Automated cryogenic refilling system

The invention claimed is: 1. A method of refilling a helium storage cryostat, the method comprising: venting gaseous helium from a dewar containing liquid helium in response to a liquid helium level within the helium storage cryostat declining to a lower set point value; after venting gaseous helium from the dewar, feeding gaseous helium to the dewar at a first pressure via a gas transfer line for at least a predetermined time period to pre-cool a liquid transfer line in fluid communication between the dewar and the helium storage cryostat; after pre-cooling the liquid transfer line, feeding gaseous helium to the dewar at a second pressure, greater than the first pressure, to force the liquid helium through the liquid transfer line and into the helium storage cryostat; measuring, using a helium liquid level meter, the level of liquid helium within the helium storage cryostat; stopping the feeding of gaseous helium into the dewar in response the level of liquid helium within the helium storage cryostat reaching an upper set point value; and venting gaseous helium from the dewar to prevent the build-up of pressure from within the dewar while the liquid transfer line remains in fluid communication between the dewar and the helium storage cryostat. 2. The method of claim 1 further including initiating an alarm if a predetermined time period lapses prior to the level of liquid helium within the cryostat reaching the upper set point value. 3. The method of claim 1 further including measuring, using the liquid level meter, the level of liquid helium within the dewar. 4. The method of claim 3 further including initiating an alarm if the level of liquid helium within the dewar falls below a predetermined acceptable level. 5. The method of claim 1 further including attaching an extension tube to the liquid transfer line and inserting the extension tube within the helium storage cryostat. 6. The method of claim 5 wherein the extension tube includes a plurality of exhaust holes at an upper end of the extension tube to vent gaseous helium boil-off from within the liquid transfer line. 7. The method of claim 1 wherein feeding gaseous helium to the dewar includes pressurizing gaseous helium to between 8 PSI and 10 PSI. 8. The method of claim 1 wherein the helium storage cryostat provides a cryogenic reservoir for a cryostat or a superconducting magnet. 9. The method of claim 1 wherein the helium storage cryostat provides a cryogenic reservoir for magnetic resonance imaging or nuclear magnetic resonance.