| 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 | The method and apparatus of the Marine deployment | JP2011528003 | 2009-09-18 | JP2012503167A | 2012-02-02 | レイ サンプソン、; ジェフリー エヌ ゼルベ、; デイヴィッド イー ボサート、 |
| 【課題】無人機及び他の資源は地上作戦に制限されないが、海上発射システムは、それらを展開するには不十分である。
【解決手段】本発明の様々な態様に応じた海上展開の方法及び装置は、海洋艦船による展開に適用される浮揚性筐体と共同で働くことができる。 前記浮揚性筐体は、海洋艦船から発射され、水面に浮上するように適用され得る。 無人機のような資源は、水面に浮上した前記浮揚性筐体から展開される。 【選択図】 図1 |
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| 2 | Device for placing mine from ship | JP28805285 | 1985-12-23 | JPS61160390A | 1986-07-21 | BURUUNO AABUITSUDO JIYONAA; JIYON UIIBUAA UIRIAMUZU |
| 3 | Methods and apparatus for marine deployment | US12233328 | 2008-09-18 | US07946241B2 | 2011-05-24 | Ray Sampson; David E. Bossert; Jeffrey N. Zerbe |
| Methods and apparatus for marine deployment according to various aspects of the present invention may operate in conjunction with a floatable housing adapted to be deployed by a marine vehicle. The floatable housing may be adapted to be launched from a marine vehicle and rise to the surface. Assets, such as an unmanned aerial vehicle, may be deployed from the surfaced floatable housing. | ||||||
| 4 | DELIVERY SYSTEMS FOR PRESSURE PROTECTING AND DELIVERING A SUBMERGED PAYLOAD AND METHODS FOR USING THE SAME | US12511676 | 2009-07-29 | US20100107959A1 | 2010-05-06 | Steven Craig Israel; Dominic Caza Germana; Craig A. Greiner; Frederick Vosburgh |
| A payload delivery unit for protecting and delivering a payload submerged in a submersion medium comprises a container including a pressure resistant shell and a resilient seal device. The shell defines a containment chamber and includes first and second shell members having opposed first and second sealing faces, respectively. The seal device engages and is interposed between the first and second sealing faces. The container is configured and constructed such that: when the submersion medium applies an exterior pressure to the first and second shell members such that a shell pressure differential, defined as the exterior pressure less an interior pressure of the containment chamber, exceeds a prescribed pressure, the first and second shell members compressively load and deform the seal device to effect a seal between the first and second shell members that prevents ingress of the submersion medium into the containment chamber; and when the shell pressure differential is less than the prescribed pressure, the seal device elastically rebounds to separate the first and second shell members to permit ingress of the submersion medium into the containment chamber. | ||||||
| 5 | METHODS AND APPARATUS FOR MARINE DEPLOYMENT | US12233328 | 2008-09-18 | US20090107386A1 | 2009-04-30 | Ray Sampson; David E. Bossert; Jeffrey N. Zerbe |
| Methods and apparatus for marine deployment according to various aspects of the present invention may operate in conjunction with a floatable housing adapted to be deployed by a marine vehicle. The floatable housing may be adapted to be launched from a marine vehicle and rise to the surface. Assets, such as an unmanned aerial vehicle, may be deployed from the surfaced floatable housing. | ||||||
| 6 | Air-cushion and accurate mine laying and mapping system | US6523 | 1998-01-13 | US06082266A | 2000-07-04 | John Auzins; John Horton; David Vickers; William Jones |
| An apparatus for and method of laying a minefield in open water uses a high speed air-cushion vehicle that transports substantial quantities of mines to a target area. It then deploys the mines while it is rapidly moving, d marks and records the location of each deployed mine with GPS equipment. Mines can be emplaced at speeds and rates much greater than conventional surface ships. The speed of high speed aircushion vehicle makes it less vulnerable to attack during operations, and it is less vulnerable to other mines it may encounter during a mission. The GPS on high speed air-cushion vehicle ensures an accurate and detailed record of location of the minefield. The high speed air-cushion vehicle has much greater lift capability than aircraft used in mining missions, and, therefore, can deliver a much larger payload per sortie (under all weather conditions) while creating the minefield. Mines can be emplaced much more accurately than an aircraft dropping them from altitude, (at least 100% increase in delivery precision). The high speed air-cushion vehicle running at normal operating speeds, has a low detectable signature and, due to its speed, is invulnerable to certain enemy mine functions. The unexpected benefit is accurate mining of enemy minefields, or areas beyond enemy minefields, for various expeditionary uses. | ||||||
| 7 | Deployment of mines and other objects at sea | US571586 | 1990-08-23 | US5163379A | 1992-11-17 | Michael Chorley |
| An object deployment unit for use under various sea states which allows deployment of objects (1) in any required sequence the deployment unit comprising a flexible tube shaped elongate body, means (2) to releasably attach objects to the body, one or more ballast members (3a, b), one or more buoyancy members (4) and a means for automatic buoyancy control. Preferably the deployment unit also includes a remotely actuated release mechanism for the release of objects. The automatic buoyancy control means ensures maintenance of depth. Typical usage is the deployment of mines. | ||||||
| 8 | Magnetic drag vessel slowing method and apparatus | US14666547 | 2015-03-24 | US09315240B2 | 2016-04-19 | Rachel E. Meadow; William D. Meadow |
| The present invention of MagDrag relates to methods and apparatus of a magnetic hull attaching sea anchors to slow down and impair the forward motion of sea vessels. The basic MagDrag device includes four major components, a large magnet, a pump, a sea anchor bag and a buoy. | ||||||
| 9 | Magnetic drag vessel slowing method and apparatus | US13950126 | 2013-07-24 | US09003996B2 | 2015-04-14 | Rachel E. Meadow; William D. Meadow |
| The present invention of MagDrag relates to methods and apparatus of a magnetic hull attaching sea anchors to slow down and impair the forward motion of sea vessels. The basic MagDrag device includes three major components, a large magnet, a sea anchor bag and a buoy. | ||||||
| 10 | Delivery systems for pressure protecting and delivering a submerged payload and methods for using the same | US12511676 | 2009-07-29 | US08166904B2 | 2012-05-01 | Steven Craig Israel; Dominic Caza Germana; Craig A. Greiner; Frederick Vosburgh |
| A payload delivery unit for protecting and delivering a payload submerged in a submersion medium comprises a container including a pressure resistant shell and a resilient seal device. The shell defines a containment chamber and includes first and second shell members having opposed first and second sealing faces, respectively. The seal device engages and is interposed between the first and second sealing faces. The container is configured and constructed such that: when the submersion medium applies an exterior pressure to the first and second shell members such that a shell pressure differential, defined as the exterior pressure less an interior pressure of the containment chamber, exceeds a prescribed pressure, the first and second shell members compressively load and deform the seal device to effect a seal between the first and second shell members that prevents ingress of the submersion medium into the containment chamber; and when the shell pressure differential is less than the prescribed pressure, the seal device elastically rebounds to separate the first and second shell members to permit ingress of the submersion medium into the containment chamber. | ||||||
| 11 | Underwater mine placement system | US990875 | 1997-12-15 | US6112667A | 2000-09-05 | Vernon P. Bailey; Edward J. Hilliard, Jr. |
| A mine placement system is provided for determining mine launch parametersased on launcher vehicle position, speed, and direction and on latitude. The system includes an input module for receiving launcher vehicle position, speed, and direction having a settable aim point. The input module is connected to a processor module which continuously calculates the trajectory of the mine as the launch ship maneuvers. The processor module having a vectorizer, a decoder, a time processing unit and gyroprocessing unit drives a launch display having steering cursors and a range display. The steering cursors and range display provide maneuver information to the ship's operator to steer the ship to a launch window which will allow a mine to deploy to the set aim point. In addition to displaying the set aim point, the display also shows the present actual mine placement point based on the launch ships present location and velocity. Whenever a mine is launched, the system records the actual mine placement point. The method of the system includes manually entering the weapon type and the latitude/longitude of a desired aim point. The system then reads the inertial position and heading of the launch ship. By comparing the ship's heading and position to the aim point, the processor drives a launch display showing range and bearing to a launch window. The heading and run time are corrected for Coriolis effect and for a constant water current. | ||||||
| 12 | Surface minelaying system for craft of opportunity | US688686 | 1985-01-03 | US4633778A | 1987-01-06 | Bruno A. Joner; John W. Williams |
| A surface minelaying system that can be built up of ganged modules and rapidly mounted on any ship whose displacement permits it to carry mines in some quantity. This minelaying system is a modularized overhead conveyor system that can securely store heavy mines and safely release them overboard at short, predetermined intervals, even in high sea states. The system comprises a frame member, with first and second ends, that defines the longitudinal axis of the minelaying system. The frame member is preferably made up of a rail track braced by periodically spaced vertical and transverse connecting members. Mounting supports are provided for mounting the frame member to the ship. A drive roller and an idler roller are disposed in the first and second ends of the frame member; and an endless drive member is looped about the rollers. A drive means is operatively coupled to the drive roller. A plurality of carrier assemblies with grasping members for selectively grasping a mine are engaged at spaced locations to the endless drive member. The carrier assemblies have wheels that roll and are retained within the rail track. Mines are loaded and stored on the system and, when moved outboard the hull, released into the water. Alternative mechanisms are provided for releasing each mine at a predetermined point as the mine is translated beneath the frame member. In one embodiment, the mines are automatically disengaged from the carriers. The empty carrier assemblies are then moved by the endless drive member through a vertical turnaround in a looped rail system for an inverted overhead return to a loading site near the opposite end of the frame member. In another embodiment each mine is attached to an expendable carrier that is deployed along with the released mine. | ||||||
| 13 | Encapsulated torpedo mine weapon system | US26593672 | 1972-06-23 | US3811379A | 1974-05-21 | SONDHEIMER A |
| An underwater weapons system having an encapsulated torpedo and an anchor assembly which may be planted in the water by a submarine, aircraft, or surface ship. Shortly after water-entry the anchor separates, leaving the encapsulated torpedo vertically moored at a predetermined depth. Detection equipment on the casing listens passively for a target, and upon target detection, an active transducer is activated to classify the potential target. Upon classification, the casing opens, releasing and activating a homing torpedo having self-contained target-seeking capabilities.
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| 14 | Electrically-actuated oceanographic release mechanism | US39266364 | 1964-08-27 | US3262173A | 1966-07-26 | PICKENS GEORGE O |
| 15 | MAGNETIC DRAG VESSEL SLOWING METHOD AND APPARATUS | US15069588 | 2016-03-14 | US20160194057A1 | 2016-07-07 | Rachel E. Meadow; William D. Meadow |
| The present invention of MagDrag relates to methods and apparatus of a magnetic hull attaching sea anchors to slow down and impair the forward motion of sea vessels. The basic MagDrag device includes four major components, a large magnet, a pump, a sea anchor bag and a buoy. | ||||||
| 16 | MAGNETIC DRAG VESSEL SLOWING METHOD AND APPARATUS | US14666547 | 2015-03-24 | US20150191221A1 | 2015-07-09 | Rachel E. Meadow; William D. Meadow |
| The present invention of MagDrag relates to methods and apparatus of a magnetic hull attaching sea anchors to slow down and impair the forward motion of sea vessels. The basic MagDrag device includes four major components, a large magnet, a pump, a sea anchor bag and a buoy. | ||||||
| 17 | MAGNETIC DRAG VESSEL SLOWING METHOD AND APPARATUS | US13950126 | 2013-07-24 | US20140026801A1 | 2014-01-30 | Rachel E. Meadow; William D. Meadow |
| The present invention of MagDrag relates to methods and apparatus of a magnetic hull attaching sea anchors to slow down and impair the forward motion of sea vessels. The basic MagDrag device includes three major components, a large magnet, a sea anchor bag and a buoy. | ||||||
| 18 | Ocean surface-delivered ordnance explosive mine and obstacle clearance method | US673890 | 1996-07-01 | US5708230A | 1998-01-13 | Robert C. Woodall, Jr.; Felipe A. Garcia; John Horton; William Jones |
| A method for ocean surface delivery of ordnance and clearing of explosive mines and obstacles from a navigable sea channel includes the step of providing quantities of ordnance adapted to survive impact and prolonged immersion in sea water and to arm in response to release from a mobile ocean surface vehicle and to pressure actuation upon submersion to a desired depth in sea water and then to detonate in response to receiving a preselected signal transmitted to the ordnance from a standoff location. The method also includes the step of delivering the quantities of ordnance from a mobile ocean surface vehicle toward multiple sites in a navigable sea channel containing obstacles and explosive mines therein so as to cause arming of the ordnance followed by impact thereof with the navigable sea channel and submersion and emplacement thereof at the multiple sites in the navigable sea channel. The ocean surface delivery method further includes the step of transmitting the preselected signal to and receiving the preselected signal by the emplaced armed ordnance so as to cause detonation thereof and the simultaneous synergistic destruction of the obstacles and explosive mines contained in the navigable sea channel. The method also includes the step of marking an amphibious path through the cleared navigable sea channel. | ||||||
| 19 | Underwater weapon dispenser | US800606 | 1977-05-18 | US5076170A | 1991-12-31 | Ronald L. Seiple |
| The invention is an underwater weapon dispenser for delivering weapons to aocation which is remote from a water vehicle. The dispenser includes at least one pod which is capable of receiving at least one weapon system, such as torpedo or mines. The pod is hydrodynamically shaped and is slightly negatively buoyant. The pod has at least one hydrofoil so that the pod will assume a glide path in the water. Provision is made for releasably attaching the pod with its weapon to the water vehicle so that the pod can be released from the water vehicle to assume a downward glide angle path. The pod is provided with a releasable anchor which, upon release, anchors the now buoyant pod at a predetermined depth. With this arrangement, pods can be attached to the bottom hull portion of a surface vessel or a submarine for delivering the pods with their weapons to the bottom of the ocean, after which the weapons can be removed for accomplishing their intended purposes. | ||||||
| 20 | Mine anchor | US467668 | 1974-05-07 | US3951064A | 1976-04-20 | Jan Bjork; Kjell Ake Bertil Holmgren |
| A submarine buoyant mine is anchored at a predetermined depth under water by means of an air driven cable drive assembly which pulls in a measured length of cable to set the depth after the mine is launched and the anchor is at the bottom. | ||||||
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