Circuit breaker crossbar assembly and method

What is claimed is: 1 . A circuit breaker crossbar assembly comprising: a crossbar rotatable between a first rotational position and a second rotational position, the crossbar coupled to at least one moveable contact arm of the circuit breaker; and an insert member disposed in communication with the crossbar and the at least one moveable contact arm operative to exert a force on the at least one moveable contact arm. 2 . The circuit breaker crossbar assembly of claim 1 , further comprising a biasing member coupled to the insert member and arranged to exert the force on the at least one moveable contact arm. 3 . The circuit breaker crossbar assembly of claim 2 , wherein the biasing member comprises a spring operatively coupled to the insert member at a first end of the spring and to the at least one moveable contact arm at a second end of the spring. 4 . The circuit breaker crossbar assembly of claim 2 , wherein the insert member includes a plunger operatively coupled to the at least one moveable contact arm at a first end of the plunger and operatively coupled to the biasing member at a second end of the plunger. 5 . The circuit breaker crossbar assembly of claim 1 , wherein the crossbar defines a cavity therein, and an aperture thereon, the cavity extending to the aperture, wherein a portion of the at least one moveable contact arm is operatively received there through the aperture and disposed in the cavity. 6 . The circuit breaker crossbar assembly of claim 5 , wherein the insert member is a molded component with a configuration dependent upon the configuration of the at least one moveable contact arm. 7 . The circuit breaker crossbar assembly of claim 1 , wherein the crossbar is operably coupleable to a plurality of moveable contact arm assemblies of the circuit breaker. 8 . The circuit breaker crossbar assembly of claim 7 , further comprising a plurality of insert members, each of the plurality of insert members operatively coupled to a respective one of the plurality of moveable contact arm assemblies. 9 . A circuit breaker comprising: a plurality of moveable contact arm assemblies configured to conduct current through the circuit breaker; a crossbar operatively coupled to the plurality of moveable contact arm assemblies, rotatable between a first rotational position and a second rotational position; a mechanism configured to selectively rotate the crossbar between the first and second rotational positions; and a plurality of insert members, each of the plurality of insert members coupled there between the crossbar and a respective moveable contact arm assembly, and arranged to exert a force on the respective moveable contact arm assembly. 10 . The circuit breaker of claim 9 , wherein each of the plurality of insert members is a molded component with a configuration dependent upon the configuration of the respective moveable contact arm assembly. 11 . The circuit breaker of claim 9 , further comprising a biasing member disposed there between a corresponding insert member and moveable contact arm assembly, and arranged to exert the force on the respective moveable contact arm assembly. 12 . The circuit breaker of claim 11 , wherein the biasing member comprises a spring coupled to one of the plurality of insert members at a first end of the spring and coupled to the respective moveable contact arm assembly at a second end of the spring. 13 . The circuit breaker of claim 11 , wherein each of the plurality of insert members includes a plunger coupled there between the respective moveable contact arm assembly at a first end of the plunger and the corresponding biasing member at a second end of the plunger. 14 . A method of assembling a crossbar assembly for a circuit breaker comprising: coupling a portion of a moveable contact arm assembly to a crossbar, the moveable contact arm assembly selected from a plurality of distinct configurations of moveable contact arm assemblies; manufacturing an insert member having a customized configuration that is determined by a configuration of the moveable contact arm assembly coupled to the crossbar; and disposing an insert member between, and into communication with, the crossbar and the moveable contact arm assembly to thereby exert a force on the moveable contact arm. 15 . The method of claim 14 , further comprising coupling a biasing member there between the moveable contact arm assembly and the insert member to thereby exert the force on the moveable contact arm. 16 . The method of claim 15 , wherein the biasing member comprises a spring having a first end and a second end; further comprising operatively coupling the spring to the moveable contact arm assembly at the first end and to the insert member at the second end. 17 . The method of claim 15 , further comprising biasing the moveable contact arm assembly by disposing a plunger in contact with the moveable contact arm assembly at a first end of the plunger with the biasing member in contact with the plunger at a second end of the plunger.