Compressed natural gas (CNG) pressure regulator

The invention claimed is: 1. A flow regulator for a compressed natural gas (CNG) system, the regulator comprising: a regulator housing having at least one inlet port, at least one outlet port and an interior having interior channels fluidically interconnecting said ports; and a mechanical bypass valve disposed within the regulator housing, the bypass valve enabling a bypass mode of operation based upon sensed inlet pressure wherein the mechanical bypass valve comprises a control spring acting on a movable sensing piston in relation to the inlet port, the bypass valve being biased by the control spring into an open position to initially permit a bypass mode of operation until a predetermined inlet pressure threshold is reached, the sensing piston being operatively coupled to a valve plug that is biased by a compression spring and configured to close the bypass valve when the inlet pressure reaches and exceeds the predetermined threshold. 2. The flow regulator as recited in claim 1 , in which the control spring applies a biasing force that must be overcome by the inlet pressure in order to close the bypass valve. 3. The flow regulator as recited in claim 1 , in which the bypass mode is initially maintained in an open position to promote the bypass mode of operation as a fail safe. 4. The flow regulator as recited in claim 1 , further comprising at least one set of fins for controlling temperature of the contained compressed natural gas. 5. The flow regulator as recited in claim 4 , in which the set of fins extend as a serpentine circuit in a coolant plate between an inlet coolant port and an outlet coolant port. 6. The flow regulator as recited in claim 1 , including at least one accessible feature for selectively adjusting a tension of the control spring. 7. The flow regulator as recited in claim 1 , wherein the bypass valve further includes a filter disposed in relation to a valve seat. 8. The flow regulator as recited in claim 1 , in which a loading mechanism includes a spring-loaded diaphragm and a control feature for regulating a flow of gas from the inlet port to the outlet port when the bypass valve is closed, said control feature comprising a balance valve. 9. A method for controlling the operation of a pressure regulator, said method comprising the steps of: providing a mechanical bypass valve between an inlet port and an outlet port of the regulator, the bypass valve receiving flow from the inlet port acting upon a movable feature; maintaining the valve in an open position until an inlet pressure exceeds a predetermined threshold wherein the bypass valve comprises a sensing piston in fluid communication with the inlet port, the sensing piston being movable relative to a biased control spring that maintains the valve in the open position and in which the sensing piston is linked to a valve plug that is biased by a compression spring, and in which the valve plug is configured to close the bypass valve when the inlet pressure exceeds the predetermined threshold. 10. The method as recited in claim 9 , including the step of providing an accessible feature for controlling a tension of the control spring. 11. The method as recited in claim 9 , including the step of providing at least one set of fins for controlling temperature of flowing compressed natural gas. 12. The method as recited in claim 11 , wherein the at least one set of fins are defined in a serpentine circuit that extends within a coolant plate, the circuit extending between an inlet coolant port and an outlet coolant port. 13. A bypass valve for a pressure regulator, the pressure regulator having a housing including an inlet port, an outlet port and at least one interior passage interconnecting the inlet port and outlet port and in which the bypass valve is disposed between the inlet port and outlet port and comprises: a sensing piston that is biasedly connected to a control spring that maintains the bypass valve in an open position until a predetermined inlet pressure overcomes the biasing force of the sensing piston to enable the valve to close and permit the regulator to assume a regulator mode of operation and in which the regulator otherwise is enabled in a bypass mode of operation in which gas is ported directly from the inlet port to the outlet port; and a valve plug operatively coupled to the sensing piston, the valve plug being biased by a compression spring in which the compression spring acts upon the valve plug to close the valve when a predetermined inlet pressure threshold has been reached. 14. The bypass valve as recited in claim 13 , including at least one user accessible feature for selectively adjusting a tension of the control spring. 15. The bypass valve as recited in claim 13 , including a filter disposed in relation to a valve seat through which gas passes when the valve is open. 16. The bypass valve as recited in claim 13 , in which the valve plug includes an accessible feature to permit adjustment of the valve plug. 17. The bypass valve as recited in claim 13 , in which the regulator is used to regulate compressed natural gas. 18. The method as recited in claim 9 , in which the pressure regulator is used to regulate a flow of compressed natural gas. 19. The method as recited in claim 9 , in which a flow of compressed natural gas from the inlet port to the outlet port is regulated in a regulator mode of operation when the bypass valve is closed upon the inlet pressure exceeding the predetermined threshold in which the regulator comprises a loading mechanism including a spring-loaded diaphragm and a balance valve for regulating the flow of gas from the inlet port to the outlet port.