Adjustable battery lock device and method

What is claimed is: 1. A battery locking device comprising: a support shaft having a first shaft end and a second shaft end and a length therebetween, the support shaft providing a substantially central axis of rotation; a latch rotatably mounted in a first position along the length of the support shaft, the latch being rotatable with the support shaft about the central axis of rotation, the latch having opposing first and second sides and extending between a proximal portion carried on the support shaft and a distal portion located opposite of the proximal portion at a distance from the support shaft, the distal portion configured to engage a battery, the proximal portion having opposing first and second proximal ends, the first proximal end having a cylindrical projection with an outer surface having a splined profile comprising a plurality of spaced-apart teeth radially extending from the outer surface of the cylindrical projection, each of the plurality of spaced-apart teeth having a respective length extending substantially parallel to the central axis of rotation; a deformable biasing member carried on the support shaft adjacent the second proximal end of the proximal portion of the latch; and a stop member positioned adjacent the cylindrical projection, the stop member having a free stop end engagable with the splined profile to prevent rotation of the latch and the support shaft about the central axis of rotation in a first direction. 2. The battery locking device of claim 1 wherein the latch is rotatable about the central axis of rotation in a second direction between an open position and a locked position, the second direction being opposite the first direction, the latch being secured against at least a portion of the battery in the locked position, the battery preventing further rotation of the latch in the second direction. 3. The battery locking device of claim 2 wherein the support shaft and the latch are slidable in a third direction along the central axis of rotation from a stopped position where the stop member is engaged with the splined profile into an open position where the stop member is not engaged with the splined profile, the latch being able to rotate in both the first and second directions when in the open position. 4. The battery locking device of claim 2 wherein the locked position depends on a size of the battery, the locked position being different when the size of the battery is different. 5. The battery locking device of claim 1 wherein the distal portion of the latch comprises a support bracket having opposing arms with arm ends having an inwardly curved surface and a flange extending between the opposing arms along the first side of the latch, the flange extending outward past the arm ends of the opposing arms. 6. The battery locking device of claim 1 wherein the deformable biasing member is a helical spring, the helical spring coiled around at least a portion of the support shaft. 7. The battery locking device of claim 1 further comprising a battery holder for securing the battery, the battery holder having side walls defining a recessed socket for receiving the battery and the latch. 8. The battery locking device of claim 7 wherein the recessed socket has a closed end, the closed end having a substantially flat platform for supporting the battery and a recessed portion adjacent the substantially flat platform for supporting the proximal portion of the latch, the substantially flat platform being elevated from the recessed portion. 9. The battery locking device of claim 1 wherein the first direction is clockwise rotation of the latch and the support shaft about the central axis of rotation. 10. The battery locking device of claim 2 wherein the second direction is counterclockwise rotation of the latch and the support shaft about the central axis of rotation. 11. The battery locking device of claim 1 wherein the splined profile comprises thirty six of the plurality of spaced-apart teeth equally spaced about the outer surface of the cylindrical projection, the latch rotating at an angle of ten degrees around the central axis of rotation upon being rotated between adjacent ones of the plurality of spaced-apart teeth. 12. A battery locking device comprising: a battery holder, the battery holder having side holder walls and a closed end defining a recessed socket for receiving a battery; a support shaft extending through a portion of the recessed socket, the support shaft having a first shaft end and a second shaft end and a length therebetween, the support shaft providing a substantially central axis of rotation; a latch rotatably mounted in a fixed position along the length of the support shaft, the latch being rotatable about the central axis of rotation with the support shaft, the latch having opposing first and second sides and extending between a proximal portion carried on the support shaft and a distal portion located opposite of the proximal portion at a distance from the support shaft, the distal portion configured to engage the battery, the proximal portion having opposing first and second proximal ends, the first proximal end having a cylindrical projection with an outer surface having a splined profile comprising a plurality of spaced-apart teeth radially extending from the outer surface of the cylindrical projection, each of the plurality of spaced-apart teeth having a respective length extending substantially parallel to the central axis of rotation; a deformable helical spring carried on the support shaft adjacent the second proximal end of the proximal portion of the latch; and a stop member positioned adjacent the cylindrical projection, the stop member having a free stop end engagable with the splined profile to prevent rotation of the latch about the central axis of rotation in a first direction. 13. The battery locking device of claim 12 wherein opposing side socket walls of the recessed socket have holes for slidably supporting the support shaft, the support shaft extending through the holes and length being greater than a distance between the opposing side socket walls, the support shaft and the latch being slidable in a second direction along the central axis of rotation from a first position where the stop member is engaged with the splined profile into a second position where the stop member is not engaged with the splined profile, the latch being rotatable about the central axis of rotation in both clockwise and counterclockwise directions upon being moved into the second position. 14. The locking device of claim 12 wherein the distal portion of the latch comprises a support bracket having opposing arms with arm ends having an inwardly curved surface and a flange extending between the opposing arms along the first side of the latch, the flange extending outward past the arm ends of the opposing arms. 15. The locking device of claim 12 wherein the closed end of the recessed socket has a substantially flat platform for supporting the battery and a recessed portion adjacent the substantially flat platform for supporting the proximal portion of the latch, the substantially flat platform being elevated from the recessed portion. 16. The locking device of claim 12 wherein the latch is securable in a locked position, the latch being located at a particular rotational position about the central axis of rotation in the locked position, the battery preventing the latch from rotating counterclockwise about the central axis of rotation in the locked position, the stop member preventing the latch from rotating clockwise about the central axis of ro