公开(公告)号：WO2013112055A1

公开(公告)日：2013-08-01

申请号：PCT/NO2012/000010

申请日：2012-01-26

Applicant: TOOL TECH AS ,  ERIKSEN, Egil ,  LARSEN, Georg

Inventor： ERIKSEN, Egil ,  LARSEN, Georg

IPC: B22F3/15 ,  B22F5/10 ,  F16K27/00 ,  B22F3/12

CPC classification number: B22F3/15 ,  B22F5/10 ,  E21B34/00 ,  F16K27/00

Abstract: The invention is a method of producing a valve block by- powder moulding in a Hot Isostatic Pressing (HIP) process. A sheet mould 1 A/B with filling sprues 2 A-H is made, which is filled with metal powder through the filling sprues, vacuumized and sealed. The mould is placed in a HIP processing container for high-pressure inert gas, such as argon, at high temperature, such as 1100 °C, to be supplied for processing into a compact and homogenous material. Finally, the blank is worked externally and internally to its final design by surfaces being machined.

Abstract translation: 本发明是在热等静压（HIP）工艺中粉末成型制造阀块的方法。 制成具有填充浇口2A-H的片状模具1A / B，其通过填充浇口填充金属粉末，抽真空并密封。 将模具放置在用于高温惰性气体如氩气的高温惰性气体（例如1100℃）的HIP处理容器中，以供加工成紧凑且均匀的材料。 最后，通过正在加工的表面，坯料在外部和内部进行其最终设计。

公开(公告)号：WO2010082831A1

公开(公告)日：2010-07-22

申请号：PCT/NO2010/000013

申请日：2010-01-14

Applicant: TOOL-TECH AS ,  ERIKSEN, Egil

Inventor： ERIKSEN, Egil

IPC: E21B33/08 ,  F16J15/32

CPC classification number: E21B33/08

Abstract: The invention consists of a cylindrical hollow stuffing box (1) for accommodating geometrical differences between rotating, passing drill pipes (B) and pipe connectors (B' ') the diameter of which exceeds that of the drill pipe. The stuffing box (1) consists of an outer housing (2), an upper ceramic disc (3) with an upper set of sipes (4), a lower ceramic disc (5) with a lower set of sipes (6), an outer packer (7) and an inner packer (8) surrounded by an annulus (9). The inner packer (8) seals against the drill pipe (B) such that the packer (8) during operation rotates together with the passing drill pipe (B). The discs (3,5) are fastened to top and bottom of the housing (2) and have an opening, the diameter of which exceeds the diameter of the pipe connectors (B' '). The packer unit with the integrated sipes (4,6) will also be rotated by the drill string during operation, as the sipes (4,6) abut the discs (3,5). When the pipe connector (B' ') is to pass down through the stuffing box (1), then firstly the upper sipes (4) and then the packer (8) will be forced out into the annulus (9), and as soon as the pipe connector (B' ') has passed the upper sipes (4) these will be forced back by the pressure in the annulus (9) whereafter the lower sipes (6) are correspondingly activated.

Abstract translation: 本发明包括用于容纳旋转的，通过的钻杆（B）和直径超过钻杆的管连接器（B“）之间的几何差异的圆柱形空心填料函（1）。 填料函（1）包括外壳（2），具有上部刀槽花纹（4）的上陶瓷盘（3），具有下一组刀槽花纹（6）的下陶瓷盘（5） 外封隔器（7）和由环（9）包围的内封隔器（8）。 内封隔器（8）密封钻杆（B），使得操作中的封隔器（8）与通过的钻杆（B）一起旋转。 盘（3,5）被紧固到壳体（2）的顶部和底部，并且具有开口，其直径超过管连接器（B“）的直径。 当刀槽花纹（4,6）邻接盘（3,5）时，具有集成刀槽花纹（4,6）的封隔器单元也将在操作期间由钻柱旋转。 当管道连接器（B“）向下通过填料函（1）时，首先，上部刀槽花纹（4）和封隔器（8）将被迫进入环形空间（9） 当管连接器（B“）已经通过上刀槽（4）时，它们将被环（9）中的压力推回，之后相应地启动下刀槽（6）。

公开(公告)号：WO2016089217A1

公开(公告)日：2016-06-09

申请号：PCT/NO2015/050233

申请日：2015-12-01

Applicant: TOOL TECH AS

Inventor： ERIKSEN, Egil

IPC: E21B19/09 ,  H02K7/06 ,  E21B19/00

CPC classification number: E21B19/006

Abstract: A method of heave compensation between a floating installation (11A), which has a drilling floor (11), and at least a riser (13) or a pipe (7) extending down towards, possibly through, a blowout preventer (16), the method including the steps of - installing an electromechanical actuator (1) with attachment points, in the form of an end cap (23) and an anchoring point (37), between the floating installation (11A) and a suspension device (3) for the riser (13) or the pipe (7); connecting the electromechanical actuator (1) to a power supply (46) and a control system (42); and - heave-compensating for the relative displacement between the floating installation and the riser (13) or the pipe (7) by letting the control system adjust the length and power output of the electromechanical actuator (1).

Abstract translation: 具有钻井底板（11）的浮动装置（11A）和至少可以通过防喷器（16）向下延伸的竖管（13）或管道（7）之间的浮动补偿方法， 该方法包括以下步骤：在浮动装置（11A）和悬挂装置（3）之间安装具有端盖（23）形式的连接点的机电致动器（1）和固定点（37） 用于提升管（13）或管（7）; 将机电致动器（1）连接到电源（46）和控制系统（42）; 并且 - 通过使控制系统调节机电致动器（1）的长度和功率输出，来升高浮动装置与升降器（13）或管道（7）之间的相对位移。

公开(公告)号：WO2013172717A1

公开(公告)日：2013-11-21

申请号：PCT/NO2013/050084

申请日：2013-05-08

Applicant: TOOL TECH AS

Inventor： ERIKSEN, Egil

IPC: G01L19/00 ,  G01L9/04 ,  G01L19/06

CPC classification number: G01L9/04 ,  G01L9/0051 ,  G01L19/0618

Abstract: Device for measurement of fluid pressure by means of an arrangement of strain gauges (5) provided on a sensor head (1) arranged on an item (2) arranged to be exposed to a pressurized fluid (4) against an external sensor head surface (1b'), where the sensor head (1) comprises a fastening portion (1a) attached to the item (2), and a centre portion (1b) connected to the fastening portion by means of at least one flexible connecting element (1c), the arrangement of strain gauges (5) is attached to the centre portion (1b) of the sensor head (1) on an internal assembly surface (1b'') arranged in close proximity to a contact face (2d) on an end stopper (2b) which in an active condition encircles the arrangement of strain gauges (5), and the assembly surface (1b'') is inexposable for the pressurized fluid (4).

Abstract translation: 用于通过设置在布置成暴露于加压流体（4）抵靠外部传感器头表面的物品（2）上的传感器头（1）上的应变仪（5）的布置来测量流体压力的装置 1b），其中传感器头（1）包括附接到物品（2）的紧固部分（1a）和通过至少一个柔性连接元件（1c）连接到紧固部分的中心部分（1b） ，应变片（5）的布置在传感头（1）的中心部分（1b）上安装在靠近端塞上的接触面（2d）的内部组装表面（1b“）上 （2b），其处于活动状态，环绕应变片（5）的布置，并且组装表面（1b“）不能用于加压流体（4）。

公开(公告)号：WO2011112096A1

公开(公告)日：2011-09-15

申请号：PCT/NO2011/000074

申请日：2011-03-03

Applicant: TOOL TECH AS ,  ERIKSEN, Egil

Inventor： ERIKSEN, Egil

IPC: F16K31/02

CPC classification number: F16K11/048 ,  F15B13/0405 ,  F16K11/20 ,  F16K11/202 ,  F16K37/0041 ,  Y10T137/8242 ,  Y10T137/87217

Abstract: An electromechanically actuated, hydraulic control valve (1) with a double slide (4B, 6D) arranged in a valve housing (2A) which is in fluid communication with at least three hydraulic-fluid ports (2B, 2C, 2D), wherein a first and a second axially movable valve slide (4B, 6D) are, independently of each other, arranged to sealingly abut corresponding portions of a double valve seat (5A), each valve slide (4B, 6D) is provided with a slide nut (4C, 6E) which is in engagement with an external threaded portion on the valve slide (4B, 6D) and is connected via transmission means (4D, 4E, 4F; 6F, 6G, 6H) to an actuator (4G, 61), and to each valve slide (4B, 6D), a position sensor (4H, 61) is connected, arranged to indicate a rotational motion of the slide nut (4C, 6E).

Abstract translation: 一种具有布置在与至少三个液压流体端口（2B，2C，2D）流体连通的阀壳体（2A）中的双滑块（4B，6D）的机电致动的液压控制阀（1），其中 第一和第二可轴向移动的阀滑块（4B，6D）彼此独立地设置成密封地邻接双阀座（5A）的相应部分，每个阀滑块（4B，6D）设置有滑动螺母（ 4C，6E），其与阀滑块（4B，6D）上的外螺纹部分接合，并且经由传动装置（4D，4E，4F; 6F，6G，6H）连接到致动器（4G，61） 并且连接到每个阀滑块（4B，6D），位置传感器（4H，61）被连接，以指示滑动螺母（4C，6E）的旋转运动。

公开(公告)号：WO2010064919A1

公开(公告)日：2010-06-10

申请号：PCT/NO2009/000399

申请日：2009-11-20

Applicant: TOOL-TECH AS ,  ERIKSEN, Egil

Inventor： ERIKSEN, Egil

IPC: E21B47/06 ,  E21B47/01 ,  E21B47/00

CPC classification number: E21B47/01 ,  E21B47/06

Abstract: The invention relates to a downhole pressure- and vibration- measuring device integrated in a pipe section (1) as part of a production tubing (20). The sensor housing (2) of the measuring device with sensors has a two-part clamp (3) on the upper part of the sensor housing (2), from where an electrical multi- conductor cable connection (10) from at least four, preferably six, nipples in a tube (9) is clamped along the production tubing (20) with bushings through equipment installed in the wellhead to sensors with an electronics and control unit (12) above the wellhead. Evenly- spaced radially in an annular space (5) are a first set of strain gauges (7) attached to the outside wall of the production tubing (20) and a second set of strain gauges (8) attached on the inside of the external wall of the sensor housing (2). Strain gauges (7, 8) are connected by glass penetrators (4) of electrical conductors in cable tubes (9A) terminated in the tubing hanger (21) to an electronics unit (11) and a control unit (12). For the measuring of temperatures, a thermometer will be integrated. Pressure -measurement signals also measure vibration in the production tubing (20).

Abstract translation: 本发明涉及作为生产管道（20）的一部分集成在管道部分（1）中的井下压力和振动测量装置。 具有传感器的测量装置的传感器壳体（2）在传感器壳体（2）的上部具有两部分夹具（3），从该传感器壳体（2）的至少四个的多电缆电缆连接（10） 优选地，管（9）中的六个乳头沿着生产管道（20）被夹紧，衬套通过安装在井口中的设备到具有在井口上方的电子和控制单元（12）的传感器。 在环形空间（5）中径向间隔开的是连接到生产管道（20）的外壁上的第一组应变计（7）和附接在外部的内部的第二组应变计（8） 传感器外壳（2）的壁。 应变计（7,8）通过端接在管道悬挂器（21）中的电缆管（9A）中的电导体的玻璃穿透器（4）连接到电子单元（11）和控制单元（12）。 对于温度的测量，将集成一个温度计。 压力测量信号还测量生产管道（20）中的振动。

公开(公告)号：WO2010041957A1

公开(公告)日：2010-04-15

申请号：PCT/NO2009/000350

申请日：2009-10-08

Applicant: TOOL-TECH AS ,  ERIKSEN, Egil

Inventor： ERIKSEN, Egil

IPC: B22F3/15 ,  F16J12/00 ,  F17C1/00

CPC classification number: F16J12/00 ,  B22F3/15

Abstract: The invention relates to a method for production of a cylindrical acid proof, seamless pressure vessel having hemispherical top and bottom by powder moulding in an HIP (Hot Isostatic Pressing) process. Sheet metal moulds are produced constituting an internal shell (1), lower part of an external shell (3), upper part of an external shell (4) with filling spout (5) with corresponding top and bottom. Distance pins (2) decide the wall thickness and are mounted outward from the internal shell which is led down into the lower part of external shell (3) whereafter shell part (4) with filling spout (5) closes the volume be-tween the internal and external shells which is then filled with powder through the filling spout (5). The pressure vessel is placed in an HIP-process container for vacuuming, sealing, supply of high-pressure inert gas such as argon, at high temperature such as 1000 °C, for processing together with the distance pins (2) to a compact and homogenous material.

Abstract translation: 本发明涉及一种通过HIP（热等静压）方法通过粉末成型生产圆柱形防酸无缝压力容器的方法。 制造钣金模具，其构成内壳（1），外壳（3）的下部，外壳（4）的上部，具有对应的顶部和底部的填充口（5）。 距离销（2）决定壁厚，并从内壳向外安装，内壳被引导到外壳（3）的下部，此后带有填充口（5）的外壳部分（4）关闭了外壳 内部和外部壳体，然后通过填充口（5）填充粉末。 将压力容器放置在HIP处理容器中，用于在诸如1000℃的高温下抽真空，密封供应诸如氩的高压惰性气体，以与距离销（2）一起加工成紧凑型和 均质材料。

公开(公告)号：WO2010024692A1

公开(公告)日：2010-03-04

申请号：PCT/NO2009/000303

申请日：2009-08-28

Applicant: TOOL-TECH AS ,  ERIKSEN, Egil

Inventor： ERIKSEN, Egil

IPC: F15B21/04 ,  F15B1/24 ,  B08B9/00

CPC classification number: F15B1/24 ,  F15B21/041 ,  F15B2201/205 ,  F15B2201/31 ,  F15B2201/413 ,  Y10T137/0318 ,  Y10T137/0424 ,  Y10T137/2115 ,  Y10T137/4238 ,  Y10T137/87281

Abstract: The invention relates to a method of using new flushing ports (IA7 IB) when cleaning a piston accumulator (7). Dirty hydraulic oil is returned out via the main port (2) and a return passage (9) until a cleanness grade has been reached. Clean hydraulic oil is forced into the piston accumulator (7) via the axial bores (3A, B) of the flushing ports (IA, B) and further in sloping bores (3C, D), bringing the hydraulic oil into the volume (8) in an upward, tangential direction below the piston (5), into a flushing circulation. By reducing the gas pressure on the gas side (4) of the piston (5) in relation to flushing pressure input from a valve (6), a volume (8) is created on the oil side between the piston (5) and the end bottom (3). The return passage (9) is closed and the piston (5) is brought into its upper position, so that an internal cylinder wall (10) is cleaned. Upon pressure build-up, the return passage (9) is opened, and the piston (5) returns to its end position on the oil side while the supply of clean hydraulic oil is maintained, and the operation is repeated until a cleanness grade has been achieved.

Abstract translation: 本发明涉及清洁活塞蓄能器（7）时使用新的冲洗口（IA7B）的方法。 脏液压油通过主端口（2）和返回通道（9）返回，直到达到清洁等级。 清洁液压油通过冲洗口（IA，B）的轴向孔（3A，B）并进一步在倾斜孔（3C，D）中被迫进入活塞蓄能器（7），使液压油进入容积（8 ）在活塞（5）下方向上的切向方向进入冲洗循环。 通过相对于从阀（6）输入的冲洗压力减小活塞（5）的气体侧（4）上的气体压力，在活塞（5）和活塞（5）之间的油侧产生容积（8） 末端（3）。 返回通道（9）关闭并且活塞（5）进入其上部位置，从而清洁内部气缸壁（10）。 在压力积分时，返回通道（9）打开，并且活塞（5）在保持清洁液压油的供应的同时返回到油侧的最终位置，并且重复操作直到清洁等级具有 已经实现。

公开(公告)号：WO2010024682A1

公开(公告)日：2010-03-04

申请号：PCT/NO2009/000275

申请日：2009-08-07

Applicant: TOOL-TECH AS ,  ERIKSEN, Egil

Inventor： ERIKSEN, Egil

IPC: B01D17/06 ,  B01D39/04 ,  E21B43/36 ,  C10G33/02 ,  B01J20/22

CPC classification number: B01J20/28023 ,  B01D17/0211 ,  B01D17/0214 ,  B01D17/06 ,  B01J20/22 ,  B03C11/00 ,  B03C2201/02 ,  C10G31/09 ,  C10G32/02 ,  C10G33/02 ,  C10G53/02 ,  C10G2300/1033

Abstract: The invention relates to a method for two-step separation of water, salt and particles from a hydraulic fluid by the use of a control unit (1). The hydraulic fluid is carried into a reservoir oil tank (4) with an electrostatic coalescer (3) provided with a high- voltage transformer (2) with direct current to two electric grids (43, 44) whose electrostatic field gathers water into drops which settle into a collecting tank (5). The hydraulic fluid is circulated to a filter module (9) for removing any remaining water, salt and particles in filter elements (92) connected in parallel, having hygroscopic cellulose fibres which swell until saturation, the swelling being measured by a sensor (93) measuring the degree of saturation, alternatively conductivity.

Abstract translation: 本发明涉及通过使用控制单元（1）从液压油两步分离水，盐和颗粒的方法。 液压流体被带到具有直流电的两个电网（43,44）的具有高压变压器（2）的静电聚结器（3）的储油罐（4）中，静电场将水聚集成水滴 沉入收集罐（5）。 液压流体循环到过滤器模块（9），用于除去平行连接的过滤元件（92）中的任何剩余的水，盐和颗粒，其具有溶胀直至饱和的吸湿纤维素纤维，该膨胀由传感器（93）测量， 测量饱和度，或者电导率。

公开(公告)号：WO2009005358A1

公开(公告)日：2009-01-08

申请号：PCT/NO2008/000217

申请日：2008-06-16

Applicant: TOOL-TECH AS ,  ERIKSEN, Egil

Inventor： ERIKSEN, Egil

IPC: F16K31/04 ,  F15B13/04

CPC classification number: F16K11/048 ,  F16K11/056

Abstract: An actuator for a pilot for a hydraulic control valve including a direct-current servo-motor (1) provided with a high-ratio gear (4) and arranged to be operated by a battery (2) with an associated battery charger (13), and an oil return port (10), a pilot port (11) and a hydraulic supply (12) and via the gear (4), the servo-motor (1) is arranged to move a valve stem (5) which bears via a first valve ball (7) on a spring-loaded pilot needle (8) which bears, opposite the first valve ball (7), on a second spring-loaded valve ball (7), a spring and a return spring (9) being arranged to move the valve balls (7) towards the pilot needle (8), and a microprocessor with an associated controller (3) being arranged to determine the position of the valve stem (5) by registration of the rotational position of the servo-motor; and, if a control signal is interrupted, the controller (3) is arranged to drive the valve stem (5) into a predetermined position by means of current from the battery (2).

Abstract translation: 一种用于液压控制阀的导向器的致动器，包括设置有高比率齿轮（4）的直流伺服电动机（1）并且被配置为由相关联的电池充电器（13）由电池（2）操作， ，以及回油口（10），先导口（11）和液压供应器（12），并且经由所述齿轮（4），所述伺服电动机（1）布置成使阀杆（5）移动，所述阀杆（5） 通过与第一阀球（7）相对的弹簧加载的先导针（8）上的第一阀球（7）在第二弹簧加载的阀球（7）上，弹簧和复位弹簧（9） ）被布置成朝向先导针（8）移动阀球（7），并且具有相关联的控制器（3）的微处理器被布置成通过配准所述阀杆（5）的旋转位置来确定阀杆（5）的位置， 伺服电机; 并且如果控制信号被中断，则控制器（3）被布置成通过来自电池（2）的电流将阀杆（5）驱动到预定位置。