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    • 2. 发明申请
    • IMPROVED FLUID COUPLING
    • 改进的流体耦合
    • WO2017178813A1
    • 2017-10-19
    • PCT/GB2017/051014
    • 2017-04-11
    • SELF ENERGISING COUPLING COMPANY LIMITED
    • READMAN, Matt
    • F16L37/12F16L37/35
    • A valve assembly (10, 2) wherein movement of a first securing means (100) is guided by a cam (121, 122, 1252, 1254) and follower (120, 1244) arrangement in order to secure and release a probe (7, 1110) or socket (1210) relative to a closing member (14, 1130; 30, 1230), such as a sheath (14, 1130) or a piston (30, 1230), of the other of the probe (7, 1110) or socket (1210). The probe (7, 1110) and socket (1210) are coupled by relative movement in a coupling direction. Suitably, the probe (7, 1110) and socket (1210) each include a fluid passageway (8, 1120; 22, 1220) that is mated in use when the probe (7, 1110) is fully inserted into the socket (1210). Here, the fluid passageway (8, 1120) in the probe (7, 1110) has an exit (12, 1122) on a circumferential face of the probe (7, 1110) and the fluid passageway (22, 1220) in the socket (1210) has an exit (28, 1222) on a circumferential face of the socket (1210). Each closing member (14, 1130; 30, 1230) closes one of the apertures, i.e. the exits (12, 1122; 28, 1222). In use, the securing means (100, 1240) is able to secure the closing member (14, 1130) of the probe (7, 1110) in order to restrict relative movement of the closing member (14, 1130) of the probe (7, 1110) and the probe (7, 1110). Consequently, the securing means (100, 1240) can abut the respective parts at a face (44) that is orthogonal to the separation direction thereby avoiding bending moments on the securing means (100, 1240) and reducing the risks of the parts jamming.
    • 一种阀组件(10,2),其中第一固定装置(100)的运动由凸轮(121,122,1252,1254)和从动件(120,1244)按顺序布置 以相对于诸如护套(14,1130)或活塞(30,1230)的封闭构件(14,1130; 30,1230)将探针(7,1110)或插座(1210)固定并释放 探头(7,1110)或插座(1210)中的另一个。 探头(7,1110)和插座(1210)通过在联接方向上的相对运动而联接。 合适地,探针(7,1110)和插座(1210)各自包括当探针(7,1110)完全插入插座(1210)时配合使用的流体通路(8,1120; 22,1220) 。 在此,探针(7,1110)中的流体通路(8,1120)在探针(7,1110)的圆周面上具有出口(12,1122),并且在插口中的流体通路(22,1220) (1210)在插座(1210)的圆周面上具有出口(28,1222)。 每个闭合构件(14,1130; 30,1230)关闭其中一个孔,即出口(12,1122; 28,1222)。 在使用中,固定装置(100,1240)能够固定探针(7,1110)的闭合构件(14,1130),以便限制探针(7,1110)的闭合构件(14,1130) 7,1110)和探针(7,1110)。 因此,固定装置(100,1240)可在与分离方向正交的表面(44)处邻接各个部分,从而避免固定装置(100,1240)上的弯矩并降低部件堵塞的风险。
    • 3. 发明申请
    • METHOD FOR DETECTING AT LEAST ONE VARIABLE ASSOCIATED WITH THE FORMATION OF AT LEAST ONE JOINT AND/OR A MACHINE DURING ASSEMBLY OF A PIPELINE SYSTEM
    • 用于检测至少一个变量相关联的方法,其与在管道系统的组装期间形成至少一个接头和/或机器相关联
    • WO2013184977A1
    • 2013-12-12
    • PCT/US2013/044620
    • 2013-06-06
    • NATIONAL OILWELL VARCO, INC.
    • MILLER, Kenneth
    • G01M3/18G01M3/28G01M5/00F16L37/35
    • G01M3/183F16L2201/10F17D5/06G01M3/2853G08B21/18Y10T29/49771
    • The present disclosure is directed to a method of detecting at least one variable associated with at least one joint or a machine of an assembled pipeline system (100). The example method includes assembling, via the machine having at least one pulling cylinder, at least two pipe sections to form at least one joint of the assembled pipeline system. The example method includes measuring, by at least one sensor (102,104), at least one variable selected from the group consisting of time, temperature and hydraulic pressure of the pulling cylinder during assembly of the pipelines system (100). The example method includes determining a location of the at least one joint of the assembled pipeline system. The example method includes recording a serial number associated with each of the at least two pipe sections of the assembled pipeline system. Corresponding systems and a computer-readable media are also disclosed.
    • 本公开涉及一种检测与组装的管道系统(100)的至少一个接头或机器相关联的至少一个变量的方法。 示例性方法包括通过具有至少一个牵引缸的机器组装至少两个管段以形成组装的管道系统的至少一个接头。 该示例性方法包括通过至少一个传感器(102,104)来测量在组装管道系统(100)期间从牵引缸的时间,温度和液压压力中选出的至少一个变量。 示例性方法包括确定组装的管道系统的至少一个接头的位置。 示例性方法包括记录与组装的管道系统的至少两个管段中的每一个相关联的序列号。 还公开了相应的系统和计算机可读介质。
    • 4. 发明申请
    • HYDRAULIKKUPPLUNGSMUFFE
    • 液压离合器套筒
    • WO2011134484A1
    • 2011-11-03
    • PCT/EP2010/006033
    • 2010-10-04
    • RHEINISCH-WESTFÄLISCHE TECHNISCHE HOCHSCHULE AACHENPRUST, David, Josef, LudwigLÖHR, ChristianINDERELST, Martin
    • PRUST, David, Josef, LudwigLÖHR, ChristianINDERELST, Martin
    • F16L37/35
    • F16L29/00F16L37/34F16L37/35F16L37/36Y10T137/9029
    • Die Erfindung betrifft eine Hydraulikkupplungsmuffe (1) mit einem Muffengehäuse (4), insbesondere einem hülsenförmigen Muffengehäuse (4), in welchem achsparallel, insbesondere koaxial ein Muffenstößel (12), eine diesen Muffenstößel (12) achsparallel, insbesondere koaxial umgebende axial bewegliche Druckhülse (13) und eine die Druckhülse (13) achsparallel, insbesondere koaxial umgebende axial bewegliche Haltehülse (16) angeordnet ist, deren äußere Mantelfläche im Muffengehäuse (4) angeordnete Sicherungselemente (18) in radialer Richtung unterstützen oder freigeben und deren insbesondere ringförmige Stirnfläche (16a) im ungekuppelten Zustand mit den Stirnflächen (12a) des Muffenstößels (12) und des Muffengehäuses (4) zumindest im Wesentlichen in einer Ebene liegt, wobei die Druckhülse von innen mit einem durch die Muffe zu fordernden Hydraulikfluid zumindest im Wesentlichen axial kraftfrei beaufschlagt ist.
    • 本发明涉及一种液压离合器套筒(1),其具有一个插座外壳(4),特别是套筒形插座壳体(4),其中,轴向平行的,特别是同轴,套筒挺杆(12),该套筒柱塞(12)的轴向平行,特别是同轴地围绕轴向可移动的压力套筒( 13)和压力套筒(13)轴向平行的,特别是同轴地围绕轴向可移动的支撑套筒(16)布置,在所述插座壳体(4)的外表面布置的锁定元件(18)在径向方向上支撑或释放和特定环形端面(16A) 是在与插座柱塞(12)和在一个平面上的插座壳体(4)至少基本上的端面(12A),其中,所述压力套轴向自由的通过套筒从内部施加有要苛刻的液压流体的力,至少基本上非耦合状态。