None.
1. Field of Invention
A tool for the application and removal of a wire nut from a plurality of wire ends being connected together, the tool providing a handle with a grip end for increased grip and torsion applied to the tool and a lower tool end defining a hollow lower opening leading into a hollow cylindrical cavity within which a stack of wire nuts may be placed, the cavity supplying an internal spring to urge against the stacked wire nuts positioning the last wire nut into the opening for application, the cavity defining axial grooves within an internal wall of the cavity, temporarily securing the winged extension of the wing nuts during the twisting motions involved in the application and removal of the wire nuts until an intentional release of the secured wire nut from the tool.
2. Description of Prior Art
A preliminary review of prior art patents was conducted by the applicant which reveal prior art patents in a similar field or having similar use. However, the prior art inventions do not disclose the same or similar elements as the present wire nut tool, nor do they present the material components in a manner contemplated or anticipated in the prior art.
A majority of the prior art patents pertaining to the application or removal of a wire nut from a twisted wire bundle provide a tool with a socket on a tool end to accept a single wire nut and apply rotational forces upon the winged extensions of the wire nut to rotate the wire nut using forces greater than the simple grasp of the hand. These type tools include U.S. Pat. No. D576,426 to DeRuntz and U.S. Pat. No. 4,860,618 to Givot. Similar patents having an extension handle are found in U.S. Pat. Nos. D480,283 to Brown and D431,984 to Cotillon. Defined socket wire nut drivers attaching to a drill are disclosed in U.S. Pat. No. 6,922,887 to Keswani, U.S. Pat. No. 5,974,916 to Lassiter and U.S. Pat. No. 5,887,631 to Eaton. In U.S. Pat. Nos. 7,413,693 and 7,069,820 to Goacher, Jr., a hollow cylindrical tool defining dual tool ends is adapted to two different sized wire nut and providing a fully extending hollow bore for the insertion of a ground wire through the tool is indicated with an outer textured surface to improve grip of the tool. A torque limiting wire nut socket, as disclosed in U.S. Pat. No. 6,198,049 to Korinek, is applied to a proprietary wire nut defining a modified top portion to the wire nut, is inserted upon the special wire nut top and applies a limited force upon the wire nut until a specific amount of torque is reached, the socket then abrading a portion of the wire nut to the point that the socket cannot continue to grasp the upper portion of the special wire nut to prohibit over-rotation of the wire nut on the twisted wire bundle.
A standard wire nut is applied to the ends of a gather wire bundle to twist and retain the wires together for a secure electrical connection. The wire nuts define an inner diminishing tapered cavity, often including an inner threading or a tapered spring, an outer plastic insulating material and two axially extending winged extensions. Two or more wires are placed within the cavity and the two winged extensions are grasped by the fingers, rotating the wire nut to twist and secure the wires together with the wire nuts covering the exposed metal wiring of the twisted wire bundle. removing the wire nut requires the opposite rotational motion. These wire nuts are used in high and low voltage electrical wiring applications and the wire nuts are supplied in different sizes depending on the gauge of wires being attached or the number of wires being secured. They may also differ based upon the type of wiring, solid single or multiple strand.
There are certain tasks that require the application of multiple wire nuts. During this repetitive application of wire nuts, fatigue of the hand is common. Additionally, application of a wire nut with one's bare hands places the hand in close proximity to the exposed wiring, some wiring tasks requiring the application of the wire nut on live electrical wires or in remote locations. The prior art tools resolve the fatigue aspect of wire nut applications by providing a means of capturing a single wire nut within a socket with the opposing end grasped by and hand to apply a rotational force to the tool, applying or removing the wire nut. Some of them provide an extension handle or an opening for the insertion of a drill adapter. These tools provide for the application of a single wire nut, with the next wire nut requiring insertion and application, one wire nut at a time. None of the prior art tools provide for the insertion a plurality of stacked wire nuts, with the tool further providing for the single installation of the last wire nut in the stack nor a means to present the next wire nut for application, the stack being loaded, stored and retained within the wire nut tool providing for the ability to apply multiple wire nuts with one hand and avoid having to load one wire nut at a time for the convenience of the user.
The following drawings are submitted with this utility patent application.
A wire nut application tool 10 for applying and removing wire nut connectors 100, as indicated in
As further indicated in the drawing figures, the linear grooves 50 are parallel and opposing, allowing the wire nut extensions 105 to slide freely and evenly within the hollow channel 40, with the wire nut connectors 100 being loaded within the hollow channel 40 to form a stored stack of wire nut connectors,
The tool 10 provides the user with the ability to apply several wire nut connectors 100 using a single hand and minimizes unnecessary repetitive movements of wire nut connector insertion. A typical wire nut connector 100 requires grasping the extensions 105 of the wire nut connector 100 between the thumb and forefinger and applying a twist using the wrist, with all the pressure of application and removal on the thumb pad and the inner portion of the forefinger. The tool 10 distributes the force and torque into the entire hand, using the grasp of the entire palm of the hand, reducing fatigue and pressure on smaller areas of the hands and fingers. The combined length of the expanded handle portion 20 and the lower tool portion 30 also provides the user with the ability to distance their hand from the channel opening 44 and the applied wire bundle upon which the wire nut connectors 100 are inserted, especially useful where the wire bundles may be subject to live electrical power at the time of the wire nut connector application. Therefore, it would be preferred that the materials used in the construction of the wire nut application tool 10 be non-conductive, with a preferred material being an insulated plastic material, with the exception of the inner expansion spring 60.
The application purpose of the tool 10 comprises the steps of directing the channel opening 44 of the lower tool portion 20 towards at least two bared wire ends into the exposed lowest wire nut connector 100, applying the lowest wire nut connector 100 within the tool channel opening 44 upon the at least two wires forming the wire bundle, twisting and connecting the wires together within the lowest wire nut connector 100, releasing the wire nut extensions 105 from the respective groove shoulders 55, eliminating the attached wire nut connector 100 from the tool 10 through the aligned linear release slots 54 which further advances the next wire nut connector 100 and its extensions downwards along the respective linear grooves 50 and placing the next wire nut connector's wire nut extensions 105 into the offset groove shoulder 55 for the application of the next wire nut connector 100 held within the tool 10. The tool 10 may be reloaded as many times as required throughout the life of the tool 10.
As there exist numerous sized wire nut connectors 100 for varied wire gauges and number of wires in a particular bundle, the tool 10 may be supplied in various different sizes to accommodate the various sized wire nut connectors 100. As shown in
It is further contemplated that the handle portion 20 of the tool 10 may include a textured surface, a contoured outer surface, friction enhancing coatings or other means of improving the grip on the handle portion of the tool, not shown. It is also contemplated that the handle portion 20 may also include a recess in an upper end, not shown, containing a wire twisting device, including a plurality of spaces holes within which several wires may be inserted and rotated to twist them together prior to application of a wire nut connector 100 from the other end.
While the invention has been particularly shown and described with reference to a preferred embodiment thereof, it will be understood by those skilled in the art that changes in form and detail may be made therein without departing from the spirit and scope of the invention.
Number | Name | Date | Kind |
---|---|---|---|
4252036 | Vanderhoof | Feb 1981 | A |
4860618 | Givot | Aug 1989 | A |
5590574 | Lide | Jan 1997 | A |
5887631 | Eaton | Mar 1999 | A |
5974916 | Lassiter | Nov 1999 | A |
D431984 | Cortillon | Oct 2000 | S |
6198049 | Korinek | Mar 2001 | B1 |
D480283 | Brown | Oct 2003 | S |
6922887 | Keswani | Aug 2005 | B1 |
7069820 | Goacher | Jul 2006 | B2 |
7127970 | Kirchgaessler | Oct 2006 | B2 |
7356914 | Keswani | Apr 2008 | B2 |
D573426 | DeRuntz | Jul 2008 | S |
7413693 | Goacher | Aug 2008 | B2 |