Insulated reversible screwdriver

The invention claimed is: 1. A screwdriver device, comprising: a handle having an elongate channel extending partially therethrough of the handle; an axial blade member having a first distal end and a second distal end being configured and disposed for sliding through the elongate channel of the handle; a locking mechanism configured and disposed for releasably locking the axial blade member at a first operable position relative to the handle wherein the first distal end is exposed and the second distal end is disposed within the handle; a first tool head disposed on the first distal end of the axial blade member; a second tool head disposed on the second distal end of the axial blade member; and an ejection mechanism configured and disposed within the handle to constantly urge the axial blade member out of the locking mechanism from the first operable position to a second inoperable position. 2. The screwdriver device of claim 1 , wherein the axial blade member includes insulation material. 3. The screwdriver device of claim 2 , wherein the axial blade member is reversible and removable from the handle, and wherein the insulation material is ASTM rated for 1000V protection. 4. The screwdriver device of claim 1 , wherein the axial blade member comprises an insulation layer and a core layer. 5. The screwdriver device of claim 1 , wherein the locking mechanism comprises: a blade lock having an opening sized to allow sliding passage of the axial blade member therethrough; a rotatable dial disposed about an end of the blade lock where the dial includes cam surfaces configured and disposed to engage cam surfaces on a cam lock, the cam lock also disposed about the blade lock; at least two lock pins engaged with the blade lock for guided movement relative to the blade lock between a locking position and an unlocked position, the cam lock operably engaged with the pins to urge the pins from the locking position to the unlocked position in response to the rotation of the rotatable dial; and a biasing spring configured and disposed to bias the lock pins toward the locking position. 6. The screwdriver device of claim 5 , wherein the axial blade member includes at least one lock groove configured and disposed for receiving the lock pins. 7. The screwdriver device of claim 5 , wherein the cam lock is configured to allow debris to fall away from cam surface contact points into a gap disposed between the opposing cam surfaces of the cam lock and the rotatable dial when the rotatable dial is rotated past release of the cam surface contact points between the rotatable dial and the cam lock. 8. The screwdriver device of claim 1 , wherein the ejection mechanism comprises: an ejector member configured and disposed to contact the axial blade member; a biasing spring operably engaged with the ejector member to bias the axial blade member in an axial direction out of the handle; and an ejector housing mounting the biasing spring and the ejector member within the handle. 9. The screwdriver device of claim 8 , wherein the ejection mechanism further comprises: another ejector member configured and disposed to contact the axial blade member; another biasing spring operably engaged with the another ejector member to bias the axial blade member in the axial direction out of the handle; and another ejector housing mounting the another ejector member and the another biasing spring within the handle. 10. The screwdriver device of claim 1 , wherein the locking mechanism comprises: a blade lock having an opening sized to allow sliding passage of the axial blade member therethrough; and at least two lock pins configured and disposed within the blade lock to engage and to release the axial blade member. 11. A screwdriver device, comprising: a handle having an elongate channel extending partially therethrough of the handle; an axial blade member having a first distal end and a second distal end being configured and disposed for sliding through the elongate channel of the handle; a first tool head disposed on the first distal end of the axial blade member; and a locking mechanism configured and disposed for releasably locking the axial blade member at a first operable position relative to the handle wherein the first distal end is exposed and the second distal end is disposed within the handle, wherein the locking mechanism comprises: a blade lock having an opening sized to allow sliding passage of the axial blade member therethrough; a rotatable dial disposed about an end of the blade lock where the dial includes cam surfaces configured and disposed to engage cam surfaces on a cam lock, the cam lock also disposed about the blade lock; at least two lock pins engaged with the blade lock for guided movement relative to the blade lock between a locking position and an unlocked position, the cam lock operably engaged with the pins to urge the pins from the locking position to the unlocked position in response to the rotation of the rotatable dial; and a biasing spring configured and disposed to bias the lock pins toward the locking position. 12. The screwdriver device of claim 11 , wherein the axial blade member includes insulation material where the insulation material comprises an insulation layer and a core layer. 13. The screwdriver device of claim 11 , wherein the axial blade member is reversible and removable from the handle. 14. The screwdriver device of claim 11 , wherein a second tool head is disposed on the second distal end of the axial blade member. 15. The screwdriver device of claim 11 , wherein the insulation material is ASTM rated for 1000V protection. 16. The screwdriver device of claim 11 , wherein the axial blade member includes at least one lock groove configured and disposed for receiving the lock pins. 17. A method of securing a blade to a screwdriver device, comprising: providing a handle having an elongate channel extending partially therethrough of the handle; providing an axial blade member having a first distal end and a second distal end being configured and disposed for sliding through the elongate channel of the handle, a first tool head disposed on the first distal end of the axial blade member, and a second tool head disposed on the second distal end of the axial blade member; releasably locking the axial blade member at a first operable position relative to the handle wherein the first distal end is exposed and the second distal end is disposed within the handle; and constantly urging the axial blade member out of the elongate channel upon full insertion therein to cause ejection of the axial blade member from the handle upon release of the locking step. 18. The method of claim 17 , further comprising latching the axial blade member at a lock groove disposed along its peripheral circumference. 19. The method of claim 17 , wherein the axial blade member includes insulation material. 20. The method of claim 19 , wherein the insulation material is ASTM rated for 1000V protection.