| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 81 | Explosive training device | US11111247 | 2005-04-20 | US20060236889A1 | 2006-10-26 | Brett Bodley; Andre Baritelle; Kyle Riebold |
| An explosive training device is described and which includes a main body defining an internal cavity, and wherein a plurality of elongated channels extend through the main body and communicate with the internal cavity; and an explosive charge is received within the cavity of the main body, and which, when detonated, produces sound and visibly discernible light, and wherein a preponderance of the visibly discernible light, and sound produced by the detonation of the explosive charge escapes from the main body through the plurality of elongated channels. | ||||||
| 82 | Gas projection device sometimes with a burst disk, producing loud sonic report and smoke plume | US11109401 | 2005-04-19 | US20060233050A1 | 2006-10-19 | John Unsworth; Kenneth Hammond |
| Gas Projection Device that can take many external forms that simulate military munitions being exploded and that contain features that enhance the sound of the explosion and the appearance of smoke and attendant percussion. Such device can be controlled by many different means including electronic remote control. | ||||||
| 83 | Environmentally-friendly training hand grenade and manufacturing method of the same | US10818297 | 2004-04-05 | US07040236B2 | 2006-05-09 | Se-Hong Oh |
| Disclosed is an environmentally-friendly training hand grenade and a method of manufacturing the same. The training hand grenade is advantageous in that it is not necessary to recover fragments, generated by the explosion of the training hand grenade after use, because a bomb body of the training hand grenade is made of naturally degradable mineral matters, such as barite, tungsten, silica, and yellow earth, thereby many soldiers may be trained for a relatively short time using the training hand grenade. Furthermore, the training hand grenade is made of environmentally-friendly materials, and thus, its use is conducted without causing pollution. In addition, the training hand grenade is made of the mineral matters, thereby ensuring high explosiveness and explosive sound effect when the training hand grenade is exploded, and preventing soldiers from being injured by the fragments in use. Moreover, the training hand grenade has almost the same weight as a hand grenade for live battle, leading to the simplification of the manufacture of the training hand-grenade to improve productivity. Accordingly, the manufacturing costs of the training hand grenade are largely reduced, which contributes to reducing prices of the training hand grenade. | ||||||
| 84 | Diversionary device | US11236378 | 2005-09-27 | US20060081147A1 | 2006-04-20 | Robert Walsh |
| A diversion device capable of generating a disorientating flash and a disorientating sound without an explosion has a housing with a cavity containing an inert gas, a piston and a powder. The powder creates the flash via ignition after exiting the device. The device also includes a mechanism configured to ensure the powder encompasses the device upon exit and does is not dispersed in a substantially horizontal plane. In addition, the device may include devices capable of creating a disorientating sound as the inert gas escapes the device. | ||||||
| 85 | Explosion simulator | US10370467 | 2003-02-24 | US20040200374A1 | 2004-10-14 | Arie Sansolo |
| An explosion simulator including a chamber at least partially filled with a pyrotechnic material, the chamber being formed with a plurality of holes arranged for fluid products of an explosion of the pyrotechnic material to pass therethrough, and a delaying detonator adapted to detonate the pyrotechnic material, the detonator being adapted to delay onset of the explosion of the pyrotechnic material a period of time after actuation of the detonator. | ||||||
| 86 | Liquid colorant spray device | US10443260 | 2003-05-23 | US20040127311A1 | 2004-07-01 | Nathan Randall Brock |
| A non-lethal hand held liquid spray paint grenade utilizing a single, curved, and uninterrupted reservoir design, expandable and permanently sealed on one end with a crimping device of sufficient strength to close the single tube channel and maintain a liquid tight seal. The device consists of a spherical neck plug, and neck plug safety retainer, which allows filling to be completed through a fully assembled unit thus eliminating the difficult task of trying to seal and cap a pressurized grenade. The present invention utilizes a single curved tube with a single discharge opening to create a circular self-propelling motion. This forces the discharging grenade to make multiple rotations in its impact area, thus decreasing the targets ability to remain unmarked. To operate, remove safety plug retainer ring by pulling attached removing device and throw at target. When the grenade impacts an object with sufficient force the neck plug is dislodged and expelled from the neck by the pressurized colorant escaping the reservoir. The energy generated from the impact causes the grenade to bounce up in the air while the force of its pressurized discharge keeps the grenade airborne and spinning thought its entire discharge, greatly increasing its colorant marking area. | ||||||
| 87 | Cartridge format delay igniter | US09514258 | 2000-02-28 | US06470806B1 | 2002-10-29 | Kenneth R. Murray |
| A training device for simulating the action of stun grenades and the like is provided by combining a delay cartridge with a conversion fitting that installs in a grenade body. A firing assembly fitted to the grenade body over the delay cartridge is percussively initiated through release of a hammer to activate a primer located on the end of the cartridge. The cartridge contains a delay-burning compound that subsequently activates a pyrotechnic charge. A suitable application is for training in the use of flash/bang training devices or “stun” grenades. | ||||||
| 88 | Paint ball grenade | US09707039 | 2000-11-06 | US06453819B1 | 2002-09-24 | Paul R. Coates |
| A paint ball grenade includes a base having a chamber for holding a compressed gas, an outer housing mounted on the base, the outer housing including guides through which fluid communication is provided between an interior and exterior of the outer housing, each guide releasably holding a paint ball, a valve arrangement for blocking fluid communication between the chamber and the interior of the housing in a first position and for permitting fluid communication between the chamber and the interior of the housing in a second position, an actuator for opening the valve arrangement to provide fluid communication between the chamber and the interior of the housing to eject the paint balls from the guides, and a reed valve separately associated with each guide for substantially preventing further supply of the compressed gas through each guide after the paint ball therein has been ejected. | ||||||
| 89 | Training grenade for multiple integrated laser engagement system | US18675 | 1998-02-04 | US06065404A | 2000-05-23 | Allen E. Ripingill, Jr.; Larry W. Lind |
| A re-usable simulated grenade is provided that may be utilized by soldiers training with a multiple integrated laser engagement system (MILES). The simulated grenade includes a central core having a blast chamber that contains a non-lethal quantity of an explosive detonated by a manually actuatable detonator mechanism. The core has a plurality of omni-directional passages containing a filer which is ejected to simulate the blast pattern of an actual grenade. A plurality of transducers such as infrared LED's, acoustic transducers or RF transducers are located on the core for emitting signals detectable by a plurality of sensors worn by a player within a predetermined proximity of the simulated grenade. A circuit including a pressure sensitive switch is located in the core and is connected to the transducers for energizing the same when the explosive is detonated. A player identification code (PID) is encoded onto the signals emitted by the transducers. Signal intensity levels are varied in a timed sequence upon detonation to create kill and near miss (wounded) zones. After creating the kill and near miss zones, the circuit causes the transducers to emit an intermittent pulse to thereby facilitate location and recovery of the training grenade for recharging with explosive and filler and subsequent re-use. | ||||||
| 90 | Distraction device | US751219 | 1996-11-15 | US5824945A | 1998-10-20 | Stanley J. Barlog; Michael C. Magenot; Wilburn C. Roberts |
| A distraction device having a fuse assembly and a body which body has a sealed storage area for energetic pyrotechnic material. The device when operated produces noise and light without ejecta or forces of propulsion. | ||||||
| 91 | Explosive simulator | US79472 | 1993-06-21 | US5351623A | 1994-10-04 | Robert P. Kissel; Eric P. Johnson; Alan L. Gehl |
| A device is provided which safely simulates the loud noise and bright flash of light of an explosion. This device consists of an ordnance case which encloses a battery, an electronic control module, a charging circuit board, a bridge head, and a shock tube dusted with aluminum and an explosive. The electronic control module provides a time delay between initial activation of the device and the time when the device is ready to create a shock wave. Further, this electronic control module provides a central control for the electronics in the simulator. The charging circuit board uses the battery to charge a capacitor. Passing the voltage stored in the capacitor through the wires of the bridge head causes the explosive and the aluminum in the shock tube to react. This reaction produces a loud noise and bright white flash of light which simulates an explosion. | ||||||
| 92 | Toy hand grenade apparatus | US842268 | 1992-02-27 | US5240450A | 1993-08-31 | David B. Graham |
| A toy assembly includes an elongate body to receive a balloon member arranged for bursting upon a timed mechanism mounted within an upper tube portion of the body projected into the body and piercing the balloon after a predetermined interval. A modification of the invention includes a medial web directed medially and orthogonally relative to the body axis dividing the body into an upper and lower body cavity receiving an upper and lower balloon therewithin, with a lower balloon arranged for bursting upon impact by the piercing member mounted resiliently within a lower end of the lower body aligned with the axis. | ||||||
| 93 | Paint dispersing training grenade | US246775 | 1988-09-20 | US5018449A | 1991-05-28 | Edward W. Eidson, II |
| A paint dispersing training grenade includes a grenade body having dispersing passages extending between a central bore and an external surface of the grenade body, a plug threadedly received in one end of the bore, a piston resiliently urged by a spring toward the plug, a rupturable colorant containing capsule positioned between the piston and the plug, a separable release lever releasably pivotal on the grenade body and engaged with an abutment disk on a shaft extending from the piston, and an inertial delay mechanism engaged between the grenade body and the piston. The delay mechanism includes pivotable delay levers engaged with the piston at one end and having wheels rollably engaging a surface of the grenade body at another end. When the release lever is separated, movement of the piston by the spring is resisted by startup inertia of the wheels in rotating. When the inertia is overcome, the piston forceably ruptures the capsule and propels the colorant out of the grenade body through the dispersion passages. | ||||||
| 94 | Reloadable stun grenade | US369303 | 1989-06-21 | US4932328A | 1990-06-12 | Barry D. Pinkney; Donald L. Anderson |
| Stun grenade includes a steel housing having a steel tubular body with steel end members brazed to the ends of the tubular body, and a brass collar member threadably received in a threaded central opening in one of the end members for supporting an explosive charge in the housing. At the inner end of the collar member is a cylindrical portion to which a tubular container filled with the explosive charge is attached. The outer diameter of the tubular container is less than the minimum diameter of the threaded opening in the one end member to permit the tubular container to be inserted through the threaded opening while attached to the collar member. At the outer end of the collar member is a threaded recess for threaded receipt of a fuse member externally of the housing. A flash hole in the collar member directs a flash which is produced when the fuse member is activated into the tubular container to ignite the explosive charge. | ||||||
| 95 | Simulated war game weapon | US773442 | 1985-09-06 | US4684137A | 1987-08-04 | Leon N. Armer, Jr.; Joseph M. Antonio; Craig A. Roth; James R. VerWeire |
| A weapon for use in simulated war games, such weapon being particularly usable in situations where targets or opposing pesonnel are out of a direct line of sight or where weapon use in a conventional manner would be otherwise dangerous and should be avoided. Such weapon includes a frangible chamber and a slurry contained within such chamber. The slurry contains a dispersing agent and a plurality of particles serving as a marking agent. Further, a storage container is provided for receiving the slurry-containing frangible chamber to protect the chamber from accidental rupture. In use, the slurry-containing chamber is removed from the container and delivered toward the target by being manually tossed in an arcuate path to strike a target or the vicinity thereof. On striking such target, or its vicinity, the frangible chamber ruptures and the dispersing agent disperses the marking particles against such target thereby identifying the target as being eliminated from the game. As such the weapon emulates a manually deliverable grenade. | ||||||
| 96 | Toy hand grenade | US47296174 | 1974-05-24 | US3878639A | 1975-04-22 | SCHEELAR LORNE J; MCGEORGE LINDA ANN |
| A toy hand grenade resembling in external configuration and size an actual grenade has an internal compartment filled with a pressurized liquid and a pin which upon contacting the ground releases the liquid as a spray. A pivoted member is provided which is used to unlock a valve just prior to throwing the grenade. A weighted bottom is provided and an actuating lever at the bottom opens the valve to release the liquid. The liquid may contain a dye.
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| 97 | Protective exploratory projectile for law enforcement maneuvers | US3596078D | 1969-07-09 | US3596078A | 1971-07-27 | OWENS JOHN C |
| A protective exploratory signalling projectile adapted to be manually thrown within a darkened area from one location to another during law enforcement maneuvers. The projectile is provided with a light source, means for supplying energy to the source, trigger means operable to control the energy supply to the source, and time delay means for postponing the energy supply for a time interval immediately following the operation of the trigger whereby the triggered projectile may be thrown without illuminating the location of the party throwing it.
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| 98 | Explosive engine | US83412559 | 1959-08-17 | US3103171A | 1963-09-10 | LEONARD JANS |
| 99 | Life-conserving grenade | US44880821 | 1921-03-01 | US1539609A | 1925-05-26 | TAYLOR WILFRED J |
| 100 | FIRING MECHANISM FOR A GRENADE, A GRENADE AND A METHOD OF OPERATING A GRENADE | EP16736554.3 | 2016-06-06 | EP3311103A1 | 2018-04-25 | THOMAS, Duncan |
| A grenade firing mechanism (12) includes a body (24) containing a firing pin (20) and a tiring pin actuator mechanism (22). A safety system includes twist to arm collar (70) and a safety interlock (92). The collar is movable between an unarmed position and an armed position and tire safety interlock is movable between a collar locking position, a collar release position and a firing position. When the collar (70) is in the unarmed position and the safety interlock (92) is in the collar locking position, actuation of the firing pin (20) is inhibited and the safety interlock (92) inhibits movement of the collar to the armed position. When, the safety interlock (92) is in the collar release position, the collar (70) is able to be moved between said unarmed and armed positions and actuation of the firing pin is inhibited. When the collar (70) is in the armed position and the -safety interlock (92) is in the firing position, actuation of the firing pin is enabled. | ||||||
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