| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | Mine device | JP18326386 | 1986-08-04 | JPS62106300A | 1987-05-16 | RICE JR JOSEPH A; MCGREGOR DOUGLAS D; COLEGROVE FORREST D; MARTON BELA |
| 2 | Magnetic proximity fuse | JP29471193 | 1993-10-28 | JP3373016B2 | 2003-02-04 | エリザベス・ペテルソン; ラグナル・フォルスフヴッド |
| 3 | Magnetic proximity fuse | JP29471193 | 1993-10-28 | JPH06207800A | 1994-07-26 | ERIZABESU PETERUSON; RAGUNARU FUORUSUFUBUTSUDO |
| PURPOSE: To provide a passive magnetic proximity fuse which initiates the charge of a charge carrier 1, such as a guided missile, a shell or a grenade, when the charge carrier 1 passes within a certain distance from a ferromagnetic object. CONSTITUTION: This proximity fuse includes at least one sensor 4 for sensing the deflection of terrestrial magnetic field and at least one position-sensing element gyroscope or an accelerometer 6 for sensing the movement of a charge carrier 1 itself, and provided with a signal processing unit 5 which produces an effective output signal i out associated with the deflection of the terrestrial magnetic field only at deflection of the terrestrial magnetic field caused by the ferromagnetic object 3. COPYRIGHT: (C)1994,JPO | ||||||
| 4 | Method and device for setting ignitor after shooting bullet from firearm | JP2518776 | 1976-03-10 | JPS51113399A | 1976-10-06 | GOTSUTOUIN ETSUTERU |
| 5 | JPS6157560B2 - | JP2518776 | 1976-03-10 | JPS6157560B2 | 1986-12-08 | GOTSUTOIN ETSUTERU |
| 6 | JPS595840B2 - | JP3845575 | 1975-03-28 | JPS595840B2 | 1984-02-07 | SUBEN UIRIAMU BIERUBAATO |
| 7 | JPS50133700A - | JP3845575 | 1975-03-28 | JPS50133700A | 1975-10-23 | |
| 8 | 지능형 지뢰 장치와 그 동작 방법 | KR1020120097128 | 2012-09-03 | KR1020140032027A | 2014-03-14 | 김도현; 유재준; 박종현; 김경호 |
| The present invention relates to an intelligent mine device and an operation method for the same, capable of not only sensing an approach of a target within a predetermined radius but also recognizing an ally on the target and efficiently removing the target. Therefore, the intelligent mine device of the present invention includes a sensor unit sensing the approach of the target; an analysis processing unit distinguishing whether the target is the ally or not by performing wireless communication with the approached target; and a mine blasting unit blasting the mine device as the target is distinguished as an enemy in the analysis processing unit. [Reference numerals] (102) Sensor unit; (104) Transceiving unit; (106) Message generation unit; (108) Analysis processing unit; (110) Mine blasting unit; (112) Initialization unit; (114) Storage unit; (116) Power supply unit | ||||||
| 9 | ACTIVATING A FUSE | EP16275025.1 | 2016-02-16 | EP3208569A1 | 2017-08-23 | The designation of the inventor has not yet been filed |
Communication system for communicating between a ranged weapon and a projectile for that ranged weapon, the system comprising: a transmitter associated with the ranged weapon, the transmitter being arranged to encode data to be transmitted to the projectile on an electromagnetic carrier wave, and to transmit that electromagnetic carrier wave to the projectile; a receiver associated with the projectile, the receiver being arranged to receive the electromagnetic carrier wave, and to decode data encoded in the electromagnetic carrier wave to retrieve that data, the data being usable in the activation of a fuse of the projectile.
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| 10 | Integrated magnetic field sensors for fuzes | EP99200708.8 | 1999-03-11 | EP0950871A2 | 1999-10-20 | Cutler, David W.; Boltz, Eric S.; Jarrat, Raymond L. Jr. |
An apparatus and method for electronically controlling ordnance fuzes by sensing magnetic fields proximate the ordnance via a magnetic field sensor. The sensor is preferably a giant magnetoresistance detector. For spinning ordnance, in-flight cumulative range can be calculated by counting tums of the spinning ordnance. Ordnance may be armed a pre-determined time after exit of the ordnance from a weapon firing the ordnance as determined by the magnetic field sensor. The invention is also of a giant magnetoresistance sensor and method for making same and an apparatus for and method of sensing angular velocity for spinning ordnance. |
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| 11 | Magnetic proximity fuse | EP93850198.8 | 1993-10-20 | EP0596845B1 | 1998-05-27 | Pettersson, Elizabeth; Forshufvud, Ragnar |
| 12 | Procédé de détection d'un véhicule terrestre ferro-magnétique | EP91400920.4 | 1991-04-04 | EP0453347B1 | 1994-08-17 | Ferrandiz, Jean-Marie; Cuq, Bernard; Bureau, Gilles; Molle, Frédéric; Fournié, Philippe; Reygasse, Jean |
| 13 | DISPOSITIF DE DETECTION MAGNETIQUE POUR MINES A ORIN FERROMAGNETIQUES | EP91911037.0 | 1991-06-04 | EP0533765A1 | 1993-03-31 | CERTENAIS, Jo[l |
| Le domaine de l'invention est celui de la détection magnétique de structures ferromagnétiques, notamment de bâtiments navals, à partir d'un capteur magnétique présentant une certaine mobilité, par exemple étant susceptible de se déplacer de façon aléatoire sur une surface prédéterminée. Plus précisément, la présente invention concerne un dispositif de détection magnétique de structures ferromagnétiques, du type constitué d'un magnétomètre triaxial (12) monté sur un support mobile, notamment sur une mine à orin, dont l'information de mesure est perturbée en fonction du mouvement du support, notamment de l'attitude de la mine, le dispositif comportant un module de détection (21) compensée coopérant d'une part avec le magnétomètre (12) et d'autre part avec un module (23) de mémorisation d'informations de compensation de l'information de mesure fournie par le magnétomètre (12), les informations de compensation étant élaborées et/ou mises à jour au cours d'un processus d'apprentissage consistant à modéliser les perturbations à partir des seules informations du magnétomètre (12). | ||||||
| 14 | Anti-submarine warfare mine | EP86305992.9 | 1986-08-04 | EP0224986B1 | 1993-03-31 | Rice, Joseph A., Jr.; Colegrove, Forrest D.; McGregor, Douglas D.; Marton, Bela |
| 15 | Dispositif de mesure des variations temporelles des trois composantes du champ magnétique local et de l'orientation de l'axe du dispositif par rapport à la verticale du lieu | EP90401467.7 | 1990-05-31 | EP0411971A2 | 1991-02-06 | CLAUSIN, Jacques |
L'invention concerne un dispositif de mesure des 3 composantes du champ magnétique local, de l'angle que fait ce dispositif rapporté à la verticale du lieu, et de son sens rapporté à cette même verticale. Il est constitué de 3 sondes magnétorésistives (2) immobilisées sur les 3 faces d'une pyramide (1) dont les lignes de plus grandes pentes issues du point commun des arêtes forment entre elles, et 2 par 2 un angle de 90°, et d'une bobine d'induction (6) placée dans un plan perpendiculaire à la hauteur de la pyramide. Trois barreaux ferromagnétiques aimantés (12) apportent une polarisation constante, et une enveloppe en matière conductrice de l'électricité forme filtre anti repliement. Une sphère conductrice (16) repose selon le sens du capteur sur une des 2 calottes sphériques. L'étalonnage du capteur et la mesure de l'angle et du sens s'effectuent par génération du champ connu provoqué par un courant connu parcourant la bobine (6) et la mesure simultanée de l'effet produit aux bornes des sondes magnétorésistives (2). Le dispositif est utilisable comme capteur de champ magnétique d'allumeurs de mines terrestres anti-véhicules ou marines et d'allumeurs de projectiles ou charges mobiles à effets dirigés. |
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| 16 | 공중폭발탄의 지면 감지 장치, 이를 포함하는 공중폭발탄 및 공중폭발탄의 지면 감지 방법 | KR1020170007922 | 2017-01-17 | KR101757139B1 | 2017-07-12 | 강혁중; 이한진; 최재현; 노진입 |
| 본발명은공중폭발탄의신관에내장되며, 자기장을측정하기위한센서부및 상기센서부에의해측정된자기장을이용하여지면방향을연산하는연산부를포함하는공중폭발탄의지면감지장치로서, 본발명에의하면, 공중폭발탄이지면방향으로기폭하는것이가능하게한다. | ||||||
| 17 | 고감도 자기 감응 센서를 이용한 폭발장치 | KR1020010033889 | 2001-06-15 | KR1020020095710A | 2002-12-28 | 김동형 |
| PURPOSE: An exploding device employing a high-sensitivity magnetic sensor is provided to adjust the iron sensing range by using the ground and water, to adjust killing and injuring scale approaching an explosion range by using a distributor, to dividedly explode the objects approaching the explosion range, and to prevent an accident by setting up an explodable period. CONSTITUTION: An exploding device employing a high-sensitivity magnetic sensor comprises a magnetic sensor(20) sensing the flow of the iron element within a predetermined sensing range, a central processing unit(10) controlling the explosion of an explosive(100) by analyzing the iron element and depending on a predetermined effective period, explosive power, and radio frequency, a timer(30) inputting the counting time to the central processing unit, a distributor(40) adjusting the explosion scale depending on the signal level of the magnetic sensor, an adjusting unit(50) adjusting the explosive portion of the explosive, and a radio frequency sensing unit(60) inputting the radio frequency of the friendly forces. | ||||||
| 18 | Integrated magnetic field sensors for fuzes | EP99200708.8 | 1999-03-11 | EP0950871B1 | 2004-11-17 | Cutler, David W.; Boltz, Eric S.; Jarrat, Raymond L. Jr. |
| 19 | Ultra sensitive magnetic field sensors | EP04075958.1 | 2002-06-20 | EP1467218A2 | 2004-10-13 | Tiernan, Timothy C.; Jarratt, Raymond L. Jr.; Summers, Stephen D. |
A magnetic sensor and magnetic field sensing method for ordnance, comprising locating a magnetoresistance detector within the ordnance and detecting magnetic fields with the detector. Also other sensing method and sensors employing such detectors. |
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| 20 | ULTRA SENSITIVE MAGNETIC FIELD SENSORS | EP02739939.3 | 2002-06-20 | EP1425542A2 | 2004-06-09 | TIERNAN, Timothy, C.; JARRATT, Raymond, L., Jr.; SUMMERS, Stephen, D. |
| A magnetic sensor and magnetic field sensing method for ordnance, comprising locating a magnetoresistance detector within the ordnance and detecting magnetic fields with the detector. Also other sensing method and sensors employing such detectors. | ||||||
