Battery pack adapter assembly for powered weapon accessory rail interface

What is claimed is: 1. A battery adapter, comprising: a housing having a first side and a second side transversely spaced apart from the first side; a first axially extending side wall disposed on the first side, a second axially extending side wall disposed on the second side, and an axially extending channel disposed intermediate the first and second side walls, the axially extending channel having a cross-sectional profile configured to physically and electrically mate with a portion of a weapon accessory mounting rail; a first battery pack interface member hingedly coupled to the first side and a second battery pack interface member hingedly coupled to the second side, the first battery pack interface member configured to physically and electrically mate with a first external battery pack and the second battery pack interface member configured to physically and electrically mate with a second external battery pack; and each of the first battery pack interface member and the second battery pack interface member being pivotal between a deployed position configured for normal operation of the first external battery pack and the second external battery pack, respectively, and an accessible position configured for attachment and detachment of the first external battery pack and the second external battery pack, respectively. 2. The battery adaptor of claim 1 , further comprising electronic circuitry disposed within the housing electrically coupled to a first electrical connector disposed on the first battery pack interface member and a second electrical connector disposed on the second battery pack interface member, the first and second electrical connectors configured for electrical coupling to the first and second external battery packs, respectively. 3. The battery adaptor of claim 2 , further comprising: a third electrical connector disposed within the axially extending channel; and the electronic circuitry comprising power switching circuitry for coupling the third electrical connector to a selected one of the first electrical connector and the second electrical connector. 4. The battery adaptor of claim 3 , further comprising: a first manual actuator disposed on the first battery pack interface member for coupling the third electrical connector to the first electrical connector; and a second manual actuator disposed on the second battery pack interface member for coupling the third electrical connector to the second electrical connector. 5. The battery adaptor of claim 3 , further comprising: said power switching circuitry configured to automatically switch from one of the first and second external battery packs to the other one of the first and second external battery packs when a charge state of said one of the first and second external battery packs falls below a preselected threshold. 6. The battery adaptor of claim 3 , wherein the electronic circuitry comprises one or more capacitors configured to store electrical energy and configured to act as one or both of: a temporary power supply for preventing power interruption when the third electrical connector is switched from the first electrical connector to the second electrical connector or vice versa; and a temporary power supply for preventing power interruption when one or both of the first and second external battery packs are removed and/or replaced with a like external battery pack. 7. The battery adaptor of claim 3 , wherein each of said first and second battery pack interface members comprises: a plurality of electrical contacts; a plurality of electrical conductors configured to electrically couple the plurality of electrical contacts to the third electrical connector; a hollow pivot pin pivotally coupling the respective first and second battery pack interface members to the respective first and second side of the housing; and wherein the hollow pivot pin defines a passageway for the plurality of electrical conductors. 8. The battery adaptor of claim 7 , wherein the hollow pivot pin includes an axial bore open at a distal end of the hollow pivot pin and a transverse aperture in communication with the axial bore disposed along a shaft of the hollow pivot pin. 9. The battery adaptor of claim 1 , further comprising: a distal end of the first external battery pack is configured to pivot away from an axial centerline of the housing when the first battery pack interface member is pivoted from the deployed position to the accessible position when the first external battery pack is attached to the first battery pack interface member; and a distal end of the second external battery pack is configured to pivot away from the axial centerline of the housing when the second battery pack interface member is pivoted from the deployed position to the accessible position when the second external battery pack is attached to the second battery pack interface member. 10. The battery adaptor of claim 1 , wherein each of the first and second battery pack interface members has an align-and-twist connector for detachably coupling the first and second external battery packs, respectively. 11. The battery adaptor of claim 1 , wherein the first and second battery pack interface members are configured to attach to first and second external battery packs conforming to a Small Tactical Universal Battery (STUB) form factor. 12. The battery adaptor of claim 1 , further comprising: the first and second external battery packs configured to mutually obstruct each other to prevent detachment when the first and second external battery packs are attached to the respective first and second battery pack interface members and the first and second external battery packs are in the deployed position. 13. The battery adaptor of claim 1 , further comprising a spring element biasing the first and second first battery pack interface members to the accessible position. 14. The battery adaptor of claim 13 , further comprising: a first latch member configured to releasably engage a complementary catch member disposed on the first battery pack interface member to secure the first battery pack interface member in the deployed position; and a second latch member configured to engage a complementary catch member disposed on the second battery pack interface member to secure the second battery pack interface member in the deployed position. 15. The battery adaptor of claim 1 , further comprising: a locking plate configured to engage a distal end of the first external battery pack and a distal end of the second external battery pack and secure the first and second external battery packs in the respective deployed position. 16. The battery adaptor of claim 15 , further comprising: a tether cord securing the locking plate to the housing. 17. The battery adaptor of claim 15 , further comprising: one or more battery engagement features configured to retain the first and second external battery packs in the deployed position when the first and second external battery packs are attached to the respective first and second battery interface members. 18. The battery adaptor of claim 17 , wherein the one or more engagement features include one or both of: first and second upstanding tabs disposed on opposing transverse sides of the locking plate and configured to engage a surface of the first and second external battery packs, respectively, when the first and second external battery packs are attached to the respective first and second battery interface members and in the deployed position; and one or more upstanding lugs