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1. 发明申请

WO2003096071A1 IMPROVED SEISMIC SENSORS 审中-公开
标题翻译：改进的地震传感器
公开(公告)号：WO2003096071A1
公开(公告)日：2003-11-20
申请号：PCT/AU2003/000562
申请日：2003-05-09
申请人： THALES UNDERWATER SYSTEMS PTY LIMITED , LUC, François
发明人： LUC, François
IPC分类号： G01V1/18
CPC分类号： G01V1/181
摘要： A method for compensating the effect of gravity on seismic sensors such as geophones and a gravity effect-free seismic sensor are disclosed. The gravity effect-free seismic sensor of the present invention includes primary sensor (100) operatively responsive to seismic movements and hence generating a seismic signal by having a coil placed in a magnetic field in a first axis of sensitivity (105); an auxiliary sensor (210) operatively responsive to a gravity field for generating a tilt signal, thus providing a current to the coil of the primary sensor (100) to induce a force on the coil that at least partially compensates for a weight of the coil, thus ameliorating or eliminating a gravity effect on the primary sensor (100).
摘要翻译：公开了一种用于补偿重力对诸如地震检波器和无重力效应的地震传感器等地震传感器的影响的方法。本发明的无重力效应的地震传感器包括可操作地响应于地震运动的主传感器（100），并且因此通过使线圈放置在第一灵敏轴（105）中的磁场中来产生地震信号; 辅助传感器（210），可操作地响应于重力场产生倾斜信号，从而向主传感器（100）的线圈提供电流，以引起线圈上的力，其至少部分地补偿线圈的重量，从而改善或消除对主传感器（100）的重力作用。

2. 发明申请

WO2003062857A1 ELECTRONICS-CARRYING MODULE 审中-公开
标题翻译：电子承载模块
公开(公告)号：WO2003062857A1
公开(公告)日：2003-07-31
申请号：PCT/AU2003/000073
申请日：2003-01-24
申请人： THALES UNDERWATER SYSTEMS PTY LIMITED , LEE, Paul , DOWLE, Robert
发明人： LEE, Paul , DOWLE, Robert
IPC分类号： G01V1/20
CPC分类号： G01V1/201
摘要： An electronic-carrying module (640), for example for use with a seismic data acquisition cable (400), is disclosed. The preferred electronic-carrying module (640) includes, first, an electronics carrier (106) having access means (107) for providing an easy-to-reach access to wrap-around circuitry fitted inside a curved space (104a) within the electronics carrier (106). Second, a pair of rigid end-fittings (102) spaced apart axially by the electronics carrier (106) for connecting to a section of the seismic data acquisition cable (400). And third, an axial hole (100) formed in the electronics carrier (106) and the rigid end-fittings (102) defining the curved space (104a) between the axial hole (100), the access means (107) and the rigid end-fittings (102).
摘要翻译：公开了一种例如与地震数据采集电缆（400）一起使用的电子承载模块（640）。优选的电子承载模块（640）首先包括具有接近装置（107）的电子载体（106），用于提供易于接近的装配在电子装置内的弯曲空间（104a）内的环绕电路载体（106）。第二，一对由电子载体（106）轴向隔开的刚性端部接头（102），用于连接到地震数据采集电缆（400）的一部分。第三，形成在电子载体（106）中的轴向孔（100）和限定在轴向孔（100），进入装置（107）和刚性（108）之间的弯曲空间（104a）的刚性端部配件端接件（102）。

3. 发明申请

WO2010025494A1 METHODS AND DEVICES FOR UNDERWATER DEPLOYMENT OF A STRUCTURE 审中-公开
标题翻译：用于水下部署结构的方法和装置
公开(公告)号：WO2010025494A1
公开(公告)日：2010-03-11
申请号：PCT/AU2009/001115
申请日：2009-08-28
申请人： THALES UNDERWATER SYSTEMS PTY , BAKER, Paul , WRIGHT, Conrad
发明人： BAKER, Paul , WRIGHT, Conrad
IPC分类号： B63B22/00 , G01S7/521 , G01V1/18
CPC分类号： G10K11/006 , B63B22/00 , B63B22/003 , B63B22/18 , G01V1/3843
摘要： Described herein are methods and devices for underwater deployment of a structure. For example, the embodiments described herein are particularly focused on sonobuoys that are configured for autonomous deployment in an underwater environment. One embodiment provides a sonobuoy having a plurality of arms, which are in some embodiments telescopic. The sonobuoy is configured such that, upon deployment in an underwater environment, the arms extend and rotate from a collapsed storage configuration to an operative configuration. The rotation is brought about by way of tension in petal lines, which extend between an innermost telescopic segment of each arm and a central tether line intermediate the arms and a buoyancy device.
摘要翻译：这里描述了用于水下部署结构的方法和装置。例如，这里描述的实施例特别关注被配置用于在水下环境中自主部署的声波发生器。一个实施例提供了具有多个臂的声波器，其在一些实施例中是伸缩的。声波探测器配置成使得当在水下环境中部署时，臂从折叠的存储配置延伸并旋转到可操作的配置。旋转是通过在花瓣线上的张力引起的，花瓣线延伸在每个臂的最内伸缩段和在臂之间的中心系绳和浮力装置之间。

4. 发明申请

WO2004013515A1 AN IMPROVED HOUSING 审中-公开
标题翻译：改善住房
公开(公告)号：WO2004013515A1
公开(公告)日：2004-02-12
申请号：PCT/AU2003/000987
申请日：2003-08-05
申请人： THALES UNDERWATER SYSTEMS PTY LIMITED , BUCHANAN, Kristofer, William , GUNARATNAM, Lesley , WILKINSON, David, Scott , RAHMAN, Pushkin , RADMANOVIC, Goran , LEE, Paul
发明人： BUCHANAN, Kristofer, William , GUNARATNAM, Lesley , WILKINSON, David, Scott , RAHMAN, Pushkin , RADMANOVIC, Goran , LEE, Paul
IPC分类号： F16G11/00
CPC分类号： G01V1/201 , H01R13/523 , H01R13/533 , H01R13/56 , H02G15/10 , H02G15/14
摘要： The housing (1) includes a body (2) defining a cavity (3) intermediate a first end (4) and a second end (5). A removable connector (6) is releasably engageable with the first end (4) and a fixed connector is being fixedly disposed on the second end (5). The removable and fixed connectors are each being adapted for connection to a cable. One application of the housing is its use as a connector for submersable cables.
摘要翻译：壳体（1）包括限定在第一端（4）和第二端（5）之间的空腔（3）的主体（2）。可移除连接器（6）可释放地与第一端（4）接合，并且固定连接器固定地设置在第二端（5）上。可移动和固定连接器各自适于连接到电缆。壳体的一个应用是用作潜水电缆的连接器。

5. 发明申请

WO2007056827A1 METHODS, SYSTEMS AND APPARATUS FOR MEASURING ACOUSTIC PRESSURE 审中-公开
标题翻译：用于测量声压的方法，系统和装置
公开(公告)号：WO2007056827A1
公开(公告)日：2007-05-24
申请号：PCT/AU2006/001742
申请日：2006-11-21
申请人： THALES UNDERWATER SYSTEMS PTY LIMITED , THE COMMONWEALTH OF AUSTRALIA , BEDWELL, Ian
发明人： BEDWELL, Ian
IPC分类号： H04R1/44 , G01D5/353 , G01L9/08 , G01D5/26 , G01H9/00 , H04R23/00
CPC分类号： H04R1/44 , G01H9/004 , G01V1/38
摘要： A hydrophone (10) for immersion in a liquid body defining a pressure is disclosed The hydrophone (10) includes a sensor (11) for providing an electrical signal indicative of the pressure; and a transducer (12) electrically connected to the sensor (11). The transducer (12) acts upon a fibre optic cable (15) so as to convert the electrical signal into a corresponding optical output signal for transmission within the fibre optic cable (15). The liquid body defines a depth-dependent static pressure and a dynamic pressure and the sensor (11) provides an electrical signal having a first component indicative of the static pressure and a second component indicative of the dynamic pressure. A filter (16) is electrically connected to the sensor (11) so as to receive (he electrical signal, filter out the first component, and output to the transducer (12) a uttered electrical signal indicative of substantially only the second component.
摘要翻译：公开了一种用于浸入限定压力的液体中的水听器（10）。水听器（10）包括用于提供指示压力的电信号的传感器（11）和与传感器（11）电连接的换能器（12）。换能器（12）作用在光纤电缆（15）上，以便将电信号转换成相应的光输出信号以在光纤电缆（15）内传输。液体定义深度相关的静态压力和动态压力，并且传感器（11）提供具有指示静态压力的第一部件和指示动态压力的第二部件的电信号。滤波器（16）电连接到传感器（11），以便接收（电信号，滤出第一分量，并输出到换能器（12）），发出的电信号基本上仅指示第二分量。

6. 发明申请

WO2006034538A1 OPTO-ACOUSTIC PRESSURE SENSOR 审中-公开
标题翻译： OPTO-ACOUSTIC压力传感器
公开(公告)号：WO2006034538A1
公开(公告)日：2006-04-06
申请号：PCT/AU2005/001481
申请日：2005-09-28
申请人： THE COMMONWEALTH OF AUSTRALIA , THALES UNDERWATER SYSTEMS PTY LTD , FOSTER, Scott , VAN VELZEN, John , TIKHOMIROV, Alexei , LUC, Francois , BEDWELL, Ian
发明人： FOSTER, Scott , VAN VELZEN, John , TIKHOMIROV, Alexei , LUC, Francois , BEDWELL, Ian
IPC分类号： G01L1/24 , G01H9/00
CPC分类号： G01H9/004
摘要： A device (10) for sensing an acoustic signal is described. The device includes a flexible portion (14) including a laser active region (13) whose emitted wavelength varies according to a mechanical force acting on the flexible portion (14) and a flexible support member (24) operable to flex or bend according to the acoustic signal. The flexible portion (14) is coupled with the support member (24) so as to cause the flexible portion to flex or bend in accordance with the support member (24) thereby changing the emitted wavelength of the laser active region (13) of the flexible portion (14).
摘要翻译：描述用于感测声信号的装置（10）。该装置包括柔性部分（14），该柔性部分（14）包括其发射波长根据作用在柔性部分（14）上的机械力而变化的激光活动区域（13），以及柔性支撑构件（24），其可操作以根据声信号。柔性部分（14）与支撑构件（24）联接，以便使柔性部分根据支撑构件（24）弯曲或弯曲，由此改变激光有源区域（13）的发射波长柔性部分（14）。

7. 发明申请

WO2003096072A1 METHOD FOR DEPLOYING SEAFLOOR EQUIPMENT 审中-公开
标题翻译：用于部署海员设备的方法
公开(公告)号：WO2003096072A1
公开(公告)日：2003-11-20
申请号：PCT/AU2003/000561
申请日：2003-05-09
申请人： THALES UNDERWATER SYSTEMS PTY LIMITED , LUC, François , DOWLE, Robert
发明人： LUC, François , DOWLE, Robert
IPC分类号： G01V1/38
CPC分类号： G01V1/3852
摘要： The present invention provides a method for deploying and retrieving seafloor equipment including the steps of: providing a conveying means (200) with a fixed end and a free end (201); releasing said conveying means (200) into a body of water (210) from a vessel (220) until said free end (201) reaches, or is proximate to, a seafloor (230) of said body of water (210); dragging said conveying means (200) behind said vessel (220) at a controllable speed; slidably attaching said equipment (240) including a recovery module (241) and stopping means (242) to said conveying means (200), wherein said equipment, said recovery module and said stopping means are secured one to another by a connector (244); sliding said equipment (240) to the free end (201) of the conveying means (200), said equipment (240) being fixed in position on the seafloor (230) by said stopping means (242) once said stopping means reaches the seafloor; activating said recovery module (241) so as to allow said equipment (240) to ascend from the seafloor (230) to a surface of the water; and retrieving said equipment (240) from the surface of the water. Preferably the conveying means (200) is in the form of a cable.
摘要翻译：本发明提供了一种用于部署和检索海底设备的方法，包括以下步骤：提供具有固定端和自由端（201）的输送装置（200）; 将所述输送装置（200）从容器（220）释放到水（210）的主体中，直到所述自由端（201）到达或接近所述水体（210）的海底（230）为止; 以可控速度将所述输送装置（200）拖到所述容器（220）的后面; 将所述设备（240）可滑动地附接到所述传送装置（200）上，所述设备（240）包括恢复模块（241）和停止装置（242），其中所述设备，所述恢复模块和所述停止装置通过连接器（244）彼此固定， ; 将所述设备（240）滑动到所述输送装置（200）的自由端（201），一旦所述停止装置到达所述海底，则所述设备（240）通过所述停止装置（242）固定在所述停靠装置（242）上的适当位置 ; 启动所述恢复模块（241）以允许所述设备（240）从所述海底（230）上升到所述水的表面; 以及从所述水表面检索所述设备（240）。优选地，输送装置（200）是电缆的形式。

8. 发明申请

WO2010025494A8 METHODS AND DEVICES FOR UNDERWATER DEPLOYMENT OF A STRUCTURE 审中-公开
标题翻译：用于水下部署结构的方法和装置
公开(公告)号：WO2010025494A8
公开(公告)日：2010-05-06
申请号：PCT/AU2009001115
申请日：2009-08-28
申请人： THALES UNDERWATER SYSTEMS PTY , BAKER PAUL , WRIGHT CONRAD
发明人： BAKER PAUL , WRIGHT CONRAD
IPC分类号： B63B22/00 , G01S7/521 , G01V1/18
CPC分类号： G10K11/006 , B63B22/00 , B63B22/003 , B63B22/18 , G01V1/3843
摘要： Described herein are methods and devices for underwater deployment of a structure. For example, the embodiments described herein are particularly focused on sonobuoys that are configured for autonomous deployment in an underwater environment. One embodiment provides a sonobuoy having a plurality of arms, which are in some embodiments telescopic. The sonobuoy is configured such that, upon deployment in an underwater environment, the arms extend and rotate from a collapsed storage configuration to an operative configuration. The rotation is brought about by way of tension in petal lines, which extend between an innermost telescopic segment of each arm and a central tether line intermediate the arms and a buoyancy device.
摘要翻译：这里描述的是用于水下部署结构的方法和设备。例如，这里描述的实施例特别集中于配置用于在水下环境中自主部署的声纳浮标。一个实施例提供具有多个臂的声纳浮筒，其在一些实施例中是伸缩式的。声纳浮台被构造成使得在布置在水下环境中时，臂从折叠存储结构延伸并旋转到操作结构。通过花瓣线张力引起旋转，所述花瓣线在每个臂的最内侧伸缩段与臂和浮力装置中间的中央系绳之间延伸。

9. 发明申请

WO2007070933A1 A MECHANICALLY FILTERED HYDROPHONE 审中-公开
标题翻译：机械过滤式疏水阀
公开(公告)号：WO2007070933A1
公开(公告)日：2007-06-28
申请号：PCT/AU2006/001922
申请日：2006-12-18
申请人： THALES UNDERWATER SYSTEMS PTY LIMITED , THE COMMONWEALTH OF AUSTRALIA , BEDWELL, Ian
发明人： BEDWELL, Ian
IPC分类号： G01H9/00 , H04R1/44
CPC分类号： H04R1/44 , G01H9/004 , G01V1/16
摘要： A hydrophone (10) for immersion in a liquid body defining a depth-dependent static pressure and a dynamic pressure. The hydrophone (10) includes a pressure-bearing element (11) for exposure to the liquid body; a motion sensor (13) spaced apart from the pressure bearing element (11); and a dilatant coupling material (14) disposed intermediate the pressure-bearing element (11) and the motion sensor (13) so as to mechanically transmit movements substantially corresponding to the dynamic pressure from the pressure-bearing element (11) to the motion sensor (13). The dilatant coupling material (14) does not transmit movements to the motion sensor (13) that substantially correspond to the depth-dependent static pressure.
摘要翻译：一种用于浸入液体中的水听器（10），其限定深度相关的静压力和动态压力。水听器（10）包括用于暴露于液体的承压元件（11）; 与压力承载元件（11）间隔开的运动传感器（13）; 以及设置在所述承压元件（11）和所述运动传感器（13）之间的中间联接材料（14），以便将基本上对应于来自承压元件（11）的动态压力的运动机械地传递到运动传感器（13）。膨胀耦合材料（14）不传递运动传感器（13），运动传感器（13）基本上对应于与深度相关的静压力。

10. 发明申请

WO2004065988A1 IMPROVED SENSORS AND AN IMPROVED DATA SENSING AND RECORDING APPARATUS 审中-公开
标题翻译：改进的传感器和改进的数据传感和记录装置
公开(公告)号：WO2004065988A1
公开(公告)日：2004-08-05
申请号：PCT/AU2004/000067
申请日：2004-01-20
申请人： THALES UNDERWATER SYSTEMS PTY LIMITED , LUC, Francois , JONES, David, L. , HARVEY, Peter , BAKER, Paul , KHOO, Robert , PERIC, Dusko , WU, Nam, Hai , FORD, Doug , MURPHY, Ed , ENGEL, Geoffrey
发明人： LUC, Francois , JONES, David, L. , HARVEY, Peter , BAKER, Paul , KHOO, Robert , PERIC, Dusko , WU, Nam, Hai , FORD, Doug , MURPHY, Ed , ENGEL, Geoffrey
IPC分类号： G01V1/38
CPC分类号： G01V1/20 , G01V1/38
摘要： The apparatus (40) has a sensor (41) disposed on the first end (42) of an elongate connector (43) by means of fixed interface link (79). A recorder unit (44) is disposed on the second end (45) of the connector (43) opposite the first end (42). The connector (43) is bendable within a predefined curvature range. When the apparatus (40) is deployed into the sea, it is adapted to free-fall through the body of water and to land on the seafloor such that the sensor (41) is spaced apart from the recorder unit (44). The length of the connector (43) is dynamically variable within a predefined range so as to eradicate or minimise coupling of any vibration of the recorder unit (44) to the sensor (41). The physical separation of the sensor (41) and the recorder unit (44), together with the mechanical characteristics of the connector (43), ensure that the sensor (41) is substantially vibrationally de-coupled from the recorder unit (44). In other words, the mass of the recorder unit (44) does not inhibit the sensor (41) from responding to seismic waves, and any vibration of the recorder unit (44) (for example due to any water currents that may be flowing in the vicinity of the recorder unit (44) ) is not substantially transmitted to the sensor (41). Hence, the connector (43) constitutes a positive mechanical connection between the sensor (41) and the recorder unit (44) so far as maximum separation distance is concerned, however not so far as seismic or flow induced vibrations are concerned.
摘要翻译：装置（40）具有通过固定接口连杆（79）设置在细长连接器（43）的第一端（42）上的传感器（41）。记录器单元（44）设置在与第一端（42）相对的连接器（43）的第二端（45）上。连接器（43）可在预定的曲率范围内弯曲。当装置（40）展开到海中时，其适于自由落下水体并落在海底上，使得传感器（41）与记录器单元（44）间隔开。连接器（43）的长度在预定范围内是动态可变的，以便消除或最小化记录器单元（44）的任何振动与传感器（41）的耦合。传感器（41）和记录器单元（44）的物理分离以及连接器（43）的机械特性确保传感器（41）与记录器单元（44）基本上振动地脱耦合。换句话说，记录器单元（44）的质量不会阻止传感器（41）响应于地震波，并且记录器单元（44）的任何振动（例如由于可能流入的任何水流）记录器单元（44）的附近）基本上不传送到传感器（41）。因此，只要涉及最大分离距离，连接器（43）就构成了传感器（41）和记录器单元（44）之间的正的机械连接，然而就地震或流动引起的振动而言并不是这样。

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