A gas safety valve with a casing having a gas inlet and a gas outlet. An electromagnet disposed in the casing is situated to act on an arm within the casing that pivots to permit gas flow through between the gas inlet and outlet when the electromagnet is energized. When the electromagnet is not ener
A gas safety valve with a casing having a gas inlet and a gas outlet. An electromagnet disposed in the casing is situated to act on an arm within the casing that pivots to permit gas flow through between the gas inlet and outlet when the electromagnet is energized. When the electromagnet is not energized the arm closes to impede gas flow through the valve. During normal operation a thermocouple provides power to the electromagnet to hold the valve in an open position. An auxiliary power source is also electrically coupled with the electromagnet to provide power to the electromagnet when the thermocouple generates insufficient power to maintain the valve in an open position.
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1. A gas valve assembly adapted to supply a gas to a burner of a domestic appliance, the gas valve comprising: a first flow control valve assembly comprising a first valve body having a first gas inlet, a first gas outlet and a regulatory organ situated in the valve body between the first gas inlet
1. A gas valve assembly adapted to supply a gas to a burner of a domestic appliance, the gas valve comprising: a first flow control valve assembly comprising a first valve body having a first gas inlet, a first gas outlet and a regulatory organ situated in the valve body between the first gas inlet and the first gas outlet, the regulatory organ rotatable within the first valve body by a hand operated drive shaft to vary the flow of gas through the first flow control valve; anda second flow control valve assembly coupled to the first flow control valve assembly comprising: a second valve body having a second gas inlet coupled to the first gas outlet, a second gas outlet and a valve seat situated between the second gas inlet and the second gas outlet,an electromagnet disposed within a cavity in the second valve body and electrically coupled to an electrical connection terminal integrated with or connected to the second valve body, the electromagnet having a first end located at or near a bottom surface of the cavity and a second end opposite the first end, the second end of the electromagnet having an upper surface, the valve seat located a first distance above the bottom surface of the cavity, the entirety of the upper surface of the electromagnet spaced a second distance above the bottom surface of the cavity, the second distance being greater than the first distance; andan arm situated within the second valve body that pivots about an axis of rotation between a first position and a second position, the arm having a longitudinal length, the second end of the electromagnet located nearer the axis of rotation than the first end of the electromagnet, the arm biased in a first rotational direction toward the first position and having at a first longitudinal location a valve member and at a second longitudinal location spaced away from the first longitudinal location a ferromagnetic member that is configured to be electromagnetically coupled to the electromagnet when the electromagnet is energized, when the arm is in the first position the valve member contacts the valve seat to prevent gas flow between the second gas inlet and the second gas outlet, when the arm is in the first position and power is supplied to the electromagnet via the electrical connection terminal the ferromagnetic member is attracted and moved toward the upper surface of the electromagnet without the need of a user to physically act on the ferromagnetic member to cause the arm to move in a second rotational direction opposite the first rotational direction to assume the second position, upon the arm being rotated in the second rotational direction the valve member is moved away from the valve seat to permit gas flow between the second gas inlet and the second gas outlet, the arm being biased in the first rotational direction by a spring having a first end coupled to the arm at a third longitudinal location of the arm, the third longitudinal location of the arm located between the first and second longitudinal locations and spaced apart from each of the first and second longitudinal locations, the arm is supported by a fixed support, the spring having a second end coupled to a plate attached to the fixed support. 2. A gas valve assembly according to claim 1, wherein the electromagnet comprises a substantially U-shaped core and a single coil wound around the core, the coil being connected to the electrical connection terminal. 3. A gas valve assembly according to claim 1, comprising a gas outlet conduit that extends between the valve seat and the second gas outlet, the electromagnet having elongate transverse surfaces that are arranged substantially orthogonal to the bottom surface of the cavity, the elongate transverse surfaces arranged substantially parallel to the gas outlet conduit. 4. An appliance having a gas burner, the appliance comprising: a first flow control valve assembly comprising a first valve body having a first gas inlet, a first gas outlet and a regulatory organ situated in the valve body between the first gas inlet and the first gas outlet, the regulatory organ rotatable within the first valve body by a hand operated drive shaft to vary the flow of gas through the first flow control valve, the regulatory organ rotatable between a closed position to obstruct the flow of gas through the first flow control valve and one or more open positions to permit the flow of gas through the first flow control valve,a second flow control valve assembly comprising: a second valve body having a second gas inlet coupled to the first gas outlet, a second gas outlet and a valve seat situated between the second gas inlet and the second gas outlet,an electromagnet disposed within a cavity in the second valve body and electrically coupled to an electrical connection terminal integrated with or connected to the second valve body, the electromagnet having a first end located at or near a bottom surface of the cavity and a second end opposite the first end, the second end of the electromagnet having an upper surface, the valve seat located a first distance above the bottom surface of the cavity, the entirety of the upper surface of the electromagnet spaced a second distance above the bottom surface of the cavity, the second distance being greater than the first distance,an arm situated within the second valve body that pivots about an axis of rotation between a first position and a second position, the arm having a longitudinal length, the second end of the electromagnet located nearer the axis of rotation than the first end of the electromagnet, the arm biased in a first rotational direction toward the first position and having at a first longitudinal location a valve member and at a second longitudinal location spaced away from the first longitudinal location a ferromagnetic member that is configured to be electromagnetically coupled to the electromagnet when the electromagnet is energized, when the arm is in the first position the valve member contacts the valve seat to prevent gas flow between the second gas inlet and the second gas outlet, when the arm is in the first position and power is supplied to the electromagnet via the electrical connection terminal the electromagnet is energized and the ferromagnetic member is attracted and moved toward the upper surface of the electromagnet without the need of a user to physically act on the ferromagnetic member to cause the arm to move in a second rotational direction opposite the first rotational direction to assume the second position, upon the arm being rotated in the second rotational direction the valve member is moved away from the valve seat to permit gas flow between the second gas inlet and the second gas outlet, the arm being biased in the first rotational direction by a spring having a first end coupled to the arm at a third longitudinal location of the arm, the third longitudinal location of the arm located between the first and second longitudinal locations and spaced apart from each of the first and second longitudinal locations, the arm is supported by a fixed support, the spring having a second end coupled to a plate attached to the fixed support; andan auxiliary power source coupled with the electrical connection terminal. 5. An appliance according to claim 4, further comprising an electrical flame ignition device situated near the burner, the flame ignition device electrically coupled to the auxiliary power source. 6. An appliance according to claim 4, further comprising a control switch coupled with the auxiliary power source that may be acted upon by a user of the appliance to activate the auxiliary power source to energize the electromagnet for a pre-set period of time. 7. An appliance according to claim 5, further comprising a control switch coupled with the auxiliary power source that may be acted upon by a user of the appliance to activate the auxiliary power source to energize the electromagnet and the flame ignition device for a pre-set period of time. 8. An appliance according to claim 5, wherein the auxiliary power source, the electromagnet and the flame ignition device are part of a control circuit, the control circuit comprising a switch coupled with the auxiliary power source and when acted upon by a user causes the auxiliary power source to supply power to the electromagnet and to the electrical flame ignition device for a pre-set period of time. 9. An appliance according to claim 4, wherein the auxiliary power source comprises a battery. 10. An appliance according to claim 5, wherein the auxiliary power source comprises a battery. 11. An appliance according to claim 6, wherein the auxiliary power source comprises a battery. 12. An appliance according to claim 7, wherein the auxiliary power source comprises a battery. 13. An appliance according to claim 4, wherein the electromagnet comprises a substantially U-shaped core and a single coil wound around the core, the coil being connected to the electrical connection terminal. 14. An appliance according to claim 4, comprising a gas outlet conduit that extends between the valve seat and the second gas outlet, the electromagnet having elongate transverse surfaces that are arranged substantially orthogonal to the bottom surface of the cavity, the elongate transverse surfaces arranged substantially parallel to the gas outlet conduit.
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이 특허에 인용된 특허 (6)
Daly Paul D. (Troy MI), Actuating mechanism for a rolling ball valve.
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