Finger cluster connector for a rackable circuit breaker connecting with a grounding bus

What is claimed is: 1. A grounding system for a rackable circuit breaker, comprising: a finger cluster connector mounted on a grounding bus in a rackable circuit breaker; a rail conductor mounted in a circuit breaker cradle in a switchgear cabinet and connected to ground potential, wherein the finger cluster connector comprises a conductor portion formed from a single plate of conductive material folded along a principal direction to form a generally U-shaped body having first side and second side, with respective legs of the U-shaped body on the first and second sides having mutually facing parallel surfaces, each of the legs on the first and second sides being divided into a plurality of finger sections mutually separated by slots, each of the plurality of finger sections extending in length in a direction orthogonal to the principal direction, with distal ends of the finger sections forming the mutually facing parallel surfaces of the legs on the first and second sides separated by a separation distance of forming a constricted passage, and an end finger section on one end of each of the first and second sides having mutually facing surfaces on the distal ends of the end finger sections forming lead-in alignment surfaces for the constricted passage, and wherein the lead-in alignment surfaces formed by the end finger sections of the conductor portion are configured to align the rail conductor for entry into the constricted passage as the conductor portion slides along the rail conductor in a direction orthogonal to the length of the plurality of finger sections during a rack-in operation of the circuit breaker into the cradle. 2. The grounding system for a rackable circuit breaker of claim 1 , wherein the finger cluster connector further comprises: a first leaf spring fastened to the first side of the conductor portion and divided into a plurality of spring finger sections with spring distal ends configured to respectively press against the distal ends of respective finger sections of the first side of the conductor portion; and a second leaf spring fastened to the second side of the conductor portion and divided into a plurality of spring finger sections with spring distal ends configured to respectively press against the distal ends of respective finger sections of the second side of the conductor portion, wherein the first and second leaf springs press against the distal ends of the finger sections of the first side and second side of the conductor portion to compress the rail conductor to form a good electrical contact within the constricted path, as the conductor portion slides along the rail conductor. 3. The grounding system for a rackable circuit breaker of claim 1 , wherein the finger cluster connector further comprises: the conductor portion formed of a conductive material having a high modulus of elasticity with strong spring properties to enable the distal ends of the finger sections to press against the rail conductor to provide a good electrical contact when the rail conductor is positioned within the constricted passage between the distal ends of the finger sections during a rack-in operation. 4. A finger cluster connector for sliding electrical connection to a rail conductor, comprising: a conductor portion formed from a single plate of conductive material folded along a principal direction to form a generally U-shaped body having first and second sides, with respective legs of the U-shaped body on the first and second sides having mutually facing parallel surfaces, each of the legs being divided into a plurality of finger sections mutually separated by slots, each of the plurality of finger sections extending in length in a direction orthogonal to the principal direction, with distal ends of the finger sections forming the mutually facing parallel surfaces of the legs on the first and second sides separated by a separation distance forming a constricted passage, and an end finger section on one end of the first and second sides having mutually facing surfaces on the distal ends of the end finger sections forming lead-in alignment surfaces for the constricted passage; wherein the lead-in alignment surfaces formed by the end finger sections of the conductor portion align a rail conductor for entry into the constricted passage as the conductor portion slides along the rail conductor in a direction orthogonal to the length of the plurality of finger sections. 5. The finger cluster connector of claim 4 , further comprising: a first leaf spring fastened to the first side of the conductor portion and divided into a plurality of finger sections with distal ends configured to respectively press against the distal ends of respective finger sections of the first side of the conductor portion; and a second leaf spring fastened to the second side of the conductor portion and divided into a plurality of finger sections with distal ends configured to respectively press against the distal ends of respective finger sections of the second side of the conductor portion, wherein the first and second leaf springs press against the distal ends of the finger sections of the first side and second side of the conductor portion to compress the rail conductor within the constricted path as the conductor portion slides along the rail conductor. 6. The finger cluster connector of claim 4 , wherein the conductor portion is formed of a conductive material having a high modulus of elasticity with strong spring properties to enable the distal ends of the finger sections to press against the rail conductor to provide a good electrical contact when the rail conductor is positioned within the constricted passage between the distal ends of the finger sections. 7. The finger cluster connector of claim 4 , wherein the conductor portion is mounted on a grounding bus in a rackable circuit breaker and the rail conductor is mounted in a cradle for racking in the circuit breaker and is connected to ground potential. 8. The finger cluster connector of claim 4 , wherein the finger cluster connector makes connection with a rail conductor connected to at least one of a ground conductor, a voltage conductor, or a conductor connected to a load. 9. A finger cluster connector, comprising: a conductor portion formed from a single plate of conductive material folded along a principal direction to form a generally U-shaped body having first and second sides, with respective legs of the U-shaped body on the first and second sides having mutually facing parallel planar surfaces, each of the legs being divided into a plurality of finger sections mutually separated by slots, with distal ends of the finger sections forming the mutually facing parallel planar surfaces of the legs on the first and second sides separated by a separation distance forming a constricted passage; a first leaf spring fastened to the first side of the conductor portion and divided into a plurality of finger sections with distal ends configured to respectively press against the distal ends of respective finger sections of the first side of the conductor portion; and a second leaf spring fastened to the second side of the conductor portion and divided into a plurality of finger sections with distal ends configured to respectively press against the distal ends of respective finger sections of the second side of the conductor portion, wherein the first and second leaf springs press against the distal ends of the finger sections of the first side and second side of the conductor portion to compress an electrical conductor within the constricted path for good electrical contact with the electrical conductor. 10. The finger cluster connector of claim 9 , wherein the connector portion