Anesthesia vaporizer system having a variable volume reservoir

We claim: 1. An anesthesia vaporizer system comprising: a sump chamber; a variable volume reservoir within the sump chamber, wherein the variable volume reservoir is configured to contain liquid anesthetic agent; an anesthetic vaporizer that vaporizes the liquid anesthetic agent for delivery to a patient; a gas mixer configured to combine gasses from multiple gas sources; a pressurized gas source connected to the sump chamber and the gas mixer, the pressurized gas source being configured to provide a constant pressure within the sump chamber to compress the variable volume reservoir and force the liquid anesthetic agent through the anesthetic vaporizer; and a dual outlet valve having an inlet connected to the pressurized gas source, a first outlet connected to the gas mixer, and a second outlet connected to the sump chamber, wherein the dual outlet valve controls flow of gas to the gas mixer and the sump chamber. 2. The anesthesia vaporizer system of claim 1 , wherein the variable volume reservoir within the sump chamber is formed by one of a bag, an elastomeric balloon, or a bellows. 3. The anesthesia vaporizer system of claim 1 , wherein the variable volume reservoir is formed by a moving divider within the sump chamber, wherein the pressurized gas source is on a first side of the divider and the liquid anesthetic agent is on a second side of the divider. 4. The anesthesia vaporizer system of claim 1 , further comprising a sump shutoff valve that opens to permit the liquid anesthetic agent to flow from the variable volume reservoir to the anesthetic vaporizer and closes to prevent the flow of the liquid anesthetic agent from the variable volume reservoir to the anesthetic vaporizer. 5. The anesthesia vaporizer system of claim 4 , wherein the sump shutoff valve is closed during refilling of the variable volume reservoir with anesthetic agent. 6. The anesthesia vaporizer system of claim 5 , further comprising an accumulator between the sump chamber and the anesthetic vaporizer, wherein the accumulator is configured to accumulate liquid anesthetic agent when the sump shutoff valve is open and to provide the accumulated liquid anesthetic agent to the anesthetic vaporizer when the sump shutoff valve is closed during the refilling of the variable volume reservoir. 7. The anesthesia vaporizer system of claim 6 , wherein the accumulator is a second variable volume reservoir. 8. The anesthesia vaporizer system of claim 1 , wherein the pressurized gas source is a fresh gas line in an anesthesia machine. 9. The anesthesia vaporizer system of claim 1 , wherein the pressurized gas source is a gas canister. 10. The anesthesia vaporizer system of claim 1 , further comprising a fill port configured to permit flow of liquid anesthetic agent from a liquid anesthetic agent source to refill the variable volume reservoir. 11. The anesthesia vaporizer system of claim 10 , wherein the fill port is integrated with a pressurized gas valve connecting between the pressurized gas source and the sump chamber such that opening the fill port causes the pressurized gas valve to close. 12. The anesthesia vaporizer system of claim 10 , further comprising a vent port configured to vent gas from the sump chamber to reduce pressure therein when the variable volume reservoir is refilled. 13. The anesthesia vaporizer system of claim 12 , wherein the fill port and the vent port are integrated such that opening the fill port causes the vent port to open. 14. An anesthesia vaporizer system, comprising: an anesthesia reservoir comprising: a sump chamber; a variable volume reservoir within the sump chamber, wherein the variable volume reservoir is configured to contain liquid anesthetic agent; and a pressurized gas valve configured to connect a pressurized gas source to the sump chamber so as to maintain a constant pressure within the sump chamber to compress the variable volume reservoir and force the liquid anesthetic agent through an anesthetic vaporizer such that the liquid anesthetic agent is vaporized for delivery to a patient; a fill port configured to permit flow of liquid anesthetic agent from a liquid anesthetic agent source to refill the variable volume reservoir; and a vent port configured to vent gas from the sump chamber when the variable volume reservoir is refilled; and a gas mixer configured to combine gasses from multiple gas sources; and a dual outlet valve having an inlet connected to the pressurized gas source, a first outlet connected to the gas mixer, and a second outlet connected to the sump chamber, wherein the dual outlet valve controls flow of gas to the gas mixer and the sump chamber. 15. The anesthesia reservoir of claim 14 , wherein the variable volume reservoir is formed by one of a bag, an elastomeric balloon, or a bellows. 16. The anesthesia reservoir of claim 14 , wherein the variable volume reservoir is formed by a moving divider within the sump chamber, wherein the pressurized gas source is on a first side of the divider and the liquid anesthetic agent is on a second side of the divider. 17. The anesthesia reservoir of claim 14 , wherein the pressurized gas valve is configured to connect to a fresh gas line in an anesthesia machine. 18. The anesthesia reservoir of claim 14 , wherein the pressurized gas valve is configured to connect to a gas canister. 19. The anesthesia reservoir of claim 14 , further comprising an accumulator between the sump chamber and the anesthetic vaporizer, wherein the accumulator is configured to accumulate liquid anesthetic agent and to provide the accumulated liquid anesthetic agent to the anesthetic vaporizer when variable volume reservoir is being refilled.