; gun mounts; silencers for firearms; gunstocks; cleaning kits for weapons comprising specially adapted cleaning rods and brushes for weapons; sprays for personal defense purposes; component parts for firearms, guns, rifles, and pistols; replacement parts for firearms, guns, rifles, and pistols Toy weapons; toy replicas of weapons; toy model kits of weapons; toy decorative weapons; paintball guns; laser rifles and laser pistols being sporting apparatus; airsoft guns for recreational purposes; toy cap guns; sling shots; bows for archery; crossbows being sporting apparatus; ammunition for airsoft guns for recreational use; ammunition for toy weapons; ammunition for paintball guns; component parts for toy weapons; replacement parts for toy weapons; component parts for paintball guns; replacement parts for paintball guns; component parts for airsoft guns for recreational use; replacement parts for airsoft guns for recreational use
Firearms; pistols (arms); guns (weapons); rifles; revolvers;
small arms; sporting rifles; sporting pistols; starter
pistols; blank cartridge weapons; blank firing guns; air
guns; air rifles (weapons); air pistols (weapons);
compressed air weapons; laser weapons; hunting firearms;
compressed gas weapons; gas weapons; flare guns; flare
rifles; airsoft guns not for recreational purposes; weapons
for shooting rubber balls; weapons for shooting pepper
ammunitions; paintball guns not for recreational purposes;
ammunition; holsters; case covers for firearms; rifle cases;
aiming sights for weapons; sights, other than telescopic
sights, for firearms; rail systems for firearms; safety
catches for firearms; speedloader; gun mounts; silencers;
gunstocks; cleaning kits for weapons; sprays for personal
defense purposes; parts and accessories of all aforesaid
goods, included in class 13. Toy weapons; toy replicas of weapons; toy model kits of
weapons; toy decorative weapons; paintball guns; laser
rifles and laser pistols (sporting apparatus); airsoft guns
for recreational purposes; toy cap guns; sling shots; bows
for archery; crossbows (sporting apparatus); ammunition for
all the aforementioned weapons; parts and accessories of all
aforesaid goods, included in class 28.
An air gun is provided with a magazine safety system and methods of making the air gun safe utilizing the magazine. The air gun includes a magazine well protrusion (e.g., floorplate) configured to extend into the magazine well when no magazine is properly inserted into and received in the magazine well. In the extended position, the protrusion prevents actuation of the main valve of the air gun. When a magazine is properly inserted into the magazine well, the protrusion is pushed into a recessed or depressed position by the interaction of the magazine with the magazine well such that the protrusion does not prevent actuation of the main valve of the air gun.
An air gun is provided with a magazine safety system and methods of making the air gun safe utilizing the magazine. The air gun includes a magazine well protrusion (e.g., floorplate) configured to extend into the magazine well when no magazine is properly inserted into and received in the magazine well. In the extended position, the protrusion prevents actuation of the main valve of the air gun. When a magazine is properly inserted into the magazine well, the protrusion is pushed into a recessed or depressed position by the interaction of the magazine with the magazine well such that the protrusion does not prevent actuation of the main valve of the air gun.
A linear magazine for an air gun advances upon actuation of a cocking mechanism. The magazine carries multiple projectiles for the air gun and translates perpendicularly to the bore (i.e., barrel) of the air gun to advance to the next projectile. The magazine places a series of projectiles in line with the bore of the gun while serving as a chamber for the projectile and gun and sealing to the air orifice and barrel bore of the air gun. In one embodiment, each hole or chamber of the linear magazine is arranged in a single row.
F41B 11/55 - Magazines for compressed-gas gunsArrangements for feeding or loading projectiles from magazines the projectiles being stored in stacked order in a removable box magazine, rack or tubular magazine
20.
TURBOCHARGED SYSTEM FOR OIL-FREE SILING ULTRA HIGH PRESSURE AIR PUMP
An oil-less air compressor includes a motor. A motor shaft is arranged in the motor housing; a concentric piston is arranged at the left end of the motor shaft in a crank connecting rod manner; a high pressure piston push rod is arranged at the center of a circle of the upper endface of the concentric piston; a low pressure piston is arranged at the right end of the motor shaft in a crank connecting rod manner; piston friction pieces of the inflator pump are arranged in corresponding cooling chambers in a sealed manner, a cooling pipeline is used for circular heat exchange of cooling liquid in the cooling chambers, the piston friction pieces of the inflator pump can thus be cooled continuously.
F04B 39/00 - Component parts, details, or accessories, of pumps or pumping systems specially adapted for elastic fluids, not otherwise provided for in, or of interest apart from, groups
F04B 53/14 - Pistons, piston-rods or piston-rod connections
A valve system utilizes a main valve body with a restricted diameter conduit communicating between a propulsion chamber and rear cavity and a smaller venting valve mechanically actuated to open the rear cavity to atmosphere, thereby causing the main valve body to open to pass pressurized air in the propulsion chamber to an orifice to power a projectile. The orifice has a diameter at least as large as the dimeter of the projectile.
A linear magazine for an air gun advances upon actuation of a cocking mechanism. The magazine carries multiple projectiles for the air gun and translates perpendicularly to the bore (i.e., barrel) of the air gun to advance to the next projectile. The magazine places a series of projectiles in line with the bore of the gun while serving as a chamber for the projectile and gun and sealing to the air orifice and barrel bore of the air gun. In one embodiment, each hole or chamber of the linear magazine is arranged in a single row.
F41B 11/55 - Magazines for compressed-gas gunsArrangements for feeding or loading projectiles from magazines the projectiles being stored in stacked order in a removable box magazine, rack or tubular magazine
Systems and methods for projecting a collimated beam of light from one or more light sources. The system for projecting a collimated beam of light includes a housing, a first set of lenses disposed within the housing, comprising: a first plano-convex lens comprising a first substantially planar surface and a first convex surface; and a second plano-convex lens comprising a second substantially planar surface and a second convex surface, wherein the first and the second convex surfaces face each other; projection lens disposed within the housing comprising: a plano-concave lens comprising a third substantially planar surface and a concave surface; and a bi-convex lens comprising a third and a fourth convex surface, wherein the concave surface and the third convex surface face each other; a light source disposed within the housing facing the first substantially planar surface; and an energy source for the light source.
F21L 4/00 - Electric lighting devices with self-contained electric batteries or cells
F21V 17/02 - Fastening of component parts of lighting devices, e.g. shades, globes, refractors, reflectors, filters, screens, grids or protective cages with provision for adjustment
F21V 13/02 - Combinations of only two kinds of elements
A valve system utilizes a main valve body with a restricted diameter conduit communicating between a propulsion chamber and rear cavity and a smaller venting valve mechanically actuated to open the rear cavity to atmosphere, thereby causing the main valve body to open to pass pressurized air in the propulsion chamber to an orifice to power a projectile
A valve system utilizes a main valve body with a restricted diameter conduit communicating between a propulsion chamber and rear cavity and a smaller venting valve mechanically actuated to open the rear cavity to atmosphere, thereby causing the main valve body to open to pass pressurized air in the propulsion chamber to an orifice to power a projectile.
F16K 1/12 - Lift valves, i.e. cut-off apparatus with closure members having at least a component of their opening and closing motion perpendicular to the closing faces with streamlined valve member around which the fluid flows when the valve is opened
F16K 31/383 - Operating meansReleasing devices actuated by fluid in which fluid from the conduit is constantly supplied to the fluid motor in which the fluid works directly on both sides of the fluid motor, one side being connected by means of a restricted passage and the motor being actuated by operating a discharge from that side the fluid acting on a piston
29.
Cocking and loading apparatus for repeater air rifle
A cocking and loading system for an air rifle utilizes a movable compression cylinder linked to the cocking arm to urge a piston into a cocked position, wherein the compression cylinder returns to a rest position urging a pellet feed tube through a magazine to load a pellet into the barrel.
F41B 11/642 - Compressed-gas guns, e.g. air gunsSteam guns characterised by the supply of compressed gas having a piston effecting a compressor stroke during the firing of each shot the piston being spring operated
F41B 11/54 - Magazines for compressed-gas gunsArrangements for feeding or loading projectiles from magazines the projectiles being stored in a rotating drum magazine
F41B 11/50 - Magazines for compressed-gas gunsArrangements for feeding or loading projectiles from magazines
F41B 11/647 - Arrangements for putting the spring under tension by a rocker lever
30.
Cocking and loading apparatus for repeater air rifle
A cocking and loading system for an air rifle utilizes a movable compression cylinder linked to the cocking arm to urge a piston into a cocked position, wherein the compression cylinder returns to a rest position urging a pellet feed tube through a magazine to load a pellet into the barrel.
F41B 11/642 - Compressed-gas guns, e.g. air gunsSteam guns characterised by the supply of compressed gas having a piston effecting a compressor stroke during the firing of each shot the piston being spring operated
F41B 11/54 - Magazines for compressed-gas gunsArrangements for feeding or loading projectiles from magazines the projectiles being stored in a rotating drum magazine
F41B 11/50 - Magazines for compressed-gas gunsArrangements for feeding or loading projectiles from magazines
F41B 11/683 - Pumping or compressor arrangements therefor operated by a rocker-lever system
Methods and systems for aligning a point of aim with a point of impact for a projectile device are disclosed. Using a superposition device coupled to the projectile device, at least one optical reference point is superposed within a first target area. The point of impact is created on a second target area using a projectile expelled from the projectile device towards the second target area. The point of aim for the projectile device is aligned with the point of impact while the position of the at least one optical reference point is maintained. Parallax is eliminated (or minimized) by aligning a primary and a secondary sight alignment indicator with each other and with a common optical axis extending through a scope configured to be coupled with the projectile device.
Methods and systems for aligning a point of aim with a point of impact for a projectile device are disclosed. Using a superposition device coupled to the projectile device, at least one optical reference point is superposed within a first target area with at least one beam from the superposition device. A position of at least one of the optical reference points is noted. A projectile is expelled from the projectile device at a second target area, while the position of the at least one optical reference point is maintained, to create the point of impact. The point of aim for the projectile device is adjusted to align with the point of impact while the position of the at least one optical reference point is maintained.
Methods and systems for aligning a point of aim with a point of impact for a projectile device are disclosed. Using a superposition device coupled to the projectile device, at least one optical reference point is superposed within a first target area with at least one beam from the superposition device. A position of at least one of the optical reference points is noted. A projectile is expelled from the projectile device at a second target area, while the position of the at least one optical reference point is maintained, to create the point of impact. The point of aim for the projectile device is adjusted to align with the point of impact while the position of the at least one optical reference point is maintained.
A method of aligning a point of aim with a point of impact for a projectile device is disclosed. Using a superposition device coupled to the projectile device, at least three reference points are superposed within a first target area with at least three diverging beams of the superposition device. Positions for at least three of the reference points are noted. A projectile is shot from the projectile device at a second target area, while the positions of the at least three reference points are maintained, to create the point of impact. The point of aim for the projectile device is adjusted to correspond with the point of impact while the positions of the at least three reference points are maintained. A system for aligning a point of aim with a point of impact for a projectile device is also disclosed.
An accessory for coupling to a conventional rifle scope captures sight images through the scope and transmits them through wi-fi to a remote location. The telescopic sight eyepiece is fitted into the front of a tubular portion of the accessory. An adjustable collet nut threadably and coaxially engages the scope eyelet. The scope image is transmitted through the housing from the front to a rear eyepiece through which the user can view images. The image passes through an optical splitter that directs duplicate images to an adjustable camera mounted on a slidable carriage disposed within the housing. A rack and pinion driven by a thumb wheel accessible from the housing exterior displaces the carriage for focusing. Processed camera images are delivered to a wi-fi circuit to transmit images to a remote Smart-phone, equipped with a suitable software program (i.e., an “app”) for decoding the images and recording snapshots and movies.
F41G 1/38 - Telescopic sights specially adapted for smallarms or ordnanceSupports or mountings therefor
G03B 29/00 - Combinations of cameras, projectors or photographic printing apparatus with non-photographic non-optical apparatus, e.g. clocks or weaponsCameras having the shape of other objects
A method of aligning a point of aim with a point of impact for a projectile device is disclosed. Using a superposition device coupled to the projectile device, at least three reference points are superposed within a first target area with at least three diverging beams of the superposition device. Positions for at least three of the reference points are noted. A projectile is shot from the projectile device at a second target area, while the positions of the at least three reference points are maintained, to create the point of impact. The point of aim for the projectile device is adjusted to correspond with the point of impact while the positions of the at least three reference points are maintained. A system for aligning a point of aim with a point of impact for a projectile device is also disclosed.
A method of aligning a point of aim with a point of impact for a projectile device is disclosed. Using a superposition device coupled to the projectile device, at least one reference point is superposed within a first target area with at least one beam of the superposition device. A position for at least one of the reference points is noted. A projectile is shot from the projectile device at a second target area, while the position of the at least one reference point is maintained, to create the point of impact. The point of aim for the projectile device is adjusted to correspond with the point of impact while the position of the at least one reference points is maintained.
09 - Scientific and electric apparatus and instruments
Goods & Services
Airgun accessories, namely, [ collimators, ] laser bore sighters, bore sighters, gun alignment sighters, sighters to align the bore of a gun with a sighting device; Firearm accessories, namely, collimators, laser bore sighters, bore sighters, gun alignment sighters, sighters to align the bore of a gun with a sighting device; Shooting accessories, namely, collimators, laser bore sighters, bore sighters, gun alignment sighters, sighters to align the bore of a gun with a sighting device
45.
Method and system for aligning a point of aim with a point of impact for a projectile device
A method of aligning a point of aim with a point of impact for a projectile device is disclosed. Using at least one superposition device coupled to the projectile device, multiple optical reference points are superposed within a first target area. Positions for at least two of the optical reference points are noted. A projectile is shot from the projectile device at a second target area, while the positions of the at least two optical reference points are maintained, to create the point of impact. The point of aim for the projectile device is adjusted to correspond with the point of impact while the positions of the at least two optical reference points are maintained. A system for aligning a point of aim with a point of impact for a projectile device is also disclosed.
