A gaseous fuel delivery system includes a regulator valve having an inlet adapted to be connected with a high pressure source of a gaseous fuel such that the regulator valve lowers the pressure of the gaseous fuel from the high pressure source. A control valve has an inlet connected to the outlet of
A gaseous fuel delivery system includes a regulator valve having an inlet adapted to be connected with a high pressure source of a gaseous fuel such that the regulator valve lowers the pressure of the gaseous fuel from the high pressure source. A control valve has an inlet connected to the outlet of the regulator valve, and wherein the control valve is operable to control the flow of fluid between the inlet and outlet of the control valve. A cut off valve has an inlet connected to the outlet of the control valve, and wherein the cut off valve is operable between a first state, wherein flow of fuel is permitted to flow between the inlet and an outlet of the cut off valve, and a second state, wherein the flow of fuel is prevented from flowing between the inlet and the outlet of the cut off valve.
대표청구항▼
1. A gaseous fuel delivery system for an engine having a carburetor comprising: a regulator valve having an inlet and an outlet, wherein the inlet is adapted to be connected with a high pressure source of a gaseous fuel such that the regulator valve lowers the pressure of the gaseous fuel from the h
1. A gaseous fuel delivery system for an engine having a carburetor comprising: a regulator valve having an inlet and an outlet, wherein the inlet is adapted to be connected with a high pressure source of a gaseous fuel such that the regulator valve lowers the pressure of the gaseous fuel from the high pressure source such that the outlet provides a flow of the gaseous fuel at a generally constant lowered pressure;a control valve having an inlet and an outlet, wherein the inlet is connected to the outlet of the regulator valve, and wherein the control valve is operable to control the flow of fluid between the inlet and outlet of the control valve such that the flow of gaseous fuel from the control valve output is supplied in a generally constant volume and the generally constant pressure;a cut off valve having an inlet and an outlet, wherein the inlet is connected to the outlet of the control valve, and wherein the cut off valve is operable between a first state, wherein flow of fuel is permitted to flow between the inlet and outlet of the cut off valve, and a second state, wherein the flow of fuel is prevented from flowing between the inlet and the outlet of the cut off valve, the cut off valve being a diaphragm valve that is actuated to the first state by an engine vacuum pressure level at the cut off valve outlet such that an engine speed and the resultant vacuum pressure level at the cut off valve outlet regulates operation of the diaphragm valve to meter the generally constant pressure and volume flow of gaseous fuel to the engine. 2. The system of claim 1, wherein a spacer provides fluid communication between an engine and a carburetor and further includes a port configured to supply the generally constant pressure and volume fuel to the engine and communicate the engine vacuum pressure level to the cut off valve. 3. The system of claim 2, wherein the regulator output is directly connected to the control valve input and the control valve output is directly connected to the cut off valve input, the cut off valve being remotely connected to the spacer. 4. The system of claim 3, wherein a fuel line provides fluid communication between the cut off valve and the spacer such that both the vacuum pressure level and the constant pressure and volume flow of gaseous fuel are communicated through the fuel line. 5. The system of claim 4, further including a valve mounting bracket supporting the regulator valve, the control valve, and the cut off valve, wherein the valve mounting bracket is adapted to be attached to a handle of a lawnmower. 6. The system of claim 5, further including a tank for holding the high pressure source of gaseous fuel, wherein the tank is connected to the inlet of the regulator valve via a conduit. 7. The system of claim 1, wherein the control valve is a manually operated valve. 8. The system of claim 7, wherein the control valve is a needle valve. 9. A gaseous fuel delivery system for an internal combustion engine, the system comprising: a source of gaseous fuel pressurized to a first pressure level and configured to provide a fuel flow having a second pressure level that is lower than the first pressure level, the fuel flow further being controllable for volumetric flow;a cut off valve connected between the source of gaseous fuel and an internal combustion engine, wherein the cut off includes a diaphragm that is actuated proportionally by vacuum pressure levels generated from operating speeds of the internal combustion engine such that the gaseous fuel is permitted to flow when the diaphragm is actuated by the vacuum present at the cut off valve and the gaseous fuel is prevented from flowing when the vacuum level at the cut off valve ceases in response to the internal combustion engine ceasing to run; anda spacer mounted between the internal combustion engine and a carburetor, the spacer having an opening that provides fluid communication between the carburetor and the internal combustion engine, the spacer further including a passageway that is in fluid communication with the opening, the passageway communicating vacuum from the internal combustion engine to the cut off valve and further providing gaseous fuel flow to the internal combustion engine. 10. The system of claim 9, wherein a regulator valve has an inlet connected to the source of a gaseous fuel and an outlet, the regulator valve configured to lower the pressure of the gaseous fuel from the first pressure level to the second pressure level and a control valve having an inlet and an outlet, wherein the inlet is connected to the outlet of the regulator valve and the outlet is connected to the cut off valve, and wherein the control valve controls the volumetric flow of gaseous fuel to the cut off valve. 11. The system of claim 10, wherein the regulator output is directly connected to the control valve input and the control valve output is directly connected to the cut off valve input and a valve mounting bracket supports the regulator valve, the control valve, and the cut off valve. 12. The system of claim 11, wherein a flexible fuel line connects the outlet of the cut off valve to the spacer such that the engine vacuum pressure level and the gaseous fuel flow are both communicated through the flexible fuel line. 13. The system of claim 12, wherein the regulator is a diaphragm valve and the control valve is a needle valve. 14. A gaseous fuel delivery system comprising: a regulator valve having an inlet adapted to be connected with a high pressure source of a gaseous fuel and an outlet, wherein the regulator valve lowers the pressure of the gaseous fuel from the high pressure source to the outlet;a control valve having an inlet connected to the outlet of the regulator valve and an outlet, wherein the control valve is operable to control the volumetric flow of gaseous fuel from the regulator;a cut off valve having an inlet connected to the outlet of the control valve and an outlet, wherein the cut off valve includes a diaphragm that is actuated by vacuum pressure levels at the cut off valve outlet proportional to the operating speed of an internal combustion engine such that the gaseous fuel is permitted to flow when the vacuum pressure levels are present at the cut off valve and the gaseous fuel is prevented from flowing when the vacuum pressure levels cease to be present at the cut off valve; anda spacer having a first surface configured to connect with a portion of the internal combustion engine and a second surface configured to connect with a portion of a carburetor, wherein the spacer further includes an opening between the first and second surfaces to provide fluid communication between the engine and the carburetor, and wherein the spacer further includes a passageway formed through the spacer that is in fluid communication with the opening, the passageway communicating the vacuum pressure level to the cut off valve and also providing gaseous fuel flow to the internal combustion engine. 15. The system of claim 14, wherein the regulator valve output is directly connected to the control valve input and the control valve output is directly connected to the cut off valve input and a valve mounting bracket supports the regulator valve, the control valve, and the cut off valve. 16. The system of claim 15, wherein the cut off valve is remotely connected to the passageway by a flexible fuel supply line. 17. The system of claim 16, wherein the high pressure source of gaseous fuel is a tank of pressurized propane that is connected by a fuel line to the regulator valve inlet. 18. The system of claim 17, wherein the regulator valve is a diaphragm valve and the control valve is a needle valve. 19. The system of claim 18, wherein the tank of pressurized propane and the valve mounting bracket are connected to a handle of a lawnmower.
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이 특허에 인용된 특허 (9)
Tusino Alfred J. (Kailua-Kona HI), Apparatus and method for improving fuel efficiency of gasoline engines.
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