The subject matter described and/or illustrated herein relates generally to electrical terminals that terminate wires.
Electrical terminals are often used to terminate the ends of wires. Such electrical terminals typically include an electrical contact and a crimp barrel. The crimp barrel includes an opening that receives an end of the wire therein. The crimp barrel is crimped around the end of the wire to establish an electrical connection between the one or more conductors of the wire and the terminal as well as to mechanically hold the electrical terminal on the wire end. When crimped over the wire end, the crimp barrel establishes an electrical connection between the conductor(s) of the wire and the electrical contact.
Conductors of wires are often fabricated from copper. However, as the cost of copper has risen, aluminum has been considered as an alternative conductor material. However, aluminum is not without disadvantages. For example, one disadvantage of using aluminum as a conductor material is an oxide layer that may build on the exterior surface of the conductor. Such an oxide layer has relatively poor electrical conductivity. Accordingly, the oxide layer must be penetrated to the base material to establish a reliable electrical connection between the conductor and the electrical terminal.
Another disadvantage of aluminum is electrochemical corrosion. Many electrical terminals are used within environments that may expose the terminal and the wire crimped thereto to moisture. For example, electrical terminals are often used within automobiles and other vehicles that operate in salt-aqueous environments. Exposure of a conductor to moisture may cause the conductor to corrode. For example, moisture that infiltrates a crimp interface between a conductor and a crimp barrel may cause the conductor to experience electrochemical corrosion, and thereby begin to dissolve. Moreover, the end of many conductors is exposed at an end of the crimp barrel of the electrical terminal, for example through an opening within the end of the crimp barrel and/or because the end of the conductor extends past the end of the crimp barrel. Such exposed ends of conductors may experience corrosion from exposure to moisture within the operating environment of the electrical terminal. Corrosion is thus an issue when using aluminum as a conductor material. Moreover, the electrical terminal is optionally fabricated from copper based alloyed materials. In the electrochemical series copper and aluminum have a large difference in electrochemical potential, which is an indication for high corrosion speed. Corrosion may therefore be especially problematic when terminating aluminum conductors to copper-based electrical terminals.
A known attempt at prohibiting electrochemical corrosion includes preventing or reducing the exposure of a conductor to moisture. For example, attempts have been made to seal the ends of crimp barrels using silicone gaskets. However, because aluminum has a reduced amount of electrical conductivity relative to copper, aluminum conductors need to have a larger cross-sectional area than copper conductors for a given electrical current carrying capacity. When a copper conductor is replaced with an aluminum conductor, the space occupied by the silicone gasket may prevent the larger aluminum conductor from being used with the existing electrical terminal. A larger crimp barrel and silicone gasket would therefore need to be manufactured to accommodate the larger aluminum conductor, which may increase the cost of an assembly of the electrical terminal and wire.
Another attempt at prohibiting electrochemical corrosion includes decreasing the electrochemical potential between the conductor and the crimp barrel. Decreasing the electrochemical potential is accomplished by fabricating the crimp barrel or surfaces thereof from material which is closer to or substantially the same as the conductor. For aluminum conductors, possible materials of the crimp barrel include nickel plating, aluminum plating, and/or using an aluminum base material for the crimp barrel. However, such techniques are not without disadvantages. For example, nickel plating may require the use of galvanic plating, which may be relatively expensive. Additionally, the relatively hard nickel surface layer may be harmful to the tool used to crimp the crimp barrel around the wire. Moreover, there is a probability that the nickel surface layer will crack during crimping, which would create possible corrosion paths. Aluminum plating is not currently possible with usual plating process and may therefore require the implementation of new plating technology, such as physical vapor deposition (PVD), which may be expensive. Moreover, even with new plating technology such as PVD there will still be exposed edges of the plating layer, which will transfer the corrosion issue to a different place on the electrical terminal.
Fabricating the base material of the crimp barrel out of aluminum material may also be disadvantageous. Some electrical terminals include electrical contacts that are spring beams. However, aluminum has relatively poor spring characteristic properties, so there is no possibility to form a spring beam out of aluminum. Accordingly, fabricating the crimp barrel out of aluminum material would be restricted to use on electrical terminals that do not include a spring beam or it would be necessary to use different materials as the base materials of the crimp barrel and the electrical contacts, which may be expensive, time-consuming, and/or difficult to manufacture.
In one embodiment, an electrical terminal is provided for terminating a wire. The electrical terminal includes an electrical contact and a crimp barrel extending from the electrical contact. The crimp barrel is configured to be crimped around an end of the wire. The crimp barrel includes a base and opposing side walls that extend from the base. The base and the side walls define an opening of the crimp barrel that is configured to receive the end of the wire therein. The side walls extend outwardly from the base to ends. The side walls include base segments that extend from the base and end segments that extend from the base segments and include the ends. A sealing wing extends from the end of at least one of the side walls. The side walls are configured to be folded over when crimped over the end of the wire such that a gap is defined between the end segment and the base segment of at least one of the side walls. The sealing wing is configured to extend within the gap between the end segment and the base segment of the corresponding side wall when the side walls are crimped over the end of the wire.
In another embodiment, an electrical terminal is provided for terminating a wire having at least one conductor and an electrical insulation layer. The electrical terminal includes an electrical contact and a crimp barrel extending from the electrical contact. The crimp barrel is configured to be crimped around an end of the wire. The crimp barrel includes a base and opposing side walls that extend from the base. The base and side walls define an opening of the crimp barrel that is configured to receive the end of the wire therein. When the crimp barrel has been crimped around the end of the wire, the side walls and the base of the crimp barrel define a continuous enclosure that extends entirely around a circumference of the end of the wire from the electrical insulation layer of the wire and past an end surface of the at least one conductor.
In another embodiment, an electrical terminal is provided for terminating a wire. The electrical terminal includes an electrical contact and a crimp barrel extending from the electrical contact. The crimp barrel is configured to be crimped around an end of the wire. The crimp barrel includes a base and opposing side walls that extend from the base. The base and side walls define an opening of the crimp barrel that is configured to receive the end of the wire therein. The side walls and base include interior surfaces. An embossment extends outwardly from at least one of the interior surface of the base or the interior surface of at least one of the side walls. The side walls are configured to be folded over when crimped over the end of the wire such that a gap is defined between the end segment and the base segment of at least one of the side walls. The embossment includes a segment that is configured to engage another segment of the embossment within the gap between the end segment and the base segment of the corresponding side wall when the side walls are crimped over the end of the wire.
The crimp segment 14 includes a crimp barrel 20. The crimp banel 20 includes a base 22 and opposing side walls 24 that extend from the base 22. The base 22 and the side walls 24 define an opening 25 of the crimp banel 20 that is configured to receive an end 26 (
The crimp barrel 20 is configured to be crimped around the end 26 of the wire 28 to mechanically and electrically connect the wire 28 to the electrical terminal 10. The conductors 30 may be any type of conductor. Optionally, the conductors 30 are fabricated from (e.g., may include) aluminum. Additionally or alternatively, the conductors 30 may be fabricated from any other electrically conductive materials, such as, but not limited to, copper and/or the like. Optionally, the wire 28 includes an electrical insulation layer 31 (
The crimp barrel 20 extends a length from a contact end 32 to a wire end 34. The contact end 32 extends from the electrical contact 18. More particularly, the contact end 32 extends from the end 16 of the electrical contact segment 12. As will be described below, the wire end 34 optionally engages the electrical insulation layer 31 (if provided). The crimp barrel 20 includes a front seal crimp sub-segment 36, an electrical termination crimp sub-segment 38, a compression transition sub-segment 40, and a rear seal sub-segment 42. Generally, the front seal crimp sub-segment 36 provides a seal at the contact end 32 of the crimp barrel 20, while the electrical termination crimp sub-segment 38 engages the conductors 30 to electrically connect the crimp barrel 20 to the conductors 30. The rear seal sub-segment 42 provides a seal at the wire end 34 of the crimp barrel 20.
In the exemplary embodiment, the base 22 and the side walls 24 extend along and define the entirety of the length of the crimp barrel 20. Accordingly, the base 22 and the side walls 24 include the sub-segments 36, 38, 40, and 42 in the exemplary embodiment. The base 22 includes an interior surface 44, and each of the side walls 24 includes an interior surface 46. The interior surfaces 44 and 46 define boundaries of the opening 25 of the crimp barrel 20. Optionally, the interior surfaces 44 and/or 46 include one or more serrations 48, as will be described below.
Prior to crimping, the side walls 24 extend outwardly from the base 22 to corresponding ends 50. More particularly, the side walls 24 include base segments 52 that extend from the base 22 and end segments 54 that extend from the base segments 52 and include the ends 50. At the front seal crimp sub-segment 36, sealing wings 56 extend from the ends 50 of the side walls 24. As will be described below, the sealing wings 56 are configured to extend within a gap 58 (
Referring again to
Optionally, sealant extends within one or more of the gaps 58 after the side walls 24 have been crimped over the wire end 26 to facilitate sealing the gaps 58. For example, the sealant 62 (
The sealing wings 56 and/or a combination of the sealing wings 56 and the sealant (the sealant 62 and/or the sealant provided within the pockets 60(s)) facilitates sealing the contact end 32 of the crimp barrel 20 to thereby facilitate preventing moisture from entering the opening 25, from contacting the conductors 30 and/or the interior surfaces 44 and/or 46 of the crimp barrel 20, from entering an interface between the conductors 30 and the interior surfaces 44 and/or 46 of the crimp barrel 20, and/or the like. In some embodiments, no portion of the conductors 30 of the wire 28 is exposed through the contact end 32 of the crimp barrel 20 when the crimp barrel 20 has been crimped around the wire end 26.
Referring again to
Referring now to
Referring again to
The crimp segment 114 includes the crimp barrel 120, which is configured to be crimped around the end 26 (
At the front seal crimp sub-segment 136, the sealing wing 156 extends from the end 150 of one of the side walls 124a. Optionally, the sealing wing 156 includes a base segment 157 that extends from the end 150 of the side wall 124a. The base segment 157 of the sealing wing 156 optionally includes a bend segment, which optionally is generally U-shaped, optionally extends into the opening 125 of the crimp barrel 20, and/or optionally extends in a direction generally toward the opening 125 before the side walls 124 are crimped over the wire end 26. In the exemplary embodiment, the sealing wing 156 includes an optional end segment 155 that extends from the bend segment of the base segment 157. Optionally, the end segment 155 of the sealing wing 156 extends from the base segment 157 in a direction generally toward the base 122 of the crimp barrel 120 before the side walls 124 are crimped over the end 26 of the wire 28. The end segment 155 of the sealing wing 156 optionally extends from the base segment 157 into the opening 125 of the crimp barrel 120 and/or in a direction generally toward the opening 125 of the crimp barrel 20 before the side walls 124 are crimped over the wire end 26. Optionally, at least a portion of the end segment 155 of the sealing wing 156 extends approximately parallel to the side wall 124a before the side walls 124 are crimped over the wire end 26. An optional pocket 160 is defined between the sealing wing 156 and the side wall 124a before the side walls 124 are crimped over the wire end 26.
The engagement between the end segment 154 and the base segment 152 of the side wall 124b also facilitates preventing moisture from entering the opening 125 of the crimp barrel 120 through the contact end 132 after the crimp barrel 120 has been crimped over the wire end 26. Optionally, the segment 157 of the sealing wing 156 extends from the side wall 124a in a direction generally away from the base 122 of the crimp barrel 120 after the side walls 124 have been crimped over the wire end 26. The sealing wing 156 optionally engages an interior surface 146 of base segment 152 and/or the end segment 154 of the side wall 124a when the side walls 124 are crimped over the wire end 26. As can be seen in
The sealing wing 156 and/or a combination of the sealing wing 156 and sealant facilitates sealing the contact end 132 of the crimp barrel 120 to thereby facilitate preventing moisture from entering the opening 125, from contacting the conductors 30 and/or the interior surfaces 144 and/or 146 of the crimp barrel 120, from entering an interface between the conductors 30 and interior surfaces 144 and/or 146 of the crimp barrel 120, and/or the like. In some embodiments, no portion of the conductors 30 of the wire 28 is exposed through the contact end 132 of the crimp barrel 120 when the crimp barrel 120 has been crimped around the wire end 26. The length that the sealing wing 156 extends outwardly from the side wall 124a may be selected such that the sealing wing 156 occupies a predetermined amount space at the contact end 132 of the crimp barrel 120. For example, and as should be apparent from the Figures, the length of the sealing wing 156 is longer than the lengths of the sealing wings 56 to accommodate using a single sealing wing 156 instead of a plurality of sealing wings 56.
Optionally, no portion of the conductor(s) 30 extends past the contact end 132 of the crimp barrel 120 after the crimp barrel 120 has been crimped around the wire end 26. The sealing provided by the sealing wing 156 and/or any sealant thereby facilitates preventing moisture from contacting the conductor(s) 30 as compared to terminals wherein a conductor end sticks out past the contact end of a crimp barrel and/or terminals wherein a conductor is exposed through an opening within the contact end of a crimp barrel.
The front seal crimp sub-segment 236 includes the embossment 256, which extends outwardly from interior surfaces 244 and 246 of the base 222 and side walls 224, respectively. In other words, the embossment 256 extends outwardly from the interiors surfaces 244 and 246 and radially inwardly relative to a central longitudinal axis 241 of the terminal 210. In the exemplary embodiment, the embossment 256 extends continuously along the interior surfaces 244 and 246 from the end 250 of one of the side walls 224 to the end 250 of the other side wall 224. Alternatively, the embossment 256 extends only partially along the interior surfaces 244 and 246 between the ends 250, including embodiments where the embossment includes at least two segments that are not interconnected.
After the crimp barrel 220 has been crimped around the wire end 26, the side walls 224 have been crimped over the wire end 26 such that the side walls 224 are folded over. When the side walls 224 are folded over, the segment of the embossment 256 that extends along the end segment 254 of the side wall 224a is engaged with the segment of the embossment 256 that extends along the base segment 252 of the side wall 224a. Similarly, the segment of the embossment 256 that extends along the end segment 254 of the side wall 224b is engaged with the segment of the embossment 256 that extends along the base segment 252 of the side wall 224b. When the side walls 224a and 224b are folded over, the end segments 254 of the side walls 224a and 224b are engaged with each other. The ends 250 of the side walls 224a and 224b optionally engage the interior surface 244 of the base 222.
The embossment 256 and/or a combination of the embossment 256 and sealant facilitates sealing the contact end 232 of the crimp barrel 220 to thereby facilitate preventing moisture from entering the opening 225, from contacting the conductors 30 and/or the interior surfaces 244 and/or 246 of the crimp barrel 220, from entering an interface between the conductors 30 and interior surfaces 244 and/or 246 of the crimp barrel 220, and/or the like. In some embodiments, no portion of the conductors 30 of the wire 28 is exposed through the contact end 232 of the crimp barrel 220 when the crimp barrel 220 has been crimped around the wire end 26. A length that the embossment 256 extends outwardly from the interior surfaces 244 and 246 may be selected such that the embossment 256 occupies a predetermined amount space at the contact end 232 of the crimp barrel 220. Optionally, no portion of the conductor(s) 30 extends past the contact end 232 of the crimp barrel 220 after the crimp barrel 220 has been crimped around the wire end 26. The sealing provided by the embossment 256 and/or any sealant thereby facilitates preventing moisture from contacting the conductor(s) 30 as compared to terminals wherein a conductor end sticks out past the contact end of a crimp barrel and/or terminals wherein a conductor is exposed through an opening within the contact end of a crimp barrel.
The embodiments described and/or illustrated herein provide an electrical terminal that may be less likely to experience electrochemical corrosion on one or more conductors of a wire terminated by the electrical terminal, on interior surfaces of the electrical terminal, at an interface between the conductor(s) of the wire and the interior surfaces of the electrical terminal, and/or the like.
It is to be understood that the above description is intended to be illustrative, and not restrictive. For example, the above-described embodiments (and/or aspects thereof) may be used in combination with each other. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the invention without departing from its scope. Dimensions, types of materials, orientations of the various components, and the number and positions of the various components described herein are intended to define parameters of certain embodiments, and are by no means limiting and are merely exemplary embodiments. Many other embodiments and modifications within the spirit and scope of the claims will be apparent to those of skill in the art upon reviewing the above description. The scope of the invention should, therefore, be determined with reference to the appended claims, along with the full scope of equivalents to which such claims are entitled. In the appended claims, the terms “including” and “in which” are used as the plain-English equivalents of the respective terms “comprising” and “wherein.” Moreover, in the following claims, the terms “first,” “second,” and “third,” etc. are used merely as labels, and are not intended to impose numerical requirements on their objects. Further, the limitations of the following claims are not written in means—plus-function format and are not intended to be interpreted based on 35 U.S.C. §112, sixth paragraph, unless and until such claim limitations expressly use the phrase “means for” followed by a statement of function void of further structure.
This application is a nonprovisional patent application of, and claims priority to and the benefit of, the filing date of U.S. Provisional Patent Application No. 61/394,260, filed on Oct. 18, 2010 and entitled “Electrical Terminal for Terminating a Wire”, which is hereby incorporated by reference in its entirety.
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