Combined scatter and light obscuration smoke detector
First Claim
1. In a smoke detector having a smoke chamber comprising top and bottom walls together with side walls provided with light-trapped openings for the admission of smoke, an image-forming optical component within said smoke chamber having its optical axis substantially parallel to the top and bottom walls, a light emitter within said smoke chamber displaced to one side of said optical axis and directing light to said optical element, a first light sensor within said smoke chamber displaced to the opposite side of said optical axis and receiving light from said emitter by reflection from said optical component, and a second light sensor within said smoke chamber having its axis intercepting that of the axis of the optical component.
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Abstract
In a combined obscuration and scattered-light smoke detector, light from a light source in a smoke chamber is reflected from an image-forming optical component onto a first light sensor which senses a reduced electrical signal in the presence of smoke while a second sensor, viewing light from the light source at an angle, senses an increased electrical signal in the presence of smoke. The output of each receptor is subjected to a band pass filter, an amplifier and a comparator; the resultant signals insure early and reliable activation of an alarm when even a low level of smoke is present in the smoke detector. A second light source having a wavelength different from that of the first light source provides, in the obscuration mode, added sensitivity to smoke.
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Citations
18 Claims
- 1. In a smoke detector having a smoke chamber comprising top and bottom walls together with side walls provided with light-trapped openings for the admission of smoke, an image-forming optical component within said smoke chamber having its optical axis substantially parallel to the top and bottom walls, a light emitter within said smoke chamber displaced to one side of said optical axis and directing light to said optical element, a first light sensor within said smoke chamber displaced to the opposite side of said optical axis and receiving light from said emitter by reflection from said optical component, and a second light sensor within said smoke chamber having its axis intercepting that of the axis of the optical component.
- 5. A smoke detector having a smoke chamber comprising side walls provided with light-trapped openings for the admission of smoke and a pair of substantially parallel top and bottom walls, said chamber containing an image-forming optical component having its optical axis substantially parallel to said top and bottom walls, a first light emitter within said chamber and spaced from and coaxial with said image-forming optical component a distance equal to twice the focal length of the optical component so that light emitted from the first light emitter is focused back on itself, a second light emitter within said chamber and displaced to one side of said optical axis and directing light to said optical component along an off-axis path, a first light sensor within said chamber and displaced to the opposite side of said optical axis and receiving light from said second light emitter via an off-axis path from said optical component and a second with sensor within said chamber having its axis intercepting the axis of the optical element.
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13. The method of smoke detection comprising the steps of:
- emitting light from a source;
receiving said light on an image-forming optical component;
receiving an image of said source on a first light sensor via said optical component;
detecting the attenuation of light at said first light sensor, said attenuation of light resulting from the presence of smoke in the space between said source and said optical component and in the space between said optical component and said first light sensor;
receiving scattered light at a second light sensor, said scattered light resulting from the presence of smoke in said spaces;
measuring the level of output of each of said sensors; and
activating an indicator when either the output of said first light sensor falls below a predetermined level or when the output of said second sensor rises above a different predetermined level.
- emitting light from a source;
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14. A method of smoke detection comprising:
- detecting attenuation of light on a first signal-emitting light sensor spaced apart from and having a direct optical path to a first light source of a given wavelength, said attenuation resulting from the presence of smoke between said first sensor and said first light source;
detecting at a second signal-emitting light sensor, in the presence of said smoke, the scattering of light from a second light source having a wavelength longer than that of said first light source;
measuring the level of output of each of said light sensors; and
activating an indicator when either the output of said first light sensor falls below a predetermined level or when the output of said second light sensor rises above a different predetermined level.
- detecting attenuation of light on a first signal-emitting light sensor spaced apart from and having a direct optical path to a first light source of a given wavelength, said attenuation resulting from the presence of smoke between said first sensor and said first light source;
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15. A method of smoke detection comprising:
- detecting the attenuation of light on a first signal-emitting light sensor spaced apart from and having a direct optical path to a first light source of a given wavelength, said attenuation resulting from the presence of said smoke between said first sensor and said light source;
detecting in the presence of smoke, on a second signal-emitting light sensor the scattering of light both from said first light source and from a second light source having a wavelength longer than that of said first light source;
measuring the level of output of each of said light sensors; and
activating an indicator when either the output of said first light sensor falls below a predetermined level or when the output of said second sensor rises above another predetermined level.
- detecting the attenuation of light on a first signal-emitting light sensor spaced apart from and having a direct optical path to a first light source of a given wavelength, said attenuation resulting from the presence of said smoke between said first sensor and said light source;
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16. The method of smoke detection comprising the steps of:
- emitting light from a source;
receiving said light on an image-forming optical component;
receiving an image of said source on a first light sensor via said optical component;
detecting the attenuation of light at said first light sensor, said attenuation of light resulting from the presence of smoke in the space between said source and said optical component and in the space between said optical component and said first light sensor;
receiving scattered light at a second light sensor, said scattered light resulting from the presence of smoke in said spaces;
measuring the difference in the outputs of said first and second light sensors; and
activating an indicator when the difference in signal outputs of said first and second light sensors fall below a predetermined level.
- emitting light from a source;
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17. A method of smoke detection comprising:
- detecting attenuation of light on a first signal-emitting light receptor spaced apart from a first light source of a given wavelength, said attenuation resulting from the presence of smoke between first receptor and said first light source;
detecting at a second signal-emitting light detector, in the presence of said smoke, the scattering of light from a second light source having a wavelength longer than that of said first light source;
measuring the difference in the outputs of the two light receptors; and
activating an indicator when the difference in the levels of the signals emitted by said light receptors falls below a predetermined level.
- detecting attenuation of light on a first signal-emitting light receptor spaced apart from a first light source of a given wavelength, said attenuation resulting from the presence of smoke between first receptor and said first light source;
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18. A method of smoke detection comprising:
- detecting the attenuation of light on a first signal-emitting light receptor spaced apart from a first light source of a given wavelength, said attenuation resulting from the presence of smoke between said first receptor and said light source;
detecting, in the presence of said smoke, on a second signal-emitting light receptor the scattering of light from said first light source and from a second light source having a wavelength longer than that of said first source;
measuring the outputs of the two light receptors; and
activating an indicator when the difference in the levels of the signals emitted by said light receptors falls below a predetermined level.
- detecting the attenuation of light on a first signal-emitting light receptor spaced apart from a first light source of a given wavelength, said attenuation resulting from the presence of smoke between said first receptor and said light source;
Specification