子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 21 | Incendiary article | US38755341 | 1941-04-09 | US2558726A | 1951-07-03 | BARKER MAURICE E |
| 22 | Mine | US57572545 | 1945-02-01 | US2555318A | 1951-06-05 | CHRISTENSEN PAUL L |
| 23 | Land torpedo | US25581818 | 1918-09-26 | US1407969A | 1922-02-28 | WICKERSHAM ELMER E |
| 24 | Land-mine and the system of exploding the same | US1333900D | US1333900A | 1920-03-16 | ||
| 25 | AREA DENIAL COMMUNICATION LATENCY COMPENSATION | US15838213 | 2017-12-11 | US20180167132A1 | 2018-06-14 | Michael J. BALK; Larry G. LINDE |
| An area denial system may be operationally placed with communication latency compensation. The area denial system may include a plurality of munitions, one or more sensor devices, and a command and control unit, networked together and having a command and control latency for communication between the command and control unit and the remainder of the area denial system. Latency compensation may include determining a first target position, determining a first predicted position area for the target using the command and control latency and the first target position, receiving an authorization to arm one or more of the munitions, determining a second target position, and determining that the second target position is outside a threshold distance from a first authorized munition of the one or more authorized munitions, and in response, de-authorizing the first authorized munition. | ||||||
| 26 | Human identification detection system | US13428543 | 2012-03-23 | US09080842B2 | 2015-07-14 | Lennie Mitchell |
| The invention provides a system, device and method designed to detect, alert and identify unwanted entry into areas by intruders. The invention is also designed to prevent escape from secured facilities. If escape from such a secured facility is realized, the system will identify and mark the intruder or escapee for immediate or later capture by local and or federal law enforcement authorities. The system will accomplish this by mechanical, electronic and chemical means. The system is also designed to be a territory denial system. Although the system will accomplish its means by clandestine deployment, the unseen but known presence of the device will cause a profound psychological block to any would be intruder to a given area that it is deployed in. The devices are deployed below ground just below the surface as a non-lethal landmine and subterranean several feet below ground as an anti-tunneling device. | ||||||
| 27 | Non-lethal restraint device with diverse deployability applications | US12901130 | 2010-10-08 | US08757039B2 | 2014-06-24 | Martin A. Martinez; Patrick Barnhill; Steven A. Floyd |
| An immobilization device and method of restraining vehicles, persons and animals uses tendrils attached to various devices to engage the target. The immobilization device, system and method includes a housing containing launchable tendrils that are launched from the housing by a propellant. The tendrils may be attached to straps or other elements carried by the immobilization device. The tendrils will engage the target and restrain it if it is a vehicle such as a car, truck, boat, submarine, or like vehicle. In stopping a person or animal the tendrils will deliver a marking package, a shocking package or a snare package to mark, shock or snare the target. Straps may be pulled off the housing leaving the housing near the point of deployment. | ||||||
| 28 | INTELLIGENT MINE DEVICES AND METHOD FOR OPERATING SAME | US14016695 | 2013-09-03 | US20140060371A1 | 2014-03-06 | Do Hyun KIM; Jaejun Yoo; Jong-Hyun Park; Kyong Ho Kim |
| An intelligent mine device includes a detection unit configured to detect an approach of a target object. The device includes an analysis processing unit configured to radio-communicate with the target object to perform identification of friend or foe against the target object. The device a blasting unit configured to blast the intelligent mine device when the analysis processing unit identifies the target object as the foe. | ||||||
| 29 | Aquatic restraint device | US13507815 | 2012-07-31 | US20130291710A1 | 2013-11-07 | Martin A. Martinez; Patrick J. Barnhill; Steven A. Floyd |
| A restraining device for use in a water environment includes a plurality of tendrils that can be launched from a submerged device when an unauthorized swimmer is proximate the restraining device. Data communication in a neural-network of restraining devices is facilitated by a central command that has the capability of directing restraining devices, normally, aquatic mines, to a target. | ||||||
| 30 | Human Identification Detection System | US13428543 | 2012-03-23 | US20130068122A1 | 2013-03-21 | Lennie Mitchell |
| The invention provides a system, device and method designed to detect, alert and identify unwanted entry into areas by intruders. The invention is also designed to prevent escape from secured facilities. If escape from such a secured facility is realized, the system will identify and mark the intruder or escapee for immediate or later capture by local and or federal law enforcement authorities. The system will accomplish this by mechanical, electronic and chemical means. The system is also designed to be a territory denial system. Although the system will accomplish its means by clandestine deployment, the unseen but known presence of the device will cause a profound psychological block to any would be intruder to a given area that it is deployed in. The devices are deployed below ground just below the surface as a non-lethal landmine and subterranean several feet below ground as an anti-tunneling device. | ||||||
| 31 | Non-lethal restraint device with diverse deployability applications | US12185947 | 2008-08-05 | US07882775B2 | 2011-02-08 | Martin A. Martinez; Patrick J. Barnhill; Steven A. Floyd |
| An immobilization device and method of restraining vehicles, persons and animals uses tendrils attached to various devices to engage the target. The immobilization device, system and method includes a housing containing launchable tendrils that are launched from the housing by a propellant. The tendrils may be attached to straps or other elements carried by the immobilization device. The tendrils will engage the target and restrain it if it is a vehicle such as a car, truck, boat, submarine, or like vehicle. In stopping a person or animal the tendrils will deliver a marking package, a shocking package or a snare package to mark, shock or snare the target. Straps may be pulled off the housing leaving the housing near the point of deployment. | ||||||
| 32 | Dynamic barrier system | US11308288 | 2006-03-15 | US07752952B1 | 2010-07-13 | Myron Hohil; Victor N. Kokodis; Mark Mellini; Brian Peltzer; Anthony Sebasto |
| A dynamic barrier system including a number of sensors that monitor a barrier area to determine specific types of objects approaching, within, or exiting the barrier area. Depending upon the type of object(s), the dynamic barrier system initiates an appropriate action, both lethal and non-lethal. The barrier system may advantageously deactivate after its intended period of operation eliminating difficult and/or dangerous removal. | ||||||
| 33 | Guided missile | US932227 | 1986-11-18 | US4715283A | 1987-12-29 | William C. Yengst |
| A guided missile is directed to railroad tracks, is buried a particular distance, such as five (5) feet, below the tracks upon reaching the tracks and is covered by rocks in the railroad bed as it moves the particular distance below the tracks. The guided missile detonates when the train approaches on the tracks within a particular distance from the guided missile on the tracks. The train then becomes derailed. The guided missile has a housing which is made from a strong metal and which is relatively thick. Preferably the metal is steel and has a thickness of about 0.2". A nose cone having a blunt configuration is disposed on the housing at the front end of the housing and is made from a material which passes signals into and out of the housing. The material is compressible (e.g. fiberglass, a ceramic or a glass) to become flattened when the missile strikes the ground. A bulkhead preferably having a greater thickness than the housing is disposed in the housing at an intermediate position along the housing length. The bulkhead may be made from the same material as the housing. A seeker including an antenna is disposed in the housing between the nose cone and the bulkhead to transmit signals to the tracks and receive information from the tracks. A warhead is disposed within the housing on the opposite side of the bulkhead from the nose cone. A fuse is disposed within the housing at the rear of the housing to detonate the warhead when the train approaches the missile on the tracks. | ||||||
| 34 | Terrain-following transient surface contact vehicle | US505809 | 1983-06-20 | US4505441A | 1985-03-19 | Jerome Kirsch; M. Alan Kopsco; Edward Markow; Michael Sturm |
| A terrain-following transient surface contact vehicle for transporting a load from a surface starting point to a surface end point has a structure for carrying the load from the starting point to the end point. A vehicle support extends from the structure and abuts the surface and thereby supports the vehicle at a predetermined distance above the surface. An acquisition sensor mounted on the structure initiates surface operations. A sensor is mounted on the structure and cooperates with the acquisition sensor to sense and track a target at the end point upon initiation of surface operations. A power source is mounted on the structure and cooperates with the sensor to energize upon tracking of the target and to move the vehicle along the surface to impact with the target at the end point. A position control mounted on the vehicle produces a negative pitching moment to maintain the structure in terrain-following contact with the surface. | ||||||
| 35 | Controlled depth of burial penetrator | US765028 | 1977-02-02 | US4090446A | 1978-05-23 | Thomas A. Tomasetti |
| A controlled depth of burial penetrator having a front and rear section. These sections are secured together with the leading edge or nose of the rear section being at approximately 45.degree. with respect to a line drawn along the longitudinal axis of the penetrator. The front section contains a separating charge which at a predetermined time after impact separates the front and rear sections. Subsequently the rear section is thrust off in a direction different from said first section thereby effecting its controlled depth of penetration within the earth. | ||||||
| 36 | Gravity deployed mine with combined upper clearing charge firing and delayed main charge initiation | US627176 | 1975-10-30 | US4030418A | 1977-06-21 | Norman Regber; Ferdinando V. Dukic; Frank Diorio |
| A double-ended mine, adapted to be carried by a projectile, deployed by gity, and come to rest on either end, comprises: a housing having two end walls and a connecting side wall; an annular main high explosive charge, lined on each end with a concave missile plate, in the housing; a clearing charge located between the main charge and each end wall; a fuze body mounted in the annular charge; an arming slider slidable in an axial channel in the body between safe and armed positions; a slider spring; two spin-released bolts in the body for locking the slider in safe position prior to projectile launch; a spring-biased pin for preventing rotation of the slider and for locking the slider in armed position; an electrical fast-fire detonator mounted in a first radial channel in the body; a first explosive lead mounted in a transverse passage in the slider in alignment with the detonator in armed position; a mechanical gravity-controlled switch and two combustible cords connecting the first explosive lead with the clearing charges; an electrical delay detonator mounted in a second radial channel in the fuze body; four radial channels in the slider aligned with four radial channels through the fuze body, an axial passage connecting the delay detonator to the aligned channels, in the armed position of the slider, and explosive leads in the aligned channels and axial passage, for initiating the main charge; and terminals for simultaneously applying an electrical firing signal from a proximity fuze to the two detonators, to first initiate the upper clearing charge only and thereby remove the upper end wall only and, after a predetermined delay time, initiate the main charge.In a modification, the radial delay detonator is replaced by an axial delay element connected between the first explosive lead and the aligned radial channels and leads. | ||||||
| 37 | Detonator for land mines | US55663766 | 1966-06-10 | US3411445A | 1968-11-19 | PAUL MADLENER; JOSEF MULLER; OTTO PECKSEN |
| 1,176,352. Land mines. INDUSTRIEWERKE KARLSRUHE, A.G. 9 Feb., 1967 [16 April, 1966], No. 6267/67. Addition to 1,005,388. Heading F3A. The land - mine of parent Specification 1,005,388 is modified by a cover member 3 having a spherical surface 51 with a centre of curvature which lies above the mine body, or in an upper part thereof, and which is supported by an annular member with an upper web 52a, having a conical surface supporting the surface 51 of the cover member, a cylindrical web 52c forming an axially directed guide, and a web 52b disposed between the webs 52a and 52c, and having a lower conical surface supported by a spherical surface 53 of an annular elastic buffer member 54, having a centre of curvature below the mine or in a lower part thereof. The web 52c is guided on a fuse receiver member 55 which is connected to the mine casing by rivets 56. The material of the spherical surfaces 51 and 53 is harder than that of the webs 52a and 52b, so that when the cover member is subjected to heavy loading its freedom of movement is ensured. The edge 52bk of the web 52b can abut an edge 52k of the member 55, and act as a shock absorber. A fuse is retained in the member 55 by springs 60. An arming device comprises lugs 67 which project above a cover 62 and entered from a rotatable ring 66 having recesses 68 into which pins 64 can move to release a slider 63 and allow it to be moved towards the fuse by a spring 69. An opening in the bottom of the casing 1 is closed by a metal cover 57. A heat fusible screw 58 is located in the side of the casing 1, together with an auxiliary detonator 59, so that the mine can be used for demolition work. | ||||||
| 38 | Container for holding and dispersing incendiary articles which contain phosphorous | US21120451 | 1951-02-01 | US2643928A | 1953-06-30 | BARKER MAURICE E |
| 39 | Subterranean war machine | US28436939 | 1939-07-13 | US2207536A | 1940-07-09 | DUNKUM GRATZ D |
| 40 | Land-torpedo | US20258917 | 1917-11-17 | US1350220A | 1920-08-17 | EDWARD GRAHAM |
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