초록

A valve including a mechanical part, e.g. a float, for performing a ROV function (Roll Over Valve) and an electronic part, e.g. an electronically controlled solenoid valve, for performing a venting function.

대표청구항 ▼

1. A safety valve for a liquid tank comprising: a buoyant member that is actuated both mechanically for roll over protection and electronically to selectively vent fuel vapors;a housing including at least one inlet orifice and at least one outlet orifice, the buoyant member moving inside said housin

1. A safety valve for a liquid tank comprising: a buoyant member that is actuated both mechanically for roll over protection and electronically to selectively vent fuel vapors;a housing including at least one inlet orifice and at least one outlet orifice, the buoyant member moving inside said housing in response to presence of liquid inside the housing and configured to close the outlet orifice when in a high position;a solenoid or magnetic coil configured to act on a position of the buoyant member when energized, the solenoid or magnetic coil including a shaft rigidly coupled to the buoyant member so as to move together with the buoyant member, wherein the shaft extends at least partly within the solenoid or magnetic coil, anda spring that provides a force that balances the weight of the buoyant member,wherein the buoyant member is disposed around a periphery of the spring. 2. The valve according to claim 1, wherein the buoyant member rests on the solenoid. 3. The valve according to claim 1, wherein a magnetic shaft is integrated or linked to the buoyant member, the magnetic shaft configured to force the buoyant member upwards, in response to energizing the solenoid. 4. The valve according to claim 3, wherein the solenoid comprises an opening though which the magnetic shaft can slide. 5. An ORVR system comprising: a fuel tank;a canister;a vent line extending from the tank to canister, the vent line including, at the tank side, a valve according to claim 1; anda processor to which the solenoid of the valve is connected and configured to energize the solenoid in response to at least one electronic signal. 6. The ORVR system according to claim 5, wherein the fuel tank is part of a fuel system including a FSCU (fuel system control unit), and wherein the processor is the FSCU. 7. The valve according to claim 1, wherein the solenoid or magnetic coil forces the buoyant member in a first direction to open the outlet orifice and in a second direction to close the outlet orifice. 8. The valve according to claim 1, wherein the shaft is disposed at least partly within the spring. 9. The valve according to claim 8, wherein the shaft extends directly from the solenoid or magnetic coil through the spring. 10. A method for venting a fuel tank comprising: providing an ORVR system comprising: a fuel tank;a canister;a vent line extending from the tank to canister, the vent line including, at the tank side,a safety valve including a buoyant member that is actuated both mechanically for roll over protection and electronically to selectively vent fuel vapors,a housing including at least one inlet orifice and at least one outlet orifice, the buoyant member moving inside said housing in response to presence of liquid inside the housing and configured to close the outlet orifice when in a high position, anda solenoid or magnetic coil configured to act on a position of the buoyant member when energized; andthe ORVR system including a processor to which the solenoid of the valve is connected, the processor being configured to energize the solenoid in response to at least one electronic signal,wherein the electronic signal comes from a fuel level sensor, and wherein during refueling, the solenoid is not energized and allows the valve to remain open until the fuel level reaches a specified level, at which moment the solenoid forces the valve to close, the solenoid or magnetic coil including a shaft rigidly coupled to the buoyant member so as to move together with the buoyant member,wherein the shaft extends at least partly within the solenoid or magnetic coil, andwherein during normal operation, the solenoid is not energized, except right after refueling, when the solenoid may be energized to force the valve to re-open. 11. The method according to claim 10, wherein during normal operation, the solenoid is energized and forces the valve to close unless a predetermined pressure is exceeded, upon which the solenoid forces the valve to open. 12. The method according to claim 10, wherein energizing the solenoid or magnetic coil shuts off communication between the fuel tank and canister, which causes a filling nozzle filing the tank to shut off. 13. The method according to claim 10, wherein the solenoid or magnetic coil forces the buoyant member in a first direction to open the outlet orifice and in a second direction to close the outlet orifice.