Drive mechanisms for drug delivery pumps

The invention claimed is: 1. A drug delivery pump, comprising: a drug container including a barrel and a plunger seal; a needle insertion mechanism; a fluid pathway connection; and a drive mechanism including: a tether, an electrical actuator, a gear interface, rotation of the gear interface being controlled by the electrical actuator, a gear assembly in rotational engagement with the gear interface, the gear assembly including a main gear and a regulating mechanism, wherein release of the tether is metered by operation of the gear assembly through the regulating mechanism, a drive housing, a piston connected to the tether and configured for disposition in the barrel adjacent the plunger seal, the piston being configured to translate substantially axially within the drug container, and a biasing member configured for disposition at least partially within the barrel, the biasing member being retained in an energized state between the piston and drive housing, and wherein the release of the tether controls the free expansion of the biasing member from its energized state and the free axial translation of the piston upon which the biasing member bears upon, wherein the gear interface is configured such that a force applied to the gear interface by the gear assembly does not impart a torque causing the gear interface to rotate. 2. A drug delivery pump comprising: a drug container including a barrel and a plunger seal; a needle insertion mechanism; a fluid pathway connection; a drive mechanism including: a tether, an electrical actuator, a gear interface, rotation of the gear interface being controlled by the electrical actuator, a gear assembly in rotational engagement with the gear interface, the gear assembly including a main gear and a regulating mechanism, wherein release of the tether is metered by operation of the gear assembly through the regulating mechanism, a drive housing, a piston connected to the tether and configured for disposition in the barrel adjacent the plunger seal, the piston being configured to translate substantially axially within the drug container, a biasing member configured for disposition at least partially within the barrel, the biasing member being retained in an energized state between the piston and the drive housing, and wherein the release of the tether controls the free expansion of the biasing member from its energized state and the free axial translation of the piston upon which the biasing member bears upon; an activation mechanism; a slide; and a selector member disposed between the drive mechanism and the needle insertion mechanism (NIM), wherein actuation of the activation mechanism causes translation of the slide and wherein the drive mechanism causes the selector member to be positioned such that contact between the slide and the selector member causes at least a portion of the slide to be displaced bringing the slide into contact with a throw arm which is caused to translate with the slide the translation of the throw arm causing needle insertion by the NIM. 3. The drug delivery pump of claim 2 , wherein the throw arm causes displacement of a NIM interlock which, in an initial configuration, prevents rotation of a NIM retainer, wherein the NIM retainer initially prevents activation of needle insertion. 4. The drug delivery pump of claim 2 , wherein after translation of the NIM interlock, an aperture of the NIM interlock is aligned with a portion of the NIM retainer, allowing rotation of the NIM retainer, the rotation of which permits needle insertion by the NIM. 5. A drug deliver pump, comprising: a drug container including a barrel and a plunger seal; a needle insertion mechanism; a fluid pathway connection; a drive mechanism including: a tether, an electrical actuator, a gear interface, rotation of the gear interface being controlled by the electrical actuator, a gear assembly in rotational engagement with the gear interface, the gear assembly including a main gear and a regulating mechanism, wherein release of the tether is metered by operation of the gear assembly through the regulating mechanism, a drive housing, a piston connected to the tether and configured for disposition in the barrel adjacent the plunger seal, the piston being configured to translate substantially axially within the drug container, a biasing member configured for disposition at least partially within the barrel, the biasing member being retained in an energized state between the piston and the drive housing, and wherein the release of the tether controls the free expansion of the biasing member from its energized state and the free axial translation of the piston upon which the biasing member bears upon; and a safety mechanism which is configured to terminate or slow delivery of the drug fluid through the fluid pathway connection upon a loss of tension in the tether. 6. A drug delivery pump, comprising: a drug container including a barrel and a plunger seal; a needle insertion mechanism; a fluid pathway connection; and a drive mechanism including: a tether, an electrical actuator, a gear interface, rotation of the gear interface being controlled by the electrical actuator, a gear assembly in rotational engagement with the gear interface, the gear assembly including a main gear and a regulating mechanism, wherein release of the tether is metered by operation of the gear assembly through the regulating mechanism, a drive housing, a piston connected to the tether and configured for disposition in the barrel adjacent the plunger seal, the piston being configured to translate substantially axially within the drug container, a biasing member configured for disposition at least partially within the barrel, the biasing member being retained in an energized state between the piston and the drive housing, and wherein the release of the tether controls the free expansion of the biasing member from its energized state and the free axial translation of the piston upon which the biasing member bears upon; and wherein the gear interface is a key wherein the key has a first flange having a first aperture and a second flange having a second aperture, the first flange being axially offset from the second flange. 7. The drug delivery pump of claim 6 , wherein the first aperture is circumferentially offset from the second aperture. 8. The drug delivery pump of claim 6 , wherein the first aperture is circumferentially aligned with the second aperture.