Patent Application
20130237071
Not Applicable.
Not Applicable.
Not Applicable.
This disclosure relates to grounding assemblies used in the electrical utility industry as protective-grounding equipment, and more particularly to ground clamps for use with ball stud ground conductors.
Grounding assemblies including various types of clamps, ferrules, and interconnecting electrically conducting conduits in the form of cables are commonly used as protective equipment for lineworker or other personnel working around electric power lines. Ground clamps for use with ball stud ground conductors having a shaft that terminates in a spherical end are known. Such clamps are typically so call C-type clamps having a pair of generally C-shaped jaws that clamp the spherical end of the ball stud with the shaft of the ball stud extending through a pair of fingers that forming one of the jaws of the clamp. An example of such a clamp, as well as some ball studs, is shown in commonly owned, published U.S. patent application, Pub. No. US 2011/0081810, published Apr. 7, 2011.
When using ground clamps with ball studs, it is important that the jaws and the spherical end of the ball stud be properly aligned in the clamped condition. An improperly aligned clamp/spherical end can lead to an unintended release of the ball stud during lineworker maintenance or during a ground fault, which can create an unsafe situation.
In accordance with one aspect of this disclosure, a ground clamp is provided for use with a ball stud, the ball stud having a shaft that terminates in a spherical end having a diameter larger than a diameter of the shaft. The ground clamp includes a body connectable to an electrical conduit to provide an electrically conductive connection, and first and second jaws extending from the body and movable relative to each other between an open position wherein a spherical end of a ball stud may be inserted into the clamp and a closed position wherein the spherical end of the ball stud can be clamped between the jaws to provided an electrically conductive connection between the clamp and the ball stud. The first jaw includes two fingers, each finger defining a C-shaped clamp surface that abuts the spherical end of the ball stud when the ball stud is inserted into the clamp. The two fingers are laterally spaced from each other to define a slot extending between the fingers and having a lateral width through which a shaft of the bail stud can extend when the ball stud is inserted into the clamp. The second jaw includes a laterally extending platform having a lateral width greater than the lateral width of the slot. The second jaw further includes a rib extending from the platform to be located within the slot between the two fingers with the jaws in the closed position. The second jaw has a concave clamp surface defined in the platform and the rib that partially surrounds the spherical end of the ball stud with the jaws in the closed position and the ball stud inserted in the clamp. The concave clamp surface on the rib is engageable with the spherical end of the ball stud as the jaws move from the open position to the closed position to guide the jaws and the spherical end of the ball stud into proper alignment in the closed position with the ball stud inserted into the clamp.
As one feature, the concave clamp surface is spherically shaped.
In one feature, the platform has a planar surface surrounding the concave clamp surface in the platform, and the concave clamp surface in the rib extends above the planar surface.
According to one feature, the jaws are translatable relative to each other along a longitudinal axis.
In a further feature, the platform has a planar surface surrounding the concave clamp surface in the platform and extending transverse to the longitudinal axis, and the concave clamp surface in the rib extends above the planar surface.
As one feature, the first jaw is fixed relative to the body and the second jaw is translatable relative to the body along the longitudinal axis.
According to one feature, the first jaw and the body are a one-piece component of the clamp.
As one feature, the ground clamp further includes a threaded member mounted in the body for rotation and extending parallel to the longitudinal axis, the threaded member operably engaged with the second jaw to translate the second jaw between the open and closed positions in response to rotation of the threaded member.
As a further feature, the second jaw includes a threaded boss engaged with the threaded member.
In one feature, the ground clamp further includes an actuating member operably associated with the jaws to actuate the jaws between the open and closed positions.
According to one feature, the body further includes a boss configured to receive an end of an electrical conduit to form an electrically conductive connection with the electrical conduit.
Other features and advantages will become apparent from a review of the entire specification, including the appended claims and drawings.
With reference to
The body 20 includes a boss 30 for connection to an electrical conduit, shown diagrammatically at 32 in
The jaw 22 includes two fingers 40, with each finger 40 defining a C-shaped damp surface 42 that abuts the spherical end 16 of the ball stud 12 when the ball stud 12 is inserted into the clamp 10. The two fingers 40 are laterally spaced from each other to define an open ended slot 44 extending between the fingers 40 and having a lateral (perpendicular to the axis 29) width W1 through which the shaft 14 of the ball stud 12 can extend when the ball stud 12 is inserted into the clamp 10. In the illustrated embodiment, the housing 20 and the jaw 22, including the two fingers 40, are a one-piece component of the clamp 10.
The second jaw 24 includes a laterally extending platform 50 having a lateral width W2 greater than the lateral width W1 of the open ended slot 44. The jaw 24 further includes a rib 52 extending from the platform 50 to be located within the open ended slot 44 between the two fingers 40 with the jaws 22 and 24 in the closed position. The second jaw 24 has a concave clamp surface 54 defined in the platform 50 and the rib 52 that partially surrounds the spherical end 16 of the ball stud 12 with the jaws 22 and 24 in the closed position. In this regard, in the illustrated embodiment, the concave clamp surface 54 is spherically shaped and sized to conform to the spherical end 16 of the ball stud 12. The concave clamp surface 54 on the rib 52 is engageable with the spherical end 16 of the ball stud 12 as the jaws 22 and 24 move from the open position to the closed position to guide the jaws 22 and 24 and the spherical end 16 into proper alignment in the closed position with the ball stud 12 inserted into the clamp 10. The platform 52 has a planar surface 56 surrounding the concave clamp surface 54 and the concave clamp surface 54 and the rib 52 extends above the planar surface 56, as best seen in
The threaded screw member 28 is offset from the clamp surfaces 42 and 54, and the jaw 24 includes an internally threaded boss 60 that is engaged with the threaded member 28 so that the jaw 24 will translate between the open and closed positions parallel to the axis 29 in response to rotation of the threaded member 28. In the illustrated embodiment, the threaded member 28 includes an enlarged portion 62 that abut an upper surface of the body 20, a threaded shaft 64 that extends downwardly through a channel 66 formed in the body 20, and an eye component 68 that is rotationally fixed to the shaft 64, such as by a spring pin 70, and abuts a lower surface of the body 20. The jaw 24 includes parallel side walls 72 extending from the boss 60 to the platform 50 that slidably engage side walls 74 of the channel 66 to maintain alignment of the jaw 24 relative to the housing 20 and to react torsional forces generated when the threaded member 28 is rotated to translate the jaw 24 between the open and closed positions. It will be appreciated by those skilled in the art that the eye component 68 is engageable by one or more common tools employed by lineworkers. It should also be appreciated that while the threaded member 28 is shown as being offset relative to the clamp surfaces 42 and 54, other constructions are possible, including one wherein the threaded member 28 underlies and/or is aligned with the clamp surfaces 42 and 54. An example of such a construction is shown in previously referenced and commonly owned published U.S. patent application, Publication No. US 2011/0081810, published Apr. 7, 2011.
While any suitable mount construction can be used, the strain relief sleeve 34 is mounted via a bracket 75 and two bolts 76 that are received in threaded bosses 78 formed on the body 20 (only one bolt 76 and one boss 78 shown).
It should be understood that while certain embodiments have been illustrated and described herein, there are many possible forms for the various features of the clamp 10. For example, while the actuating member 26 is shown in the form of the threaded member 28, there are other possible constructions for an actuating member 26 that can move the jaws 22 and 24 relative to each other between the open and closed positions and that may be desirable depending upon the particular parameters of each application. As another example, while the platform 50 is shown as being rectangular when viewed from above, as best seen in
