In various embodiments, an electronic flow selector of a fluid flow control system may be used to select a flow rate of a fluid. When the system is in an electronic mode, an encoder may electronically encode the fluid flow selection. A controller may receive the electronically encoded flow selection
In various embodiments, an electronic flow selector of a fluid flow control system may be used to select a flow rate of a fluid. When the system is in an electronic mode, an encoder may electronically encode the fluid flow selection. A controller may receive the electronically encoded flow selection and transmit a corresponding control signal to an electronic valve to allow the fluid to flow at the selected flow rate. When the system is in a manual mode, backup manual flow selectors may be used to directly control the flow rate of a fluid. When the system is in a manual mode, the mechanical backup flow selectors may be in a deployed position. When the system is in an electronic mode, the mechanical backup flow selectors may be in a retracted position. Particular applications to gases and anesthesia delivery are disclosed herein.
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1. A fluid flow control system, comprising: an electronic flow control valve configured to selectively receive a first fluid from a first fluid supply;an electronic flow selector configured to allow for a selection of a flow rate of the first fluid from the first fluid supply via the electronic flow
1. A fluid flow control system, comprising: an electronic flow control valve configured to selectively receive a first fluid from a first fluid supply;an electronic flow selector configured to allow for a selection of a flow rate of the first fluid from the first fluid supply via the electronic flow control valve;a controller configured to transmit a control signal to the electronic flow control valve to cause the electronic flow control valve to allow the first fluid to flow at the flow rate selected via the electronic flow selector;a mechanical flow control valve configured to selectively receive the first fluid from the first fluid supply;a manual flow selector configured to control a flow rate of the first fluid from the first fluid supply via the mechanical flow control valve; andan activation mechanism configured to: inhibit the operation of the manual flow selector when the fluid flow control system is in an electronic mode; andenable the operation of the manual flow selector when the fluid flow control system is in a manual mode. 2. The fluid flow control system of claim 1, wherein the activation mechanism comprises a deployment mechanism configured to: deploy the manual flow selector when the fluid flow control system is in the manual mode; andretract the manual flow selector when the fluid flow control system is in the electronic mode. 3. The fluid flow control system of claim 1, wherein the activation mechanism comprises a locking mechanism configured to: lock the manual flow selector to prevent adjustments when the fluid flow control system is in the electronic mode; andunlock the manual flow selector to allow adjustments when the fluid flow control system is in the manual mode. 4. The fluid flow control system of claim 1, further comprising a diversion valve system configured to: prevent the flow of the first fluid through the mechanical flow control valve and allow the flow of the first fluid through the electronic flow control valve when the fluid flow control system is in the electronic mode; andallow the flow of the first fluid through the mechanical flow control valve and prevent the flow of the first fluid through the electronic flow control valve when the fluid flow control system is in the manual mode. 5. The fluid flow control system of claim 4, wherein the diversion valve system comprises a three-way selector valve. 6. The fluid flow control system of claim 4, wherein the diversion valve system comprises: a normally-open valve configured to allow the flow of the first fluid through the mechanical flow control valve when the fluid flow control system is in the manual mode; anda normally-closed valve configured to prevent the flow of the first fluid through the electronic flow control valve when the fluid flow control system is in the manual mode. 7. The fluid flow control system of claim 1, further comprising a vaporizer configured to inject an anesthetic into the first fluid, and wherein the first fluid comprises a gas. 8. The fluid flow control system of claim 1, wherein the electronic flow control valve comprises an electronic proportional valve. 9. The fluid flow control system of claim 1, wherein the mechanical flow control valve comprises a needle valve. 10. The fluid flow control system of claim 1, wherein the mechanical flow control valve comprises a needle valve and the electronic flow control valve comprises a stepper motor configured to electronically control the needle valve. 11. The fluid flow control system of claim 1, wherein the manual flow selector comprises a rotatable knob. 12. The fluid flow control system of claim 1, wherein the controller comprises a hardware controller. 13. The fluid flow control system of claim 1, wherein the controller comprises a field-programmable gate array. 14. The fluid flow control system of claim 1, wherein the first fluid comprises one or more of oxygen, nitrous oxide, and air. 15. The fluid flow control system of claim 1, further comprising a manual override selector configured to cause the fluid flow control system to enter the manual mode when selected. 16. A method for providing a backup manual control for the flow of fluid in a flow control system, comprising: detecting that a flow control system is in an electronic mode;receiving a selection of a flow rate of a fluid via an electronic flow control selector;encoding the received selection of a flow rate as an electronic signal using an encoder;transmitting a control signal via a controller to an electronic flow control valve based on the encoded selection of a flow rate to cause the electronic flow control valve to allow the fluid to flow at the selected flow rate;inhibiting the flow of the fluid through a mechanical flow control valve;inhibiting the operation of a manual flow selector associated with the mechanical flow control valve; andreceiving an instruction to enter a manual mode, and then: inhibiting the flow of the fluid through the electronic flow control valve;enabling the operation of the manual flow selector; andmechanically adjusting the flow rate of the fluid via the mechanical flow control valve in response to an adjustment of the manual flow selector. 17. The method of claim 16, wherein inhibiting the operation of the manual flow selector comprises retracting the manual flow selector when the flow control system is in the electronic mode, and wherein enabling the operation of the manual flow selector comprises deploying the manual flow selector when the flow control system is in the manual mode. 18. The method of claim 16, wherein inhibiting the operation of the manual flow selector comprises locking the manual flow selector when the flow control system is in the electronic mode to prevent adjustments, and wherein enabling the operation of the manual flow selector comprises unlocking the manual flow selector when the flow control system is in the manual mode to allow adjustments. 19. The method of claim 16, wherein inhibiting the flow of the fluid through the electronic flow control valve when the flow control system is in the manual mode and inhibiting the flow of the fluid through a mechanical flow control valve flow control system is in an electronic mode is performed using a diversion valve system comprising at least one of a three-way selector valve, a normally-open valve, and a normally-closed valve. 20. The method of claim 16, wherein the fluid comprises a gas and further comprising vaporizing an anesthetic into the gas. 21. The method of claim 16, wherein the electronic flow control valve comprises an electronic proportional valve. 22. The method of claim 16, wherein the mechanical flow control valve comprises a needle valve. 23. The method of claim 16, wherein the mechanical flow control valve comprises a needle valve and the electronic flow control valve comprises a stepper motor configured to electronically control the needle valve. 24. The method of claim 16, wherein the manual flow selector comprises a rotatable knob. 25. The method of claim 16, wherein the fluid comprises one or more of oxygen, nitrous oxide, and air. 26. The method of claim 16, wherein receiving an instruction to enter a manual mode comprises receiving an instruction from a manual override selector configured to cause the flow control system to enter the manual mode. 27. The method of claim 16, wherein receiving an instruction to enter a manual mode comprises detecting that the flow control system is in an unpowered state. 28. The method of claim 16, wherein receiving an instruction to enter a manual mode comprises detecting an error in the electronic mode.
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