Apparatus and method for sensing fluid level

US 5,747,824 A
Filed: 05/07/1997
Issued: 05/05/1998
Est. Priority Date: 12/01/1995
Status: Expired due to Term

First Claim

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1. An apparatus for detecting a fluid level contained within a transparent fluid reservoir having an outer surface, the apparatus comprising:

a) a plurality of radiant sources positioned vertically outside of the outer surface of the reservoir so that the radiant sources do not contact the fluid, each of the radiant sources emitting a beam of energy into the reservoir substantially along a transmission path that is angled so that the beam of energy does not penetrate an air/fluid interface; and

b) a plurality of receivers positioned vertically outside of the outer surface of the reservoir so that the receivers do not contact the fluid, each receiver being aligned along the transmission path of one of the plurality of radiation sources.

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Abstract

An array of four infrared LEDs and an array of four phototransistor receivers with each LED and phototransistor mounted inside a light baffle. The LEDs are positioned in a substantially vertical array just outside one side wall of the cassette. The vertical line on which the LEDs are arranged is substantially parallel to the direction in which the fluid/air interface moves within the cassette. The LEDs are aimed upwardly at an angle of approximately 20° from horizontal. A corresponding substantially vertical array of four phototransistor receivers is mounted outside the cassette opposite the LEDs such that each of the receivers is aimed at its corresponding LED.

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22 Claims

1. An apparatus for detecting a fluid level contained within a transparent fluid reservoir having an outer surface, the apparatus comprising:
- a) a plurality of radiant sources positioned vertically outside of the outer surface of the reservoir so that the radiant sources do not contact the fluid, each of the radiant sources emitting a beam of energy into the reservoir substantially along a transmission path that is angled so that the beam of energy does not penetrate an air/fluid interface; and
  
  b) a plurality of receivers positioned vertically outside of the outer surface of the reservoir so that the receivers do not contact the fluid, each receiver being aligned along the transmission path of one of the plurality of radiation sources.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
- - 2. The apparatus of claim 1 further comprising:
    - a) a source baffle attached to each radiant source; and
      
      b) a receiver baffle attached to each receiver.
  - 3. The apparatus of claim 1 wherein there are at least three radiant sources and at least three receivers.
  - 4. The apparatus of claim 1 wherein the radiant sources are light emitting diodes and the receivers are phototransistors.
  - 5. The apparatus of claim 4 further comprising:
    - a) a source baffle attached to each light emitting diode; and
      
      b) a receiver baffle attached to each phototransistor.
  - 6. The apparatus of claim 5 wherein the light emitting diodes are turned on and turned off sequentially such that only one light emitting diode is on at any given time.
  - 7. The apparatus of claim 2 wherein there are at least three radiant sources and at least three receivers.
  - 8. The apparatus of claim 6 wherein:
    - a) the source baffle blocks energy that is emitted by its corresponding light emitting diode at an angle of greater than about five degrees from the corresponding transmission path, andb) the receiver baffle prevents the phototransistors to which the receiver baffle is attached from receiving energy from an angle of more than about five degrees from the corresponding transmission path.
  - 9. The apparatus of claim 8 wherein the light emitting diodes emit infrared radiation.
  - 10. The apparatus of claim 4 wherein the light emitting diodes emit infrared radiation.
  - 11. The apparatus of claim 5 wherein there are at least three light emitting diodes and at least three phototransistors.
  - 12. The apparatus of claim 1 wherein the radiant sources are turned on and turned off sequentially such that only one radiant source is on at a time.
  - 13. The apparatus of claim 4 wherein the light emitting diodes are turned on and off sequentially such that only one LED is on at a time.

14. An apparatus for detecting a level of a fluid within a surgical cassette, the surgical cassette having a first cassette wall and a second cassette wall, the fluid being contained between the first cassette wall and the second cassette wall, comprising:
- a) a first light emitting diode positioned outside of the first cassette wall so that the first light emitting diode does not contact the fluid, and so that the first light emitting diode emits radiation predominantly along a first transmission path, the first transmission path being aimed upwardly at an angle so that the radiation does not penetrate a air/fluid interface when the air/fluid interface intersects the first transmission path; and
  
  b) a first source baffle mounted on the first light emitting diode so that the first source baffle blocks any energy emitted by the first light emitting diode at an angle of greater than about five degrees from the first transmission path;
  
  c) a first phototransistor positioned outside of the second cassette wall so that the first phototransistor does not contact the fluid, and so that the first phototransistor receives radiation along the first transmission path from the first light emitting diode;
  
  d) a first receiver baffle mounted on the first phototransistor such that the first receiver baffle prevents energy from impinging upon the first phototransistor from a direction of greater than about five degrees from the first transmission path;
  
  e) a second light emitting diode positioned outside of the first cassette wall so that the second light emitting diode does not contact the fluid and so that the second light emitting diode emits radiation predominantly along a second transmission path, the second transmission path being aimed upwardly at an angle so that the radiation does not penetrate the air/fluid interface when the air/fluid interface intersects the second transmission path;
  
  f) a second source baffle mounted on the second light emitting diode so that the second source baffle blocks any energy emitted by the second light emitting diode at an angle of greater than about five degrees from the second transmission path;
  
  g) a second phototransistor positioned outside of the second cassette wall so that the second phototransistor does not contact the fluid, and so that the second phototransistor receives radiation along the second transmission path from the second light emitting diode;
  
  h) a second receiver baffle mounted on the second phototransistor such that the second receiver baffle prevents energy from impinging upon the second phototransistor from a direction of greater than about five degrees from the second transmission path;
  
  i) a third light emitting diode positioned outside of the first cassette wall so that the third light emitting diode does not contact the fluid, and so that the third light emitting diode emits radiation predominantly along a third transmission path, the third transmission path being aimed upwardly at an angle so that the radiation does not penetrate the air/fluid interface when the air/fluid interface intersects the third transmission path;
  
  j) a third source baffle mounted on the third light emitting diode so that the third source baffle blocks any energy emitted by the third light emitting diode at an angle of greater than about five degrees from the third transmission path;
  
  k) a third phototransistor positioned outside of the second cassette wall so that the third phototransistor does not contact the fluid, and so that the third phototransistor receives radiation along the third transmission path from the third light emitting diode;
  
  l) a third receiver baffle mounted on the third phototransistor such that the third receiver baffle prevents energy from impinging upon the third phototransistor from a direction of greater than about five degrees from the third transmission path;
  
  m) a fourth light emitting diode positioned outside of the first cassette wall so that the fourth light emitting diode does not contact the fluid, and so that the fourth light emitting diode emits radiation predominantly along a fourth transmission path, the fourth transmission path being aimed upwardly at an angle so that the radiation does not penetrate the air/fluid interface when the air/fluid interface intersects the fourth transmission path;
  
  n) a fourth source baffle mounted on the fourth light emitting diode so that the fourth source baffle blocks any energy emitted by the fourth light emitting diode at an angle of greater than about five degrees from the fourth transmission path;
  
  o) a fourth phototransistor positioned outside of the second cassette wall so that the fourth phototransistor does not contact the fluid, and so that the fourth phototransistor receives radiation along the fourth transmission path from the fourth light emitting diode; and
  
  p) a fourth receiver baffle mounted on the fourth phototransistor such that the fourth receiver baffle prevents energy from impinging upon the fourth phototransistor from a direction of greater than about five degrees from the fourth transmission path.

15. An method of detecting a fluid level contained within a transparent fluid reservoir having an outer surface, the method comprising the steps of:
- a) causing a plurality of radiant sources positioned vertically outside of the outer surface of the reservoir so that the radiant sources do not contact the fluid sequentially to emit a beam of energy into the reservoir substantially along a transmission path that is angled so that the beam of energy does not penetrate an air/fluid interface; and
  
  b) detecting the energy beams emitted by the plurality of radiation sources using a plurality of receivers positioned vertically outside of the outer surface of the reservoir so that the receivers do not contact the fluid, each receiver being aligned along the transmission path of one of the plurality of radiation sources.
- View Dependent Claims (16, 17, 18, 19, 20, 21, 22)
- - 16. The method of claim 15 wherein:
    - a) a source baffle is attached to each radiant source; and
      
      b) a receiver baffle is attached to each receiver.
  - 17. The method of claim 15 wherein there are at least three radiant sources and at least three receivers.
  - 18. The method of claim 15 wherein the radiant sources are light emitting diodes and the receivers are phototransistors.
  - 19. The method of claim 18 wherein:
    - a) a source baffle is attached to each light emitting diode; and
      
      b) a receiver baffle is attached to each phototransistor.
  - 20. The method of claim 16 wherein there are at least three radiant sources and at least three receivers.
  - 21. The method of claim 20 wherein:
    - a) the source baffle blocks energy at an angle of greater than about five degrees from the corresponding transmission path from being emitted by the light emitting diode to which the source baffle is attached, andb) the receiver baffle prevents the phototransistors to which the receiver baffle is attached from receiving energy from an angle of more than about five degrees from the corresponding transmission path.
  - 22. The method of claim 21 wherein the light emitting diodes emit infrared radiation.

Specification

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Litigation Campaign Assessment

Current Assignee
Alcon Research Limited (Nestle SA)
Original Assignee
Alcon Laboratories Incorporated (Alcon Incorporated)
Inventors
Nazarifar, Nader, Jung, Christopher C.
Primary Examiner(s)
Westin, Edward P.
Assistant Examiner(s)
PYO, KEVIN K

Application Number

US08/852,792
Time in Patent Office

363 Days
Field of Search

250/577, 250/900, 340/619, 356/436, 356/442, 73/293
US Class Current

250/577
CPC Class Codes

A61F 9/0008   Introducing ophthalmic prod...

A61F 9/00736   Instruments for removal of ...

A61M 1/3624   Level detectors; Level control

A61M 1/72   Cassettes forming partially...

A61M 2205/3306   Optical measuring means

A61M 2205/3389   Continuous level detection ...

A61M 2210/0612   Eyes

A61M 3/0201   Cassettes therefor

G01F 23/2921   for discrete levels

Apparatus and method for sensing fluid level

First Claim

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Abstract

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22 Claims

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Apparatus and method for sensing fluid level

First Claim

2 Assignments

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Abstract

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22 Claims

Specification

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