The present invention relates to connectors for heavy gauge wires and cables that are used when a confined space does not easily allow the wires/cables to be bent. The angle connectors of the present invention combine angle connectors with a variety of different lug connectors to allow wire/cable bends to be made in various orientations when space is limited.
When installing heavy gauge wires/cables, it is often necessary to bend the wires/cables to make a connection. However, the physical characteristics of heavy gauge wires/cables limit the radius of the bend that can be made. In some cases, lug connectors (also sometimes referred to as flag connectors) are used to make tight bends with heavy gauge wires/cables that cannot be easily bent. U.S. Pat. No. D302,542 to O'Loughlin and U.S. Pat. No. 4,771,538 to O'Loughlin et al. provide examples of different lug connectors that are presently in use. (Both of these patents are incorporated herein in their entirety by reference.) The drawback of these connectors is that they have a fixed orientation and can only accommodate wires/cables coming from a limited number of different directions. Accordingly, there is a need for a more flexible lug-type connector that can connect wires/cables that are oriented over a 360 degree range and at different angles to each other.
The present invention relates to an electrical connector assembly that includes a lug connector that includes a flat end having a flat end connector with at least one aperture and a barreled end having a barrel connector; and an angle connector that includes a body having a plurality of different surfaces, a first male pin and a first compression fitting. The barrel connector rotatably accommodates the first male pin to mechanically and electrically connect the lug connector and the angle connector. After the orientation of the angle connector is selected, the barrel connector is compressed to mechanically and electrically engage the first male pin. In a preferred embodiment, the first male pin and the first compression fitting are on different surfaces about 90 degrees apart. In another embodiment, the flat end of the lug connector is angularly disposed to the barreled end to permit wires/cables coming from different directions to be connected.
In another preferred embodiment of the electrical connector assembly of the present invention, the body of the angle connector is at least partially coated with electrically insulating material to prevent accidental electrical grounding of the connector. The compression fittings of the angle connector can be sized to connect wires or cables from #8 AWG to 3000 kcmil in size. In preferred embodiments, the compression fittings include a beryllium contact ring. The angle connector of the electrical connector assembly can also include either a second male pin, a second compression fitting or both. Preferably, the first and second compression fittings and/or the first and second male pins are on different surfaces and are about 180 degrees apart.
In preferred embodiments of the electrical connector assembly, the lug connector has a longitudinal axis extending from the flat end to the barrel connector end and the flat end and the barreled end are angularly disposed to each other and form an angle of between 60 and 150 degrees. In preferred embodiments, the flat end and the barreled end are angularly disposed to each other and form an angle of about 90 or 135 degrees. This is the interior angle between the flat end and the barrel end. Typically, the lug connectors are described in terms of the exterior or supplementary angle so that a lug connector with a 135 degree interior angle is referred to as a 45-degree lug connector. For a lug connector with a 90 degree interior angle, the exterior angle is also 90 degrees.
The present invention also provides a kit of parts for an electrical connector assembly which includes an angle connector having a body, a male pin and a compression fitting; and a plurality of lug connectors having a barrel portion and a flat connection end. The barrel portion of each lug connector is adapted to insertably accommodate the male pin for mechanical and electrical engagement between the lug connector and the angle connector. In addition, the flat connection ends of each of the lug connectors extend at mutually distinct angles from the barrel portions.
Other objects and many attendant features of this invention will be readily appreciated as the invention becomes better understood by reference to the following detailed description when considered in connection with the accompanying drawings wherein:
The connector assemblies of the present invention provide for easy and efficient connection of two or more wires/cables and are comprised of an angle connector, preferably with 90-degree or 180-degree connections, and at least one lug connector. The term lug connector is well know to those skilled in the art and refers to connectors that include a lug connection and a barrel-type compression fitting connection in various configurations. The connections for the angle connectors of the present invention can vary in size according to the size of the wires/cables that are being connected. The angle connectors have two or more connections which are preferably 90 degrees apart. In the most preferred embodiments, the angle connector has at least one connection which is a compression fitting connection. However, the angle connectors can have as many as six connections which can be made up of any combination of male pin connections and compression fitting connections.
The angle connectors are constructed of an electrically conductive metal such as copper or aluminum and can be plated with a material known by those skilled in the art for plating electrical devices, such as tin. The size of the angle connectors can vary according to the size of the wires/cables that are to be connected. For examples, large size wires/cables, which are used in high voltage applications, require larger angle connectors. The angle connectors are preferably shaped like a block but the connectors are not limited to a particular shape and cylindrically-shaped connectors are within the scope of the present invention. In the most preferred embodiments, the compression fittings are provided with multi-louvered beryllium contact rings (not shown in the figures) as the contact interface. In other preferred embodiments, the angle connectors are at least partially coated with an electrically insulating material (not shown). This prevents the creation of an electrical path between the angle connector and any metal surface that may contact it.
Typically, the angle connectors have six surfaces and the connections are preferably made on adjoining surfaces to provide a 90 degree connection between the wires/cables. A preferred embodiment includes at least one male pin connection and at least one compression fitting connection. However, the angle connectors can have any combination of male pin connections and compression fitting connections or the angle connectors can include all male pin connections or all compression fitting connections. The male pin connections and compression fitting connections vary in size so that they can be connected to different size wires/cables from #8 AWG to 3000 kcmil in size. In addition, the male pin connections and the compression fitting connections can all be the same size or an angle connector can have as many as six male pin and/or compression fitting connections which are the same size or a combination of different sizes.
The lug connectors used in the present invention typically include a flat end with one or more apertures for connecting the lug connector to an electrically conductive structure and a barrel end with a barrel connection which is compressively attached to a male pin connection. The lug connector is constructed from an electrically conductive metal, preferably copper or aluminum, and it may be plated with a metal such as tin. The size of the lug connector is selected by the user based on the specific application. Typically, high voltage application which use large size wires/cables require the use of larger lug connectors. The selection of the size lug connector required for an application would be within the knowledge of one of ordinary skill in the art.
In preferred embodiments, the barrel end is angularly disposed to the flat end so that the longitudinal axis of the barrel connector forms an angle with the flat end. For the purposes of the present invention, the “angle” of the lug connector refers to the angle between the barrel end and a flat surface when the flat end is flush with the flat surface. For example,
Referring to
The angle connector 110 is selected so that the size of the male pin connector 112 corresponds to the barrel connection 132 of the lug connector 130 and so that the compression fitting connection 114 matches the size of the wire/cable 190. After the male pin connection 112 is inserted into the barrel connection 132, the angle connector can be rotated 360 degrees to provide different orientations. After the orientation is selected to accommodate the wire/cable 190, the barrel 132 is compressed to electrically and fixedly attach the lug connector 130 to the angle connector 110. The wire/cable 190 is then inserted into the compression fitting connection 114 and the fitting is compressed (also referred to as “crimped”) to secure the wire/cable 190 in place and to form an electrically conductive path between the wire/cable 190 and the flat end 134 of the lug connector 130.
The connector assemblies of the present invention provide a variety of different connector orientations by combining one of the angle connectors 110, 210, 310 shown in
The lug connectors 130, 230, 330, 430, 530, 630 are made from an electrically conductive metal, preferably copper or aluminum, and preferably the same material as the angle connectors 110, 210, 310. In preferred embodiments, the lug connectors 130, 230, 330, 430, 530, 630 have a barrel connection 132, 232, 332, 432, 532, 632 on one end which connects to the male pin connection of 112, 212, 222, 312, 322 of the angle connector 110, 210, 310. One or more of the splice connectors 40 or lug connectors 130, 230, 330, 430, 530, 630 can be used with the angle connectors 110, 210, 310 to form the connector assemblies of the present invention. For example, the angle connector 310 shown in
For a specific application, a user forms a connector assembly of the present invention by selecting one of the angle connectors 110, 210, 310 shown in
Thus, while there have been described the preferred embodiments of the present invention, those skilled in the art will realize that other embodiments can be made without departing from the spirit of the invention, and it is intended to include all such further modifications and changes as come within the true scope of the disclosure set forth herein.
This application claims priority from provisional application Ser. No. 60/548,751, filed on Feb. 27, 2004.
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Number | Date | Country | |
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20050191883 A1 | Sep 2005 | US |
Number | Date | Country | |
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60548751 | Feb 2004 | US |