| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 181 | Initiator systems | US56155066 | 1966-06-29 | US3358601A | 1967-12-19 | DITTMANN DAVID J; DRISCOLL HIRAM E; GRAHAM DONALD P |
| 182 | 一种用于销毁系统的装载设备及销毁系统 | CN201590000295.0 | 2015-02-05 | CN206073823U | 2017-04-05 | 费雷德里克·奥尔森 |
| 本实用新型涉及一种用于销毁系统的装载设备,配置为弹药、小型武器和其相关的材料的销毁,并且提供了军需品装载到销毁系统腔内周围安全性提高的优点。装载设备包括倾斜角度的运输管。配置为接收军需品的送料摇架可旋转连接至运输管,并且可以通过送料摇架开口向上旋转到所述运输管内。机械连接至送料摇架并且调适于关闭送料摇架开口的封闭板,随着送料摇架向上旋转自动化地移动以打开送料摇架开口。运输管可拆卸地连接至销毁系统的腔室的输入管道。 | ||||||
| 183 | 多功能球形防爆罐 | CN200920102034.6 | 2009-03-21 | CN201463763U | 2010-05-12 | 陈金城 |
| 本实用新型涉及一种防爆设备,具体地说是一种适用于公安、武警、军工企业等部门转运、储存爆炸物和生化物的多功能球形防爆罐。它包括球形罐体、罐口和内旋转开闭的罐盖,罐盖上设有推拉臂,推拉臂连接有摆臂,摆臂的另一端与气缸连接,摆臂的下方与罐体上的支座铰支,此处还安装有锁定器,罐体前方还有控制箱,控制箱内下部安装有储能器,控制箱上部安装有换向阀,储能器通过管路与换向阀和气缸相连接,操作换向阀通过气缸动作摆臂和推拉臂可以打开或关闭罐盖。本实用新型采用气动开闭罐盖,所以在无电源的情况下可以工作,还可以在五十米以外操作,实现不用任何电器达到远程控制的目的,所以安全性高。由于增加了降噪蓄气箱,它可以处理生化武器和有毒气体,用途广泛。 | ||||||
| 184 | Sorbent and Devices for Capturing, Stabilizing and Recovering Volatile and Semi-volatile Compounds | US16224049 | 2018-12-18 | US20190184370A1 | 2019-06-20 | Shoaib F. SHAIKH; Allen W. APBLETT; Nicholas F. MATERER; Evgueni KADOSSOV |
| The present invention provides an improved sorbent and corresponding device(s) and uses thereof for the capture and stabilization of volatile organic compounds (VOC) or semi-volatile organic compounds (SVOC) from a gaseous atmosphere. The sorbent is capable of rapid and high uptake of one or more compounds and provides quantitative release (recovery) of the compound(s) when exposed to elevated temperature and/or organic solvent. Uses of particular improved grades of mesoporous silica are disclosed. | ||||||
| 185 | Apparatus and Method to Render Air Bag Inflators and Other Low Level Detonatable Devices Inert for Recycling | US16033336 | 2018-07-12 | US20190017796A1 | 2019-01-17 | Paul T. Whiting |
| Detonable devices such as charged air bag inflators are fed to a shred tower at a controlled feed rate via a feed valve. Water spray and/or water baths in the shred tower prevent sparking and begin to solubilize chemicals while the inflators are fed to primary and optional secondary shredders respectively performing course and fine shreds. A sump receives the shredded material which continues to solubilize and separate chemicals from metal. A conveyor lifts solids from the sump. Dewatered solids are fed to a receiving box for metal scrap recycling. | ||||||
| 186 | Abrasive entrainment waterjet cutting | US15684124 | 2017-08-23 | US10077966B2 | 2018-09-18 | Paul L. Miller |
| The use of abrasive entrainment waterjet technology to cut improvised hazardous devices, such as improvised explosive devices (IEDs), located above or below ground. Abrasive is conducted to an entrainment abrasive waterjet cutting head under the control of an abrasive feed and metering system that monitors the flow rate of abrasive. | ||||||
| 187 | System, connector and method for providing environmentally degradable electronic components | US14180800 | 2014-02-14 | US10074925B1 | 2018-09-11 | Toby D. Thomas; Caleb Santiago |
| A connector including a biodegradable base material and a biodegradable binder material, comprising at least one of a protein and a residue, configured to hold together the base material to form a biodegradable connector element. The biodegradable connector element affects an operational condition of an apparatus the biodegradable connector element is used within. Degradation of at least one of the biodegradable base material, the biodegradable binder, and the biodegradable connector element provides for a limited operational lifespan of the apparatus resulting in the apparatus becoming inoperable. A system is also disclosed. | ||||||
| 188 | Low impact threat rupture device for explosive ordnance disruptor | US15330137 | 2016-08-15 | US10066916B1 | 2018-09-04 | Ian Vabnick; Arthur Ellis; Joe Rothenberger; Chad Smith; Mike Sharp; Lee Foltz; Eric Morefield; Barry Black |
| An EOD disruptor system for penetrating steel encased explosive devices has a barrel and a blank cartridge loaded in the EOD disruptor. A water column is disposed in the barrel in front of the blank cartridge. A water plug is disposed in front of the water column. A muzzle-loaded projectile is disposed in front of the water plug. The projectile includes a shaft portion at least partially disposed in the barrel and a front portion disposed outside of the barrel. The shaft portion may have a length from about four inches to about eighteen inches. The projectile may have a weight from about four ounces to about two pounds. The ratio of the length of the shaft portion of the projectile to the inner barrel diameter may be in a range of about two to about 50. | ||||||
| 189 | Superdetonation devices and methods for making and using the same | US15084331 | 2016-03-29 | US09921042B1 | 2018-03-20 | Shawn D. McGrane |
| Disclosed herein are embodiments of devices comprising energetic materials capable of superdetonation and methods of making and using such devices. The devices disclosed herein comprise components, dimensions, and configurations optimized to utilize superdetonation velocities produced by the energetic materials disclosed herein. | ||||||
| 190 | Collapsible/inflatable explosive disruptor | US15731947 | 2017-08-30 | US09909834B1 | 2018-03-06 | Christopher Wilhelm; Angel Diaz; Lee Foltz; Daniel McCarthy |
| An explosive disruptor includes a first jacket having joined inflatable members. The inflatable members are adapted to be filled with a gas. A second jacket is surrounded by and coupled to the first jacket. The second jacket has an outer radial wall, an inner radial wall spaced apart from the outer radial wall, and two end walls coupled to opposing axial ends of the outer radial wall and the inner radial wall. A first volumetric region is defined between the outer radial wall, the inner radial wall, and the two end walls. A second volumetric region is defined by the inner radial wall. The first volumetric region is sealed and adapted to be filled with a liquid. An explosive material is disposed in the second volumetric region. A blasting cap is in contact with the explosive material. | ||||||
| 191 | Explosive container postioning saddle for munition demolition | US14756688 | 2015-09-30 | US09829296B1 | 2017-11-28 | Dennis Askin; Lee R Foltz; Angel Diaz |
| An explosive container positioning saddle for munition demolition includes a base having a first surface defined by a portion of a cylindrical shape with a longitudinal axis. The base includes a second surface opposing the first surface. Sleeves are coupled to the second surface of the base and extend away therefrom. Each of the sleeves has a longitudinal axis and is oriented such that the longitudinal axis associated therewith is aligned to intersect with the longitudinal axis of the cylindrical shape. | ||||||
| 192 | LAYERED MESH CONTAINERS FOR TRANSPORTING AND DISPOSING OF RECALLED AIRBAG INFLATORS | US15373052 | 2016-12-08 | US20170328695A1 | 2017-11-16 | John D. Keller |
| Embodiments described herein include layered mesh containers and methods for using the containers to safely transport and dispose of airbag inflators having ammonium-nitrate-based propellant. For example, a container is provided that can hold multiple airbag inflators and withstand up to 4 moles of matter being deployed from an inflator having ammonium-nitrate-based propellant. The container can contain the inflator and any shrapnel associated with the explosion while also venting gases expelled as a result of the explosion. Various container designs are provided, along with methods for using these containers. | ||||||
| 193 | BLAST-RESISTANT CONTAINER | US15314085 | 2015-03-23 | US20170219329A1 | 2017-08-03 | Fredrik OHLSON |
| The present invention relates to a blast-resistant container, and particularly to such a container configured to receive an explosive, an explosive-suspect item or a thereto related article for preventing or minimizing damage in the event an explosion occurs. Advantages with the invention includes for example an improved safety situation surrounding the process of handling potentially explosive devices, as the blast-resistant container may be made readily available for use in any situation where potentially dangerous objects may be presented. | ||||||
| 194 | Explosive matrix assembly | US15048773 | 2016-02-19 | US09718740B2 | 2017-08-01 | Jon K. Mitchell |
| A matrix assembly having a single detonating cord. Further, the matrix assembly has a first plurality of parallel portions of detonating cord arranged in a first plane and a second plurality of parallel portions of detonating cord arranged in a second plane, wherein each one of the second plurality of parallel portions intersects only one of the first plurality of parallel portions perpendicularly. Additionally, the matrix assembly has a plurality of open loops formed by the looping of the first plurality of parallel portions and the looping of the second plurality of parallel portions such that the open loops of the first plurality of parallel portions are geometrically symmetrical with the open loops of the second plurality of parallel portions. Further, the matrix assembly has two closed loops formed at opposing corners of the matrix assembly, the closed loops arranged geometrically symmetrical and formed from one of the first plurality of parallel portions and the second plurality of parallel portions. | ||||||
| 195 | Threat response signal inhibiting apparatus for radio frequency controlled devices and corresponding methods | US14713986 | 2015-05-15 | US09716566B2 | 2017-07-25 | Timothy Patrick Dunnigan |
| An apparatus (100) includes a canine harness (101) with a radio frequency inhibitor (400). A leash (1002) can serve as a control device (102). The leash can selectively mechanically couple to the canine harness and electrically couple an actuator (114) to the radio frequency inhibitor. When the actuator is actuated, the radio frequency inhibitor is to emit one or more radio frequency inhibition signals (405), which can include the emission of all programmed signals simultaneously. Radio frequency inhibitors can also be integrated into clothing or armor (1802), as well as equipment (1901). The radio frequency inhibitor can interrupt, suppress, or halt electronic detonation communications to an explosive device. | ||||||
| 196 | Transporting and disposing of recalled airbag inflators | US15360910 | 2016-11-23 | US09709370B1 | 2017-07-18 | John D. Keller |
| Embodiments described herein include systems and methods for safely transporting and disposing of airbag inflators. For example, a container is provided that can hold multiple airbag inflators and withstand inflator explosion resulting in failure of the metal inflator housing. The container can contain the inflator and any shrapnel associated with the explosion while also venting gases expelled as a result of the explosion. Various container designs are provided, along with methods for using these containers. | ||||||
| 197 | Set for positioning and aligning a disruptor for the deactivation of a target | US15046593 | 2016-02-18 | US09702663B2 | 2017-07-11 | Marc Rabec Le Gloahec |
| A set for dismantling a target includes a disruptor having a firing axis and a device for aligning and positioning the disruptor in a deactivation direction relative to the target. A firing sub-set includes a movable mounting having a movable carriage mounted thereon to which the disruptor is fastened and provided with components for adjustment translation and orientation relative to the mounting. A mirror is oriented rearward of the disruptor and fastened to the disruptor perpendicular to the firing axis and having a centering mark centered on that axis. A pointing sub-set includes a laser mounted thereto and adapted to emit beams along an aiming line coaxial with the deactivation direction. The pointing sub-set is behind the firing sub-set relative to a target such that the mirror intercepts the laser aiming line at its centering mark and the disrupter firing axis is coaxial with the laser aiming line. | ||||||
| 198 | Attachment/release device and assemblies and systems using same | US13825512 | 2011-08-15 | US09677866B2 | 2017-06-13 | Kim Perrin; Roy Jones |
| An impact initiated attachment device for attachment to a target, comprises a housing having a front face which abuts against the target in use, one or more fasteners, a drive mechanism for driving the fasteners(s) from a first position within the housing to a second position protruding from the front face of the housing, and a trigger mechanism for triggering activation of the drive mechanism comprising a trigger extending from the front face of the housing. The device is particularly useful in Explosive Ordnance Disposal (EOD) and demolition for attaching one or more disrupters to a target for disposal. | ||||||
| 199 | Loading arrangement for a destruction system | US15109178 | 2015-02-05 | US09664490B2 | 2017-05-30 | Fredrik Ohlson |
| The present invention relates to a loading arrangement for a destruction system configured for destruction of ammunition, small arms and thereto related material, and provides the advantage of improved safety surrounding loading of munitions into a chamber of the destruction system. The loading arrangement comprises a transportation duct at an inclined angle. A cradle configured to receive the munitions is pivotably attached to the transportation duct and can be pivoted upwards into the transportation duct through a cradle opening. A closure plate mechanically linked to the cradle and adapted to close the cradle opening is automatically moved as the cradle pivots upwards so as to open the cradle opening. The transportation duct can be releasably connected to an input duct of the chamber of the destruction system. | ||||||
| 200 | Munitions storage container with disabling device for single-use weapon stored therein | US14038061 | 2013-09-26 | US09618293B1 | 2017-04-11 | Leon Moy; Daniel Ruland; Edward Yang; Jacek Foltynski |
| A munitions disabling device is disposed in a storage container proximate the muzzle of a single-use weapon. A projectile having a fused warhead is loaded in the weapon prior to storing the weapon. If an unplanned stimulus launches the projectile while the weapon is in the storage container, the projectile will impact or strike the disabling device. The disabling device prevents detonation or explosion of the warhead. | ||||||
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