公开(公告)号：US20140265320A1

公开(公告)日：2014-09-18

申请号：US13846253

申请日：2013-03-18

Applicant: Jack Pollack ,  David C. Riggs

Inventor： Jack Pollack ,  David C. Riggs

IPC: E21B17/042

CPC classification number: E21B17/042 ,  F16L15/004 ,  F16L15/06

Abstract: In a pipe joint where two pipe sections (14, 16) have threadably engaged end portions (17, 18), joint ends (32, 34) are substantially sealed to each other by a sealing surface (40, 50) on one pipe section that substantially abuts a sealing surface (42, 52) on the other pipe section. In one joint, a ring-shaped cutout (121, FIG. 7) is formed in a first pipe section and a ring-shaped spacer (120) is located in the cutout. The spacer is chosen from several that have slightly different lengths so the spacer end contacts the corresponding sealing surface (130). In a pipe string used to carry corrosive fluid, the inner surface (44) of adjacent pipe sections is covered with a corrosion resistant coating (70, 72). Where the sealing surface is connected to a rounded corner (82, 84), the coating extends to and along the sealing surfaces (40, 42). Where there are sharp corners (80) at the intersection of the inside surface (40) with the sealing surface (40B, 42B), the coating does not extend along the sealing surfaces.

Abstract translation: 在两个管段（14,16）具有螺纹接合端部（17,18）的管接头中，接合端（32,34）通过一个管段上的密封表面（40,40）彼此基本密封 其基本上邻接在另一个管段上的密封表面（42,52）。 在一个接头中，环形切口（121，图7）形成在第一管段中，并且环形间隔件（120）位于切口中。 间隔件选自具有稍微不同长度的几个，因此间隔件端部接触相应的密封表面（130）。 在用于承载腐蚀性流体的管柱中，相邻管段的内表面（44）覆盖有耐腐蚀涂层（70,72）。 当密封表面连接到圆角（82,84）时，涂层延伸到密封表面（40,42）并沿着密封表面（40,42）。 在内表面（40）与密封表面（40B，42B）的交点处有尖角（80）的情况下，涂层不会沿密封表面延伸。

公开(公告)号：US20100119307A1

公开(公告)日：2010-05-13

申请号：US12527073

申请日：2008-02-13

Applicant: Jack Pollack ,  Denis Patrick Riordan ,  David C. Riggs

Inventor： Jack Pollack ,  Denis Patrick Riordan ,  David C. Riggs

IPC: F16L1/12 ,  B66F11/00 ,  F16L1/16

CPC classification number: F16L1/19 ,  B63B35/03

Abstract: A system usable with a pipe laying vessel, includes a support frame, such as a deck frame of the vessel, and a loader arm which is movable between a loading position and an upright position. The loader arm is provided with a pipe section manipulation system. A first clamping member is provided having a substantially fixed position with respect to the support frame. The first clamping member is operable between a clamped position for supporting the weight of the pipeline, and a released position for allowing the pipeline to be lowered. A second clamping member is movable between an upper position and a lower position. The second clamping member is operable between a clamped position for supporting the weight of the pipeline during movement from the upper position to the lower position, and a released position for moving the second clamping member from the lower position to the upper position.

Abstract translation: 可与管铺设容器一起使用的系统包括诸如容器的甲板框架的支撑框架和可在装载位置和直立位置之间移动的装载臂。 装载臂设有管段操纵系统。 设置有相对于支撑框架具有大致固定位置的第一夹紧构件。 第一夹紧构件在用于支撑管道的重量的夹紧位置和用于允许管道降低的释放位置之间可操作。 第二夹紧构件可在上部位置和下部位置之间移动。 第二夹紧构件在从上部位置到下部位置的运动期间在用于支撑管道的重量的夹紧位置和用于将第二夹紧构件从下部位置移动到上部位置的释放位置之间可操作。

公开(公告)号：US20080112763A1

公开(公告)日：2008-05-15

申请号：US11595707

申请日：2006-11-10

Applicant: Jack Pollack ,  David C. Riggs

Inventor： Jack Pollack ,  David C. Riggs

IPC: F16L1/12

CPC classification number: F16L1/12 ,  E21B17/085

Abstract: A pipe string (44) is pulled out by a tug boat (30) from a floating structure (12) such as a production vessel, as pipe sections (54, 56) are connected in series on the vessel, to eventually lay the pipe string in a catenary curve from the vessel to the sea floor and then along the sea floor to a distant subsea well head (86). To save time and cost in coupling the pipe sections, lower fatigue resistant pipe couplings, such as non weld-on couplings (120) that include a threaded sleeve (134), are used to connect pipe sections that will lie in a quiescent zone such as on the sea floor (zone Az), and in a zone (Cz) lying along the middle of the catenary curve. Higher fatigue resistant pipe couplings such as weld-on couplings (150) are used along active zones such as top and bottom zones (Dz, Bz) of the catenary curve.

Abstract translation: 当管段（54,56）串联连接在容器上时，管柱（44）由拖船（30）从诸如生产容器的浮动结构（12）拉出，最终将管 从船只到海底的连线曲线，然后沿着海底到远处的海底井（86）。 为了节省连接管段的时间和成本，使用较低的抗疲劳管接头，例如包括螺纹套筒（134）的非焊接接头（120），以连接将位于静止区域 如在海底（区域Az）和沿着悬链曲线中间的区域（Cz）。 沿着悬链曲线的顶部和底部区域（Dz，Bz）的有效区域使用较高的耐疲劳管接头，例如焊接联轴器（150）。

公开(公告)号：US07651137B2

公开(公告)日：2010-01-26

申请号：US11711528

申请日：2007-02-27

Applicant: Jack Pollack ,  David C. Riggs

Inventor： Jack Pollack ,  David C. Riggs

IPC: F16L15/00 ,  F16L58/02 ,  E21B17/01 ,  B23P25/00

CPC classification number: F16L1/206 ,  F16L58/182 ,  F16L59/18 ,  Y10T29/49865 ,  Y10T29/49885 ,  Y10T29/49888 ,  Y10T29/49982

Abstract: A pipeline (20) that lies primarily in the sea and that is formed of multiple steel pipe sections connected in tandem at pipe joints, includes a protective coating around the pipe sections and around the pipe joints. Each pipe section is first covered, at an onshore facility, by an initial coating (30, 32) that extends along at least 80% of the pipe section length while leaving its ends uncovered, to leave gripping areas (40, 42) where the steel of the pipe is uncovered so the pipe can be clamped by tools such as those with steel jaws to position and slide it axially, or turn it, or prevent it from turning. After a pair of pipe sections are connected, a completion coating (50) is applied around the pipe joint to leave the pipeline with a coating around all of it.

Abstract translation: 主要在海中并且由在管接头处串联连接的多个钢管段形成的管道（20）包括围绕管段和管接头周围的保护涂层。 每个管段首先在陆上设施通过初始涂层（30,32）覆盖，该初始涂层沿着管段长度的至少80％延伸，同时使其端部未被覆盖，以留下抓握区域（40,42），其中 钢管未被覆盖，所以管子可以用诸如钢颚的工具夹紧，以便轴向位置和滑动，或者转动或阻止它转动。 在连接一对管段之后，在管接头周围施加完成涂层（50），以使管道在其周围具有涂层。

公开(公告)号：US08366352B2

公开(公告)日：2013-02-05

申请号：US12527073

申请日：2008-02-13

Applicant: Jack Pollack ,  Denis Patrick Riordan ,  David C. Riggs

Inventor： Jack Pollack ,  Denis Patrick Riordan ,  David C. Riggs

IPC: F16L1/15 ,  F16L1/235 ,  B66F11/00

CPC classification number: F16L1/19 ,  B63B35/03

Abstract: A system usable with a pipe laying vessel, includes a support frame, such as a deck frame of the vessel, and a loader arm which is movable between a loading position and an upright position. The loader arm is provided with a pipe section manipulation system. A first clamping member is provided having a substantially fixed position with respect to the support frame. The first clamping member is operable between a clamped position for supporting the weight of the pipeline, and a released position for allowing the pipeline to be lowered. A second clamping member is movable between an upper position and a lower position. The second clamping member is operable between a clamped position for supporting the weight of the pipeline during movement from the upper position to the lower position, and a released position for moving the second clamping member from the lower position to the upper position.

Abstract translation: 可与管铺设容器一起使用的系统包括诸如容器的甲板框架的支撑框架和可在装载位置和直立位置之间移动的装载臂。 装载臂设有管段操纵系统。 设置有相对于支撑框架具有大致固定位置的第一夹紧构件。 第一夹紧构件在用于支撑管道的重量的夹紧位置和用于允许管道降低的释放位置之间可操作。 第二夹紧构件可在上部位置和下部位置之间移动。 第二夹紧构件在从上部位置到下部位置的运动期间在用于支撑管道的重量的夹紧位置和用于将第二夹紧构件从下部位置移动到上部位置的释放位置之间可操作。

公开(公告)号：US07744312B2

公开(公告)日：2010-06-29

申请号：US11595707

申请日：2006-11-10

Applicant: Jack Pollack ,  David C. Riggs

Inventor： Jack Pollack ,  David C. Riggs

IPC: F16L1/12 ,  E21B17/01

CPC classification number: F16L1/12 ,  E21B17/085

Abstract: A pipe string (44) is pulled out by a tug boat (30) from a floating structure (12) such as a production vessel, as pipe sections (54, 56) are connected in series on the vessel, to eventually lay the pipe string in a catenary curve from the vessel to the sea floor and then along the sea floor to a distant subsea well head (86). To save time and cost in coupling the pipe sections, lower fatigue resistant pipe couplings, such as non weld-on couplings (120) that include a threaded sleeve (134), are used to connect pipe sections that will lie in a quiescent zone such as on the sea floor (zone Az), and in a zone (Cz) lying along the middle of the catenary curve. Higher fatigue resistant pipe couplings such as weld-on couplings (150) are used along active zones such as top and bottom zones (Dz, Bz) of the catenary curve.

Abstract translation: 当管段（54,56）串联连接在容器上时，管柱（44）由拖船（30）从诸如生产容器的浮动结构（12）拉出，最终将管 从船只到海底的连线曲线，然后沿着海底到远处的海底井（86）。 为了节省连接管段的时间和成本，使用较低的抗疲劳管接头，例如包括螺纹套筒（134）的非焊接接头（120），以连接将位于静止区域 如在海底（区域Az）和沿着悬链曲线中间的区域（Cz）。 沿着悬链曲线的顶部和底部区域（Dz，Bz）的有效区域使用较高的耐疲劳管接头，例如焊接联轴器（150）。

公开(公告)号：US20070210577A1

公开(公告)日：2007-09-13

申请号：US11711528

申请日：2007-02-27

Applicant: Jack Pollack ,  David C. Riggs

Inventor： Jack Pollack ,  David C. Riggs

IPC: F16L25/00

CPC classification number: F16L1/206 ,  F16L58/182 ,  F16L59/18 ,  Y10T29/49865 ,  Y10T29/49885 ,  Y10T29/49888 ,  Y10T29/49982

Abstract: A pipeline (20) that lies primarily in the sea and that consists of multiple steel pipe sections connected in tandem at pipe joints, includes a protective coating around the pipe sections and around the pipe joints. Each pipe section is first covered, at an onshore facility, by an initial coating (30, 32) that extends along at least 80% of the pipe section length while leaving its ends uncovered, to leave gripping areas (40, 42) where the steel of the pipe is uncovered so the pipe can be clamped by tools such as those with steel jaws to position and slide it axially, or turn it, or prevent it from turning. After a pair of pipe sections are connected, a completion coating (50) is applied around the pipe joint to leave the pipeline with a coating around all of it.

Abstract translation: 主要位于海上并由管接头串联连接的多个钢管段的管道（20）包括围绕管段和管接头周围的保护涂层。 每个管段首先在陆上设施通过初始涂层（30,32）覆盖，该初始涂层沿着管段长度的至少80％延伸，同时使其端部未被覆盖，以留下抓握区域（40,42），其中 钢管未被覆盖，所以管子可以用诸如钢颚的工具夹紧，以便轴向位置和滑动，或者转动或阻止它转动。 在连接一对管段之后，在管接头周围施加完成涂层（50），以使管道在其周围具有涂层。

公开(公告)号：US20110227338A1

公开(公告)日：2011-09-22

申请号：US13013739

申请日：2011-01-25

Applicant: Jack Pollack ,  David C. Riggs

Inventor： Jack Pollack ,  David C. Riggs

IPC: F16L15/04 ,  F16L15/06 ,  F16L15/08 ,  B23P17/04

CPC classification number: F16L15/004 ,  E21B17/042 ,  Y10T29/49826

Abstract: In a pipe joint where two pipe sections (14, 16) have threadably engaged end portions (17, 18), joint ends (32, 34) are substantially sealed to each other by a sealing surface (40, 50) on one pipe section that substantially abuts a sealing surface (42, 52) on the other pipe section. In one joint, a ring-shaped cutout (121, FIG. 7) is formed in a first pipe section and a ring-shaped spacer (120) is located in the cutout. The spacer is chosen from several that have slightly different lengths so the spacer end contacts the corresponding sealing surface (130). In a pipe string used to carry corrosive fluid, the inner surface (44) of adjacent pipe sections is covered with a corrosion resistant coating (70, 72). Where the sealing surface is connected to a rounded corner (82, 84), the coating extends to and along the sealing surfaces (40, 42). Where there are sharp corners (80) at the intersection of the inside surface (40) with the sealing surface (40B, 42B), the coating does not extend along the sealing surfaces.

Abstract translation: 在两个管段（14,16）具有螺纹接合端部（17,18）的管接头中，接合端（32,34）通过一个管段上的密封表面（40,40）彼此基本密封 其基本上邻接在另一个管段上的密封表面（42,52）。 在一个接头中，环形切口（121，图7）形成在第一管段中，并且环形间隔件（120）位于切口中。 间隔件选自具有稍微不同长度的几个，因此间隔件端部接触相应的密封表面（130）。 在用于承载腐蚀性流体的管柱中，相邻管段的内表面（44）覆盖有耐腐蚀涂层（70,72）。 当密封表面连接到圆角（82,84）时，涂层延伸到密封表面（40,42）并沿着密封表面（40,42）。 在内表面（40）与密封表面（40B，42B）的交点处有尖角（80）的情况下，涂层不会沿密封表面延伸。

公开(公告)号：US07373986B2

公开(公告)日：2008-05-20

申请号：US11243128

申请日：2005-10-04

Applicant: Jack Pollack ,  David C. Riggs

Inventor： Jack Pollack ,  David C. Riggs

IPC: E21B29/12

CPC classification number: E21B43/0107 ,  F16B7/0413 ,  F16B21/04

Abstract: A riser connector connects the upper portion of a riser (12) having a latching enlargement (32) to a receptacle (14) on a vessel (16), so the riser upper end (22) can connect to a fluid coupling (42) leading to a conduit (40) on the vessel. A double-click mechanism (88), with parts on the enlargement and on the receptacle, turns a load ring on the enlargement to latch the enlargement in place when it is lifted to an upper position and lowered to a latched position, and releases it by again lifting and lowering. A cable coupling (24) is temporarily mounted on the top of the riser to enable the riser to be lifted by a cable (26), the cable coupling being later removed to connect the riser upper end to the fluid coupling on the vessel.

Abstract translation: 提升器连接器将具有闩锁放大器（32）的提升管（12）的上部连接到容器（16）上的容器（14），因此提升管上端（22）可连接到流体联接器（42） 导致容器上的导管（40）。 一个双击机构（88），放大部分和插座上的一个放大器上的一个负载环，当放大到一个上部位置并放大到一个锁定位置时，放大放大就可将其放大 再次升降。 电缆联接器（24）临时安装在提升管的顶部上以使得提升管能够被电缆（26）提升，电缆联接器随后被移除，以将提升管上端连接到容器上的流体联接器。

公开(公告)号：US20140300104A1

公开(公告)日：2014-10-09

申请号：US13857783

申请日：2013-04-05

Applicant: Jack Pollack

Inventor： Jack Pollack

IPC: F16L15/00

CPC classification number: F16L15/00 ,  F16L15/004

Abstract: A pipeline includes a pair of pipe sections with ends (20, 22), connected together by thread the pipe ends having axial and radial abutments lying beyond the ends of the thread, The abutments ere located to stabilize a nib sealing arrangement and to enhance the capacity to resist bending while using a shorter thread length. The shorter threads (24, 26) enable pipe ends of smaller wall thicknesses to be used. At the abutments, each pipe end has a nib (40A, 40B) that is deflected to enter a groove as the pipe ends mate.

Abstract translation: 管道包括具有端部（20,22）的一对管部分，其通过螺纹连接在一起，管端具有位于螺纹端部之外的轴向和径向邻接处。所述基台位于用于稳定笔尖密封装置并且增强 在使用较短的螺纹长度的同时抵抗弯曲的能力。 较短的螺纹（24,26）可以使用壁厚较小的管端。 在支座处，每个管端都有一个尖头（40A，40B），当笔尖端配合时，该笔尖被偏转以进入凹槽。