This invention relates generally to electrical receptacle connectors, and is particularly directed to an electrical receptacle connector having an internal structural member disposed within an electrical cable coupled to the connector for providing the cable and connector combination with great strength.
An electrical receptacle connector is a fitting connected to an electrical cable and adapted to receive a plug. The cable may carry electric power or may include one or more conductors carrying electrical signals. Sometimes the receptacle connector is attached to an electrical panel member. When employed in a harsh environment, large forces may be applied to the receptacle connector which may result in loosening or separation of the cable from the receptacle connector and loss of power or electrical signals. To deal with these large forces, some connectors are provided with high strength materials. One form that these high strength materials take is known as Kevlar. Kevlar as a para-aramid synthetic fiber having high strength. Kevlar is typically spun into ropes or fabric sheets, or it may be used as an ingredient in composite material components. Kevlar exhibits a high tensile strength-to-weight ratio and is said to be five times stronger than steel on an equal weight basis. However, on a space, or volume, basis, a substantially greater amount of Kevlar is required to provide the same strength as steel. Thus, where space is at a premium, such as in the area of electrical connectors and components, Kevlar's applications are somewhat limited. In addition, because Kevlar typically is comprised of a large number of individual strands of different lengths, the cumulative effect of all of the strands is not realized along the entire length of an elongated Kevlar member such as an electrical cable and connector assembly and the strength exhibited by Kevlar in this environment is limited. In addition, Kevlar strands are typically secured to another member by tying which is impractical in the small dimension environment of electrical connectors.
The present invention is intended to provide a high strength electrical receptacle connector capable of operating in harsh duty environments where tension values as high as 300 pounds may be encountered.
Accordingly, it is an object of the present invention to provide a high strength, compact electrical receptacle connector which is easily connected in a sealed manner and disconnected and may be either female or male in configuration.
It is another object of the present invention to provide an electrical receptacle connector adapted for use with multiple conductors in a single shielded cable which includes an elongated nonconductive insert for maintaining the conductors in fixed, spaced relation and for providing physical and electrical isolation between adjacent conductors within the receptacle connector.
A further object of the present invention is to provide a split washer in an electrical receptacle connector which is securely coupled to a high strength steel cable to provide the receptacle connector with high strength and which allows the receptacle connector to be easily assembled.
A still further object of the present invention is to provide an electrical receptacle connector comprised of an end-to-end threadably coupled bushing and shell combination and which is connected to a cable having plural conductors and a steel cable to provide high strength, wherein tightening of the threadably coupled bushing and shell places the steel cable under increased tension while simultaneously introducing slack in the electrical conductors.
The present invention contemplates an electrical receptacle connector adapted to receive an electrical cable having plural conductors, the electrical receptacle connector comprising: a bushing adapted to receive the electrical cable and having a first threaded end portion; a shell adapted to receive the electrical cable and having a second threaded end portion coupled to the first threaded end portion of the bushing; an elongated, thin strength member disposed in and extending along a portion of the length of the electrical cable; and a split washer connected to the strength member and having an open inner portion and a partially circular peripheral portion, wherein the plural conductors are disposed in and extend through the open inner portion of the split washer and the partially circular peripheral portion of the split washer is disposed in contact with the first threaded end portion of the bushing, and wherein tightening of the coupling between the bushing's first threaded end portion and the shell's second threaded end portion urges the split washer into tight fitting engagement with the shell applying increased tension upon the strength member while removing tension from the plural conductors.
The present invention further contemplates a multi-conductor electrical cable and receptacle connector arrangement comprising: a bushing adapted to receive the electrical cable and having a first threaded end portion; a shell adapted to receive the electrical cable and having a second threaded end portion coupled to the first threaded end portion of the bushing; an elongated, thin strength member disposed in and extending along a portion of the length of the electrical cable; a retaining member having an open inner portion and a partially circular peripheral portion, wherein the plural conductors and the strength member are disposed in and extend through the open inner portion of the retaining member and the partially circular peripheral portion of the retaining member is disposed in contact with the first threaded end portion of the bushing for increasing the strength of the electrical cable receptacle and connector arrangement; and an elongated centering and isolating member disposed within and along at least a portion of the length of the cable, wherein the centering and isolating member is disposed about the strength member and intermediate adjacent conductors for centering the strength member within the cable and isolating the conductors from the strength member while maintaining the conductors in equally spaced relation from one another.
The appended claims set forth those novel features which characterize the invention. However, the invention itself, as well as further objects and advantages thereof, will best be understood by reference to the following detailed description of a preferred embodiment taken in conjunction with the accompanying drawings, where like reference characters identify like elements throughout the various figures, in which:
Referring to
Receptacle connector 10 includes a receptacle bushing 12 and a receptacle shell 14. Bushing 12 and shell 14 are generally cylindrical in shape, are preferably comprised of a high strength metal such as steel, and include respective center slots extending therethrough for receiving a shielded electrical cable 18.
Cable 18 includes plural spaced electrical conductors 16a-16d extending along the length thereof. Disposed within cable 18 and between the individual conductors 16a-16d is an elongated, nonconductive centering/isolating member 46 preferably comprised of a non-rigid plastic as shown in the sectional view of
Extending along the length and disposed within the center portion 46e of the centering/isolating member 46 is a strength member 20, as also shown in
Receptacle bushing 12 includes an external threaded end portion 12a which is adapted for engagement with an internal threaded end portion 14a of receptacle shell 14. Receptacle shell 14 further includes a second outer threaded portion 14c and an intermediate enlarged shoulder portion 14b disposed between the receptacle shell's inner threaded portion 14a and its aforementioned outer threaded portion. The outer periphery of the receptacle shell's enlarged shoulder portion 14b is provided with plural flat portions 14d as shown in
Adjacent ends of each of the first through fourth conductors 16a-16d are adapted to receive respective electrical contacts 26a-26d as shown in
Receptacle connector 10 further includes a drain wire attachment 30 attached to cable 18 and including a drain wire 30a which extends along the length of shielded cable 18. Drain wire attachment 30 is in electrical contact with receptacle bushing 12 which is maintained at ground potential because receptacle bushing is connected to receptacle shell 14 which is in contact with structural member 27 which is at ground potential. The combination of drain wire attachment 30 and its drain wire 30a maintains the cable's inner conductive sheath at the same potential along the entire length of cable 18 to provide effective electromagnetic interference (EMI) shielding for the cable. A first O-ring 34 is positioned between an inner portion of receptacle shell 14 and structural member 27 in a sealed manner. A small bead 44 of UV potting material is deposited on an outer peripheral surface of insulator 36 so as to form a seal with an inner surface of receptacle shell 14.
With the four conductors 16a-16d disposed within and along the length of cable 18 and maintained in fixed position therein by means of a centering/isolating member 46, the end of strength member 20, which is disposed within centering/isolating member, is inserted through a slot 22a within a split washer 22. A stop sleeve 24 comprised of a conductive material such as copper is crimped to the end of strength member 20 for securely attaching the stop sleeve to the strength member as shown in
With cable 18 disposed within and extending through receptacle bushing 12 and with the four conductors 16a-16d and the strength member 20 extending through an open inner portion 22c of split washer 22, the exterior threaded portion 12a of receptacle bushing 12 is positioned in contact with the internal threaded portion 14a of receptacle shell 14. Rotation of one or both of the receptacle bushing 12 and receptacle shell 14 relative to the other results in secure engagement between these two receptacle connector components. During tightening of the threaded engagement between the receptacle bushing 12 and receptacle shell 14, the outer peripheral portion of split washer 22 is positioned in contact with the end portion 12b of receptacle bushing 12 adjacent its exterior threaded portion 12a as shown in the sectional view of
Once the inventive receptacle connector 10 is assembled, an inert semi-rigid potting compound having a high durameter rating is injected via a first slot 32 into the receptacle bushing 12. The potting compound, which is typically comprised of a polymer such as epoxy or polyurethane, encapsulates and fixes in position and configuration the electrical conductors 16a-16d therein. A second slot 33 within receptacle bushing 12 allows for the escape of air from the bushing as the potting compound is injected into the bushing.
While particular embodiments of the present invention have been described, it will be obvious to those skilled in the relevant arts that changes and modifications may be made without departing from the invention in its broader aspects. Therefore, the aim in the appended claims is to cover all such changes and modifications that fall within the true spirit and scope of the invention. The matters set forth in the foregoing description and accompanying drawings is offered by way of illustration only and not as a limitation. The actual scope of the invention is intended to be defined in the following claims when viewed in their proper perspective based on the prior art.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/US2011/043174 | 7/7/2011 | WO | 00 | 4/8/2014 |
Publishing Document | Publishing Date | Country | Kind |
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WO2013/006179 | 1/10/2013 | WO | A |
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Number | Date | Country | |
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20140342593 A1 | Nov 2014 | US |