| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 阴阳式连接器 | CN200580025058.0 | 2005-06-17 | CN1989660A | 2007-06-27 | R·伍德; L·M·德克斯 |
| 一种地震电缆连接器,包括连接器体,可旋转地安装在该连接器体上的连接环。该连接环包括具有第一纵向凸起和第二纵向凸起的环体,第一纵向凸起具有包括第一倾斜凹槽的内表面,第二纵向凸起具有包括第一隆起的销子的外表面。该连接环是阴阳式的连接环,用于与具有基本上相同环体的连接环配合。 | ||||||
| 2 | 地震电缆连接器和应用该连接器连接地震电缆的方法 | CN200580025058.0 | 2005-06-17 | CN100524964C | 2009-08-05 | R·伍德; L·M·德克斯 |
| 一种地震电缆连接器,包括连接器体,可旋转地安装在该连接器体上的连接环。该连接环包括具有第一纵向凸起和第二纵向凸起的环体,第一纵向凸起具有包括第一倾斜凹槽的内表面,第二纵向凸起具有包括第一隆起的销子的外表面。该连接环是阴阳式的连接环,用于与具有基本上相同环体的连接环配合。 | ||||||
| 3 | HERMAPHRODITE CONNECTOR | EP05762446.2 | 2005-06-17 | EP1774623B1 | 2010-06-30 | WOOD, Richard; DEKKERS, Leo, M. |
| 4 | SOURCE ENERGY CONNECTOR PIGTAIL | EP16711434.7 | 2016-03-03 | EP3266074A1 | 2018-01-10 | SAYDYK, Daniel; WILLIAMS, Michael |
| The present invention provides a ruggedized heavy duty source connector adapted for use on large air guns. The source connector comprises reinforcing fibers in the cable jacket that are anchored to the connector front shell, an external blast shield in place of a rear shell, and a fatigue resistant strain relief overmold. | ||||||
| 5 | Seismic cable connection device | US12119516 | 2008-05-13 | US07816605B2 | 2010-10-19 | Norvald Berland |
| A connection device for cables having an elongated, cylindrical body with first and second ends, a termination interface member attached to each end of the elongated cylindrical body, wherein the elongated, cylindrical body is made of a flexible, cylindrical substrate member extending between the termination interfaces, with a plurality of elongated tension members helically wound about the exterior of the flexible substrate member, the ends of the tension members being attached to respective termination interface members. | ||||||
| 6 | Seismic Cable Connection Device | US12119516 | 2008-05-13 | US20090286413A1 | 2009-11-19 | Norvald Berland |
| A connection device for cables having an elongated, cylindrical body with first and second ends, a termination interface member attached to each end of the elongated cylindrical body, wherein the elongated, cylindrical body is made of a flexible, cylindrical substrate member extending between the termination interfaces, with a plurality of elongated tension members helically wound about the exterior of the flexible substrate member, the ends of the tension members being attached to respective termination interface members. | ||||||
| 7 | Marine seismic cable termination | US09304805 | 1999-05-04 | US06292431B1 | 2001-09-18 | Emil R. Talamo |
| A cable termination for connecting cable armor strands to a cable housing end. Individual wire strands are inserted through apertures in an inner hub and are engaged with the inner hub. An outer hub is connected to the inner hub and the housing for selectively tensioning the wire strands. The outer hub can have apertures for engagement with a second set of wire strands, and can be moved relative to the inner hub to selectively balance the tension in the first and second sets of wire strands. The wire strand ends are connected to the hubs at a selected radial distance from the cable center to strengthen the connection, and different structural combinations between the wire strands and the inner and outer hubs can be constructed. | ||||||
| 8 | Combination D-loop/splice for seismic leader wire | US215156 | 1994-03-21 | US5489751A | 1996-02-06 | Gregory W. West |
| A combination seismic cable handling loop and electric splice includes a U-shaped elastomer member arranged to be hung on a hasp during transportation and storage, and an integrally formed cylindrical elastomer body on the lower end of the U-shaped member which encloses a splice card by which electrical conductors in the end portions of seismic cable sections are joined, such end portions extending through the outer portions of the body which provides strain relief. | ||||||
| 9 | Breakaway connector | US151698 | 1993-11-15 | US5427542A | 1995-06-27 | John B. Gerow |
| A connector is described that allows the connector main part (16, FIG. 2) to be pulled out of a coupling nut or part (24) when the cable (20) that extends rearwardly from the main part, is pulled with a large force. The main part is of the type that includes a metal shell (30) enclosing an insulator (32) that holds contacts (34) whose front ends mate with the contacts of a mating connector device (14) and whose rear ends connect to wires of the cable. The outside of the shell and the inside of the coupling part have adjacent grooves (56, 54), and an expandable ring-shaped retainer (52) lies in both grooves to normally hold the main part to the coupling part. The forward wall (74, FIG. 3) of the groove in the main part is inclined from an axial direction to form a ramp. If the main part is pulled rearwardly with a large force, the retainer expands as it rides up the ramp and past the front of the main part, to thereby release the main part from the coupling part and the connector device to which it is coupled. | ||||||
| 10 | Adaptive medical electrode connector with male stud | US884613 | 1992-05-15 | US5209679A | 1993-05-11 | Donald P. Quinlan |
| An electrical conducting connector used to interconnect medical electrodes and monitoring devices. The male stud, commonly manufactured on the electrode, is relocated to a new position as an integral part of the connector. Consequently, the connector can act as an adapter for electrically interconnecting a relatively inexpensive, flexible, studless electrode secured on the skin of a patient to a monitor having a conventional lead wire plus female couple assembly. Such interconnection allows rotation between the connector and electrode, thereby assuring patient comfort and continued electrical contact even when the electrode is adhered to the patient for long periods of monitoring. | ||||||
| 11 | Seismic takeout connector | US351787 | 1989-05-15 | US4917632A | 1990-04-17 | J. David Smith |
| An electrical connector is disclosed having an elongated conductor housing of non-conducting material with two electrical connector conductors embedded in and extending lengthwise of the housing. Each connector conductor has a socket at one end and a pin at the other. A sleeve of elastic material positioned on the housing so that a portion of the housing extends beyond the sleeve to serve as a male plug and a portion of the sleeve extends beyond the other end of the housing to combine with the housing to form a female plug. The sleeve has an integral elongated boot in the side through which a geophone cable extends. The conductors of the geophone cable are connected to the conductors embedded in the housing of the connector. | ||||||
| 12 | HERMAPHRODITE CONNECTOR | EP05762446 | 2005-06-17 | EP1774623A4 | 2007-08-29 | WOOD RICHARD; DEKKERS LEO M |
| A seismic cable coupling comprising connector body, a coupling ring is rotatably mounted on the connector body. The coupling ring includes a ring body having a first longitudinal projection and a second longitudinal projection, the first longitudinal projection having an interior surface including a first angled groove, the second longitudinal projection having an exterior surface including a first raised stud. The coupling ring is a hermaphrodite coupling ring that mates with a coupling ring having a substantially identical ring body. | ||||||
| 13 | HERMAPHRODITE CONNECTOR | EP05762446.2 | 2005-06-17 | EP1774623A1 | 2007-04-18 | WOOD, Richard; DEKKERS, Leo, M. |
| A seismic cable coupling comprising connector body, a coupling ring is rotatably mounted on the connector body. The coupling ring includes a ring body having a first longitudinal projection and a second longitudinal projection, the first longitudinal projection having an interior surface including a first angled groove, the second longitudinal projection having an exterior surface including a first raised stud. The coupling ring is a hermaphrodite coupling ring that mates with a coupling ring having a substantially identical ring body. | ||||||
| 14 | Source energy connector pigtail | US15060417 | 2016-03-03 | US09761994B2 | 2017-09-12 | Daniel Saydyk; Michael Williams |
| The present invention provides a ruggedized heavy duty source connector adapted for use on large air guns. The source connector comprises reinforcing fibers in the cable jacket that are anchored to the connector front shell, an external blast shield in place of a rear shell, and a fatigue resistant strain relief overmold. | ||||||
| 15 | SOURCE ENERGY CONNECTOR PIGTAIL | US15060417 | 2016-03-03 | US20160261064A1 | 2016-09-08 | Daniel Saydyk; Michael Williams |
| The present invention provides a ruggedized heavy duty source connector adapted for use on large air guns. The source connector comprises reinforcing fibers in the cable jacket that are anchored to the connector front shell, an external blast shield in place of a rear shell, and a fatigue resistant strain relief overmold. | ||||||
| 16 | Solid construction electrical connector adapted for use with seismic data acquisition systems | US11081475 | 2005-03-16 | US20060211305A1 | 2006-09-21 | Gary Scott |
| A connector for a seismic data acquisition cable includes a molded plastic connector body. The connector body has inserted therein at least one electrical contact for mating with a corresponding electrical contact. The connector body has an internal opening for receiving an electrical cable. The connector body has a mating surface adapted to contact a corresponding connected structure. The internal opening is filled with a curable compound which upon cure forms a substantially interface free bond with the connector body and an external jacket of the electrical cable. | ||||||
| 17 | Hermaphrodite connector | US10872676 | 2004-06-21 | US06997731B1 | 2006-02-14 | Richard Wood; Leo M. Dekkers |
| A seismic cable coupling comprising connector body, a coupling ring is rotatably mounted on the connector body. The coupling ring includes a ring body having a first longitudinal projection and a second longitudinal projection, the first longitudinal projection having an interior surface including a first angled groove, the second longitudinal projection having an exterior surface including a first raised stud. The coupling ring is a hermaphrodite coupling ring that mates with a coupling ring having a substantially identical ring body. | ||||||
| 18 | Combined electrical and optical cable connector particularly suited for marine seismic sensor streamers | US10717821 | 2003-11-20 | US06827597B1 | 2004-12-07 | D. Richard Metzbower; Slawomir Bielinski; Steven J. Maas; Jeffrey J. Bowlus; Andre Stenzel |
| A connector is disclosed for joining two cable ends. The connector includes a load transfer plug adapted to couple to a strength member in each end of the cable. A connector insert assembly is coupled to an inner portion of each load transfer plug. Conductor terminals are disposed in corresponding openings of the insert. The terminals protrude from the insert. An alignment sleeve holder is coupled to one of the insert assemblies. The alignment sleeve holder includes alignment sleeves for receiving the protruding terminals. A housing element is sealingly coupled to an exterior of each of the plugs. The housing elements are adapted to coupled to each other and to urge the connector insert assemblies into contact with each other, and to transfer axial load between the plug coupled to each end of the cable. The housing elements have rotational and axial alignment features on corresponding surfaces. The housing elements are adapted to be removed from the plugs without uncoupling the cable from the plug. | ||||||
| 19 | Geophone keyway tee protective casing | US10054254 | 2002-01-22 | US06645004B2 | 2003-11-11 | Dennis L. Mudge |
| A protective casing for a three-way electrical connection comprises a cover and two lower pieces. Each lower piece preferably includes a protruding key and a key slot. The two lower pieces mate with one another with the protruding key of each lower piece engaging the key slot of the other lower piece. The keys and slots generally extend a length of the lower pieces and thus mating the lower pieces together includes engaging the keys and slots and sliding one lower piece along an axis relative to the other lower piece. Preferably, the lower pieces are substantially identical. In contrast to conventional tee connection casings, the lower pieces of the preferred embodiment can be mated together without disconnecting any conductors from the three-way electrical connection. Similarly, the protective casing can be removed and replaced with a new casing without disconnecting any electrical connections. | ||||||
| 20 | Electrical plug ejector with module | US133015 | 1998-08-12 | US6062883A | 2000-05-16 | James W. Schreiber; Robert J. Evans |
| A plug ejector comprises a solenoid incorporated into an electrical plug. An adapter plugs into a wall socket and presents an adapter socket for receiving the plug. Upon activation by a remote switch, the solenoid projects its armature to react against the adapter socket to eject the plug. The plug may be incorporated into an appliance cord, or an extension cord. The plug may incorporate a GFI protector, or a vibration sensor. Another embodiment utilizes an appliance's on-off switch to operate the ejector. | ||||||
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