A method of inflating an airbag with a fluid includes sending a signal to open a first valve and opening the first valve. The method also includes directing a control pressure through the first valve and toward a second valve. The method further includes throttling the second valve in response to th
A method of inflating an airbag with a fluid includes sending a signal to open a first valve and opening the first valve. The method also includes directing a control pressure through the first valve and toward a second valve. The method further includes throttling the second valve in response to the control pressure. The throttling of the second valve produces a variable inflation mass flow rate of the fluid at a second valve outlet. Opening the first valve and closing the first valve are performed as a step function to achieve a desired predetermined variable inflation mass flow rate of the airbag.
대표청구항▼
What is claimed is: 1. A method of inflating an airbag with a fluid comprising: sending a signal to open a first valve; opening the first valve; directing a control pressure through the first valve and toward a second valve; and throttling the second valve in response to the control pressure, where
What is claimed is: 1. A method of inflating an airbag with a fluid comprising: sending a signal to open a first valve; opening the first valve; directing a control pressure through the first valve and toward a second valve; and throttling the second valve in response to the control pressure, wherein the throttling of the second valve produces a variable inflation mass flow rate of the fluid at a second valve outlet, wherein opening the first valve and closing the first valve are performed as a step function to achieve a desired predetermined variable inflation mass flow rate of the airbag, and the inlet to the first valve is in constant fluid communication with an inlet of the second valve. 2. The method of claim 1, wherein an inlet to the second valve is in constant fluid communication with the outlet of the second valve such that the second valve does not prevent the fluid flow through the second valve. 3. The method of claim 1, wherein throttling the second valve includes switching the second valve from permitting the fluid to flow through a first predetermined effective flow area to permitting the fluid to flow through a second predetermined effective flow area and back to permitting the fluid to flow through a first predetermined effective flow area, wherein neither the first predetermined effective flow area and the second predetermined effective flow area are equal to about zero. 4. The method of claim 1, further comprising detecting an inflation parameter and calculating a desired variable flow rate using the inflation parameter. 5. The method of claim 4, wherein the inflation parameter is one of a belt status, an occupant position, a pre-crash state, a post-crash state, and a vehicle dynamic parameter. 6. The method of claim 1, further comprising selecting an algorithm based upon a vehicle type, wherein the algorithm is used in the calculating a desired variable flow rate using the inflation parameter. 7. An apparatus for inflating an airbag comprising: a control valve having a control valve inlet and a control valve outlet, wherein the control valve selectively provides a first predetermined flow area, wherein a fluid is selectively permitted to flow through the first predetermined flow area to produce a first predetermined mass flow rate at a first predetermined fluid pressure, wherein the control valve selectively provides a second predetermined flow area, and wherein the fluid is selectively permitted to flow through the second predetermined flow area to produce a second predetermined mass flow rate at a second predetermined fluid pressure; a sensor for detecting an inflation parameter; and a control module, wherein the control module will selectively switch the control valve between permitting the fluid to flow through the first predetermined effective flow area and permitting the fluid to flow through the second predetermined effective flow area to achieve a desired first variable mass flow rate at the outlet of the control valve, and wherein the desired first variable mass flow rate is selectively determined by the control module using an occupant parameter as an input to an algorithm, and the control valve does not provide a seal between the control valve inlet and the control valve outlet. 8. The apparatus of claim 7, wherein the control module may selectively provide a second variable mass flow rate at the outlet of the control valve. 9. The apparatus of claim 7, wherein the control module will selectively switch the control valve from permitting the fluid to flow through the first predetermined effective flow area to permitting the fluid to flow through the second predetermined effective flow area and back to permitting the fluid to flow through the first predetermined effective flow area in less than about 5 milliseconds. 10. The apparatus of claim 7, wherein the control module further comprises a microprocessor to control the switching of the control valve based upon at least one inflation parameter. 11. The apparatus of claim 7, wherein the sensor detects one of a belt status, an occupant position, a pre-crash state, a post-crash state, and a vehicle dynamic parameter. 12. The apparatus of claim 7, further comprising a plurality of sensors for detecting a plurality of inflation parameters. 13. The apparatus of claim 7, wherein the control valve includes a solenoid valve and a ring valve. 14. A method of inflating an airbag with a fluid comprising: sending a signal to open a first valve; opening the first valve; directing a control pressure through the first valve and toward a second valve; detecting an inflation parameter, wherein the inflation parameter is one of a belt status, an occupant position, a pre-crash state, a post-crash state, and a vehicle dynamic parameter; and switching the second valve from permitting the fluid to flow through a first predetermined effective flow area to permitting the fluid to flow through a second predetermined effective flow area and back to permitting the fluid to flow through a first predetermined effective flow area, wherein neither the first predetermined effective flow area and the second predetermined effective flow area are equal to about zero. 15. The method of claim 14, wherein the first valve is a solenoid valve and the second valve is a ring valve. 16. The method of claim 14, further comprising determining a desired first variable mass flow rate based upon at least the inflation parameter. 17. The method of claim 15, further comprising selecting an algorithm based upon a vehicle type, wherein the algorithm is used in the determining a desired first variable mass flow rate. 18. The method of claim 14, wherein the detecting an inflation parameter includes sending a sensor input to a microprocessor.
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