1. Field of the Invention
The present invention relates to wire dressing tools and, more particularly, to a hand tool for stripping insulated electrical conductors and crimping electrical connectors to the stripped end.
2. Description of Related Prior Art
Most common electrical conductors include an insulating sheath for preventing direct contact with the sheathed electrical conductor (wire). Such sheaths are generally of a plastic material. The plastic material may be a relatively common plastic and flexible to permit routing of the conductor around and through various elements. The term “plastic” is used herein in a generic sense to include various types of plastic that have been or may be used for electrical insulating purposes, including sheaths made of sophisticated special purpose materials. The function of such sheaths is that of preventing electrical contact between the sheathed conductor and an adjacent object. The conductor itself may be a single strand of wire or multiple strands of wire, depending upon the nature and purpose of the conductor. Thus, the term “conductor” is used in a generic sense to include both single-strand and multi-strand wires.
To connect an end of the insulated wire to a terminal or for purposes of splicing the ends of two wires to one another, the surrounding insulating sheath must be removed for a predeterminable length along the wire. Once the length of a sheath at the end of a wire has been removed, the wire is generally attached to an electrical connector having a cylindrical section for receiving the stripped wire. The wire may be soldered to the connector or the connector may be crimped to mechanically lock the wire therewithin. Numerous hand tools have been developed to perform the function of stripping the end of a wire of its insulation and for crimping a connector to mechanically lock the end of a wire therewithin. These hand tools include a one-piece handle and jaw pivotally attached to another one-piece handle and jaw. In many cases, the jaws include pairs of blade/orifice of different sizes to accommodate different gauge wires. Upon placing an insulated wire within an appropriately sized blade/orifice pair, the insulation is cut without damage to the underlying conductor. Generally, the wire is pulled from the tool or the tool is pulled from the wire to sever the cut length of insulation and lay bare a section of the wire.
In some hand tools, the pairs of blade/orifice are disposed in the jaws of the hand tool. In other hand tools, the pairs of blade/orifice are in the handles of the hand tool.
To crimp the wire within a connector, an indent corresponding in size with the diameter of the connector may be formed in one of the jaws of the hand tool. A corresponding detent may be formed in the other jaw to create a depression in the connector upon closing the handles of the hand tool and the corresponding jaws. The resulting depression will mechanically bear against the wire within the connector and create a mechanical bond therebetween to prevent withdrawal of the wire. Multiple pairs of indents and corresponding detents may be formed in the jaws of the hand tool. Alternatively, these multiple pairs of indents and detents may be formed in the handles of the hand tool.
From the above description of existing hand tools for stripping and crimping insulated wires, the stripping function requires a lateral movement of the hand tool relative to an insulated wire extending laterally from the hand tool. Where there is sufficient space surrounding the end of the wire to be stripped and crimped, such lateral movement is of no concern. However, if such stripping and crimping must be confined within tight quarters, significant difficulty may arise.
In attempts to alleviate such problems imposed by limited space about insulated wires to be stripped and crimped, some hand tools include bent jaws containing pairs of indents/detents disposed in a bent end of the jaws of a hand tool. The stripping function is performed by the unbent portion of the jaws or by the handles, as described above. To accommodate the stripping function in confined quarters, the jaws may be bent stepwise with the step containing one or more pairs of blade/orifice. Nevertheless, the hand tool must be moved laterally to remove the cut section of insulation from the wire.
When wires are to be stripped within a confined space, such as a junction box, it is very difficult to perform the stripping function with presently available strippers. These problems occur for two reasons. The space required in a junction box or the like may not be sufficient to permit a sufficient portion of the hand tool to engage the wire to be stripped, whether the stripping function is performed by the jaws or by the handles. A second difficulty relates to the space constraints imposed in order to move the hand tool laterally to strip the insulation from the wire.
By having the stripping function performed by 90 degree bent ends of the jaws of a hand tool, the hand tool can be drawn longitudinally out of a confined space to perform the stripping function on insulated wires therein. The crimping function, whether the pairs of indents and detents are in the bent part of the jaws, or the remaining part of the jaws, is generally easily carried out provided only that the corresponding pair of indents and detents are insertable within the confined space sufficiently to crimp a connector mounted on the stripped wire. Thereafter, the handles of the hand tool are squeezed, which does not require any lateral or longitudinal movement of the hand tool.
It is therefore a primary object of the present invention to provide a hand tool for stripping and crimping insulated electrical conductors.
Another object of the present invention is to provide a hand tool for stripping the insulation from an insulated electrical conductor by longitudinal movement of the hand tool.
Still another object of the present invention is to provide a hand tool for stripping insulated electrical conductors, which has a plurality of pairs of blades/orifices disposed in a bent part of the jaws of the hand tool.
Still another object of the present invention is to provide a hand tool for stripping and crimping insulated electrical conductors and having the stripping elements disposed in a bent section of the jaws of the hand tool and the crimping elements disposed in the remaining section of the jaws.
A further object of the present invention is to provide a method for stripping insulated electrical conductors with a hand tool by engaging the insulating sheath and drawing the hand tool along its longitudinal axis.
A yet further object of the present invention is to provide a hand tool having jaws bent at a right angle and containing elements for stripping the end of an insulated electrical conductor.
A yet further object of the present invention is to provide a hand tool having bent jaws for supporting stripping elements and crimping elements to strip an insulated electrical conductor and crimp a connector onto the stripped conductor.
These and other objects of the present invention will become apparent to those skilled in the art as the description thereof proceeds.
The present invention will be described with greater specificity and clarity with reference to the following drawings, in which:
Referring to
Extension 24 of jaw 18 includes a plurality of blade/orifice 42, 44 and 46. Similarly, extension 28 of jaw 20 includes a plurality of blade/orifice 48, 50 and 52. Upon closing of jaws 18, 20 the blade/orifices in extension 24 mate with corresponding blade/orifices in extension 28.
Referring jointly to
Referring primarily to
Since the function of the indent and corresponding detent on the respective bases of the jaws require only the squeezing of the respective handles, no pulling of the hand tool is required. Thereby, the jaws can easily perform this function within even a confined space, such as a junction box or the like.
Insulated conductors having ends that must be stripped to receive and be electrically engaged by electrical connectors, which are mechanically squeezed to create a mechanical bond with an inserted conductor, come in many different gauges (sizes). Furthermore, the connectors to be attached come in many different sizes. To accommodate such variation in sizes, the number of blade/orifices disposed in the extensions may be more than the three illustrated. Similarly, the number of detents and indents for the electrical connectors may be more than the three illustrated and disposed in the base of the jaws. It is therefore to be understood that the three pairs of blade/orifices and the three pairs of indents/detents are primarily representative of a number of blade/orifices and indents/detents that may be formed in the hand tool.
Furthermore, while the above discussion has been oriented toward the use of the hand tool for stripping and crimping electrical conductors, it may also be used for wires, whether or not having a sheath throughout and crimping such wires to a connector. Like the electrical conductors, these wires may be single or multi-strand.
The present application includes subject matter disclosed in and claims priority to a provisional application entitled “BENT WIRE CRIMPER AND STRIPPER” filed Dec. 30, 2013 and assigned Ser. No. 61/964,328 describing an invention made by the present inventor.
Number | Date | Country | |
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61964328 | Dec 2013 | US |