公开(公告)号：US20180088294A1

公开(公告)日：2018-03-29

申请号：US15558418

申请日：2015-04-09

Applicant: DRAKA COMTEQ BV

Inventor： Jean-Marc TESTU ,  Jean-Pierre BONICEL ,  Olivier TATAT

IPC: G02B6/44 ,  D07B3/00

CPC classification number: G02B6/449 ,  D07B3/005 ,  D07B2201/1088 ,  D07B2201/2096 ,  D07B2207/4018 ,  G02B6/4413

Abstract: The invention concerns a method of SZ stranding into one strand a bundle of two or more flexible micromodules, each micromodule comprising one or more optical fibers. A first pulley is located with its winding surface adjacent to a longitudinal axis of a cabling line. The bundle of micromodules is guided over the winding surface of the first pulley, the first pulley being rotating around the longitudinal axis of the cabling line. The rotational speed, or the rotational direction of the first pulley, is alternating.

公开(公告)号：US09915029B2

公开(公告)日：2018-03-13

申请号：US15303120

申请日：2015-05-19

Applicant: Cabin Air Group B.V.

Inventor： Rinze Jan Van Der Schuit

IPC: D07B1/14 ,  D07B1/18

CPC classification number: D07B1/145 ,  B66C1/12 ,  D07B1/18 ,  D07B7/165 ,  D07B2201/2096 ,  D07B2205/201 ,  D07B2205/2014 ,  D07B2205/2042 ,  D07B2205/2046 ,  D07B2205/205 ,  D07B2205/2096 ,  D07B2205/3007 ,  D07B2301/5504 ,  D07B2301/5577 ,  D07B2501/2015 ,  D07B2501/203 ,  D07B2501/2061 ,  G01M11/33 ,  G02B6/02076 ,  G02B6/02395 ,  G02B6/4296 ,  Y02B10/30 ,  D07B2801/10

Abstract: A cable 1 comprises a first thimble 2 and a second thimble 4, at least one yarn 6, and at least a first conductive fiber 8 for monitoring the cable 1. The yarn 6 extends from the first thimble 2 to the second thimble 4, turns around the second thimble 4, extends from the second thimble 4 to the first thimble 2, and turns around the first thimble 2. Each thimble holds a stack 9 of layers 10 of turns of the yarn 6. The first conductive fiber 8 is designed to signal the wear of the yarn 6 by breaking after a predetermined portion of the turns of the yarn 6 breaks. The first conductive fiber 8 is positioned at the first thimble 2 between the turns of the yarn 6 at less than 50% of the stack height h.

公开(公告)号：US20170159375A1

公开(公告)日：2017-06-08

申请号：US15323656

申请日：2014-08-04

Applicant: Halliburton Energy Services, Inc.

Inventor： Sean Gregory Thomas ,  Wei Zhang ,  David L. Perkins

IPC: E21B17/20 ,  D07B1/16 ,  D07B1/14 ,  E21B19/08 ,  E21B47/00

CPC classification number: E21B17/20 ,  D07B1/145 ,  D07B1/147 ,  D07B1/162 ,  D07B2201/2087 ,  D07B2201/2088 ,  D07B2201/2092 ,  D07B2201/2096 ,  E21B19/08 ,  E21B23/14 ,  E21B47/00

Abstract: In accordance with embodiments of the present disclosure, a slickline for use in well drilling and hydrocarbon recovery operations includes a cable and an intermediate layer disposed around the cable. The slickline also includes a doped polymeric coating layered around the intermediate layer. The doped polymeric coating is a different material from the intermediate layer, and the doped polymeric coating includes a polymeric material doped with an element that is detectable within the doped polymeric coating via a detection machine for purposes of determining wear or other aspects about the conditions of the slickline.

公开(公告)号：US20160363493A1

公开(公告)日：2016-12-15

申请号：US14771249

申请日：2015-04-28

Applicant: HALLIBURTON ENERGY SERVICES, INC.

Inventor： Hua Xia ,  Sean Gregory Thomas ,  David L. Perkins ,  John L. Maida

IPC: G01L1/24 ,  G01D5/353 ,  E21B17/20 ,  E21B47/00 ,  C08J5/04 ,  E21B47/12

CPC classification number: G01L1/246 ,  C08J5/04 ,  C08J5/041 ,  C08J5/042 ,  C08J5/043 ,  C08J5/044 ,  C08J2300/22 ,  C08K7/02 ,  C08K7/04 ,  C08L101/00 ,  D07B1/145 ,  D07B2201/2096 ,  D07B2301/259 ,  D07B2301/5513 ,  D07B2301/5577 ,  E21B17/206 ,  E21B47/0006 ,  E21B47/123 ,  G01D5/35303 ,  G02B6/02076 ,  G02B6/4415

Abstract: A polymer composite wireline cable comprising: a polymeric matrix material; at least one reinforced fiber embedded in the polymeric matrix material; and at least one optical fiber disposed in the polymeric matrix material, the at least one optical fiber having at least one pair of Bragg grating sensors, wherein one of the pair of Bragg grating sensors is configured to experience loading strain and the other of the pair of Bragg grating sensors is configured not to experience loading strain.

Abstract translation: 一种聚合物复合电缆电缆，包括：聚合物基质材料; 至少一种嵌入聚合物基体材料中的增强纤维; 以及设置在所述聚合物基体材料中的至少一个光纤，所述至少一个光纤具有至少一对布拉格光栅传感器，其中所述一对布拉格光栅传感器中的一个配置成经受负载应变，并且所述对中的另一个 布拉格光栅传感器被配置为不会遇到负载应变。

公开(公告)号：US20160225489A1

公开(公告)日：2016-08-04

申请号：US15021628

申请日：2014-09-04

Applicant: AKER SOLUTIONS AS

Inventor： Peter M. Willemoës

IPC: H01B9/00 ,  G01B11/16 ,  F16L11/22 ,  G02B6/44

CPC classification number: H01B9/005 ,  D07B1/145 ,  D07B1/147 ,  D07B2201/2096 ,  D07B2205/3007 ,  D07B2205/3025 ,  F16L11/22 ,  G01B11/16 ,  G01B11/18 ,  G01L1/246 ,  G02B6/4416 ,  G02B6/4432 ,  H01B7/046 ,  D07B2801/10

Abstract: A load carrying bundle of elongate elements combined with a fibre optic cable for integration with an elongated structure to perform global strain monitoring using fibre optic strain sensors is described. The load carrying bundle is made up by a number of individual elongated strength elements, which individual elongated strength elements are laid in a helix around the, in the bundle, centrally located fibre optic cable sensor. The elongated strength elements are laid adjacent to each other enabling to perform both a protective enclosure of the fibre optic cable sensor and to provide frictional bonding between the fibre optic cable sensor and the elongated strength elements.

Abstract translation: 描述了与光纤电缆组合的细长元件的负载束与细长结构集成以使用光纤应变传感器执行全局应变监测。 负载束由多个单独的细长强度元件组成，各个细长的强度元件围绕着位于中心的光纤电缆传感器中的螺旋线缠绕在螺旋中。 细长的强度元件彼此相邻放置，使得能够执行光纤电缆传感器的保护外壳并且在光纤电缆传感器和细长的强度元件之间提供摩擦接合。

公开(公告)号：US20140311323A1

公开(公告)日：2014-10-23

申请号：US14358714

申请日：2012-11-16

Applicant: Hjortur Erlendsson

Inventor： Hjortur Erlendsson

IPC: D07B5/00 ,  D07B1/02 ,  D04C1/12

CPC classification number: D07B5/00 ,  D04C1/12 ,  D07B1/025 ,  D07B5/006 ,  D07B5/12 ,  D07B2201/104 ,  D07B2201/1092 ,  D07B2201/1096 ,  D07B2201/2003 ,  D07B2201/2087 ,  D07B2201/2088 ,  D07B2201/209 ,  D07B2201/2092 ,  D07B2201/2095 ,  D07B2201/2096 ,  D07B2205/2014 ,  D07B2401/205 ,  D07B2501/2015 ,  D07B2501/2038 ,  D07B2501/2061 ,  D07B2801/10 ,  D07B2801/22

Abstract: A high traction synthetic rope comprising a braided sheath (8) adhered to a synthetic strength member (7) by means of a first synthetic portion (9) and portions of material (23) adhered to the outside surface of the braided sheath by means of a second synthetic portion (21), where the portions of material (23) are formed of a substance that differs from a substance mainly forming the second synthetic portion (21) and exhibits greater friction when wet or with greasy conditions and measured on an iron surface than does the substance mainly forming the second synthetic portion. Also methods of manufacturing such a high traction synthetic rope are disclosed. The rope shows reliable traction on driven rotating elements during wet/greasy conditions.

Abstract translation: 一种高牵引合成绳索，包括通过第一合成部分（9）粘附到合成强度构件（7）的编织护套（8）和通过借助于第二合成部分（9）粘附到编织护套外表面的部分材料（23） 第二合成部分（21），其中材料部分（23）由与主要形成第二合成部分（21）的物质不同的物质形成，并且在湿润或油腻条件下表现出较大的摩擦力并且在铁上测量 表面比主要形成第二合成部分的物质。 还公开了制造这种高牵引合成绳索的方法。 在湿润/油腻的条件下，绳索显示可靠的驱动旋转元件的牵引力。

公开(公告)号：US08863630B2

公开(公告)日：2014-10-21

申请号：US13393760

申请日：2010-09-01

Applicant: Hjortur Erlendsson

Inventor： Hjortur Erlendsson

IPC: D04C1/12 ,  D07B1/16 ,  D07B1/02 ,  D07B1/18 ,  D07B5/12

CPC classification number: D07B1/02 ,  D04C1/12 ,  D07B1/025 ,  D07B1/165 ,  D07B1/185 ,  D07B5/12 ,  D07B2201/102 ,  D07B2201/1096 ,  D07B2201/2048 ,  D07B2201/2053 ,  D07B2201/2066 ,  D07B2201/2067 ,  D07B2201/2074 ,  D07B2201/2089 ,  D07B2201/209 ,  D07B2201/2095 ,  D07B2201/2096 ,  D07B2205/2003 ,  D07B2205/2014 ,  D07B2205/2017 ,  D07B2205/2042 ,  D07B2205/2064 ,  D07B2205/2096 ,  D07B2207/405 ,  D07B2207/4059 ,  D07B2207/4068 ,  D07B2401/205 ,  D07B2501/2038 ,  D07B2501/2061 ,  D07B2801/24 ,  D07B2801/14 ,  D07B2801/10 ,  D07B2801/16 ,  D07B2801/60

Abstract: Disclosed is a method for producing a high strength synthetic strength member (7) containing rope (1) capable of being used with powered blocks where such rope has lighter weight and similar or greater strength than steel wire strength member containing ropes used with powered blocks. Disclosed also is the product resulting from such method. The product includes a synthetic strength member, a first synthetic portion (9) and a second synthetic portion. The first synthetic portion is enclosed within the strength member and the second synthetic portion is situated external the strength member. At least a portion of the second synthetic portion also is situated internal a sheath (8) formed about the strength member. The second synthetic portion has a minimal of 8% at a temperature of between negative 20 and negative 15° C.

Abstract translation: 公开了一种用于制造能够与动力块一起使用的绳索（1）的高强度合成强度构件（7）的方法，其中该绳索具有比具有动力块的绳索的钢丝绳强度构件更轻的重量和相似或更大的强度。 还公开了由这种方法产生的产品。 该产品包括合成强度构件，第一合成部分（9）和第二合成部分。 第一合成部分封闭在加强部件内，第二合成部分位于强度部件外部。 第二合成部分的至少一部分也位于围绕强度构件形成的护套（8）的内部。 第二合成部分在负20和负15℃之间的温度下具有最小的8％。

公开(公告)号：US20140305744A1

公开(公告)日：2014-10-16

申请号：US14314939

申请日：2014-06-25

Applicant: KONE CORPORATION

Inventor： Petri KERE ,  Riku LAMPINEN ,  Raimo PELTO-HUIKKO ,  Petteri VALJUS ,  Lasse HEIKKILÄ

IPC: B66B5/00 ,  B66B7/06

CPC classification number: B66B5/0018 ,  B66B7/06 ,  B66B7/062 ,  B66B7/1238 ,  D07B1/145 ,  D07B1/22 ,  D07B2201/2096 ,  D07B2205/205 ,  D07B2205/3003 ,  D07B2205/3007 ,  D07B2501/2007 ,  D07B2801/10

Abstract: In a rope of a lifting device, particularly of a passenger transport elevator and/or freight transport elevator, the width of which rope is greater than the thickness in the transverse direction of the rope, which rope includes a load-bearing part in the longitudinal direction of the rope, which load-bearing part includes carbon-fiber reinforced, aramid-fiber reinforced and/or glass-fiber reinforced composite material in a polymer matrix, and which rope includes one or more optical fibers and/or fiber bundles in connection with the load-bearing part and the optical fiber and/or fiber bundle is laminated inside the load-bearing part and/or the optical fiber and/or fiber bundle is glued onto the surface of the load-bearing part and/or and that the optical fiber and/or fiber bundle is embedded or glued into the polymer envelope surrounding the load-bearing part, as well as to a condition monitoring method for the rope of a lifting device.

Abstract translation: 在特别是乘客运输电梯和/或货运电梯的提升装置的绳索中，绳索的宽度大于绳索的横向方向上的厚度，该绳索包括纵向上的承载部分 绳索的方向，该承载部分包括聚合物基体中的碳纤维增强的，芳族聚酰胺纤维增强的和/或玻璃纤维增​​强的复合材料，并且该绳索包括连接中的一个或多个光纤和/或纤维束 承载部分和光纤和/或纤维束层压在承重部分内部和/或光纤和/或纤维束被胶合到承重部分的表面上和/或 光纤和/或纤维束被嵌入或胶合到围绕承重部分的聚合物封套中，以及用于提升装置的绳索的状态监测方法。

公开(公告)号：US20130037353A1

公开(公告)日：2013-02-14

申请号：US13569957

申请日：2012-08-08

Applicant: Richard PHILLIPS ,  Daniel SCHOEPKE ,  Tim SCHWARZER ,  Daniel SCHLESIER

Inventor： Richard PHILLIPS ,  Daniel SCHOEPKE ,  Tim SCHWARZER ,  Daniel SCHLESIER

IPC: B66B7/06 ,  B32B3/00 ,  B66B11/08

CPC classification number: B66B7/06 ,  B66B7/062 ,  D07B1/147 ,  D07B1/16 ,  D07B1/162 ,  D07B1/22 ,  D07B5/006 ,  D07B2201/2087 ,  D07B2201/2092 ,  D07B2201/2096 ,  D07B2205/2003 ,  D07B2205/2039 ,  D07B2205/2064 ,  D07B2205/2082 ,  D07B2401/203 ,  D07B2401/2075 ,  D07B2501/2007 ,  Y10T428/24942 ,  Y10T428/24983 ,  Y10T428/2936 ,  Y10T428/2964 ,  D07B2801/22

Abstract: A traction member for use with driving pulleys, consisting of one or more load-bearing elements and a plastics part which is arranged between the load-bearing elements and a force-transmission surface of the traction member. The overall friction value results from the fact that the force-transmission surface, which comes into contact with the driving pulley, has at least two regions, and that these regions are formed from different materials A and B having different coefficients of friction. The regions are in the form of strips in the longitudinal direction of the traction member. The carrier material A is softer and has a higher coefficient of friction and the further materials B1, B2, B3 etc. are each harder and each have a lower coefficient of friction. Preferably, the materials A, B1, B2, B3 etc. are applied in one work step by extrusion.

Abstract translation: 用于与一个或多个承载元件组成的驱动带轮的牵引构件和布置在承载元件和牵引构件的力传递表面之间的塑料部件。 总的摩擦值是由于与驱动皮带轮接触的力传递表面至少具有两个区域，并且这些区域由具有不同摩擦系数的不同材料A和B形成。 这些区域在牵引构件的纵向方向上呈带状的形式。 载体材料A较软并且具有较高的摩擦系数，并且其它材料B1，B2，B3等各自更硬并且各自具有较低的摩擦系数。 优选地，材料A，B1，B2，B3等通过挤压在一个工件中施加。

公开(公告)号：US20120160082A1

公开(公告)日：2012-06-28

申请号：US13393760

申请日：2010-09-01

Applicant: Hjortur Erlendsson

Inventor： Hjortur Erlendsson

IPC: D07B1/16 ,  D07B7/14 ,  D04C1/12 ,  D07B1/02

CPC classification number: D07B1/02 ,  D04C1/12 ,  D07B1/025 ,  D07B1/165 ,  D07B1/185 ,  D07B5/12 ,  D07B2201/102 ,  D07B2201/1096 ,  D07B2201/2048 ,  D07B2201/2053 ,  D07B2201/2066 ,  D07B2201/2067 ,  D07B2201/2074 ,  D07B2201/2089 ,  D07B2201/209 ,  D07B2201/2095 ,  D07B2201/2096 ,  D07B2205/2003 ,  D07B2205/2014 ,  D07B2205/2017 ,  D07B2205/2042 ,  D07B2205/2064 ,  D07B2205/2096 ,  D07B2207/405 ,  D07B2207/4059 ,  D07B2207/4068 ,  D07B2401/205 ,  D07B2501/2038 ,  D07B2501/2061 ,  D07B2801/24 ,  D07B2801/14 ,  D07B2801/10 ,  D07B2801/16 ,  D07B2801/60

Abstract: Disclosed is a method for producing a high strength synthetic strength member (7) containing rope (1) capable of being used with powered blocks where such rope has lighter weight and similar or greater strength than steel wire strength member containing ropes used with powered blocks. Disclosed also is the product resulting from such method. The product includes a synthetic strength member, a first synthetic portion (9) and a second synthetic portion. The first synthetic portion is enclosed within the strength member and the second synthetic portion is situated external the strength member. At least a portion of the second synthetic portion also is situated internal a sheath (8) formed about the strength member. The second synthetic portion has a minimal of 8% at a temperature of between negative 20 and negative 15° C.

Abstract translation: 公开了一种用于制造能够与动力块一起使用的绳索（1）的高强度合成强度构件（7）的方法，其中该绳索具有比具有动力块的绳索的钢丝绳强度构件更轻的重量和相似或更大的强度。 还公开了由这种方法产生的产品。 该产品包括合成强度构件，第一合成部分（9）和第二合成部分。 第一合成部分封闭在加强部件内，第二合成部分位于强度部件外部。 第二合成部分的至少一部分也位于围绕强度构件形成的护套（8）的内部。 第二合成部分在负20和负15℃之间的温度下具有最小的8％。