公开(公告)号：US20150369945A1

公开(公告)日：2015-12-24

申请号：US14561315

申请日：2014-12-05

Applicant: PGS Geophysical AS

Inventor： Geir Andre Motzfeldt DRANGE

IPC: G01V3/165 ,  G01V3/36 ,  G01V1/20

CPC classification number: G01V3/165 ,  G01V1/201 ,  G01V3/12 ,  G01V3/36

Abstract: An apparatus. At least some illustrative embodiments are an apparatus comprising a sensor streamer. The sensor streamer includes at least one seismic streamer section and a first electrode adapter removably attached to the at least one seismic streamer section. The first electrode adapter includes a first electrode, wherein the first electrode is configured to couple to electrical circuitry configured to measure a potential difference between the first electrode at a first potential and a second potential. The conducting member forms a reference potential, wherein the conducting member is floating. The at least one seismic streamer section is without electromagnetic field-sensing components.

Abstract translation: 一种装置 至少一些说明性实施例是包括传感器拖缆的装置。 传感器拖缆包括至少一个地震拖缆段和可移除地连接到至少一个地震拖缆段的第一电极适配器。 第一电极适配器包括第一电极，其中第一电极被配置为耦合到配置成测量第一电极和第二电位之间的第一电极之间的电位差的电路。 导电构件形成参考电位，其中导电构件是浮动的。 所述至少一个地震拖缆部分没有电磁场感测部件。

公开(公告)号：US20150369934A1

公开(公告)日：2015-12-24

申请号：US14838923

申请日：2015-08-28

Applicant: PGS Geophysical AS

Inventor： Andre Stenzel ,  Bengt Finnoen ,  Youlin Hu

IPC: G01V1/20 ,  B63C7/26

CPC classification number: G01V1/201 ,  B63C7/26 ,  G01V1/38 ,  G01V1/3843 ,  G01V2001/207 ,  Y10T29/49828

Abstract: Pressure activated linear locking mechanisms and related methods. At least some of the illustrative embodiments are systems including: a cover member defining an inner surface, an outer surface, a length, and a first locking portion; a first hollow defined in the locking portion, the first hollow extending along the length of the cover member; a locking member defining a first appendage extending along a first side, the first appendage defines a cross-section and an internal volume; said first appendage disposed within the first hollow, and when the releasable cover is exposed to atmospheric pressure, the first appendage in an inflated condition; and the first appendage is configured to transition to a deflated condition in response to a predetermined pressure greater than the initial pressure.

Abstract translation: 压力激活线性锁定机构及相关方法。 至少一些说明性实施例是系统，其包括：限定内表面，外表面，长度和第一锁定部分的盖构件; 限定在所述锁定部分中的第一中空部，所述第一中空部沿着所述盖部件的长度延伸; 限定沿着第一侧延伸的第一附件的锁定构件，所述第一附件限定横截面和内部体积; 所述第一附属物设置在所述第一中空部内，并且当所述可释放盖暴露于大气压时，所述第一附属物处于膨胀状态; 并且所述第一附件被配置为响应于大于所述初始压力的预定压力而转变到放气状态。

公开(公告)号：US20150362606A1

公开(公告)日：2015-12-17

申请号：US14736926

申请日：2015-06-11

Applicant: Seabed Geosolutions B.V.

Inventor： Richard Edward Henman ,  John Fredrik Næs ,  Arne Henning Rokkan ,  Mariann Ervik ,  Leif Johan Larsen ,  Fredrik Lund ,  Robert Schistad

IPC: G01V1/20 ,  G01V1/38

CPC classification number: G01V1/3852 ,  B63B21/08 ,  B63B21/58 ,  B63B21/66 ,  G01V1/201 ,  G01V1/38 ,  G01V1/3808 ,  G01V1/3843

Abstract: Embodiments, including apparatuses, systems and methods, for attaching autonomous seismic nodes to a deployment cable. In an embodiment, an apparatus includes a seismic node having a direct attachment mechanism configured to directly attach the seismic node to a deployment line, the direct attachment mechanism being configurable between an open and/or unlocked position and a closed and/or locked position to release and retain the deployment line.

Abstract translation: 包括用于将自主地震节点附接到展开电缆的装置，系统和方法的实施例。 在一个实施例中，一种装置包括具有直接连接机构的地震节点，所述直接附接机构被配置为将地震节点直接附接到展开线路，该直接附接机构可在打开和/或解锁位置与闭合和/或锁定位置之间配置， 释放并保留部署线。

公开(公告)号：US20150346366A1

公开(公告)日：2015-12-03

申请号：US14512038

申请日：2014-10-10

Applicant: SERCEL

Inventor： Gaetan Mellier ,  Simon Leboeuf ,  Alexis Duboue ,  Noel Voisin

IPC: G01V1/22

CPC classification number: G01V1/201 ,  G01V1/38

Abstract: A seismic data acquisition system includes at least one marine seismic streamer towed by a vessel. The at least one seismic streamer includes a seismic telemetry cable, extending along the at least one seismic streamer and adapted to communicate seismic data with the vessel, and connecting modules to which is connected an auxiliary equipment. Each connecting module is connected to the seismic telemetry cable, enabling the auxiliary equipment to communicate auxiliary data with the vessel, via the connecting module and the seismic telemetry cable.

Abstract translation: 地震数据采集系统包括由船舶拖曳的至少一个海洋地震拖缆。 所述至少一个地震拖缆包括地震遥测线缆，沿着所述至少一个地震拖缆延伸并且适于与所述船舶通信地震数据，以及连接辅助设备的连接模块。 每个连接模块连接到地震遥测电缆，使辅助设备能够通过连接模块和地震遥测电缆与船舶通信辅助数据。

公开(公告)号：US20150344705A1

公开(公告)日：2015-12-03

申请号：US14292113

申请日：2014-05-30

Applicant: Teledyne Scientific & Imaging, LLC

Inventor： Rahul Ganguli ,  Vivek Mehrotra ,  J. Eric Henckel

IPC: C09D5/16 ,  G01V13/00

CPC classification number: C09D5/1681 ,  C08K3/08 ,  C09D5/1662 ,  C09D5/1687 ,  C09D7/40 ,  C09D7/61 ,  G01V1/201 ,  G01V1/38 ,  G01V13/00 ,  Y10T428/24413

Abstract: A method for biofouling mitigation using a surface coating with magnetically aligned particles. A coating material that requires curing is provided, to which magnetic particles are added; this coating is applied to a surface. The applied coating is then subjected to a magnetic field in situ such that the magnetic particles are formed into microstructures that render the surface rougher than it would be without the microstructures. The coating is then allowed to cure. The random and non-toxic surface features created by the magnetic particles and magnetic field provide the coated surface with broad spectrum fouling resistance against organisms such as barnacles and bacteria.

Abstract translation: 使用具有磁性排列的颗粒的表面涂层进行生物污染缓解的方法。 提供需要固化的涂料，向其中加入磁性颗粒; 该涂层施加到表面。 然后将施加的涂层原位进行磁场，使得磁性颗粒形成微结构，使表面比没有微结构的表面更粗糙。 然后使涂层固化。 由磁性颗粒和磁场产生的无规和无毒的表面特征为涂层表面提供了广泛的抗生物体（如藤壶和细菌）的结垢抗性。

公开(公告)号：US20150325335A1

公开(公告)日：2015-11-12

申请号：US14804237

申请日：2015-07-20

Applicant: Hjortur Erlendsson

Inventor： Hjortur Erlendsson

IPC: H01B7/14 ,  H01B11/22 ,  H01B13/26 ,  H01B13/32 ,  H01B7/02 ,  H01B13/00

CPC classification number: H01B7/145 ,  G01V1/201 ,  G01V2001/204 ,  H01B7/0208 ,  H01B7/0266 ,  H01B7/045 ,  H01B11/22 ,  H01B13/0006 ,  H01B13/22 ,  H01B13/2606 ,  H01B13/2626 ,  H01B13/32 ,  Y10T29/49117 ,  Y10T29/49119

Abstract: A production method for a headline sonar cable (20, 120) that exhibits a high breaking-strength and lighter weight than a conventional steel headline sonar cable. Producing the headline sonar cable (20, 120) is characterized by the steps of: a. providing an elongatable internally-located conductive structure (34, 134) that is adapted for data signal transmission; and b. braiding a strength-member jacket layer (52) of polymeric material around the structure (34, 134) while ensuring that the structure (34, 134) is slack when surrounded by the jacket layer (52). The structure (34, 134) of the cable (20, 120) retains conductivity upon stretching of the jacket layer (52) surrounding the structure (34, 134) that lengthens the cable (20, 120). For one embodiment of the method a conductor (20) wrapped around a rod (24) and enclosed within a sheath layer (32) forms the structure (34, 134). For another embodiment of the method a braided conductor (122) enclosed within a braided sheath (124) and a polymeric layer (132) forms the structure (34, 134).

Abstract translation: 一种标准声纳电缆（20,120）的制造方法，其具有比常规钢标题声纳电缆高的断裂强度和较轻的重量。 生产标准声纳电缆（20,120）的特征在于以下步骤：a。 提供适于数据信号传输的可伸长的位于内部的导电结构（34,134）; 和b。 在所述结构（34,134）周围编织聚合物材料的强度构件护套层（52），同时确保当被所述护套层（52）包围时，所述结构（34,134）松弛。 电缆（20,120）的结构（34,134）在延伸围绕结构（34,134）的护套层（52）延伸电缆（20,120）时保持导电性。 对于该方法的一个实施例，缠绕在杆（24）上并封装在护套层（32）内的导体（20）形成结构（34,134）。 对于该方法的另一实施例，封闭在编织护套（124）和聚合物层（132）内的编织导体（122）形成结构（34,134）。

公开(公告)号：US20150294762A1

公开(公告)日：2015-10-15

申请号：US14682956

申请日：2015-04-09

Applicant: Schlumberger Technology Corporation

Inventor： Joseph Varkey ,  Sheng Chang ,  Burcu Unal Altintas ,  Willem Wijnberg ,  Qingdi Huang ,  Jushik Yun

IPC: H01B7/18 ,  H01B3/30 ,  H01B13/06 ,  H01B7/02

CPC classification number: H01B3/307 ,  F16L11/088 ,  F16L11/12 ,  F16L11/124 ,  F16L11/127 ,  F16L2201/30 ,  F16L2201/60 ,  G01V1/137 ,  G01V1/201 ,  G01V2001/204 ,  H01B3/305 ,  H01B3/445

Abstract: A cable that include a hose having a conductor located thereabout. A first strength member layer is located about the conductor. A second strength member layer is located about the first strength member layer. A first jacket is located about the second strength member layer. The first jacket is fiber-reinforced. A second jacket is located about the first jacket. The second jacket is a contrasting color to the first jacket.

Abstract translation: 包括软管的电缆，导线位于其周围。 第一强度构件层位于导体周围。 第二强度构件层位于第一强度构件层周围。 第一夹套位于第二强度构件层周围。 第一件夹克是纤维增强的。 第二件夹克围绕第一件夹克。 第二件夹克是与第一件夹克对比的颜色。

公开(公告)号：US09116253B2

公开(公告)日：2015-08-25

申请号：US13343560

申请日：2012-01-04

Applicant: Andre Stenzel ,  Bruce William Harrick ,  Steven Michael Roberts

Inventor： Andre Stenzel ,  Bruce William Harrick ,  Steven Michael Roberts

IPC: G01V1/20 ,  C09D5/16 ,  A01N59/16

CPC classification number: G01V1/201 ,  A01N59/16 ,  B63B21/66 ,  B63B59/04 ,  C09D5/16 ,  C09D5/1618 ,  G01V1/38 ,  A01N25/04 ,  A01N25/10 ,  A01N25/24 ,  A01N25/34

Abstract: Systems and methods comprise marine geophysical equipment with polyurethane-based material at least partially covering a surface. The surface also at least partially coated with a suspension medium and with a biocide. A method comprises disposing such marine geophysical equipment in a body of water. A method comprises applying a suspension medium and a biocide to a surface at least partially covered with a polyurethane-based material.

Abstract translation: 系统和方法包括具有至少部分地覆盖表面的基于聚氨酯的材料的海洋地球物理设备。 表面还至少部分地涂覆有悬浮介质和杀生物剂。 一种方法包括将这种海洋地球物理设备放置在水体中。 一种方法包括将悬浮介质和杀生物剂施用至至少部分地被基于聚氨酯的材料覆盖的表面。

公开(公告)号：US20150234064A1

公开(公告)日：2015-08-20

申请号：US14425268

申请日：2013-09-04

Applicant: PHOENIX ENGINEERING SYSTEMS PTY LTD

Inventor： Donald Innes Wallace ,  Paul Lee

IPC: G01V1/20 ,  G01V1/38

CPC classification number: G01V1/201 ,  G01V1/38 ,  G01V2001/205

Abstract: A vibration isolation section (20) for use in a seismic streamer system, the section (20) including: a resilient sheath (30) arranged to be connected end-to-end in a seismic streamer (16) system and receive axial loads transmitted through the system, wherein the resilient sheath (30) is configured to stretch upon receiving an axial load and substantially convert the axial load into a radial stress; and a first support structure (42) housed within a first portion (31) of the resilient sheath(30), the first support structure (42) including one or more members having substantially constant diameter under load which provides a reaction to the radial stress, thereby reacting to the received axial load; and a second support structure housed at least in part within a second portion (33) of the resilient sheath(30), the second support structure including an enclosed fixed volume fluid filled flexible chamber (46) at least partially housed within the second portion (33) of the resilient sheath (30), the fluid filled flexible chamber (46) providing a reaction to the radial stress thereby reacting to the received axial load.

Abstract translation: 一种用于地震拖缆系统的隔振部分（20），所述部分（20）包括：弹性护套（30），布置成在地震拖缆（16）系统中端对端连接并且接收传递的轴向载荷 通过所述系统，其中所述弹性护套（30）构造成在接受轴向载荷时拉伸并且将所述轴向载荷基本上转化为径向应力; 以及容纳在所述弹性护套（30）的第一部分（31）内的第一支撑结构（42），所述第一支撑结构（42）包括一个或多个在负载下具有基本上恒定直径的构件，所述构件提供对径向应力的反作用 从而对所接收的轴向载荷作出反应; 以及第二支撑结构，其至少部分地容纳在所述弹性护套（30）的第二部分（33）内，所述第二支撑结构包括至少部分地容纳在所述第二部分内的封闭的固定容积流体填充柔性室（46） 所述弹性护套（30）的所述流体填充柔性室（46）对所述径向应力提供反应，从而与所接收的轴向载荷反应。

公开(公告)号：US09110189B2

公开(公告)日：2015-08-18

申请号：US14252747

申请日：2014-04-14

Applicant: Hjortur Erlendsson

Inventor： Hjortur Erlendsson

IPC: G02B6/44 ,  G01V1/20 ,  H01B13/22 ,  H01B7/04

CPC classification number: H01B7/145 ,  G01V1/201 ,  G01V2001/204 ,  H01B7/0208 ,  H01B7/0266 ,  H01B7/045 ,  H01B11/22 ,  H01B13/0006 ,  H01B13/22 ,  H01B13/2606 ,  H01B13/2626 ,  H01B13/32 ,  Y10T29/49117 ,  Y10T29/49119

Abstract: A production method for a headline sonar cable (20, 120) that exhibits a high breaking-strength and lighter weight than a conventional steel headline sonar cable. Producing the headline sonar cable (20, 120) is characterized by the steps of: a. providing an elongatable internally-located conductive structure (34, 134) that is adapted for data signal transmission; and b. braiding a strength-member jacket layer (52) of polymeric material around the structure (34, 134) while ensuring that the structure (34, 134) is slack when surrounded by the jacket layer (52). The structure (34, 134) of the cable (20, 120) retains conductivity upon stretching of the jacket layer (52) surrounding the structure (34, 134) that lengthens the cable (20, 120). For one embodiment of the method a conductor (20) wrapped around a rod (24) and enclosed within a sheath layer (32) forms the structure (34, 134). For another embodiment of the method a braided conductor (122) enclosed within a braided sheath (124) and a polymeric layer (132) forms the structure (34, 134).

Abstract translation: 一种标准声纳电缆（20,120）的制造方法，其具有比常规钢标题声纳电缆高的断裂强度和较轻的重量。 生产标准声纳电缆（20,120）的特征在于以下步骤：a。 提供适于数据信号传输的可伸长的位于内部的导电结构（34,134）; 和b。 在所述结构（34,134）周围编织聚合物材料的强度构件护套层（52），同时确保当被所述护套层（52）包围时，所述结构（34,134）松弛。 电缆（20,120）的结构（34,134）在延伸围绕结构（34,134）的护套层（52）延伸电缆（20,120）时保持导电性。 对于该方法的一个实施例，缠绕在杆（24）上并封装在护套层（32）内的导体（20）形成结构（34,134）。 对于该方法的另一实施例，封闭在编织护套（124）和聚合物层（132）内的编织导体（122）形成结构（34,134）。