Multi-sensor device and methods for fire detection
First Claim
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1. An ambient condition detector comprising:
- at least one of a smoke sensor or a thermal sensor;
a sensor of incident radiant energy responsive to sources of radiant energy exclusive of the smoke sensor or the thermal sensor; and
control circuitry coupled to the sensors and responsive to selected transient changes in incident radiant energy to shorten the time to respond to a predetermined ambient condition where the control circuitry is responsive to substantially step changes reducing radiant energy to increase a sensitivity parameter.
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Abstract
Multiple parameter fire detection uses outputs from one or more radiant energy sensors in combination with outputs from smoke or thermal sensors to shorten response times to alarm while minimizing nuisance alarms. The radiant energy related outputs can be used to alter parameters of the smoke or thermal sensors. The various sensors can be displaced from one another in an alarm system.
57 Citations
21 Claims
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1. An ambient condition detector comprising:
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at least one of a smoke sensor or a thermal sensor; a sensor of incident radiant energy responsive to sources of radiant energy exclusive of the smoke sensor or the thermal sensor; and control circuitry coupled to the sensors and responsive to selected transient changes in incident radiant energy to shorten the time to respond to a predetermined ambient condition where the control circuitry is responsive to substantially step changes reducing radiant energy to increase a sensitivity parameter. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17)
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18. An ambient condition detector comprising:
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at least one of a smoke sensor or a thermal sensor; a sensor of incident radiant energy responsive to sources of radiant energy exclusive of the smoke sensor or the thermal sensor; and control circuitry coupled to the sensors and responsive to selected transient changes in incident radiant energy to shorten the time to respond to a predetermined ambient condition and which includes additional circuitry to shorten the response time by adjusting at least one of a sample rate or a sensitivity parameter associated with the smoke sensor in response to changes in incident radiant energy where the additional circuitry to shorten the response time is responsive to increasing radiant energy to reduce the sensitivity parameter and to substantially step changes reducing radiant energy to increase the sensitivity parameter.
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19. An ambient condition detector comprising:
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at least one of a smoke sensor or a thermal sensor; a sensor of incident radiant energy responsive to sources of radiant energy exclusive of the smoke sensor or the thermal sensor; and control circuitry coupled to the sensors and responsive to selected transient changes in incident radiant energy to shorten the time to respond to a predetermined ambient condition where the control circuitry is responsive to substantially step changes reducing radiant energy to increase a sensitivity parameter where the thermal sensor and the radiant energy sensor are displaced from one another with the control circuitry, at least in part, in bidirectional communication therewith via one of a wireless or a wired medium.
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20. A method of monitoring a region comprising:
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sensing a radiant energy parameter in a region; sensing a hazard parameter indicative of by-products of combustion in the region; sensing a thermal parameter in the region; evaluating the radiant energy parameter for the presence of flame, and responsive thereto, evaluating the thermal parameter for an indication of elevated heat in the region; altering a sensitivity parameter associated with at least one of the hazard parameter or the thermal parameter in response to the results of evaluating the parameters; and determining if the by-products of combustion are indicative of the presence of a hazardous condition in the region which includes evaluating if the radiant energy parameter is indicative of a relatively low level of ambient light in the region, and responsive thereto, increasing a sensitivity parameter indicative of a smoldering fire condition.
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21. A method of monitoring a region comprising:
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sensing a radiant energy parameter in a region; sensing a hazard parameter indicative of by-products of combustion in the region; sensing a thermal parameter in the region; evaluating the radiant energy parameter for the presence of flame, and responsive thereto, evaluating the thermal parameter for an indication of elevated heat in the region; altering a sensitivity parameter associated with at least one of the hazard parameter or the thermal parameter in response to the results of evaluating the parameters; and determining if the by-products of combustion are indicative of the presence of a hazardous condition in the region which includes evaluating if the radiant energy parameter is indicative of a relatively low level of ambient light in the region, and responsive thereto, and also responsive to the radiant energy parameter indicating the presence of flame, increasing a sensitivity parameter indicative of the presence of flame.
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Specification
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Current AssigneeHoneywell International Inc.
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Original AssigneeHoneywell International Inc.
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InventorsTice, Lee D.
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Primary Examiner(s)Hofsass, Jeffery
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Assistant Examiner(s)Previl, Daniel
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Application NumberUS10/670,016Publication NumberTime in Patent Office1,007 DaysField of Search340/630, 340/628, 340/501, 340/514, 340/602, 340/527, 340/825.69, 340/825.71, 250/216, 250/574, 250/573, 250/336.1, 219/446.1, 219/506, 219/451.1, 219/490US Class Current340/630CPC Class CodesG08B 17/00 Fire alarms; Alarms respons...G08B 17/10 Actuation by presence of sm...G08B 17/12 Actuation by presence of ra...G08B 29/183 Single detectors using dual...G08B 29/185 Signal analysis techniques ...
