Abstract:
A conductor assembly formed by a pair of cables each formed by two conductors in a side-by-side relationship. One conductor of each cable includes at least one wire and the other conductor of each cable is formed by a plurality of bundles of wires. The diameters of a portion of the wires are of a different gauge. The conductors are surrounded by insulation which is configured to permit the assembly to be installed around a corner and to permit one cable to be bent back upon the other. The two conductors of each cable can be mechanically connected together so that they together carry the positive or negative portion of the signal or can be separately connected so that they each carry different frequency components of the signal.

Description:
BACKGROUND OF THE INVENTION 
     This invention relates to a conductor assembly, and more particularly, to a conductor assembly for transmitting an electrical signal between a power source and a load. 
     Various types of conductors, or cables, have been used to transfer electrical current, in some form of signal, between a power source and a load. For example, the signal from an audio amplifier is transmitted by a cable to a loudspeaker for producing a replica of a signal from a program source that is introduced to the amplifer. Although there is much controversy as to the optimum type of cable that should be used in this environment, there is general agreement that cables of a relative large diameter, or width, containing a multitude of individual conductors, produce the best results. 
     However, these type of cables are expensive, especially in stereo reproduction systems utilizing a separate stereo amplifier for the high frequencies and a separate stereo amplifier for the low frequencies, and/or separate loudspeakers, or drivers, for the high frequencies the low frequencies, since separate cable assemblies must be used for every amplifier and loudspeaker. 
     Also, large multi cable assemblies of this type are less than ideal from an installation standpoint since they are usually bulky, hard to handle and relatively inflexible. This problem is compounded in custom installations in which the cables should be hidden from sight. 
     SUMMARY OF THE INVENTION 
     It is an object of the present invention to provide a signal conductor assembly in which multiple conductors are provided, each consisting of one or more wires. 
     It is a further object of the present invention to provide a cable assembly of the above type in which at least one of the conductors carrying each signal is formed by a plurality of bundles of wires. 
     It is a further object of the present invention to provide a cable assembly of the above type in which at least two different conductors are provided which transfer the positive signal, and at least two additional conductors are provided which transfer the negative, or ground, signal. 
     It is a further object of the present invention to provide a cable assembly of the above type in which the diameter of at least one of the wires of the first or second conductor is different from the diameter of at least one other wire thereof. 
     It is a further object of the present invention to provide a cable assembly of the above type in which the conductors are arranged in a parallel, side-by-side relation. 
     It is a still further object of the present invention to provide a cable assembly of the above type in which the two different cables for respectively carrying the positive signal and the negative signal can be connected together or can be respectively connected to a high frequency amplifier and a low frequency amplifier, and/or to a high frequency loudspeaker and a low frequency loudspeaker. 
     It is a still further object of the present invention to provide a cable assembly of the above type which is relatively flexible, is easy to install and is especially adapted for installation around corners. 
     It is a still further object of the present invention to provide a cable assembly of the above type in which the two cables forming the assembly are bendable relative to each other so that one cable overlies the other along their respective lengths. 
     Toward the fulfillment of these and other objects, the conductor assembly of the present invention includes at least two parallel conductors for carrying the positive signal and at least two parallel conductors for carrying the negative signal. One conductor of each pair is formed by at least one wire and the other conductor consists of a plurality of bundles of twisted wires, with a portion of the wires having different diameters. Insulation extends around the conductors and is configured to enable the cable to be easily bendable. 
    
    
     DESCRIPTION OF THE DRAWINGS 
     The above brief description, as well as further objects, features and advantages of the present invention will be more fully appreciated by reference to the following detailed description of the presently preferred but nonetheless illustrative embodiment in accordance with the present invention which taken in conjunction with the accompanying drawings wherein: 
     FIG. 1 is a partial perspective view depicting the signal cable assembly of the present invention, with the insulation portion of the individual conductors forming the assembly being removed from the end portions thereof for convenience of presentation; 
     FIG. 2 is a cross-sectional view taken along the line 2--2 of FIG. 1; 
     FIG. 3 is a view similar to FIG. 2, but depicting the cable installed around a corner; 
     FIG. 4 depicts the cable assembly of FIG. 2 with one cable bent back over the other cable; and 
     FIGS. 5-7 are schematic views depicting the cable assembly of FIG. 1 shown connected in these different configurations. 
    
    
     DESCRIPTION OF THE PREFERRED EMBODIMENTS 
     Referring specifically to FIGS. 1 and 2 of the drawings, the reference numeral 10 refers in general to the conductor assembly of the present invention which comprises four conductors 12, 14, 16 and 18 extending in a parallel, side-by-side relationship. The conductors 12 and 14 together form a single cable for carrying the positive portion of the audio signal and the conductors 16 and 18 together form a single cable for carrying the negative portion of the signal, as will be explained. 
     The conductor 12 is formed by a bundle of wires, each of a relatively small diameter, which are spiral wrapped, or twisted, relative to each other. The number of wires and their respective diameters, or gauges, can be varied over a relatively wide range but as a non-limitative example, the conductor 12 could comprise approximately sixty wires each of a 36 gauge. 
     The conductor 14 is formed by three twisted bundles 20a, 20b and 20c. The bundle 20a is formed of a relatively small number of twisted wires each of a relatively large diameter, the bundle 20b is formed of a relatively large number of twisted wires, each of a relatively small diameter, and the bundle 20c consists of an intermediate number of twisted wires, each of an intermediate diameter. The number of the wires forming each bundle 20a, 20b and 20c and their respective diameters, or gauges, can vary over a relatively wide range and, as a non-limitative example, the bundle 20a could comprise approximately sixteen twisted wires each of a 30 gauge (AWG), the bundle 20b could comprise approximately sixty twisted wires each of a 36 gauge and the bundle 20c could comprise approximately forty twisted wires each of a 34 gauge. 
     Insulating sleeves 24 and 26 extend around the conductor 12 and the conductor 14, respectively, and have been depicted in FIG. 1 with their end portions removed to better depict the respective wires of the latter conductors. 
     The conductor 16 is identical to the conductor 12 and, as such, is formed by a bundle of wires each of a relatively small diameter, or gauge, which are spiral wrapped, or twisted, relative to each other. 
     The conductor 18 is identical to the conductor 14 and thus is formed by three bundles 30a, 30b and 30c of wire strands sized, twisted and configured identically to the bundles 20a, 20b and 20c, respectively, of the conductor 14. 
     Insulating sleeves 34 and 36 extend around the conductors 16 and 18, respectively. The sleeves 34 and 36 have also been depicted in FIG. 1 with their end portions removed. 
     The wires forming the conductors 12, 14, 16 and 18 are of a current carrying material, such as copper and the insulating material forming the sleeves 24, 26, 34 and 36 is of a plastic or rubber. 
     The larger number of wires in the conductors 14 and 18 are designed to transfer the relatively low frequency components of the signal, while the smaller number of wires of the conductors 12 and 16 can transfer the relatively high frequency components of the signal, as will be described. 
     The sleeves 24 and 26 are disposed in a juxtaposed, parallel, side-by-side relationship with their corresponding sidewall portions being molded together, while the sleeves 34 and 36 are formed in the same manner. The insulating material forming the sleeves 24, 26, 34 and 36 is molded into an integral unit, with the adjacent walls of the sleeves 26 and 36 separated by a relatively thin strip 38 of insulating material extending integrally therewith. The thickness, or height, of the strip 38 is reduced when compared to that of the sleeves 24, 26, 34 and 36 and the strip includes an enlarged portion, or ridge 38a extending for the length of the cable assembly 10, for reasons to be described. 
     As shown in FIG. 3, the overall configuration of the cable assembly 10, and especially the insulating strip 38 and the ridge 38a, enables the assembly to easily be installed around an interior corner formed by two interior walls 39a and 39b. The increased flexibility gained by the provision of the strip 38 of a reduced thickness enables the assembly 12 to be bent so that the conductors 12 and 14 can rest against one wall, such as 39a, while the conductors 16 and 18 can rest against the other wall 39b. A tack, or nail then can be driven through the ridge 38a and into one of the walls to secure the assembly 10, as shown. 
     The provision of the relatively thin strip 38 extending between the sleeves 26 and 36 enables the cable formed by the conductors 12 and 14 to be bent relative to the cable formed by the conductors 16 and 18 as shown in FIG. 4 so that the former cable lies over the latter cable along their respective lengths. This, of course, results in a smaller package from a width standpoint and increases the installation flexability of the assembly. 
     FIGS. 5-7 depict the cable assembly 10, along with an identical assembly 10&#39; connected in three different manners in three different audio systems. Prior to use, the end portions of the sleeves 24, 26, 34 and 36 are stripped from the conductors 12, 14, 16 and 18, respectively, of the cable assembly 10 and from the conductors 12&#39;, 14&#39;, 16&#39;, and 18&#39; of the cable assembly 10&#39; as shown in FIG. 1. According to the arrangement of FIG. 5, the respective uninsulated end portions of the conductors 12 and 14 of the cable assembly 10 are twisted, or otherwise connected together, to form a single cable for carrying the positive signal between an amplifier 40 and one loudspeaker 42 of an stereophonic, or two channel, reproduction system. The conductors 16 and 18 are also twisted, or otherwise connected together in a similar manner to form a single cable for carrying the negative, or ground, signal between the amplifier 40 and the loudspeaker 42. The conductors 12 and 14 thus together function together as one cable while the conductors 16 and 18 function together as one cable. 
     The conductors 12&#39;, 14&#39;, 16&#39; and 18&#39; of the cable assembly 10&#39; are connected in a manner identical to that just described in connection with the cables 12, 14, 16, 18, respectively, but are connected between an amplifier 40&#39; and a loudspeaker 42&#39; which form the other channel of the stereophonic reproduction system. It is understood that, although the amplifiers 40 and 40&#39; are depicted as being separate they, in fact, can be integrated into a single-chassis stereophonic amplifier. Also, it is understood that the loudspeakers can include multiple drivers (not shown) for reproducing different portions of the frequency spectrum in a conventional manner. 
     Spade lugs 44 are provided on the respective uninsulated connected ends of each cable assembly 10 and 10&#39; to facilitate their connections between the positive and negative terminals of the amplifiers 40 and 40&#39; and the loudspeakers 42 and 42&#39;, respectively. 
     In the arrangement of FIG. 6 the ends of each of the cable assembies 10 and 10&#39; are connected to the amplifiers 40 and 40&#39;, respectively in a manner identical to that of FIG. 5, while the other ends thereof are connected to loudspeakers 42 and 42&#39;, respectively. However, in this embodiment the cable 16 is connected to the positive terminal of the high-frequency driver (not shown) of the loudspeaker 42, cable 12 is connected to the negative terminal of the latter driver, while the cables 18 and 14 are respectively connected to the positive and negative terminals of the low frequency driver of the loudspeaker 42. In a similar manner, the cable 16&#39; is connected to the positive terminal of the high frequency driver of the loudspeaker 42&#39;, the cable 12&#39; is connected to the negative terminal of the latter driver, while the cable 18&#39; and 14&#39; are respectively connected to the positive and negative terminals of the low frequency driver of the loudspeaker 42&#39;. 
     According to the arrangement of FIG. 7, an electronic crossover 46 is provided which divides the audio signal into high frequency components which are distributed to an amplifier 48 which functions as a high fequency amplifier for both stereophonic channels, and low frequency components which are distributed to an amplifier 48&#39; which functions as a low frequency stereophonic amplifier. Since the crossover 46, and the use of it in connection with the two stereophonic amplifiers 48 and 48&#39;, are conventional they will not be described in any further detail. 
     One end of the cable 12 of the cable assembly 10 is connected to the negative terminal of the high frequency amplifier 48 and one end of the cable 16 is connected to the positive terminal of the latter amplifier. In a similar manner, one end of cable 14 is connected to the negative terminal of the high frequency amplifier 48&#39; and one end of the cable 18 is connected to the positive terminal of the latter amplifier. The corresponding ends of the cable assembly 10&#39; are connected in a similar manner as just described in connection with the cable assembly 10. The arrangment of FIG. 7 utilizes loudspeakers 42a and 42a&#39; for reproducing the high frequency components of the audio signal for the respective two channels of reproduction, and loudspeakers 42b and 42b&#39; for reproducing the respective lower frequency components thereof. Thus, according to this arrangement, the corresponding end of the conductor 12 of the cable assembly 10 is connected to the negative terminal of the high frequency speaker 42a and the conductor 16 is connected to the positive terminal thereof. In a similar manner, the conductor 14 of the cable assembly 10 is connected to the negative terminal of the low frequency loudspeaker 42 b and the conductor 18 is connected to the positive terminal thereof. The cable assembly 10&#39; is connected in an identical manner to the loudspeaker 42a&#39; for reproducing the high frequency components of the other channel of stereophonic reproduction, and the loudspeaker 42b for reproducing the low frequencies components. 
     It is thus seen that the cable assembly of the present invention is extremely versatile since it can be utilized in a normal configuration in which one amplifier is connected to one speaker as depicted in FIG. 5, in a bi-wire, dual loudspeaker configuration in which a single amplifier drives two loudspeakers (FIG. 6) and in the bi-amp, dual-speaker configuration of FIG. 7. 
     It is understood that several other variations may be made in the foregoing without departing from the scope of the invention. For example, the cable assembly 10 is not limited to two conductors 12 and 14 carrying one portion of the signal (such as positive) and two conductors 16 and 18 carrying the other portion of the signal (such as negative, or ground). Also the cable assembly of the present invention is not limited to a bi-wire or dual speaker arrangement but can be extended to accommodate additional amplifiers and/or loudspeakers as necessary by simply providing additional conductors on each cable assembly. 
     Also, connectors other than the spade lugs 44 can be connected to the uninsulated end(s) of the conductors of the cable assembly of the present invention for facilitating connection to the terminals of the amplifiers and loudspeakers. Examples of these alternate connectors are banana plugs, pin connectors, and the like. 
     Other modifications, changes and substitutions are intended in the foregoing disclosure and in some instances some features of the invention will be employed without a corresponding use of other features. Accordingly, it is appropriate that the appended claims be construed broadly and in a manner consistent with the scope of the invention.