序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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1 | 一种青少年国防科技研究专用的海礁自动布雷发射车 | CN201710077020.2 | 2017-02-13 | CN106871726A | 2017-06-20 | 郭春标; 其他发明人请求不公开姓名 |
一种青少年国防科技研究专用的海礁自动布雷发射车,包括底盘、环礁圆形铁轨、铁轨轮系统、通讯系统、液压传动系统、驾驶室、火炮自动填弹装置、雷达驱动系统、蓄电池组、动力传动装置、机关枪、火炮、抛射式水下声纳探测装置、火控雷达、指挥室、发射水雷距离控制器、布雷系统发射单元、贮雷装置、发电机、尾罩护板、火炮发射控制系统,作为一种现代战争中设置水雷障碍物的新式布雷手段,可对驻礁部队重要军事目标周围实施封锁性布雷,且布雷速度快、布雷均匀,且作为一种青少年国防科技研究专用模型,对于提高青少年的国防素养知识,引导青少年勇于参与我国国防科研事业具有现实而深远的战略意义。 | ||||||
2 | JPS4819349B1 - | JP7282569 | 1969-09-16 | JPS4819349B1 | 1973-06-13 | |
3 | Mine | JP13875193 | 1993-06-10 | JPH0650700A | 1994-02-25 | YUTSUKA BUANHANEN |
PURPOSE: To obtain an underwater mine having a reinforced plastic container for explosive without having conventional problems. CONSTITUTION: A mine, particularly underwater mine having a reinforced plastic container 1 for explosive is provided. The outer surface of the container 1 is covered by a flexible rubber or elastomer layer 2 having a density of about 0.7 to 2.0 g/cm<3> in order to protect an explosive filler against various environmental effects and to improve safety during storage of the mine. | ||||||
4 | 海洋浮揚装置 | JP2018528661 | 2015-12-02 | JP2018535887A | 2018-12-06 | ハンフリーズ,トニー; ホルダウェイ,アダム; ハミルトン,デイヴィッド; マースデン,グレゴリー; ジョーンズ,ミック; テイラー,グラント |
非電気式または電気式な起爆によって水線上及び水線下において遠隔発火装置を使用するための海洋浮揚装置MFD。海洋浮揚装置MFDは、衝撃チューブを介してそれぞれの爆発手段に接続可能な少なくとも2の受信機の組を有する受信機ハウジング13を有する。第1の受信機は分離のための時間遅延起爆に適合し、第2の受信機は当該海洋浮揚装置に必要とされる作動能力を満たすために遠隔起爆または時間遅延起爆に適合する。解放可能なバスケットハウジング26は保持手段25,45によって受信機ハウジング13に接続されている。分離手段24は、時間遅延用の受信機から起爆された爆発手段による分離手段24の活性化によって受信機ハウジング13をバスケットハウジング26から分離することを可能にするように、保持手段25,45を非活性化する。衝撃チューブスプールはバスケットハウジング内に位置し得、所望する標準動作手順に適合して当該海洋浮揚装置が展開する柔軟性を有するように第2の受信機を爆発手段に接続可能に所定長さの衝撃チューブを収容して含む。フロート44は、受信機ハウジングがバスケットハウジングから分離されると、受信機ハウジング13が水面に浮くことができるように、受信機ハウジング13に取り付けられる。海洋浮揚装置は、海洋浮揚装置の信頼性に影響を及ぼす水が侵入せずに、水深下の水の下に配備され動作することが可能な特性を有する衝撃チューブの非電気式または電気式な起爆が可能である。 【選択図】図5 |
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5 | Flexible mine case | US320578 | 1963-10-31 | US4953465A | 1990-09-04 | Ralph E. Hightower |
A mine has a flexible casing which can be fabricated in much the same way at a tubeless tire of modern construction is made. The mine case when uninflated is flexible and capable of being folded into a considerably smaller space than that occupied by a rigid case thus facilitating ease of shipment, but when loaded and inflated it is rigid. Being a collapsible vessel, however, the flexible mine case loses its identity as a straight cylindrical form when planted underwater, and becomes hard to distinguish from rocks, sponge, coral, or other bottom or sea growths. | ||||||
6 | Water reactive underwater warhead | US385561 | 1964-07-27 | US4188884A | 1980-02-19 | William D. White; James H. Green; Neri E. Cornford |
1. Apparatus for inflicting explosive damage upon an underwater object, crising;(a) an encapsulated charge of a first material which is highly reactive with water, said first charge being for explosively reacting with the water to produce a gas bubble which sequentially expands to a predetermined peak size and then contracts,(b) explosive means for bursting the encapsulated charge in a manner in which the bursted particles of said first materials are dispersed in directions symmetrically outward from the center of the charge to cause the bursted particles of said bursted material to penetrate the ambient water with a symmetric and uniformly dense pattern of penetration, and thereby obtain effective and complete explosive reaction between said first material and the water medium and produce said peak size of bubble, and(c) means for initiating said explosive means for bursting the encapsulated charge when said charge is sufficiently close to the object that a material portion of the bubble front is in contact with the surface of the object when the bubble reaches its peak size,whereby upon contraction of the gas bubble a re-entrant jet of ambient water enters the bubble in a direction normal to the surface of the object to exert a punch-like force thereagainst. | ||||||
7 | Weapon recovery system | US84191359 | 1959-09-23 | US3098441A | 1963-07-23 | AMUNDSON THOMAS M; SANDGREN MARVIN A |
8 | Mine case and instrument mounting system | US33561453 | 1953-02-06 | US2947249A | 1960-08-02 | VOGT CHARLES C; SEMON HOWARD W |
9 | Method of producing a low density explosive | US52856655 | 1955-08-15 | US2768072A | 1956-10-23 | STARK HOWARD J |
10 | Mine | US46274121 | 1921-04-19 | US1443431A | 1923-01-30 | PALMER WAYNE F |
11 | Marine munition and the like. | US22820418 | 1918-04-12 | US1278420A | 1918-09-10 | BARBOSA ANTONIO AUGUSTO |
12 | Submarine mine. | US1039000254 | 1912-04-11 | US1039254A | 1912-09-24 | CARTERON CHARLES PIERRE JULES |
13 | Torpedo or bomb. | US1910566736 | 1910-06-14 | US983786A | 1911-02-07 | TURNBULL WALTER J |
14 | Torpedo. | US1898680717 | 1898-05-14 | US628308A | 1899-07-04 | GALLAGHER WILLIAM M |
15 | Cable cutting system for retrieval of exercise mines and other underwater payloads | US13975521 | 2013-08-26 | US09199707B1 | 2015-12-01 | Bryan J. Smallin; James L. Bacot, Jr. |
An improved cable cutting system for an exercise mine or other underwater payload is provided. The system utilizes a pro-pressurized gas cartridge as the source of compressed gas to operate a cable cutter and anti-scouring system. A firing pulse initiates a bottle-punch actuator positioned in a manifold. The actuator punctures the sealed nipple of the gas cartridge. The released gas is directed through the manifold and injected directly into a cylinder that drives a piston. The piston is connected to a chisel that is driven forward to cut the cable. The released gas can also activate the anti-scouring system or, alternatively, additional cartridges/punches may be used for the anti-scoring system. | ||||||
16 | Reaction container containing aluminum | US13815380 | 2013-02-27 | US08931414B1 | 2015-01-13 | Christopher Boswell; Carl Gotzmer; Steven Kim; Steve Dunham; Michael Dunn |
A reaction container has contains an amount of a water reactive material and a volume of water within the confined space of its interior. The water reactive material, which contains aluminum, is formed as two separate and spaced apart portions. The water is located between the two portions of the water reactive material. A detonation mechanism, which is configured to mix the amount of water reactive material and the volume of water, is provided in communication with each portion of the water reactive material. The volume of water and the aluminum in the water reactive material are stoichiometrically balanced. | ||||||
17 | Explosive body comprising an explosive charge ignitable by fuse | US74804 | 1979-09-11 | US4384527A | 1983-05-24 | Horst-Georg Bugiel |
An explosive body having an intensified detonation pressure is disclosed, characterized in that the body includes a main explosive charge and an auxiliary explosive charge. A material is arranged between the charges for transmitting the impact wave from the detonating auxiliary charge to the main charge. Detonation of the main charge is delayed following detonation of the auxiliary charge, whereby the impact wave of the auxiliary charge compresses the explosive of the main charge. Thus, the intensity of the resulting detonation pressure of the main charge is increased. | ||||||
18 | Suction fastening device | US23871372 | 1972-03-27 | US3863568A | 1975-02-04 | FREDERICK ARTHUR F |
A device for permanently fastening an object to a substantially planar surface including suction inducing apparatus and weapon support apparatus connectable thereto. The suction inducing apparatus includes a suction cup which, upon rotation of a camming lever, induces a vacuum when applied against a surface. The lever rotation also causes an elongate stem to protrude from the suction cup housing. After attachment of the suction inducing apparatus to the surface, the weapon support apparatus is fastened onto the elongate stem in a manner so as to permanently prevent the withdrawal thereof thereby permanently maintaining suction. The support apparatus includes a cylindrical housing enclosing a tensioned locking spring overlying a stem receiving bore. When the support apparatus is coupled to the suction apparatus by inserting the stem in the bore, the spring locks the stem in position. The support apparatus also includes channels formed therein for weapon support cables.
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19 | Underwater demolition device | US75635168 | 1968-08-28 | US3827359A | 1974-08-06 | DAUGHENBAUGH R |
A device for attaching an explosive charge to an underwater portion of a sea-going vessel including an adhesive substance having a suitable chemical material therein adapted to react with sea water and initiate an exothermic reaction which melts the adhesive substance and bonds the device and any connected explosive charge to the hull of the vessel.
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20 | Automatic canopy buckle | US3608160D | 1969-02-19 | US3608160A | 1971-09-28 | COYLE JAN R |
A FAILURE SAID BUCKLE IN WHICH A LUG OF A MALE BUCKLE PART IS CAPTURED IN A RECESS OF A FEMALE BUCKLE PART BY A LATCH SLIDE, THE LATCH SLIDE BEING RELEASABLY LOCKED IN A POSITION OVERLYING THE RECESS AND ENGAGED WITH THE LUG, AND IN WHICH THE LOCK MECHANISM INCLUDES RELATIVELY MOVABLE PARTS BIASED TO LOCKING POSITIONS TO LOCK THE LATCH SLIDE AGAINST MOVEMENT, THE RELATIVELY MOVABLE PARTS REQUIRING SIMULTANEOUS OPPOSITE MOVEMENT TO PERMIT SHIFTING OF THE LATCH SLIDE TO A POSITION RELEASING THE LUG, AND CAMS ACTING ON SUCH RELATIVELY MOVABLE PARTS TO MOVE THE SAME IN RESPONSE TO FIRING OF EXPLOSIVE CHARGES IN THE BUCKLE. SUCH A BUCKLE IN WHICH THE EXPLOSIVE CHARGES ARE IGNITED BY CLOSURE OF A REMOTE SWITCH.
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