Liquid measuring system

US 7,268,859 B2
Filed: 02/06/2004
Issued: 09/11/2007
Est. Priority Date: 05/15/2002
Status: Expired due to Fees

First Claim

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1. A liquid metering device comprising:

a conduit including a lumen adapted to permit liquid to flow through the conduit, a portion of the conduit having a wall adjacent the lumen through which light may pass;

a liquid heater adapted to heat a portion of the liquid at a first position along the conduit;

a light source adapted to generate at least one beam;

a beam splitter adapted to split the at least one beam into a first beam and a second beam directed along respective first and second beam paths, wherein at least one of;

(i) the first beam path passes, with respect to a first side of the conduit, all the way through the conduit and all the way through the lumen at a second position along the conduit and the second beam path does not pass through the lumen of the conduit, wherein the first beam has a same frequency exiting the lumen as compared to entering the lumen, and(ii) the first beam path crosses the lumen at the second position along the conduit and the second beam path does not enter the lumen of the conduit and does not enter the wall of the conduit wherein the first beam has a same frequency exiting the lumen as compared to entering the lumen;

a device adapted to combine the first and second beams after the first beam has at least one of passed all the way through the lumen and crossed the lumen, respectively, such that the first and second beams undergo a degree of interference; and

an optical detector adapted to detect an intensity variation of the combined first and second beams caused by a heated portion of the liquid passing through the first beam.

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Abstract

Systems and methods for measuring the flow of a liquid along a conduit are disclosed. A heat source applies thermal energy to a portion of a liquid flowing along a conduit thereby elevating its temperature. A light source generates a first beam that passes through the liquid in the conduit downstream from the position of application of the thermal energy and an optical detector receives this beam in combination with a second beam that is not passed through the liquid in the conduit and measures a change in intensity of a combined beam. The time required for the heated portion of the liquid to move from the point of application of thermal energy to the point at which the beam passes through the liquid is measured. This measured time, along with the distance of separation of the heat source and the optical sensing means permits calculation of the velocity of the liquid in the conduit.

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22 Claims

1. A liquid metering device comprising:
- a conduit including a lumen adapted to permit liquid to flow through the conduit, a portion of the conduit having a wall adjacent the lumen through which light may pass;
  
  a liquid heater adapted to heat a portion of the liquid at a first position along the conduit;
  
  a light source adapted to generate at least one beam;
  
  a beam splitter adapted to split the at least one beam into a first beam and a second beam directed along respective first and second beam paths, wherein at least one of;
  
  (i) the first beam path passes, with respect to a first side of the conduit, all the way through the conduit and all the way through the lumen at a second position along the conduit and the second beam path does not pass through the lumen of the conduit, wherein the first beam has a same frequency exiting the lumen as compared to entering the lumen, and(ii) the first beam path crosses the lumen at the second position along the conduit and the second beam path does not enter the lumen of the conduit and does not enter the wall of the conduit wherein the first beam has a same frequency exiting the lumen as compared to entering the lumen;
  
  a device adapted to combine the first and second beams after the first beam has at least one of passed all the way through the lumen and crossed the lumen, respectively, such that the first and second beams undergo a degree of interference; and
  
  an optical detector adapted to detect an intensity variation of the combined first and second beams caused by a heated portion of the liquid passing through the first beam.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
- - 2. The liquid metering system of claim 1 further comprising an optical phase delay element in the first path or the second path.
  - 3. The liquid metering system of claim 2, wherein the optical phase delay element is separate from the conduit.
  - 4. The liquid metering system of claim 1 wherein the wall is a glass wall or a polymer wall.
  - 5. The liquid metering system of claim 1 wherein the lumen has a rectangular or square cross section.
  - 6. The liquid metering system of claim 1 wherein the liquid heater is an infrared laser.
  - 7. The liquid metering system of claim 1 wherein the light source emits visible light.
  - 8. The liquid metering system of claim 1 wherein the light source is coherent.
  - 9. The device of claim 1, further comprising:
    - a processor adapted to determine the speed at which the liquid is passing through the conduit based on the time between the point at which fluid begins to flow through the conduit and the time that the optical detector detects an intensity variation of the combined first and second beams.
  - 10. The device of claim 1, further comprising:
    - a processor adapted to determine the speed at which the liquid is passing through the conduit based on the time between the point at which the fluid is heated while moving through the conduit and the time that the optical detector detects an intensity variation of the combined first and second beams.
  - 11. The device of claim 1, wherein the detector detects a change in the degree of interference caused by the heated portion of the liquid passing through the first beam.

12. A method of metering a liquid comprising the steps of:
- heating a portion of the liquid at a first position along a conduit including a lumen, wherein the conduit has a wall adjacent the lumen at a second position downstream from the first position;
  
  directing a first beam of light along a first path;
  
  directing a second beam of light along a second path,wherein at least one of;
  
  (i) the first path passes, with respect to a first side of the conduit, all the way through the conduit and through the lumen and the second path does not pass through the lumen of the conduit, wherein the first beam has a same frequency exiting the lumen as compared to entering the lumen, and(ii) the first path crosses the lumen and the second path does not enter the lumen of the conduit and does not enter the wall of the conduit, wherein the first beam has a same frequency exiting the lumen as compared to entering the lumen;
  
  the method further comprising;
  
  recombining the first and second beams after the first beam has at least one of passed all the way through the lumen and crossed the lumen, respectively, such that the first and second beams undergo a degree of interference; and
  
  detecting a change in the intensity of the recombined first and second beams caused by the heated portion of the liquid passing through the first beam of light.
- View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20, 21, 22)
- - 13. The method of claim 12 wherein the wall is a glass wall or a polymer wall.
  - 14. The method of claim 12 wherein the lumen has a rectangular or square cross section.
  - 15. The method of claim 12 wherein the first and second beams are visible light beams.
  - 16. The method of claim 12 wherein the heating step comprises the step of directing an infrared laser beam to the liquid.
  - 17. The method of claim 12, wherein an optical phase delay element is located in the first path or the second path.
  - 18. The method of claim 17, wherein the optical phase delay element is separate from the conduit.
  - 19. The method of claim 12 wherein the source of the first and second beams is a coherent light source.
  - 20. The method of claim 12, further comprising detecting a change in the degree of interference caused by the heated portion of the liquid passing through the first beam of light.
  - 21. The method of claim 12, further comprising:
    - automatically determining the speed at which the liquid is passing through the conduit based on the time between the point at which fluid begins to flow through the conduit and the time that the optical detector detects an intensity variation of the combined first and second beams.
  - 22. The method of claim 12, further comprising:
    - automatically determining the speed at which the liquid is passing through the conduit based on the time between the point at which the fluid is heated while moving through the conduit and the time that the optical detector detects an intensity variation of the combined first and second beams.

Specification

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Current Assignee
TheraFuse, Inc.
Original Assignee
TheraFuse, Inc.
Inventors
Catanzaro, Brian, Sage, Burton H. Jr.
Primary Examiner(s)
ALSOMIRI, ISAM A

Application Number

US10/772,418
Publication Number

US 20050050941A1
Time in Patent Office

1,313 Days
Field of Search

356/28, 356/28.5, 732/025, 7320411-20414
US Class Current

356/28.5
CPC Class Codes

A61M 2005/16863   Occlusion detection

A61M 2205/3306   Optical measuring means

A61M 2205/3368   Temperature

A61M 5/1452   pressurised by means of pis...

A61M 5/16886   for measuring fluid flow ra...

G01F 1/7044   using thermal tracers

G01F 1/7084   using thermal detecting arr...

G01F 1/7086   using optical detecting arr...

Liquid measuring system

First Claim

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Abstract

85 Citations

22 Claims

Specification

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Liquid measuring system

First Claim

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Accused Products

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Abstract

85 Citations

22 Claims

Specification

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Use Cases

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Others