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    • 8. 发明申请
    • HIGH STRENGTH CONDUCTIVE CABLE
    • 高强度导电电缆
    • US20150325335A1
    • 2015-11-12
    • US14804237
    • 2015-07-20
    • Hjortur Erlendsson
    • Hjortur Erlendsson
    • H01B7/14H01B11/22H01B13/26H01B13/32H01B7/02H01B13/00
    • H01B7/145G01V1/201G01V2001/204H01B7/0208H01B7/0266H01B7/045H01B11/22H01B13/0006H01B13/22H01B13/2606H01B13/2626H01B13/32Y10T29/49117Y10T29/49119
    • 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).
    • 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)。
    • 9. 发明授权
    • Towing warp
    • 牵引经纱
    • US09110189B2
    • 2015-08-18
    • US14252747
    • 2014-04-14
    • Hjortur Erlendsson
    • Hjortur Erlendsson
    • G02B6/44G01V1/20H01B13/22H01B7/04
    • H01B7/145G01V1/201G01V2001/204H01B7/0208H01B7/0266H01B7/045H01B11/22H01B13/0006H01B13/22H01B13/2606H01B13/2626H01B13/32Y10T29/49117Y10T29/49119
    • 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).
    • 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)。
    • 10. 发明申请
    • BRAIDED ROPE, SUITABLE TO BE USED AS A TOWING WARP, COMPRISING CHANGING PROPERTIES IN THE LENGTH DIRECTION THEREOF
    • 适用于适用于长度方向的变形属性的BRAIDED ROPE
    • US20140033906A1
    • 2014-02-06
    • US13983565
    • 2012-02-06
    • Hjortur Erlendsson
    • Hjortur Erlendsson
    • D07B5/00D04C1/12
    • D07B5/00D04C1/12D07B5/005D07B2201/1012D07B2201/1024D07B2201/1096
    • Disclosed is a tow warp construction and a process for forming such tow warp construction where such tow warp construction has a longer life span, that is retains its useful dimensions and characteristics longer than known tow warp constructions and consequently has a longer useful life span than known tow warp constructions. Most broadly the construction of the tow warp construction of the present disclosure and process for forming such includes gradually and progressively introducing fibers from a second group of fibers (or “second group of linear elements”) into an otherwise conventional stranding process where fibers from a first group of fibers (or “first group of linear elements”) are being stranded to form strands (or “third group of linear elements”), so as to either or both increase the diameter of the strands and/or substitute the first group of fibers by fibers from the second group of fibers, so as to: a) in the first instance, increase the diameter of the formed strands and subsequently of a strength member formed of the strands, especially for increasing the diameter and strength of the tow warp's strength member in and about the splice braid zone where it connects to a towed object such as a paravane; and b) in the second instance, substitute in a predetermined region on the long dimension of the strands and subsequently in a predetermined region on a long dimension of a strength member formed of the strands fibers of higher creep and/or lower melting points by fibers of lower creep and/or higher melting points, especially for increasing the resistance of the tow warps strength member to bending fatigue.
    • 公开了一种丝束经纱结构和用于形成这种丝束经纱结构的方法,其中这种丝束经纱结构具有更长的寿命,这比其已知的丝束经纱构造保持其有用的尺寸和特性更长,因此具有比已知的长的使用寿命 牵引经纱结构。 最广泛地,本公开的丝束经向结构的构造和用于形成的方法包括逐渐逐渐地将来自第二组纤维(或“第二组线性元件”)的纤维引入另外常规的绞合过程中,其中来自 第一组纤维(或“第一组线性元件”)正在被绞合以形成股线(或“第三组线性元件”),以便增加股线的直径和/或替代第一组 的纤维由第二组纤维的纤维制成,以便:a)首先增加所形成的股线的直径,随后增加由股线形成的强度部件,特别是为了增加丝束的直径和强度 在连接到拖曳物体(例如paravane)的接合辫状区域中及其附近的翘曲强度构件; 和b)在第二种情况下,在股线的长尺寸上的预定区域中,并且随后在由纤维形成的强度部件的长尺寸的预定区域中代替,所述强度部件由较高蠕变和/或较低熔点的纤维制成,纤维 较低的蠕变和/或更高的熔点,特别是为了增加丝束翘曲强度部件对弯曲疲劳的阻力。