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A safety system for a breathing apparatus for delivery of an anesthetic agent having an anesthetic agent vaporizer having a reservoir for containing a liquid anesthetic agent has a reservoir for containing a liquid medical agent, a port for filling the reservoir with the liquid anesthetic agent, and

A safety system for a breathing apparatus for delivery of an anesthetic agent having an anesthetic agent vaporizer having a reservoir for containing a liquid anesthetic agent has a reservoir for containing a liquid medical agent, a port for filling the reservoir with the liquid anesthetic agent, and a sensor device for sensing a filling action of the port. A change of position of a lid covering the port can be detected, or insertion of a fill vessel into the port can be detected. Thus safety of the equipment is improved by being able to de-pressurize the reservoir before opening a filling valve for communication of the port with the interior of the reservoir.

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1. A breathing apparatus comprising: a breathing circuit adapted to deliver inspiratory gas to, and receive expiratory gas from, a breathing subject;a reservoir containing a liquid anesthetic agent in an interior of said reservoir;an injector valve in fluid communication with said breathing circuit

1. A breathing apparatus comprising: a breathing circuit adapted to deliver inspiratory gas to, and receive expiratory gas from, a breathing subject;a reservoir containing a liquid anesthetic agent in an interior of said reservoir;an injector valve in fluid communication with said breathing circuit and with said interior of said reservoir;said reservoir comprising an inlet valve in fluid communication with said interior of said reservoir, above said liquid anesthetic agent in said interior of said reservoir;said reservoir comprising an outlet valve in fluid communication with said interior of said reservoir, above said liquid anesthetic agent in said interior of said reservoir;said reservoir comprising a normally closed refilling port at the reservoir that, when opened by a filling action, allows refilling of said reservoir with said liquid anesthetic agent;a control computer configured, while said refilling port is closed, to open said inlet valve to place said liquid anesthetic agent in said reservoir at an overpressure that is above atmospheric pressure, and to operate said injector valve to inject said liquid anesthetic agent, delivered to said injector valve by said overpressure, into said inspiratory gas;a filling action sensor at said port that detects an occurrence of said filling action and thereupon emits a filling action sensor signal; andsaid control computer being in communication with said filling action sensor to receive said filling action sensor signal therefrom, said control computer, upon receiving said filling actions sensor signal, being configured to automatically open said outlet valve to relieve said overpressure in said interior of said reservoir until atmospheric pressure is reached in said interior of said reservoir, and thereby automatically precluding said filling action from occurring while said overpressure exists in said interior of said reservoir. 2. The breathing apparatus of claim 1, wherein said port comprises further comprising a protection member that normally closes said port, and wherein said filling action sensor detects a displacement of said protection member. 3. The breathing apparatus of claim 2, wherein said protection member, when closing said port, is located in a home position, and wherein said filling action sensor detects displacement of said protection member from said home position. 4. The breathing apparatus of claim 3, wherein said filling action sensor is configured to emit said filling action sensor signal as long as said protection member is in said home position and to cease to emit said output signal when said protection member is displaced from said home position. 5. The breathing apparatus of claim 2, wherein said filling action sensor is configured to emit said filling action sensor signal when said protection member is located in a position that opens said refill port. 6. The breathing apparatus of claim 5, wherein said protection member is a lid that is movable to open said port by executing a movement selected from the group consisting of a linear movement, a rotational movement and a pivoting movement. 7. The breathing apparatus of claim 1, wherein said filling action sensor is configured to detect insertion of a filling vessel into said refill port. 8. The breathing apparatus of claim 7, wherein said filling action sensor comprises an emitter located at a side of said port that emits an emitter signal, and a detector located at an opposite side of said port that detects said emitter signal, and wherein said filling action sensor is configured to emit said filling action sensor signal when a filling vessel blocks said emitter signal from being detected by said detector. 9. The breathing apparatus of claim 7, wherein said filling action sensor comprises a detectable item carried by said filling vessel and a detector located at said refill port that detects said detectable item when said filling vessel is inserted into said refill port. 10. The breathing apparatus of claim 1, wherein said filling action sensor is configured to employ radiation selected from the group consisting of electromagnetic radiation, ultraviolet radiation, visible light radiation, and infrared radiation. 11. The breathing apparatus of claim 1, wherein said filling action sensor comprises a device selected from the group consisting of a mechanical sensor device, an electronic sensor device, a capacitive sensor device, a thermal sensor device, a magnetic sensor device, a pneumatic sensor device, a hydraulic sensor device, and combinations thereof. 12. The breathing apparatus of claim 1, wherein said control computer is configured to emit a warning signal when said filling condition or said filling action occurs for longer than a predetermined time duration. 13. The breathing apparatus of claim 1, wherein said control computer, upon receiving said filling action sensor signal, being configured to also at least partially interrupt operation of said injector valve. 14. The breathing apparatus of claim 13, wherein said control computer is configured to at least partially interrupt operation of said injector valve by interrupting delivery of said liquid anesthetic agent to said injector valve from said reservoir. 15. The breathing apparatus of claim 1 wherein said control computer, upon receiving said filling action sensor signal, is configured to also completely interrupt operation of said injector valve. 16. A method for operating a breathing apparatus comprising: via a breathing circuit, delivering inspiratory gas to, and receiving expiratory gas from, a breathing subject;containing a liquid anesthetic agent in an interior of a reservoir that comprises an inlet valve in fluid communication with said interior of said reservoir, above said liquid anesthetic agent in said interior of said reservoir, and an outlet valve in fluid communication with said interior of said reservoir, above said liquid anesthetic agent in said interior of said reservoir;placing an injector valve in controlled fluid communication with said breathing circuit and with said interior of said reservoir;allowing refilling of said reservoir via a normally closed refilling port at the reservoir that, when opened by a filling action, provides access to said interior of said reservoir for refilling of said reservoir with said liquid anesthetic agent;from a control computer, while said refilling port is closed, opening said inlet valve to place said liquid anesthetic agent in said reservoir at an overpressure that is above atmospheric pressure, and operating said injector valve to inject said liquid anesthetic agent, delivered to said injector valve by said overpressure, into said inspiratory gas;with a filling action sensor at said port, detecting an occurrence of said filling action and thereupon emitting a filling action sensor signal; andproviding said control computer with said filling action sensor signal and from said control computer, upon receiving said filling actions sensor signal, automatically open said outlet valve to relieve said overpressure in said interior of said reservoir until atmospheric pressure is reached in said interior of said reservoir, and thereby automatically precluding said filling action from occurring while said overpressure exists in said interior of said reservoir. 17. A non-transitory, computer-readable data storage medium encoded with programming instructions, said storage medium being loaded into a breathing apparatus comprising a breathing circuit adapted to deliver inspiratory gas to, and receive expiratory gas from, a breathing subject, a reservoir containing a liquid anesthetic agent in an interior of said reservoir, an injector valve in fluid communication with said breathing circuit and with said interior of said reservoir, said reservoir comprising an inlet valve in fluid communication with said interior of said reservoir, above said liquid anesthetic agent in said interior of said reservoir, said reservoir comprising an outlet valve in fluid communication with said interior of said reservoir, above said liquid anesthetic agent in said interior of said reservoir, said reservoir comprising a normally closed refilling port at the reservoir that, when opened by a filling action, allows refilling of said reservoir with said liquid anesthetic agent, said programming instructions causing said control computer to: while said refilling port is closed, open said inlet valve to place said liquid anesthetic agent in said reservoir at an overpressure that is above atmospheric pressure, and operate said injector valve to inject said liquid anesthetic agent, delivered to said injector valve by said overpressure, into said inspiratory gas;receive a filling action sensor signal from a filling action sensor at said port upon detection of an occurrence of said filling action; andupon receiving said filling actions sensor signal, automatically open said outlet valve to relieve said overpressure in said interior of said reservoir until atmospheric pressure is reached in said interior of said reservoir, and thereby automatically preclude said filling action from occurring while said overpressure exists in said interior of said reservoir.