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 | 一种战艇 | CN201610240690.7 | 2016-04-12 | CN107284164A | 2017-10-24 | 张茂华 |
| 一种战艇:将艇体设为海蓝色、密封的艇舱、除底部是平的外,其余都是弧形;动力机构被固定在第一“眼球”30内,它转动在第一“眼匡”29内,推进器32装在动力轴31上,由第一手柄35控制上下和左右,它不但代替舵的作用,还能使艇体下潜和上符;视孔和射击孔设为一体,被称为长形穿孔49,设在艇体上前方的第二“眼球”47内;前轮43可收起,且由第二手柄46控制左右转向。 | ||||||
| 2 | 一种水下巡逻战斗机器人 | CN201610570111.5 | 2016-07-20 | CN106184663A | 2016-12-07 | 不公告发明人 |
| 本发明提供一种水下巡逻战斗机器人,包括外壳、4个固定座、2个第一电缸、2个注射器活塞杆、2个注射器针筒、6枚微型鱼雷,其特征在于:所述的外壳为薄壁圆柱形结构,头部为半球面,尾部为锥形结构,在外壳的前端设有6个鱼雷发射管,每个鱼雷发射管内装有一枚微型鱼雷,外壳的两侧各设有2个固定座,前面的固定座上安装有注射器针筒。本发明的螺旋桨具有全向推进能力,可以使机器人在水下运动的更加灵活;本发明具有可以探测蛙人的声呐,同时具备多种攻击方式。 | ||||||
| 3 | 为中国潜艇体表铺设人造防探隐身鱼鳞 | CN201610298021.5 | 2016-05-01 | CN107323641A | 2017-11-07 | 李玉强 |
| 一种能为中国潜艇消声隐身的为中国潜艇体表铺设人造防探隐身鱼鳞,其特征是;1:潜艇窗人造防探隐身鱼鳞,2:潜艇窗,3:平行舵,4:潜艇金属体表,5:潜艇体表人造防探隐身鱼鳞,6:杂物自动割刀,7:进水孔,8:螺旋桨,9:消声段,10:尾端喷水口,11:舵组成,防止敌人对我中国潜艇的探测。 | ||||||
| 4 | 潜水艇降噪装置 | CN201610568062.1 | 2016-07-19 | CN106167080A | 2016-11-30 | 尹燕梁 |
| 本发明涉及潜水艇降噪装置,由潜水艇外壳、真空隔音层、电子减振装置组成,外壳由外层铁板和内层铁板组成,潜水艇外壳两层有加强筋的铁板之间的空气抽掉形成真空隔音层,潜水艇中的发电机组底盘下安装有内置多层网状尼龙丝线的软橡胶垫,软橡胶垫与潜水艇外壳之间支撑多个电子减振装置。本发明由于设计了电子减振装置,对潜水艇的降噪效果能很方便的人工可控到近0分贝,实现潜水艇静音。 | ||||||
| 5 | 一种新型水下航母及其作战使用方法 | CN201610103135.X | 2016-02-25 | CN105539788A | 2016-05-04 | 胡校峰; 陈时; 陈崑 |
| 本发明涉及一种新型水下航母及其作战使用方法,包括壳体、指挥台、地效飞机舱、地效飞机出入口、防空导弹箱、鱼雷舱、鱼雷发射口,其中:壳体内部设有地效飞机舱、防空导弹箱和鱼雷舱,壳体上方设有指挥台,壳体前部设有地效飞机出入口和鱼雷发射口,体积较小,设计及建造周期相对较短,造价低,在实际战斗应用中,航行安静,行动隐蔽,保密性好,不易被敌方窥见行踪,驾乘人员更安全,也更具战略、战争使用的隐蔽性、快速性、打击的突然性、精准性、灵活性、机动性和战略威慑性;地效飞行器利用喷雾装置造雾和喷水造幕装置造水幕,隐蔽性好,携带的钻地炸弹杀伤力强;袖珍潜艇和微型潜艇结合起来,能有效远距离探测敌军,起到很好的探测和保护母舰的作用。 | ||||||
| 6 | 自主航海船 | CN201480027607.7 | 2014-03-14 | CN105228893B | 2017-10-24 | 理查德·埃利奥特·詹金斯; 迪伦·欧文斯 |
| 无人自主航行船包括主船体;与该主船体旋转地耦接的刚性翼,其中该刚性翼围绕该刚性翼的旋转轴自由旋转;控制器,被配置为保持期望航向;控制面元件,被配置为基于由该控制面元件上的风所施加的力以空气动力控制该刚性翼的翼角,其中该控制器被配置为确定控制面角度并基于该控制面角度生成信号以定位该控制面元件;船舵,其中该控制器进一步被被配置为确定船舵位置并生成信号以将该船舵定位到该船舵位置;和龙骨,包括压载,该压载足以提供足以使该主船体从任何位置被动扶正的正扶正力矩。 | ||||||
| 7 | 自主航海船 | CN201480027607.7 | 2014-03-14 | CN105228893A | 2016-01-06 | 理查德·埃利奥特·詹金斯; 迪伦·欧文斯 |
| 无人自主航行船包括主船体;与该主船体旋转地耦接的刚性翼,其中该刚性翼围绕该刚性翼的旋转轴自由旋转;控制器,被配置为保持期望航向;控制面元件,被配置为基于由该控制面元件上的风所施加的力以空气动力控制该刚性翼的翼角,其中该控制器被配置为确定控制面角度并基于该控制面角度生成信号以定位该控制面元件;船舵,其中该控制器进一步被配置为确定船舵位置并生成信号以将该船舵定位到该船舵位置;和龙骨,包括压载,该压载足以提供足以使该主船体从任何位置被动扶正的正扶正力矩。 | ||||||
| 8 | 军用鱼雷轻骑式隐身艇 | CN201210289373.6 | 2012-08-05 | CN103569336A | 2014-02-12 | 郑有志 |
| 军用鱼雷轻骑式隐身艇,是一种采用底部双浮筒设计,该双浮筒可以通过机械控制合并或者分开为单浮与双浮状态,分别对应行进与停泊状态。浮筒内浮力可调,行进时半体潜入水中,艇头下半部分呈鱼雷状,上半部分呈三角棱状,以降低行进阻力,折射雷达反射面积,可乘坐1~3名人员,携带被动式惯性导航仪,可以依靠空军运输机进行对海空投,海军潜艇搭载,大型战舰释放,将其配属海军陆战队,空军海降特战队,机动骚扰阻敌登陆,直接冲入敌军登陆群中,扫射,冲撞,快速增援,对岛链保护起促进作用,破坏敌补给运输队,造杀伤,并作小规模登陆抢滩掩护作用。 | ||||||
| 9 | Mine sweeping apparatus | US15543830 | 2016-01-26 | US10059413B2 | 2018-08-28 | Daniele Maria Bertin |
| An apparatus for sweeping influence mines, including an operating unit having a plurality of propulsion devices designed to be immersed in water and at least one floating body connected to the propulsion devices, the latter being designed to overcome the hydrostatic thrust acting on the floating body to keep the operating unit immersed at a predetermined depth. | ||||||
| 10 | Quantum imaging for underwater arctic navigation | US14800769 | 2015-07-16 | US09798006B2 | 2017-10-24 | Marco Lanzagorta |
| A quantum photonic imaging device used in an underwater vehicle for stealthy detection of underwater objects includes a photon generating module that generates an entangled pair of photons that includes a signal photon and an ancilla photon, wherein the ancilla photon is retained within the device; a transmitter that transmits the signal photon towards a region of space for detecting an underwater object; a receiver that detects an incoming photon to the device; and a correlation module that distinguishes the signal photon that is reflected back to the receiver due to a presence of the object from environmental noise photons, wherein the distinguishing includes determining an entanglement correlation of the detected photon with the ancilla photon, and wherein a presence of the entanglement correlation between the detected photon and the ancilla photon indicates that the detected photon is the signal photon reflected back from the object. | ||||||
| 11 | Apparatus and method for neutralizing underwater mines | US14990205 | 2016-01-07 | US09463852B2 | 2016-10-11 | Scott W. Fairfield; Kerry D. Laviolette; Donald J. Robertson; Ronald D. Zamojski; Gary L. Wiedemeier; Joseph M. Cuschieri; Christopher E. Marchant |
| A mine neutralizing device that includes a buoy. The buoy includes a mine neutralizing device capable of swimming to an undersea mine to neutralize it. A method for neutralizing undersea mines includes locating an undersea mine, placing a buoy containing a mine neutralizer near the mine, and swimming the mine neutralizer to the undersea mine. | ||||||
| 12 | AUTONOMOUS UNMANNED SAILING VESSEL | US15176389 | 2016-06-08 | US20160280348A1 | 2016-09-29 | Richard Elliot Jenkins; Dylan Owens |
| An unmanned, autonomous, ocean-going vessel including a primary hull and a rigid wing rotationally coupled with the primary hull that freely rotates about a rotational axis. At least one of the primary hull and the rigid wing includes at least one selectively floodable compartment configured to selectively flood to submerge the primary hull and at least a portion of the rigid wing. The vessel further includes at least one controller configured to maintain a desired heading. The vessel further includes a control surface element configured to aerodynamically control a wing angle of the rigid wing based on a force exerted by wind on the control surface element. The vessel further includes a rudder. The at least one controller is further configured to determine a rudder position and generate a signal to position the rudder. The vessel further includes a keel coupled with the primary hull. | ||||||
| 13 | Apparatus and method for neutralizing underwater mines | US13840223 | 2013-03-15 | US09260168B2 | 2016-02-16 | Scott W. Fairfield; Kerry D. Laviolette; Donald J. Robertson; Ronald D. Zamojski; Gary L. Wiedemeier; Joseph M. Cuschieri; Christopher E. Marchant |
| A mine neutralizing device that includes a buoy. The buoy includes a mine neutralizing device capable of swimming to an undersea mine to neutralize it. A method for neutralizing undersea mines includes locating an undersea mine, placing a buoy containing a mine neutralizer near the mine, and swimming the mine neutralizer to the undersea mine. | ||||||
| 14 | Quantum Imaging for Underwater Arctic Navigation | US14800769 | 2015-07-16 | US20160018525A1 | 2016-01-21 | Marco Lanzagorta |
| A quantum photonic imaging device used in an underwater vehicle for stealthy detection of underwater objects includes a photon generating module that generates an entangled pair of photons that includes a signal photon and an ancilla photon, wherein the ancilla photon is retained within the device; a transmitter that transmits the signal photon towards a region of space for detecting an underwater object; a receiver that detects an incoming photon to the device; and a correlation module that distinguishes the signal photon that is reflected back to the receiver due to a presence of the object from environmental noise photons, wherein the distinguishing includes determining an entanglement correlation of the detected photon with the ancilla photon, and wherein a presence of the entanglement correlation between the detected photon and the ancilla photon indicates that the detected photon is the signal photon reflected back from the object. | ||||||
| 15 | APPARATUS AND METHOD FOR NEUTRALIZING UNDERWATER MINES | US13840223 | 2013-03-15 | US20150225049A1 | 2015-08-13 | Scott W. FAIRFIELD; Kerry D. LAVIOLETTE; Donald J. ROBERTSON; Ronald D. ZAMOJSKI; Gary L. WIEDEMEIER; Joseph M. CUSCHIERI; Christopher E. MARCHANT |
| A mine neutralizing device that includes a buoy. The buoy includes a mine neutralizing device capable of swimming to an undersea mine to neutralize it. A method for neutralizing undersea mines includes locating an undersea mine, placing a buoy containing a mine neutralizer near the mine, and swimming the mine neutralizer to the undersea mine. | ||||||
| 16 | AUTONOMOUS UNMANNED SAILING VESSEL | US14682732 | 2015-04-09 | US20150210369A1 | 2015-07-30 | Richard Elliot Jenkins; Dylan Owens |
| An unmanned, autonomous, ocean-going vessel including a primary hull and a rigid wing rotationally coupled with the primary hull that freely rotates about a rotational axis. At least one of the primary hull and the rigid wing includes at least one selectively floodable compartment configured to selectively flood to submerge the primary hull and at least a portion of the rigid wing. The vessel further includes at least one controller configured to maintain a desired heading. The vessel further includes a control surface element configured to aerodynamically control a wing angle of the rigid wing based on a force exerted by wind on the control surface element. The vessel further includes a rudder. The at least one controller is further configured to determine a rudder position and generate a signal to position the rudder. The vessel further includes a keel coupled with the primary hull. | ||||||
| 17 | SYSTEMS AND METHODS OF USE FOR SUBMERGED DEPLOYMENT OF OBJECTS | US12355966 | 2009-01-19 | US20120298029A1 | 2012-11-29 | Frederick Vosburgh; Charles A. Pell |
| A submersible object management (SOM) system for releasing and/or recovering a plurality of submersible objects within a body of liquid includes a hold and a deployment system. The hold is configured to store the plurality of submersible objects. The deployment system is selectively operable to controllably release at least one of the plurality of submersible objects from the hold into submersion in the body of liquid and/or selectively operable to controllably direct at least one of the plurality of submersible objects into the hold from submersion in the body of liquid. The deployment system includes a guide that is selectively extendable to direct the at least one submersible object, the guide including a plurality of extendable guide members configured to engage the at least one submersible object. | ||||||
| 18 | System for disabling small water craft | US12769584 | 2010-04-28 | US08256336B2 | 2012-09-04 | Louis J. Larkin; Katherine L Janney; Richard P Clark |
| A system and method for disabling a small boat comprises at least two hulls and an entanglement device disposed therebetween. In the illustrative embodiment, each hull is an unmanned underwater vehicle. The system is launched from a vessel to intercept the small boat. When close to the small boat, the separating distance between the two hulls is increased, thereby deploying the entanglement device and causing it to become entangled with the small boat (e.g., the small boat's propulsion system, etc.). | ||||||
| 19 | Payload Stowage Unit | US12866937 | 2009-02-06 | US20110083600A1 | 2011-04-14 | Timothy James Whitten; Nicholas John Carter |
| A stowage unit for a payload such as a weapon, countermeasure or unmanned underwater vehicle (UUV), and a method for using the unit to deploy the payload are described. The unit comprises an inner tube for holding the payload, wherein the inner tube is mounted in an outer vessel and so defines a volume between the outer vessel and inner tube. The volume has a first sealing element, which can be used to open or seal the volume at one end, and a valve enabling fluid communication between the volume and inner tube. After deployment of the payload, a weight of fluid equivalent to the deployed payload can be allowed to enter the volume from the inner tube, thus enabling the weight of the unit to remain substantially unaltered from before deployment to after deployment. | ||||||
| 20 | Maritime Port and Anti-Terrorist Data Gateway With Ingress and Egress Control | US11737951 | 2007-04-20 | US20080260467A1 | 2008-10-23 | Stephan V. Kroecker; George H. Kroecker |
| A marine port monitoring system including a plurality of inspection apparatus, either fixed, mobile, wired or wireless for intercepting data on and of vessels entering or leaving a port or canal. The system includes sensors placed in a shipping channel for examination of a hull of a passing vessel to detect externally mounted weapons, explosives or contraband and, the recording of the vessels acoustical signature for purpose of identification and mechanical validation and verification. The inspection apparatus includes devices for the removing of cargo containers from vessels, non-intrusive inspection of containers and isolating containers having suspect cargo. The apparatus includes explosive containment including a separable containment system for protecting the apparatus. The system includes a remote buoy reporting the arrival and departures of vessels at a predetermined distance from said apparatus for maritime domain awareness and protection of said apparatus. | ||||||
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