Charger for electronic grid holders and detectors stored at mobile radiographic imaging apparatus and methods for using the same

What is claimed is: 1. A mobile radiography apparatus comprising: a transport frame configured to roll across a surface; an adjustable support attached to the transport frame, one end of the adjustable support configured to be horizontally and vertically moveable; an x-ray source coupled to the one end of the adjustable support; and an x-ray detector recharge device attached to the transport frame, the recharge device comprising a first storage slot configured to receive and charge a first portable x-ray detector having a first chargeable power source, the first storage slot comprising a decreasing cross-sectional area to increase frictional resistance against the first detector as the first detector is inserted into, and moved toward a bottom of, the first storage slot, wherein the recharge device includes an electrical recharge connector at the bottom of the first storage slot, the first detector includes an electrical charging connector on a bottom facing side of the first detector, and wherein the charging connector is configured to electrically engage the recharge connector when the first detector is fully inserted into the first slot, and wherein at least one of the electrical recharge connector and the electrical charging connector is moveable in two-dimensions or in three-dimensions to facilitate electrical engagement therebetween when the first detector is fully inserted into the first slot, wherein the two-dimensions and the three-dimensions include at least two orthogonal directions. 2. The apparatus of claim 1 , wherein the first storage slot includes elastic members to increase the frictional resistance. 3. The apparatus of claim 1 , wherein the recharge device further comprises a second storage slot configured to receive and charge a second portable x-ray detector having a second chargeable power source, the second x-ray detector comprising a smaller size than the first x-ray detector, the second storage slot comprising a decreasing cross-sectional area to increase frictional resistance against the second detector as the second detector is inserted into, and moved toward a bottom of, the second storage slot, the second storage slot comprising a size that is smaller than a size of the first storage slot to prevent insertion of the first x-ray detector therein. 4. The apparatus of claim 3 , wherein the first and second storage slots each comprise a width, a length, and a depth, and wherein at least one of a width, a length, and a depth of the second storage slot is less than a corresponding width, length, and depth of the first storage slot to prevent insertion of the first x-ray detector therein. 5. The apparatus of claim 3 , wherein the recharge device further comprises a third storage slot sized to receive a third detector, the third detector comprising a smaller size than the first and the second detectors, the third storage slot comprising a size that is smaller than the size of the first and the second storage slots to prevent insertion of the first x-ray detector and the second x-ray detector therein. 6. The apparatus of claim 5 , wherein the first chargeable power source is configured to be removable from the first detector, and wherein the recharge device further comprises a fourth storage slot configured to receive and recharge the removable first chargeable power source when the removable first chargeable power source is fully inserted therein. 7. The apparatus of claim 1 , wherein the first chargeable power source is configured to be removable from the first detector, and wherein the recharge device further comprises a second storage slot configured to receive and recharge the removable first chargeable power source when the removable first chargeable power source is fully inserted therein. 8. A mobile radiography apparatus comprising: a transport frame configured to roll across a surface; an adjustable support attached to the transport frame, one end of the adjustable support configured to be horizontally and vertically moveable; an x-ray source coupled to the one end of the adjustable support; and an x-ray detector recharge device attached to the transport frame, the recharge device comprising a plurality of different sized storage slots each configured to receive and charge one of a plurality of different sized x-ray detectors inserted therein, each of the x-ray detectors comprising a chargeable power source, a first one of the storage slots sized to receive only one of the plurality of different sized detectors and to prevent insertion of remaining ones of the plurality of different sized detectors, wherein the first one of the storage slots includes a height or a width smaller than a corresponding height or width of the remaining ones of the plurality of different sized detectors, wherein said plurality of storage slots each comprises an electrical recharge connector at a bottom of the storage slot, the plurality of different sized x-ray detectors each include an electrical charging connector on a bottom facing side thereof, and wherein each of the charging connectors is configured to electrically engage a corresponding one of the recharge connectors when the x-ray detectors are fully inserted into the storage slots, and wherein at least one of the electrical recharge connectors and the electrical charging connectors is moveable in two-dimensions or in three-dimensions to facilitate electrical engagement therebetween when the x-ray detectors are fully inserted into the storage slots, wherein the two-dimensions and the three-dimensions include at least two orthogonal directions. 9. The apparatus of claim 8 , wherein said plurality of storage slots each comprises a decreasing cross-sectional area configured to increase frictional resistance against a detector inserted therein as the inserted detector is moved toward a bottom of the storage slot. 10. The apparatus of claim 9 , wherein said plurality of storage slots each comprises elastic members to increase the frictional resistance. 11. The apparatus of claim 9 , wherein the chargeable power sources are each configured to be removable from the detectors, and wherein the recharge device further comprises a plurality of battery storage slots each configured to receive and recharge one of the removable chargeable power sources when the removable chargeable power sources are fully inserted therein. 12. A mobile radiography apparatus comprising: a transport frame configured to roll across a surface; an adjustable support attached to the transport frame, one end of the adjustable support configured to be horizontally and vertically moveable; an x-ray source coupled to the one end of the adjustable support; and an x-ray detector recharge device attached to the transport frame, the recharge device comprising a storage slot configured to receive a first grid holder, the first grid holder configured to secure therein a first portable x-ray detector and to secure therein a second portable x-ray detector after the first portable x-ray detector is removed from the first grid holder, the first and second portable x-ray detectors each configured to be manually mounted in and manually removed from the first grid holder, the first x-ray detector having a first chargeable power source configured to be charged through the first grid holder when the first grid holder is fully inserted into the storage slot, the second x-ray detector having a second chargeable power source configured to be charged through the first grid holder when the first grid holder is fully inserted into the storage slot, wherein the recharge device includes an electrical recharge connector at the bottom of the storage slot, the first grid holder