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 |
|---|---|---|---|---|---|---|
| 1 | 一种新型隐形鱼雷 | CN201611059312.5 | 2016-11-28 | CN106403731A | 2017-02-15 | 黄俊柳 |
| 一种新型隐形鱼雷的外壳釆用潻加有吸波材料的3D打印材料打印,在壳体外表面还喷涂隐身吸波材料;能更好具有吸波功能,防止卫星雷达跟踪将起到非常优越的保护作用,在战争中可以预先把它潜伏到指海底利用远程摇控等代时机出其不意的攻击的作用;并且鱼雷的外壳釆用3D打印材料打印,其重量可减轻70%,可以装载更多爆药使鱼雷威力更强。该隐形鱼雷结构简单,造价低廉,威力强大,貝有超大攻击航母群威力的武器装备,是振我军威,壮我国威的必切需要。 | ||||||
| 2 | 微型鱼雷 | CN201380029846.1 | 2013-03-07 | CN104364603B | 2016-10-19 | 路易斯·里沃利 |
| 轻型的、微型鱼雷(12)具有:接触和附接组件(22),所述接触和附接组件用于响应于与船体的接触而将鱼雷(12)保持至船体;腔室(24),容纳多个易燃元件(132),所述易燃元件连续点燃并且在高于船体的材料的熔化温度的燃烧温度下对着船体燃烧;以及推进和转向组件(26),所述推进和转向组件推进和引导鱼雷(12)在水中通过至船体。鱼雷(12)构造为使其具有能够由无人驾驶的航空器运载和发射的大小和重量。 | ||||||
| 3 | 一种供小口径战斗部发射的适配壳体 | CN201610051058.8 | 2016-01-26 | CN105698615A | 2016-06-22 | 刘延平; 聂晓敏; 吴旌 |
| 本发明公开了一种供小口径战斗部发射的适配壳体,属于水下发射结构技术领域。该适配器壳体包括头盖、尾盖、壳体、拔销器和弹簧,外围设备为战斗部;壳体为分瓣式结构组成的两端开放的圆柱形壳体,头盖和尾盖将壳体的两端封闭后由拔销器锁定,头盖和尾盖与壳体的连接端之间均安装有弹簧,弹簧的两端分别抵触在头盖的内侧端面和壳体连接端的径向限位凸台上,战斗部位于壳体内部。本发明通过标准尺寸的适配壳体进行水下发射,出膛后利用拔销器使壳体分离并释放出战斗部,解决了小口径战斗部与发射管尺寸不匹配时的装载与释放问题。 | ||||||
| 4 | 微型鱼雷 | CN201380029846.1 | 2013-03-07 | CN104364603A | 2015-02-18 | 路易斯·里沃利 |
| 轻型的、微型鱼雷(12)具有:接触和附接组件(22),所述接触和附接组件用于响应于与船体的接触而将鱼雷(12)保持至船体;腔室(24),容纳多个易燃元件(132),所述易燃元件连续点燃并且在高于船体的材料的熔化温度的燃烧温度下对着船体燃烧;以及推进和转向组件(26),所述推进和转向组件推进和引导鱼雷(12)在水中通过至船体。鱼雷(12)构造为使其具有能够由无人驾驶的航空器运载和发射的大小和重量。 | ||||||
| 5 | 小型魚雷 | JP2015517238 | 2013-03-07 | JP2015523535A | 2015-08-13 | リボリ、ルイス |
| 軽量小型魚雷(12)は、艦体との接触に応じて魚雷(12)を艦体に保持するように構成された接触取付アセンブリ(22)と、複数の可燃性要素(132)を収容するチャンバ(24)と、推進操舵アセンブリ(26)とを有している。上記可燃性要素は、順次点火されて、艦体の材料の融解温度よりも高い燃焼温度で燃焼し、上記推進操舵アセンブリは、前記魚雷(12)を水中において、前記艦体へ向かって推進および操舵する。前記魚雷(12)は、無人航空機による運搬および投下を可能とするサイズおよび重量を有するように構成されている。【選択図】図1 | ||||||
| 6 | Underwater object destruction method | JP17172995 | 1995-07-07 | JP2813558B2 | 1998-10-22 | ファルコウ ジェラール; ポール レイモン ルイ ロウブレイ ジョルジュ |
| 7 | Method for destroying submarine object | JP17172995 | 1995-07-07 | JPH08193800A | 1996-07-30 | JIYORUJIYU POORU REIMON RUI RO; JIERAARU FUARUKOU |
| PROBLEM TO BE SOLVED: To contrive accurate approach of an explosive to an object to be destructed, such as a sea bottom mine, a buoy-roped mine or the like, by launching an explosive-support missile from a sea bottom apparatus to which the explosive-supporting missile is connected by a connection cable the length of which is operable. SOLUTION: An explosive-support missile EPC supports an explosive C and is provided with a reel T, in which a mechanical connection cable CL is wound. The mechanical connection cable CL mechanically connects the explosive- supporting missile EPC to a cradle of a sea bottom apparatus EF. Operation from a marine naval vessel pays out the connection cable CL differently via a remote controlled cable CT, enabling length of the connection cable CL, or a position of the depth of water of the explosive-support missile EPC to be varied variously. As a result, the missile EPC is made to approach in close proximity to, e.g. a sea-bottom mine MF, destroying the same through the operation of exploding the explosive C. COPYRIGHT: (C)1996,JPO | ||||||
| 8 | JPH0413637B2 - | JP3381584 | 1984-02-24 | JPH0413637B2 | 1992-03-10 | FUJII SADAMU |
| 9 | Marine smoke candle | JP3381584 | 1984-02-24 | JPS60178299A | 1985-09-12 | FUJII SADAMU |
| 10 | Navigating body | JP15532077 | 1977-12-23 | JPS5487000A | 1979-07-10 | SASAJIMA TAKAO |
| PURPOSE:To reduce the fluid resistance and raise the navigating velocity, by removing an outer frame to obtain a hydrodynamically good form when a predetermined speed is reached after launching. CONSTITUTION:Initially, the outer frame 12 of form corresponding to that of a launching tube is provided on a torpedo body 11. A thrust is effectively applied to the torpedo by compressed air when the torpedo is launched. After the launching, a resistor 26 is rotated by fluid pressure centering a shaft 27 against the restoring force of a spring 30. When the torpedo has reached the predetermined speed, contacts 28, 29 are closed to fire an explosive provided near the clamped parts 13 of the outer frame to break the clamped parts 13. Thereby, the outer frame 12 is separated from the torpedo body 11. Since the torpedo body is streamlined, the fluid resistance is low. Therefore, the navigating velocity can be raised. | ||||||
| 11 | 小型魚雷 | JP2015517238 | 2013-03-07 | JP6226968B2 | 2017-11-08 | リボリ、ルイス |
| 12 | Mine device | JP18326386 | 1986-08-04 | JPS62106300A | 1987-05-16 | RICE JR JOSEPH A; MCGREGOR DOUGLAS D; COLEGROVE FORREST D; MARTON BELA |
| 13 | JPS6052038B2 - | JP9421380 | 1980-07-10 | JPS6052038B2 | 1985-11-16 | OOHIRA TADASHI; KASAI KYOSHI; SUGANO SHIGERU |
| 14 | Very deep moored mine sweeper | JP9421380 | 1980-07-10 | JPS5718594A | 1982-01-30 | OOHIRA TADASHI; KASAI KIYOSHI; SUGANO SHIGERU |
| PURPOSE: To tangle a toward rope to a mooring cable, ignite and explode powder, by causing a cruising body to turn while gradually changing its turning radius. CONSTITUTION: An underwater cruising body 20 tows a mooring cable cutter, comprising a rope 11, extension plate 13 and a small amount of powder 12 charged to the rear end part of a mounting member 15, by the rear and of a barrel body 10 and cruises straight until the preset depth and straight cruising time to a controller 8 are satisfied. When it reaches the position, the cruising body 20 steers a rudder of control blades 3 to begin turning by a command from the controller 8. The cruising body 20 continues its turning motion and its towing rope 11 is finally tangled to a cable mooring a mine, then detected by a sensor in the controller 8 to ignite the blasting powder 12 by a command from the controller 8, thus the mooring cable is cut by this explosion power, allowing the mine to float on the sea level and performing sweeping work. COPYRIGHT: (C)1982,JPO&Japio | ||||||
| 15 | JPS5412449B1 - | JP7853769 | 1969-10-01 | JPS5412449B1 | 1979-05-23 | |
| 16 | MINIATURE TORPEDO | EP13770517.4 | 2013-03-07 | EP2859300B1 | 2017-07-05 | RIVOLI, Louis |
| 17 | DISPOSITIF DE DESTRUCTION D'OBJETS SOUS-MARINS OU FLOTTANTS | EP04805232 | 2004-09-29 | EP1794049B2 | 2017-06-07 | SCOURZIC DANIEL; MEIRIER ANDRÉ |
| 18 | MINIATURE TORPEDO | EP13770517.4 | 2013-03-07 | EP2859300A2 | 2015-04-15 | RIVOLI, Louis |
| A lightweight, miniature torpedo (12) has a contact and attachment assembly (22) that is operable to hold the torpedo (12) to a ship's hull in response to contact with the ship's hull, a chamber (24) containing a plurality of flammable elements (132) that are sequentially ignited and burn against the ship's hull at a combustion temperature that is higher than a melting temperature of the material of the ship's hull, and a propulsion and steering assembly (26) that propels and directs the torpedo (12) through water to the ship's hull. The torpedo (12) is constructed with a size and weight that enables it to be carried by and launched from an unmanned aerial vehicle. | ||||||
| 19 | ENGIN SOUS-MARIN ÉQUIPÉ DE MOYENS ÉLECTROCHIMIQUES DE GÉNÉRATION D'ÉNERGIE ÉLECTRIQUE | EP12717792.1 | 2012-05-04 | EP2705329B1 | 2015-03-04 | CIPOLLA, Thierry; LEBRUN, Christophe |
| 20 | ENGIN SOUS-MARIN ÉQUIPÉ DE MOYENS ÉLECTROCHIMIQUES DE GÉNÉRATION D'ÉNERGIE ÉLECTRIQUE | EP12717792.1 | 2012-05-04 | EP2705329A1 | 2014-03-12 | CIPOLLA, Thierry; LEBRUN, Christophe |
| The invention relates to an underwater vehicle equipped with electrochemical means for generating electrical energy, characterized in that it comprises an information processing unit (2) connected, at the input, to sensors (4) of a parameter chosen from the group comprising the temperature, the pressure and the hydrogen concentration of the water in the surroundings of the vehicle and of the electrochemical means of this vehicle, and, at the output, to signal-emitting means (5) for emitting signals for authorizing the approach or not of the vehicle, by an operator, depending on whether the acquired value of the parameter of the electrochemical means is or is not within a predetermined parameter range about the corresponding parameter value of the water in the surroundings of the underwater vehicle. | ||||||
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