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    • 4. 发明申请
    • FIBER OPTIC RADAR GUIDED MISSILE SYSTEM
    • 光纤雷达导向故障系统
    • WO1990007093A1
    • 1990-06-28
    • PCT/US1989004903
    • 1989-11-06
    • HUGHES AIRCRAFT COMPANY
    • HUGHES AIRCRAFT COMPANYFRIEDENTHAL, Kenneth, J.DE LA CHAPELLE, MichaelHSU, Hui-Pin
    • F41G07/32
    • F41G7/2266F41G7/2286F41G7/2293F41G7/32
    • A fiber optic radar guided missile system (10) is disclosed which includes a radar receiver (12) disposed in a missile for receiving radar reflections and providing a first optical signal in response thereto. An optical receiver (14) is disposed at a launcher for receiving the first optical signal and for providing a set of electrical signals in response thereto. A fiber optic link (32) is connected between the missile and the launcher for communicating the first optical signal from the radar receiver (12) to the optical receiver (14). In a specific embodiment, the invention (10) includes a first system (12) disposed in a missile for receiving radar reflections which includes only an antenna (16) for receiving radar reflections, a radar seeker (18) for providing a first electrical signal in response to the received radar reflections, and a first fiber optic transmitter (26) for converting the first electrical signal into a first optical signal. An optical receiver (14) is located at a launcher for receiving the first optical signal and for providing a set of electrical signals in response thereto. The optical receiver (14) at the launcher includes a first fiber optic receiver (48) for converting the first optical signal into a second electrical signal and a signal processor (56) for processing the second electrical signal and providing radar output data. A fiber optic link (32) is provided for communicating the first optical signal from the radar receiver (12) to the optical receiver (14) at the launcher and missile commands from the launcher to the missile.
    • 5. 发明专利
    • 圧縮流体を使用して発射体を発射するための装置
    • 使用压缩流体启动项目的装置
    • JP2016109417A
    • 2016-06-20
    • JP2015230316
    • 2015-11-26
    • タレス
    • ステファン・ベザンカロル・ビヨーディディエ・スタネックヤニク・ボダス
    • F42B10/30F42B12/04B64G1/64F41F7/00
    • F41B11/60F41B11/83F41G7/32F42B15/04
    • 【課題】圧縮流体を使用して発射体を発射するための装置を提供する。 【解決手段】圧縮流体を使用して発射するための装置140であって、発射体11と、2つの端部を有する砲身18であって、発射体11が砲身18の内側に配置され、2つの端部の第1端部は圧縮流体が砲身18に入ることを可能にし、2つの端部の第2端部は発射体が出ることを可能にする砲身18と、砲身18の2つの端部の第1端部に接続された圧縮流体の貯蔵部21とを含む装置140に関する。装置は、第1テープを含む接続装置130を含み、第1テープは、軸Zの周りで支持体の周囲に巻かれる構成から、軸Zに対して実質的に垂直な軸Xに沿って展開される構成へ移行することができ、テープは発射体11に固定された端部を有し、および支持体は砲身18に固定される。 【選択図】図10
    • 要解决的问题:提供一种通过使用压缩流体发射抛射物的装置。解决方案:关于通过使用压缩流体发射的装置140,装置140包括弹丸11,具有两个端部的筒18,同时提供 其中弹丸11在筒体18的内部,使得两个端部的第一端部分允许压缩流体进入筒体18,并且两个端部部分的第二端部部分允许射弹离开,并且压缩流体 存储部21连接到筒18的两个端部的第一端部。该装置包括具有第一带的连接装置130,并且第一带可以沿着轴线Z从待缠绕在支撑件上的构造转移 对于沿轴线X基本上垂直于轴线Z扩展的构造,带具有固定到射弹11的端部,并且支撑件固定到枪管18.选择的图示:图10
    • 7. 发明申请
    • BEND LIMITING STIFF LEADER AND RETAINER SYSTEM
    • 弯曲限制领导者和保留者制度
    • WO1990005888A1
    • 1990-05-31
    • PCT/US1989004486
    • 1989-10-12
    • HUGHES AIRCRAFT COMPANY
    • HUGHES AIRCRAFT COMPANYSCHOTTER, Daniel, K.
    • F41G07/32
    • G02B6/4478F41G7/32F42B15/04
    • A fiberoptic leader (20) connected between a missile (10) and a launch tube is laid out upon missile launch with a controlled degree of bend in the fiberoptic filament (50), and is furthermore protected from blast effects in the launch. The fiberoptic filament (50) is stiffened within a leader (30) comprised of a Teflon R sleeve (52) insulating the fiberoptic filament (50). A protective sheathing of high tensile strength longitudinally wires (54) are disposed about and encase the Teflon R sleeve (52), and in turn are encased within an outer sleeve. The stiffened leader is led along the longitudinal length of a retainer (20) attached to the side of the missile. The retainer (20) is disposed upon a longitudinal portion of the missile in a channel. The stiffened leader (20) is laid against and under one of the retainer arms from the aft end of the missile (10), where the fiberoptic leader (30) is fed out during launch, to a forward end of the missile (10) and retainer (20). The leader (30) is then led across the width of the channel to the opposing arm of the channel. The stiffened leader (30) is then led partly aft along the opposing arm of the retainer (20) and then out to an open longitudinal slot defining the ends of the channel and is coupled to a fixed point within the launch tube from which point optical communications are provided to the missile (10) during flight. As the missile (10) is launched, the bend propagates down the retainer (20) tearing the stiffened leader from a longitudinally perforated tape which secures the leader (30) into and under one of the arms of the retainer (20).
    • 9. 发明申请
    • OUTPUT DEVICE FOR DATA TRANSMISSION LINES AND METHOD FOR PRODUCING AN OUTPUT DEVICE
    • 用于数据传输线路输出设备和方法产生一个输出设备
    • WO00037347A1
    • 2000-06-29
    • PCT/DE1999/003740
    • 1999-11-24
    • B65H55/00F41G7/32F42B15/04G02B6/44
    • B65H55/00F41G7/32F42B15/04G02B6/4457Y10S242/92
    • The invention relates to an output device for data transmission lines which are used for transmitting data between a moving object and a station. Said output device comprises a coil body (2) on which a data transmission line (1) is wound in the form of a unit of several layers (21). According to the invention, the windings are mounted with a maximum tensile stress or force in each position. Said tensile stress or force depends on the elasticity modulus of the data transmission line (1). Creeping or flowing of the material of the data transmission line (1) due to the pressure which is exerted on the individual layers is thereby reduced or avoided and a stable arrangement of the windings is guaranteed over a long period of time. The pressure of a winding on the layer underneath is, at least in the lower area of the windings, less than 0.6 N/mm . The maximum tensile stress is calculated on the basis of the diameters of the data transmission line (1) and of the coil body (2), the elasticity modulus of the data transmission line (1) and the total number N of the layers (21) of the unit.
    • 对数据传输线,其用于数据传输的移动物体和站之间的输出装置,具有线圈本体(2),在其上(1)在封装若干层(21)的形式的数据的传输线被缠绕匝数。 在具有最大列车张力或力每一层绕组被施加,其中由数据传输线的弹性模量(1)是相关的。 从而,由于是,在各个层(21)作用的压力的蠕变或数据传输线(1)的材料的流量减少,或避免,并且线圈的稳定顺序是在一段时间内被确保。 至少在底层上一转的压力的各匝的下部区域(21)小于0.6牛顿/毫米<2>。 从数据传输线(1)和绕线管的直径的最大拉伸应力(2),所述数据传输线(1)和计算出的包的总数N层(21)的弹性模量。