Support assembly for power conductors

What is claimed is: 1. A support assembly, for supporting one or more conductors, the support assembly comprising: a first clip subassembly including: a first housing with a first lateral wall and a second lateral wall extending from opposing sides of a base to define a first receiving space between the first and second lateral walls for one or more conductors; a first clip and a second clip, each of the first and second clips including sidewalls extending from a base wall, and the first and second clips being disposed so that the first lateral wall of the first housing is received between the sidewalls of the first clip and the second lateral wall of the first housing is received between the sidewalls of the second clip; a first biasing element disposed between the first clip and the first lateral wall to bias the first clip toward the second clip; and a second biasing element disposed between the second clip and the second lateral wall to bias the second clip toward the first clip; the first and second clips being movable relative to the first and second lateral walls to selectively place the first clip subassembly in: an open configuration, in which the first and second clips provide a first clearance within the first receiving space for insertion of the conductor; and a closed configuration, in which the first and second clips are laterally displaced toward each other, relative to the open configuration, to provide a second clearance within the first receiving space to retain the conductor, the second clearance being smaller than the first clearance; and the first and second clips are lockable relative to the first housing to secure the first clip assembly in the open configuration. 2. The support assembly of claim 1 , wherein each of the first and second clips further includes a latch projection and the first housing includes mating projections, each of the latch projections being configured to engage a corresponding at least one of the mating projections to secure the first or second clip, respectively, in the open configuration. 3. The support assembly of claim 2 , wherein each of the first and second clips includes engagement tabs that extend from the sidewalls away from the first housing, the engagement tabs being configured to be manually engaged to disengage the latch projections from the mating projections. 4. The support assembly of claim 1 , wherein the first and second biasing elements are helical springs. 5. The support assembly of claim 1 , wherein the first and second biasing elements are integrally formed spring arms. 6. The support assembly of claim 1 , wherein each of the first and second clips includes a receiving region defined by the base wall and the sidewalls of the respective clip, the receiving regions oriented to be on an opposite side of the corresponding first or second clip from a conductor secured between the first and second clips; and wherein a first end of each of the biasing elements is seated on the corresponding first or second clip within the receiving region; and a second end of each of the biasing element is seated on a corresponding one of the first and second lateral walls of the housing. 7. The support assembly of claim 1 , further comprising: a second clip subassembly including: a second housing with a second base and lateral walls that define a second receiving space; and clips that are movable within the second receiving space between an open configuration and a closed configuration and are biased relative to the second housing toward the closed configuration; the first clip subassembly and the second clip subassembly being secured adjacent to each other, with distal ends of the first and second lateral walls of the first housing secured to distal ends of the lateral walls of the second housing so that the first receiving space is continuous with the second receiving space to collectively receive one or more conductors. 8. The support assembly of claim 7 , further comprising: a first mounting strut and a second mounting strut, each of the first and second mounting struts being configured to engage a respective one of the first clip subassembly and the second clip subassembly, to adjacently secure the first and second clip subassemblies; wherein each of the first and second housings further defines a mounting channel that includes a plurality of mounting protuberances; and wherein each of the mounting struts includes a plurality of mounting openings, the mounting openings being sized to receive the mounting protuberances to secure the corresponding housing to the mounting strut. 9. An adjustable clip assembly, for use in a support assembly for supporting conductors, the adjustable clip assembly comprising: a housing with opposing lateral walls extending from a base portion to define a receiving space; a clip; and a biasing element disposed between the clip and the housing to bias the clip into the receiving space, wherein the adjustable clip assembly is configured to move between an open configuration and a closed configuration, the clip being locked to the housing to compress the biasing element between the clip and the housing in the open configuration, and the clip being displaced into the receiving space by the biasing element in the closed configuration, relative to the open configuration, to engage and retain the conductor. 10. The adjustable clip assembly of claim 9 , wherein the clip further includes opposing sidewalls that extend from a base wall to define a receiving region between the sidewalls, the clip being disposed so that the receiving region receives a portion of the housing. 11. The adjustable clip assembly of claim 10 , wherein the receiving region receives a portion of one of the lateral walls of the housing. 12. The adjustable clip assembly of claim 10 , wherein the receiving region receives a portion of the base portion of the housing. 13. The adjustable clip assembly of claim 12 , wherein the biasing element is seated on the clip within the receiving region and the receiving space. 14. The adjustable clip assembly of claim 10 , wherein an inner surface of at least one of the opposing sidewalls defines a latch feature configured to engage a corresponding mating feature defined by the housing to maintain the adjustable clip assembly in the open configuration. 15. The adjustable clip assembly of claim 14 , wherein the clip includes engagement tabs that extend from the opposing sidewalls away from the housing, the engagement tabs being configured to be manually engaged to disengage the latch feature from the corresponding mating feature. 16. The adjustable clip assembly of claim 10 , wherein a first of the opposing sidewalls is disposed on a first lateral side of the housing, and a second of the opposing sidewalls is disposed on a second lateral side of the housing to constrain movement of the clip relative to the housing in a direction perpendicular to the displacement of the clip into the receiving space. 17. A support assembly for supporting conductors, the support assembly comprising: a first clip subassembly and a second clip subassembly, each of the first clip subassembly and the second clip subassembly including: a housing with opposing lateral walls extending from a base portion to define a receiving space; a clip that includes opposing sidewalls extending from a base wall, the clip being movably secured to the housing with the housing received between the opposing sidewalls; and a biasing element disposed between the base wall of the clip and the housing to bias the clip away