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    • 1. 发明申请
    • MARINE PIPELAYING AND HANDLING OF RIGID PIPELINES
    • 海洋管道和刚果管道的处理
    • WO1997020160A1
    • 1997-06-05
    • PCT/GB1996002905
    • 1996-11-25
    • COFLEXIP STENA OFFSHORE LIMITEDMARTIN, Robert, George
    • COFLEXIP STENA OFFSHORE LIMITED
    • F16L01/23
    • F16L1/23
    • A support element (12) for supporting a rigid pipeline (10) during plastic bending of the pipeline has a transverse cross-sectional configuration such that, in use, a pipeline supported by the support element contacts said support element at at least first and second points (14, 16) disposed substantially symmetrically on either side of the plane of bending, the points of contact being arranged such that resultant forces between the pipeline and the support element act at points which are disposed substantially symmetrically about the plane of bending and which are spaced apart by an angle a greater than 90 DEG and less than 180 DEG around the cross-sectional circumference of the pipeline. The angle a is selected so as to minimise ovalisation for a pipeline of given material, diameter and wall thickness, and for a given bend radius and pipeline tension, or to provide useful modification of ovalisation over ranges of these parameters. For most practical applications, the optimal angle a will be greater than 90 DEG and less than or equal to 150 DEG . In preferred embodiments of the invention, the angle a is greater than 90 DEG and less than or equal to 110 DEG .
    • 用于在管道的塑性弯曲期间支撑刚性管道(10)的支撑元件(12)具有横向横截面构造,使得在使用中由支撑元件支撑的管道至少在第一和第二位置处接触所述支撑元件 点(14,16)基本上对称地设置在弯曲平面的任一侧上,接触点被布置成使得管道和支撑元件之间的合力作用在围绕弯曲平面基本对称设置的点处,并且其中 在管道的横截面周长上大于90度且小于180度的角度间隔开。 角度αa被选择以便使给定材料的管道的椭圆化最小化,直径和壁厚以及给定的弯曲半径和管线张力,或者在这些范围的范围内提供椭圆化的有用修改 参数。 对于大多数实际应用,最佳角度αa将大于90度且小于或等于150度。 在本发明的优选实施方案中,角度αa大于90度且小于或等于110°。
    • 2. 发明申请
    • APPARATUS FOR HANDLING ELONGATE MEMBERS
    • 用于处理长城会员的设备
    • WO1996030686A1
    • 1996-10-03
    • PCT/GB1996000638
    • 1996-03-19
    • COFLEXIP STENA OFFSHORE LIMITEDROBERTS, Stephen, JohnMARTIN, Robert, GeorgeCOUTAREL, AlainPERREAU-SAUSSINE, Dominique
    • COFLEXIP STENA OFFSHORE LIMITED
    • F16L01/20
    • B65H51/14B63B35/03F16L1/202F16L1/235
    • Improvements relating to apparatus for diverting a pipeline or other elongate member about an arcuate path, most particularly for diverting a rigid pipeline (300) from a horizontal assembly axis to a desired launch angle from a marine pipelaying vessel (44), including the following: the use of a helicoidal arcuate pipeline path enabling the pipeline (300) to cross itself prior to launch; the use of multiple caterpillar-type roller track assemblies (302) to define the arcuate pipeline path; a method of initiating pipelaying operations by attaching a pre-bent length of pipe (314) to the leading end of the pipeline (300) and pulling the pipeline around the arcuate path by means of an initiation cable (312) attached to the leading end of the pre-bent pipe, and removing the initiation cable (312) and pre-bent pipe (314) prior to commencing pipelay operations; a method of interrupting pipelay operations by displacing the pipeline (300) radially outwardly from its arcuate path, whereafter the pipeline may be clamped and cut, allowing an abandonment and recovery (A & R) cable (322) to be passed around the arcuate path for A & R operations; the apparatus allows pipeline (300) to be plastically bent in a substantially vertical plane to divert the pipeline from its initial, horizontal orientation to a variable launch angle of up to 90 DEG , and is suited for use on marine pipelaying vessels (44) which are also described.
    • 改进涉及用于使管道或其他细长构件围绕弓形路径转向的设备,最特别地用于将刚性管道(300)从水平组装轴线转移到来自海洋管道铺设船舶(44)的期望的发射角,包括以下: 使用螺旋形弓形管道路径,使管道(300)能够在发射之前自行穿过; 使用多个履带式滚轮轨道组件(302)来限定弓形管道路径; 通过将管道(314)的预弯曲长度附接到管道(300)的前端并且通过附接到前端的引导电缆(312)将管道围绕弓形路径拉动来启动管道铺设操作的方法 的预弯管,并且在开始管道敷设操作之前移除起动电缆(312)和预弯管(314); 通过使管道(300)从其弧形路径径向向外移位来中断管道铺设操作的方法,此后管道可以被夹紧和切割,允许放弃和恢复(A&R)电缆(322)绕弧形路径 为A&R业务; 该设备允许管道(300)在基本上垂直的平面中塑性弯曲,以将管道从其初始水平方向转移到高达90°的可变发射角,并且适用于在海上管道铺设容器(44)上使用, 也被描述。
    • 3. 发明申请
    • PIPE LAYING VESSEL AND METHOD
    • 管式船舶和方法
    • WO1995025237A1
    • 1995-09-21
    • PCT/GB1995000573
    • 1995-03-16
    • STENA OFFSHORE LIMITEDMARTIN, Robert, GeorgeCARMICHAEL, DonaldROBERTS, Stephen, John
    • STENA OFFSHORE LIMITED
    • F16L01/16
    • B63B35/03F16L1/161
    • Methods and apparatus for laying marine pipelines of the type in which the pipeline is assembled along a horizontal axis on board a pipelaying vessel prior to being launched therefrom; in which the pipeline is plastically bent to a desired launch angle and, in most cases, at least partially straightened thereafter. In preferred embodiments, the pipeline is bent through an angle greater than 90 DEG . In the most preferred embodiments, the pipeline is diverted through an angle of substantially 270 DEG , plus or minus an angle allowing variation in the launch angle from the vertical, and crosses itself prior to entering the water. The pipeline (102) is diverted by being passed around a wheel-like diverter structure (104), the pipeline being assembled in multiple fabrication lines to produce stalks which are aligned and connected in a central firing line prior to being fed around the diverter structure. Other variations are also described.
    • 在从其发射之前,沿着水平轴线铺设管道组装在其上的管道铺设船用管道的方法和装置; 其中管道被塑性地弯曲到期望的发射角,并且在大多数情况下,至少部分地将管道弯曲。 在优选实施例中,管道弯曲大于90°的角度。 在最优选的实施例中,管道被转向大致270°的角度,加上或减去允许发射角度与垂直方向发生变化的角度,并且在进入水之前穿过自身。 管道(102)通过围绕轮状分流器结构(104)转向,该管道被组装在多条生产线中以产生在被引导到分流器结构之前在中心点火线对准和连接的杆 。 还描述了其它变化。
    • 6. 发明申请
    • IMPROVEMENTS IN OR RELATING TO BI-METAL LINED PIPE
    • 改进或相关于双金属衬管
    • WO1997034101A1
    • 1997-09-18
    • PCT/GB1997000661
    • 1997-03-11
    • COFLEXIP STENA OFFSHORE LIMITEDMARTIN, Robert, George
    • COFLEXIP STENA OFFSHORE LIMITED
    • F16L09/02
    • B21C37/154F16L9/02F16L58/08
    • A bi-metal lined pipe and methods of forming such a pipe suitable for spooling onto a reel for marine pipelaying applications, the pipe comprising a carbon steel outer pipe and a liner of corrosion resistant metal, in which the liner is secured along its length to the inner surface of the outer pipe by circumferential fixing means having a circumferential shear strength greater than the circumferential shear stress which would be induced by bending the pipe to a predetermined minimum radius of curvature. The circumferential fixing means securing the liner to the outer pipe includes at least one of the following: adhesive agents selected to provide a circumferential shear strength greater than the circumferential shear stress which will be induced by bending a given combination of outer pipe and liner to a predetermined minimum radius; soldering, brazing or other similar technique to produce a mechanically acceptable bond between the liner and the outer pipe without fusing the bulk material; mechanical interlocking of the liner and outer pipe; solid-phase welding, such as electrical resistance spot welding from the interior of the liner. The circumferential fixing means may be used in combination with known friction-bonding techniques.
    • 一种双金属内衬管和形成这种适于缠绕在用于船用管道敷设用的卷轴上的管的方法,该管包括碳钢外管和耐腐蚀金属衬套,其中衬垫沿其长度被固定到 外管的内表面通过周向固定装置具有大于圆周剪切应力的周向剪切强度,这将通过将管道弯曲到预定的最小曲率半径而引起。 将衬套固定到外管的圆周固定装置包括以下中的至少一个:选择粘合剂以提供大于周向剪切应力的周向剪切强度,这将通过将外管和衬套的给定组合弯曲到 预定最小半径; 焊接,钎焊或其他类似技术,以在衬里和外管之间产生机械可接受的接合,而不熔化散装材料; 衬管和外管的机械互锁; 固相焊接,如内衬电阻点焊。 周向固定装置可以与已知的摩擦粘合技术结合使用。
    • 7. 发明申请
    • PIPE LAYING VESSEL AND METHOD
    • 管式船舶和方法
    • WO1995025238A1
    • 1995-09-21
    • PCT/GB1995000574
    • 1995-03-16
    • STENA OFFSHORE LIMITEDMARTIN, Robert, GeorgeCARMICHAEL, DonaldROBERTS, Stephen, John
    • STENA OFFSHORE LIMITED
    • F16L01/16
    • B63B35/03F16L1/161
    • Methods and apparatus for laying marine pipelines of the type in which the pipeline is assembled along a horizontal axis on board a pipe laying vessel prior to being launched therefrom; in which the pipeline is plastically bent to a desired launch angle and, in most cases, at least partially straightened thereafter. In preferred embodiments, the pipeline is bent through an angle greater than 90 DEG . In the most preferred embodiments, the pipeline is diverted, initially upwardly, through an angle of substantially 180 DEG by first bending means (28), prior to being bent downwards to the desired launch angle by second bending means, preferably in the form of an adjustable angle ramp (30). Other variations are also described.
    • 一种用于铺设管道的管道的方法和装置,其中管道沿着水平轴线装配在管道铺设船上, 其中管道被塑性地弯曲到期望的发射角,并且在大多数情况下,至少部分地将管道弯曲。 在优选实施例中,管道弯曲大于90°的角度。 在最优选的实施例中,在通过第二弯曲装置向下弯曲到所需的发射角之前,优选以下述形式,管道首先向上转动通过第一弯曲装置(28)大致180度的角度 可调角度斜坡(30)。 还描述了其它变化。
    • 8. 发明申请
    • PIPELAYING VESSEL AND A METHOD OF CONVERTING A MARITIME VESSEL TO A PIPELAYING VESSEL
    • 管道船和将海运船舶转换成管道船的方法
    • WO1995022484A1
    • 1995-08-24
    • PCT/GB1995000351
    • 1995-02-20
    • STENA OFFSHORE LIMITEDMARTIN, Robert, GeorgeTHOMAS, Philip, Vaughn
    • STENA OFFSHORE LIMITED
    • B63B35/03
    • F16L1/225E05Y2900/402F16L1/203
    • A reel pipelaying vessel of the type having a main pipeline reel (118) mounted for rotation about a horizontal axis, a variable angle pipeline launching ramp (128) having pipeline straightening and tensioning means mounted thereon and having: an improved pipeline launching ramp arrangement including rack and pinion elevator means (140, 142, 144); an improved level winding mechanism for translating the pipeline straightening and tensioning means as the pipe is spooled onto or unspooled from the reel; sea fastening means for restraining axial movement of the reel while the vessel is in transit, thereby increasing the maximum pipeline load for reel bearings (114, 116) of a given load capacity; sponsons (108, 110) for providing additional flotation and strengthening the hull; an improved arrangement of auxiliary reels (120); a cantilever structure (200) for guiding auxiliary lines, providing access to the main reel and protecting the bridge (218) of the vessel; improved pipeline abandonment and recovery arrangements; an improved reel structure; and an improved pipeline clamping arrangement. A method of converting an existing vessel to a reel pipelaying vessel is also described.
    • 一种具有安装用于围绕水平轴线旋转的主管线卷轴(118)的类型的卷管管道铺设船,具有安装在其上的管道矫直和张紧装置的可变角管道发射斜坡(128),其具有:改进的管道启动斜坡装置,包括 齿条和小齿轮升降装置(140,142,144); 一种改进的水平卷绕机构,用于当管被卷绕到卷筒上或从卷轴未套筒时平移管道矫直和张紧装置; 海上紧固装置,用于在容器运输期间抑制卷轴的轴向移动,从而增加给定载荷能力的卷轴轴承(114,116)的最大管道载荷; (108,110),用于提供额外的浮动和加强船体; 辅助卷轴(120)的改进布置; 用于引导辅助线的悬臂结构(200),提供对主卷轴的通路并保护船的桥(218); 改善管道放弃和恢复安排; 改进的卷轴结构; 以及改进的管道夹紧装置。 还描述了将现有容器转换成卷筒管道铺设容器的方法。
    • 9. 发明申请
    • IMPROVEMENTS IN OR RELATING TO MARINE PIPELAYING AND HANDLING OF RIGID TUBULAR MEMBERS
    • 海上管道改善或海上管道成员的处理
    • WO1996012908A1
    • 1996-05-02
    • PCT/GB1995002412
    • 1995-10-12
    • COFLEXIP STENA OFFSHORE LIMITEDMARTIN, Robert, George
    • COFLEXIP STENA OFFSHORE LIMITED
    • F16L01/23
    • F16L1/20F16L1/203F16L1/23
    • Methods and apparatus for controlling the ovality of rigid, tubular members, particularly pipelines in marine pipelaying operations, most particularly in marine pipelaying operations of the type in which the pipeline is subject to plastic deformation. The pipeline is passed through a guide defining a gap dimensioned to apply a compressive force to the pipeline in at least one direction if the diameter of the pipeline in said direction exceeds the width of the gap. The guide may comprise one or more pairs of rollers (40) disposed on either side of the pipeline path, or a flange (52) on one side of the pipeline path and one or more pinch rollers (50) on the other side of the pipeline path. The apparatus may include sensing devices (68) for measuring the ovality of the pipe and automatic control apparatus for varying the dimensions and/or orientation of the guide in response thereto.
    • 用于控制刚性管状构件的椭圆度的方法和装置,特别是在海上管道敷设操作中的管道,特别是在管道遭受塑性变形的类型的船舶管道铺设作业中。 管道通过导向件,该导向件限定了尺寸设置成在至少一个方向上向管道施加压缩力的间隙,如果所述方向上的管道的直径超过间隙的宽度。 引导件可以包括设置在管道路径的任一侧的一对或多对辊(40),或者在管道路径的一侧上的凸缘(52)和位于管道路径的另一侧的一个或多个夹送辊(50) 管道路径。 该装置可以包括用于测量管的椭圆度的感测装置(68)和用于响应于此改变导向件的尺寸和/或取向的自动控制装置。
    • 10. 发明申请
    • IMPROVEMENTS IN OR RELATING TO MARINE PIPELAYING
    • 海上管道改善或相关
    • WO1996012907A1
    • 1996-05-02
    • PCT/GB1995002411
    • 1995-10-12
    • COFLEXIP STENA OFFSHORE LIMITEDMARTIN, Robert, George
    • COFLEXIP STENA OFFSHORE LIMITED
    • F16L01/20
    • F16L1/207F16L1/235
    • Method and apparatus for preventing the buckling of a pipeline (10) on either side of a localised zone of increased stiffness in the pipeline (such as a buckle arrester (12)) when the pipeline is bent around an arcuate path, in which packing elements (14) are located between the pipeline and a pipeline bearing surface (20) defining the arcuate pipeline path on either side of the zone of increased stiffness so as to vary the radius of curvature of the pipeline between a first, greatest value adjacent the zone of increased stiffness, and a second smaller value substantially equal to the radius of curvature of the arcuate pipeline path at a predetermined distance from the zone of increased stiffness on either side thereof. The packing elements (14) comprise a graded series of blocks adapted to be attached to the pipeline on either side of the zone of increased thickness. The blocks may be shaped as required to cooperate with the pipeline and the pipeline bearing surface.
    • 当管道围绕弓形路径弯曲时,用于防止在管道(例如扣环避雷器(12))中的刚度增加的局部区域的任一侧处的管道(10)的弯曲的方法和装置,其中填充元件 (14)位于所述管道和管道支承表面(20)之间,所述管道支承表面限定在所述刚度增加区域的任一侧上的所述弓形管道路径,以便改变所述管道的曲率半径在所述区域附近的第一最大值之间 具有增加的刚度的第二较小值,以及在与其任一侧上增加的刚度区域预定距离处的弓形管道路径的曲率半径基本相等的第二较小值。 包装元件(14)包括适于在增厚厚度区域的任一侧附接到管道的分级系列块。 块可以根据需要成形,以与管道和管道支承表面配合。