System and method of airflow monitoring for variable airflow environments
First Claim
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1. An apparatus comprising:
- an ambient condition detector;
first and second predetermined flow thresholds set during commissioning of the ambient condition detector;
an anemometer configured to generate a flow indicating signal; and
control circuits that include an input port for receiving the flow indicating signal and a heating, ventilation, and air conditioning (“
HVAC”
) state signal,wherein the HVAC state signal indicates whether an HVAC system is energized or not energized,wherein the flow indicating signal indicates an airflow value,wherein the control circuits compare the flow indicating signal to the first predetermined flow threshold to determine whether a signal value of the flow indicating signal varies by a first percentage from the first predetermined flow threshold when the HVAC state signal indicates that the HVAC system is not energized,wherein the control circuits compare the flow indicating signal to the second predetermined flow threshold to determine whether the signal value of the flow indicating signal varies by a second percentage from the second predetermined flow threshold when the HVAC state signal indicates that the HVAC system is energized, andwherein, responsive to comparing the flow indicating signal to one of the first and second predetermined flow thresholds, the control circuits determine if a trouble indicator should be generated.
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Abstract
A method of operating an aspirated smoke detector includes providing an ambient condition detector, establishing a first flow baseline for the detector, establishing a second, lower, flow baseline for the detector, sampling a selected airflow, and determining if the slected airflow as sampled should be compared to the first flow baseline or the second, lower, flow baseline, and responsive thereto, determining if a trouble indictor should be generated.
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Citations
11 Claims
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1. An apparatus comprising:
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an ambient condition detector; first and second predetermined flow thresholds set during commissioning of the ambient condition detector; an anemometer configured to generate a flow indicating signal; and control circuits that include an input port for receiving the flow indicating signal and a heating, ventilation, and air conditioning (“
HVAC”
) state signal,wherein the HVAC state signal indicates whether an HVAC system is energized or not energized, wherein the flow indicating signal indicates an airflow value, wherein the control circuits compare the flow indicating signal to the first predetermined flow threshold to determine whether a signal value of the flow indicating signal varies by a first percentage from the first predetermined flow threshold when the HVAC state signal indicates that the HVAC system is not energized, wherein the control circuits compare the flow indicating signal to the second predetermined flow threshold to determine whether the signal value of the flow indicating signal varies by a second percentage from the second predetermined flow threshold when the HVAC state signal indicates that the HVAC system is energized, and wherein, responsive to comparing the flow indicating signal to one of the first and second predetermined flow thresholds, the control circuits determine if a trouble indicator should be generated. - View Dependent Claims (2, 3, 4, 5, 6)
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7. An aspirated smoke detector comprising:
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control circuits that include an input port for receiving first and second baseline indicating values set during commissioning of the aspirated smoke detector; and an anemometer that indicates a realtime flow value to the control circuits, wherein the control circuits receive a heating, ventilation, and air conditioning (“
HVAC”
) state signal that indicates whether an HVAC system is energized or not energized,wherein the control circuits compare the realtime flow value to the first baseline indicating value to determine whether the realtime flow value varies by a first percentage from the first baseline indicating value when the HVAC state signal indicates that the HVAC system is not energized, wherein the control circuits compare the realtime flow value to the second baseline indicating value to determine whether the realtime flow value varies by a second percentage from the second baseline indicating value when the HVAC state signal indicates that the HVAC system is energized, and wherein the control circuits determine if a trouble condition is present responsive to comparing the realtime flow value to one of the first and second baseline indicating values.
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8. A method comprising:
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providing an ambient condition detector; establishing a first flow baseline for the ambient condition detector during commissioning of the ambient condition detector; establishing a second flow baseline for the ambient condition detector during the commissioning of the ambient condition detector, wherein the second flow baseline is lower than the first flow baseline; sampling an airflow from an anemometer; receiving a heating, ventilation, and air conditioning (“
HVAC”
) state signal from an HVAC system, wherein the HVAC state signal indicates whether the HVAC system is energized or not energized;comparing the airflow to the first flow baseline to determine whether the airflow varies by a first percentage from the first flow baseline when the HVAC state signal indicates that the HVAC system is not energized; comparing the airflow to the second flow baseline to determine whether the airflow varies by a second percentage from the second flow baseline when the HVAC state signal indicates that the HVAC system is energized; and determining when a trouble indicator should be generated responsive to comparing the airflow to one of the first and second flow baselines. - View Dependent Claims (9, 10, 11)
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Specification