A system includes a metering module that receives fluid through a fluid inlet. The metering module includes a rotating component driven by the fluid, an electric machine, and a controller. The fluid is received from the fluid inlet at an inlet flow rate, and the rotating component provides the fluid
A system includes a metering module that receives fluid through a fluid inlet. The metering module includes a rotating component driven by the fluid, an electric machine, and a controller. The fluid is received from the fluid inlet at an inlet flow rate, and the rotating component provides the fluid to an outlet of the rotating component at an outlet pressure. The electric machine is configured to generate electrical power in response to rotation of the rotating component. The controller is powered by the electrical power generated by the electric machine, and controls a rotational speed of the rotating component to control the outlet pressure.
대표청구항▼
1. A system comprising: a main pump configured to deliver a fluid at a main pressure; anda plurality of metering modules that receive the fluid through a fluid inlet, each of the plurality of metering modules comprising: a rotating component driven by the fluid, wherein the fluid is received from th
1. A system comprising: a main pump configured to deliver a fluid at a main pressure; anda plurality of metering modules that receive the fluid through a fluid inlet, each of the plurality of metering modules comprising: a rotating component driven by the fluid, wherein the fluid is received from the first fluid inlet at an inlet flow rate, and the rotating component provides the fluid to an outlet of the rotating component at an outlet pressure different from the main pressure of the fluid;an electric machine configured to generate electrical power in response to rotation of the rotating component, wherein the rotating component is driven by the main pressure of the fluid; anda controller powered by the electrical power generated by the electric machine, wherein the controller controls a rotational speed of the rotating component to control the outlet pressure of the fluid. 2. The system of claim 1, wherein the plurality of metering modules each further comprises a throttle valve and a fluid output, and wherein the throttle valve controls fluid flow from the fluid outlet of the rotating component to the fluid output. 3. The system of claim 2, wherein the throttle valve is moved from a closed position to an open position using a wire coil assembly excited by the controller. 4. The system of claim 1, wherein the controller controls a speed of the rotating component by varying a load of a load coil of the electric machine. 5. The system of claim 1, wherein the controller includes a piezoelectric device to communicate with a main controller over a main fluid line, wherein the piezoelectric device creates acoustic waves in fluid of the main fluid line, and wherein the main controller is physically spaced from the plurality of metering modules. 6. The system of claim 1, wherein the rotating component is a hydraulic motor. 7. A method of metering a fluid, the method comprising: delivering, by a main pump, a fluid at a main pressure;receiving, for each of a plurality of metering modules, the fluid at a rotating component at an inlet fluid flow rate;providing, for each of the plurality of metering modules, a fluid output from the rotating component at an outlet pressure different from the main pressure of the fluid;generating, for each of the plurality of metering modules, power in a load coil from rotation of the rotating component, wherein the main pressure of the fluid drives the rotation of the rotating component; andcontrolling, for each of the plurality of metering modules, a rotational speed of the rotating component using a controller to adjust the outlet pressure of the fluid, wherein the controller is powered by the power generated in the load coil. 8. The method of claim 7, further comprising: providing, for each of the plurality of metering modules, the output of the rotating component to a throttling valve; andcontrolling, for each of the plurality of metering modules, the throttling valve using the controller, wherein the throttling valve is opened to allow fluid flow from the output of the rotating component to a main fluid output. 9. The method of claim 8, further comprising: measuring, for each of the plurality of metering modules, a main output fluid flow at the main fluid output using a flowmeter; andproviding, for each of the plurality of metering modules, the main output fluid flow to the controller. 10. The method of claim 8, wherein controlling, for each of the plurality of metering modules, the throttling valve comprises exciting a wire coil assembly to change the position of the throttling valve from a closed position to an open position. 11. The method of claim 7, wherein generating, for each of the plurality of metering modules, power in the load coil comprises rotating a rotor within the load coil using the rotating component. 12. The method of claim 7, wherein controlling, for each of the plurality of metering modules, the rotational speed of the rotating component comprises varying a load of the load coil. 13. The method of claim 7, wherein the rotating component is a hydraulic motor.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.