Passively shielding needle assembly with skin sensor

The invention claimed is: 1. A safety needle device comprising: a hub including a passageway extending there through and a needle cannula having a puncture tip extending from a forward-most end of the hub; a shield member in telescoping association with the hub, at least one of the hub and the shield member adapted for relative telescopic movement with respect to the other between a first position in which the puncture tip of the needle cannula is exposed from a forward end of the shield member and a second position in which the puncture tip of the needle cannula is encompassed within the shield member; a drive member disposed between the hub and the shield member and capable of biasing the hub and the shield member telescopically away from each other; and a contact member comprising a lever in pivotal engagement with the shield member including a forward portion adjacent the puncture tip of the needle cannula and a rearward portion including a structure to releasably maintain the hub and the shield member in the first position, the rearward portion of the contact member being operatively connected to an intermediate portion of the hub and the forward portion of the contact member extending distally from the forward-most end of the hub and adapted to contact a patient's skin surface, the contact member adapted to maintain the hub and the shield member in the first position against the bias of the drive member with the needle cannula exposed from the forward end of the shield member, and the contact member movable during contact with the patient's skin surface, thereby permitting release of the hub and the shield member from the first position and permitting the drive member to bias at least one of the hub and the shield member toward the second position. 2. The safety needle device as in claim 1 , wherein release of the contact member from the patien's skin surface permits the drive member to bias at least one of the hub and the shield member telescopically away from each other to the second position with the puncture tip of the needle cannula encompassed within the shield member. 3. The safety needle device as in claim 1 , wherein the rearward portion of the contact member includes a first engagement portion for engaging with the hub to maintain the hub and the shield member in the first position, the first engagement portion being releasable from engagement with the hub upon pivotal movement of the lever during contact with the patient's skin surface. 4. The safety needle device as in claim 3 , wherein the rearward portion of the contact member further includes a second engagement portion for engaging with the hub upon the pivotal movement of the lever during contact with the patient's skin surface to maintain the hub from being biased entirely to the second position when the first engagement portion is released from engagement with the hub. 5. The safety needle device as in claim 4 , wherein the second engagement portion is released from engagement with the hub upon the pivotal movement of the lever in a reverse direction during release of contact with the patient's skin surface. 6. The safety needle device as in claim 5 , wherein the first engagement portion comprises a first engagement member and the second engagement portion comprises a second engagement member. 7. The safety needle device as in claim 5 , wherein the lever includes a pivot pin for effecting the pivotal movement of the lever about a pivot axis, and wherein the first engagement portion comprises a first external portion of the pivot pin, and wherein the second engagement portion comprises a second external portion of the pivot pin. 8. The safety needle device as in claim 7 , wherein the pivot pin is substantially cylindrical including a wedge-shaped cut out portion, wherein the first external portion of the pivot pin comprises an external cylindrical surface of the pivot pin and wherein the second external portion comprises a face of the wedge-shaped cut out portion. 9. A shielding needle assembly comprising: a needle cannula having a puncture tip at a distal end of the needle cannula; a needle hub supporting the needle cannula; a barrel having a proximal end, a distal end, and a passage extending between the proximal end and the distal end, the needle hub being disposed in the passage of the barrel; a drive member disposed between the barrel and the needle hub for driving the needle hub from a first position in which the puncture tip of the needle cannula is exposed from the distal end of the barrel to a second position where the puncture tip of the needle cannula is disposed entirely within the barrel; and a lever pivotally connected to the barrel and including a forward portion extending distally from the distal end of the barrel and adapted to contact a patient's skin surface and a rearward portion including a releasable engagement with the needle hub for maintaining the needle hub in the first position, wherein contact of the forward portion of the lever with the patient's skin surface pivots the lever and releases an initial engagement with the needle hub at the rearward portion of the lever. 10. The shielding needle assembly as in claim 9 , wherein the rearward portion of the lever includes a first engagement portion engaging a portion of the needle hub, thereby maintaining the needle hub in the first position. 11. The shielding needle assembly of claim 10 , wherein contact of the forward portion of the lever with the patient's skin surface, insertion of the needle cannula through the patient's skin surface, or contact of the forward portion of the lever with the patient's skin surface and insertion of the needle cannula through the patient's skin surface causes the lever to pivot with respect to the barrel such that the first engagement portion of the lever disengages from the needle hub. 12. The shielding needle assembly of claim 10 , wherein the rearward portion of the lever further includes a second engagement portion for engagement with the needle hub, and wherein contact of the forward portion of the lever with the patient's skin surface, insertion of the needle cannula through the patient's skin surface, or contact of the forward portion of the lever with the patient's skin surface and insertion of the needle cannula through the patient's skin surface causes the lever to pivot with respect to the barrel such that the first engagement portion of the lever disengages from the needle hub and the second engagement portion of the lever maintains the needle hub in a position with the puncture tip extending from a forward end of the barrel. 13. The shielding needle assembly of claim 12 , wherein the second engagement portion of the lever disengages from the needle hub upon pivotal movement of the lever with respect to the barrel in a reverse direction during removal of the forward portion of the lever from the patient's skin surface or during removal of the needle cannula from the patient's skin surface, thereby causing the drive member to drive the needle hub to the second position wherein the puncture tip of the needle cannula is disposed entirely within the barrel. 14. The shielding needle assembly of claim 9 , wherein the drive member comprises a coil spring. 15. The shielding needle assembly of claim 9 , wherein the lever is integrally molded with the barrel. 16. The shielding needle assembly of claim 9 , wherein the lever is pivotally connected to the barrel through a pivot pin. 17. The shielding needle assembly of claim 9 , wherein the front portion of the lever is configured to interface a patient's