Fluid composition sensor using reflected or refracted light monitoring
First Claim
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1. Sensor apparatus for monitoring the composition of a fluid comprising:
- a) a vessel for holding a fluid and including one or more openings for allowing radiation to enter and to exit the vessel;
b) a radiation source for directing a beam of radiation along a path that causes the radiation to enter the vessel;
c) a prism having a radiation transmitting surface that covers said one or more openings in the vessel and further having first and second reflecting surfaces having a specified orientation with respect to each other wherein a first reflecting surface is oriented with respect to an angle of incidence of radiation passing through the prism from the radiation source so that a significant portion of light contacting the first reflecting surface is reflected off the first reflecting surface along a path completely within the prism to the second reflecting surface where a significant portion of the radiation reaching the second reflecting surface is reflected off the second reflecting surface and exits the prism and the vessel;
d) a first radiation detector for monitoring intensity of radiation leaving the vessel that has been reflected off the second reflecting surface of the prism;
e) a second radiation detector for monitoring intensity of radiation from the radiation source that does not enter the vessel; and
f) means for determining fluid composition based on the intensity sensed by the first and the second radiation detectors.
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Abstract
A gas density sensor having a prism in contact with a fluid whose density is determined. A light source shines light into the prism. The light is reflected off prism surfaces in contact with the fluid. As the fluid density changes, the amount of light reflecting off these surfaces changes depending upon fluid density. A detector placed to receive light reflecting off the surfaces determines density from sensed light.
44 Citations
16 Claims
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1. Sensor apparatus for monitoring the composition of a fluid comprising:
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a) a vessel for holding a fluid and including one or more openings for allowing radiation to enter and to exit the vessel; b) a radiation source for directing a beam of radiation along a path that causes the radiation to enter the vessel; c) a prism having a radiation transmitting surface that covers said one or more openings in the vessel and further having first and second reflecting surfaces having a specified orientation with respect to each other wherein a first reflecting surface is oriented with respect to an angle of incidence of radiation passing through the prism from the radiation source so that a significant portion of light contacting the first reflecting surface is reflected off the first reflecting surface along a path completely within the prism to the second reflecting surface where a significant portion of the radiation reaching the second reflecting surface is reflected off the second reflecting surface and exits the prism and the vessel; d) a first radiation detector for monitoring intensity of radiation leaving the vessel that has been reflected off the second reflecting surface of the prism; e) a second radiation detector for monitoring intensity of radiation from the radiation source that does not enter the vessel; and f) means for determining fluid composition based on the intensity sensed by the first and the second radiation detectors. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A method for determining the density of a gas comprising the steps of:
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a) mounting a prism in a vessel so that first and second reflecting surfaces of the prism that have a specific orientation with respect to each other are in contact with a gas inside the vessel interior and the prism covers one or more access openings in said vessel; b) directing radiation into one of the access openings to pass through a radiation transmitting surface of the prism along a path that causes at least some of the radiation to pass through the prism and reflect off the first reflecting surface to a path completely within the prism to the second reflecting surface where said radiation is again reflected toward one of said access openings to exit the vessel; c) monitoring radiation leaving the prism that has reflected off the first and second reflecting surfaces; and d) correlating monitored radiation with a density of gas inside the vessel. - View Dependent Claims (10, 11)
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12. Apparatus for monitoring a density of a gas comprising:
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a) a vessel containing a gas whose density is being monitored, said vessel including a gas port for putting gas into the vessel and at least one optics port for allowing radiation to enter and/or leave the vessel; b) multi-sided radiation transmissive prism supported within the vessel to intercept radiation entering the vessel having first and second reflecting surfaces at an interface between the gas and the radiation transmissive prism; c) a radiation source for directing a beam of radiation into the vessel through the optics port to the radiation transmissive means along a path causing the radiation to strike a first reflecting surface of said prism at a controlled angle and then reflect off said first reflecting surface and pass along a path completely within the prism to said second reflecting surface; d) a detector for monitoring radiation intensity after the radiation reflects off the second reflecting surface of said prism; and e) circuitry for providing an indication of gas density based upon an output from the detector. - View Dependent Claims (13)
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14. A sensor for monitoring the composition of a fluid comprising:
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a) a vessel for holding a fluid within a confined region; b) an elongated radiation transmissive rod having a reflecting surface at a distal end and a generally cylindrical outer surface in contact with the fluid within said vessel symmetric with respect to a centerline of the rod that extends along at least a portion of the length of the rod; c) a radiation source positioned along a line co-incident with the centerline of said rod for emitting radiation toward a proximal, non-immersed end of the elongated rod; d) an aperture stop positioned between the radiation source and the proximal end of the rod that includes a surface for intercepting radiation from the source to allow said radiation to enter the proximal end of said elongated rod at only controlled angles; e) a first radiation detector mounted to the aperture stop for monitoring intensity of radiation that has reflected off the reflecting surface of the rod; f) a second radiation detector located behind the aperture stop for monitoring intensity of radiation from the radiation source that does not enter the elongated rod; and g) means for determining fluid composition based on the intensity sensed by the first and the second radiation detectors. - View Dependent Claims (15)
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16. Sensor apparatus for monitoring the composition of a fluid comprising:
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a) a prism positioned with a fluid sample and having a refracting surface in contact with a fluid sample; b) a radiation source for directing a beam of radiation along a path that causes the radiation to reach the refracting surface of the prism at an angle to a normal direction of the surface to cause a substantial portion of the radiation to be refracted away from the normal to pass through the refracting surface and enter said fluid; c) a first radiation detector for monitoring intensity of radiation that has been refracted at the refracting surface of the prism and enters the fluid sample; and d) circuitry for determining fluid composition based on the radiation intensity sensed by the first radiation detector.
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Specification
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Current AssigneeUusi LLC (Nartron Corporation)
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Original AssigneeNartron Corporation
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InventorsZhang, Guangyu, Cooper, Stephen R. W.
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Primary Examiner(s)EVANS, FANNIE L
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Application NumberUS08/217,611Time in Patent Office509 DaysField of Search356/128, 356/133, 356/135, 356/136, 356/137, 73/30.01, 73/30.02, 73/30.04, 73/705US Class Current356/133CPC Class CodesG01N 21/43 by measuring critical angle
