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    • 1. 发明申请
    • System for reducing towing noise in marine seismic survey streamers
    • 减少海洋地震勘测拖缆噪音的系统
    • US20070258321A1
    • 2007-11-08
    • US11429909
    • 2006-05-08
    • Stig Tenghamn
    • Stig Tenghamn
    • G01V1/38
    • G01V1/201
    • A seismic streamer includes a jacket covering an exterior of the streamer. At least one strength member extends along the length of the jacket. The strength member is disposed inside the jacket. At least one seismic sensor is disposed in an interior of the jacket. An acoustically transparent material fills void space in the interior of the jacket. At least one longitudinally compressible element is disposed at a selected position along the streamer. The longitudinally compressible element fills substantially all void space within a cross-section of the interior of the jacket to separate the material into two compartments, thus attenuating transmission of acoustic waves in the material across the element.
    • 地震拖缆包括覆盖拖缆外部的护套。 至少一个强度构件沿着护套的长度延伸。 加强件设置在护套内。 至少一个地震传感器设置在护套的内部。 透声材料填充护套内部的空隙。 至少一个纵向可压缩元件设置在沿着拖缆的选定位置。 纵向可压缩元件基本上填充护套内部横截面中的所有空隙,以将材料分离成两个隔室,从而衰减穿过元件的材料中的声波的透过。
    • 2. 发明申请
    • Multicomponent marine geophysical data gathering system
    • 多组分海洋地球物理数据采集系统
    • US20060215490A1
    • 2006-09-28
    • US11198477
    • 2005-08-05
    • Stig TenghamnAudun SodalAndre Stenzel
    • Stig TenghamnAudun SodalAndre Stenzel
    • G01V1/38
    • G01V1/181G01V1/185G01V1/189G01V1/3808G01V2210/56
    • In one embodiment the invention comprises a particle velocity sensor that includes a housing with a geophone mounted in the housing. A fluid that substantially surrounds the geophone is included within the housing. The particle velocity sensor has an acoustic impedance within the range of about 750,000 Newton seconds per cubic meter (Ns/m3) to about 3,000,000 Newton seconds per cubic meter (Ns/m3). In another embodiment the invention comprises method of geophysical exploration in which a seismic signal is generated in a body of water and detected with a plurality of co-located particle velocity sensors and pressure gradient sensors positioned within a seismic cable. The output signal of either or both of the particle velocity sensors or the pressure gradient sensors is modified to substantially equalize the output signals from the particle velocity sensors and the pressure gradient sensors. The output signals from particle velocity sensors and pressure gradient sensors are then combined.
    • 在一个实施例中,本发明包括粒子速度传感器,其包括具有安装在壳体中的地震检波器的壳体。 基本上围绕地震检波器的流体包括在壳体内。 粒子速度传感器的声阻抗在每立方米约750,000牛顿秒(Ns / m 3)至约3,000,000牛顿秒/立方米(Ns / m 3 / SUP>)。 在另一个实施例中,本发明包括地球物理勘探方法,其中在水体中产生地震信号并且利用位于地震缆索内的多个共同定位的粒子速度传感器和压力梯度传感器进行检测。 粒子速度传感器或压力梯度传感器中的任一个或两者的输出信号被修改为基本上均衡来自粒子速度传感器和压力梯度传感器的输出信号。 然后组合来自粒子速度传感器和压力梯度传感器的输出信号。
    • 3. 发明申请
    • Apparatus for steering a marine seismic streamer via controlled bending
    • 用于通过受控弯曲转向海洋地震拖缆的装置
    • US20060133199A1
    • 2006-06-22
    • US11016168
    • 2004-12-17
    • Stig Tenghamn
    • Stig Tenghamn
    • G01V1/38
    • B63H25/52B63B21/66G01V1/3826
    • A marine seismic streamer steering device comprises at least two hinged sections pivotally coupled to each other and connected between two adjacent sections of the seismic streamer, and a bend control unit that controls bending of the hinged sections relative to the longitudinal axis of the seismic streamer. The steering device further comprises a roll sensor which determines rotational orientation of the body and transmits the orientation to the bend control unit, a lateral position sensor which determines lateral position of the body and transmits the lateral position to the bend control unit, and a depth sensor which determines depth of the body and transmits the depth to the bend control unit. The bend control unit then controls the bending of the hinged sections based on the transmitted rotational orientation, lateral position, and depth of the body.
    • 海洋地震拖缆转向装置包括至少两个彼此枢转地联接并连接在地震拖缆的两个相邻部分之间的铰接部分,以及弯曲控制单元,其控制铰接部分相对于地震拖缆的纵向轴线的弯曲。 所述转向装置还包括辊传感器,所述辊传感器确定所述主体的旋转定向并将所述取向传递到所述弯曲控制单元;横向位置传感器,其确定所述主体的横向位置并将所述横向位置传递到所述弯曲控制单元;以及深度 传感器,其确定身体的深度并将深度传输到弯曲控制单元。 弯曲控制单元然后基于传送的旋转方位,横向位置和身体的深度来控制铰接部分的弯曲。
    • 6. 发明申请
    • Apparatus for attenuating noise in marine seismic streamers
    • 用于衰减海洋地震拖缆噪声的装置
    • US20060193203A1
    • 2006-08-31
    • US11059497
    • 2005-02-16
    • Stig TenghamnAndre Stenzel
    • Stig TenghamnAndre Stenzel
    • G01V1/38
    • G01V1/201
    • A marine seismic streamer has a hydrophone housing positioned in the streamer with the hydrophone housing having ends and rigid side walls, a hydrophone positioned in the hydrophone housing, a soft compliant solid material filling the housing, and openings in the hydrophone housing adapted to substantially permit passage of pressure waves and to substantially attenuate passage of shear waves. Another embodiment is a hydrophone housing having ends, rigid side walls, and openings in the hydrophone housing adapted to substantially permit passage of pressure waves and to substantially attenuate passage of shear waves. The openings are open ends of the housing, in the side walls of the housing, in the end walls of the housing, or in both the side walls and end walls of the housing.
    • 海洋地震拖缆具有位于拖缆中的水听器壳体,水听器壳体具有端部和刚性侧壁,定位在水听器壳体中的水听器,填充壳体的柔性柔性固体材料以及水听器壳体中适于基本上允许的开口 压力波的通过并且基本上衰减剪切波的通过。 另一个实施例是在水听器壳体中具有端部,刚性侧壁和开口的水听器壳体,其适于基本上允许压力波的通过并且基本上衰减剪切波的通过。 开口是壳体的开口端,壳体的侧壁,壳体的端壁,或者在壳体的侧壁和端壁的两侧。
    • 7. 发明申请
    • Motion sensors in a marine seismic streamer
    • 海洋地震拖缆中的运动传感器
    • US20060133202A1
    • 2006-06-22
    • US11021919
    • 2004-12-22
    • Stig Tenghamn
    • Stig Tenghamn
    • G01V1/38
    • G01V1/38
    • An apparatus is disclosed for determining particle motion in a body of water. The apparatus includes a cable adapted to be towed in the water by a vessel. A first sensor responsive to particle motion in the water is coupled to the cable. A second sensor responsive to particle motion is disposed proximate the first sensor. The second sensor is arranged such that its sensitive axis is disposed at a substantially constant displacement with respect to a sensitive axis of the first sensor. The apparatus also includes means for determining an orientation of at least one of the first and second sensors with respect to Earth's gravity.
    • 公开了一种用于确定水体中的颗粒运动的装置。 该装置包括适于由船舶在水中拖曳的电缆。 响应于水中的颗粒运动的第一传感器耦合到电缆。 响应于粒子运动的第二传感器设置在第一传感器附近。 第二传感器布置成使得其感测轴相对于第一传感器的敏感轴线以基本恒定的位移布置。 该装置还包括用于确定第一和第二传感器中的至少一个相对于地球重力的取向的装置。