Medium voltage switchgear with front accessibility of current transformers mounted external to a rear of a circuit breaker compartment

What is claimed is: 1. A switchgear comprising: a circuit breaker housing having a front and a rear, the housing defines a circuit breaker compartment, the rear of the housing defined by a rear wall having an interior and an exterior and an opening there-through, at least one bushing having first and second hollow portions, the bushing extending through the opening in the rear wall so that the first portion is disposed in the circuit breaker compartment and the second portion is disposed beyond the exterior of the rear wall and external of the circuit breaker compartment, the bushing having a hollow primary contact that extends within both of the first and second hollow portions of the bushing, with a first end of the primary contact extending into the first hollow portion, at least one current transformer mounted on the second portion of the bushing, a busbar, and a fastener structure, separate from the hollow primary contact and having a portion that extends through the hollow primary contact, coupling a second end of the primary contact to the busbar in a removable manner, wherein, when the fastener structure is decoupled from the primary contact, the bushing, with the primary contact, and the at least one current transform can be accessed from the front of the housing and moved through the opening in the rear wall and into the circuit breaker compartment, for maintenance. 2. The switchgear of claim 1 , further comprising a plate coupled to the bushing, the plate being removably coupled to the interior of the rear wall so as to cover at least a portion of the opening when coupled to the rear wall. 3. The switchgear of claim 2 , wherein the plate is coupled to the rear wall by fasteners. 4. The switchgear of claim 1 , wherein an end of the hollow primary contact includes a cutout defining a contact surface, and wherein the fastener structure has first and second ends, the first end being fixed to the busbar, the second end including threads that extend beyond the contact surface, the fastener structure includes a nut being received by the threads and engaging the contact surface to couple the primary contact to the busbar. 5. The switchgear of claim 4 , wherein the first end of the fastener structure is fixed to the busbar by at least one fastener. 6. The switchgear of claim 1 , further comprising a circuit breaker in the circuit breaker compartment, the circuit breaker being electrically coupled with the bushing. 7. The switchgear of claim 1 , further comprising a tray coupled to the rear wall and disposed external to the circuit breaker compartment for supporting the current transformer. 8. The switchgear of claim 1 , wherein a portion of the fastener structure is constructed and arranged to remain coupled to the busbar when the bushing and the current transformer are moved through the opening. 9. A method of removing a current transformer from a front of a circuit breaker compartment of a switchgear, the method comprising the steps of: providing an opening in a rear wall of the circuit breaker compartment, mounting at least one bushing with respect to the rear wall so that a first hollow portion of the bushing is disposed in the circuit breaker compartment and a second hollow portion of the bushing is disposed through the opening and external of the circuit breaker compartment, the bushing having a primary contact that extends within both of the first and second hollow portions of the bushing and a first end of the primary contact extends into the first hollow portion, a second end of the primary contact is removably coupled with a busbar, the busbar being external of the circuit breaker compartment, providing at least one current transformer on the second portion of the bushing, decoupling the primary contact from the busbar, and moving the bushing, with the primary contact, and the current transformer through the opening and into the circuit breaker compartment via the front of the circuit breaker compartment. 10. The method of claim 9 , wherein a plate is coupled to the bushing and the plate is removably coupled to an interior of the rear wall so as to cover at least a portion of the opening, and wherein, prior to the decoupling step, the method further comprises: decoupling the plate from the rear wall. 11. The method of claim 10 , wherein the step of decoupling the plate includes removing fasteners that secure the plate to the rear wall. 12. The method of claim 9 , wherein the primary contact is hollow and an end thereof include a cutout defining a contact surface, and a fastener structure extends through the hollow primary contact, a first end of the fastener structure is fixed to the busbar, a second end of the fastener structure includes threads that extend beyond the contact surface, a nut is received by the threads and engages the contact surface to couple the primary contact to the busbar, wherein the decoupling step includes removing the nut from the threads. 13. The method of claim 12 , wherein the first end of the fastener structure is fixed to the busbar by at least one fastener. 14. The method of claim 9 , further comprising: providing a circuit breaker in the circuit breaker compartment, the circuit breaker being electrically coupled with the bushing. 15. The method of claim 9 , further comprising: coupling a tray to the rear wall so as to be disposed external to the circuit breaker compartment, the tray supporting the current transformer. 16. The method of claim 12 , wherein the decoupling step is such that a portion of the fastener structure remains fixed to the busbar when the bushing and the current transformer are moved through the opening.