Rapidly responding, false detection immune alarm signal producing smoke detector
First Claim
1. A rapidly responding, false detection immune smoke detector of a light obscuration type, comprising:
- a light source from which a light beam propagates;
a light detector having a light receiving surface with a light detecting area and producing a signal in response to light incident on the light receiving surface;
a light reflective imaging assembly in optical association with the light source and the light detector, the imaging assembly including first and second spaced-apart optical components having respective first and second opposed light reflecting surfaces forming between them a spatial region that smoke particles can occupy, the first and second optical components having light directing properties that cooperate to reflect the light beam between the first and second light reflecting surfaces and to direct the light beam toward the light detector for incidence on its light receiving surface, and the first and second optical components controlling the light beam by providing it with a beam width that is sufficiently wide to render insignificant contributions of anomalous light reflections but that converges to illuminate the light receiving surface within the confines of the light detecting area and thereby cause the light detector to produce a signal corresponding to a concentration of the smoke particles occupying the spatial region;
a rate of change measurement detector operatively associated with the light detector to measure a rate of change of the concentration of smoke particles occupying the spatial region, the rate of change measurement detector responding to the signal produced by the light detector to determine an elapsed time between changes in concentrations of smoke particles between first and second smoke concentration threshold levels, wherein the first smoke concentration threshold level is less than the second smoke concentration threshold level and the rate of change measurement detector produces a signal indicating that a rate of rise of the concentration of smoke particles from the first smoke concentration threshold level to the second smoke concentration threshold level has exceeded a first predetermined threshold rate and the concentration of smoke particles persists above the second smoke concentration threshold level for a predetermined time; and
an alarm threshold circuit to which an alarm smoke concentration threshold level is set, and in which the first smoke concentration threshold level is less than the alarm smoke concentration threshold level.
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Accused Products
Abstract
A smoke detector of an obscuration type has an effective light propagation path of substantially greater length than the light propagation paths of conventional obscuration-type smoke detectors to provide increased smoke detection sensitivity without increased background noise or numbers of false alarm incidents. The smoke detector has a light source that emits a light beam that propagates into a detection chamber composed of first and second optical components having respective first and second opposed light reflecting surfaces. The light reflecting surfaces reflect the light beam across the detection chamber multiple times before the reflected light beam is incident on a light detector. The multiple reflections of the light beam increase its effective path length of propagation within the detection chamber to provide the increased smoke detection sensitivity.
51 Citations
31 Claims
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1. A rapidly responding, false detection immune smoke detector of a light obscuration type, comprising:
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a light source from which a light beam propagates; a light detector having a light receiving surface with a light detecting area and producing a signal in response to light incident on the light receiving surface; a light reflective imaging assembly in optical association with the light source and the light detector, the imaging assembly including first and second spaced-apart optical components having respective first and second opposed light reflecting surfaces forming between them a spatial region that smoke particles can occupy, the first and second optical components having light directing properties that cooperate to reflect the light beam between the first and second light reflecting surfaces and to direct the light beam toward the light detector for incidence on its light receiving surface, and the first and second optical components controlling the light beam by providing it with a beam width that is sufficiently wide to render insignificant contributions of anomalous light reflections but that converges to illuminate the light receiving surface within the confines of the light detecting area and thereby cause the light detector to produce a signal corresponding to a concentration of the smoke particles occupying the spatial region; a rate of change measurement detector operatively associated with the light detector to measure a rate of change of the concentration of smoke particles occupying the spatial region, the rate of change measurement detector responding to the signal produced by the light detector to determine an elapsed time between changes in concentrations of smoke particles between first and second smoke concentration threshold levels, wherein the first smoke concentration threshold level is less than the second smoke concentration threshold level and the rate of change measurement detector produces a signal indicating that a rate of rise of the concentration of smoke particles from the first smoke concentration threshold level to the second smoke concentration threshold level has exceeded a first predetermined threshold rate and the concentration of smoke particles persists above the second smoke concentration threshold level for a predetermined time; and an alarm threshold circuit to which an alarm smoke concentration threshold level is set, and in which the first smoke concentration threshold level is less than the alarm smoke concentration threshold level.
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2. A rapidly responding, false detection immune smoke detector of a light obscuration type, comprising:
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a light source from which a light beam propagates; a light detector having a light receiving surface with a light detecting area and producing a signal in response to light incident on the light receiving surface; a light reflective imaging assembly in optical association with the light source and the light detector, the imaging assembly including first and second spaced-apart optical components having respective first and second opposed light reflecting surfaces forming between them a spatial region that smoke particles can occupy, the first and second optical components having light directing properties that cooperate to reflect the light beam between the first and second light reflecting surfaces and to direct the light beam toward the light detector for incidence on its light receiving surface, and the first and second optical components controlling the light beam by providing it with a beam width that is sufficiently wide to render insignificant contributions of anomalous light reflections but that converges to illuminate the light receiving surface within the confines of the light detecting area and thereby cause the light detector to produce a signal corresponding to a concentration of the smoke particles occupying the spatial region; and a rate of change measurement detector operatively associated with the light detector to measure a rate of change of the concentration of smoke particles occupying the spatial region, the rate of change measurement detector responding to the signal produced by the light detector to determine an elapsed time between changes in concentrations of smoke particles between first and second smoke concentration threshold levels, wherein the first smoke concentration threshold level is less than the second smoke concentration threshold level and the rate of change measurement detector produces a signal indicating that a rate of rise of the concentration of smoke particles from the first smoke concentration threshold level to the second smoke concentration threshold level is less than a second predetermined threshold rate to indicate a long-term degradation of intensity of light incident on the light receiving surface of the light detector.
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3. A rapidly responding, false detection immune smoke detector of a light obscuration type, comprising:
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a light source from which a light beam propagates; a light detector having a light receiving surface with a light detecting area and producing a signal in response to light incident on the light receiving surface; and a light reflective imaging assembly in optical association with the light source and the light detector, the imaging assembly including first and second spaced-apart optical components having respective first and second opposed light reflecting surfaces forming between them a spatial region that smoke particles can occupy, the first and second optical components having light directing properties that cooperate to reflect the light beam between the first and second light reflecting surfaces and to direct the light beam toward the light detector for incidence on its light receiving surface, and the first and second optical components controlling the light beam by providing it with a beam width that is sufficiently wide to render insignificant contributions of anomalous light reflections but that converges to illuminate the light receiving surface within the confines of the light detecting area and thereby cause the light detector to produce a signal corresponding to a concentration of the smoke particles occupying the spatial region, wherein the light directing properties of the first and second optical components cooperate to reflect the light beam multiple times between the first and second light reflecting surfaces to establish a smoke detection sensitivity for the smoke detector. - View Dependent Claims (6, 7, 8, 9, 10, 11, 13, 14, 15, 16, 17)
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4. A rapidly responding, false detection immune smoke detector of a light obscuration type, comprising:
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a light source from which a light beam propagates; a light detector having a light receiving surface with a light detecting area and producing a signal in response to light incident on the light receiving surface; and a light reflective imaging assembly in optical association with the light source and the light detector, the imaging assembly including first and second spaced-apart optical components having respective first and second opposed light reflecting surfaces forming between them a spatial region that smoke particles can occupy, the first and second optical components having light directing properties that cooperate to reflect the light beam between the first and second light reflecting surfaces and to direct the light beam toward the light detector for incidence on its light receiving surface, and the first and second optical components controlling the light beam by providing it with a beam width that is sufficiently wide to render insignificant contributions of anomalous light reflections but that converges to illuminate the light receiving surface within the confines of the light detecting area and thereby cause the light detector to produce a signal corresponding to a concentration of the smoke particles occupying the spatial region, wherein one of the first and second light reflecting surfaces includes a pair of openings, the light beam emitted by the light source propagating through one of the pair of openings and the light beam received by the light detector after incidence on the first and second light reflecting surfaces propagating through the other one of the pair of openings.
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5. A rapidly responding, false detection immune smoke detector of a light obscuration type, comprising:
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a light source from which a light beam propagates; a light detector having a light receiving surface with a light detecting area and producing a signal in response to light incident on the light receiving surface; and a light reflective imaging assembly in optical association with the light source and the light detector, the imaging assembly including first and second spaced-apart optical components having respective first and second opposed light reflecting surfaces forming between them a spatial region that smoke particles can occupy, the first and second optical components having light directing properties that cooperate to reflect the light beam between the first and second light reflecting surfaces and to direct the light beam toward the light detector for incidence on its light receiving surface, and the first and second optical components controlling the light beam by providing it with a beam width that is sufficiently wide to render insignificant contributions of anomalous light reflections but that converges to illuminate the light receiving surface within the confines of the light detecting area and thereby cause the light detector to produce a signal corresponding to a concentration of the smoke particles occupying the spatial region, wherein one of the first and second light reflecting surfaces includes a pair of openings, the light beam emitted by the light source propagating through one of the pair of openings and the light beam received by the light detector after incidence on the first and second light reflecting surfaces propagating through the other one of the pair of openings and wherein an optical axis extends between the first and second light reflecting surfaces and in which the openings included in the pair are positioned on opposite sides of the optical axis.
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12. A rapidly responding, false detection immune smoke detector of a light obscuration type, comprising:
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a light source from which a light beam propagates; a light detector having a light receiving surface with a light detecting area and producing a signal in response to light incident on the light receiving surface; and a light reflective imaging assembly in optical association with the light source and the light detector, the imaging assembly including first and second spaced-apart optical components having respective first and second opposed light reflecting surfaces forming between them a spatial region that smoke particles can occupy, the first and second optical components having light directing properties that cooperate to reflect the light beam between the first and second light reflecting surfaces and to direct the light beam toward the light detector for incidence on its light receiving surface, and the first and second optical components controlling the light beam by providing it with a beam width that is sufficiently wide to render insignificant contributions of anomalous light reflections but that converges to illuminate the light receiving surface within the confines of the light detecting area and thereby cause the light detector to produce a signal corresponding to a concentration of the smoke particles occupying the spatial region, wherein one of the first and second light reflecting surfaces is in the form of a concave optical surface and the other of the first and second light reflecting surfaces is in the form of a piano optical surface and wherein the first and second light reflecting surfaces are spaced apart by a distance to define a path length, and in which the concave optical surface has a focal length that is about twice the path length and an effective beam length that is about six times the path length.
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18. A rapidly responding, false detection immune smoke detector of a light obscuration type, comprising:
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a light reflective imaging assembly including a pair of spaced-apart, opposed light reflecting surfaces between which a concentration of smoke particles can enter; a light source from which a light beam propagates in a direction for reflection by the light reflecting surfaces, the light beam reflecting off each one of the pair of light reflecting surfaces as it propagates through the light reflective imaging assembly, the light beam exiting the light reflective imaging assembly having an intensity corresponding to the concentration of smoke particles present between the light reflecting surfaces; and a light detector positioned to receive a light beam representing the concentration of smoke particles in the light reflective imaging assembly. - View Dependent Claims (19, 20)
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21. A false detection immune, light obscuration type smoke detector that is capable of detecting particles of different sizes, comprising:
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a light reflective imaging assembly including a pair of spaced-apart, opposed light reflecting surfaces between which gas-borne particles can enter; first and second light sources from which respective first and second light beams of different wavelengths propagate in directions for reflection by the light reflecting surfaces, the first and second light beams reflecting off each one of the pair of light reflecting surfaces as the first and second light beams propagate through the light reflective imaging assembly, the first and second light beams exiting the light reflective imaging assembly having intensities corresponding to concentrations of gas-borne particles of different ranges of sizes present between the light reflecting surfaces, the first and second ranges of sizes being determined by the wavelengths of, respectively, the first and second light beams; and a light detector positioned to receive a light beam representing at least one of the first and second ranges of sizes of the gas-borne particles in the light reflective imaging assembly. - View Dependent Claims (22, 23, 24, 25)
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26. A smoke detector of an obscuration type configured for placement of its optical components within the interior of an air duct having a duct side wall with an exterior surface, the smoke detector monitoring the quality of air flowing in an air flow direction through the interior of the air duct, comprising:
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a light reflective imaging assembly including a pair of spaced-apart, opposed light reflecting surfaces between which a concentration of smoke particles can enter and an optical axis extends; a support configured to extend through an opening in the duct side wall and having first and second ends, the first end holding the light reflective assembly within the interior of the air duct in a desired orientation that positions the optical axis transversely of the direction of air flow within the air duct, and the second end being mechanically coupled to the side wall to secure the support and thereby set the light reflective assembly in the desired orientation; a light source from which a light beam propagates in a direction for reflection by the light reflecting surfaces, the light beam reflecting off each one of the pair of light reflecting surfaces as it propagates through the light reflective imaging assembly, the light beam exiting the light reflective imaging assembly having an intensity corresponding to the concentration of smoke particles present between the light reflecting surfaces; and a light detector positioned to receive a light beam representing the concentration of smoke particles in the light reflective imaging assembly. - View Dependent Claims (27, 28, 29, 30)
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31. A rapidly responding, false detection immune smoke detector of a light obscuration type, comprising:
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a light source from which a light beam propagates; a light detector having a light receiving surface with a light detecting area and producing a signal in response to light incident on the light receiving surface; a light reflective imaging assembly in optical association with the light source and the light detector, the imaging assembly including first and second spaced-apart optical components having respective first and second opposed light reflecting surfaces forming between them a spatial region that smoke particles can occupy, the first and second optical components having light directing properties that cooperate to reflect the light beam between the first and second light reflecting surfaces and to direct the light beam toward the light detector for incidence on its light receiving surface and thereby cause the light detector to produce a signal corresponding to a concentration of the smoke particles occupying the spatial region; and circuitry operatively associated with the light detector to acquire during a data gathering time interval data from the signal corresponding to the concentration of the smoke particles occupying the spatial region, the data gathering time interval being long as compared to the time of a slow fire, and the circuit determining an adjustment value for application to the signal produced by the light detector in response to a change in the acquired data that, in the absence of smoke, is greater than a preassigned operational tolerance after the data gathering time interval.
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Specification