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A gas conversion assembly generally has a gas inlet and a gas outlet. The assembly includes a control mechanism for regulating the flow of gas from the inlet to the outlet. The control mechanism is constructed and arranged to adjust from regulating the flow of a first gas to regulating the flow of a

A gas conversion assembly generally has a gas inlet and a gas outlet. The assembly includes a control mechanism for regulating the flow of gas from the inlet to the outlet. The control mechanism is constructed and arranged to adjust from regulating the flow of a first gas to regulating the flow of a second gas. The control mechanism has an actuator for switching the control mechanism from its first arrangement for regulating a first gas to its second arrangement for regulating a second gas.

대표청구항 ▼

1. A gas conversion assembly for converting an appliance from using a first gas to using a second gas, comprising;a gas inlet and a gas outlet; a conduit connected between said inlet and said outlet; and a control mechanism for regulating the flow of gas from said inlet to said outlet through said c

1. A gas conversion assembly for converting an appliance from using a first gas to using a second gas, comprising;a gas inlet and a gas outlet; a conduit connected between said inlet and said outlet; and a control mechanism for regulating the flow of gas from said inlet to said outlet through said conduit, said control mechanism constructed and arranged to adjust from regulating the flow of a first gas to regulating the flow of a second gas, said control mechanism having an actuator for shifting said control mechanism from a first position, for regulating the first gas, to a second position, for regulating the second gas. 2. The assembly according to claim 1, wherein said control mechanism for regulating a first gas includes software for instructing the control mechanism to regulate the quantity of said first gas flowing through said conduit.3. The assembly according to claim 1, wherein said actuator comprises a control element for switching the control mechanism from said first arrangement to said second arrangement.4. The assembly according to claim 3, wherein said actuator comprises a circuit board for instructing the control mechanism to switch from said first arrangement to said second arrangement.5. The assembly according to claim 4, wherein said actuator further comprises a shunt that when attached to said circuit board switches said control mechanism from said first arrangement to said second arrangement.6. The assembly according to claim 5, wherein said circuit board has a three pin connector thereon and wherein said shunt is placed over two of said pins to form a short between said pins and wherein the short establishes that said control mechanism must use said first arrangement.7. The assembly according to claim 1, wherein said conduit is utilized with both the first gas and the second gas during the control of a first gas and the control of a second gas.8. The assembly according to claim 1, wherein said control mechanism has a rough adjustment mechanism for adjusting said assembly to operate with gases of different densities, and a fine adjustment mechanism for fine adjustment of the flow of gas through said conduit.9. The assembly according to claim 8, wherein the fine adjustment mechanism provides different fine adjustment increments for each gas.10. The assembly according to claim 1, wherein said control mechanism includes a motor for adjusting the flow of gas.11. The assembly according to claim 10, wherein said motor has a motor shaft and wherein said motor shaft is operated in a first range of positions to adjust the flow of a first gas and second range of positions to adjust the flow of a second gas.12. The assembly according to claim 11, wherein said assembly further comprises a software interface that has software programming to control the adjustment of said flow of gas by said motor, said software having a first set of software protocols for the adjustment of the flow of the first gas and a second set of protocols for the adjustment of the flow of the second gas.13. The assembly according to claim 12, wherein said assembly further comprises a printed circuit and a shunt that, when said shunt is attached to said circuit board, said assembly switches the software operating in said software interface from said first set of protocols to said second set.14. The assembly according to claim 12, wherein said assembly further comprises a second shunt that, when said second shunt is attached to said circuit board, said assembly switches the software operating in said software interface from said second set of protocols to said first set.15. The assembly according to claim 10, wherein said motor regulates a valve that controls the quantity of gas flowing through said conduit.16. The assembly according to claim 15, wherein said valve is a ball valve forming a portion of said conduit, said ball valve being constructed and arranged to open and close and wherein said motor controls the opening and closing of said valve.17. The assembly according to claim 16, wherein said motor has a motor shaft constructed and arranged to lengthen and shorten when actuated and having an end, said end arranged to abut a lever, said lever positioned adjacent said valve and constructed such that when said motor shaft is lengthened said lever contacts said ball valve to open said valve and thereby opens the flow of gas through said conduit.18. The assembly according to claim 1, wherein said assembly has a fine adjustment mechanism for fine adjustment of the flow of gas through said conduit and wherein said mechanism can be controlled both locally and remotely.19. The assembly according to claim 18, wherein said fine adjustment mechanism has a radio frequency receiver and wherein said receiver receives remote commands to initiate a fine adjustment of the flow of gas through said conduit.20. The assembly according to claim 1, wherein said assembly further comprises at least one thermopile, said thermopile utilized to actuate said control mechanism.21. The assembly according to claim 3, wherein said control element switch is a rotatable plunger, that when rotated, switches said assembly from said first arrangement to said second arrangement.22. A gas flow controller, for controlling the amount of gas through a conduit, the improvement comprising:a control mechanism for regulating the flow of one of first and second gasses through said conduit, said control mechanism having a motor constructed and arranged to provide for a manually selectable change from a first structural arrangement for regulating the first gas, to a second structural arrangement for regulating the second gas. 23. The gas flow controller of claim 22, wherein the first structural arrangement comprises a first position for the motor for regulating the first gas, and the second structural arrangement comprises a second position for the motor for regulating the second gas.24. A gas conversion assembly for converting an appliance from using a first gas to using a second gas, comprising;a gas inlet and a gas outlet; a conduit connected between said inlet and said outlet; and a control mechanism for regulating the flow of gas from said inlet to said outlet through said conduit, said control mechanism constructed and arranged to adjust from regulating the flow of a first gas to regulating the flow of a second gas, said control mechanism having an actuator for switching said control mechanism from a first arrangement, for regulating the first gas, to a second arrangement, for regulating the second gas, wherein said control mechanism for regulating the first gas includes software for instructing the control mechanism to regulate the quantity of said first gas flowing through said conduit.