Subcutaneous infusion device

The invention claimed is: 1. An infusion device, comprising an inserter that can insert a catheter into a skin surface, comprising: an infusion device housing, comprising a catheter and a driver for placing said catheter into a skin surface; and an infusion device base, comprising at least one adhesive layer for releasably securing said infusion device base with said skin surface; and an introducer needle and a catheter septum, wherein said driver comprises a rotating needle hub fixedly attached to said introducer needle, the driver configured to rotate within said infusion device housing by a force applied by a first spring and press said introducer needle and said catheter into said skin surface; wherein said rotating needle hub is configured to further rotate within said infusion device housing by a force applied by said first spring and retract said introducer needle from said catheter; said first spring being a torsion spring extending through said rotating needle hub to permit linear translation of said rotating needle hub relative to the torsion spring as the torsion spring rotates the rotating needle hub. 2. An infusion device as claimed in claim 1 , wherein said driver comprises: a rotating cam ring configured to rotate within said infusion device housing and press said catheter into said skin surface. 3. An infusion device as claimed in claim 1 , wherein: said base comprises a septum opening for slidably receiving said catheter septum, said septum opening comprising a fluid path opening; said catheter septum comprises a fluid path opening; and said catheter comprises a fluid path opening, wherein said fluid path openings are aligned when said introducer needle and said catheter are inserted into said skin surface. 4. An infusion device as claimed in claim 1 , wherein said driver comprises: a push button configured to travel substantially parallel to said skin surface and release said catheter and insert said catheter into said skin surface. 5. A method of placing an infusion device, comprising the steps of: placing an infusion device base upon an infusion site and activating a driver to insert a catheter into said infusion site, wherein said driver comprises a rotating needle hub fixedly attached to at least one of a catheter and an insertion needle and configured to rotate within an infusion device housing by a rotation force applied by a first spring to insert the at least one catheter or introducer needle into said infusion site and to retract the rotating needle hub by a further rotation force applied by the first spring; said first spring being a torsion spring extending through said rotating needle hub to permit linear translation of said rotating needle hub relative to the torsion spring as the torsion spring rotates the rotating needle hub. 6. A method of placing an infusion device as claimed in claim 5 , comprising the steps of: activating said driver to retract said introducer needle, wherein said driver comprises a rotating member to retract said introducer needle from said catheter. 7. The infusion device of claim 1 , wherein a direction of rotation of the rotating needle hub is parallel to a direction of rotation of the torsion spring. 8. The method of placing an infusion device as claimed in claim 5 , wherein a direction of rotation of the rotating needle hub is parallel to a direction of rotation of the torsion spring.