US2023160831A1PendingUtilityA1
Sensor system for multi-component fluids
Est. expiryJan 18, 2036(~9.5 yrs left)· nominal 20-yr term from priority
Inventors:John Coates
G01N 21/255G01J 3/0205G01N 21/8507G01J 3/42G01N 21/85G01J 3/457G01N 2201/08G01J 3/0291G01J 3/00G01J 3/0256G01N 21/359G01J 3/36G01J 3/0202
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Claims
Abstract
A remote sampling sensor for determining characteristics of a sample includes measurement optics and an insertion probe. The measurement optics are configured to emit light and detect returned light. The insertion probe includes a chamber, the chamber being configured to permit the sample to enter the chamber, an insertion tip at a distal end of the insertion probe, and a retro-reflective optic adjacent the insertion tip. The retro-reflective optic is configured to return the light from the measurement optics through the chamber to the measurement optics. The insertion probe is configured to be remotely located from the measurement optics.
Claims
exact text as granted — not AI-modified1 . A remote sampling sensor for determining characteristics of a sample, comprising:
measurement optics comprising a light emitter and a detector system; an insertion probe configured to permit the sample to enter the insertion probe; a coupling apparatus configured to couple light emitted from the light emitter to the insertion probe; and a fiber optic cable configured to return the light to the detector system, and wherein the insertion probe is configured to be remotely located from the measurement optics.
2 . The remote sampling sensor of claim 1 , wherein the insertion probe comprises:
a chamber, the chamber being configured to permit the sample to enter the chamber; an insertion tip at a distal end of the insertion probe; and a retro-reflective optic adjacent the insertion tip, the retro-reflective optic being configured to return the light from the measurement optics through the chamber to the measurement optics
3 . The remote sampling sensor of claim 2 , wherein the chamber is an adjustable measurement chamber.
4 . The remote sampling sensor of claim 1 , wherein the insertion tip is disposable and is replaceable with another disposable insertion tip to permit measurement of a sample without contamination from a previous measurement.
5 . The remote sampling sensor of claim 1 , wherein the measurement optics further comprise a light guide configured to transmit the light to the chamber, wherein the light guide is solid.
6 . The remote sampling sensor of claim 1 , wherein the measurement optics further comprise a light guide configured to transmit the light to the chamber, wherein the light guide comprises a hollow conduit.
7 . The remote sampling sensor of claim 1 , wherein the detector system includes an optical filter configured to detect a pre-determined wavelength intensity of radiation transmitted through the sample by the light emitter.
8 . The remote sampling sensor of claim 1 , wherein the light emitter comprises a broadband light source.
9 . The remote sampling sensor of claim 1 , wherein the detector system is configured to have multi-wavelength detection.
10 . The remote sampling sensor of claim 1 , wherein the light emitter is configured to emit a wavelength between about 10 nm and about 26000 nm.
11 . The remote sampling sensor of claim 1 , wherein the detector system has a plurality of detector elements, each element having a unique optical filter configured to detect a unique wavelength intensity of radiation transmitted through the sample by the light emitter.
12 . The remote sampling sensor of claim 1 , configured for sensing a property of milk.
13 . The remote sampling sensor of claim 1 , configured for sensing a property of dairy products.
14 . The remote sampling sensor of claim 1 , configured for sensing a property of an oil.
15 . The remote sampling sensor of claim 1 , configured for sensing a property of a seed oil or a vegetable oil.
16 . The remote sampling sensor of claim 1 , configured for sensing a property of olive oil.
17 . The remote sampling sensor of claim 1 , configured for sensing a property of alcohol.
18 . The remote sampling sensor of claim 1 , configured for sensing a property of a drug.
19 . A remote sampling sensor for determining characteristics of a sample, comprising:
measurement optics comprising a light emitter and a detector system, wherein the measurement optics are remote and isolated from the sample; an insertion probe configured to permit the sample to enter the insertion probe, the insertion probe being remote from and operably coupled to the measurement optics, a coupling apparatus configured to couple light emitted from the light emitter to the insertion probe; and a fiber optic cable configured to return the light to the detector system.
20 . The remote sampling sensor of claim 19 , wherein the insertion probe comprises:
an insertion tip at a distal end of the insertion probe; a retro-reflective optic, the retro-reflective optic being proximal of the insertion tip and being configured to return the light from the measurement optics to the measurement optics; and a chamber, the chamber being proximal of the retro-reflective optic and being configured to permit the sample to passively move through the chamber.Cited by (0)
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