Ultrasonic transducers in aspirating smoke detectors for transport time measurement

The invention claimed is: 1. A method of measuring transport time comprising: providing an ambient condition detector coupled to at least one sample inflow conduit; measuring ultrasonic transit times through ambient air in the at least one sample inflow conduit; injecting a different gas into the at least one sample inflow conduit at a first time; continuing to measure the ultrasonic transit times through the ambient air in the at least one sample inflow conduit until a change in the ultrasonic transit times is detected at a second time; and based on a difference between the first time and the second time determining the transport time. 2. A method as in claim 1 wherein providing includes coupling an aspirated detector to the at least one sample inflow conduit. 3. A method as in claim 1 which includes providing first and second spaced apart ultrasonic flow detectors in the at least one sample inflow conduit. 4. A method as in claim 3 which includes providing a programmable processor coupled to the ambient condition detector. 5. A method as in claim 4 which includes coupling executable instructions to the programmable processor to measure the ultrasonic transit times. 6. A method as in claim 5 wherein the programmable processor is one of internal to the ambient condition detector and attached to the first and second spaced apart ultrasonic flow detectors, or wherein the programmable processor is external to the ambient condition detector and coupled to the first and second spaced apart ultrasonic flow detectors. 7. A method as in claim 3 which includes measuring the ultrasonic transit times in at least one direction between the first and second spaced apart ultrasonic flow detectors. 8. A method as in claim 7 which includes measuring the ultrasonic transit times in a reverse direction between the first and second spaced apart ultrasonic flow detectors. 9. An apparatus for measuring transport time in an aspirated smoke detector comprising: programmable control circuits coupled to first and second ultrasonic transducers; and pre-stored instructions, executed by the programmable control circuits, to measure and store flow transit times between the first and second ultrasonic transducers in at least one direction, wherein the pre-stored instructions determine a first time when a different gas is injected into a conduit, wherein the pre-stored instructions at least intermittently compare indicia of first stored transit times in ambient air to indicia of subsequently measured second transit times in the different gas, and, responsive to a detected difference therebetween, determine a second time, and wherein the pre-stored instructions determine the transport time by calculating a difference between the second time and the first time. 10. An apparatus as in claim 9 wherein the first and second ultrasonic transducers are coupled to the conduit, spaced apart from one another. 11. An apparatus as in claim 10 which includes an indicator indicative of when the different gas has been injected into the conduit. 12. An apparatus as in claim 11 wherein the indicator is stored and a second indicator is established in response to the detected difference. 13. An apparatus as in claim 9 wherein the second transit times are measured between the first and second ultrasonic transducers in a second direction. 14. An apparatus having an inflow pipe network comprising: an aspirated smoke detector which is couplable to the inflow pipe network; and at least one sensor, carried at the aspirated smoke detector, to measure a predetermined ambient gas parameter, wherein the aspirated smoke detector stores a representation of the predetermined ambient gas parameter, receives a temporal indicator that a different gas is being injected into the inflow pipe network, with the aspirated smoke detector monitoring in real-time the predetermined ambient gas parameter being measured by the at least one sensor, and, responsive to a change therebetween, determines a transport time for the apparatus. 15. An apparatus as in claim 14 wherein the at least one sensor comprises one of an electro-acoustic sensor or an electro-magnetic sensor. 16. An apparatus as in claim 14 which includes executable instructions to store the representation of the predetermined ambient gas parameter, to monitor the predetermined ambient gas parameter, being measured, to compare the stored representation of the predetermined ambient gas to the real-time measured predetermined ambient gas parameter, and to determine the transport time by subtracting a time based indicium associated with a time that the different gas is being injected from a time based indicium associated with a time that a difference between the stored representation of the predetermined ambient gas parameter and the real-time measured predetermined ambient gas parameter is determined. 17. An apparatus as in claim 16 wherein the at least one sensor comprises at least one electro-acoustic transducer associated with a gas inflow path of the aspirated smoke detector. 18. An apparatus as in claim 17 which includes an interface to which a displaced computer is coupled, wherein the executable instructions reside in and are executed, at least in part, at the displaced computer.